diff --git a/components/test/CIConfigs/Function_SYS_01.yml b/components/test/CIConfigs/Function_SYS_01.yml new file mode 100644 index 000000000..501f15f6b --- /dev/null +++ b/components/test/CIConfigs/Function_SYS_01.yml @@ -0,0 +1,5 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC1] +Filter: +- ADD: + ID: [SYS_MISC_0101, SYS_MISC_0201] diff --git a/components/test/CIConfigs/Function_TCPIP_01.yml b/components/test/CIConfigs/Function_TCPIP_01.yml new file mode 100644 index 000000000..9b43ab589 --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_01.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [TCPIP_ICMP_0101, TCPIP_ARP_0202, ^TCPIP_DHCP_0302, ^TCPIP_DHCP_0301, ^TCPIP_UDP_0113, + TCPIP_DHCP_0302, TCPIP_DHCP_0301, TCPIP_ARP_0204, TCPIP_TCP_0412, TCPIP_TCP_0403, + TCPIP_TCP_0402, TCPIP_TCP_0401, TCPIP_TCP_0407, TCPIP_TCP_0406, TCPIP_TCP_0404, + TCPIP_TCP_0408, ^TCPIP_TCP_0202, TCPIP_TCP_0110, ^TCPIP_TCP_0203, TCPIP_DHCP_0101, + TCPIP_DHCP_0103, TCPIP_DHCP_0102, ^TCPIP_UDP_0303, ^TCPIP_UDP_0302, ^TCPIP_UDP_0301, + TCPIP_DNS_0102, TCPIP_DNS_0101, TCPIP_IP_0101, TCPIP_IP_0102, ^TCPIP_IGMP_0102, + ^TCPIP_IGMP_0101] diff --git a/components/test/CIConfigs/Function_TCPIP_02.yml b/components/test/CIConfigs/Function_TCPIP_02.yml new file mode 100644 index 000000000..7e0a3ead4 --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_02.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [^TCPIP_IGMP_0104, ^TCPIP_UDP_0110, TCPIP_IGMP_0104, TCPIP_IGMP_0103, TCPIP_IGMP_0102, + TCPIP_IGMP_0101, ^TCPIP_UDP_0201, ^TCPIP_ICMP_0101, TCPIP_UDP_0108, TCPIP_UDP_0109, + TCPIP_UDP_0106, TCPIP_UDP_0107, TCPIP_UDP_0104, TCPIP_UDP_0105, TCPIP_UDP_0102, + TCPIP_UDP_0103, TCPIP_UDP_0101, TCPIP_IGMP_0204, TCPIP_IGMP_0201, TCPIP_IGMP_0202, + TCPIP_IGMP_0203, ^TCPIP_TCP_0404, ^TCPIP_TCP_0406, ^TCPIP_TCP_0407, ^TCPIP_TCP_0401, + ^TCPIP_TCP_0402, ^TCPIP_TCP_0403, ^TCPIP_TCP_0408, TCPIP_UDP_0201, ^TCPIP_UDP_0307, + ^TCPIP_UDP_0306] diff --git a/components/test/CIConfigs/Function_TCPIP_03.yml b/components/test/CIConfigs/Function_TCPIP_03.yml new file mode 100644 index 000000000..33dcd14be --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_03.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [^TCPIP_UDP_0305, ^TCPIP_UDP_0304, ^TCPIP_TCP_0101, ^TCPIP_TCP_0103, ^TCPIP_TCP_0102, + ^TCPIP_TCP_0105, ^TCPIP_TCP_0104, ^TCPIP_TCP_0107, ^TCPIP_TCP_0106, ^TCPIP_DHCP_0210, + ^TCPIP_DHCP_0211, TCPIP_TCP_0212, TCPIP_TCP_0210, ^TCPIP_TCP_0210, ^TCPIP_TCP_0212, + TCPIP_DHCP_0211, TCPIP_DHCP_0210, TCPIP_UDP_0202, TCPIP_TCP_0411, ^TCPIP_IP_0102, + ^TCPIP_UDP_0105, ^TCPIP_UDP_0104, ^TCPIP_UDP_0107, ^TCPIP_UDP_0106, ^TCPIP_UDP_0101, + ^TCPIP_UDP_0103, ^TCPIP_UDP_0102, ^TCPIP_DHCP_0102, ^TCPIP_DHCP_0103, ^TCPIP_UDP_0108, + ^TCPIP_IGMP_0201] diff --git a/components/test/CIConfigs/Function_TCPIP_04.yml b/components/test/CIConfigs/Function_TCPIP_04.yml new file mode 100644 index 000000000..af2cc7d22 --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_04.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [^TCPIP_IGMP_0203, ^TCPIP_IGMP_0202, ^TCPIP_IGMP_0204, TCPIP_UDP_0114, TCPIP_UDP_0111, + TCPIP_UDP_0110, TCPIP_UDP_0113, TCPIP_UDP_0112, ^TCPIP_TCP_0201, ^TCPIP_TCP_0206, + ^TCPIP_TCP_0207, TCPIP_TCP_0501, ^TCPIP_DNS_0101, ^TCPIP_DNS_0103, ^TCPIP_DNS_0102, + TCPIP_TCP_0106, TCPIP_TCP_0107, TCPIP_TCP_0104, TCPIP_TCP_0105, TCPIP_TCP_0102, + TCPIP_TCP_0103, TCPIP_TCP_0101, ^TCPIP_TCP_0116, ^TCPIP_TCP_0114, ^TCPIP_TCP_0115, + ^TCPIP_TCP_0112, ^TCPIP_TCP_0113, ^TCPIP_TCP_0110, ^TCPIP_TCP_0111, TCPIP_ARP_0101, + TCPIP_UDP_0304] diff --git a/components/test/CIConfigs/Function_TCPIP_05.yml b/components/test/CIConfigs/Function_TCPIP_05.yml new file mode 100644 index 000000000..a89ece34c --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_05.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [TCPIP_UDP_0305, TCPIP_UDP_0306, TCPIP_UDP_0307, TCPIP_UDP_0301, TCPIP_UDP_0302, + TCPIP_UDP_0303, ^TCPIP_DHCP_0209, ^TCPIP_DHCP_0208, ^TCPIP_DHCP_0207, ^TCPIP_DHCP_0206, + ^TCPIP_DHCP_0205, ^TCPIP_DHCP_0204, ^TCPIP_DHCP_0203, ^TCPIP_DHCP_0202, ^TCPIP_DHCP_0201, + TCPIP_TCP_0204, TCPIP_TCP_0207, TCPIP_TCP_0206, TCPIP_TCP_0201, ^TCPIP_DHCP_0101, + TCPIP_TCP_0203, TCPIP_TCP_0202, TCPIP_TCP_0208, TCPIP_DNS_0103, TCPIP_DHCP_0206, + TCPIP_DHCP_0207, TCPIP_DHCP_0204, TCPIP_DHCP_0205, TCPIP_DHCP_0202, TCPIP_DHCP_0203, + ^TCPIP_TCP_0204] diff --git a/components/test/CIConfigs/Function_TCPIP_06.yml b/components/test/CIConfigs/Function_TCPIP_06.yml new file mode 100644 index 000000000..929aafd13 --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_06.yml @@ -0,0 +1,8 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [TCPIP_DHCP_0201, ^TCPIP_TCP_0208, TCPIP_DHCP_0208, TCPIP_DHCP_0209, ^TCPIP_TCP_0412, + ^TCPIP_TCP_0411, TCPIP_ARP_0203, ^TCPIP_UDP_0112, ^TCPIP_UDP_0114, ^TCPIP_UDP_0202, + ^TCPIP_IGMP_0103, ^TCPIP_IP_0101, TCPIP_ARP_0201, TCPIP_TCP_0115, TCPIP_TCP_0114, + TCPIP_TCP_0116, TCPIP_TCP_0111, TCPIP_TCP_0113, TCPIP_TCP_0112] diff --git a/components/test/CIConfigs/Function_TCPIP_07.yml b/components/test/CIConfigs/Function_TCPIP_07.yml new file mode 100644 index 000000000..d42b5902a --- /dev/null +++ b/components/test/CIConfigs/Function_TCPIP_07.yml @@ -0,0 +1,5 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC1] +Filter: +- ADD: + ID: [TCPIP_TCP_0405, ^TCPIP_TCP_0405] diff --git a/components/test/CIConfigs/Function_WIFI_01.yml b/components/test/CIConfigs/Function_WIFI_01.yml new file mode 100644 index 000000000..594a1fc21 --- /dev/null +++ b/components/test/CIConfigs/Function_WIFI_01.yml @@ -0,0 +1,11 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [^WIFI_CONN_0601, ^WIFI_ADDR_0101, ^WIFI_CONN_0903, WIFI_SCAN_0103, WIFI_SCAN_0102, + WIFI_SCAN_0101, WIFI_SCAN_0105, WIFI_SCAN_0104, WIFI_CONN_0201, WIFI_CONN_0702, + WIFI_CONN_0703, WIFI_CONN_0701, WIFI_CONN_0904, ^WIFI_CONN_0201, ^WIFI_CONN_0701, + ^WIFI_CONN_0703, ^WIFI_SCAN_0102, ^WIFI_SCAN_0103, ^WIFI_SCAN_0104, ^WIFI_SCAN_0105, + ^WIFI_ADDR_0102, WIFI_CONN_0401, ^WIFI_CONN_0103, WIFI_ADDR_0101, WIFI_ADDR_0102, + WIFI_CONN_0301, ^WIFI_CONN_0801, WIFI_CONN_0104, ^WIFI_CONN_0301, WIFI_CONN_0501, + WIFI_CONN_0502] diff --git a/components/test/CIConfigs/Function_WIFI_02.yml b/components/test/CIConfigs/Function_WIFI_02.yml new file mode 100644 index 000000000..30735791b --- /dev/null +++ b/components/test/CIConfigs/Function_WIFI_02.yml @@ -0,0 +1,9 @@ +Config: {debug mode: false, execute count: 1, execute order: in order} +DUT: [SSC2, SSC1] +Filter: +- ADD: + ID: [^WIFI_CONN_0401, WIFI_MODE_0101, WIFI_MODE_0103, WIFI_MODE_0102, ^WIFI_CONN_0904, + ^WIFI_CONN_0902, ^WIFI_CONN_0901, WIFI_CONN_0601, WIFI_CONN_0901, WIFI_CONN_0902, + WIFI_CONN_0903, WIFI_CONN_0503, ^WIFI_CONN_0104, WIFI_CONN_0101, WIFI_CONN_0102, + WIFI_CONN_0103, ^WIFI_CONN_0702, WIFI_CONN_0801, ^WIFI_CONN_0101, ^WIFI_CONN_0503, + ^WIFI_CONN_0502, ^WIFI_CONN_0501, ^WIFI_SCAN_0101] diff --git a/components/test/InitialConditionAll.yml b/components/test/InitialConditionAll.yml new file mode 100644 index 000000000..797ccad55 --- /dev/null +++ b/components/test/InitialConditionAll.yml @@ -0,0 +1,2923 @@ +initial condition: +- check cmd set: + - '' + - - ASSERT + - [dummy] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + force restore cmd set: + - '' + - - SSC SSC[1-] reboot + - ['P SSC[1-] C !!!ready!!!'] + - - SSC SSC[1-] mesh -I -g -a 4 -k -i + -p -h 5 + - ['P SSC[1-] C ENCRYPTION,OK C GROUP,OK C SERVER,OK C HOP,OK'] + - - SSC SSC1 mesh -A -s -k + - ['P SSC1 C +MESHINIT:AP,OK'] + - - SSC SSC1 mesh -E -o 1 -t 1 + - ['P SSC1 C +MESH:ENABLED'] + - - SSC SSC[2-] mesh -E -o 1 -t 2 + - [''] + - - DELAY 60 + - ['P SSC[2-] C +MESH:ENABLED'] + - - SSC SSC[1-] mesh -C + - ['P SSC[1-] C +MESH:CONNECTED'] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + initial condition detail: root as LOCAL, rest node as ONLINE, mesh network established + restore cmd set: + - '' + - - SSC SSC[1-] mesh -E -o 0 + - ['P SSC[1-] C +MESH:DISABLED'] + - - SSC SSC[1-] mesh -I -g -a 4 -k -i + -p -h 5 + - ['P SSC[1-] C ENCRYPTION,OK C GROUP,OK C SERVER,OK C HOP,OK'] + - - SSC SSC1 mesh -A -s -k + - ['P SSC1 C +MESHINIT:AP,OK'] + - - SSC SSC1 mesh -E -o 1 -t 1 + - ['P SSC1 C +MESH:ENABLED'] + - - SSC SSC[2-] mesh -E -o 1 -t 2 + - [''] + - - DELAY 60 + - ['P SSC[2-] C +MESH:ENABLED'] + - - SSC SSC[1-] mesh -C + - ['P SSC[1-] C +MESH:CONNECTED'] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: ENABLED_2 + test script: InitCondBase +- check cmd set: + - '' + - - ASSERT + - [dummy] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + force restore cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC[1-] mesh -E -o 0 + - ['P SSC[1-] C +MESH:DISABLED'] + - - SSC SSC[1-] mesh -I -g -a 4 -k -i + -p -h 5 + - ['P SSC[1-] C ENCRYPTION,OK C GROUP,OK C SERVER,OK C HOP,OK'] + - - SSC SSC[1-] mesh -A -s -k + - ['P SSC[1-] C +MESHINIT:AP,OK'] + - - SSC SSC1 mesh -E -o 1 -t 2 + - ['P SSC1 C +MESH:ENABLED'] + - - SOC SOC1 MACCEPT GSOC1 + - [R SOC_COM L OK] + - - SSC SSC[2-] mesh -E -o 1 -t 2 + - ['P SSC[2-] C +MESH:ENABLED'] + - - DELAY 60 + - [''] + - - SSC SSC[1-] mesh -C + - ['P SSC[1-] C +MESH:CONNECTED'] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + - - SSC SSC[1-] mesh -O -t 1 -o 1 + - ['P SSC[1-] C +MESH:OK'] + initial condition detail: all mesh node enabled as ONLINE, mesh network established + restore cmd set: + - '' + - - SSC SSC[1-] reboot + - ['P SSC[1-] C !!!ready!!!'] + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC[1-] mesh -E -o 0 + - ['P SSC[1-] C +MESH:DISABLED'] + - - SSC SSC[1-] mesh -I -g -a 4 -k -i + -p -h 5 + - ['P SSC[1-] C ENCRYPTION,OK C GROUP,OK C SERVER,OK C HOP,OK'] + - - SSC SSC[1-] mesh -A -s -k + - ['P SSC[1-] C +MESHINIT:AP,OK'] + - - SSC SSC1 mesh -E -o 1 -t 2 + - ['P SSC1 C +MESH:ENABLED'] + - - SOC SOC1 MACCEPT GSOC1 + - [R SOC_COM L OK] + - - SSC SSC[2-] mesh -E -o 1 -t 2 + - ['P SSC[2-] C +MESH:ENABLED'] + - - DELAY 60 + - [''] + - - SSC SSC[1-] mesh -C + - ['P SSC[1-] C +MESH:CONNECTED'] + - - SSC SSC[1-] mesh -Q -t 4 + - ['R SSC[1-] T '] + - - MESHTREE + - ['R PC_COM RE "MESHTREE:%%s%20nodes"%%()'] + - - SSC SSC[1-] mesh -O -t 1 -o 1 + - ['P SSC[1-] C +MESH:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: ENABLED_1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 1 + - ['R SSC1 C BIN_ID,0'] + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + force restore cmd set: + - '' + - - SSC SSC1 upgrade -R -r 1 -s + - [R SSC1 NC ERROR C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SOC SOC1 ULISTEN + - [R SOC_COM L OK] + - - SOC SOC1 SETOPT REPLY BIN + - [R SOC_COM C OK] + - - SSC SSC1 upgrade -I -b 0 -f 0 + - ['P SSC1 C +UPGRADE:OK'] + - - SSC SSC1 upgrade -U -i -p -u + - ['P SSC1 C +UPGRADE:SUCCEED'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + initial condition detail: APSTA mode, connected to AP, running BIN0 (located on + flash id 0) + restore cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 upgrade -D + - ['R SSC1 C +UPGRADE:OK'] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: STAAPBIN0 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:3'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 ap -L + - ['R SSC1 RE "\+LSTA:.+,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + initial condition detail: testing ap on sta + ap mode, PC join AP (autogen) + restore cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 66.0 + tag: APSTA2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:3'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + initial condition detail: testing ap on sta + ap mode (autogen) + restore cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 59.0 + tag: APSTA1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:3'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + initial condition detail: testing sta on sta + ap mode, quit AP (autogen) + restore cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 45.0 + tag: STAAP1 + test script: InitCondBase +- check cmd set: + - '' + - - DELAY 0.1 + - [dummy] + force restore cmd set: + - '' + - - DELAY 0.1 + - [dummy] + initial condition detail: none 2 + restore cmd set: + - '' + - - DELAY 0.1 + - [dummy] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 108.0 + tag: ATNone2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:3'] + - - SSC SSC1 sta -Q + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + initial condition detail: testing sta on sta + ap mode, join AP, DHCP on (autogen) + restore cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 52.0 + tag: STAAP2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CWDHCP_CUR? + - ['R AT1 C DHCP:3'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + initial condition detail: StationSoftAP mode, connected to AP, multi link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 94.0 + tag: ATAPSTA3 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:2 C OK'] + - - ATS AT2 AT+CWMODE_CUR? + - ['R AT2 C +CWMODE_CUR:3 C OK'] + - - ATS AT1 AT+CWJAP_CUR? + - [R AT1 NC OK L ERROR] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=3 + - [R AT2 L OK] + initial condition detail: Target 1 in SoftAP mode, Target 2 in StationSoftAP mode, + use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=3 + - [R AT2 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 80.0 + tag: ATT2_2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:3 L OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - DELAY 5 + - [''] + - - ATC AT1 CWSAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + initial condition detail: StationSoftAP mode, PC join Target AP, multi link, use + dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 R *] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: ATAP3 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:1'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + initial condition detail: sta mode, quit AP, will NOT autogen a TC with initial + condition STAAP1 + restore cmd set: + - '' + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: STAO1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+RST + - [R AT1 L OK] + initial condition detail: StationSoftAP mode, both PC join Target AP, single link, + use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 3.0 + tag: ATAP5 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:3 L OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - DELAY 10 + - [''] + - - ATC AT1 CWSAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + initial condition detail: StationSoftAP mode, PC join Target AP, single link, use + dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 45.0 + tag: ATAP4 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+RST + - [R AT1 L OK] + initial condition detail: StationSoftAP mode, both PC join Target AP, multi link, + use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 3.0 + tag: ATAP6 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 1 + - ['R SSC1 C BIN_ID,0'] + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + force restore cmd set: + - '' + - - SSC SSC1 upgrade -R -r 1 -s + - [R SSC1 NC ERROR C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SOC SOC1 ULISTEN + - [R SOC_COM L OK] + - - SOC SOC1 SETOPT REPLY BIN + - [R SOC_COM C OK] + - - SSC SSC1 upgrade -I -b 0 -f 0 + - ['P SSC1 C +UPGRADE:OK'] + - - SSC SSC1 upgrade -U -i -p -u + - ['P SSC1 C +UPGRADE:SUCCEED'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + initial condition detail: AP only mode, running BIN0 (located on flash id 0) + restore cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + restore post cmd set: + - '' + - - SSC SSC1 upgrade -D + - ['R SSC1 C +UPGRADE:OK'] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: APOBIN0 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:1'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + initial condition detail: sta mode, quit AP, DHCP on + restore cmd set: + - '' + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: STAM1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:1'] + - - SSC SSC1 sta -Q + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + initial condition detail: sta mode, join AP, DHCP on + restore cmd set: + - '' + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: STAM2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+RST + - [R AT1 L OK] + initial condition detail: none + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 3.0 + tag: ATNone + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CWDHCP_CUR? + - ['R AT1 C DHCP:3'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + initial condition detail: StationSoftAP mode, connected to AP, single link, use + dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 101.0 + tag: ATAPSTA4 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CWDHCP_CUR? + - ['R AT1 C DHCP:3'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + initial condition detail: same as STA4, but will not autogen STA+AP STA test case + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: ATOSTA4 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + initial condition detail: same as STA1, but will not autogen STA+AP STA test case + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 10.0 + tag: ATOSTA1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - DELAY 5 + - [''] + - - ATC AT1 CWSAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + initial condition detail: StationSoftAP mode + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: ATAP1 + test script: InitCondBase +- check cmd set: + - '' + - - DELAY 0.1 + - [dummy] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + initial condition detail: none + restore cmd set: + - '' + - - DELAY 0.1 + - [dummy] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 10.0 + tag: None + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT+RESTORE + - [R AT1 L OK, R AT1 C ready] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT+RESTORE + - [R AT1 L OK, R AT1 C ready] + initial condition detail: 'first time usage. Use restore function. ' + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+RESTORE + - [R AT1 L OK, R AT1 C ready] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 143.0 + tag: ATFTU + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+RST + - [R AT1 L OK] + initial condition detail: SoftAP mode, both PC join Target AP, single link, use + dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 3.0 + tag: ATAPO5 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:1'] + - - SSC SSC1 sta -Q + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 1 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + initial condition detail: sta mode, join AP, DHCP on, will NOT autogen a TC with + initial condition STAAP2 + restore cmd set: + - '' + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: STAO2 + test script: InitCondBase +- check cmd set: + - '' + - - ASSERT + - [dummy] + force restore cmd set: + - '' + - - SSC SSC[1-] reboot + - ['P SSC[1-] C !!!ready!!!'] + - - SSC SSC[1-] mesh -E -o 0 + - ['P SSC[1-] C +MESH:DISABLED'] + - - SSC SSC[1-] op -S -o 1 + - ['P SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] sta -D + - ['P SSC[1-] C +QAP:OK'] + initial condition detail: all mesh node disabled + restore cmd set: + - '' + - - SSC SSC[1-] mesh -E -o 0 + - ['P SSC[1-] C +MESH:DISABLED'] + - - SSC SSC[1-] op -S -o 1 + - ['P SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] sta -D + - ['P SSC[1-] C +QAP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: DISABLED + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:3 C OK'] + - - ATS AT2 AT+CWMODE_CUR? + - ['R AT2 C +CWMODE_CUR:1 C OK'] + - - ATS AT1 AT+CWJAP_CUR? + - [R AT1 NC OK L ERROR] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=1 + - [R AT2 L OK] + - - ATS AT1 AT+CWQAP + - [R AT1 L OK] + initial condition detail: Target 1 in StationSoftAP mode, Target 2 in station mode, + use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=1 + - [R AT2 L OK] + - - ATS AT1 AT+CWQAP + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 52.0 + tag: ATT2_1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 ap -L + - ['R SSC1 RE "\+LSTA:.+,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + initial condition detail: AP mode, will NOT autogen a TC with initial condition + APSTA2 + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 38.0 + tag: APO2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + initial condition detail: AP mode, will NOT autogen a TC with initial condition + APSTA1 + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: APO1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:2 L OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATC AT1 CWSAP_DEF + - [R AT1 L OK] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + initial condition detail: SoftAP mode, PC join Target AP, multi link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 R *] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 66.0 + tag: ATAPO3 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + - - SSC SSC1 espnow -D + - ['R SSC1 C +ESPNOW:'] + force restore cmd set: + - '' + - - SSC SSC[1-] reboot + - ['R SSC[1-] C !!!ready!!!'] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 mac -S -m -o 2 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 espnow -D + - ['R SSC1 C +ESPNOW:'] + initial condition detail: one target in AP mode and espnow is de-initialized + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 mac -S -m -o 2 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 espnow -D + - ['R SSC1 C +ESPNOW:'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: NOW1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC[1-] op -Q + - ['R SSC[1-] C +CURMODE:2'] + - - SSC SSC[1-] mac -Q -o 3 + - ['R SSC[1-] P ]_ap_mac> P ]_mac>'] + - - SSC SSC[1-] espnow -D + - ['R SSC[1-] C +ESPNOW:'] + - - SSC SSC[1-] espnow -I + - ['R SSC[1-] C +ESPNOW:OK'] + - - SSC SSC[1-] espnow -R -t Set -r 2 + - ['R SSC[1-] C +ESPNOW:OK'] + force restore cmd set: + - '' + - - SSC SSC[1-] reboot + - ['R SSC[1-] C !!!ready!!!'] + - - SSC SSC[1-] op -S -o 3 + - ['R SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] mac -S -m ]_ap_mac> -o 2 + - ['R SSC[1-] C +MAC:AP,OK'] + - - SSC SSC[1-] mac -S -m ]_mac> -o 1 + - ['R SSC[1-] C +MAC:STA,OK'] + - - SSC SSC[1-] op -S -o 2 + - ['R SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] espnow -D + - ['R SSC[1-] C +ESPNOW:'] + - - SSC SSC[1-] espnow -I + - ['R SSC[1-] C +ESPNOW:OK'] + - - SSC SSC[1-] espnow -R -t Set -r 2 + - ['R SSC[1-] C +ESPNOW:OK'] + initial condition detail: multiple () targets in AP mode, espnow is initialized + with self role slave + restore cmd set: + - '' + - - SSC SSC[1-] op -S -o 3 + - ['R SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] mac -S -m ]_ap_mac> -o 2 + - ['R SSC[1-] C +MAC:AP,OK'] + - - SSC SSC[1-] mac -S -m ]_mac> -o 1 + - ['R SSC[1-] C +MAC:STA,OK'] + - - SSC SSC[1-] op -S -o 2 + - ['R SSC[1-] C +MODE:OK'] + - - SSC SSC[1-] espnow -D + - ['R SSC[1-] C +ESPNOW:'] + - - SSC SSC[1-] espnow -I + - ['R SSC[1-] C +ESPNOW:OK'] + - - SSC SSC[1-] espnow -R -t Set -r 2 + - ['R SSC[1-] C +ESPNOW:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 24.0 + tag: NOW2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:2 L OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATC AT1 CWSAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + initial condition detail: SoftAP mode, PC join Target AP, single link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CWLIF + - [R AT1 P ] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 73.0 + tag: ATAPO4 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 sp -D + - ['R SSC1 C +SP:OK'] + force restore cmd set: + - '' + - - SSC SSC1 sp -D + - ['R SSC1 C +SP:OK'] + initial condition detail: one target and simple is de-inited + restore cmd set: + - '' + - - SSC SSC1 sp -D + - ['R SSC1 C +SP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: PAIR1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT + - [R AT1 L OK] + - - ATS AT1 AT + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+RST + - [R AT1 L OK] + initial condition detail: SoftAP mode, both PC join Target AP, multi link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 3.0 + tag: ATAPO6 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC[1,2] op -Q + - ['R SSC[1,2] C +MODE:[3,3]'] + - - SSC SSC[1,2] mac -Q -o 3 + - ['R SSC[1,2] P P '] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + force restore cmd set: + - '' + - - SSC SSC[1,2] reboot + - ['R SSC[1,2] C !!!ready!!!'] + - - SSC SSC[1,2] op -S -o [3,3] + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] mac -S -m -o 2 + - ['R SSC[1,2] C +MAC:AP,OK'] + - - SSC SSC[1,2] mac -S -m -o 1 + - ['R SSC[1,2] C +MAC:STA,OK'] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + initial condition detail: target1 and target2 in STA+AP mode, two targets de-init + and init simple pair + restore cmd set: + - '' + - - SSC SSC[1,2] op -S -o [3,3] + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] mac -S -m -o 2 + - ['R SSC[1,2] C +MAC:AP,OK'] + - - SSC SSC[1,2] mac -S -m -o 1 + - ['R SSC[1,2] C +MAC:STA,OK'] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 45.0 + tag: PAIR3 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC[1,2] op -Q + - ['R SSC[1,2] C +MODE:[2,1]'] + - - SSC SSC[1,2] mac -Q -o 3 + - ['R SSC[1,2] P P '] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + force restore cmd set: + - '' + - - SSC SSC[1,2] reboot + - ['R SSC[1,2] C !!!ready!!!'] + - - SSC SSC[1,2] op -S -o 3 + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] mac -S -m -o 2 + - ['R SSC[1,2] C +MAC:AP,OK'] + - - SSC SSC[1,2] mac -S -m -o 1 + - ['R SSC[1,2] C +MAC:STA,OK'] + - - SSC SSC[1,2] op -S -o [2,1] + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + initial condition detail: target1 in AP mode, target2 in STA mode, two targets de-init + and init simple pair + restore cmd set: + - '' + - - SSC SSC[1,2] op -S -o 3 + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] mac -S -m -o 2 + - ['R SSC[1,2] C +MAC:AP,OK'] + - - SSC SSC[1,2] mac -S -m -o 1 + - ['R SSC[1,2] C +MAC:STA,OK'] + - - SSC SSC[1,2] op -S -o [2,1] + - ['R SSC[1,2] C +MODE:OK'] + - - SSC SSC[1,2] sp -D + - ['R SSC[1,2] C +SP:OK'] + - - SSC SSC[1,2] sp -I + - ['R SSC[1,2] C +SP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 38.0 + tag: PAIR2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC2 op -Q + - ['R SSC2 C +CURMODE:1'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC2 dhcp -Q -o 1 + - ['R SSC2 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + - - SSC SSC2 mac -Q -o 1 + - [R SSC2 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC2 reboot + - [R SSC2 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + initial condition detail: same as T2_1 but will NOT autogen a TC with initial condition + T2_2 + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 73.0 + tag: T2O_1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:2'] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + initial condition detail: SoftAP mode, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=2 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=0,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 59.0 + tag: ATAPO1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + initial condition detail: AP mode, DHCP on + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 31.0 + tag: APM1 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC2 op -Q + - ['R SSC2 C +CURMODE:1'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC2 dhcp -Q -o 1 + - ['R SSC2 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + - - SSC SSC2 mac -Q -o 1 + - [R SSC2 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC2 reboot + - [R SSC2 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + initial condition detail: target 1 as SoftAP, target 2 as STA + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [''] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 73.0 + tag: T2_1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 C +CWMODE_CUR:3 C OK'] + - - ATS AT2 AT+CWMODE_CUR? + - ['R AT2 C +CWMODE_CUR:1 C OK'] + - - ATS AT1 AT+CWJAP_CUR? + - [R AT1 NC OK L ERROR] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=1 + - [R AT2 L OK] + - - ATS AT1 AT+CWQAP + - [R AT1 L OK] + initial condition detail: same as OT2_1, but will not autogen STA+AP STA test case + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT2 AT+CWMODE_DEF=1 + - [R AT2 L OK] + - - ATS AT1 AT+CWQAP + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 52.0 + tag: ATOT2_1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + initial condition detail: StationSoftAP mode, connected to AP, multi link, use static + ip + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 129.0 + tag: ATAPSTA5 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 1 + - ['R SSC1 C BIN_ID,0'] + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + force restore cmd set: + - '' + - - SSC SSC1 upgrade -R -r 1 -s + - [R SSC1 NC ERROR C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SOC SOC1 ULISTEN + - [R SOC_COM L OK] + - - SOC SOC1 SETOPT REPLY BIN + - [R SOC_COM C OK] + - - SSC SSC1 upgrade -I -b 0 -f 0 + - ['P SSC1 C +UPGRADE:OK'] + - - SSC SSC1 upgrade -U -i -p -u + - ['P SSC1 C +UPGRADE:SUCCEED'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + initial condition detail: STA mode, connected to AP, running BIN0 (located on flash + id 0) + restore cmd set: + - '' + - - SSC SSC1 upgrade -Q -t 2 -b 0 + - ['R SSC1 C BIN_INFO,0'] + - - SSC SSC1 upgrade -R -b 0 + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - [R SSC1 C +DHCP] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + restore post cmd set: + - '' + - - SSC SSC1 upgrade -D + - ['R SSC1 C +UPGRADE:OK'] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: STAMBIN0 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + initial condition detail: station mode, DHCP client on, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 10.0 + tag: ATSTA2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC[1-3] op -Q + - ['R SSC[1-3] C +CURMODE:3'] + - - SSC SSC[1-3] phy -Q -o 3 + - ['R SSC[1-3] C STA,n,40 C AP,n,40'] + force restore cmd set: + - '' + - - SSC SSC[1-3] reboot + - ['R SSC[1-3] C !!!ready!!!'] + - - SSC SSC[1-3] op -S -o 3 + - ['R SSC[1-3] C +MODE:OK'] + - - SSC SSC[1-3] phy -S -o 3 -m n -b 40 + - ['R SSC[1-3] C +PHY:OK'] + initial condition detail: '1. target 1 and target 2 set to AP+STA mode, target 3 + set to STA mode + + 2. all interface of target 2,3 set to 11n ht40 + + 3. config softAP of target 1 and target 2' + restore cmd set: + - '' + - - SSC SSC[1-3] op -S -o 3 + - ['R SSC[1-3] C +MODE:OK'] + - - SSC SSC[1-3] phy -S -o 3 -m n -b 40 + - ['R SSC[1-3] C +PHY:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 sta -R -r 1 + - [R SSC1 C OK] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 87.0 + tag: T3_PHY1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + initial condition detail: StationSoftAP mode, DHCP client on + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 87.0 + tag: ATAPSTA2 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:3'] + - - SSC SSC2 op -Q + - ['R SSC2 C +CURMODE:3'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [R SSC2 C +CLOSEALL] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC2 dhcp -Q -o 1 + - ['R SSC2 C +DHCP:STA,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + - - SSC SSC2 mac -Q -o 1 + - [R SSC2 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC2 reboot + - [R SSC2 C !!!ready!!!] + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 3 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [R SSC2 C +CLOSEALL] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + initial condition detail: target 1 as AP+STA, target 2 as AP+STA (autogen) + restore cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC2 op -S -o 3 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:'] + - - SSC SSC2 soc -T + - [R SSC2 C +CLOSEALL] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC2 dhcp -S -o 1 + - [R SSC2 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 80.0 + tag: T2_2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + initial condition detail: StationSoftAP mode, connected to AP, single link, use + static ip + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 136.0 + tag: ATAPSTA6 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + initial condition detail: station mode, connected to AP, single link, use static + ip + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 122.0 + tag: ATSTA6 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + initial condition detail: station mode, connected to AP, multi link, use static + ip + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATC AT1 CIPSTA_DEF + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 115.0 + tag: ATSTA5 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:0'] + - - ATS AT1 AT+CWDHCP_CUR? + - ['R AT1 C DHCP:3'] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + initial condition detail: station mode, connected to AP, single link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=0 + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 17.0 + tag: ATSTA4 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWJAP_CUR? + - ['R AT1 C +CWJAP_CUR:', R AT1 P ] + - - ATS AT1 AT+CIPMUX? + - ['R AT1 L +CIPMUX:1'] + - - ATS AT1 AT+CWDHCP_CUR? + - ['R AT1 C DHCP:3'] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + initial condition detail: station mode, connected to AP, multi link, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 R *] + - - ATC AT1 CWJAP_DEF + - [R AT1 L OK] + - - ATS AT1 AT+CIPCLOSE + - [R AT1 R *] + - - ATS AT1 AT+CIPMODE=0 + - [R AT1 R *] + - - ATS AT1 AT+CIPMUX=1 + - [R AT1 L OK] + - - ATS AT1 AT+CIPSERVER=0 + - [R AT1 R *] + - - ATC AT1 CIPCLOSE + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 38.0 + tag: ATSTA3 + test script: InitCondBase +- check cmd set: + - '' + - - SSC SSC1 op -Q + - ['R SSC1 C +CURMODE:2'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,\d+,\d+,4,"%%(,)'] + - - SSC SSC1 ap -L + - ['R SSC1 RE "\+LSTA:.+,%%s"%%()'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 C +DHCP:AP,STARTED'] + - - SSC SSC1 mac -Q -o 2 + - [R SSC1 P ] + force restore cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + initial condition detail: AP mode, PC join AP, DHCP on + restore cmd set: + - '' + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 2 + - [R SSC1 C +DHCP] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + restore post cmd set: + - '' + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 ram + - ['R SSC1 A :(\d+)'] + script path: InitCondBase.py + start: 38.0 + tag: APM2 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:1'] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + initial condition detail: station mode, use dhcp + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=1 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=1,1 + - [R AT1 L OK] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 10.0 + tag: ATSTA1 + test script: InitCondBase +- check cmd set: + - '' + - - ATS AT1 AT+CWMODE_CUR? + - ['R AT1 L +CWMODE_CUR:3'] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + force restore cmd set: + - '' + - - ATS AT1 AT+RST + - [R AT1 C ready] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + initial condition detail: StationSoftAP mode + restore cmd set: + - '' + - - ATSO AT1 +++ + - [''] + - - ATS AT1 AT + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - ATS AT1 AT+CWMODE_DEF=3 + - [R AT1 L OK] + - - ATS AT1 AT+CWDHCP_DEF=2,1 + - [R AT1 R *] + restore post cmd set: + - '' + - - ATS AT1 AT+CWSTOPSMART + - [R AT1 R *] + - - ATS AT1 AT+SAVETRANSLINK=0 + - [R AT1 R *] + - - AT+SYSRAM + - ['R AT1 A :(\d+)'] + script path: InitCondBase.py + start: 87.0 + tag: ATAPSTA1 + test script: InitCondBase diff --git a/components/test/README.md b/components/test/README.md new file mode 100644 index 000000000..0e4172d62 --- /dev/null +++ b/components/test/README.md @@ -0,0 +1,35 @@ +# The test folder in SDK + +## File Structure + +``` +test --- CIConfigs --- sanity_test1.yml (Runner config files) + | |-- stress_test1.yml + |-- TestCaseAll.yml (TestCaseFiles) + |-- TestEnvAll.yml (TestCaseFiles) + |-- InitialConditionAll.yml (TestCaseFiles) + |-- TestCaseScript --- ... (Test case scripts) +``` + +1. CIConfigs folder + * config for CI config files are put in this folder + * CI config files configs the cases and some other options for the CI job with same name +1. Test case files + * TestCaseAll.yml (test cases) + * InitialConditionAll.yml (initial conditions) + * TestEnvAll.yml (test environments) + * [how to modify test cases](https://gitlab.espressif.cn:6688/yinling/auto_test_script/blob/master/public/Design/TestCaseFiles.DesignNote.md) +1. Test case scripts + * some cases are implemented by specified script. those scripts are put in this folder. + + +## Modify test cases + +1. check if the "SDK" of the test case only contain the current SDK + * if Yes, then just modify the test case behavior + * if No: + 1. then remove current SDK name from "SDK" of the test case + 2. Add a new test case, and set "SDK" only support current SDK name +2. use [auto_test_script](https://gitlab.espressif.cn:6688/yinling/auto_test_script) to load the modified case and verify the modification +3. create a merge request and assign to HYL (or add comment @yinling for merging test). +After review it will be merged to SDK and will be The cases will be synced to database in auto_test_script. diff --git a/components/test/TestCaseAll.yml b/components/test/TestCaseAll.yml new file mode 100644 index 000000000..c5e10b794 --- /dev/null +++ b/components/test/TestCaseAll.yml @@ -0,0 +1,13810 @@ +test cases: +- CI ready: 'Yes' + ID: ^WIFI_CONN_0601 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN + + - ['R PC_COM C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -L + - ['R SSC1 C +LSTA:', 'R SSC1 C +LSTA:', R SSC1 C +LSTADONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP + + 2.PC WIFI CONNECTED + + 3.target2 jap target 1 + + 4.查询到两个sta 连接到target1 上' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1. target1下设置ssid 和pwd 加密方式 + + 2.PC WIFI CONNECTED target1 + + 3.target2 jap target 1 + + 4.查询到两个sta 连接到target1 上' + sub module: WIFI Connect + summary: list stations connected to soft ap test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: list SoftAP connected station + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ICMP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ping -i + - ['R SSC1 C +PING:OK'] + - - SSC SSC1 ping -i -c 2 + - ['R SSC1 C +PING:OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.ping -i + + 2.ping -i -c 2' + sub module: ICMP + summary: ping function test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: ping function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: SYS_MISC_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 reboot + - [R SSC1 C !!!ready!!!] + comment: '' + execution time: 0.0 + expected result: 重启成功 + initial condition: None + initial condition description (auto): none + module: System + steps: 系统重启 + sub module: Misc + summary: test reboot function + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: sw reboot + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ARP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+send+block_arp_ip + - ['R PC_COM C +NIC_START:OK'] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr "192.168.11.240" + ethernet_len_type "ARP" ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr arp_sender_hw_addr + "18:18:18:18:18:18" ethernet_len_type "ARP" ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr arp_sender_proto_addr + ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + comment: '' + execution time: 0.0 + expected result: 1. PC can't recv ARP reply from target + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. PC send ARP req with target_hw_addr, sender_hw_addr and sender_proto_addr + not correct + sub module: ARP + summary: PC send invalid ARP request to target 2 + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: handling ARP request + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0302 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -i 192.168.123.123 -o 2 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.10 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 ap -S -s -p -t + - [''] + - - SSC SSC2 sta -C -s -p + - ['P SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -i 192.168.4.1 -o 2 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.10 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC2 sta -C -s -p + - [''] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target 1 OK + + 2.target1 ERROR + + 3.target1 ERROR + + 4.target2 jap target1 OK + + 5.target1 OK + + 6.target1 OK + + 7.target1 OK + + 8.target2 jap target1 OK' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n3.target1 设置地址池\n\ + 4.target1下设置ssid 和pwd 加密方式\n5.target2 连接target1 \n6.target1 关闭DHCP 2\n7.target1\ + \ 设置softAP ip \n8.target1 设置正确的地址池\n9.target2 连接target1" + sub module: DHCP + summary: ap dhcp static ip interaction + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: interaction + test point 2: static IP and DHCP interaction test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -i 192.168.123.123 -o 1 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 ip -S -i 0.0.0.0 -o 1 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - [''] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.JAP CONNETED + + 4.OK + + 5.等待10s,JAP fail' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: TCPIP + steps: '1.target1 关闭DHCP 1 + + 2.target1 设置sta ip 192.168.123.123 + + 4.target1 jap AP + + 5.target1 设置sta ip 0.0.0.0 + + 6.target1 jap AP' + sub module: DHCP + summary: sta dhcp static ip interaction + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: interaction + test point 2: static IP and DHCP interaction test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0113 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok + + 3.ok + + 4.ok + + 5.ok' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip target_udp_port2 + + 3.target1上UDP传输,Bind socket3,本地ip target_udp_port3 + + 4.target1上UDP传输,Bind socket4,本地ip target_udp_port4 + + 5.target1上UDP传输,Bind socket5,本地ip target_udp_port5' + sub module: UDP + summary: AP mode, create max udp socket test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0302 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -i 192.168.123.123 -o 2 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.10 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 ap -S -s -p -t + - [''] + - - SSC SSC2 sta -C -s -p + - ['P SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -i 192.168.4.1 -o 2 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.10 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC2 sta -C -s -p + - [''] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target 1 OK + + 2.target1 ERROR + + 3.target1 ERROR + + 4.target2 jap target1 OK + + 5.target1 OK + + 6.target1 OK + + 7.target1 OK + + 8.target2 jap target1 OK' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n3.target1 设置地址池\n\ + 4.target1下设置ssid 和pwd 加密方式\n5.target2 连接target1 \n6.target1 关闭DHCP 2\n7.target1\ + \ 设置softAP ip \n8.target1 设置正确的地址池\n9.target2 连接target1 " + sub module: DHCP + summary: ap dhcp static ip interaction + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: interaction + test point 2: static IP and DHCP interaction test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -i 192.168.123.123 -o 1 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 ip -S -i 0.0.0.0 -o 1 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - [''] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.JAP CONNETED + + 4.OK + + 5.等待10s,JAP fail' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: TCPIP + steps: '1.target1 关闭DHCP 1 + + 2.target1 设置sta ip 192.168.123.123 + + 4.target1 jap AP + + 5.target1 设置sta ip 0.0.0.0 + + 6.target1 jap AP' + sub module: DHCP + summary: sta dhcp static ip interaction + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: interaction + test point 2: static IP and DHCP interaction test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: SYS_MISC_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ram -H + - ['R SSC1 RE FREEHEAP:\d+\r\n'] + comment: '' + execution time: 0.0 + expected result: ' + + 可以查询到一个数值 + + ' + initial condition: None + initial condition description (auto): none + module: System + steps: 查询空闲ram + sub module: Misc + summary: get heap size test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: 'get heap size ' + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ARP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+send+block_arp_ip + - ['R PC_COM C +NIC_START:OK'] + - - NIC NIC1 SEND ARP arp_op_code 0xFF arp_target_proto_addr ethernet_dst_addr + "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + comment: '' + execution time: 0.0 + expected result: 1. PC can't recv ARP reply from target + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. PC send ARP with error op_code + sub module: ARP + summary: PC send invalid ARP request to target 4 + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: handling ARP request + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0412 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.target1上创建TCP socket2 + + 6.关闭socket1 连接 + + 7.关闭socket2连接' + sub module: TCP + summary: close TCP send after socket changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0403 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.修改8266的Mode为softAP mode\ + \ \n6.8266往PC上发送5字节数据" + sub module: TCP + summary: do TCP send after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0402 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.断开与AP 连接 + + 6.关闭建立的socket1连接' + sub module: TCP + summary: "close TCP socket after WIFI \ndisconnected" + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0401 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.断开与AP 连接 + + 6.8266往PC上发送5字节数据' + sub module: TCP + summary: do TCP send after WIFI disconnected + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_ADDR_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 mac -S -o 1 -m 44:55:66:77:88:99 + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 mac -S -o 2 -m 22:33:44:55:66:77 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 mac -Q -o 3 + - ['R SSC1 C +STAMAC:44:55:66:77:88:99 C +APMAC:22:33:44:55:66:77'] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ok + + 3.ok + + 4.ok + + 5.ok + + 6.ok' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: "1.target1 设置mode 为sta+softAP mode\n2.target1 设置sta mode 下的mac \n3.target1\ + \ 设置softAP mode 下的mac\n4.target1 查询softAP+sta 下的mac\n5.target1 设置sta mode 下的mac\ + \ 为target1_mac\n6.target1 设置softAP mode 下的mac 为target1_ap_mac" + sub module: MAC Address + summary: set mac, query mac + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: mac address function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0407 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\ + \ ip \n7.查询sta ip 地址是否生效\n8.8266往PC上发送5字节数据" + sub module: TCP + summary: do TCP send after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0406 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - NIC DISABLED + - [R PC_COM C OK] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.PC上网卡禁止掉 \n6.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after PC NIC disabled + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0404 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.修改8266的Mode为softAP mode\ + \ \n6.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0903 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p bacfd + - ['R SSC1 C +JAP:DISCONNECTED,4,2'] + comment: '' + execution time: 0.0 + expected result: 1. disconect event reason REASON_AUTH_EXPIRE + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: 1. connect WEP ap with error password (valid wep password) + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_AUTH_EXPIRE + test environment: SSC_T1_WEP + test environment description (auto): '1 SSC target connect with PC by UART. + + One WEP share key AP placed near SSC1.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0408 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\ + \ ip \n7.查询sta ip 地址是否生效\n8.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -L -s 1000 + - ['R SSC1 RE LISTEN:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去建立TCP 监听 + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,去连接 PC的ip, + + 6.target1上使用步骤4创建的socket,创建TCP 监听 + + 7.target1上shutdown 步骤4的socket + + 8.target1上使用步骤4创建的socket,创建TCP 监听 + + 9.target1上使用不存在socket,创建TCP 监听' + sub module: TCP + summary: STA mode, server listen test. use socket in state that can't listen + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0110 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i 123.456.678.789 -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.ERROR + + 6.ERROR' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 5.target1上使用步骤4创建的socket,去连接不存在的ip,test_tcp_port1 + + 6.target1上使用步骤2创建的socket,去连接 PC的ip,远端端口不存在。' + sub module: TCP + summary: AP mode, connect test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -S -s 1000 + - ['R SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK + + 5.ERROR + + 6.OK + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket1, + + 3.target1上使用步骤2创建的socket1,去发送数据 + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去发送数据 + + 6.target1上使用步骤4创建的socket2,创建TCP连接,连接成功 + + 7.target1上shutdown 步骤4的socket2 + + 8.target1往socket2发送错误命令发送数据 + + 9.target1上不指定socket往上发送数据' + sub module: TCP + summary: send test. use socket in state that can't send + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -i 0.0.0.0 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - [''] + - - DELAY 20 + - [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED'] + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -Q + - ['R SSC1 C +STAIP:0.0.0.0'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 ip -Q + - ['R SSC1 RE "\+STAIP:%%s"%%()'] + comment: '' + execution time: 0.0 + expected result: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n\ + 4.target1 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip" + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: TCPIP + steps: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n4.target1\ + \ 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip" + sub module: DHCP + summary: dhcp client function test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 3 + - ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK'] + - - SSC SSC1 dhcp -Q -o 3 + - ['R SSC1 C +DHCP:STA,STARTED C +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED NC +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 NC +DHCP:STA,STARTED C +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -E -o 3 + - ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK'] + - - SSC SSC1 dhcp -Q -o 3 + - ['R SSC1 C +DHCP:STA,STOPPED C +DHCP:AP,STOPPED'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.STA&AP STARTED + + 4.STA STARTED + + 5.AP STARTED + + 6.OK + + 7.STA&AP STOPPED' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: TCPIP + steps: '1.target1 设置mode 为sta+softAP mode + + 2.target1 打开DHCP 3 + + 3.target1 查询DHCP 状态 + + 4.target1 查询sta DHCP 状态 + + 5.target1 查询softAP DHCP 状态 + + 6.target1 关闭 DHCP 3 + + 7.target1 查询 DHCP 状态' + sub module: DHCP + summary: dhcp status query + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - [''] + - - DELAY 20 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target\ + \ 1,FAIL \n4.target1 打开DHCP OK\n5.target2 jap target 1,ok" + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target 1,FAIL \n\ + 4.target1 打开DHCP OK\n5.target2 jap target 1,ok" + sub module: DHCP + summary: dhcp server function test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0303 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.修改8266的Mode为softAP mode \n5.8266往PC上发送5字节数据" + sub module: UDP + summary: do UDP send after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_SCAN_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -n 6 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -n 5 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -n 6 + - ['R SSC2 C +SCAN:', R SSC2 P ] + comment: '' + execution time: 0.0 + expected result: '1.target1 QAP + + 2. target1 set AP,set channel 6 + + 3.target2 上scan不到 channel 5 + + 4.target2 上查询channel 6的' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target1 断开连接AP + + 2.target1下设置ssid 和pwd 加密方式,set channel 6 + + 3.target2 上scan channel 5 + + 4.target2 上查询channel 6的' + sub module: WIFI Scan + summary: scan with scan config channel + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_SCAN_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -S -b ff:ff:ff:ff:ff:11 + - ['R SSC2 NC +SCAN: C +SCANDONE'] + - - SSC SSC2 sta -S -b + - ['R SSC2 RE "\+SCAN:.+,%%s"%%()', 'R SSC2 NC +SCAN: C +SCANDONE'] + comment: '' + execution time: 0.0 + expected result: '1.target2 上不能查询到此mac + + 2.target2上查询到' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target2 上查询此macff:ff:ff:ff:ff:11 + + 2.target2上查询' + sub module: WIFI Scan + summary: scan with scan config bssid + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_SCAN_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -S -s .,juhg123 + - ['R SSC2 NC +SCAN: C +SCANDONE'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -s + - ['R SSC2 C +SCAN:', R SSC2 P , 'R SSC2 NC +SCAN: C +SCANDONE'] + comment: '' + execution time: 0.0 + expected result: '1.target 2上不能scan .,juhg123 + + 2.target1 set AP + + 3.target2上查询到' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target 2 scan .,juhg123 + + 2.target1下设置ssid 和pwd 加密方式 + + 3.target2 scan ' + sub module: WIFI Scan + summary: scan with scan config ssid + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_SCAN_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -h 0 -n 11 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -s -b -n 11 + - [R SSC2 P C +SCANDONE] + - - SSC SSC2 sta -S -s -b -n 11 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -s -b ff:ff:ff:ff:ff:11 -n 11 + - [R SSC2 P , R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -s -b -n 10 + - [R SSC2 P , R SSC2 NP C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 QAP + + 2. target1 set AP,set ssid broad cast,set channel 11 + + 3.target2 上查询到 + + 4.target2 上查询不到 + + 5.target2 上查询不到 + + 6.target2 上查询不到' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target1 QAP + + 2. target1 set AP,set ssid broad cast,set channel 11 + + 3.target2 上查询到 + + 4.target2 上查询不到 + + 5.target2 上查询不到 + + 6.target2 上查询不到' + sub module: WIFI Scan + summary: scan with several configs + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_SCAN_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -h 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 P C +SCANDONE] + - - SSC SSC2 sta -S -h 1 + - [R SSC2 P C +SCANDONE] + - - SSC SSC1 ap -S -s -p 123456789 -h 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -h 1 + - [R SSC2 P C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP,set ssid broad cast + + 2.target 2上scan + + 3.target 2上scan + + 4.target1 set AP,set ssid hidden, + + 5.target 2上不能查询到 + + 6.target 2上查询到' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式,set ssid broad cast + + 2.target 2上scan + + 3.target 2上scan + + 4.target1下设置ssid 和pwd 加密方式,set ssid hidden, + + 5.target 2上查询 + + 6.target 2上查询' + sub module: WIFI Scan + summary: scan with scan config show hidden + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0302 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据 + + 4.断开与AP 连接 + + 5.关闭建立的socket1连接' + sub module: UDP + summary: "close UDP socket after WIFI \ndisconnected" + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据 + + 4.断开与AP 连接 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据' + sub module: UDP + summary: do UDP send after WIFI disconnected + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 sta -Q + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:OK'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +JAP:DISCONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target1 jion AP 成功 + + 2.查询JAP的状态 + + 3.target1 断开AP + + 4.查询target1 JAP 是DISCONN' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1.target1 jion AP 成功 + + 2.查询JAP的状态 + + 3.target1 断开AP + + 4.查询target1 JAP 是DISCONN' + sub module: WIFI Connect + summary: JAP query test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: query JAP status + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0702 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 C +JAP:DISCONNECTED,3'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 C +JAP:DISCONNECTED,2'] + comment: '' + execution time: 0.0 + expected result: '1. get status AP not exist in disconnect event + + 2. get status wrong password in disconnect event' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1. sta connect to ap not exist + + 2. sta connect to ap with wrong password + + ' + sub module: WIFI Connect + summary: check wifi status wrong password, no ap found + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0703 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p bacfd + - ['R SSC1 C +JAP:DISCONNECTED,4,2'] + comment: '' + execution time: 0.0 + expected result: 1. connect status connect fail in disconnect evnet + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: 1. connect WEP ap with error password (valid wep password) + sub module: WIFI Connect + summary: check wifi status connect fail + test environment: SSC_T1_WEP + test environment description (auto): '1 SSC target connect with PC by UART. + + One WEP share key AP placed near SSC1.' + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0701 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - [R SSC1 C QAP] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:0'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:1', 'R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:5'] + - - APC OFF + - [P PC_COM L OK, P SSC1 C bcn_timout] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:4'] + - - APC ON + - [P PC_COM L OK] + comment: '' + execution time: 0.0 + expected result: '1. idle state + + 2. connecting state + + 3. got IP state + + 4. connect fail state' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1. sta disconnected, query status + + 2. sta connect to AP, query status + + 3. got IP, query status + + 4. AP power off, query status when beacon timeout' + sub module: WIFI Connect + summary: check wifi status idle, connecting, got ip and connect fail + test environment: SSC_T1_APC + test environment description (auto): "PC has 1 wired NIC connected to AP.\nPC has\ + \ 1 wired NIC connected to APC (static IP within the same subnet with APC). \n\ + APC control AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with\ + \ PC by UART." + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DNS_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 A :\+HOSTIP:OK,(.+)\r\n'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p 9001 + - ['R SSC1 RE \+CONNECT:\d+,OK'] + - - SSC SSC1 soc -S -s -l 10 + - ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL +10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. get host name "espressif.cn" + + 2. connect, send, recv1. get host name "espressif.cn" + + 2. connect, send, recv' + sub module: DNS + summary: TCP connect to iot.espressif.com + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DNS_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 C +HOSTIP:OK,115.29.202.58'] + comment: '' + execution time: 0.0 + expected result: 1.OK + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. get host name "espressif.cn" + sub module: DNS + summary: get host by name test + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0904 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 3 -m 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p 1234567890 + - ['R SSC2 C +JAP:DISCONNECTED,1,204'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:DISCONNECTED,1,5'] + - - WIFI DISCONN + - [P PC_COM C OK, 'R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -S -s -p -t 3 -m 1 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:DISCONNECTED,5,4'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. disconnect event REASON_HANDSHAKE_TIMEOUT + + 3. succeed + + 4. succeed + + 5. disconnect event REASON_ASSOC_TOOMANY + + 6. succeed, target2 connect succeed + + 7. disconnect event REASON_ASSOC_EXPIRE' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1. config target1 softap max sta allowed 1 + + 2. target2 connect to target1 with wrong password + + 3. target2 disconnect + + 4. PC WIFI NIC connect to target1 + + 5. target2 connect to target1 with correct password + + 6. PC WIFI NIC disconnect + + 7. reconfig softap' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_ASSOC_TOOMANY, REASON_HANDSHAKE_TIMEOUT, + REASON_ASSOC_EXPIRE + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.123.123 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.123.123 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.123.123'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ERROR + + 3.OK + + 4.OK + + 5.STAIP:192.168.123.123' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: TCPIP + steps: '1.target1 打开DHCP 1 + + 2.target1 设置sta ip 192.168.123.123 + + 4.target1 关闭DHCP 1 + + 5.target1 设置sta ip 192.168.123.123 + + 6.target1 查询 当前sta ip ' + sub module: IP + summary: sta set and query static ip test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: set and query static IP + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i 192.168.123.123 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i 192.168.123.123 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 2 + - ['R SSC1 C +APIP:192.168.123.123'] + - - SSC SSC1 ip -S -o 2 -i + - ['R SSC1 C +IP:OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ERROR + + 3.OK + + 4.OK + + 5.APIP:192.168.123.123 + + 6.OK' + initial condition: APM1 + initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial + condition APSTA1 + module: TCPIP + steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n4.target1 关闭DHCP\ + \ 2\n5.target1 设置softAP ip 192.168.123.123\n6.target1 查询 当前sta ip \n7.target1\ + \ 设置softAP ip 为target_ap_ip" + sub module: IP + summary: ap set and query static ip test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: set and query static IP + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 sta -Q + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:OK'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +JAP:DISCONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target1 jion AP 成功 + + 2.查询JAP的状态 + + 3.target1 断开AP + + 4.查询target1 JAP 是DISCONN' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1.target1 jion AP 成功 + + 2.查询JAP的状态 + + 3.target1 断开AP + + 4.查询target1 JAP 是DISCONN' + sub module: WIFI Connect + summary: JAP query test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: query JAP status + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.2 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed + + 5. succeed' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. leave group with correct host addr and wrong multicast addr + + 3. leave group with wrong host addr and correct multicast addr + + 4. leave group with wrong host addr and wrong multicast addr + + 5. leave group with correct host addr and correct multicast addr' + sub module: IGMP + summary: station IGMP leave group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -J -h -m 223.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. join group with correct host addr and wrong multicast addr + + 3. join group with wrong host addr and correct multicast addr + + 4. join group with wrong host addr and wrong multicast addr' + sub module: IGMP + summary: station IGMP join group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.2 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed + + 5. succeed' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. leave group with correct host addr and wrong multicast addr + + 3. leave group with wrong host addr and correct multicast addr + + 4. leave group with wrong host addr and wrong multicast addr + + 5. leave group with correct host addr and correct multicast addr' + sub module: IGMP + summary: softAP IGMP leave group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0701 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - [R SSC1 C QAP] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:0'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:1', 'R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:5'] + - - APC OFF + - [P PC_COM L OK, P SSC1 C bcn_timout] + - - SSC SSC1 sta -Q + - ['R SSC1 C +STA_STATUS:4'] + - - APC ON + - [P PC_COM L OK] + comment: '' + execution time: 0.0 + expected result: '1. idle state + + 2. connecting state + + 3. got IP state + + 4. connect fail state' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1. sta disconnected, query status + + 2. sta connect to AP, query status + + 3. got IP, query status + + 4. AP power off, query status when beacon timeout' + sub module: WIFI Connect + summary: check wifi status idle, connecting, got ip and connect fail + test environment: SSC_T1_APC + test environment description (auto): "PC has 1 wired NIC connected to AP.\nPC has\ + \ 1 wired NIC connected to APC (static IP within the same subnet with APC). \n\ + APC control AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with\ + \ PC by UART." + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0703 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p bacfd + - ['R SSC1 C +JAP:DISCONNECTED,4,2'] + comment: '' + execution time: 0.0 + expected result: 1. connect status connect fail in disconnect evnet + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: 1. connect WEP ap with error password (valid wep password) + sub module: WIFI Connect + summary: check wifi status connect fail + test environment: SSC_T1_WEP + test environment description (auto): '1 SSC target connect with PC by UART. + + One WEP share key AP placed near SSC1.' + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0110 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1] + - - SSC SSC1 soc -S -s -i -p -l 1472 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472] + - - SSC SSC1 soc -S -s -i -p -l 1473 + - ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM] + - - SSC SSC1 soc -S -s -i -p -l 1472 -n 10 + -j 20 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没收到UDP包 + + 6.OK' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1字节数据 + + 4.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472字节数据 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1473字节数据 + + 6.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472*10字节数据' + sub module: UDP + summary: AP mode, sendto test with different length + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_SCAN_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -S -b ff:ff:ff:ff:ff:11 + - ['R SSC2 NC +SCAN: C +SCANDONE'] + - - SSC SSC2 sta -S -b + - ['R SSC2 RE "\+SCAN:.+,%%s"%%()', 'R SSC2 NC +SCAN: C +SCANDONE'] + comment: '' + execution time: 0.0 + expected result: '1.target2 上不能查询到此mac + + 2.target2上查询到' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target2 上查询此macff:ff:ff:ff:ff:11 + + 2.target2上查询' + sub module: WIFI Scan + summary: scan with scan config bssid + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_SCAN_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -n 6 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -n 5 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -n 6 + - ['R SSC2 C +SCAN:', R SSC2 P ] + comment: '' + execution time: 0.0 + expected result: '1.target1 QAP + + 2. target1 set AP,set channel 6 + + 3.target2 上scan不到 channel 5 + + 4.target2 上查询channel 6的' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target1 断开连接AP + + 2.target1下设置ssid 和pwd 加密方式,set channel 6 + + 3.target2 上scan channel 5 + + 4.target2 上查询channel 6的' + sub module: WIFI Scan + summary: scan with scan config channel + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_SCAN_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -h 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 P C +SCANDONE] + - - SSC SSC2 sta -S -h 1 + - [R SSC2 P C +SCANDONE] + - - SSC SSC1 ap -S -s -p 123456789 -h 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -h 1 + - [R SSC2 P C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP,set ssid broad cast + + 2.target 2上scan + + 3.target 2上scan + + 4.target1 set AP,set ssid hidden, + + 5.target 2上不能查询到 + + 6.target 2上查询到' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式,set ssid broad cast + + 2.target 2上scan + + 3.target 2上scan + + 4.target1下设置ssid 和pwd 加密方式,set ssid hidden, + + 5.target 2上查询 + + 6.target 2上查询' + sub module: WIFI Scan + summary: scan with scan config show hidden + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_SCAN_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 -h 0 -n 11 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -s -b -n 11 + - [R SSC2 P C +SCANDONE] + - - SSC SSC2 sta -S -s -b -n 11 + - [R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -s -b ff:ff:ff:ff:ff:11 -n 11 + - [R SSC2 P , R SSC2 NP C +SCANDONE] + - - SSC SSC2 sta -S -s -b -n 10 + - [R SSC2 P , R SSC2 NP C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 QAP + + 2. target1 set AP,set ssid broad cast,set channel 11 + + 3.target2 上查询到 + + 4.target2 上查询不到 + + 5.target2 上查询不到 + + 6.target2 上查询不到' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target1 QAP + + 2. target1 set AP,set ssid broad cast,set channel 11 + + 3.target2 上查询到 + + 4.target2 上查询不到 + + 5.target2 上查询不到 + + 6.target2 上查询不到' + sub module: WIFI Scan + summary: scan with several configs + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.2 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed + + 5. succeed' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. leave group with correct host addr and wrong multicast addr + + 3. leave group with wrong host addr and correct multicast addr + + 4. leave group with wrong host addr and wrong multicast addr + + 5. leave group with correct host addr and correct multicast addr' + sub module: IGMP + summary: softAP IGMP leave group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -J -h -m 223.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. join group with correct host addr and wrong multicast addr + + 3. join group with wrong host addr and correct multicast addr + + 4. join group with wrong host addr and wrong multicast addr' + sub module: IGMP + summary: softAP IGMP join group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.2 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed + + 5. succeed' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. leave group with correct host addr and wrong multicast addr + + 3. leave group with wrong host addr and correct multicast addr + + 4. leave group with wrong host addr and wrong multicast addr + + 5. leave group with correct host addr and correct multicast addr' + sub module: IGMP + summary: station IGMP leave group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -J -h -m 223.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. join group with correct host addr and wrong multicast addr + + 3. join group with wrong host addr and correct multicast addr + + 4. join group with wrong host addr and wrong multicast addr' + sub module: IGMP + summary: station IGMP join group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.PC OK + + 5.PC OK + + 6.PC OK + + 7.PC OK + + 8.PC OK SOC_CLOSE=SOC1' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上关闭工作线程 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1472字节数据 + + 6.PC往8266上发送1472字节数据 + + 7.PC往8266上发送1472字节数据 + + 8.PC往8266上发送1472字节数据' + sub module: UDP + summary: STA mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: use UDP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_ICMP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ping -i + - ['R SSC1 C +PING:OK'] + - - SSC SSC1 ping -i -c 2 + - ['R SSC1 C +PING:OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.ping -i + + 2.ping -i -c 2' + sub module: ICMP + summary: ping function test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: ping function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_ADDR_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 mac -S -o 2 -m 44:55:66:77:88:99 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t + - [''] + - - SSC SSC2 sta -S -b 44:55:66:77:88:99 + - ['R SSC2 RE \+SCAN:.+,44:55:66:77:88:99,'] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -Q -o 1 + - ['R SSC2 A :\+STAMAC:(.+)\r\n'] + - - SSC SSC2 mac -S -o 1 -m 22:33:44:55:66:77 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['P SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -L + - ['R SSC1 C +LSTA:22:33:44:55:66:77'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ok + + 3.ok + + 4.ok + + 5.ok + + 6.ok + + 7.ok + + 8.ok + + 9.ok' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: "1.target1 设置sta mode下的mac 44:55:66:77:88:99\n2.target1下设置ssid 和pwd 加密方式\n\ + 3.target2 查询mac为44:55:66:77:88:99的ssid\n4.target1 设置sta mode下的mac target_ap_mac\n\ + 5.target2 查询sta mode 下的mac 为target2_mac_tmp\n6.target2 设置sta mode 下的mac 为22:33:44:55:66:77\n\ + 7.target2 jap target1\n8.target1 查询连接到的sta \n9.target2 设置sta mode 下的mac 为 target2_mac" + sub module: MAC Address + summary: set mac and do scan/JAP/SAP + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: mac address function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0108 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 C BIND:ERROR'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip 0.0.0.0 target_udp_port2 + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上创建TCP socket3, target_udp_port1' + sub module: UDP + summary: AP mode, udp bind test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0109 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC2 ip + - ['R SSC2 A :STAIP:(.+)\r\n'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - [R SOC1 UL 5] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['R SSC2 RE "RECVFROM:%%s,5,%%s,%%u"%%(,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.PC上SOC2 UDP传输,bing + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上使用步骤3创建的socket1,往pc_ip,test_tcp_port1上发送10字节数据 + + 5.target1上使用步骤3创建的socket1,往pc_ip2,test_tcp_port2上发送10字节数据' + sub module: UDP + summary: AP mode, sendto test. use different ip, port + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0106 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok + + 3.ok + + 4.ok + + 5.ok' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip target_udp_port2 + + 3.target1上UDP传输,Bind socket3,本地ip target_udp_port3 + + 4.target1上UDP传输,Bind socket4,本地ip target_udp_port4 + + 5.target1上UDP传输,Bind socket5,本地ip target_udp_port5' + sub module: UDP + summary: STA mode, create max udp socket test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0107 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上查询创建socket信息' + sub module: UDP + summary: STA mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SOC SOC1 SENDTO 1 + - [R SSC1 SL +1] + - - SOC SOC1 SENDTO 1472 + - ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(,,)'] + - - SOC SOC1 SENDTO 1473 + - [P SSC1 NC +RECVFROM, P SOC_COM C OK] + - - SOC SOC2 BIND + - [R SOC_COM L OK] + - - SOC SOC2 SENDTO 1472 + - ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没收到UDP包 + + 6.OK + + 7.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.PC往8266上发送1字节数据 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1473字节数据 + + 6.PC上SOC2 UDP传输,bing + + 7.PC往8266上发送1472字节数据' + sub module: UDP + summary: STA mode, recvfrom basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.关闭socket1' + sub module: UDP + summary: STA mode, close UDP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC2 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 10 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 10] + - - SSC SSC1 soc -S -s -i -p -l 10 + - ['P SSC1 RE SEND:(\d+),OK', P SOC2 UL 10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.PC上SOC2 UDP传输,bing + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上使用步骤3创建的socket1,往pc_ip,test_tcp_port1上发送10字节数据 + + 5.target1上使用步骤3创建的socket1,往pc_ip2,test_tcp_port2上发送10字节数据' + sub module: UDP + summary: STA mode, sendto test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1] + - - SSC SSC1 soc -S -s -i -p -l 1472 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472] + - - SSC SSC1 soc -S -s -i -p -l 1473 + - ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM] + - - SSC SSC1 soc -S -s -i -p -l 1472 -n 10 -j 20 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没有到UDP包 + + 6.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1字节数据 + + 4.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472字节数据 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1473字节数据 + + 6.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472*10字节数据' + sub module: UDP + summary: STA mode, sendto test with different length + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 C BIND:ERROR'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip 0.0.0.0 target_udp_port2 + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上创建TCP socket3, target_udp_port1' + sub module: UDP + summary: STA mode, udp bind test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -S -s -i 224.1.1.1 -p -l 10 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. target1 recv multicast packet' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. target2 join SoftAP + + 2. target1 join group and create UDP socket using multicast addr + + 3. target2 create UDP socket + + 4. target2 send to multicast addr' + sub module: IGMP + summary: softAP send multicast packets + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC1 SENDTO 1 224.1.1.1 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. able to recv packet' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. join group + + 2. create UDP socket using multicast addr + + 3. PC send UDP packet to multicast addr' + sub module: IGMP + summary: station IGMP recv packets + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -S -s -i 224.1.1.1 -p -l 10 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. target1 recv multicast packet' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. target2 set to sta mode and join AP + + 2. target1 join group and create UDP socket using multicast addr + + 3. target2 create UDP socket + + 4. target2 send to multicast addr' + sub module: IGMP + summary: station send multicast packets + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_IGMP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC1 SENDTO 1 224.1.1.1 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. able to recv packet' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. join group + + 2. create UDP socket using multicast addr + + 3. PC send UDP packet to multicast addr' + sub module: IGMP + summary: softAP IGMP recv packets + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0401 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -R -a 0 + - ['R SSC1 C +AUTORECONN:OK'] + - - SSC SSC1 sta -R -a 2 + - ['R SSC1 C +AUTORECONN:0'] + - - SSC SSC1 reboot + - [''] + - - DELAY 15 + - [''] + - - SSC SSC1 sta -Q + - ['R SSC1 C JAP:DISCONNECTED'] + - - SSC SSC1 sta -R -a 1 + - ['R SSC1 C +AUTORECONN:OK'] + - - SSC SSC1 sta -R -a 2 + - ['R SSC1 C +AUTORECONN:1'] + - - SSC SSC1 reboot + - ['R SSC1 C +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.设置autoreconn,关闭 + + 2.查询当前autoreconn状态是否关闭 + + 3.重启系统,等待15s + + 4.查询target1 未自动重连AP + + 5.设置autoreconn,开启 + + 6.查询当前autoreconn状态是否开启 + + 7.系统重启后target1 自动重连AP' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: WIFI MAC + steps: '1.设置autoreconn,关闭 + + 2.查询当前autoreconn状态是否关闭 + + 3.重启系统,等待15s + + 4.查询target1 未自动重连AP + + 5.设置autoreconn,开启 + + 6.查询当前autoreconn状态是否开启 + + 7.系统重启后target1 自动重连AP' + sub module: WIFI Connect + summary: auto reconnect test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: power on auto reconnect test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0404 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.修改8266的Mode为softAP mode\ + \ \n6.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0406 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - NIC DISABLED + - [R PC_COM C OK] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.PC上网卡禁止掉 \n6.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after PC NIC disabled + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0407 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\ + \ ip \n7.查询sta ip 地址是否生效\n8.8266往PC上发送5字节数据" + sub module: TCP + summary: do TCP send after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0401 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.断开与AP 连接 + + 6.8266往PC上发送5字节数据' + sub module: TCP + summary: do TCP send after WIFI disconnected + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0402 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.断开与AP 连接 + + 6.关闭建立的socket1连接' + sub module: TCP + summary: "close TCP socket after WIFI \ndisconnected" + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0403 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.修改8266的Mode为softAP mode\ + \ \n6.8266往PC上发送5字节数据" + sub module: TCP + summary: do TCP send after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0408 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK', 'P SSC1 RE CLOSED:\d+,0'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1\n4.PC与target1创建好TCP 连接,有ACCEPT\n5.关闭8266的DHCP 1\n6.设置sta\ + \ ip \n7.查询sta ip 地址是否生效\n8.关闭建立的socket1连接" + sub module: TCP + summary: close TCP socket after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.PC OK + + 5.PC OK + + 6.PC OK + + 7.PC OK + + 8.PC OK SOC_CLOSE=SOC1' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上关闭工作线程 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1472字节数据 + + 6.PC往8266上发送1472字节数据 + + 7.PC往8266上发送1472字节数据 + + 8.PC往8266上发送1472字节数据' + sub module: UDP + summary: STA mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: use UDP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0307 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0306 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.8266往PC上发送5字节数据" + sub module: UDP + summary: do UDP send after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0305 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - NIC DISABLED + - [R PC_COM C OK] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.PC上网卡禁止掉 \n5.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after PC NIC disabled + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0304 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.修改8266的Mode为softAP mode \n5.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -h + 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 P , R SSC2 C +SCANDONE] + - - SSC SSC1 ap -S -s -p -t -h + 1 + - ['R SSC1 C +SAP:OK'] + - - DELAY 3 + - [''] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 C +SCANDONE] + - - DELAY 3 + - [''] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 NP C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP,set ssid broad cast + + 2.target 2上scan target_ap_mac + + 3.target1 set AP,set ssid hidden, + + 4.target 2上不能scan target_ap_mac' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1. target1下设置ssid 和pwd 加密方式,set ssid broad cast + + 2.target 2上scan target_ap_mac + + 3. target1下设置ssid 和pwd 加密方式,set ssid hidden, + + 4.target 2上scan target_ap_mac' + sub module: WIFI Connect + summary: station SAP+JAP test, ssid hidden + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i 123.456.678.789 -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.ERROR + + 6.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 5.target1上使用步骤4创建的socket,去连接不存在的ip,test_tcp_port1 + + 6.target1上使用步骤2创建的socket,去连接 PC的ip,远端端口不存在。' + sub module: TCP + summary: STA mode, connect test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SOC SOC2 SEND 5 + - [R SSC1 SL +5] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5] + - - SOC SOC2 SEND 146000 + - [R SSC1 SL +146000] + - - SSC SSC1 soc -S -s -l 1460 -n 100 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc上回accept + + 4.OK + + 5.target收到5 byte + + 6.PC收到5 byte + + 7.target收到 146000 byte + + 8.OK,PC 回SOC_RECV=SOC2,RECV_LEN=字节数' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.PC send 5 bytes to 8266 + + 6.8266 send 5 bytes to PC + + 7. PC send 100 * 1460 data to 8266, + + 8.8266 send 100 * 1460 to PC.' + sub module: TCP + summary: STA mode, send/recv basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC1 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK] + - - SOC SOC1 CONNECT + - [P SOC_COM C ERROR, P SSC1 NC ACCEPT] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.PC TCP client accept + + 4.error' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.target1上创建TCP socket,bind到本地端口 + + 2.target1上使用步骤1创建的socket,创建TCP 监听 + + 3.PC TCP 连接到target1 , + + 4.PC tcp 连接到不存在的port ,' + sub module: TCP + summary: STA mode, server listen test. use different kinds of port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK + + 6.OK + + 7.target1关闭socket1 + + 8.target1关闭socket2 + + 9.OK + + 10.OK,pc tcp server accept成功 + + 11.target1关闭socket1 + + 12.OK + + 13.OK,pc tcp server accept成功 + + 14.OK + + 15.target1关闭socket1' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\ + 4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1,去监听\n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\ + 9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT\n\ + 11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1" + sub module: TCP + summary: STA mode, close for different types of TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h W + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h R + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept OK + + 4.OK + + 5.OK + + 6.OK,pc tcp server accept OK + + 7.OK + + 8.OK + + 9.OK,pc tcp server accept OK + + 10.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1 shutdown socket1 B + + 5.target1上创建TCP socket + + 6.target1上使用步骤5创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 7.target1 shutdown socket2 W + + 8.target1上创建TCP socket + + 9.target1上使用步骤8创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1 shutdown socket3 R' + sub module: TCP + summary: STA mode, shutdown basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0107 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC3 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC4 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC5 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC6 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + comment: '' + execution time: 0.0 + expected result: '1.+BIND:0,OK,0.0.0.0 + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK,pc tcp server accept成功 + + 5.OK,pc tcp server accept成功 + + 6.OK,pc tcp server accept成功 + + 7.OK,pc tcp server accept成功' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1,去监听\n3.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n4.PC CONNECT, ,tcp 连接创建成功,创建socket3\ + \ \n5.PC CONNECT, ,tcp 连接创建成功,创建socket4 \n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket5 \n7.PC CONNECT, ,tcp 连接创建成功,创建socket6" + sub module: TCP + summary: STA mode, accept max TCP client by server test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0106 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4 OK + + 5.OK,pc tcp server accept成功 + + 6.OK + + 7.OK,pc tcp server accept成功 + + 8 OK + + 9.OK,pc tcp server accept成功 + + 10.OK + + 11.OK,pc tcp server accept成功' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 6.target1上创建TCP socket3 + + 7.target1上使用步骤6创建的socket3,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 8.target1上创建TCP socket4 + + 9.target1上使用步骤8创建的socket4,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1上创建TCP socket5 + + 11.target1上使用步骤10创建的socket5,去连接 PC的ip,test_tcp_port1,PC有ACCEPT' + sub module: TCP + summary: STA mode, create max TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0210 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - WIFI CONN2 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap try to renew IP 192.168.4.2 + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client able to get IP (discover with requested + IP) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0211 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - DELAY 10 + - [''] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap try to renew IP 192.168.4.2 + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client able to renew IP (direct send request) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0212 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(,,,)', + 'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%()', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d,.+,\d+"%%(,)', + 'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(,,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK + + 9.PC OK, target1 +ACCEPT:3,2,,port + + 10.+SOCINFO:,,, + + +SOCINFO:,,, + + +SOCINFO:, + + +SOCINFO:,,, + + +SOCINF0ALL' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\ + \ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3,去监听\n9.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket4 \n10.target1 查询the socket information" + sub module: TCP + summary: AP mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0210 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC2 SEND 146000 + - [P SOC_COM R *] + - - SSC SSC1 soc -W -s -o 1 + - ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL +2920] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 6.OK + + 7.收到 146000 数据 + + ' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.target停止调用recv + + 6.PC send 100 * 1460 data to 8266, + + 7.target重新调用recv' + sub module: TCP + summary: AP mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0210 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC2 SEND 146000 + - [P SOC_COM R *] + - - SSC SSC1 soc -W -s -o 1 + - ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL +2920] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 6.OK + + 7.收到 146000 数据' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.target停止调用recv + + 6.PC send 100 * 1460 data to 8266, + + 7.target重新调用recv' + sub module: TCP + summary: AP mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0212 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(,,,)', + 'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%()', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d,.+,\d+"%%(,)', + 'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(,,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK + + 9.PC OK, target1 +ACCEPT:3,2,,port + + 10.+SOCINFO:,,, + + +SOCINFO:,,, + + +SOCINFO:, + + +SOCINFO:,,, + + +SOCINF0ALL' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\ + \ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3,去监听\n9.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket4 \n10.target1 查询the socket information" + sub module: TCP + summary: AP mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0211 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - DELAY 10 + - [''] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap try to renew IP 192.168.4.2 + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client able to renew IP (direct send request) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0210 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - WIFI CONN2 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap try to renew IP 192.168.4.2 + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client able to get IP (discover with requested + IP) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_ADDR_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 mac -S -o 1 -m 44:55:66:77:88:99 + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 mac -S -o 2 -m 22:33:44:55:66:77 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 mac -Q -o 3 + - ['R SSC1 C +STAMAC:44:55:66:77:88:99 C +APMAC:22:33:44:55:66:77'] + - - SSC SSC1 mac -S -o 1 -m + - ['R SSC1 C +MAC:STA,OK'] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ok + + 3.ok + + 4.ok + + 5.ok + + 6.ok' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: "1.target1 设置mode 为sta+softAP mode\n2.target1 设置sta mode 下的mac \n3.target1\ + \ 设置softAP mode 下的mac\n4.target1 查询softAP+sta 下的mac\n5.target1 设置sta mode 下的mac\ + \ 为target1_mac\n6.target1 设置softAP mode 下的mac 为target1_ap_mac\n" + sub module: MAC Address + summary: set mac, query mac + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: mac address function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_ADDR_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 mac -S -o 2 -m 44:55:66:77:88:99 + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC1 ap -S -s -p -t + - [''] + - - SSC SSC2 sta -S -b 44:55:66:77:88:99 + - ['R SSC2 RE \+SCAN:.+,44:55:66:77:88:99,'] + - - SSC SSC1 mac -S -o 2 -m + - ['R SSC1 C +MAC:AP,OK'] + - - SSC SSC2 mac -Q -o 1 + - ['R SSC2 A :\+STAMAC:(.+)\r\n'] + - - SSC SSC2 mac -S -o 1 -m 22:33:44:55:66:77 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['P SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -L + - ['R SSC1 C +LSTA:22:33:44:55:66:77'] + - - SSC SSC2 mac -S -o 1 -m + - ['R SSC2 C +MAC:STA,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ok + + 3.ok + + 4.ok + + 5.ok + + 6.ok + + 7.ok + + 8.ok + + 9.ok' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: "1.target1 设置sta mode下的mac 44:55:66:77:88:99\n2.target1下设置ssid 和pwd 加密方式\n\ + 3.target2 查询mac为44:55:66:77:88:99的ssid\n4.target1 设置sta mode下的mac target_ap_mac\n\ + 5.target2 查询sta mode 下的mac 为target2_mac_tmp\n6.target2 设置sta mode 下的mac 为22:33:44:55:66:77\n\ + 7.target2 jap target1\n8.target1 查询连接到的sta \n9.target2 设置sta mode 下的mac 为 target2_mac\n" + sub module: MAC Address + summary: set mac and do scan/JAP/SAP + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: mac address function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.PC OK + + 5.PC OK + + 6.PC OK + + 7.PC OK + + 8.PC OK SOC_CLOSE=SOC1' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上关闭工作线程 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1472字节数据 + + 6.PC往8266上发送1472字节数据 + + 7.PC往8266上发送1472字节数据 + + 8.PC往8266上发送1472字节数据' + sub module: UDP + summary: AP mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: use UDP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0411 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.target1上创建TCP socket2 + + 6.8266往PC socket2上发送5字节数据 + + 7.8266往PC socket1上发送5字节数据' + sub module: TCP + summary: do TCP send after socket changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -h + 0 -m 8 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,3,0,8,\d+"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP + + 2.target 1上查询到跟设置AP时一致 + + ' + initial condition: APM1 + initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial + condition APSTA1 + module: WIFI MAC + steps: '1. target1 set AP + + 2.target 1上查询到跟设置AP时一致 + + ' + sub module: WIFI Connect + summary: AP config query test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: query AP config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i 192.168.123.123 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i 192.168.123.123 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 2 + - ['R SSC1 C +APIP:192.168.123.123'] + - - SSC SSC1 ip -S -o 2 -i + - ['R SSC1 C +IP:OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ERROR + + 3.OK + + 4.OK + + 5.APIP:192.168.123.123 + + 6.OK' + initial condition: APSTA1 + initial condition description (auto): testing ap on sta + ap mode (autogen by APM1) + module: TCPIP + steps: "1.target1 打开DHCP 2\n2.target1 设置softAP ip 192.168.123.123\n4.target1 关闭DHCP\ + \ 2\n5.target1 设置softAP ip 192.168.123.123\n6.target1 查询 当前sta ip \n7.target1\ + \ 设置softAP ip 为target_ap_ip" + sub module: IP + summary: ap set and query static ip test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: set and query static IP + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.关闭socket1' + sub module: UDP + summary: STA mode, close UDP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SOC SOC1 SENDTO 1 + - [R SSC1 SL +1] + - - SOC SOC1 SENDTO 1472 + - ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(,,)'] + - - SOC SOC1 SENDTO 1473 + - [P SSC1 NC +RECVFROM, P SOC_COM C OK] + - - SOC SOC2 BIND + - [R SOC_COM L OK] + - - SOC SOC2 SENDTO 1472 + - ['R SSC1 RE "RECVFROM:%%s,1472,%%s,%%u"%%(,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没收到UDP包 + + 6.OK + + 7.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.PC往8266上发送1字节数据 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1473字节数据 + + 6.PC上SOC2 UDP传输,bing + + 7.PC往8266上发送1472字节数据' + sub module: UDP + summary: STA mode, recvfrom basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0107 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上查询创建socket信息' + sub module: UDP + summary: STA mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0106 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok + + 3.ok + + 4.ok + + 5.ok' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip target_udp_port2 + + 3.target1上UDP传输,Bind socket3,本地ip target_udp_port3 + + 4.target1上UDP传输,Bind socket4,本地ip target_udp_port4 + + 5.target1上UDP传输,Bind socket5,本地ip target_udp_port5' + sub module: UDP + summary: STA mode, create max udp socket test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 C BIND:ERROR'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip 0.0.0.0 target_udp_port2 + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上创建TCP socket3, target_udp_port1' + sub module: UDP + summary: STA mode, udp bind test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1] + - - SSC SSC1 soc -S -s -i -p -l 1472 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472] + - - SSC SSC1 soc -S -s -i -p -l 1473 + - ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM] + - - SSC SSC1 soc -S -s -i -p -l 1472 -n 10 -j 20 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没有到UDP包 + + 6.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1字节数据 + + 4.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472字节数据 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1473字节数据 + + 6.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472*10字节数据' + sub module: UDP + summary: STA mode, sendto test with different length + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC2 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 10 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 10] + - - SSC SSC1 soc -S -s -i -p -l 10 + - ['P SSC1 RE SEND:(\d+),OK', P SOC2 UL 10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.PC上SOC2 UDP传输,bing + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上使用步骤3创建的socket1,往pc_ip,test_tcp_port1上发送10字节数据 + + 5.target1上使用步骤3创建的socket1,往pc_ip2,test_tcp_port2上发送10字节数据' + sub module: UDP + summary: STA mode, sendto test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - [''] + - - DELAY 20 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target\ + \ 1,FAIL \n4.target1 打开DHCP OK\n5.target2 jap target 1,ok" + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: "1.target1 set AP OK \n2.target1 关闭DHCP OK\n3.target2 jap target 1,FAIL \n\ + 4.target1 打开DHCP OK\n5.target2 jap target 1,ok" + sub module: DHCP + summary: dhcp server function test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 3 + - ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK'] + - - SSC SSC1 dhcp -Q -o 3 + - ['R SSC1 C +DHCP:STA,STARTED C +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -Q -o 1 + - ['R SSC1 C +DHCP:STA,STARTED NC +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -Q -o 2 + - ['R SSC1 NC +DHCP:STA,STARTED C +DHCP:AP,STARTED'] + - - SSC SSC1 dhcp -E -o 3 + - ['R SSC1 C +DHCP:AP,OK C +DHCP:STA,OK'] + - - SSC SSC1 dhcp -Q -o 3 + - ['R SSC1 C +DHCP:STA,STOPPED C +DHCP:AP,STOPPED'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.STA&AP STARTED + + 4.STA STARTED + + 5.AP STARTED + + 6.OK + + 7.STA&AP STOPPED' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: TCPIP + steps: '1.target1 设置mode 为sta+softAP mode + + 2.target1 打开DHCP 3 + + 3.target1 查询DHCP 状态 + + 4.target1 查询sta DHCP 状态 + + 5.target1 查询softAP DHCP 状态 + + 6.target1 关闭 DHCP 3 + + 7.target1 查询 DHCP 状态' + sub module: DHCP + summary: dhcp status query + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0801 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -S -s -p -t 2 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,2,0'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,3,2'] + - - SSC SSC1 ap -S -s -p -t 4 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,4,3'] + - - SSC SSC1 ap -S -s -p -t 0 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,0,4'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. auth change event old mode 0 new mode 2 + + 4. auth change event old mode 2 new mode 3 + + 5. auth change event old mode 3 new mode 4 + + 6. auth change event old mode 4 new mode 0' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1. set target1 softap auth mode 0 + + 2. target2 connect to target1 + + 3. set target1 softap auth mode 2, wait sta connected + + 4. set target1 softap auth mode 3, wait sta connected + + 5. set target1 softap auth mode 4, wait sta connected + + 6. set target1 softap auth mode 0, wait sta connected' + sub module: WIFI Connect + summary: test auth change event + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi auth changed event test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0108 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 C BIND:ERROR'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip 0.0.0.0 target_udp_port2 + + 3.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 4.target1上创建TCP socket3, target_udp_port1' + sub module: UDP + summary: AP mode, udp bind test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -m + 1 + - ['R SSC1 C +SAP:OK'] + - - WIFI DISCONN + - ['R PC_COM C +WIFIDISCONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - WIFI CONN + + - ['R PC_COM C +WIFICONN:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP,set max allowed sta as 1 + + 2. use PC disconnect, + + 3.target 2 jap succeed + + 4.PC WIFI can not CONN' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式,set max allowed sta as 1 + + 2.use PC disconnect target1 + + 3.target 2 jap target1 + + 4.PC WIFI CONNECT target1' + sub module: WIFI Connect + summary: station SAP test, max allowed sta + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC1 SENDTO 1 224.1.1.1 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. able to recv packet' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. join group + + 2. create UDP socket using multicast addr + + 3. PC send UDP packet to multicast addr' + sub module: IGMP + summary: station IGMP recv packets + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SOC SOC1 SENDTO 1 224.1.1.1 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. able to recv packet' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. join group + + 2. create UDP socket using multicast addr + + 3. PC send UDP packet to multicast addr' + sub module: IGMP + summary: softAP IGMP recv packets + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 op -S -o 1 + - ['R SSC2 C +MODE:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -S -s -i 224.1.1.1 -p -l 10 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. target1 recv multicast packet' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. target2 set to sta mode and join AP + + 2. target1 join group and create UDP socket using multicast addr + + 3. target2 create UDP socket + + 4. target2 send to multicast addr' + sub module: IGMP + summary: station send multicast packets + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 soc -B -t UDP -i 224.1.1.1 -p + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :\+BIND:(\d+),OK'] + - - SSC SSC2 soc -S -s -i 224.1.1.1 -p -l 10 + - [R SSC1 SL +1] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. target1 recv multicast packet' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. target2 join SoftAP + + 2. target1 join group and create UDP socket using multicast addr + + 3. target2 create UDP socket + + 4. target2 send to multicast addr' + sub module: IGMP + summary: softAP send multicast packets + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP send/recv test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -h + 0 -m 8 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 ap -Q + - ['R SSC1 RE "\+APCONFIG:%%s,%%s,\d+,3,0,8,\d+"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP + + 2.target 1上查询到跟设置AP时一致' + initial condition: APSTA1 + initial condition description (auto): testing ap on sta + ap mode (autogen by APM1) + module: WIFI MAC + steps: '1. target1 set AP + + 2.target 1上查询到跟设置AP时一致' + sub module: WIFI Connect + summary: AP config query test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: query AP config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0114 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上查询创建socket信息' + sub module: UDP + summary: AP mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0111 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN + + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC2 ip + - ['R SSC2 A :STAIP:(.+)\r\n'] + - - SSC SSC2 soc -B -t UDP -p + - ['R SSC2 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SOC SOC1 SENDTO 5 + - ['R SSC1 RE "RECVFROM:%%s,5,%%s,%%u"%%(,,)'] + - - SSC SSC2 soc -S -s -i -p -l 5 + - ['R SSC1 RE "RECVFROM:%%s,5,%%s,%%u"%%(,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没收到UDP包 + + 6.OK + + 7.OK' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.PC往8266上发送1字节数据 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1473字节数据 + + 6.PC上SOC2 UDP传输,bing + + 7.PC往8266上发送1472字节数据' + sub module: UDP + summary: AP mode, recvfrom basic test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0110 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1] + - - SSC SSC1 soc -S -s -i -p -l 1472 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 1472] + - - SSC SSC1 soc -S -s -i -p -l 1473 + - ['P SSC1 RE SEND:(\d+),OK', P SOC_COM NC SOC_RECVFROM] + - - SSC SSC1 soc -S -s -i -p -l 1472 -n 10 + -j 20 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 14720] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK,没收到UDP包 + + 6.OK' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1字节数据 + + 4.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472字节数据 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1473字节数据 + + 6.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送1472*10字节数据' + sub module: UDP + summary: AP mode, sendto test with different length + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0113 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 RE BIND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.ok + + 3.ok + + 4.ok + + 5.ok' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上UDP传输,Bind socket2,本地ip target_udp_port2 + + 3.target1上UDP传输,Bind socket3,本地ip target_udp_port3 + + 4.target1上UDP传输,Bind socket4,本地ip target_udp_port4 + + 5.target1上UDP传输,Bind socket5,本地ip target_udp_port5' + sub module: UDP + summary: AP mode, create max udp socket test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0112 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.关闭socket1' + sub module: UDP + summary: AP mode, close UDP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0501 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - [''] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 15 + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 0 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC2 sta -R -r 2 + - ['R SSC2 C +RECONN:0'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - [''] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 15 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + comment: '' + execution time: 0.0 + expected result: '1.设置reconn,开启(此功能不需要重启系统) + + 2.target1 set AP + + 3.target2 JAP target1 成功 + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.成功 + + 7.查询reconn状态,关闭 + + 8.修改mode 成功 + + 9.等待15s,target2 不会自动重连target1' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: "1.设置reconn,开启(此功能不需要重启系统)\n2.target1下设置ssid 和pwd 加密方式\n3.target2 JAP target1\ + \ \n4.target1 修改mode 为sta mode\n5.等待10s,target1 修改mode 为softAP mode\n6.设置reconn,关闭\n\ + 7.查询reconn状态,关闭\n8.target1 修改mode 为sta mode\n9.等待15s,target1 修改mode 为softAP mode" + sub module: WIFI Connect + summary: reconnect policy test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0502 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 5 + - ['R SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP + + 2.target2 jap target 1 + + 3.设置reconn,开启(此功能不需要重启系统) + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.target2 断开target1 连接' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式 + + 2.target2 jap target 1 + + 3.设置reconn,开启(此功能不需要重启系统) + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.target2 断开target1 连接' + sub module: WIFI Connect + summary: will not do reconnect after manually disconnected + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0401 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -R -a 0 + - ['R SSC1 C +AUTORECONN:OK'] + - - SSC SSC1 sta -R -a 2 + - ['R SSC1 C +AUTORECONN:0'] + - - SSC SSC1 reboot + - [''] + - - DELAY 15 + - [''] + - - SSC SSC1 sta -Q + - ['R SSC1 C JAP:DISCONNECTED'] + - - SSC SSC1 sta -R -a 1 + - ['R SSC1 C +AUTORECONN:OK'] + - - SSC SSC1 sta -R -a 2 + - ['R SSC1 C +AUTORECONN:1'] + - - SSC SSC1 reboot + - ['R SSC1 C +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.设置autoreconn,关闭 + + 2.查询当前autoreconn状态是否关闭 + + 3.重启系统,等待15s + + 4.查询target1 未自动重连AP + + 5.设置autoreconn,开启 + + 6.查询当前autoreconn状态是否开启 + + 7.系统重启后target1 自动重连AP' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: WIFI MAC + steps: '1.设置autoreconn,关闭 + + 2.查询当前autoreconn状态是否关闭 + + 3.重启系统,等待15s + + 4.查询target1 未自动重连AP + + 5.设置autoreconn,开启 + + 6.查询当前autoreconn状态是否开启 + + 7.系统重启后target1 自动重连AP' + sub module: WIFI Connect + summary: auto reconnect test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: power on auto reconnect test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_MODE_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC2 sta -S + - [R SSC2 NP C +SCANDONE] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:OK'] + comment: '' + execution time: 0.0 + expected result: '1.target1下设置ssid 和pwd 、加密方式成功 + + 2.修改target 1的mode 为sta mode + + 3.target1的dhcp打开 + + 4.target1成功连接上AP + + 5.target2上不能查询到target_ssid + + 6.target1断开AP' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式 + + 2.修改target1的mode 为sta mode + + 3.target1的dhcp打开 + + 4.target1连接AP + + 5.target2查询target_ssid + + 6.target1断开AP' + sub module: WIFI Mode + summary: mode switch test (sta mode) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi mode fucntion + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_MODE_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 op -S -o 3 + - ['R SSC1 C +MODE:OK'] + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC2 sta -S + - [R SSC2 P , R SSC2 C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 change to AP mode + + 2.target1 set AP + + 3.target 1 的dhcp 打开 + + 4.target 1 成功连接上AP + + 5.target 2 上查询到target_ssid' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: WIFI MAC + steps: '1.target1 change to AP mode + + 2.target1下设置ssid 和pwd 加密方式 + + 3.target1 的dhcp 打开 + + 4.target1 连接AP + + 5.target2 上查询target_ssid' + sub module: WIFI Mode + summary: mode switch test (STA+AP mode) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi mode fucntion + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_MODE_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - [R SSC2 P , R SSC2 C +SCANDONE] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:ERROR'] + - - SSC SSC1 sta -D + - ['R SSC1 C +QAP:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP + + 2.target 2 上查询到target_ssid + + 3. target1 can''t join AP + + 4. target1 can''t QAP' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式 + + 2.target 2 上查询target_ssid + + 3.target1 join AP + + 4.target1 DISCONN AP' + sub module: WIFI Mode + summary: mode switch test (AP mode) + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi mode fucntion + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0904 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 3 -m 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p 1234567890 + - ['R SSC2 C +JAP:DISCONNECTED,1,204'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - WIFI CONN + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:DISCONNECTED,1,5'] + - - WIFI DISCONN + - [P PC_COM C OK, 'R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -S -s -p -t 3 -m 1 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:DISCONNECTED,5,4'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. disconnect event REASON_HANDSHAKE_TIMEOUT + + 3. succeed + + 4. succeed + + 5. disconnect event REASON_ASSOC_TOOMANY + + 6. succeed, target2 connect succeed + + 7. disconnect event REASON_ASSOC_EXPIRE' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1. config target1 softap max sta allowed 1 + + 2. target2 connect to target1 with wrong password + + 3. target2 disconnect + + 4. PC WIFI NIC connect to target1 + + 5. target2 connect to target1 with correct password + + 6. PC WIFI NIC disconnect + + 7. reconfig softap' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_ASSOC_TOOMANY, REASON_HANDSHAKE_TIMEOUT, + REASON_ASSOC_EXPIRE + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0902 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - APC OFF + - [P PC_COM L OK, 'R SSC1 C +JAP:DISCONNECTED,1,200'] + - - APC ON + - [P PC_COM L OK] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. disconnect event REASON_BEACON_TIMEOUT' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1. connect to AP + + 2. AP power off' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_BEACON_TIMEOUT + test environment: SSC_T1_APC + test environment description (auto): "PC has 1 wired NIC connected to AP.\nPC has\ + \ 1 wired NIC connected to APC (static IP within the same subnet with APC). \n\ + APC control AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with\ + \ PC by UART." + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0901 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: basic function + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 sta -D + - ['R SSC1 C +JAP:DISCONNECTED,0,8'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:DISCONNECTED,2,15'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:DISCONNECTED,1,201'] + comment: '' + execution time: 0.0 + expected result: '1. disconnect event reason REASON_ASSOC_LEAVE + + 2. disconnect event reason REASON_4WAY_HANDSHAKE_TIMEOUT + + 3. disconnect event reason REASON_NO_AP_FOUND' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1. sta connect to AP, and disconnect + + 2. connect to AP with wrong password + + 3. connect to AP not exist' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_ASSOC_LEAVE, REASON_4WAY_HANDSHAKE_TIMEOUT, + REASON_NO_AP_FOUND + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['P SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.OK + + 9.OK + + 10.OK + + 11.OK + + 12.ERROR' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去连接 PC的ip, + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,创建TCP 监听 + + 6.target1上使用步骤4创建的socket,去连接 PC的ip, + + 7.target1上创建TCP socket + + 8.target1上使用步骤7创建的socket,去连接 PC的ip, + + 9.target1上关闭步骤7创建的socket + + 10.target1上使用步骤7创建的socket,去连接 PC的ip, + + 11.target1上关闭所有创建的socket + + 12.target1上使用步骤2创建的socket,去连接 PC的ip,' + sub module: TCP + summary: STA mode, connect test. use socket in state that can't connect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0206 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(,,,)', + 'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%()', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d,.+,\d+"%%(,)', + 'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(,,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK + + 9.PC OK, target1 +ACCEPT:3,2,,port + + 10.+SOCINFO:,,, + + +SOCINFO:,,, + + +SOCINFO:, + + +SOCINFO:,,, + + +SOCINF0ALL' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\ + \ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3,去监听\n9.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket4 \n10.target1 查询the socket information" + sub module: TCP + summary: STA mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0207 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['P SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2 OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.OK + + 9.OK + + 10.OK + + 11.OK + + 12.ERROR' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去连接 PC的ip, + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,创建TCP 监听 + + 6.target1上使用步骤4创建的socket,去连接 PC的ip, + + 7.target1上创建TCP socket + + 8.target1上使用步骤7创建的socket,去连接 PC的ip, + + 9.target1上关闭步骤7创建的socket + + 10.target1上使用步骤7创建的socket,去连接 PC的ip, + + 11.target1上关闭所有创建的socket + + 12.target1上使用步骤2创建的socket,去连接 PC的ip,' + sub module: TCP + summary: AP mode, connect test. use socket in state that can't connect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0501 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+block_ip + - ['R PC_COM C +NIC_START:OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - [''] + - - DELAY 10 + - ['R SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: 2. connect failed, no exception + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. PC do not reply any IP packet on NIC + + 2. target try to connect to TCP server with PC NIC IP' + sub module: TCP + summary: PC do not reply TCP SYN of target + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP connect and disconnect abnormal case + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DNS_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 C +HOSTIP:OK,115.29.202.58'] + comment: '' + execution time: 0.0 + expected result: 1.OK + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: 1. get host name "espressif.cn" + sub module: DNS + summary: get host by name test + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DNS_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 A :\+HOSTIP:OK,(.+)\r\n'] + - - SSC SSC1 soc -B -t UDP + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p 9003 -l 10 + - ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL +10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. get host name "espressif.cn" + + 2. sendto, recvfrom1. get host name "espressif.cn" + + 2. sendto, recvfrom' + sub module: DNS + summary: UDP send to iot.expressif.com + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DNS_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 A :\+HOSTIP:OK,(.+)\r\n'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p 9001 + - ['R SSC1 RE \+CONNECT:\d+,OK'] + - - SSC SSC1 soc -S -s -l 10 + - ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL +10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. get host name "espressif.cn" + + 2. connect, send, recv1. get host name "espressif.cn" + + 2. connect, send, recv' + sub module: DNS + summary: TCP connect to iot.espressif.com + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0106 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4 OK + + 5.OK,pc tcp server accept成功 + + 6.OK + + 7.OK,pc tcp server accept成功 + + 8 OK + + 9.OK,pc tcp server accept成功 + + 10.OK + + 11.OK,pc tcp server accept成功' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 6.target1上创建TCP socket3 + + 7.target1上使用步骤6创建的socket3,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 8.target1上创建TCP socket4 + + 9.target1上使用步骤8创建的socket4,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1上创建TCP socket5 + + 11.target1上使用步骤10创建的socket5,去连接 PC的ip,test_tcp_port1,PC有ACCEPT' + sub module: TCP + summary: STA mode, create max TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0107 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC3 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC4 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC5 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC6 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + comment: '' + execution time: 0.0 + expected result: '1.+BIND:0,OK,0.0.0.0 + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK,pc tcp server accept成功 + + 5.OK,pc tcp server accept成功 + + 6.OK,pc tcp server accept成功 + + 7.OK,pc tcp server accept成功' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1,去监听\n3.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n4.PC CONNECT, ,tcp 连接创建成功,创建socket3\ + \ \n5.PC CONNECT, ,tcp 连接创建成功,创建socket4 \n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket5 \n7.PC CONNECT, ,tcp 连接创建成功,创建socket6\ + \ " + sub module: TCP + summary: STA mode, accept max TCP client by server test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h W + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h R + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept OK + + 4.OK + + 5.OK + + 6.OK,pc tcp server accept OK + + 7.OK + + 8.OK + + 9.OK,pc tcp server accept OK + + 10.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1 shutdown socket1 B + + 5.target1上创建TCP socket + + 6.target1上使用步骤5创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 7.target1 shutdown socket2 W + + 8.target1上创建TCP socket + + 9.target1上使用步骤8创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1 shutdown socket3 R' + sub module: TCP + summary: STA mode, shutdown basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0105 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK + + 6.OK + + 7.target1关闭socket1 + + 8.target1关闭socket2 + + 9.OK + + 10.OK,pc tcp server accept成功 + + 11.target1关闭socket1 + + 12.OK + + 13.OK,pc tcp server accept成功 + + 14.OK + + 15.target1关闭socket1' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\ + 4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1,去监听\n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\ + 9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT\n\ + 11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1" + sub module: TCP + summary: STA mode, close for different types of TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC1 CONNECT + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK] + - - SOC SOC1 CONNECT + - [P SOC_COM C ERROR, P SSC1 NC ACCEPT] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.PC TCP client accept + + 4.error' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.target1上创建TCP socket,bind到本地端口 + + 2.target1上使用步骤1创建的socket,创建TCP 监听 + + 3.PC TCP 连接到target1 , + + 4.PC tcp 连接到不存在的port ,' + sub module: TCP + summary: STA mode, server listen test. use different kinds of port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SOC SOC2 SEND 5 + - [R SSC1 SL +5] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5] + - - SOC SOC2 SEND 146000 + - [R SSC1 SL +146000] + - - SSC SSC1 soc -S -s -l 1460 -n 100 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc上回accept + + 4.OK + + 5.target收到5 byte + + 6.PC收到5 byte + + 7.target收到 146000 byte + + 8.OK,PC 回SOC_RECV=SOC2,RECV_LEN=字节数' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.PC send 5 bytes to 8266 + + 6.8266 send 5 bytes to PC + + 7. PC send 100 * 1460 data to 8266, + + 8.8266 send 100 * 1460 to PC. ' + sub module: TCP + summary: STA mode, send/recv basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i 123.456.678.789 -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.ERROR + + 6.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 5.target1上使用步骤4创建的socket,去连接不存在的ip,test_tcp_port1 + + 6.target1上使用步骤2创建的socket,去连接 PC的ip,远端端口不存在。' + sub module: TCP + summary: STA mode, connect test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0116 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC3 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC4 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC5 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC6 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + comment: '' + execution time: 0.0 + expected result: '1.+BIND:0,OK,0.0.0.0 + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK,pc tcp server accept成功 + + 5.OK,pc tcp server accept成功 + + 6.OK,pc tcp server accept成功 + + 7.OK,pc tcp server accept成功' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1,去监听\n3.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n4.PC CONNECT, ,tcp 连接创建成功,创建socket3\ + \ \n5.PC CONNECT, ,tcp 连接创建成功,创建socket4 \n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket5 \n7.PC CONNECT, ,tcp 连接创建成功,创建socket6" + sub module: TCP + summary: AP mode, accept max TCP client by server test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0114 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK + + 6.OK,target1上accept 成功 + + 7.target1关闭socket1 + + 8.target1关闭socket2 + + 9.OK + + 10.OK,pc tcp server accept成功 + + 11.target1关闭socket1 + + 12.OK + + 13.OK,pc tcp server accept成功 + + 14.OK + + 15.target1关闭socket1' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\ + 4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1,去监听\n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\ + 9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT\n\ + 11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1" + sub module: TCP + summary: AP mode, close for different types of TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0115 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4 OK + + 5.OK,pc tcp server accept成功 + + 6.OK + + 7.OK,pc tcp server accept成功 + + 8 OK + + 9.OK,pc tcp server accept成功 + + 10.OK + + 11.OK,pc tcp server accept成功' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 6.target1上创建TCP socket3 + + 7.target1上使用步骤6创建的socket3,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 8.target1上创建TCP socket4 + + 9.target1上使用步骤8创建的socket4,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1上创建TCP socket5 + + 11.target1上使用步骤10创建的socket5,去连接 PC的ip,test_tcp_port1,PC有ACCEPT' + sub module: TCP + summary: AP mode, create max TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0112 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SOC SOC2 SEND 5 + - [R SSC1 SL +5] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5] + - - SOC SOC2 SEND 146000 + - [R SSC1 SL +146000] + - - SSC SSC1 soc -S -s -l 1460 -n 100 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.target收到5byte数据 + + 6.PC收到5byte数据 + + 7.target收到146000 byte数据 + + 8.OK,PC 收到146000 byte数据' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.PC send 5 bytes to 8266 + + 6.8266 send 5 bytes to PC + + 7. PC send 100 * 1460 data to 8266, + + 8.8266 send 100 * 1460 to PC.' + sub module: TCP + summary: AP mode, send/recv basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0113 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h W + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h R + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK,pc tcp server accept成功 + + 7.OK + + 8.OK + + 9.OK,pc tcp server accept成功 + + 10.OK' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1 shutdown socket1 B + + 5.target1上创建TCP socket + + 6.target1上使用步骤5创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 7.target1 shutdown socket2 W + + 8.target1上创建TCP socket + + 9.target1上使用步骤8创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1 shutdown socket3 R' + sub module: TCP + summary: AP mode, shutdown basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0110 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK', P SOC1 C +ACCEPT] + - - SSC SSC1 soc -B -t TCP -i 0.0.0.0 -p 0 + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i 123.456.678.789 -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.ERROR + + 6.ERROR' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.target1上创建TCP socket,bind到本地ip 0.0.0.0,本地端口 0 + + 5.target1上使用步骤4创建的socket,去连接不存在的ip,test_tcp_port1 + + 6.target1上使用步骤2创建的socket,去连接 PC的ip,远端端口不存在。' + sub module: TCP + summary: AP mode, connect test. use different ip, port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0111 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC1 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK] + - - SOC SOC1 CONNECT 0 + - [P SOC_COM C ERROR, P SSC1 NC ACCEPT] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.PC TCP client accept + + 4.error' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.target1上创建TCP socket,bind到本地端口 + + 2.target1上使用步骤1创建的socket,创建TCP 监听 + + 3.PC TCP 连接到target1 , + + 4.PC tcp 连接到不存在的port ,' + sub module: TCP + summary: AP mode, server listen test. use different kinds of port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ARP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+send+block_arp_ip + - ['R PC_COM C +NIC_START:OK'] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr ethernet_dst_addr + "ff:ff:ff:ff:ff:ff" + - ['P PC_COM C +NIC_SEND:OK', P NIC1 PDU (Ethernet.dst_addr=)(ARP.hw_type="Ethernet")(ARP.protocol="IPv4")(ARP.hw_len="6")(ARP.proto_len="4")(ARP.op_code="reply")(ARP.sender_hw_addr=)(ARP.sender_proto_addr=)(ARP.target_hw_addr=)(ARP.target_proto_addr=)] + comment: '' + execution time: 0.0 + expected result: 1. PC recv target valid ARP reply + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. PC send ARP req to target + sub module: ARP + summary: PC send valid ARP request to target + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: handling ARP request + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0304 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.修改8266的Mode为softAP mode \n5.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0305 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - NIC DISABLED + - [R PC_COM C OK] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.PC上网卡禁止掉 \n5.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after PC NIC disabled + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0306 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -S -s -i -p -l 1 + - ['P SSC1 RE SEND:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.8266往PC上发送5字节数据" + sub module: UDP + summary: do UDP send after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0307 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.111.210 + - ['P SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.111.210'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.关闭8266的DHCP 1\n5.设置sta ip \n6.查询sta ip 地址是否生效\n7.关闭建立的socket1连接" + sub module: UDP + summary: close UDP socket after IP changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0301 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据 + + 4.断开与AP 连接 + + 5.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据' + sub module: UDP + summary: do UDP send after WIFI disconnected + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0302 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 sta -D + - ['P SSC1 C +QAP:OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK + + ' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据 + + 4.断开与AP 连接 + + 5.关闭建立的socket1连接' + sub module: UDP + summary: "close UDP socket after WIFI \ndisconnected" + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_UDP_0303 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK', P SOC1 UL 5] + - - SSC SSC1 op -S -o 2 + - ['P SSC1 C +MODE:OK'] + - - SSC SSC1 soc -S -s -i -p -l 5 + - ['P SSC1 RE SEND:(\d+),OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上SOC1 UDP传输,bing \n2.target1上UDP传输,Bind socket1,本地ip\ + \ target_udp_port1\n3.target1上使用步骤2创建的socket1,往pc_ip,test_tcp_port1上发送5字节数据\n\ + 4.修改8266的Mode为softAP mode \n5.8266往PC上发送5字节数据" + sub module: UDP + summary: do UDP send after mode changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: UDP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0601 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - WIFI CONN + + - ['R PC_COM C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -L + - ['R SSC1 C +LSTA:', 'R SSC1 C +LSTA:', R SSC1 C +LSTADONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP + + 2.PC WIFI CONNECTED + + 3.target2 jap target 1 + + 4.查询到两个sta 连接到target1 上' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1. target1下设置ssid 和pwd 加密方式 + + 2.PC WIFI CONNECTED target1 + + 3.target2 jap target 1 + + 4.查询到两个sta 连接到target1 上' + sub module: WIFI Connect + summary: list stations connected to soft ap test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: list SoftAP connected station + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0209 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - DELAY 20 + - [''] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client and new client able to get IP + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0208 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC2 sta -D + - ['R SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. get IP 192.168.4.2 + + 5. can only find target2 with IP 192.168.4.2' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. PC NIC connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. target2 connect to target1 softap + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig and new client able to get first IP in pool + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0207 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - WIFI DISCONN2 + - ['R PC_COM NC ERROR C +WIFIDISCONN:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. get IP 192.168.4.2 + + 4. succeed + + 5. succeed + + 6. get IP 192.168.4.2' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. disable DHCP server, do config and enable + + 3. PC WIFI NIC connect to target1 softap + + 4. target2 connect to target1 softap and disnnect + + 5. PC release IP and disconnected + + 6. target2 change mac and connect to target1' + sub module: DHCP + summary: dhcp server prefer assign released IP to new client + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0206 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 4 4 "['01','02','03','01']" "[2,3,4,2]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 4. get IP 192.168.4.2 - 192.168.4.4 + + 5. get IP 192.168.4.2' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. disable DHCP server, do config and enable + + 3. target2 change mac, connect to softap, disconnect + + 4. Loop step3 twice + + 5. change to first mac, connect to softap' + sub module: DHCP + summary: dhcp server assign same IP to same MAC when it's not released + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0205 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1 + - ['P SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. target2 wifi disconnected' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 + + 3. disable DHCP server, do config and enable' + sub module: DHCP + summary: disconnect STA if config dhcp server + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + - - DELAY 90 + - [''] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + - - SSC SSC2 sta -D + - ['R SSC2 C +JAP:DISCONNECTED'] + - - DELAY 60 + - [''] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. get IP 192.168.4.2 + + 5. succeed + + 6. succeed + + 8. get IP 192.168.4.2' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP timeout as 1 minute + + 3. target2 connect to target1 + + 4. wait 90 seconds + + 5. check if target2 IP is same + + 6. target2 disconnect + + 7. wait 60s + + 8. target2 change mac and connect to target1' + sub module: DHCP + summary: dhcp server timeout test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 2 4 "['01','02']" "[2,3]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - DELAY 20 + - [''] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:0.0.0.0'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4.1 succeed + + 4.2 failed' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP Server on Target1(.4.2 - .4.3) + + 3. target change mac, connect to Target1 + + 4. Loop step3 twice' + sub module: DHCP + summary: dhcp server ip pool empty + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 3 4 "['01','02','03']" "[2,3,4]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3,4: get IP from dhcp pool with correct sequence' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP Server on Target1 + + 3. target change mac, connect to Target1 + + 4. Loop step3' + sub module: DHCP + summary: dhcp server ip pool + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.1 -e 192.168.4.10 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.4.5 -e 192.168.4.2 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.5 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + comment: '' + execution time: 0.0 + expected result: '1.target1 关闭DHCP 2 OK + + 2.target1 设置ip 成功 + + 3.设置dhcp 地址池 OK + + 4.ERROR + + 5.ERROR + + 6.ERROR + + 7.target1 打开DHCP ok' + initial condition: APSTA1 + initial condition description (auto): testing ap on sta + ap mode (autogen by APM1) + module: TCPIP + steps: "1.target1 关闭DHCP 2 \n2.target1 设置ip \n3.设置dhcp 地址池\n4.设置dhcp错误的参数\n5.设置dhcp错误的参数\n\ + 6.设置dhcp错误的参数\n7.target1 打开DHCP ok" + sub module: DHCP + summary: server dhcp lease test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC2 SEND 146000 + - [P SOC_COM R *] + - - SSC SSC1 soc -W -s -o 1 + - ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL +2920] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc server accept OK + + 4.OK + + 5.OK + + 6.OK + + 7.target收到146000 byte + + ' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.target上不进行recv + + 6.PC send 100 * 1460 data to target, + + 7.在target上开始recv' + sub module: TCP + summary: STA mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0207 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['P SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2 OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.OK + + 9.OK + + 10.OK + + 11.OK + + 12.ERROR' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去连接 PC的ip, + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,创建TCP 监听 + + 6.target1上使用步骤4创建的socket,去连接 PC的ip, + + 7.target1上创建TCP socket + + 8.target1上使用步骤7创建的socket,去连接 PC的ip, + + 9.target1上关闭步骤7创建的socket + + 10.target1上使用步骤7创建的socket,去连接 PC的ip, + + 11.target1上关闭所有创建的socket + + 12.target1上使用步骤2创建的socket,去连接 PC的ip,' + sub module: TCP + summary: AP mode, connect test. use socket in state that can't connect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0206 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -i + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,2,%%s,\d+,%%s,%%d"%%(,,,)', + 'P SSC1 RE "SOCINFO:%%s,2,.+,\d+,.+,\d+"%%()', 'P SSC1 RE "SOCINFO:%%s,82,.+,%%d,.+,\d+"%%(,)', + 'P SSC1 RE "SOCINFO:%%s,2,%%s,%%d,%%s,\d+"%%(,,,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK + + 8.OK + + 9.PC OK, target1 +ACCEPT:3,2,,port + + 10.+SOCINFO:,,, + + +SOCINFO:,,, + + +SOCINFO:, + + +SOCINFO:,,, + + +SOCINF0ALL' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1,本地ip target_ip\n3.target1上使用步骤2创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n4.target1上创建TCP socket2,本地ip target_ip\n5.target1上使用步骤4创建的socket2,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n6.target1 shutdown socket2 \n7.target1上创建TCP\ + \ socket3,本地端口random_port\n8.target1上使用步骤7创建的socket3,去监听\n9.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket4 \n10.target1 查询the socket information" + sub module: TCP + summary: STA mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [SOCR SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -i 0.0.0.0 -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['P SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + - - SSC SSC1 soc -T + - [R SSC1 C +CLOSEALL] + - - SSC SSC1 soc -C -s -i -p + - ['P SSC1 RE CONNECT:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.ok + + 2.OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.OK + + 9.OK + + 10.OK + + 11.OK + + 12.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去连接 PC的ip, + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,创建TCP 监听 + + 6.target1上使用步骤4创建的socket,去连接 PC的ip, + + 7.target1上创建TCP socket + + 8.target1上使用步骤7创建的socket,去连接 PC的ip, + + 9.target1上关闭步骤7创建的socket + + 10.target1上使用步骤7创建的socket,去连接 PC的ip, + + 11.target1上关闭所有创建的socket + + 12.target1上使用步骤2创建的socket,去连接 PC的ip,' + sub module: TCP + summary: STA mode, connect test. use socket in state that can't connect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_DHCP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -i 0.0.0.0 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 sta -C -s -p + - [''] + - - DELAY 20 + - [P PC_COM C +DELAYDONE, 'P SSC1 NC +JAP:CONNECTED'] + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -Q + - ['R SSC1 C +STAIP:0.0.0.0'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 ip -Q + - ['R SSC1 RE "\+STAIP:%%s"%%()'] + comment: '' + execution time: 0.0 + expected result: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n\ + 4.target1 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip" + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: TCPIP + steps: "1.target1 关闭DHCP OK\n2.target1 设置ip add OK\n3.target1 连接AP fail\n4.target1\ + \ 打开DHCP OK\n5.查询到sta ip \n6.target1 连接AP ok\n7.查询到sta ip 为target_ip" + sub module: DHCP + summary: dhcp client function test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP client function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -S -s + - ['R SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -S -s 1000 + - ['R SSC1 RE SEND:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK + + 5.ERROR + + 6.OK + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket1, + + 3.target1上使用步骤2创建的socket1,去发送数据 + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去发送数据 + + 6.target1上使用步骤4创建的socket2,创建TCP连接,连接成功 + + 7.target1上shutdown 步骤4的socket2 + + 8.target1往socket2发送错误命令发送数据 + + 9.target1上不指定socket往上发送数据' + sub module: TCP + summary: send test. use socket in state that can't send + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -L -s 1000 + - ['R SSC1 RE LISTEN:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去建立TCP 监听 + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,去连接 PC的ip, + + 6.target1上使用步骤4创建的socket,创建TCP 监听 + + 7.target1上shutdown 步骤4的socket + + 8.target1上使用步骤4创建的socket,创建TCP 监听 + + 9.target1上使用不存在socket,创建TCP 监听' + sub module: TCP + summary: STA mode, server listen test. use socket in state that can't listen + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0208 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -L -s 1000 + - ['R SSC1 RE LISTEN:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4 OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去建立TCP 监听 + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,去连接 PC的ip, + + 6.target1上使用步骤4创建的socket,创建TCP 监听 + + 7.target1上shutdown 步骤4的socket + + 8.target1上使用步骤4创建的socket,创建TCP 监听 + + 9.target1上使用不存在socket,创建TCP 监听' + sub module: TCP + summary: AP mode, server listen test. use socket in state that can't listen + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DNS_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -H -d iot.espressif.cn + - ['R SSC1 A :\+HOSTIP:OK,(.+)\r\n'] + - - SSC SSC1 soc -B -t UDP + - ['R SSC1 A :\+BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -i -p 9003 -l 10 + - ['P SSC1 RE \+SEND:\d+,OK', P SSC1 SL +10] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK' + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: '1. get host name "espressif.cn" + + 2. sendto, recvfrom1. get host name "espressif.cn" + + 2. sendto, recvfrom' + sub module: DNS + summary: UDP send to iot.expressif.com + test environment: SSC_T1_2 + test environment description (auto): 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DNS function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0206 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 4 4 "['01','02','03','01']" "[2,3,4,2]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 4. get IP 192.168.4.2 - 192.168.4.4 + + 5. get IP 192.168.4.2' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. disable DHCP server, do config and enable + + 3. target2 change mac, connect to softap, disconnect + + 4. Loop step3 twice + + 5. change to first mac, connect to softap' + sub module: DHCP + summary: dhcp server assign same IP to same MAC when it's not released + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0207 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - WIFI DISCONN2 + - ['R PC_COM NC ERROR C +WIFIDISCONN:OK'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. get IP 192.168.4.2 + + 4. succeed + + 5. succeed + + 6. get IP 192.168.4.2' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. disable DHCP server, do config and enable + + 3. PC WIFI NIC connect to target1 softap + + 4. target2 connect to target1 softap and disnnect + + 5. PC release IP and disconnected + + 6. target2 change mac and connect to target1' + sub module: DHCP + summary: dhcp server prefer assign released IP to new client + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + - - DELAY 90 + - [''] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + - - SSC SSC2 sta -D + - ['R SSC2 C +JAP:DISCONNECTED'] + - - DELAY 60 + - [''] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.2'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. get IP 192.168.4.2 + + 5. succeed + + 6. succeed + + 8. get IP 192.168.4.2' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP timeout as 1 minute + + 3. target2 connect to target1 + + 4. wait 90 seconds + + 5. check if target2 IP is same + + 6. target2 disconnect + + 7. wait 60s + + 8. target2 change mac and connect to target1' + sub module: DHCP + summary: dhcp server timeout test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0205 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 -t 1 + - ['P SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. target2 wifi disconnected' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 + + 3. disable DHCP server, do config and enable' + sub module: DHCP + summary: disconnect STA if config dhcp server + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 3 4 "['01','02','03']" "[2,3,4]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3,4: get IP from dhcp pool with correct sequence' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP Server on Target1 + + 3. target change mac, connect to Target1 + + 4. Loop step3' + sub module: DHCP + summary: dhcp server ip pool + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.3 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - LOOP 2 4 "['01','02']" "[2,3]" + - [''] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:{%s} + - ['R SSC2 C +MAC:STA,OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:192.168.4.{%s}'] + - - SSC SSC2 mac -S -o 1 -m 10:22:33:44:55:66 + - ['R SSC2 C +MAC:STA,OK'] + - - DELAY 20 + - [''] + - - SSC SSC2 ip -Q -o 1 + - ['R SSC2 C +STAIP:0.0.0.0'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4.1 succeed + + 4.2 failed' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. config DHCP Server on Target1(.4.2 - .4.3) + + 3. target change mac, connect to Target1 + + 4. Loop step3 twice' + sub module: DHCP + summary: dhcp server ip pool empty + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0204 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC2 SEND 146000 + - [P SOC_COM R *] + - - SSC SSC1 soc -W -s -o 1 + - ['P SSC1 RE WORKTHREAD:\d+,OK', P SSC1 SL +2920] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc server accept OK + + 4.OK + + 5.OK + + 6.OK + + 7.target收到146000 byte' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.target上不进行recv + + 6.PC send 100 * 1460 data to target, + + 7.在target上开始recv' + sub module: TCP + summary: STA mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 ip -S -o 2 -i + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.1 -e 192.168.4.10 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.4.5 -e 192.168.4.2 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -L -s 192.168.2.2 -e 192.168.2.5 + - ['R SSC1 C +DHCP:LEASE,ERROR'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + comment: '' + execution time: 0.0 + expected result: '1.target1 关闭DHCP 2 OK + + 2.target1 设置ip 成功 + + 3.设置dhcp 地址池 OK + + 4.ERROR + + 5.ERROR + + 6.ERROR + + 7.target1 打开DHCP ok' + initial condition: APM1 + initial condition description (auto): AP mode, DHCP on, will autogen a TC with initial + condition APSTA1 + module: TCPIP + steps: "1.target1 关闭DHCP 2 \n2.target1 设置ip \n3.设置dhcp 地址池\n4.设置dhcp错误的参数\n5.设置dhcp错误的参数\n\ + 6.设置dhcp错误的参数\n7.target1 打开DHCP ok" + sub module: DHCP + summary: server dhcp lease test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0208 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,ERROR'] + - - SSC SSC1 soc -L -s 1000 + - ['R SSC1 RE LISTEN:\d+,ERROR'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.ERROR + + 4 OK + + 5.OK + + 6.ERROR + + 7.OK + + 8.ERROR + + 9.ERROR' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建UDP传输socket,bind到本地ip 0.0.0.0, + + 3.target1上使用步骤2创建的socket,去建立TCP 监听 + + 4.target1上创建TCP socket + + 5.target1上使用步骤4创建的socket,去连接 PC的ip, + + 6.target1上使用步骤4创建的socket,创建TCP 监听 + + 7.target1上shutdown 步骤4的socket + + 8.target1上使用步骤4创建的socket,创建TCP 监听 + + 9.target1上使用不存在socket,创建TCP 监听' + sub module: TCP + summary: AP mode, server listen test. use socket in state that can't listen + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0208 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['P SSC1 C +DHCP:AP,OK', 'P SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC2 sta -D + - ['R SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. get IP 192.168.4.2 + + 5. can only find target2 with IP 192.168.4.2' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. PC NIC connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. target2 connect to target1 softap + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig and new client able to get first IP in pool + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_DHCP_0209 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 dhcp -E -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - SSC SSC1 dhcp -L -s 192.168.4.2 -e 192.168.4.100 + - ['R SSC1 C +DHCP:LEASE,OK'] + - - SSC SSC1 dhcp -S -o 2 + - ['R SSC1 C +DHCP:AP,OK'] + - - WIFI CONN 192.168.4.2 + - ['R PC_COM NC ERROR C +WIFICONN:OK'] + - - DELAY 20 + - [''] + - - SSC SSC1 ap -L + - [R SSC1 C 192.168.4.2 C 192.168.4.3 P P ] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. succeed + + 4. succeed + + 5. find target2 and PC' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: TCPIP + steps: '1. config softap to a random ssid + + 2. target2 connect to target1 softap + + 3. disable DHCP server, do config and enable + + 4. PC NIC connect to target1 softap + + 5. softap list connected station' + sub module: DHCP + summary: dhcp server reconfig, old client and new client able to get IP + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: DHCP server function test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0412 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.OK + + 7.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.target1上创建TCP socket2 + + 6.关闭socket1 连接 + + 7.关闭socket2连接' + sub module: TCP + summary: close TCP send after socket changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_TCP_0411 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,ERROR'] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK; PC TCP server accept 成功 + + 4.OK + + 5.OK + + 6.ERROR + + 7.OK' + initial condition: STAAP2 + initial condition description (auto): testing sta on sta + ap mode, join AP, DHCP + on (autogen by STAM2) + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1创建好TCP 连接,有ACCEPT + + 5.target1上创建TCP socket2 + + 6.8266往PC socket2上发送5字节数据 + + 7.8266往PC socket1上发送5字节数据' + sub module: TCP + summary: do TCP send after socket changed + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: TCP handling abnormal event + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0901 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: basic function + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - SSC SSC1 sta -D + - ['R SSC1 C +JAP:DISCONNECTED,0,8'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:DISCONNECTED,2,15'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:DISCONNECTED,1,201'] + comment: '' + execution time: 0.0 + expected result: '1. disconnect event reason REASON_ASSOC_LEAVE + + 2. disconnect event reason REASON_4WAY_HANDSHAKE_TIMEOUT + + 3. disconnect event reason REASON_NO_AP_FOUND' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1. sta connect to AP, and disconnect + + 2. connect to AP with wrong password + + 3. connect to AP not exist' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_ASSOC_LEAVE, REASON_4WAY_HANDSHAKE_TIMEOUT, + REASON_NO_AP_FOUND + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0902 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:CONNECTED'] + - - APC OFF + - [P PC_COM L OK, 'R SSC1 C +JAP:DISCONNECTED,1,200'] + - - APC ON + - [P PC_COM L OK] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. disconnect event REASON_BEACON_TIMEOUT' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1. connect to AP + + 2. AP power off' + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_BEACON_TIMEOUT + test environment: SSC_T1_APC + test environment description (auto): "PC has 1 wired NIC connected to AP.\nPC has\ + \ 1 wired NIC connected to APC (static IP within the same subnet with APC). \n\ + APC control AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with\ + \ PC by UART." + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ARP_0203 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+send+block_arp_ip + - ['R PC_COM C +NIC_START:OK'] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr arp_hw_len + 10 ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_target_proto_addr arp_proto_len + 10 ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + comment: '' + execution time: 0.0 + expected result: 1. PC can't recv ARP reply from target + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. PC send ARP req with hw_addr_len and proto_addr_len not correct + sub module: ARP + summary: PC send invalid ARP request to target 3 + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: handling ARP request + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0903 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p bacfd + - ['R SSC1 C +JAP:DISCONNECTED,4,2'] + comment: '' + execution time: 0.0 + expected result: 1. disconect event reason REASON_AUTH_EXPIRE + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: 1. connect WEP ap with error password (valid wep password) + sub module: WIFI Connect + summary: test wifi disconnect reason REASON_AUTH_EXPIRE + test environment: SSC_T1_WEP + test environment description (auto): '1 SSC target connect with PC by UART. + + One WEP share key AP placed near SSC1.' + test point 1: basic function + test point 2: wifi disconnect reason test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0503 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -R -r 0 + - [R SSC1 C OK] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 NC +JAP:DISCONNECTED,1 C +JAP:DISCONNECTED,3'] + - - DELAY 5 + - ['R SSC1 NC +JAP:DISCONNECTED', P PC_COM C +DELAYDONE] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 NC +JAP:DISCONNECTED,1 C +JAP:DISCONNECTED,2'] + - - DELAY 5 + - ['R SSC1 NC +JAP:DISCONNECTED', P PC_COM C +DELAYDONE] + - - SSC SSC1 sta -R -r 1 + - [SSC SSC1 C OK] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. not reconnect when connect failed, status when recv disconnect event is correct + + 3. not reconnect when connect failed, status when recv disconnect event is correct + + 4. succeed' + initial condition: STAM1 + initial condition description (auto): sta mode, quit AP, DHCP on, will autogen a + TC with initial condition STAAP1 + module: WIFI MAC + steps: '1. set sta reconnect policy as not reconnect + + 2. sta connect to ap not exist + + 3. sta connect to ap with wrong password + + 4. reset sta reconnect policy as auto reconnect + + ' + sub module: WIFI Connect + summary: reconnect policy interact with failed STA connect/reconnect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0112 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.关闭socket1' + sub module: UDP + summary: AP mode, close UDP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0114 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -I + - ['P SSC1 RE "SOCINFO:%%s,1,.+,%%d"%%(,)'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 2.target1上查询创建socket信息' + sub module: UDP + summary: AP mode, get active socket info test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use UDP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0104 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -m + 1 + - ['R SSC1 C +SAP:OK'] + - - WIFI DISCONN + - ['R PC_COM C +WIFIDISCONN:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - WIFI CONN + + - ['R PC_COM C +WIFICONN:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP,set max allowed sta as 1 + + 2. use PC disconnect, + + 3.target 2 jap succeed + + 4.PC WIFI can not CONN' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式,set max allowed sta as 1 + + 2.use PC disconnect target1 + + 3.target 2 jap target1 + + 4.PC WIFI CONNECT target1' + sub module: WIFI Connect + summary: station SAP test, max allowed sta + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_UDP_0202 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 BIND + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t UDP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -W -s -o 0 + - ['R SSC1 RE WORKTHREAD:\d+,OK'] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + - - SOC SOC1 SENDTO 1472 + - [''] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.PC OK + + 5.PC OK + + 6.PC OK + + 7.PC OK + + 8.PC OK SOC_CLOSE=SOC1' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1.PC上SOC1 UDP传输,bing + + 2.target1上UDP传输,Bind socket1,本地ip target_udp_port1 + + 3.target1上关闭工作线程 + + 4.PC往8266上发送1472字节数据 + + 5.PC往8266上发送1472字节数据 + + 6.PC往8266上发送1472字节数据 + + 7.PC往8266上发送1472字节数据 + + 8.PC往8266上发送1472字节数据' + sub module: UDP + summary: AP mode, recv buffer test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: use UDP SAP (socket/espconn API) in different state + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IGMP_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 igmp -J -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -L -h -m 224.1.1.1 + - ['R SSC1 C +IGMP:OK'] + - - SSC SSC1 igmp -J -h -m 223.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 224.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + - - SSC SSC1 igmp -J -h 192.168.237.77 -m 240.1.1.1 + - ['R SSC1 C +IGMP:ERROR'] + comment: '' + execution time: 0.0 + expected result: '1. success + + 2. failed + + 3. failed + + 4. failed' + initial condition: APSTA2 + initial condition description (auto): testing ap on sta + ap mode, PC join AP (autogen + by APM2) + module: TCPIP + steps: '1. join group with correct host addr and multicast addr + + 2. join group with correct host addr and wrong multicast addr + + 3. join group with wrong host addr and correct multicast addr + + 4. join group with wrong host addr and wrong multicast addr' + sub module: IGMP + summary: softAP IGMP join group address check + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: IGMP API parameter check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -t 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 2 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%()'] + - - SSC SSC1 ap -S -s -p -t 5 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%()'] + comment: '' + execution time: 0.0 + expected result: "1.target1 set AP,open, \n2.target 2 jap succeed\n3.target1 set\ + \ AP,wpa_psk \n4.target 2 jap succeed\n5.target1 set AP, wpa2_psk \n6.target 2\ + \ jap succeed\n7.target1 set AP,wap_wpa2_psk\n8.target 2 jap succeed\n9.target1\ + \ set AP,加密方式为t 1\n10.target 2 上查询到target_ssid\n11.target1 set AP,加密方式为t 5\n12.target\ + \ 2 上查询到target_ssid" + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: "1.target1下设置ssid 和pwd,加密方式 open\n2.target2 jap target1\n3.target1下设置ssid\ + \ 和pwd,加密方式 wpa_psk \n4.target2 jap target1\n5.target1下设置ssid 和pwd,加密方式 wpa2_psk\ + \ \n6.target 2 jap target1\n7.target1下设置ssid 和pwd,加密方式 wap_wpa2_psk\n8.target2\ + \ jap target1\n9.target1下设置ssid 和pwd,加密方式 wep \n10.target2上查询target_ssid\n11.target1下设置ssid\ + \ 和pwd,加密方式 t 5 错误的加密方式\n12.target2上查询 target_ssid" + sub module: WIFI Connect + summary: station SAP+JAP test, different encryption + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0102 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -t 0 -n 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -t 0 -n 13 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -n 15 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - ['R SSC2 RE "\+SCAN:%%s,.+,\d+,1"%%()'] + comment: '' + execution time: 0.0 + expected result: '1. target1 set AP,set channel 1 + + 2.target 2 jap succeed + + 3.target1 set AP,set channel 10 + + 4.target 2 jap succeed + + 5.target1 set AP,set channel 15 + + 6.target 2 上查询到target_ssid' + initial condition: T2O_1 + initial condition description (auto): same as T2_1 but will NOT autogen a TC with + initial condition T2_2 + module: WIFI MAC + steps: '1. target1下设置ssid 和pwd 加密方式,set channel 1 + + 2.target2 jap target 1 + + 3.target1下设置ssid 和pwd 加密方式,set channel 10 + + 4.target2 jap target 1 + + 5.target1下设置ssid 和pwd 加密方式,set channel 15 + + 6.target 2 上查询target_ssid' + sub module: WIFI Connect + summary: station SAP+JAP test, different channel + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0103 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t -h + 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 P , R SSC2 C +SCANDONE] + - - SSC SSC1 ap -S -s -p -t -h + 1 + - ['R SSC1 C +SAP:OK'] + - - DELAY 3 + - [''] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 C +SCANDONE] + - - DELAY 3 + - [''] + - - SSC SSC2 sta -S -h 0 + - [R SSC2 NP C +SCANDONE] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP,set ssid broad cast + + 2.target 2上scan target_ap_mac + + 3.target1 set AP,set ssid hidden, + + 4.target 2上不能scan target_ap_mac' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1. target1下设置ssid 和pwd 加密方式,set ssid broad cast + + 2.target 2上scan target_ap_mac + + 3. target1下设置ssid 和pwd 加密方式,set ssid hidden, + + 4.target 2上scan target_ap_mac' + sub module: WIFI Connect + summary: station SAP+JAP test, ssid hidden + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^TCPIP_IP_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 dhcp -S -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.123.123 + - ['R SSC1 C +IP:ERROR'] + - - SSC SSC1 dhcp -E -o 1 + - ['R SSC1 C +DHCP:STA,OK'] + - - SSC SSC1 ip -S -o 1 -i 192.168.123.123 + - ['R SSC1 C +IP:OK'] + - - SSC SSC1 ip -Q -o 1 + - ['R SSC1 C +STAIP:192.168.123.123'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.ERROR + + 3.OK + + 4.OK + + 5.STAIP:192.168.123.123' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: TCPIP + steps: '1.target1 打开DHCP 1 + + 2.target1 设置sta ip 192.168.123.123 + + 4.target1 关闭DHCP 1 + + 5.target1 设置sta ip 192.168.123.123 + + 6.target1 查询 当前sta ip' + sub module: IP + summary: sta set and query static ip test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: set and query static IP + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0702 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 C +JAP:DISCONNECTED,3'] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 C +JAP:DISCONNECTED,2'] + comment: '' + execution time: 0.0 + expected result: '1. get status AP not exist in disconnect event + + 2. get status wrong password in disconnect event' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1. sta connect to ap not exist + + 2. sta connect to ap with wrong password' + sub module: WIFI Connect + summary: check wifi status wrong password, no ap found + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi connect status check + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: WIFI_CONN_0801 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC1 ap -S -s -p -t 2 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,2,0'] + - - SSC SSC1 ap -S -s -p -t 3 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,3,2'] + - - SSC SSC1 ap -S -s -p -t 4 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,4,3'] + - - SSC SSC1 ap -S -s -p -t 0 + - ['P SSC1 C +SAP:OK', 'P SSC2 C +JAP:AUTHCHANGED,0,4'] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. succeed + + 3. auth change event old mode 0 new mode 2 + + 4. auth change event old mode 2 new mode 3 + + 5. auth change event old mode 3 new mode 4 + + 6. auth change event old mode 4 new mode 0' + initial condition: T2_1 + initial condition description (auto): target 1 as SoftAP, target 2 as STA, will + autogen a TC with initial condition T2_2 + module: WIFI MAC + steps: '1. set target1 softap auth mode 0 + + 2. target2 connect to target1 + + 3. set target1 softap auth mode 2, wait sta connected + + 4. set target1 softap auth mode 3, wait sta connected + + 5. set target1 softap auth mode 4, wait sta connected + + 6. set target1 softap auth mode 0, wait sta connected' + sub module: WIFI Connect + summary: test auth change event + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: wifi auth changed event test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -t 0 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 2 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 4 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 ap -S -s -p -t 1 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%()'] + - - SSC SSC1 ap -S -s -p -t 5 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S + - ['R SSC2 RE "\+SCAN:%%s,.+,0,\d+"%%()'] + comment: '' + execution time: 0.0 + expected result: "1.target1 set AP,open, \n2.target 2 jap succeed\n3.target1 set\ + \ AP,wpa_psk \n4.target 2 jap succeed\n5.target1 set AP, wpa2_psk \n6.target 2\ + \ jap succeed\n7.target1 set AP,wap_wpa2_psk\n8.target 2 jap succeed\n9.target1\ + \ set AP,加密方式为t 1\n10.target 2 上查询到target_ssid\n11.target1 set AP,加密方式为t 5\n12.target\ + \ 2 上查询到target_ssid" + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: "1.target1下设置ssid 和pwd,加密方式 open\n2.target2 jap target1\n3.target1下设置ssid\ + \ 和pwd,加密方式 wpa_psk \n4.target2 jap target1\n5.target1下设置ssid 和pwd,加密方式 wpa2_psk\ + \ \n6.target 2 jap target1\n7.target1下设置ssid 和pwd,加密方式 wap_wpa2_psk\n8.target2\ + \ jap target1\n9.target1下设置ssid 和pwd,加密方式 wep \n10.target2上查询target_ssid\n11.target1下设置ssid\ + \ 和pwd,加密方式 t 5 错误的加密方式\n12.target2上查询 target_ssid" + sub module: WIFI Connect + summary: station SAP+JAP test, different encryption + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: SAP/JAP with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_ARP_0201 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - STRING ether%20src%20%%s%20or%20ether%20dst%20%%s + + - [R PC_COM C OK] + - - NIC NIC1 START capture+send+block_arp_ip + - ['R PC_COM C +NIC_START:OK'] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_hw_type 0xF1F1 arp_target_proto_addr + ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + - - NIC NIC1 SEND ARP arp_op_code "request" arp_proto_type 0xF1F1 arp_target_proto_addr + ethernet_dst_addr "ff:ff:ff:ff:ff:ff" + - [''] + - - DELAY 2 + - [P PC_COM C +DELAYDONE, P NIC1 NPDU (Ethernet.dst_addr=)(Ethernet.len_type="ARP")] + comment: '' + execution time: 0.0 + expected result: 1. PC can't recv ARP reply from target + initial condition: STAM2 + initial condition description (auto): sta mode, join AP, DHCP on, will autogen a + TC with initial condition STAAP2 + module: TCPIP + steps: 1. PC send ARP req with unsupported hw type and protocol type + sub module: ARP + summary: PC send invalid ARP request to target 1 + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: handling ARP request + version: v1 (2015-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0503 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 sta -R -r 0 + - [R SSC1 C OK] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 NC +JAP:DISCONNECTED,1 C +JAP:DISCONNECTED,3'] + - - DELAY 5 + - ['R SSC1 NC +JAP:DISCONNECTED', P PC_COM C +DELAYDONE] + - - SSC SSC1 sta -C -s -p + - ['R SSC1 C +JAP:OK', 'R SSC1 NC +JAP:DISCONNECTED,1 C +JAP:DISCONNECTED,2'] + - - DELAY 5 + - ['R SSC1 NC +JAP:DISCONNECTED', P PC_COM C +DELAYDONE] + - - SSC SSC1 sta -R -r 1 + - [SSC SSC1 C OK] + comment: '' + execution time: 0.0 + expected result: '1. succeed + + 2. not reconnect when connect failed, status when recv disconnect event is correct + + 3. not reconnect when connect failed, status when recv disconnect event is correct + + 4. succeed' + initial condition: STAAP1 + initial condition description (auto): testing sta on sta + ap mode, quit AP (autogen + by STAM1) + module: WIFI MAC + steps: '1. set sta reconnect policy as not reconnect + + 2. sta connect to ap not exist + + 3. sta connect to ap with wrong password + + 4. reset sta reconnect policy as auto reconnect' + sub module: WIFI Connect + summary: reconnect policy interact with failed STA connect/reconnect + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0502 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 5 + - ['R SSC2 C +JAP:DISCONNECTED'] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -D + - ['R SSC2 C +QAP:OK'] + - - DELAY 10 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + comment: '' + execution time: 0.0 + expected result: '1.target1 set AP + + 2.target2 jap target 1 + + 3.设置reconn,开启(此功能不需要重启系统) + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.target2 断开target1 连接' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target1下设置ssid 和pwd 加密方式 + + 2.target2 jap target 1 + + 3.设置reconn,开启(此功能不需要重启系统) + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.target2 断开target1 连接' + sub module: WIFI Connect + summary: will not do reconnect after manually disconnected + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: abnormal/special use + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_CONN_0501 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC1 ap -S -s -p -t + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -C -s -p + - ['R SSC2 RE "\+JAP:CONNECTED,%%s"%%()'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - [''] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 15 + - ['R SSC2 C +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 0 + - ['R SSC2 C +RECONN:OK'] + - - SSC SSC2 sta -R -r 2 + - ['R SSC2 C +RECONN:0'] + - - SSC SSC1 op -S -o 1 + - ['R SSC1 C +MODE:OK'] + - - DELAY 10 + - [''] + - - SSC SSC1 op -S -o 2 + - ['R SSC1 C +MODE:OK'] + - - DELAY 15 + - [P PC_COM C +DELAYDONE, 'P SSC2 NC +JAP:CONNECTED'] + - - SSC SSC2 sta -R -r 1 + - ['R SSC2 C +RECONN:OK'] + comment: '' + execution time: 0.0 + expected result: '1.设置reconn,开启(此功能不需要重启系统) + + 2.target1 set AP + + 3.target2 JAP target1 成功 + + 4.target2 断开target1 连接 + + 5.等待10s,target2 自动重连target1 + + 6.成功 + + 7.查询reconn状态,关闭 + + 8.修改mode 成功 + + 9.等待15s,target2 不会自动重连target1' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: "1.设置reconn,开启(此功能不需要重启系统)\n2.target1下设置ssid 和pwd 加密方式\n3.target2 JAP target1\ + \ \n4.target1 修改mode 为sta mode\n5.等待10s,target1 修改mode 为softAP mode\n6.设置reconn,关闭\n\ + 7.查询reconn状态,关闭\n8.target1 修改mode 为sta mode\n9.等待15s,target1 修改mode 为softAP mode" + sub module: WIFI Connect + summary: reconnect policy test + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: reconnect policy test + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0115 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4 OK + + 5.OK,pc tcp server accept成功 + + 6.OK + + 7.OK,pc tcp server accept成功 + + 8 OK + + 9.OK,pc tcp server accept成功 + + 10.OK + + 11.OK,pc tcp server accept成功' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket1 + + 3.target1上使用步骤2创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1上创建TCP socket2 + + 5.target1上使用步骤4创建的socket2,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 6.target1上创建TCP socket3 + + 7.target1上使用步骤6创建的socket3,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 8.target1上创建TCP socket4 + + 9.target1上使用步骤8创建的socket4,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1上创建TCP socket5 + + 11.target1上使用步骤10创建的socket5,去连接 PC的ip,test_tcp_port1,PC有ACCEPT' + sub module: TCP + summary: AP mode, create max TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: ^WIFI_SCAN_0101 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC2 sta -S -s .,juhg123 + - ['R SSC2 NC +SCAN: C +SCANDONE'] + - - SSC SSC1 ap -S -s -p 123456789 -t 3 + - ['R SSC1 C +SAP:OK'] + - - SSC SSC2 sta -S -s + - ['R SSC2 C +SCAN:', R SSC2 P , 'R SSC2 NC +SCAN: C +SCANDONE'] + comment: '' + execution time: 0.0 + expected result: '1.target 2上不能scan .,juhg123 + + 2.target1 set AP + + 3.target2上查询到' + initial condition: T2_2 + initial condition description (auto): target 1 as AP+STA, target 2 as AP+STA (autogen) + module: WIFI MAC + steps: '1.target 2 scan .,juhg123 + + 2.target1下设置ssid 和pwd 加密方式 + + 3.target2 scan ' + sub module: WIFI Scan + summary: scan with scan config ssid + test environment: SSC_T2_1 + test environment description (auto): 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: scan with different config + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0114 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 A :ACCEPT:(\d+),\d+,.+,\d+'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -T -s + - ['R SSC1 RE CLOSE:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK + + 4.OK + + 5.OK + + 6.OK,target1上accept 成功 + + 7.target1关闭socket1 + + 8.target1关闭socket2 + + 9.OK + + 10.OK,pc tcp server accept成功 + + 11.target1关闭socket1 + + 12.OK + + 13.OK,pc tcp server accept成功 + + 14.OK + + 15.target1关闭socket1' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: "1.PC上建立TCP 监听 test_tcp_port1\n2.target1上创建TCP socket1\n3.target1关闭socket1\n\ + 4.target1上创建TCP socket 端口随机\n5.target1上使用步骤4创建的socket1,去监听\n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n7.target1关闭socket1\n8.target1关闭socket2\n\ + 9.target1上创建TCP socket1\n10.target1上使用步骤10创建的socket1,去连接 PC的ip,test_tcp_port1,PC有ACCEPT\n\ + 11.target1关闭socket1\n12.target1上创建TCP socket1\n13.target1上使用步骤13创建的socket1,去连接\ + \ PC的ip,test_tcp_port1,PC有ACCEPT\n14.target1shutdown socket1\n15.target1关闭socket1" + sub module: TCP + summary: AP mode, close for different types of TCP sockets test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0116 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC2 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC3 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC4 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC5 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + - - SOC SOC6 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+'] + comment: '' + execution time: 0.0 + expected result: '1.+BIND:0,OK,0.0.0.0 + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK,pc tcp server accept成功 + + 5.OK,pc tcp server accept成功 + + 6.OK,pc tcp server accept成功 + + 7.OK,pc tcp server accept成功' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: "1.target1上创建TCP socket 端口随机\n2.target1上使用步骤4创建的socket1,去监听\n3.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket2 \n4.PC CONNECT, ,tcp 连接创建成功,创建socket3\ + \ \n5.PC CONNECT, ,tcp 连接创建成功,创建socket4 \n6.PC CONNECT,\ + \ ,tcp 连接创建成功,创建socket5 \n7.PC CONNECT, ,tcp 连接创建成功,创建socket6\ + \ " + sub module: TCP + summary: AP mode, accept max TCP client by server test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0111 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SSC SSC1 soc -B -t TCP -p + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -L -s + - ['R SSC1 RE LISTEN:\d+,OK'] + - - SOC SOC1 CONNECT 0 + - ['R SSC1 RE ACCEPT:(\d+),\d+,.+,\d+', P SOC_COM C OK] + - - SOC SOC1 CONNECT 0 + - [P SOC_COM C ERROR, P SSC1 NC ACCEPT] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.PC TCP client accept + + 4.error' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1.target1上创建TCP socket,bind到本地端口 + + 2.target1上使用步骤1创建的socket,创建TCP 监听 + + 3.PC TCP 连接到target1 , + + 4.PC tcp 连接到不存在的port ,' + sub module: TCP + summary: AP mode, server listen test. use different kinds of port + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0113 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h B + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h W + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SSC SSC1 soc -D -s -h R + - ['R SSC1 RE SHUTDOWN:\d+,OK'] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.OK + + 6.OK,pc tcp server accept成功 + + 7.OK + + 8.OK + + 9.OK,pc tcp server accept成功 + + 10.OK' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 4.target1 shutdown socket1 B + + 5.target1上创建TCP socket + + 6.target1上使用步骤5创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 7.target1 shutdown socket2 W + + 8.target1上创建TCP socket + + 9.target1上使用步骤8创建的socket,去连接 PC的ip,test_tcp_port1,PC有ACCEPT + + 10.target1 shutdown socket3 R' + sub module: TCP + summary: AP mode, shutdown basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) +- CI ready: 'Yes' + ID: TCPIP_TCP_0112 + SDK: '8266_NonOS + + 8266_RTOS + + ESP32_IDF' + Test App: SSC + auto test: 'Yes' + category: Function + cmd set: + - '' + - - SOC SOC1 LISTEN + - [R SOC_COM L OK] + - - SSC SSC1 soc -B -t TCP + - ['R SSC1 A :BIND:(\d+),OK'] + - - SSC SSC1 soc -C -s -i -p + - ['R SSC1 RE CONNECT:\d+,OK'] + - - SOC SOC1 ACCEPT SOC2 + - [R SOC_COM L OK] + - - SOC SOC2 SEND 5 + - [R SSC1 SL +5] + - - SSC SSC1 soc -S -s -l 5 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 5] + - - SOC SOC2 SEND 146000 + - [R SSC1 SL +146000] + - - SSC SSC1 soc -S -s -l 1460 -n 100 + - ['P SSC1 RE SEND:\d+,OK', P SOC2 RL 146000] + comment: '' + execution time: 0.0 + expected result: '1.OK + + 2.OK + + 3.OK,pc tcp server accept成功 + + 4.OK + + 5.target收到5byte数据 + + 6.PC收到5byte数据 + + 7.target收到146000 byte数据 + + 8.OK,PC 收到146000 byte数据' + initial condition: APM2 + initial condition description (auto): AP mode, PC join AP, DHCP on, will autogen + a TC with initial condition APSTA2 + module: TCPIP + steps: '1. PC上建立TCP 监听 test_tcp_port1 + + 2.target1上创建TCP socket + + 3.target1上使用步骤2创建的socket,去连接 PC的ip,test_tcp_port1 + + 4.PC与target1 创建好TCP 连接,有ACCEPT + + 5.PC send 5 bytes to 8266 + + 6.8266 send 5 bytes to PC + + 7. PC send 100 * 1460 data to 8266, + + 8.8266 send 100 * 1460 to PC. ' + sub module: TCP + summary: AP mode, send/recv basic test + test environment: SSC_T1_1 + test environment description (auto): 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.' + test point 1: basic function + test point 2: use TCP SAP (socket/espconn API) with different parameter + version: v1 (2016-8-15) diff --git a/components/test/TestCaseScript/ATFunc/CmdInterruptTest.py b/components/test/TestCaseScript/ATFunc/CmdInterruptTest.py new file mode 100755 index 000000000..e11ae6f1d --- /dev/null +++ b/components/test/TestCaseScript/ATFunc/CmdInterruptTest.py @@ -0,0 +1,130 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +from TCAction import CmdHandler +import time + + +ATCmdList = ["GMR", + "UART=115200,8,1,0,0", + "CWMODE=3", + "CWJAP=\"TL_WR845N_T\",\"1234567890\"", + "CWLAP", + "CWQAP", + "CWSAP=\"asdf\",\"123456789\",5,3", + "CWLIF", + "CWDHCP=3", + "AT+CWAUTOCONN", + "CIPSTAMAC=\"18:fe:34:97:f3:43\"", + "CIPAPMAC=\"1a:fe:34:97:f3:43\"", + "CIPSTA=\"192.168.1.2\"", + "CIPAP=\"192.168.4.1\"", + "CIPSTATUS", + "CIPSTART=\"UDP\",\"192.168.1.4\",6531,7895,1", + "CIPSTART=\"TCP\",\"192.168.1.4\",6531", + "CIPCLOSE", + "CIFSR", + "CIPMUX=1", + "CIPSERVER=1,4567", + "CIPMODE=0", + "CIPSTO=7200", + "PING=\"192.168.1.4\""] + + +class CmdInterruptTest(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=20, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def load_and_exe_one_step(self, checker_stings, test_action_strings, fail_string, + check_freq=0.1, check_time=50, sleep_time=0.1): + # set checker for next executing step + checkers = CmdHandler.parse_results(checker_stings, self.test_env) + self.result_cntx.set_next_step(checkers, check_time, check_freq) + # execute 1 step + for action_string in test_action_strings: + test_action = CmdHandler.parse_action(action_string, self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + time.sleep(sleep_time) + + ret = self.wait_to_execute() + + if ret is False: # # timeout + self.result_cntx.set_result(fail_string) + if ret == check_time: + self.result_cntx.set_result(fail_string) + ret = False + + self.require_waiting() + + return ret + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # step 1, sleep time 0.1 + for cmd1 in ATCmdList: + # check if match CMD - AT - busy - OK/ERROR pattern + checker_stings = ["ATR AT1 C busy", "ATR AT1 R *"] + test_action_string = ["ATS AT1 AT+%s" % cmd1, "ATS AT1 AT"] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + # check again if match CMD - OK/ERROR - AT - OK pattern + checker_stings = ["ATR AT1 R *", "ATR AT1 C AT L OK"] + test_action_string = ["ATS AT1 AT+%s" % cmd1, "ATS AT1 AT"] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + NativeLog.add_trace_critical("CMD Fail: AT+%s; sleep time is 0.1" % cmd1) + + # step 2, sleep time 0 + for cmd1 in ATCmdList: + # check if match CMD - AT - busy - OK/ERROR pattern + checker_stings = ["ATR AT1 C busy", "ATR AT1 R *"] + test_action_string = ["ATS AT1 AT+%s" % cmd1, "ATS AT1 AT"] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + # check again if match CMD - OK/ERROR - AT - OK pattern + checker_stings = ["ATR AT1 R *", "ATR AT1 C AT L OK"] + test_action_string = ["ATS AT1 AT+%s" % cmd1, "ATS AT1 AT"] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + NativeLog.add_trace_critical("CMD Fail: AT+%s; sleep time is 0" % cmd1) + + # step 3, cat string + for cmd1 in ATCmdList: + # check if match CMD - AT - busy - OK/ERROR pattern + checker_stings = ["ATR AT1 C busy", "ATR AT1 R *"] + test_action_string = ["ATSO AT1 AT+%s\r\nAT\r\n" % cmd1] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + # check again if match CMD - OK/ERROR - AT - OK pattern + checker_stings = ["ATR AT1 R *", "ATR AT1 C AT L OK"] + test_action_string = ["ATS AT1 AT+%s" % cmd1, "ATS AT1 AT"] + fail_string = "Fail, Fail on step 1" + if self.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, sleep_time=0.1) is False: + NativeLog.add_trace_critical("CMD Fail: AT+%s; cat string" % cmd1) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATFunc/LAP.py b/components/test/TestCaseScript/ATFunc/LAP.py new file mode 100644 index 000000000..b389e48c0 --- /dev/null +++ b/components/test/TestCaseScript/ATFunc/LAP.py @@ -0,0 +1,64 @@ +from TCAction import TCActionBase +import time +import re + + +class LAP(TCActionBase.CommonTCActionBase): + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + # restore set LAPOPT + if self.load_and_exe_one_step(["R AT1 L OK"], + ["ATS AT1 AT+CWLAPOPT=0,127"], + "Failed to set LAP option") is False: + return + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # step 1. set LAPOPT + if self.load_and_exe_one_step(["R AT1 L OK"], + ["ATS AT1 AT+CWLAPOPT=1,4"], + "Failed to set LAP option") is False: + return + + # step 2. LAP + if self.load_and_exe_one_step(["R AT1 A :([[^OK]]+)OK"], # [] is list generator, use [[]] for [] + ["ATS AT1 AT+CWLAP"], + "Failed to LAP") is False: + return + lap_result = self.get_parameter("lap_result") + rssi_list = re.findall("CWLAP:\((-\d+)\)", lap_result) + if len(rssi_list) > 1: + for i in range(len(rssi_list)-1): + if int(rssi_list[i]) < int(rssi_list[i+1]): + break + else: + self.result_cntx.set_result("Succeed") + else: + self.result_cntx.set_result("Succeed") + pass + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + pass + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/ATFunc/SendDataValidation.py b/components/test/TestCaseScript/ATFunc/SendDataValidation.py new file mode 100755 index 000000000..27f1e7f7c --- /dev/null +++ b/components/test/TestCaseScript/ATFunc/SendDataValidation.py @@ -0,0 +1,161 @@ +from TCAction import TCActionBase +from TCAction import CmdHandler +from NativeLog import NativeLog +import time +import threading +import sys +reload(sys) +sys.setdefaultencoding('iso-8859-1') # # use encoding that with 1 Byte length and contain 256 chars + + +VALIDATION_STRING = "".join([chr((m+65) % 256) for m in range(256)]) # make it start from 'A' + + +class ResultCheckCntx(TCActionBase.ResultCheckContext): + + def __init__(self, test_action, test_env, name): + TCActionBase.ResultCheckContext.__init__(self, test_action, test_env, name) + pass + + def run(self): + tx_result = -1 + rx_result = -1 + + while True: + exit_flag = self.wait_exit_event(2) + # force exit + if exit_flag is True: + break + try: + self.lock_data() + rx_port = filter(lambda x: x[0] == "AT1", self.data_cache) + tx_port = filter(lambda x: x[0] == "SOC2", self.data_cache) + finally: + self.unlock_data() + + if len(rx_port) == 1: + data = rx_port[0][1] + rx_result = data.find(VALIDATION_STRING) + if len(tx_port) == 1: + data = tx_port[0][1] + tx_result = data.find(VALIDATION_STRING) + + if tx_result != -1: + self.test_action.tx_check_done.set() + if rx_result != -1: + self.test_action.rx_check_done.set() + + +class SendDataValidation(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.timestamp = time.strftime("%d%H%M%S", time.localtime()) + self.tx_check_done = threading.Event() + self.rx_check_done = threading.Event() + + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + # enable target TCP TX + tx_enable = self.tx_enable + # enable target TCP RX + rx_enable = self.rx_enable + # transparent mode select + is_transparent_mode = self.is_transparent_mode + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step1 create PC server + checker_stings = ["SOCR SOC_COM L OK"] + test_action_string = ["SOC SOC1 LISTEN "] + fail_string = "Fail, Fail on create PC server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 target connect, switch to transparent + checker_stings = ["SOCR SOC1 C +ACCEPT", "ATR AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"TCP\" "] + fail_string = "Fail, Fail on connect to PC server" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["SOCR SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC2"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # set to transparent mode + if is_transparent_mode is True: + checker_stings = ["ATR AT1 L OK"] + test_action_strings = ["ATS AT1 AT+CIPMODE=1"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["ATR AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + else: + checker_stings = ["ATR AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=256"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 + + # switch to new result check context + self.result_cntx.stop_thread() + self.result_cntx.join() + self.result_cntx = ResultCheckCntx(self, self.test_env, self.tc_name) + self.result_cntx.start() + + # step 3 send data + if rx_enable is True: + test_action = CmdHandler.parse_action("SOC SOC2 SEND 256", self.test_env) + CmdHandler.do_actions(test_action[0], self.test_env) + self.rx_check_done.wait(5) + if self.rx_check_done.isSet() is False: + # rx fail + return + # flush all data + self.result_cntx.data_flush() + self.tx_check_done.clear() + + if tx_enable is True: + test_action = CmdHandler.parse_action("ATSN AT1 256", self.test_env) + CmdHandler.do_actions(test_action[0], self.test_env) + self.tx_check_done.wait(5) + if self.tx_check_done.isSet() is False: + # tx fail + return + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + pass + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATFunc/UARTTest.py b/components/test/TestCaseScript/ATFunc/UARTTest.py new file mode 100644 index 000000000..184f440d4 --- /dev/null +++ b/components/test/TestCaseScript/ATFunc/UARTTest.py @@ -0,0 +1,164 @@ +import socket +import serial + +from TCAction import PerformanceTCBase +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class UARTTest(PerformanceTCBase.PerformanceTCBase): + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.test_mode = "command" + self.baudrate = None + self.bytesize = None + self.parity = None + self.stopbits = None + self.xonxoff = None + self.rtscts = None + + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + # restore UART config + self.restore_serial_port("AT1") + PerformanceTCBase.PerformanceTCBase.cleanup(self) + + STOP_BITS = { + 1: serial.STOPBITS_ONE, + 2: serial.STOPBITS_ONE_POINT_FIVE, + 3: serial.STOPBITS_TWO, + } + BYTE_SIZE = { + 5: serial.FIVEBITS, + 6: serial.SIXBITS, + 7: serial.SEVENBITS, + 8: serial.EIGHTBITS, + } + PARITY = { + 0: serial.PARITY_NONE, + 1: serial.PARITY_ODD, + 2: serial.PARITY_EVEN, + } + RTSCTS = {} + + def config_serial_port(self): + port = self.test_env.get_port_by_name("AT1") + kwargs = dict() + if self.baudrate is not None: + kwargs["baudrate"] = self.baudrate + if self.bytesize is not None: + kwargs["bytesize"] = self.BYTE_SIZE[self.bytesize] + if self.parity is not None: + kwargs["parity"] = self.PARITY[self.parity] + if self.stopbits is not None: + kwargs["stopbits"] = self.STOP_BITS[self.stopbits] + if self.xonxoff is not None: + kwargs["xonxoff"] = self.xonxoff + if self.rtscts is not None: + kwargs["rtscts"] = self.rtscts + NativeLog.add_prompt_trace("[change PC UART config] %s" % kwargs) + port.reconfig(**kwargs) + + def send_commands(self): + # first change UART config + self.config_serial_port() + # do send commands + for i in range(1, 256): + cmd = bytes().join([chr(x % 256) for x in range(i)]) + try: + self.serial_write_line("AT1", cmd) + except StandardError, e: + NativeLog.add_exception_log(e) + pass + self.flush_data("AT1") + # restore UART config + self.restore_serial_port("AT1") + + def send_data(self): + # create TCP connection and enter send mode + pc_ip = self.get_parameter("pc_ip") + tcp_port = self.get_parameter("test_tcp_port1") + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, tcp_port)) + server_sock.settimeout(10) + server_sock.listen(5) + self.serial_write_line("AT1", "AT+CIPSTART=\"TCP\",\"%s\",%s" % (pc_ip, tcp_port)) + self.check_response("AT1", "OK") + sock, addr = server_sock.accept() + server_sock.close() + self.serial_write_line("AT1", "AT+CIPSEND=1460") + self.check_response("AT1", ">") + # change UART config + self.config_serial_port() + # send data + try: + self.serial_write("AT1", bytes().join([chr(x % 256) for x in range(146000)])) + except StandardError, e: + NativeLog.add_exception_log(e) + pass + sock.send("A"*1460) + # restore UART config + sock.close() + self.restore_serial_port("AT1") + + def pass_through_mode(self): + # create TCP connection and enter pass through mode + pc_ip = self.get_parameter("pc_ip") + tcp_port = self.get_parameter("test_tcp_port1") + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, tcp_port)) + server_sock.settimeout(10) + server_sock.listen(5) + self.serial_write_line("AT1", "AT+CIPMODE=1") + self.check_response("AT1", "OK") + self.serial_write_line("AT1", "AT+CIPSTART=\"TCP\",\"%s\",%s" % (pc_ip, tcp_port)) + self.check_response("AT1", "OK") + sock, addr = server_sock.accept() + server_sock.close() + self.serial_write_line("AT1", "AT+CIPSEND") + self.check_response("AT1", ">") + # change UART config + self.config_serial_port() + # send data + try: + self.serial_write("AT1", bytes().join([chr(x % 256) for x in range(146000)])) + except StandardError, e: + NativeLog.add_exception_log(e) + pass + sock.send("A" * 1460) + # restore UART config + sock.close() + self.restore_serial_port("AT1") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + # test sending command + try: + if self.test_mode == "command": + self.send_commands() + elif self.test_mode == "send_data": + self.send_data() + elif self.test_mode == "pass_through": + self.pass_through_mode() + else: + raise StandardError("test mode not supported: %s" % self.test_mode) + self.set_result("Succeed") + except StandardError, e: + NativeLog.add_exception_log(e) + self.set_result("Failed") + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/ATFunc/__init__.py b/components/test/TestCaseScript/ATFunc/__init__.py new file mode 100755 index 000000000..5a3bbc44d --- /dev/null +++ b/components/test/TestCaseScript/ATFunc/__init__.py @@ -0,0 +1,2 @@ +__all__ = ["TCPClientMulti", "TCPClientSingle", "TCPServerMulti", + "TCPTransparent", "UDPMulti", "UDPSingle"] \ No newline at end of file diff --git a/components/test/TestCaseScript/ATStress/ATPassThrough.py b/components/test/TestCaseScript/ATStress/ATPassThrough.py new file mode 100755 index 000000000..5149ffe3d --- /dev/null +++ b/components/test/TestCaseScript/ATStress/ATPassThrough.py @@ -0,0 +1,179 @@ +import time + +from TCAction import TCActionBase +from NativeLog import NativeLog + + +BEACON_TIMEOUT = 3 +WAIT_FOR_RECONNECT = 20 + + +class ATPassThrough(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.do_scan = True + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + tx_enable = self.tx_enable + rx_enable = self.rx_enable + att_set = self.att_set + do_scan = self.do_scan + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPClientMulti script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # step0, set att and join ap + fail_string = "Fail, Fail on JAP, set to single link mode" + + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT 1"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 C ready"] + test_action_string = ["ATS AT1 AT+RST"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATS AT1 AT+CWMODE=1"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATC AT1 CWJAP "] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATS AT1 AT+CIPMUX=0"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step1, create TCP connection and enter pass through mode + fail_string = "Fail, Fail on create server, create connection or enter pass through mode" + + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 LISTEN "] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SOC1 C +ACCEPT", "R AT1 NC CLOSE L OK"] + test_action_string = ["ATC AT1 CIPSTART \"TCP\" "] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_strings = ["ATS AT1 AT+CIPMODE=1"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC2"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step2 + # while + # set att from, send data on both direction + # if TCP connection disconnected, then set att to 1, wait reconnect succeed, continue test + for i in xrange(test_count): + for _att in att_set: + + # set att + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT %d" % _att] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + time.sleep(BEACON_TIMEOUT) + + # do scan to get ssid + if do_scan is True: + checker_stings = [] + test_action_string = ["ATSO AT1 +++"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATC AT1 CWLAP "] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # send data + checker_stings = [] + test_action_string = [] + if tx_enable is True: + checker_stings += ["P SOC2 RL %d" % at_send_length] + test_action_string += ["ATSN AT1 %d" % at_send_length] + if rx_enable is True: + checker_stings += ["P AT1 RL %d" % soc_send_length] + test_action_string += ["SOC SOC2 SEND %d" % soc_send_length] + + if len(test_action_string) > 0: + if self.load_and_exe_one_step(checker_stings, test_action_string, "", + check_freq=1, check_time=30) is False: + # send data fail + NativeLog.add_prompt_trace("Failed to send data @ att %d" % _att) + # set att back to 1 + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT 1"] + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + # wait for reconnect + time.sleep(WAIT_FOR_RECONNECT) + fail_string = "Failed, failed to accept socket" + checker_stings = ["SOCR SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC2"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + break + pass + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/ATSleep.py b/components/test/TestCaseScript/ATStress/ATSleep.py new file mode 100644 index 000000000..586862a77 --- /dev/null +++ b/components/test/TestCaseScript/ATStress/ATSleep.py @@ -0,0 +1,251 @@ +import random +import os +import time + +from TCAction import TCActionBase, PerformanceTCBase +from NativeLog import NativeLog +from Utility import MakeFolder +from Utility import MultimeterUtil + +LOG_PATH = os.path.join("AT_LOG", "SLEEP") + +SLEEP_MODE_LIST = ["none_sleep", "light_sleep", "modem_sleep"] +SLEEP_MODE = dict(zip(SLEEP_MODE_LIST, range(len(SLEEP_MODE_LIST)))) + +SAMPLE_RATE_SLEEP_MODE_CHANGE = 0.002 +SAMPLE_NUM_SLEEP_MODE_CHANGE = 256 + +SAMPLE_RATE = 0.002 +SAMPLE_NUM = 512 +MAX_VALUE = 1 +Y_AXIS_LABEL = "Current (mA)" +GPIO_EDGE_DELAY = 120 # 20 ms + +NONE_SLEEP_MIN_CUR = 30 +LIGHT_SLEEP_MIN_CUR = 1.5 +MODEM_SLEEP_MIN_CUR = 20 + +GPIO_WAKE_UP = 15 + +AT_WAKE_UP_IND_PIN = 14 +AT_WAKE_UP_PIN = 12 + + +class ATSleep(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.test_mode = "mode_change" + self.test_count = 100 + self.sleep_mode = SLEEP_MODE_LIST + self.sleep_wake_pin = AT_WAKE_UP_PIN + self.sleep_wakeup_ind_pin = AT_WAKE_UP_IND_PIN + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.log_folder = MakeFolder.make_folder(os.path.join(LOG_PATH, + "AT_AUTO_SLEEP_%s_%s" % + (self.test_mode, + time.strftime("%d%H%M%S", time.localtime())))) + self.multimeter = MultimeterUtil.MultimeterUtil(self.log_folder) + + @staticmethod + def find_min_items(item_list, count): + assert count < len(item_list) + min_items = [] + for i in range(count): + min_val = min(item_list) + min_items.append(min_val) + item_list.remove(min_val) + return min_items + + def sleep_mode_change(self, sleep_mode): + result = True + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] %s start" % sleep_mode) + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + # set sleep mode + self.serial_write_line("AT1", "AT+SLEEP=%d" % sleep_mode_enum) + self.check_response("AT1", "OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] mode set") + time.sleep(10) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE_SLEEP_MODE_CHANGE, + sample_num=SAMPLE_NUM_SLEEP_MODE_CHANGE, + max_value=MAX_VALUE) + # do check measure + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] measure done, average min current %f" % average_val) + + if sleep_mode == "none_sleep": + if average_val < NONE_SLEEP_MIN_CUR: + result = False + elif sleep_mode == "light_sleep": + if average_val > LIGHT_SLEEP_MIN_CUR: + result = False + elif sleep_mode == "modem_sleep": + if average_val > MODEM_SLEEP_MIN_CUR or average_val < LIGHT_SLEEP_MIN_CUR: + result = False + if result is False: + NativeLog.add_trace_critical("[AutoSleep][ModeChange] %s failed" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, "%s_fail" % sleep_mode, Y_AXIS_LABEL) + + time.sleep(5) + return result + + def sleep_current_measure(self, sleep_mode): + result = True + + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] %s start" % sleep_mode) + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + # set sleep mode + self.serial_write_line("AT1", "AT+SLEEP=%d" % sleep_mode_enum) + self.check_response("AT1", "OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] set mode done") + time.sleep(10) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, sleep_mode, Y_AXIS_LABEL) + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] measure done") + return result + + def light_sleep_wakeup(self): + result = True + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] start") + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(1) + self.serial_write_line("AT1", "") + time.sleep(1) + self.check_response("SSC2", "+GPIO_SET:OK", timeout=1) + + for i in range(10): + self.serial_write_line("SSC2", "gpio -G -p %d" % self.sleep_wakeup_ind_pin) + if self.check_response("SSC2", "+GPIO_GET:0", timeout=0.73) is True: + break + else: + NativeLog.add_prompt_trace("AT Sleep wakeup pin is not correct when in sleep") + + # check if respond to uart + self.flush_data("AT1") + for i in range(60): + self.serial_write("AT1", "a") + time.sleep(0.43) + time.sleep(0.1) + respond_data = self.serial_read_data("AT1") + if len(respond_data) >= 60: + NativeLog.add_trace_critical("[AutoSleep][light sleep wakeup] " + "Failed when recving data during sleep, %d" % len(respond_data)) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] check on sleep mode done") + + # change GPIO to make target wakeup + self.serial_write_line("SSC2", "gpio -L -p %d -t 0" % GPIO_WAKE_UP) + self.check_response("SSC2", "+GPIO_SET:OK") + time.sleep(0.01) + + for i in range(3): + self.serial_write_line("SSC2", "gpio -G -p %d" % self.sleep_wakeup_ind_pin) + if self.check_response("SSC2", "+GPIO_GET:1") is False: + NativeLog.add_prompt_trace("AT Sleep wakeup pin is not correct when wakeup") + + self.serial_write_line("AT1", "") + time.sleep(1) + self.flush_data("AT1") + for i in range(60): + self.serial_write("AT1", "a") + time.sleep(0.043) + time.sleep(0.1) + respond_data = self.serial_read_data("AT1") + if len(respond_data) < 60: + NativeLog.add_trace_critical("[AutoSleep][light sleep wakeup] " + "Failed when recving data during wakeup, %d" % len(respond_data)) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] check on wakeup mode done") + self.serial_write_line("AT1", "") + # restore GPIO level + self.serial_write_line("SSC2", "gpio -L -p %d -t 1" % GPIO_WAKE_UP) + time.sleep(2) + return result + + def cleanup(self): + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + self.serial_write_line("AT1", "") + self.serial_write_line("AT1", "AT+RST") + self.check_response("SSC2", "+GPIO_SET:OK") + self.check_response("AT1", "ready") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + + try: + test_mode = self.test_mode + test_count = self.test_count + sleep_mode = self.sleep_mode + except StandardError, e: + return + + # make sure enter modem sleep mode before start test + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + self.serial_write_line("AT1", "AT+RST") + self.check_response("SSC2", "+GPIO_SET:OK") + self.check_response("AT1", "ready") + self.check_response("AT1", "WIFI GOT IP") + # set AT light sleep wakeup pin + self.serial_write_line("AT1", "AT+WAKEUPGPIO=1,%d,0" % self.sleep_wake_pin) + self.check_response("AT1", "OK") + + # start test + if "mode_change" in test_mode: + for i in range(test_count): + result = self.sleep_mode_change(random.choice(SLEEP_MODE_LIST)) + + elif "measure_current" in test_mode: + for i in range(test_count): + for mode in sleep_mode: + result = self.sleep_current_measure(mode) + pass + elif "gpio_wakeup" in test_mode: + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + # config wakeup gpio + self.serial_write_line("AT1", "AT+WAKEUPGPIO=1,%d,0,%d,1" % (self.sleep_wake_pin, self.sleep_wakeup_ind_pin)) + self.check_response("AT1", "OK") + # set sleep mode + self.serial_write_line("AT1", "AT+SLEEP=%d" % SLEEP_MODE["light_sleep"]) + self.check_response("AT1", "OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + for i in range(test_count): + result = self.light_sleep_wakeup() + pass + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/ATStress/SoftAPServer.py b/components/test/TestCaseScript/ATStress/SoftAPServer.py new file mode 100755 index 000000000..7522658f1 --- /dev/null +++ b/components/test/TestCaseScript/ATStress/SoftAPServer.py @@ -0,0 +1,308 @@ +from TCAction import PerformanceTCBase +import time +import socket +import threading +import Queue +import re +import random +from NativeLog import NativeLog + + +SEND_CMD = ("CIPSEND, CIPSENDBUF", "CIPSENDEX") + + +class RecvThread(threading.Thread): + def __init__(self, test_action): + threading.Thread.__init__(self) + self.setDaemon(True) + self.test_action = test_action + self.exit_flag = threading.Event() + pass + + def run(self): + data = "" + ipd_line = re.compile("IPD,\d,\d+:") + recv_bytes_line = re.compile("Recv \d+ bytes") + allow_send_line = re.compile("OK\r\n>") + send_ok_line = re.compile("SEND OK") + while self.exit_flag.is_set() is False: + flush_pos = 0 + data += self.test_action.serial_read_data("AT1") + # do process IPD data + match_set = ipd_line.findall(data) + for match_line in match_set: + link_id = match_line[4] + flush_pos = data.find(match_line) + len(match_line) + self.test_action.send_queue.put(link_id, 1) + pass + # do process send > + match = allow_send_line.search(data) + if match is not None: + match_line = match.group() + self.test_action.add_info_log("find OK >") + self.test_action.send_allow_evt.set() + pos = data.find(match_line) + len(match_line) + flush_pos = pos if pos > flush_pos else flush_pos + # do process Recv xx bytes + match = recv_bytes_line.search(data) + if match is not None: + match_line = match.group() + self.test_action.add_info_log("find Recv xx bytes") + self.test_action.recv_data_evt.set() + pos = data.find(match_line) + len(match_line) + flush_pos = pos if pos > flush_pos else flush_pos + + match = send_ok_line.search(data) + if match is not None: + match_line = match.group() + self.test_action.add_info_log("find send ok") + self.test_action.send_ok_evt.set() + pos = data.find(match_line) + len(match_line) + flush_pos = pos if pos > flush_pos else flush_pos + # pass + + # flush processed data + if flush_pos > 0: + data = data[flush_pos:] + + pass + + def exit(self): + self.exit_flag.set() + pass + + +class TCPClientThread(threading.Thread): + send_char = "A" + sync_lock = threading.Lock() + + def __init__(self, test_action, pc_ip, target_ip, target_port, request_len, response_len, client_id, + connect_timeout, recv_timeout): + threading.Thread.__init__(self) + self.setDaemon(True) + self.exit_flag = threading.Event() + self.test_action = test_action + self.pc_ip = pc_ip + self.target_ip = target_ip + self.target_port = target_port + self.request_len = request_len + self.response_len = response_len + self.client_id = client_id + self.connect_timeout = connect_timeout + self.recv_timeout = recv_timeout + pass + + @classmethod + def get_send_char(cls): + with cls.sync_lock: + send_char = cls.send_char + cls.send_char = chr(ord(send_char) + 1) if ord(send_char) < ord("Z") else "A" + return send_char + pass + + def run(self): + while self.exit_flag.is_set() is False: + exception_occurred = False + client_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + client_sock.bind((self.pc_ip, 0)) + client_sock.settimeout(20) + time1 = time.time() + name = client_sock.getsockname() + + try: + client_sock.connect((self.target_ip, self.target_port)) + except StandardError, e: + exception_occurred = True + self.test_action.add_critical_log("failed to connect succeed within 2 seconds %s, %d" + % (name[0], name[1])) + client_sock.close() + + time2 = time.time() - time1 + if exception_occurred is True: + self.test_action.add_critical_log("connect timeout %f; ip is %s, port is %d" + % (time2, name[0], name[1])) + continue + if time2 > self.connect_timeout: + self.test_action.add_critical_log("connect time too long %f; ip is %s, port is %d" + % (time2, name[0], name[1])) + + time.sleep(float(random.randint(0, 30))/100) + send_char = self.get_send_char() + data = send_char * self.request_len + try: + client_sock.send(data) + except StandardError: + NativeLog.add_trace_critical("send fail") + # try: + # data = client_sock.recv(1) + # except socket.error, e: + # self.handle_processing_fail("failed to receive data within 2 seconds") + data_received = 0 + time1 = time.time() + while data_received < self.response_len: + try: + data = client_sock.recv(4*1024) + except StandardError, e: + exception_occurred = True + break + data_received += len(data) + + time2 = time.time() - time1 + if exception_occurred is True or time2 > self.recv_timeout: + self.test_action.add_critical_log("receive time too long %f; ip is %s, port is %d"\ + % (time2, name[0], name[1])) + client_sock.close() + time.sleep(float(random.randint(0, 30))/100) + pass + pass + + def exit(self): + self.exit_flag.set() + pass + + +class SendThread(threading.Thread): + def __init__(self, test_action, test_count, send_cmd, response_len, check_send_ok): + threading.Thread.__init__(self) + self.setDaemon(True) + self.test_action = test_action + self.test_count = test_count + self.send_cmd = send_cmd + self.response_len = response_len + self.check_send_ok = check_send_ok + pass + + def run(self): + send_char = "a" + for i in xrange(self.test_count): + link_id = self.test_action.send_queue.get(1) + + self.test_action.send_allow_evt.clear() + self.test_action.serial_write_line("AT1", "AT+%s=%s,%d" % (self.send_cmd, link_id, self.response_len)) + self.test_action.add_info_log("write CIPSEND cmd") + + self.test_action.send_allow_evt.wait(10) + if self.test_action.send_allow_evt.is_set() is False: + self.test_action.add_critical_log("Failed to find OK > in 10s, test break") + break + self.test_action.send_allow_evt.clear() + + data = send_char * self.response_len + send_char = chr(ord(send_char) + 1) if ord(send_char) < ord("z") else "a" + self.test_action.recv_data_evt.clear() + self.test_action.send_ok_evt.clear() + self.test_action.serial_write("AT1", data) + self.test_action.add_info_log("data write done") + self.test_action.recv_data_evt.wait(10) + if self.test_action.recv_data_evt.is_set() is False: + self.test_action.add_critical_log("Failed to find Recv xx bytes in 10s, test break") + break + self.test_action.recv_data_evt.clear() + # if self.test_action.send_cmd == "CIPSEND": + if self.check_send_ok is True: + self.test_action.send_ok_evt.wait(10) + if self.test_action.send_ok_evt.is_set() is False: + self.test_action.add_critical_log("Failed to find SEND OK in 10s, test break") + break + self.test_action.add_info_log("send ok") + self.test_action.send_ok_evt.clear() + pass + pass + + +class SoftAPServer(PerformanceTCBase.PerformanceTCBase): + def __init__(self, name, test_env, cmd_set, timeout=120, log_path=None): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # init value for ip and port + self.pc_ip = "pc_ip" + self.server_port = "test_tcp_port1" + self.send_cmd = "CIPSEND" + self.baudrate = 115200 + self.rtscts = 3 + self.test_count = 1000 + self.request_len = 500 + self.response_len = 1600 + self.check_send_ok = True + self.concurrent_connections = 5 + self.connect_timeout = 3 + self.receive_timeout = 2 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.send_queue = Queue.Queue(maxsize=100) + self.send_allow_evt = threading.Event() + self.recv_data_evt = threading.Event() + self.send_ok_evt = threading.Event() + + pass + + @staticmethod + def add_critical_log(data): + NativeLog.add_trace_critical(data+"\r\n") + pass + + @staticmethod + def add_info_log(data): + NativeLog.add_trace_info(data) + + def process(self): + # step0, use initial condition AP3 (8266 as AP, PC connected to 8266, multiple connection) + pc_ip = self.get_parameter(self.pc_ip) + target_ip = self.get_parameter("target_ip") + server_port = self.get_parameter(self.server_port) + send_cmd = self.send_cmd + test_count = self.test_count + baudrate = self.baudrate + rtscts = self.rtscts + concurrent_connections = self.concurrent_connections + check_send_ok = self.check_send_ok + connect_timeout = self.connect_timeout + receive_timeout = self.receive_timeout + + self.serial_write_line("AT1", "AT+UART_CUR=%d,8,1,0,%d" % (baudrate, rtscts)) + self.check_response("AT1", "OK\r\n") + self.reconfig_serial_port("AT1", baudrate, rtscts) + # step1, create server on 8266, create client thread + self.serial_write_line("AT1", "AT+CIPSERVER=1,%d" % server_port) + self.check_response("AT1", "OK") + + recv_thread = RecvThread(self) + send_thread = SendThread(self, test_count, send_cmd, self.response_len, check_send_ok) + send_thread.start() + recv_thread.start() + client_thread_list = [None] * concurrent_connections + for i in range(concurrent_connections): + client_thread_list[i] = TCPClientThread(self, pc_ip, target_ip, server_port, + self.request_len, self.response_len, i, + connect_timeout, receive_timeout) + client_thread_list[i].start() + pass + + # step3, wait sending thread join + send_thread.join() + + recv_thread.exit() + recv_thread.join() + + for i in range(concurrent_connections): + client_thread_list[i].exit() + client_thread_list[i].join() + pass + + self.serial_write_line("AT1", "AT+UART_CUR=115200,8,1,0,3") + self.check_response("AT1", "OK\r\n") + self.restore_serial_port("AT1") + self.set_result("Succeed") + pass + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/ATStress/TCPClientMulti.py b/components/test/TestCaseScript/ATStress/TCPClientMulti.py new file mode 100755 index 000000000..610a55cbc --- /dev/null +++ b/components/test/TestCaseScript/ATStress/TCPClientMulti.py @@ -0,0 +1,116 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class TCPClientMulti(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.max_conn = test_env.get_variable_by_name("max_conn")[1] + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + tx_enable = self.tx_enable + rx_enable = self.rx_enable + enable_log = self.enable_log + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPClientMulti script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # step1 + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 LISTEN "] + fail_string = "Fail, Fail on create PC server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 + for i in range(0, self.max_conn): + checker_stings = ["R SOC1 C +ACCEPT", "R AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART %d \"TCP\" " % i] + fail_string = "Fail, Fail on connect to PC server" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC%d" % (i+2)] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 + # turn off AT UART logging + if enable_log is False: + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + + data = "A" * at_send_length + fail_string = "Fail, Fail on send and recv data" + + for j in range(0, test_count): + + if tx_enable is True: + for i in range(0, self.max_conn): + checker_stings = ["P AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d,%d" % (i, at_send_length)] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail on target send command for link %d" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + return + + checker_stings = ["P SOC%d RL %d" % ((i+2), at_send_length), "P AT1 C OK"] + test_action_strings = ["ATSO AT1 %s" % data] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail on target send for link %d, send or recv error" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + return + + if rx_enable is True: + checker_stings = [] + test_action_strings = [] + for i in range(0, self.max_conn): + checker_stings.extend(["P AT1 DL %d+%d" % (i, soc_send_length)]) + test_action_strings.extend(["SOC SOC%d SEND %d %s" % (i+2, soc_send_length, data)]) + + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail to receive PC sent data") + NativeLog.add_trace_critical("Test count is %d" % j) + return + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/TCPClientSingle.py b/components/test/TestCaseScript/ATStress/TCPClientSingle.py new file mode 100755 index 000000000..7127c3d0f --- /dev/null +++ b/components/test/TestCaseScript/ATStress/TCPClientSingle.py @@ -0,0 +1,123 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class TCPClientSingle(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.link_type = "TCP" + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + tx_enable = self.tx_enable + rx_enable = self.rx_enable + enable_log = self.enable_log + link_type = self.link_type + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPClientSingle script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # step1 + checker_stings = ["R SOC_COM L OK"] + if link_type == "TCP": + test_action_string = ["SOC SOC1 LISTEN "] + elif link_type == "SSL": + test_action_string = ["SOC SOC1 SLISTEN "] + pass + else: + raise StandardError() + fail_string = "Fail, Fail on create PC server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 + if link_type == "TCP": + checker_stings = ["R SOC1 C +ACCEPT", "R AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"TCP\" "] + elif link_type == "SSL": + checker_stings = ["R SOC1 C +SACCEPT", "R AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"SSL\" "] + else: + raise StandardError() + fail_string = "Fail, Fail on connect to PC server" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC2"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 + # turn off AT UART logging + if enable_log is False: + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + + for j in range(0, test_count): + data = "A" * at_send_length + fail_string = "Fail, Fail on send and recv data" + + if tx_enable is True: + checker_stings = ["P AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d" % at_send_length] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail on target send command") + NativeLog.add_trace_critical("Test count is %d" % j) + return + + checker_stings = ["P SOC2 RL %d" % at_send_length, "P AT1 C OK"] + test_action_strings = ["ATSO AT1 %s" % data] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail on target send, send or recv error") + NativeLog.add_trace_critical("Test count is %d" % j) + return + + if rx_enable is True: + checker_stings = ["P AT1 DL S+%d" % soc_send_length] + test_action_strings = ["SOC SOC2 SEND %d" % soc_send_length] + + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail to receive PC sent data") + NativeLog.add_trace_critical("Test count is %d" % j) + return + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/TCPSendPerf.py b/components/test/TestCaseScript/ATStress/TCPSendPerf.py new file mode 100755 index 000000000..a2f6e1a06 --- /dev/null +++ b/components/test/TestCaseScript/ATStress/TCPSendPerf.py @@ -0,0 +1,148 @@ +import time +import os +import socket +import ssl + +from NativeLog import NativeLog +from TCAction import PerformanceTCBase +from Utility import MakeFolder + + +SEND_CMD = ("CIPSEND, CIPSENDBUF", "CIPSENDEX") + +LOG_PATH = os.path.join("AT_LOG", "Performance", "AT_SEND") + + +class TCPSendPerf(PerformanceTCBase.PerformanceTCBase): + def __init__(self, name, test_env, cmd_set, timeout=120, log_path=None): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # init value for ip and port + self.pc_ip = "pc_ip" + self.server_port = "test_tcp_port1" + self.packet_len = 1 + self.test_count = 100 + self.send_cmd = "CIPSEND" + self.baudrate = 115200 + self.rtscts = 0 + self.link_type = "TCP" + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + pass + + def process(self): + pc_ip = self.get_parameter(self.pc_ip) + server_port = self.get_parameter(self.server_port) + packet_len = self.packet_len + test_count = self.test_count + send_cmd = self.send_cmd + baudrate = self.baudrate + rtscts = self.rtscts + result = True + link_type = self.link_type + + # create TCP connection + sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + sock.bind((pc_ip, server_port)) + sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) + sock.settimeout(10) + sock.listen(1) + + self.serial_write_line("AT1", "AT+CIPSTART=0,\"%s\",\"%s\",%d" % (link_type, pc_ip, server_port)) + sock_client = sock.accept()[0] + if link_type == "SSL": + sock_client = ssl.wrap_socket(sock_client, + server_side=True, + certfile=os.path.join("Certificate", "default.cer"), + keyfile=os.path.join("Certificate", "default.key")) + pass + if self.check_response("AT1", "OK") is False: + result = False + + self.serial_write_line("AT1", "AT+UART_CUR=%d,8,1,0,%d" % (baudrate, rtscts)) + if self.check_response("AT1", "OK\r\n") is False: + result = False + + self.reconfig_serial_port("AT1", baudrate, rtscts) + + # restore to read line mode + self.test_env.uart_ports["AT1"].set_performance_flag(flag=True) + + sock_client.settimeout(0) + + for _dummy in range(1): + if result is False: + NativeLog.add_trace_critical("Fail to create TCP connection") + break + # send TCP packets + data = "A" * packet_len + time1 = time.time() + + i = 0 + data_recv_len = 0 + while i < test_count: + self.serial_write_line("AT1", "AT+%s=0,%d" % (send_cmd, packet_len)) + if self.check_response("AT1", ">", 0.05) is False: + continue + + i += 1 + self.serial_write("AT1", data) + if send_cmd == "CIPSENDBUF": + result = self.check_response("AT1", "Recv %d bytes" % packet_len, 3) + else: + result = self.check_response("AT1", "SEND OK", 3) + if result is False: + NativeLog.add_trace_critical("Fail during sending data") + break + try: + if link_type == "TCP": + data_recv = sock_client.recv(10*1460) + elif link_type == "SSL": + data_recv = sock_client.read(10*1024) + else: + raise StandardError() + data_recv_len += len(data_recv) + except socket.error, e: + if e.errno == 10035: + pass + elif e.message == "The read operation timed out": + pass + else: + NativeLog.add_exception_log(e) + else: + self.set_result("Succeed") + + time2 = time.time() + + folder_path = MakeFolder.make_folder(LOG_PATH) + file_name = os.path.join(folder_path, + "%s_%s_%s.log" % (send_cmd, + packet_len, + time.strftime("%d%H%M%S", time.localtime()))) + with open(file_name, "ab+") as f: + f.write("\r\n[performance] %f packets per second " + "(including failed send operation)" + % (test_count/(time2-time1))) + f.write("\r\n[performance] %f Kbps" % (data_recv_len/(125*(time2-time1)))) + + self.serial_write_line("AT1", "AT+UART_CUR=115200,8,1,0,3") + self.check_response("AT1", "OK\r\n") + self.restore_serial_port("AT1") + + # restore to read line mode + self.test_env.uart_ports["AT1"].set_performance_flag(flag=False) + # close socket + sock.close() + sock_client.close() + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/ATStress/TCPServerMulti.py b/components/test/TestCaseScript/ATStress/TCPServerMulti.py new file mode 100755 index 000000000..c317bc974 --- /dev/null +++ b/components/test/TestCaseScript/ATStress/TCPServerMulti.py @@ -0,0 +1,126 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class TCPServerMulti(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.max_conn = test_env.get_variable_by_name("max_conn")[1] + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + target_ip_str = self.target_ip_str + enable_log = self.enable_log + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPSeverMulti script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # turn off AT UART logging + if enable_log is False: + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + + # step1 create TCP server on target + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATC AT1 CIPSERVER 1 "] + fail_string = "Fail, Fail on create target TCP server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 PC connect to target server + for j in range(0, test_count): + data = "A" * at_send_length + fail_string = "Fail, Fail on connect to target server" + + # check if all connection can send data on target + checker_stings = ["P AT1 C OK"] + test_action_strings = ["ATS AT1 AT+CIPCLOSE=%d" % self.max_conn] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=100) is False: + NativeLog.add_trace_critical("Fail to close all connection") + NativeLog.add_trace_critical("Test count is %d" % j) + continue # if fail on this step, we can recover and continue + + # a) do connect + fail_flag = False + for i in range(0, self.max_conn): + checker_stings = ["P SOC_COM C OK", "P AT1 C CONNECT"] + test_action_strings = ["SOC SOC%d CONNECT %s" % (i+1, target_ip_str)] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail to connect to target for link %d" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + # if fail on this step, we can recover and continue + fail_flag = True + break + + if fail_flag is True: + # fail on step a) + continue + + # b) check if all connection can recv data on target + checker_stings = [] + test_action_strings = [] + for i in range(0, self.max_conn): + checker_stings.extend(["P AT1 DL %d+%d" % (i, soc_send_length)]) + test_action_strings.extend(["SOC SOC%d SEND %d" % (i+1, soc_send_length)]) + + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail to receive data from PC") + NativeLog.add_trace_critical("Test count is %d" % j) + continue # if fail on this step, we can recover and continue + + # c) check if all connection can send data on target + for i in range(0, self.max_conn): + checker_stings = ["P AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d,%d" % (i, at_send_length)] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail on target send command for link %d" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + return + + checker_stings = ["P SOC%d RL %d" % ((i+1), at_send_length), "P AT1 C OK"] + test_action_strings = ["ATSO AT1 %s" % data] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Fail on target send for link %d, send or recv error" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + return + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/TCPTransparent.py b/components/test/TestCaseScript/ATStress/TCPTransparent.py new file mode 100755 index 000000000..d116923bf --- /dev/null +++ b/components/test/TestCaseScript/ATStress/TCPTransparent.py @@ -0,0 +1,280 @@ +from TCAction import TCActionBase +from TCAction import CmdHandler +from NativeLog import NativeLog +import time +import random +import string +import os + + +class TransparentResultCheckCntx(TCActionBase.ResultCheckContext): + + def __init__(self, test_action, test_env, name): + TCActionBase.ResultCheckContext.__init__(self, test_action, test_env, name) + self.result_array = [] + self.at_data_recv_total = 0 + self.pc_data_recv_total = 0 + self.temp_data_at2wifi = "" + self.temp_data_wifi2at = "" + pass + + def run(self): + validation_required = self.test_action.data_validation + path = os.path.split(self.test_action.log_file_name) + file_name_at2wifi = os.path.join(path[0], "%s_at2wifi_pc.bin" % self.test_action.timestamp) + file_name_wifi2at = os.path.join(path[0], "%s_wifi2at_at.bin" % self.test_action.timestamp) + + while True: + exit_flag = self.wait_exit_event(2) + # force exit + if exit_flag is True: + break + rx_len = 0 + tx_len = 0 + try: + self.lock_data() + rx_port = filter(lambda x: x[0] == "AT1", self.data_cache) + tx_port = filter(lambda x: x[0] == "SOC2", self.data_cache) + self.data_cache = [] + finally: + self.unlock_data() + + if len(rx_port) == 1: + rx_len = len(rx_port[0][1]) + self.at_data_recv_total += rx_len + if validation_required is True: + self.temp_data_wifi2at += rx_port[0][1] + if len(tx_port) == 1: + tx_len = len(tx_port[0][1]) + self.pc_data_recv_total += tx_len + if validation_required is True: + self.temp_data_at2wifi += tx_port[0][1] + + self.result_array.append(["TX %8d %s" % + (tx_len/2, time.strftime("%m-%d %H:%M:%S", time.localtime()))]) + self.result_array.append(["RX %8d %s" % + (rx_len/2, time.strftime("%m-%d %H:%M:%S", time.localtime()))]) + + if validation_required is True: + with open(file_name_at2wifi, "ab+") as f: + f.write(self.temp_data_at2wifi) + with open(file_name_wifi2at, "ab+") as f: + f.write(self.temp_data_wifi2at) + + def get_validation_data(self): + return self.temp_data_at2wifi, self.temp_data_wifi2at + + def get_test_results(self): + return self.result_array, self.at_data_recv_total, self.pc_data_recv_total + + +class TCPTransparent(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.timestamp = time.strftime("%d%H%M%S", time.localtime()) + + pass + + def cleanup(self): + # close current result check context + self.result_cntx.stop_thread() + self.result_cntx.join() + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + # restore to read line mode + self.test_env.uart_ports["AT1"].set_performance_flag(flag=False) + + # make sure enter condition that can respond to AT command + self.result_cntx = TCActionBase.ResultCheckContext(self, self.test_env, self.tc_name) + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + checker_stings = ["ATR AT1 R *"] + test_action_string = ["ATSO AT1 +++", "DELAY 0.1", "ATS AT1 AT"] + fail_string = "Fail, Fail to reconfig UART" + + result = False + + while result is False: + result = self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + + # reset baudrate + + checker_stings = ["ATR AT1 L OK"] + test_action_string = ["ATS AT1 AT+UART_CUR=%d,8,1,0,3" % 115200] + fail_string = "Fail, Fail to reconfig UART" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + test_action = CmdHandler.parse_action("UART AT1 %d" % 115200, self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + TCActionBase.CommonTCActionBase.cleanup(self) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + # at send data len + at_send_data_len = self.at_send_data_len + # pc send data len + pc_send_data_len = self.pc_send_data_len + # sleep time between each send, test count + test_dispatch = self.test_dispatch + # enable target TCP TX + tx_enable = self.tx_enable + # enable target TCP RX + rx_enable = self.rx_enable + # if need to record tx/rx data to file + data_validation = self.data_validation + # UART baudrate + baudrate = self.baudrate + # HW flow control + rtscts = self.rtscts + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step0 reconfig baudrate + if baudrate != 0: + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATS AT1 AT+UART_CUR=%d,8,1,0,%d" % (baudrate, rtscts)] + fail_string = "Fail, Fail to reconfig UART" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + test_action = CmdHandler.parse_action("UART AT1 %d %d" % (baudrate, rtscts), self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + + # step1 create PC server + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 LISTEN "] + fail_string = "Fail, Fail on create PC server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 target connect, switch to transparent + checker_stings = ["R SOC1 C +ACCEPT", "R AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"TCP\" "] + fail_string = "Fail, Fail on connect to PC server" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC2"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_strings = ["ATS AT1 AT+CIPMODE=1"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 + # turn off AT UART logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + # uart try to return data ASAP + self.test_env.uart_ports["AT1"].set_performance_flag(flag=True) + + # switch to new result check context + self.result_cntx.stop_thread() + self.result_cntx.join() + self.result_cntx = TransparentResultCheckCntx(self, self.test_env, self.tc_name) + self.result_cntx.start() + + at_data_sent_total = 0 + pc_data_sent_total = 0 + at2wifi_data = "" + wifi2at_data = "" + + for j in range(0, len(at_send_data_len) * len(pc_send_data_len)): + at_data_len = at_send_data_len[j / len(pc_send_data_len)] + pc_data_len = pc_send_data_len[j % len(pc_send_data_len)] + # data = "".join(["A"] * at_data_len) + chars = string.ascii_lowercase + data_list = ["".join([random.choice(chars) for m in range(at_data_len-16)])] + chars = string.ascii_uppercase + data_list.append("".join([random.choice(chars) for m in range(at_data_len-16)])) + chars = string.digits + data_list.append("".join([random.choice(chars) for m in range(at_data_len-16)])) + + for i in range(0, len(test_dispatch)): + for k in range(0, test_dispatch[i][1]): + data_str = "%.2d%.2d%.10d%s\r\n" % (j, i, k, data_list[k % 3]) + # time1 = time.time() + if tx_enable is True: + test_action = CmdHandler.parse_action("ATSO AT1 %s" % data_str, self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + at_data_sent_total += at_data_len + if data_validation is True: + at2wifi_data += data_str + # time2 = time.time() + if rx_enable is True: + if tx_enable is True: + test_action = CmdHandler.parse_action("SOC SOC2 SENDNB %d %s" % (pc_data_len, data_str), + self.test_env) + else: + test_action = CmdHandler.parse_action("SOC SOC2 SEND %d %s" % (pc_data_len, data_str), + self.test_env) + sent_len = CmdHandler.do_action(test_action[0], self.test_env) + pc_data_sent_total += sent_len + if data_validation is True: + wifi2at_data += data_str[:sent_len] + # time3 = time.time() + # if time3-time2 > 0.1: + # break + if test_dispatch[i][0] != 0: + time.sleep(test_dispatch[i][0]) + time.sleep(3) # wait 3 seconds + + # write send data to file for data validation + if data_validation is True: + path = os.path.split(self.log_file_name) + with open(os.path.join(path[0], "%s_at2wifi_at.bin" % self.timestamp), "ab+") as f: + f.write(at2wifi_data) + with open(os.path.join(path[0], "%s_wifi2at_pc.bin" % self.timestamp), "ab+") as f: + f.write(wifi2at_data) + + temp_data_at2wifi, temp_data_wifi2at = self.result_cntx.get_validation_data() + if temp_data_at2wifi != at2wifi_data: + NativeLog.add_prompt_trace("[Validation Fail] at2wifi") + if temp_data_wifi2at != wifi2at_data: + NativeLog.add_prompt_trace("[Validation Fail] wifi2at") + + throughput_results, at_data_recv_total, pc_data_recv_total = self.result_cntx.get_test_results() + result_str = "AT sent %15d\r\n" % at_data_sent_total + result_str += "PC recv %15d\r\n" % pc_data_recv_total + result_str += "PC sent %15d\r\n" % pc_data_sent_total + result_str += "AT recv %15d\r\n" % at_data_recv_total + for _result in throughput_results: + result_str += "%s\r\n" % _result + with open(self.log_file_name, "ab+") as f: + f.write(result_str) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/UDPMulti.py b/components/test/TestCaseScript/ATStress/UDPMulti.py new file mode 100755 index 000000000..4423db3ce --- /dev/null +++ b/components/test/TestCaseScript/ATStress/UDPMulti.py @@ -0,0 +1,113 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import time + + +class UDPMulti(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.max_conn = test_env.get_variable_by_name("max_conn")[1] + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + target_ip_str = self.target_ip_str + tx_enable = self.tx_enable + rx_enable = self.rx_enable + enable_log = self.enable_log + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for UDPMulti script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # step1, bind one PC UDP port + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 BIND "] + fail_string = "Fail, Fail on binding socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 2 create 5 UDP link on target + for i in range(0, self.max_conn): + checker_stings = ["R AT1 C CONNECT L OK"] + test_action_strings = ["ATC AT1 CIPSTART %d \"UDP\" 1" + % (i, i+1)] + fail_string = "Fail, Fail on create UDP link" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 send recv data + # turn off AT UART logging + if enable_log is False: + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + + for j in range(0, test_count): + data = "A" * at_send_length + fail_string = "Fail, Fail on send/recv data" + + if tx_enable is True: + # target link 0-5 sendto PC + for i in range(0, self.max_conn): + checker_stings = ["P AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d,%d" % (i, at_send_length)] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Target fail on send cmd on link %d" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + + checker_stings = ["P SOC_COM C RECV_LEN=%d P " % (at_send_length, i+1), + "P AT1 C OK"] + test_action_strings = ["ATSO AT1 %s" % data] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Target sent UDP packet error on link %d" % i) + NativeLog.add_trace_critical("Test count is %d" % j) + + if rx_enable is True: + # PC send to target + checker_stings = [] + test_action_strings = [] + for i in range(0, self.max_conn): + checker_stings.extend(["P AT1 DL %d+%d" % (i, soc_send_length)]) + test_action_strings.extend(["SOC SOC1 SENDTO %d %s" + % (soc_send_length, i+1, target_ip_str)]) + + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("PC sent UDP packet error") + NativeLog.add_trace_critical("Test count is %d" % j) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/UDPSingle.py b/components/test/TestCaseScript/ATStress/UDPSingle.py new file mode 100755 index 000000000..0f30330ab --- /dev/null +++ b/components/test/TestCaseScript/ATStress/UDPSingle.py @@ -0,0 +1,105 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class UDPSingle(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + TCActionBase.CommonTCActionBase.cleanup(self) + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + try: + at_send_length = self.at_send_length + soc_send_length = self.soc_send_length + test_count = self.test_count + target_ip_str = self.target_ip_str + tx_enable = self.tx_enable + rx_enable = self.rx_enable + enable_log = self.enable_log + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for UDPSingle script, error is %s" % e) + raise StandardError("Error configuration") + # configurable params + + # step1, bind one PC UDP port + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 BIND "] + fail_string = "Fail, Fail on binding UDP socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 2 create UDP link on target + checker_stings = ["R AT1 C CONNECT L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"UDP\" 1"] + fail_string = "Fail, Fail on create UDP link" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 send recv data + # turn off AT UART logging + if enable_log is False: + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + + for j in range(0, test_count): + data = "A" * at_send_length + fail_string = "Fail, Fail on send recv data" + + # target sendto PC + if tx_enable is True: + checker_stings = ["P AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d" % at_send_length] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Target fail on send cmd") + NativeLog.add_trace_critical("Test count is %d" % j) + + checker_stings = ["P SOC_COM C RECV_LEN=%d P " % at_send_length, + "P AT1 C OK"] + test_action_strings = ["ATSO AT1 %s" % data] + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Target sent UDP packet error") + NativeLog.add_trace_critical("Test count is %d" % j) + + # PC send to target + if rx_enable is True: + checker_stings = (["P AT1 DL S+%d" % soc_send_length]) + test_action_strings = (["SOC SOC1 SENDTO %d %s" % (soc_send_length, target_ip_str)]) + + if self.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("PC sent UDP packet error") + NativeLog.add_trace_critical("Test count is %d" % j) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/UDPTransparent.py b/components/test/TestCaseScript/ATStress/UDPTransparent.py new file mode 100755 index 000000000..699d2b1ad --- /dev/null +++ b/components/test/TestCaseScript/ATStress/UDPTransparent.py @@ -0,0 +1,262 @@ +from TCAction import TCActionBase +from TCAction import CmdHandler +from NativeLog import NativeLog +import time +import random +import string +import os + + +class TransparentResultCheckCntx(TCActionBase.ResultCheckContext): + + def __init__(self, test_action, test_env, name): + TCActionBase.ResultCheckContext.__init__(self, test_action, test_env, name) + self.result_array = [] + self.at_data_recv_total = 0 + self.pc_data_recv_total = 0 + pass + + def run(self): + validation_required = self.test_action.data_validation + temp_data_at2wifi = "" + temp_data_wifi2at = "" + path = os.path.split(self.test_action.log_file_name) + file_name_at2wifi = os.path.join(path[0], "%s_at2wifi_pc.bin" % self.test_action.timestamp) + file_name_wifi2at = os.path.join(path[0], "%s_wifi2at_at.bin" % self.test_action.timestamp) + + while True: + exit_flag = self.wait_exit_event(2) + # force exit + if exit_flag is True: + break + rx_len = 0 + tx_len = 0 + try: + self.lock_data() + rx_port = filter(lambda x: x[0] == "AT1", self.data_cache) + tx_port = filter(lambda x: x[0] == "SOC1", self.data_cache) + self.data_cache = [] + finally: + self.unlock_data() + + if len(rx_port) == 1: + rx_len = len(rx_port[0][1]) + self.at_data_recv_total += rx_len + if validation_required is True: + temp_data_wifi2at += rx_port[0][1] + if len(tx_port) == 1: + tx_len = len(tx_port[0][1]) + self.pc_data_recv_total += tx_len + if validation_required is True: + temp_data_at2wifi += tx_port[0][1] + + self.result_array.append(["TX %8d %s" % + (tx_len/2, time.strftime("%m-%d %H:%M:%S", time.localtime()))]) + self.result_array.append(["RX %8d %s" % + (rx_len/2, time.strftime("%m-%d %H:%M:%S", time.localtime()))]) + + if validation_required is True: + with open(file_name_at2wifi, "ab+") as f: + f.write(temp_data_at2wifi) + with open(file_name_wifi2at, "ab+") as f: + f.write(temp_data_wifi2at) + + def get_test_results(self): + return self.result_array, self.at_data_recv_total, self.pc_data_recv_total + + +class UDPTransparent(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.timestamp = time.strftime("%d%H%M%S", time.localtime()) + + pass + + def cleanup(self): + # close current result check context + self.result_cntx.stop_thread() + self.result_cntx.join() + # turn on logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(True) + # restore to read line mode + self.test_env.uart_ports["AT1"].set_performance_flag(flag=False) + + # make sure enter condition that can respond to AT command + self.result_cntx = TCActionBase.ResultCheckContext(self, self.test_env, self.tc_name) + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + checker_stings = ["R AT1 R *"] + test_action_string = ["ATSO AT1 +++", "DELAY 0.1", "ATS AT1 AT"] + fail_string = "Fail, Fail to reconfig UART" + + result = False + + while result is False: + result = self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + + # reset baudrate + + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATS AT1 AT+UART_CUR=%d,8,1,0,3" % 115200] + fail_string = "Fail, Fail to reconfig UART" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + test_action = CmdHandler.parse_action("UART AT1 %d" % 115200, self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + TCActionBase.CommonTCActionBase.cleanup(self) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + # at send data len + at_send_data_len = self.at_send_data_len + # pc send data len + pc_send_data_len = self.pc_send_data_len + # sleep time between each send, test count + test_dispatch = self.test_dispatch + # enable target TCP TX + tx_enable = self.tx_enable + # enable target TCP RX + rx_enable = self.rx_enable + # if need to record tx/rx data to file + data_validation = self.data_validation + # UART baudrate + baudrate = self.baudrate + # HW flow control + rtscts = self.rtscts + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step0 reconfig baudrate + if baudrate != 0: + checker_stings = ["R AT1 L OK"] + test_action_string = ["ATS AT1 AT+UART_CUR=%d,8,1,0,%d" % (baudrate, rtscts)] + fail_string = "Fail, Fail to reconfig UART" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + test_action = CmdHandler.parse_action("UART AT1 %d %d" % (baudrate, rtscts), self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + + # step1 create PC server + checker_stings = ["R SOC_COM L OK"] + test_action_string = ["SOC SOC1 BIND "] + fail_string = "Fail, Fail on create PC server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2 target connect, switch to transparent + checker_stings = ["R AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART \"UDP\" 0"] + fail_string = "Fail, Fail on connect to PC server" + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R AT1 L OK"] + test_action_strings = ["ATS AT1 AT+CIPMODE=1"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + checker_stings = ["R AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND"] + if self.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) is False: + return + + # step 3 + # turn off AT UART logging + self.test_env.uart_ports["AT1"].set_uart_logging_flag(False) + # restore to read data asap + self.test_env.uart_ports["AT1"].set_performance_flag(flag=True) + + # switch to new result check context + self.result_cntx.stop_thread() + self.result_cntx.join() + self.result_cntx = TransparentResultCheckCntx(self, self.test_env, self.tc_name) + self.result_cntx.start() + + at_data_sent_total = 0 + pc_data_sent_total = 0 + at2wifi_data = "" + wifi2at_data = "" + + for j in range(0, len(at_send_data_len) * len(pc_send_data_len)): + at_data_len = at_send_data_len[j / len(pc_send_data_len)] + pc_data_len = pc_send_data_len[j % len(pc_send_data_len)] + # data = "".join(["A"] * at_data_len) + chars = string.ascii_lowercase + data_list = ["".join([random.choice(chars) for m in range(at_data_len-16)])] + chars = string.ascii_uppercase + data_list.append("".join([random.choice(chars) for m in range(at_data_len-16)])) + chars = string.digits + data_list.append("".join([random.choice(chars) for m in range(at_data_len-16)])) + + for i in range(0, len(test_dispatch)): + for k in range(0, test_dispatch[i][1]): + data_str = "%.2d%.2d%.10d%s\r\n" % (j, i, k, data_list[k % 3]) + # time1 = time.time() + if tx_enable is True: + test_action = CmdHandler.parse_action("ATSO AT1 %s" % data_str, self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + at_data_sent_total += at_data_len + if data_validation is True: + at2wifi_data += data_str + # time2 = time.time() + if rx_enable is True: + test_action = CmdHandler.parse_action("SOC SOC1 SENDTO %d %s %s %s" + % (pc_data_len, "", + "", data_str), self.test_env) + CmdHandler.do_actions(test_action, self.test_env) + pc_data_sent_total += pc_data_len + if data_validation is True: + wifi2at_data += data_str + # time3 = time.time() + # if time3-time2 > 0.1: + # pass + if test_dispatch[i][0] != 0: + time.sleep(test_dispatch[i][0]) + time.sleep(3) # wait 3 seconds + + # write send data to file for data validation + if data_validation is True: + path = os.path.split(self.log_file_name) + with open(os.path.join(path[0], "%s_at2wifi_at.bin" % self.timestamp), "ab+") as f: + f.write(at2wifi_data) + with open(os.path.join(path[0], "%s_wifi2at_pc.bin" % self.timestamp), "ab+") as f: + f.write(wifi2at_data) + throughput_results, at_data_recv_total, pc_data_recv_total = self.result_cntx.get_test_results() + result_str = "AT sent %15d\r\n" % at_data_sent_total + result_str += "PC recv %15d\r\n" % pc_data_recv_total + result_str += "PC sent %15d\r\n" % pc_data_sent_total + result_str += "AT recv %15d\r\n" % at_data_recv_total + for _result in throughput_results: + result_str += "%s\r\n" % _result + with open(self.log_file_name, "ab+") as f: + f.write(result_str) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/ATStress/__init__.py b/components/test/TestCaseScript/ATStress/__init__.py new file mode 100755 index 000000000..5a3bbc44d --- /dev/null +++ b/components/test/TestCaseScript/ATStress/__init__.py @@ -0,0 +1,2 @@ +__all__ = ["TCPClientMulti", "TCPClientSingle", "TCPServerMulti", + "TCPTransparent", "UDPMulti", "UDPSingle"] \ No newline at end of file diff --git a/components/test/TestCaseScript/IOT/SCIOT.py b/components/test/TestCaseScript/IOT/SCIOT.py new file mode 100755 index 000000000..5ced3ef12 --- /dev/null +++ b/components/test/TestCaseScript/IOT/SCIOT.py @@ -0,0 +1,357 @@ +import Queue + +from TCAction import TCActionBase +from NativeLog import NativeLog +from SCUDPServer import * +from TCAction.CmdExecutor import CmdExecutorBasic +from Utility import MakeFolder + +TEST_RESULT_CATEGORY = ("AP", "Phone") +TEST_RESULT_PROPERTY = ("model", "total", "succeed", "failed", "total time1", "total time2") +SINGLE_TEST_RESULT = ("AP", "Phone", "result", "time1", "time2") + +LOG_FILES = ("by_ap.tmp", "by_phone.tmp", "failed_item.tmp", "disqualified_item.tmp", "total.tmp") + +LOG_PATH = os.path.join("AT_LOG", "IOT") + + +def make_session_id(mac, test_id): + return mac_to_bytes(mac) + chr((test_id & 0xFF00) >> 8) + chr(test_id & 0xFF) + + +class TestHandler(threading.Thread): + def __init__(self, session_id, ap, phone, udp_server, test_action): + threading.Thread.__init__(self) + self.setDaemon(True) + self.udp_server = udp_server + self.session_id = session_id + self.ap = ap + self.phone = phone + self.test_action = test_action + self.recv_queue = Queue.Queue(10) + self.abort_event = threading.Event() + self.start_time = time.time() + self.test_result = None + udp_server.register_test_handler(session_id, self) + pass + + def req_receiver(self, msg, address): + self.recv_queue.put([msg, address]) + pass + + def res_receiver(self, msg, address): + self.recv_queue.put([msg, address]) + pass + + def abort_handler(self): + NativeLog.add_prompt_trace("[Test Handler][Debug] test aborted") + self.abort_event.set() + self.test_action.remove_from_available_list(self.phone) + pass + + def wait_result(self, event, timeout=None): + time_start = time.time() + while True: + if self.abort_event.isSet() is True: + return False + + if time.time() - self.start_time > ABORT_TIMEOUT: + return False + + if timeout is not None: + if time.time() - time_start > timeout: + return False + + if event == "ACK" or event == "result": + try: + ret = self.recv_queue.get(timeout=0.5) + except Queue.Empty, e: + continue + else: + msg = ret[0] + value_list = get_value_from_msg("type", msg) + msg_typ = ord(value_list[0]) + if msg_typ == TYPE_VAL[event]: + NativeLog.add_prompt_trace("[Test Handler][Debug] wait message succeed") + return msg + elif (msg_typ & 0x80) == 0: # invalid request + self.udp_server.send_response([[VALUE_NAME["type"], TYPE_VAL["Not support"]], + [VALUE_NAME["session id"], self.session_id]], + ret[1]) + pass + else: + pass + pass + + def run(self): + for i in range(1): + # step1 send broadcast to SP + msg = [[VALUE_NAME["type"], TYPE_VAL["Init new test"]], + [VALUE_NAME["session id"], self.session_id]] + self.udp_server.send_request(("", self.udp_server.udp_port), self.session_id, msg) + # wait response + if self.wait_result("ACK") is False: + break + NativeLog.add_prompt_trace("[Step1] Initial new test succeed") + + # step2 start smart config + checker_stings = ["ATR AT1 L OK"] + test_action_string = ["ATS AT1 AT+CWSTOPSMART"] + fail_string = "Fail, Failed to start smart config" + if self.test_action.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + NativeLog.add_prompt_trace(fail_string) + break + checker_stings = ["ATR AT1 L OK"] + test_action_string = ["ATS AT1 AT+CWSTARTSMART=1"] + if self.test_action.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + NativeLog.add_prompt_trace(fail_string) + break + NativeLog.add_prompt_trace("[Step2] Start smart config succeed") + + # step3 send test request to SP + msg = [[VALUE_NAME["type"], TYPE_VAL["test request"]], + [VALUE_NAME["session id"], self.session_id], + [VALUE_NAME["ap ssid"], self.ap["ssid"]], + [VALUE_NAME["ap password"], self.ap["password"]], + [VALUE_NAME["ap bssid"], mac_to_bytes(self.ap["bssid"])], + # [VALUE_NAME["ET version"], 0x20], + [VALUE_NAME["ssid hidden"], self.ap["is_hidden"]], + [VALUE_NAME["ap encryption"], AP_ENCRYPTION_VAL[self.ap["encryption"]]] + ] + self.udp_server.send_request((self.phone["ip"], self.udp_server.udp_port), self.session_id, msg) + # wait SP reply + if self.wait_result("ACK") is False: + break + NativeLog.add_prompt_trace("[Step3] Send test request succeed") + time_base = time.time() + + # step4 wait target smart config succeed + checker_stings = ["ATR AT1 C get%%20wifi%%20info C %s C %s" + % (self.ap["ssid"], self.ap["password"])] + test_action_string = [] + fail_string = "Fail, Fail to get ap info" + # if check target get smart config result fail, continue and get result from SP + ret = self.test_action.load_and_exe_one_step(checker_stings, test_action_string, + fail_string, check_time=600) + if ret is False: + NativeLog.add_prompt_trace("[Step4] Target smart config fail") + step_4_fail = True + else: + NativeLog.add_prompt_trace("[Step4] Target smart config succeed") + step_4_fail = False + time_target_succeed = time.time() - time_base + + # step5 wait SP result + msg = self.wait_result("result") + if msg is False: + NativeLog.add_prompt_trace("[Test Handler][Debug] Failed to get result from SP") + break + else: + self.udp_server.send_response([[VALUE_NAME["type"], TYPE_VAL["ACK"]], + [VALUE_NAME["session id"], self.session_id]], + (self.phone["ip"], self.udp_server.udp_port)) + tmp = get_value_from_msg(["result code", "start SC time", "recv UDP time"], msg) + result_code = ord(tmp[0]) + if result_code == RESULT_CODE_VAL["OK"]: + sp_start_time = bytes_to_time(tmp[1]) + sp_recv_udp_time = bytes_to_time(tmp[2]) + smart_config_protocol_cost = time_target_succeed - sp_start_time + user_experience_time = sp_recv_udp_time - sp_start_time + self.test_result = ["Succeed", smart_config_protocol_cost, user_experience_time] + elif result_code == RESULT_CODE_VAL["recv UDP fail"]: + sp_start_time = bytes_to_time(tmp[1]) + if step_4_fail is True: + smart_config_protocol_cost = 0 + else: + smart_config_protocol_cost = time_target_succeed - sp_start_time + self.test_result = ["Failed", smart_config_protocol_cost, 0] + pass + else: + NativeLog.add_prompt_trace("[Test Handler][Debug] Disqualified message: %s" % tmp) + + for k in range(RETRANSMIT_COUNT - 1): + if self.wait_result("result", RETRANSMIT_TIMEOUT) is not False: + self.udp_server.send_response([[VALUE_NAME["type"], TYPE_VAL["ACK"]], + [VALUE_NAME["session id"], self.session_id]], + (self.phone["ip"], self.udp_server.udp_port)) + + NativeLog.add_prompt_trace("[Step5] Receive test result from SP") + + if self.test_result is None: + self.test_result = ["Disqualified", 0, 0] + self.udp_server.deregister_test_handler(self.session_id) + NativeLog.add_prompt_trace("One Test Done") + pass + + def get_result(self): + if self.test_result is None: + NativeLog.add_trace_critical("Get result before test finish") + return self.test_result + pass + + +class SCIOT(TCActionBase.CommonTCActionBase): + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.ap_list = [] + self.test_result = dict.fromkeys(TEST_RESULT_CATEGORY) + self.test_result["AP"] = [] + self.test_result["Phone"] = [] + self.available_phone_list = [] + self.pc_ip = "" + self.udp_port = "" + self.test_id = 0x00 + self.resource_lock = threading.Lock() + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROPERTY, " + cmd_set[i][1][j] + ")))" + exec cmd_string + for ap in self.ap_list: + self.test_result["AP"].append(dict(zip(TEST_RESULT_PROPERTY, [ap["ssid"], 0, 0, 0, 0, 0]))) + + self.log_folder = MakeFolder.make_folder(os.path.join(LOG_PATH, "TEST_%s" + % (time.strftime("%y%m%d%H%M%S", time.localtime())))) + self.log_files = dict.fromkeys(LOG_FILES) + for _file in self.log_files: + self.log_files[_file] = os.path.join(self.log_folder, + (time.strftime("%H%M%S", time.localtime())) + _file) + pass + + def update_phone_list(self, phone): + with self.resource_lock: + tmp = filter(lambda x: x["model"] == phone["model"], self.available_phone_list) + if len(tmp) == 1: + tmp[0]["ip"] = phone["ip"] + else: + self.available_phone_list.append(phone) + + tmp = filter(lambda x: x["model"] == phone["model"], self.test_result["Phone"]) + if len(tmp) == 0: + self.test_result["Phone"].append(dict(zip(TEST_RESULT_PROPERTY, [phone["model"], 0, 0, 0, 0, 0]))) + pass + + def remove_from_available_list(self, phone): + with self.resource_lock: + tmp = filter(lambda x: x["model"] == phone["model"], self.available_phone_list) + if len(tmp) == 1: + self.available_phone_list.remove(tmp[0]) + pass + + def allocate_test(self): + phone = None + test_count = 0xFFFF + with self.resource_lock: + for _phone in self.available_phone_list: + tmp = filter(lambda x: x["model"] == _phone["model"], self.test_result["Phone"]) + if len(tmp) == 1: + _count = tmp[0]["total"] + if _count < test_count: + test_count = _count + phone = _phone + ap_list = self.ap_list[test_count % len(self.ap_list):] + return phone, ap_list + pass + + def output_test_result(self, ap, phone, test_result): + result_str = "Time stamp" + ":\t" + NativeLog.generate_timestamp() + "\r\n" + result_str += "AP model" + ":\t" + str(ap["ssid"]) + "\r\n" + result_str += "AP encryption" + ":\t" + str(ap["encryption"]) + "\r\n" + result_str += "AP HT" + ":\t" + str(ap["ht"]) + "\r\n" + result_str += "AP ssid hidden" + ":\t" + str(ap["is_hidden"]) + "\r\n" + result_str += "Phone model" + ":\t" + str(phone["model"]) + "\r\n" + result_str += "Result" + ":\t" + str(test_result[0]) + "\r\n" + result_str += "Time1" + ":\t" + str(test_result[1]) + "\r\n" + result_str += "Time2" + ":\t" + str(test_result[2]) + "\r\n" + + with self.resource_lock: + tmp = [filter(lambda x: x["model"] == ap["ssid"], self.test_result["AP"])[0], + filter(lambda x: x["model"] == phone["model"], self.test_result["Phone"])[0]] + if test_result[0] == "Succeed": + for _tmp in tmp: + _tmp["total"] += 1 + _tmp["succeed"] += 1 + _tmp["total time1"] += test_result[1] + _tmp["total time2"] += test_result[2] + pass + elif test_result[0] == "Disqualified": + for _tmp in tmp: + _tmp["total"] += 1 + pass + else: + for _tmp in tmp: + _tmp["total"] += 1 + _tmp["failed"] += 1 + pass + tmp_result = dict(zip(TEST_RESULT_CATEGORY, ["", ""])) + for category in self.test_result: + for _result in self.test_result[category]: + for n in _result: + tmp_result[category] += str(n) + ":\t" + str(_result[n]) + "\r\n" + + # update to log file + with open(self.log_files["by_ap.tmp"], "wb+") as f: + f.write(tmp_result["AP"]) + with open(self.log_files["by_phone.tmp"], "wb+") as f: + f.write(tmp_result["Phone"]) + + with open(self.log_files["total.tmp"], "ab+") as f: + f.write(result_str) + if test_result[0] == "Failed": + with open(self.log_files["failed_item.tmp"], "ab+") as f: + f.write(result_str) + elif test_result[0] == "Disqualified": + with open(self.log_files["disqualified_item.tmp"], "ab+") as f: + f.write(result_str) + + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + pc_ip = CmdExecutorBasic.extract_parameter(self.pc_ip, self.test_env) + if isinstance(self.udp_port, int) is False: + udp_port = CmdExecutorBasic.extract_parameter(self.udp_port, self.test_env) + else: + udp_port = self.udp_port + + server = UDPServer(pc_ip, udp_port, self.update_phone_list) + server.start() + + while True: + phone, ap_list = self.allocate_test() + if phone is None: + time.sleep(5) + continue + for ap in ap_list: + NativeLog.add_prompt_trace("AP is %s, Phone is %s" % (ap["ssid"], phone["model"])) + session_id = make_session_id(phone["mac"], self.test_id) + self.test_id += 1 + test_handler = TestHandler(session_id, ap, phone, server, self) + test_handler.start() + test_handler.join() + result = test_handler.get_result() + self.output_test_result(ap, phone, result) + + # finally, execute done + server.join() + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/IOT/SCUDPServer.py b/components/test/TestCaseScript/IOT/SCUDPServer.py new file mode 100755 index 000000000..75f24f79a --- /dev/null +++ b/components/test/TestCaseScript/IOT/SCUDPServer.py @@ -0,0 +1,378 @@ +import socket +import time +import os +import threading + +from NativeLog import NativeLog + + +RETRANSMIT_COUNT = 5 +RETRANSMIT_TIMEOUT = 0.5 +ABORT_TIMEOUT = 120 +BEACON_SEND_RATE = 30 + + +VALUE_NAME = {"type": 0x00, + "session id": 0x01, + "result code": 0x02, + "ap ssid": 0x03, + "ap password": 0x04, + "start SC time": 0x05, + "recv UDP time": 0x06, + "SP model": 0x07, + "SP mac": 0x08, + "ET version": 0x09, + "ap bssid": 0x0A, + "ssid hidden": 0x0B, + "ap encryption": 0x0C, + } + +TYPE_VAL = {"Init new test": 0x00, + "test request": 0x01, + "result": 0x02, + "query phone": 0x03, + "ACK": 0x80, + "phone report": 0x81, + "Not support": 0xFF, + "invalid session": 0xFE, + } + +RESULT_CODE_VAL = {"OK": 0x80, + "JAP fail": 0x81, # SP join AP fail, should disqualify this result + "recv UDP fail": 0x82, # SP did not receive UDP sent by target + } + +AP_ENCRYPTION_VAL = {"OPEN": 0x00, + "WEP": 0x01, + "WPA": 0x02, + } + +AP_PROPERTY = ("ssid", "password", "bssid", "is_hidden", "encryption", "ht") +PHONE_PROPERTY = ("ip", "mac", "model") + + +SERIAL_PORT_NUM = 3 +LOG_FILE_PREFIX = "SC_IOT" +LOG_FOLDER = os.path.join("AT_LOG", "TEMP") +LOG_FILE_NAME = os.path.join(LOG_FOLDER, "%s_%s.log" % (LOG_FILE_PREFIX, time.strftime("%d%H%M%S", time.localtime()))) + + +REQUEST_LOCK = threading.Lock() +HANDLER_LOCK = threading.Lock() + + +def sync_request_list(func): + def handle_args(*args, **kwargs): + with REQUEST_LOCK: + ret = func(*args, **kwargs) + return ret + return handle_args + + +def sync_handler_list(func): + def handle_args(*args, **kwargs): + with HANDLER_LOCK: + ret = func(*args, **kwargs) + return ret + return handle_args + + +def _process_one_tlv_pair(data): + typ = ord(data[0]) + length = ord(data[1]) + value = data[2:2+length] + processed_data = data[2+length:] + return (typ, value), processed_data + pass + + +def bytes_to_msg(data): + data_to_process = data + msg = [] + while True: + one_pair, data_to_process = _process_one_tlv_pair(data_to_process) + msg.append(one_pair) + if len(data_to_process) == 0: + break + return msg + pass + + +def msg_to_bytes(msg): + byte_str = "" + for pair in msg: + byte_str += chr(pair[0]) + if isinstance(pair[1], list) is True: + byte_str += chr(len(pair[1])) + byte_str.join([chr(m) for m in pair[1]]) + elif isinstance(pair[1], str) is True: + byte_str += chr(len(pair[1])) + byte_str += pair[1] + elif isinstance(pair[1], int) is True: + byte_str += chr(1) + byte_str += chr(pair[1]) + else: + raise TypeError("msg content only support list and string type") + return byte_str + + +def get_value_from_msg(type_list, msg): + if isinstance(type_list, str) is True: + type_list = [type_list] + ret = [""] * len(type_list) + for pair in msg: + for i in range(len(type_list)): + if pair[0] == VALUE_NAME[type_list[i]]: + ret[i] = pair[1] + if "" not in ret: + # all type value found + break + else: + NativeLog.add_prompt_trace("missing required type in msg") + return ret + + +def bytes_to_time(bytes_in): + if len(bytes_in) != 4: + return 0 + t = float(ord(bytes_in[0])*256*256*256 + ord(bytes_in[1])*256*256 + + ord(bytes_in[2])*256 + ord(bytes_in[2]))/1000 + return t + pass + + +def mac_to_bytes(mac): + tmp = mac.split(':') + return "".join([chr(int(m[:2], base=16)) for m in tmp]) + pass + + +def bytes_to_mac(bytes_in): + mac = "".join(["%x:" % ord(m) for m in bytes_in] ) + return mac[:-1] + + +class RetransmitHandler(threading.Thread): + def __init__(self, udp_server): + threading.Thread.__init__(self) + self.setDaemon(True) + self.udp_server = udp_server + self.exit_event = threading.Event() + pass + + @sync_request_list + def find_required_retransmit_msg(self): + time_now = time.time() + aborted_sessions = [] + retransmit_msg = [] + msgs = filter(lambda x: time_now - x[4] >= RETRANSMIT_TIMEOUT, self.udp_server.unconfirmed_request) + for msg in msgs: + if msg[3] == 0: + aborted_sessions.append(msg[0]) + self.udp_server.unconfirmed_request.remove(msg) + else: + msg[3] -= 1 + msg[4] = time_now + retransmit_msg.append(msg) + pass + return aborted_sessions, retransmit_msg + pass + + def run(self): + while True: + self.exit_event.wait(0.1) + if self.exit_event.isSet() is True: + break + aborted_sessions, retransmit_msg = self.find_required_retransmit_msg() + for msg in retransmit_msg: + self.udp_server.udp_socket.sendto(msg[1], msg[2]) + for session_id in aborted_sessions: + self.udp_server.session_aborted(session_id) + + def exit(self): + self.exit_event.set() + pass + + +class SendBeacon(threading.Thread): + def __init__(self, sock, udp_port): + threading.Thread.__init__(self) + self.setDaemon(True) + self.udp_sock = sock + self.udp_port = udp_port + self.exit_event = threading.Event() + + def run(self): + while True: + msg = [[VALUE_NAME["type"], TYPE_VAL["query phone"]]] + data = msg_to_bytes(msg) + self.udp_sock.sendto(data, ("", self.udp_port)) + for i in range(BEACON_SEND_RATE): + self.exit_event.wait(1) + if self.exit_event.isSet() is True: + return + pass + + def exit(self): + self.exit_event.set() + pass + + +class UDPServer(threading.Thread): + def __init__(self, pc_ip, udp_port, update_phone_handler): + threading.Thread.__init__(self) + self.setDaemon(True) + sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_DGRAM) + sock.bind((pc_ip, udp_port)) + sock.settimeout(1) + sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) + sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1) + self.udp_socket = sock + self.unconfirmed_request = [] + self.test_handler_list = [] + self.pc_ip = pc_ip + self.udp_port = udp_port + self.update_phone_handler = update_phone_handler + self.retransmit_thread = RetransmitHandler(self) + self.beacon_thread = SendBeacon(self.udp_socket, self.udp_port) + self.retransmit_thread.start() + self.beacon_thread.start() + self.exit_event = threading.Event() + pass + + @sync_handler_list + def register_test_handler(self, session_id, test_handler): + tmp = filter(lambda x: x[0] == session_id, self.test_handler_list) + if len(tmp) > 0: + NativeLog.add_prompt_trace("handler with same session id exist") + else: + self.test_handler_list.append([session_id, test_handler]) + pass + + @sync_handler_list + def deregister_test_handler(self, session_id): + tmp = filter(lambda x: x[0] == session_id, self.test_handler_list) + if len(tmp) > 1: + NativeLog.add_prompt_trace("deregister test handler fail") + elif len(tmp) == 1: + self.test_handler_list.remove(tmp[0]) + pass + + @sync_handler_list + def get_test_handler(self, session_id): + ret = None + tmp = filter(lambda x: x[0] == session_id, self.test_handler_list) + if len(tmp) != 1: + NativeLog.add_prompt_trace("failed to get test handler, " + "%d handler found, session id %s" % (len(tmp), session_id)) + elif len(tmp) == 1: + ret = tmp[0][1] + return ret + pass + + def session_aborted(self, session_id): + test_handler = self.get_test_handler(session_id) + if test_handler is not None: + test_handler.abort_handler() + pass + + def confirm_request(self, session_id, msg, address): + test_handler = self.get_test_handler(session_id) + if test_handler is not None: + test_handler.res_receiver(msg, address) + self.remove_pending_request(session_id) + pass + + def receive_request(self, msg, address): + result = get_value_from_msg(["type", "session id"], msg) + msg_type = ord(result[0]) + session_id = result[1] + if msg_type != TYPE_VAL["result"]: + self.send_response([[VALUE_NAME["type"], TYPE_VAL["Not support"]]], address) + else: + test_handler = self.get_test_handler(session_id) + if test_handler is None: + self.send_response([[VALUE_NAME["type"], TYPE_VAL["invalid session"]], + [VALUE_NAME["session id"], session_id]], + address) + pass + else: + test_handler.req_receiver(msg, address) + pass + + @sync_request_list + def add_request_to_queue(self, dest_addr, session_id, data): + tmp = filter(lambda x: x[0] == session_id, self.unconfirmed_request) + if len(tmp) != 0: + NativeLog.add_prompt_trace("One pending request belong to same session id %s" % session_id) + pass + else: + self.unconfirmed_request.append([session_id, data, + dest_addr, RETRANSMIT_COUNT-1, time.time()]) + + def send_request(self, dest_addr, session_id, msg): + data = msg_to_bytes(msg) + self.add_request_to_queue(dest_addr, session_id, data) + self.udp_socket.sendto(data, dest_addr) + pass + + def send_response(self, msg, address): + self.udp_socket.sendto(msg_to_bytes(msg), address) + + @sync_request_list + def remove_pending_request(self, session_id): + tmp = filter(lambda x: x[0] == session_id, self.unconfirmed_request) + if len(tmp) > 0: + self.unconfirmed_request.remove(tmp[0]) + pass + pass + + def handle_response(self, msg, address): + result = get_value_from_msg(["type", "session id"], msg) + msg_type = ord(result[0]) + session_id = result[1] + if msg_type == TYPE_VAL["ACK"]: + self.confirm_request(session_id, msg, address) + elif msg_type == TYPE_VAL["phone report"]: + # add new available phone + tmp = get_value_from_msg(["SP model", "SP mac"], msg) + phone = dict(zip(PHONE_PROPERTY, [address[0], bytes_to_mac(tmp[1]), tmp[0]])) + self.update_phone_handler(phone) + pass + elif msg_type == TYPE_VAL["Not support"] or msg_type == TYPE_VAL["invalid session"]: + self.session_aborted(session_id) + pass + + def run(self): + while self.exit_event.isSet() is False: + try: + data, address = self.udp_socket.recvfrom(65535) + except socket.error, e: + continue + + if address[0] == self.pc_ip: + continue + + msg = bytes_to_msg(data) + msg_type = get_value_from_msg(["type"], msg)[0] + + if msg_type is None: + NativeLog.add_prompt_trace("invalid incoming msg: %s" % "".join(["0x%X, " % m for m in data])) + else: + msg_type = ord(msg_type) + # check if request or reply + if (msg_type & 0x80) != 0: + self.handle_response(msg, address) + else: + self.receive_request(msg, address) + pass + + self.retransmit_thread.exit() + self.beacon_thread.exit() + self.retransmit_thread.join() + self.beacon_thread.join() + pass + + def exit(self): + self.exit_event.set() + pass diff --git a/components/test/TestCaseScript/IOT/WifiConnUtility.py b/components/test/TestCaseScript/IOT/WifiConnUtility.py new file mode 100755 index 000000000..d50474561 --- /dev/null +++ b/components/test/TestCaseScript/IOT/WifiConnUtility.py @@ -0,0 +1,244 @@ +from NativeLog import NativeLog +import time +import random +import string + + +ERROR_AP_PROP = {"ssid": "123456789012345678901234567890", + "ssid_len": 30, + "pwd": "12345678901234567890", + "pwd_len": 20, + "channel": 10, + "enc": 3, + "apc": 9, # invalid apc count + } + + +class WifiConnUtilError(StandardError): + pass + + +class WifiConnUtility(object): + + def __init__(self, tc_action): + self.tc_action = tc_action + self.target_type = tc_action.target_type + pass + + def set_mode(self, mode): + ret = True + fail_string = "set mode fail" + cmd = [] + checker_stings = [] + for i in range(2): + if self.target_type[0] == "SSC": + cmd.append("SSCC SSC%d op -S -o %d" % (i+1, mode[i])) + checker_stings.append("SSCP SSC%d C cur_mode C %d" % (i+1, mode[i])) + pass + else: + cmd.append("ATC AT%d CWMODE %d" % (i+1, mode[i])) + checker_stings.append("ATP AT%d L OK" % (i+1)) + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Failed to set mode") + ret = False + return ret + pass + + def _apc_switch(self, outlet_list, action_list): + checker_stings = ["R PC_COM C OK"] + switch_cmd = "APC APC1" + fail_string = "Error when switching APC" + ret = True + + for [_outlet, _action] in zip(action_list, outlet_list): + switch_cmd += " %s %d" % (_action, _outlet) + + if self.tc_action.load_and_exe_one_step(checker_stings, [switch_cmd], + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Error when switching APC") + ret = False + return ret + pass + + def _set_target_ap(self, ap_prop): + ret = True + fail_string = "set target ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + if self.target_type[1] == "SSC": + if ap_prop["pwd"] == "": + cmd = ["SSCC SSC2 ap -S -s %s -t %d" % (ap_prop["ssid"], + ap_prop["enc"]) + ] + else: + cmd = ["SSCC SSC2 ap -S -s %s -p %s -t %d" % (ap_prop["ssid"], + ap_prop["pwd"], + ap_prop["enc"]) + ] + checker_stings = ["SSCP SSC2 C +SAP:OK"] + pass + else: + cmd = ["ATC AT2 CWSAP \"%s\" \"%s\" %d %d" % (ap_prop["ssid"], + ap_prop["pwd"], + ap_prop["channel"], + ap_prop["enc"]) + ] + checker_stings = ["ATR AT2 L OK"] + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("set target ap fail") + ret = False + return ret + pass + + def setup_ap(self, ap_type, ap_prop): + if ap_type == "target": + ret = self._set_target_ap(ap_prop) + pass + else: + ret = self._apc_switch(["ON"], [ap_prop["apc"]]) + # delay for 5 seconds, wait AP ready + time.sleep(5) + pass + return ret + + def do_scan(self, ap_prop): + fail_string = "Scan fail" + ret = True + # do not check if the set AP can be scanned + if self.target_type[1] == "SSC": + cmd = ["SSCC SSC1 sta -S"] + checker_stings = ["SSCR SSC1 C ssc%20scan%20done"] + pass + else: + cmd = ["ATS AT1 AT+CWLAP"] + checker_stings = ["ATR AT1 L OK"] + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=100) is False: + NativeLog.add_trace_critical("Scan fail") + ret = False + return ret + pass + + def _switch_off_target_ap(self, delay): + time.sleep(delay) + self._set_target_ap(ERROR_AP_PROP) + pass + + def _switch_on_target_ap(self, ap_prop, delay): + time.sleep(delay) + self._set_target_ap(ap_prop) + pass + + def _switch_off_ap(self, ap_type, ap_prop, delay_range): + delay = random.randint(delay_range[0]*10, delay_range[1]*10)/10 + if ap_type == "target": + self._switch_off_target_ap(delay) + else: + delay -= 1.5 + time.sleep(delay if delay > 0 else 0) + self._apc_switch(["OFF"], [ap_prop["apc"]]) + pass + + def _switch_on_ap(self, ap_type, ap_prop, delay_range): + delay = random.randint(delay_range[0]*10, delay_range[1]*10)/10 + if ap_type == "target": + self._switch_on_target_ap(ap_prop, delay) + else: + delay -= 1.5 + time.sleep(delay if delay > 0 else 0) + self._apc_switch(["ON"], [ap_prop["apc"]]) + pass + + def _join_ap(self, ap_prop, test_method): + fail_string = "join target ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + if self.target_type[1] == "SSC": + cmd = ["SSCC SSC1 ap -C -s %s -p %s" % (ap_prop["ssid"], + ap_prop["pwd"],) + ] + checker_stings = ["SSCR SSC1 C %s" % ap_prop["ssid"], + "SSCR SSC1 C dhcp%20client%20start", + "SSCR SSC1 C ip C mask C gw"] + pass + else: + cmd = ["ATC AT1 CWJAP \"%s\" \"%s\"" % (ap_prop["ssid"], + ap_prop["pwd"]) + ] + checker_stings = ["ATR AT1 NC ERROR NC FAIL L OK"] + pass + if test_method == "Normal": + ret = self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_freq=0.1, check_time=350) + if ret is not False: + ret *= 0.1 + else: + ret = self.tc_action.load_and_exe_one_step([], cmd, fail_string) + return ret + pass + + def _check_join_ap_result(self, ap_prop): + ret = False + fail_string = "join ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + + if self.target_type[1] == "SSC": + checker_stings = ["SSCR SSC1 C dhcp%20client%20start", + "SSCR SSC1 C ip C mask C gw"] + ret = self.tc_action.load_and_exe_one_step(checker_stings, ["DELAY 0"], + fail_string, check_freq=1, check_time=120) + pass + else: + cmd = ["ATS AT1 AT+CWJAP?"] + checker_stings = ["ATR AT1 NC busy NC No%20AP C +CWJAP"] + for i in range(3): + ret = self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_freq=1, check_time=2) + if ret is not False: + break + time.sleep(15) + + return ret + pass + + def join_ap(self, join_test_method, ap_type, ap_prop, delay): + + if join_test_method == "WRONG_PROP": + _prop = ERROR_AP_PROP + else: + _prop = ap_prop + + ret = self._join_ap(_prop, join_test_method) + + if join_test_method == "OFF_ON": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + self._switch_on_ap(ap_type, ap_prop, delay[1]) + ret = self._check_join_ap_result(_prop) + pass + elif join_test_method == "OFF": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + time.sleep(25) + pass + + return ret + pass + + def do_reconnect(self, reconnect_test_method, ap_type, ap_prop, delay): + ret = True + if reconnect_test_method == "OFF_ON": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + self._switch_on_ap(ap_type, ap_prop, delay[1]) + ret = self._check_join_ap_result(ap_prop) + pass + elif reconnect_test_method == "OFF": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + pass + return ret + pass + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/IOT/WifiJAP.py b/components/test/TestCaseScript/IOT/WifiJAP.py new file mode 100755 index 000000000..0bb629295 --- /dev/null +++ b/components/test/TestCaseScript/IOT/WifiJAP.py @@ -0,0 +1,183 @@ +import os +import random +import time + +import WifiConnUtility +from NativeLog import NativeLog +from TCAction import TCActionBase +from Utility import Encoding +from Utility import MakeFolder + +STEPS = {"SCAN1": 0x01, "JAP": 0x02, "SCAN2": 0x04, "RECONNECT": 0x08} + +AP_PROP = ("ssid", "ssid_len", "pwd", + "pwd_len", "channel", "enc", "apc") + +JAP_TEST_METHOD = ("Normal", "OFF_ON", "OFF", "WRONG_PROP") + +RECONNECT_TEST_METHOD = ("OFF_ON", "OFF") + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "JAP") + + +SSID_LEN_RANGE = (1, 32) # in bytes +ENC_TYPE = (0, 2, 3, 4) # do not support WEP for 8266 soft AP +PWD_RANGE = {0: [0, 0], + 1: [5, 5], + 2: [8, 63], + 3: [8, 63], + 4: [8, 63], + } + + +class WifiJAP(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # default value for optional configurable params + self.pwd_len = [8, 64] + self.step_config = [0x03, 0x01, 0x02, 0x0B, 0x0F] + self.join_test_method = ["Normal"] + self.join_delay = [[1.5, 5], [1.5, 5]] + self.reconnect_test_method = ["OFF_ON"] + self.reconnect_delay = [[1.5, 5], [1.5, 6]] + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # read AP list + self.ap_list = [] + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROP, " + cmd_set[i][1][j] + ")))" + exec cmd_string + + folder_path = MakeFolder.make_folder(LOG_FOLDER) + file_name = "JAP_log_%s.log" % (time.strftime("%m%d%H%M%S", time.localtime())) + self._performance_log_file = os.path.join(folder_path, file_name) + + # test statistics + self._succeed_count = self._fail_count = self._time_cost_count = 0 + self._total_time = self._longest_time = 0 + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + # get target type "SSC" or "AT" + self.target_type = ["SSC" if test_env.get_port_by_name("AT1") is None else "AT"] + self.target_type.append("SSC" if test_env.get_port_by_name("AT1") is None else "AT") + self._utility = WifiConnUtility.WifiConnUtility(self) + pass + + def _generate_random_ap_prop(self): + ap_prop = dict.fromkeys(AP_PROP) + # generate target ap_value + ap_prop["ssid_len"] = random.randint(SSID_LEN_RANGE[0], SSID_LEN_RANGE[1]) + ap_prop["channel"] = random.choice(range(1, 14)) + ap_prop["enc"] = random.choice(ENC_TYPE) + ap_prop["pwd_len"] = random.randint(PWD_RANGE[ap_prop["enc"]][0], PWD_RANGE[ap_prop["enc"]][1]) + # generate string + if self.target_type[0] == self.target_type[1] == "AT": + ap_prop["ssid"] = Encoding.generate_random_utf8_str(ap_prop["ssid_len"]) + ap_prop["pwd"] = Encoding.generate_random_utf8_str(ap_prop["pwd_len"]) + # NativeLog.add_trace_info("ssid hex is : %x" % ap_prop["ssid"]) + # NativeLog.add_trace_info("pwd hex is : %x" % ap_prop["pwd"]) + else: + ap_prop["ssid"] = Encoding.generate_random_printable_str(ap_prop["ssid_len"]) + ap_prop["pwd"] = Encoding.generate_random_printable_str(ap_prop["pwd_len"]) + + return ap_prop + + def _logging_performance(self, ssid, join_method="Normal", time_cost=0): + # log performance to performance log file + with open(self._performance_log_file, "ab+") as f: + # log time and ssid + f.write("\r\n[%s]:\r\n[AP name] %s\r\n" % + (time.strftime("%m-%d %H:%M:%S", time.localtime()), ssid)) + if join_method == "Normal" or join_method == "OFF_ON": + if time_cost is not False: + self._succeed_count += 1 + if join_method == "Normal": + f.write("[Succeed][%f]\r\n" % time_cost) + self._longest_time = (time_cost > self._longest_time and + [time_cost] or [self._longest_time])[0] + self._time_cost_count += 1 + self._total_time += time_cost + else: + f.write("[Succeed][%s]\r\n" % join_method) + else: + self._fail_count += 1 + f.write("[Fail][%s]\r\n" % join_method) + pass + + def _logging_fail_step(self, ssid, step): + with open(self._performance_log_file, "ab+") as f: + f.write("\r\n[%s]:\r\n[AP name] %s\r\n" % + (time.strftime("%m-%d %H:%M:%S", time.localtime()), ssid)) + f.write("[Fail][%s]\r\n" % step) + pass + + def _generate_performance_report(self): + with open(self._performance_log_file, "ab+") as f: + f.write("[Test report] Succeed: %d\r\n" % self._succeed_count) + f.write("[Test report] Failed: %d\r\n" % self._fail_count) + if self._succeed_count > 0 or self._fail_count > 0: + f.write("[Test report] Pass Rate: %f\r\n" % + (self._succeed_count/(self._fail_count+self._succeed_count))) + if self._time_cost_count > 0: + f.write("[Test report] Average time: %f\r\n" % (self._total_time/self._time_cost_count)) + f.write("[Test report] Longest time: %f\r\n" % self._longest_time) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # mandatory configurable params + try: + target_ap_num = self.target_ap_num + test_count = self.test_count + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for WifiJAP script, error is %s" % e) + raise StandardError("Error configuration") + + # prepare ap list + _ap_list = [["target", None]] * target_ap_num + for _ap_prop in self.ap_list: + _ap_list.append(["AP", _ap_prop]) + + # set to correct mode first + # self._utility.set_mode([1, 2]) + + for _ap in _ap_list: + # arrange ap + _ap_type = _ap[0] + _ap_prop = _ap[1] + if _ap_type == "target": + _ap_prop = self._generate_random_ap_prop() + + for i in xrange(test_count): + # step 3 : mandatory step, join AP + _join_test_method = "Normal" + time_cost = self._utility.join_ap(_join_test_method, _ap_type, _ap_prop, self.join_delay) + # log performance to performance log file + self._logging_performance(_ap_prop["ssid"], _join_test_method, time_cost) + NativeLog.add_prompt_trace("[Step] Join AP done") + + NativeLog.add_prompt_trace("[WifiJAP] One AP Done") + + # generate report and cleanup + self._generate_performance_report() + + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/IOT/__init__.py b/components/test/TestCaseScript/IOT/__init__.py new file mode 100755 index 000000000..db0afd1fc --- /dev/null +++ b/components/test/TestCaseScript/IOT/__init__.py @@ -0,0 +1 @@ +__author__ = 'Administrator' diff --git a/components/test/TestCaseScript/MeshStress/MeshSendRecv.py b/components/test/TestCaseScript/MeshStress/MeshSendRecv.py new file mode 100755 index 000000000..bad4619a7 --- /dev/null +++ b/components/test/TestCaseScript/MeshStress/MeshSendRecv.py @@ -0,0 +1,525 @@ +from __future__ import division +import time +import threading +import re +import random +import os +import binascii + +from TCAction import PerformanceTCBase +from NativeLog import NativeLog +from NativeLog import HTMLGenerator +from comm import MeshPort +from Utility import Encoding + +# check frequency in second +CHECK_FREQ = 0.05 +# check timeout in seconds +CHECK_TIMEOUT = 30 +# multicast group len +MULTICAST_GROUP_LEN = 2 + + +LOG_PATH = os.path.join("..", "log") + +def _convert_to_mesh_mac_format(value_in): + value_out = "" + match_list = re.findall("([0-9a-fA-F]+)", value_in) + try: + for i in range(6): + value_out += "%02X" % int(match_list[i], base=16) + pass + except StandardError, e: + NativeLog.add_exception_log(e) + raise e + return value_out + +class SendRecvTime(threading.Thread): + def __init__(self): + threading.Thread.__init__(self) + self.setDaemon(True) + self.send_time = dict() + self.recv_time = dict() + self.send_time_lock = threading.Lock() + self.recv_time_lock = threading.Lock() + + def add_send_time(self, key, timestamp): + with self.send_time_lock: + self.send_time[key] = timestamp + + def add_recv_time(self, key, timestamp): + with self.recv_time_lock: + if key in self.recv_time.keys(): + self.recv_time[key].append(timestamp) + else: + self.recv_time[key] = [timestamp] + + def calculate(self): + # add compute delay time code here + print 'send dict len:', len(self.send_time) + print 'recv dict len:', len(self.recv_time) + recv_time_keys = self.recv_time.keys() + Max_delay_time = 0.0 + Total_delay_time = 0.0 + # for i in range(len(recv_time_keys)): + # key = recv_time_keys[i] + for key in recv_time_keys: + Total_delay_time_t = 0.0 + if isinstance(self.recv_time[key], list): + for time1 in self.recv_time[key]: + if time1 - self.send_time[key] >= Max_delay_time: + Max_delay_time = time1 - self.send_time[key] + Total_delay_time_t += (time1 - self.send_time[key]) + else: + pass + else: + if self.recv_time[key] - self.send_time[key] > Max_delay_time: + Max_delay_time = self.recv_time[key] - self.send_time[key] + Total_delay_time_t += (self.recv_time[key] - self.send_time[key]) + Total_delay_time_t += (Total_delay_time_t / len(self.recv_time[key])) + Total_delay_time += Total_delay_time_t + Avg_delay_time = Total_delay_time / len(recv_time_keys) + loss_rate = (len(self.send_time.keys()) - len(self.recv_time.keys())) / len(self.send_time.keys()) + return [Max_delay_time, Avg_delay_time, loss_rate] + pass + +class EntitySendThread(threading.Thread): + def __init__(self, port, behavior, unicast_addr, send_delay, typ, device_mac_list, server_addr, send_recv_time): + threading.Thread.__init__(self) + self.setDaemon(True) + self.recv_data_cache = "" + self.packets_sent = 0 + self.port = port + self.behavior = behavior + self.typ = typ + self.unicast_addr = unicast_addr + self.node_num = len(device_mac_list) + self.device_mac_list = list(device_mac_list) + self.server_addr = server_addr + if typ != "SERVER": + self.device_mac_list.remove(port.device_mac) + self.send_delay = send_delay + self.cache_lock = threading.Lock() + self.exit_event = threading.Event() + self.send_recv_time = send_recv_time + pass + + def data_recv_callback(self, data): + with self.cache_lock: + self.recv_data_cache += data + if self.typ == "SSC": + while True: + if self.recv_data_cache is not None: + match = re.compile(".+\+MSEND1:\d+:OK", re.DOTALL) + res = match.search(self.recv_data_cache) + index = re.search("\+MSEND1:(\d+):OK", self.recv_data_cache) + if index is not None: + time1 = time.time() + index1 = int(index.group(1)) + self.send_recv_time.add_send_time(index1, time1) + #print 'send index:', index1 + process_index = res.group().split("MSEND1") + if len(process_index) > 1: + process_index_t = len(process_index[0]) + len("MSEND1") + self.recv_data_cache = self.recv_data_cache[process_index_t:] + else: + self.recv_data_cache = self.recv_data_cache[len(res.group()):] + else: + break + else: + break + pass + + + def __server_send_packet(self, dst_addr, option_list=None, group_addr=None): + ver = 0x0 + flags = 0x0 + proto = 0x0 + index = random.randint(10000, 999999999) + if group_addr is not None: + len_t = hex(len(group_addr) * 6).split("0x") + if len(group_addr) <= 2: + option_list = "070" + len_t[1] + else: + option_list = "07" + len_t[1] + group = "" + for addr in group_addr: + group += _convert_to_mesh_mac_format(addr) + option_list += group + else: + option_list = None + if self.behavior == "broadcast": + dst_addr = "00:00:00:00:00:00" + elif self.behavior == "unicast": + if self.unicast_addr == "random": + dst_addr = random.choice(self.device_mac_list) + else: + dst_addr = self.unicast_addr + elif self.behavior == "p2p": + proto = 0x2 + if self.unicast_addr == "random": + dst_addr = random.choice(self.device_mac_list) + else: + dst_addr = self.unicast_addr + packet = MeshPort.Packet(ver=ver, flags=flags, proto=proto, + dst_addr=dst_addr, src_addr=self.server_addr, option_list=option_list, data="A" * 100, index=index) + send_data = packet.dumps + try: + self.port.socket.send(send_data) + time2 = time.time() + self.send_recv_time.add_send_time(index, time2) + except StandardError, e: + NativeLog.add_exception_log(e) + return False + + def __server_do_send(self): + if self.behavior == "broadcast": + if self.__server_send_packet(dst_addr="00:00:00:00:00:00", group_addr=None) is True: + self.packets_sent += self.node_num + elif self.behavior == "multicast": + random.shuffle(self.device_mac_list) + group_addr_list = self.device_mac_list[:MULTICAST_GROUP_LEN] + if self.__server_send_packet(dst_addr="01:00:5E:00:00:00", group_addr=group_addr_list) is True: + self.packets_sent += MULTICAST_GROUP_LEN + elif self.behavior == "unicast": + if self.__server_send_packet(dst_addr=random.choice(self.device_mac_list), group_addr=None) is True: + self.packets_sent += 1 + elif self.behavior == "p2p": + if self.__server_send_packet(dst_addr=random.choice(self.device_mac_list), group_addr=None) is True: + self.packets_sent += 1 + else: + NativeLog.add_trace_critical("unsupported behavior [%s]" % self.behavior) + self.exit() + return + + def __node_send_packet(self, dst_addr, group_addr=None): + send_data = "" + ret = False + if group_addr is not None: + len_t = hex(len(group_addr) * 6).split("0x") + if len(group_addr) <= 2: + option_list = "070" + len_t[1] + else: + option_list = "07" + len_t[1] + group = "" + for addr in group_addr: + group += _convert_to_mesh_mac_format(addr) + option_list += group + dst_addr = "01:00:5E:00:00:00" + send_data = "meshsend -S -d %s -o %s -l 100\r\n" % (dst_addr, option_list) + else: + if self.behavior == "broadcast": + dst_addr = "00:00:00:00:00:00" + send_data = "meshsend -S -d %s -l 100\r\n" % dst_addr + elif self.behavior == "unicast": + if self.unicast_addr == "random": + dst_addr = random.choice(self.device_mac_list) + else: + dst_addr = self.unicast_addr + send_data = "meshsend -S -d %s -l 100\r\n" % dst_addr + elif self.behavior == "p2p": + if self.unicast_addr == "random": + dst_addr = random.choice(self.device_mac_list) + else: + dst_addr = self.unicast_addr + send_data = "meshsend -S -d %s -t 1 -l 100\r\n" % dst_addr + try: + self.port.write(send_data) + except StandardError, e: + NativeLog.add_exception_log(e) + pass + for i in range(int(CHECK_TIMEOUT / CHECK_FREQ)): + time.sleep(CHECK_FREQ) + with self.cache_lock: + if self.recv_data_cache.find("+MESHSEND:OK") != -1: + ret = True + break + elif self.recv_data_cache.find("+MESHSEND:ERROR") != -1: + break + return ret + + + def __node_do_send(self): + if self.behavior == "broadcast": + if self.__node_send_packet("00:00:00:00:00:00", group_addr=None) is True: + self.packets_sent += self.node_num + elif self.behavior == "multicast": + random.shuffle(self.device_mac_list) + group_addr_list = self.device_mac_list[:MULTICAST_GROUP_LEN] + if self.__node_send_packet("01:00:5E:00:00:00", group_addr_list) is True: + self.packets_sent += MULTICAST_GROUP_LEN + elif self.behavior == "unicast": + if self.__node_send_packet(random.choice(self.device_mac_list), group_addr=None) is True: + self.packets_sent += 1 + elif self.behavior == "p2p": + if self.__node_send_packet(random.choice(self.device_mac_list), group_addr=None) is True: + self.packets_sent += 1 + else: + NativeLog.add_trace_critical("unsupported behavior [%s]" % self.behavior) + self.exit() + return + + def get_sent_packets(self): + return self.packets_sent + + def exit(self): + self.exit_event.set() + pass + + def run(self): + while self.exit_event.isSet() is False: + if self.typ == "SSC": + self.__node_do_send() + elif self.typ == "SERVER": + self.__server_do_send() + else: + NativeLog.add_trace_critical("type [%s] is neither SSC nor SERVER" % self.typ) + break + time.sleep(self.send_delay) + + pass + + +class EntityRecvThread(threading.Thread): + def __init__(self, port, typ, send_recv_time): + threading.Thread.__init__(self) + self.setDaemon(True) + self.recv_data_cache = "" + self.packets_recv = 0 + self.port = port + self.typ = typ + self.cache_lock = threading.Lock() + self.exit_event = threading.Event() + self.send_recv_time = send_recv_time + pass + + def data_recv_callback(self, data): + # if self.typ == "SERVER": + # NativeLog.add_prompt_trace("[data_recv_callback] server recv len %d" % len(data)) + with self.cache_lock: + self.recv_data_cache += data + pass + + def __server_do_recv(self): + while True: + if self.recv_data_cache: + data_cache = self.recv_data_cache + data_cache_hex = binascii.hexlify(data_cache) + packet_len = int(data_cache_hex[2:6], 16) + if len(self.recv_data_cache) >= packet_len: + time3 = time.time() + data_catch_t = self.recv_data_cache[:packet_len] + packet = binascii.hexlify(data_catch_t) + index3 = int(packet[-8:], 16) + self.send_recv_time.add_recv_time(index3, time3) + self.recv_data_cache = self.recv_data_cache[packet_len:] + else: + break + #self.packets_recv += 1 + else: + break + + def __node_do_recv(self): + with self.cache_lock: + while True: + if self.recv_data_cache: + match = re.search("\+MESHRECV:\d+", self.recv_data_cache) + index = re.search(",(\d+),OK", self.recv_data_cache) + res = re.compile(".+,\d+,OK", re.DOTALL) + res_t = res.search(self.recv_data_cache) + if match is not None: + time4 = time.time() + if index is not None: + index4 = int(index.group(1)) + self.send_recv_time.add_recv_time(index4, time4) + if len(res_t.group()) > 1: + process_index = len(res_t.group(0)) + self.recv_data_cache = self.recv_data_cache[process_index:] + else: + process_index = len(res_t.group()) + self.recv_data_cache = self.recv_data_cache[process_index:] + else: + break + else: + break + # self.packets_recv += 1 + else: + break + pass + + def get_recv_packets(self): + return self.packets_recv + + def exit(self): + self.exit_event.set() + pass + + def run(self): + while self.exit_event.isSet() is False: + if self.typ == "SSC": + self.__node_do_recv() + elif self.typ == "SERVER": + self.__server_do_recv() + else: + NativeLog.add_trace_critical("type [%s] is neither SSC nor SERVER" % self.typ) + break + time.sleep(CHECK_FREQ) + + pass + + +class MeshSendRecv(PerformanceTCBase.PerformanceTCBase): + def __init__(self, name, test_env, cmd_set, timeout, log_path): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.send_config = [] + self.test_time = 0 + self.loss_rate_standard = 0.8 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # load node send config + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.send_config.extend([" + cmd_set[i][1][j] + "])" + exec cmd_string + node_num = self.get_parameter("node_num") + self.recv_cb = dict.fromkeys(["SSC%s" % (x + 1) for x in range(int(node_num))] + ["GSOC1"]) + self.recv_cb_lock = threading.Lock() + pass + + def register_recv_callback(self, port_name, callback): + with self.recv_cb_lock: + if self.recv_cb[port_name] is None: + self.recv_cb[port_name] = [callback] + else: + self.recv_cb[port_name].append(callback) + pass + + def process(self): + try: + test_time = self.test_time * 60 + send_config = self.send_config + loss_rate_standard = self.loss_rate_standard + node_num = self.get_parameter("node_num") + pc_ip_list = self.get_parameter("pc_ip").split(".") + port = self.get_parameter("test_tcp_port1") + send_recv_time = SendRecvTime() + except StandardError: + return + #create server_addr + server_addr = "" + for i in range(len(pc_ip_list)): + if pc_ip_list[i] in ["0", "1", "2", "3", "4", "5", "6", "7", "8", "9"]: + server_addr = server_addr + "0" + pc_ip_list[i] + else: + list_t = hex(int(pc_ip_list[i])).split("0x") + server_addr += list_t[1] + port_t = hex(port).split("0x") + port_t_list = list(port_t[1]) + server_addr = server_addr + port_t_list[2] + port_t_list[3] + port_t_list[0] + port_t_list[1] + server_port = self.test_env.get_port_by_name("GSOC1") + if server_port is None: + return + + # create thread dict + thread_dict = dict.fromkeys(["SSC%s" % (x + 1) for x in range(int(node_num))] + ["GSOC1"]) + for port_name in thread_dict: + thread_dict[port_name] = dict(zip(["tx", "rx"], [None, None])) + device_mac_list = [] + # init recv thread & register port for SSC + for port_name in ["SSC%s" % (x + 1) for x in range(int(node_num))]: + port = self.test_env.get_port_by_name(port_name) + thread_dict[port_name]["rx"] = EntityRecvThread(port, "SSC", send_recv_time) + self.register_recv_callback(port_name, thread_dict[port_name]["rx"].data_recv_callback) + device_mac_list.append(port.device_mac) + + thread_dict["GSOC1"]["rx"] = EntityRecvThread(server_port, "SERVER", send_recv_time) + self.register_recv_callback("GSOC1", thread_dict["GSOC1"]["rx"].data_recv_callback) + + # config[0]: target_name; config[1]: behavior; config[2]: destination; config[3]:send_delay; + for config in send_config: + port = self.test_env.get_port_by_name(config[0]) + name = port.name + if config[2] == "GSOC1": + dst = server_addr[:2] + ":" + server_addr[2:4] + ":" + server_addr[4:6] + ":" + server_addr[6:8] + \ + ":" + server_addr[8:10] + ":" + server_addr[10:12] + elif config[2] == "random": + dst = "random" + else: + dst = self.test_env.get_port_by_name(config[2]).device_mac + if name != "GSOC1": + server_addr = None + if config[1] == "broadcast" or config[1] == "multicast": + dst = None + typ = "SSC" if isinstance(port, MeshPort.MeshPort) is False else "SERVER" + thread_dict[name]["tx"] = EntitySendThread(port, config[1], dst, config[3], typ, device_mac_list, + server_addr, send_recv_time) + self.register_recv_callback(name, thread_dict[name]["tx"].data_recv_callback) + pass + + # start all thread + for port_name in thread_dict: + if thread_dict[port_name]["rx"] is not None: + thread_dict[port_name]["rx"].start() + if thread_dict[port_name]["tx"] is not None: + thread_dict[port_name]["tx"].start() + + # wait test time + time.sleep(test_time) + # close all send thread + for port_name in thread_dict: + if thread_dict[port_name]["tx"] is not None: + thread_dict[port_name]["tx"].exit() + thread_dict[port_name]["tx"].join() + # make sure all packet received before close recv thread + time.sleep(10) + # close all recv thread + for port_name in thread_dict: + if thread_dict[port_name]["rx"] is not None: + thread_dict[port_name]["rx"].exit() + thread_dict[port_name]["rx"].join() + + [max_delay_time, avg_delay_time, loss_rate] = send_recv_time.calculate() + + NativeLog.add_trace_critical("[Mesh Send Recv Test] MAX Delay Time is %.3f" % max_delay_time) + NativeLog.add_trace_critical("[Mesh Send Recv Test] Avg Delay Time is %.3f" % avg_delay_time) + NativeLog.add_trace_critical("[Mesh Send Recv Test] loss rate is %.2f%%" % (loss_rate * 100)) + + # set succeed if loss rate higher than required + if loss_rate < loss_rate_standard: + self.set_result("Succeed") + pass + + @Encoding.encode_utf8(3) + def result_check(self, port_name, data): + if port_name in self.recv_cb: + # if port_name == "GSOC1": + # NativeLog.add_prompt_trace("[result_check] recv GSOC1 data len %s" % len(data)) + with self.recv_cb_lock: + callback_list = self.recv_cb[port_name] + if callback_list is not None: + for callback in callback_list: + callback(data) + + # do logging + timestamp = NativeLog.generate_timestamp() + with self.sync_lock: + _formatted_data = HTMLGenerator.process_one_log_item(data, self.log_index, port_name, timestamp) + self.log_index += 1 + + self.append_to_log_file(_formatted_data) + + NativeLog.add_all_tc_log(data, port_name, timestamp) + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/MeshStress/__init__.py b/components/test/TestCaseScript/MeshStress/__init__.py new file mode 100755 index 000000000..6e94287c4 --- /dev/null +++ b/components/test/TestCaseScript/MeshStress/__init__.py @@ -0,0 +1 @@ +__all__ = ["StableCase1"] \ No newline at end of file diff --git a/components/test/TestCaseScript/SSLTest/Capability.py b/components/test/TestCaseScript/SSLTest/Capability.py new file mode 100755 index 000000000..efdb6eeb9 --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/Capability.py @@ -0,0 +1,90 @@ + + +class SSLCapability(object): + CAPABILITY_TYPE = ["version", "cipher_suite", "fragment_size", # for hello capability negotiation + "verify_server", "verify_client", # if support verify server/client + "key_algorithm", "key_encoding", "pem_encryption", # what kind of private it supports + "certificate_encoding", "certificate_digest", # what kind of certificate it supports + ] + SSL_TYPE = ("TargetClient", "TargetServer", "PCClient", "PCServer") + + def __init__(self, typ, **kwargs): + assert typ in self.SSL_TYPE + self.type = typ + self.capability = dict.fromkeys(self.CAPABILITY_TYPE, None) + for kw in kwargs: + self.capability[kw] = kwargs[kw] + for kw in self.capability: + assert self.capability[kw] is not None + pass + + def get(self, kw): + return self.capability[kw] + + def set(self, **kwargs): + for kw in kwargs: + self.capability[kw] = kwargs[kw] + pass + + +class TargetSSLCapability(SSLCapability): + DEFAULT_CAPABILITY = { + "version": ["SSLv23_2"], + "cipher_suite": ["TLS_RSA_WITH_AES_128_CBC_SHA", + "TLS_RSA_WITH_AES_256_CBC_SHA", + "TLS_RSA_WITH_RC4_128_SHA", + "TLS_RSA_WITH_RC4_128_MD5"], + "fragment_size": [2048, 4096, 8192], + "verify_server": True, + "verify_client": False, + "key_algorithm": ["RSA512", "RSA1024", "RSA2048", "RSA4096"], + "key_encoding": ["PEM", "DER"], + "pem_encryption": [None, "aes128", "aes256"], + "certificate_encoding": ["PEM", "DER"], + "certificate_digest": ["md5", "sha1", "sha256", "sha384", "sha512"], + } + + def __init__(self, typ, **kwargs): + assert typ == "TargetClient" or typ == "TargetServer" + capability = dict(self.DEFAULT_CAPABILITY) + for kw in kwargs: + capability[kw] = kwargs[kw] + SSLCapability.__init__(self, typ, **capability) + pass + pass + + +class PCSSLCapability(SSLCapability): + DEFAULT_CAPABILITY = { + "version": ["SSLv23", "SSLv20", "SSLv30", "TLSv10", "TLSv11", "TLSv12"], + "cipher_suite": ["TLS_RSA_WITH_AES_128_CBC_SHA", + "TLS_RSA_WITH_AES_256_CBC_SHA", + "TLS_RSA_WITH_RC4_128_SHA", + "TLS_RSA_WITH_RC4_128_MD5", + "TLS_DH_DSS_WITH_AES_128_CBC_SHA", + "TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256"], + "fragment_size": [16384], + "verify_server": True, + "verify_client": True, + "key_algorithm": ["RSA512", "RSA1024", "RSA2048", "RSA4096"], + "key_encoding": ["PEM"], + "pem_encryption": [None], + "certificate_encoding": ["PEM"], + "certificate_digest": ["md5", "sha1", "sha256", "sha384", "sha512"], + } + + def __init__(self, typ): + assert typ == "PCClient" or typ == "PCServer" + SSLCapability.__init__(self, typ, **self.DEFAULT_CAPABILITY) + pass + pass + + +def main(): + pc = PCSSLCapability("PCClient") + target = TargetSSLCapability("TargetClient") + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/ConfigUtility.py b/components/test/TestCaseScript/SSLTest/ConfigUtility.py new file mode 100755 index 000000000..f36fe44fe --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/ConfigUtility.py @@ -0,0 +1,333 @@ +from PKI import PKIDict, PKIItem +import Parameter + + +def multiply_2_lists(list1, list2): + def make_list(li): + if not isinstance(li, list): + li = [li] + return li + list1 = make_list(list1) + list2 = make_list(list2) + ret = [] + for a in list1: + for b in list2: + ret.append(make_list(a) + make_list(b)) + return ret + + +def list_multiply(list1, *args): + ret = list1 + for arg in args: + ret = multiply_2_lists(ret, arg) + return ret + + +def list_and(list1, list2): + ret = [] + for item in list1: + if item in list2: + ret.append(item) + return ret + + +class ComputeResult(object): + NEGOTIATION_CONFIG = ["client_version", "client_cipher_suite", "client_fragment_size", + "server_version", "server_cipher_suite", "server_fragment_size"] + CERT_KEY_CONFIG = ["verify_server", "verify_client", + "client_trust_anchor", "client_certificate", "client_key", + "server_trust_anchor", "server_certificate", "server_key"] + + TYPE_CONTEXT = "context" + TYPE_NEGOTIATION = "negotiation" + TYPE_CERT_KEY = "cert_key" + TYPE_SEND_PARAM = "send_param" + + # results + SUCCEED = 0 + CREATE_CONTEXT_FAIL = 1 + HANDSHAKE_FAIL = 2 + CERT_KEY_FAIL = 3 + + def __init__(self, client_capability, server_capability): + self.client_capability = client_capability + self.server_capability = server_capability + pass + + @staticmethod + def __check_cert(cert, capability, check_encoding=True): + ret = True + if cert.name is not None: + if check_encoding is True: + if cert.digest not in capability.get("certificate_digest") \ + or cert.key_algorithm not in capability.get("key_algorithm") \ + or cert.file_encoding not in capability.get("certificate_encoding"): + ret = False + else: + if cert.digest not in capability.get("certificate_digest") \ + or cert.key_algorithm not in capability.get("key_algorithm"): + ret = False + return ret + + @staticmethod + def __check_key(key, capability, check_encoding=True): + ret = True + if key.name is not None: + if check_encoding is True: + if key.algorithm not in capability.get("key_algorithm") \ + or key.file_encoding not in capability.get("key_encoding") \ + or key.file_encryption not in capability.get("pem_encryption"): + ret = False + else: + if key.algorithm not in capability.get("key_algorithm") \ + or key.file_encryption not in capability.get("pem_encryption"): + ret = False + return ret + + # compute result functions + def check_context(self, config): + result = self.SUCCEED + check_list = [(self.__check_cert, PKIItem.Certificate(config["client_trust_anchor"]), + self.client_capability), + (self.__check_cert, PKIItem.Certificate(config["client_certificate"]), + self.client_capability), + (self.__check_key, PKIItem.PrivateKey(config["client_key"]), + self.client_capability), + (self.__check_cert, PKIItem.Certificate(config["server_trust_anchor"]), + self.server_capability), + (self.__check_cert, PKIItem.Certificate(config["server_certificate"]), + self.server_capability), + (self.__check_key, PKIItem.PrivateKey(config["server_key"]), + self.server_capability)] + for _check in check_list: + if _check[0](_check[1], _check[2]) is False: + result = self.CREATE_CONTEXT_FAIL + break + return result + + def check_negotiation_param(self, config): + result = self.SUCCEED + # first check version + while True: + if Parameter.VERSION[config["client_version"]]\ + & Parameter.VERSION[config["server_version"]] == 0: + result = self.HANDSHAKE_FAIL + break + # check cipher suite + supported_cipher_suite = list_and(self.client_capability.get("cipher_suite"), + self.server_capability.get("cipher_suite")) + if config["client_cipher_suite"] not in supported_cipher_suite\ + or config["server_cipher_suite"] not in supported_cipher_suite\ + or config["client_cipher_suite"] != config["server_cipher_suite"]: + result = self.HANDSHAKE_FAIL + break + break + return result + + # check cert key, if it can be supported by both client and server, if it matches + def __check_cert_key_content(self, cert, key): + if self.__check_cert(cert, self.client_capability, check_encoding=False) is True\ + and self.__check_cert(cert, self.server_capability, check_encoding=False) is True \ + and self.__check_key(key, self.client_capability, check_encoding=False) is True \ + and self.__check_key(key, self.server_capability, check_encoding=False) is True \ + and key.name.find(cert.private_key) != -1: + result = True + else: + result = False + return result + + def __verify_ca(self, ca, cert, capability): + result = True + while True: + # if ca supported + if self.__check_cert(ca, capability) is False: + result = False + break + # check if ca in cert chain + try: + index = cert.cert_chain.index(ca.name) + except StandardError: + result = False + break + + # for pem cert, it contains cert chain to issuer, any cert in chain works + # der cert do not contain cert chain + # only der root cert verify L1 cert and root cert works + if cert.file_encoding == "DER": + if len(cert.cert_chain) > 2 and index != len(cert.cert_chain) - 1: + result = False + break + # check if all certs in before trust anchor supported + for cert_name in cert.cert_chain[1:index]: + _cert = PKIItem.Certificate(cert_name + ".pem") + if self.__check_cert(_cert, capability) is False: + result = False + break + break + return result + + def __check_verify_client(self, client_cert, client_key, server_ca): + result = self.__check_cert_key_content(client_cert, client_key) + if result is True: + result = self.__verify_ca(server_ca, client_cert, self.server_capability) + return result + + def __check_verify_server(self, client_ca, server_cert): + return self.__verify_ca(client_ca, server_cert, self.client_capability) + + def check_cert_key(self, config): + result = self.SUCCEED + while True: # break if when anything failed + if (config["verify_server"] is True and self.client_capability.get("verify_server") is False) \ + or (config["verify_client"] is True and + (self.server_capability.get("verify_client") is False or + self.client_capability.get("verify_client") is False)): + result = self.CERT_KEY_FAIL + break + + server_cert = PKIItem.Certificate(config["server_certificate"]) + server_key = PKIItem.PrivateKey(config["server_key"]) + server_ca = PKIItem.Certificate(config["server_trust_anchor"]) + client_cert = PKIItem.Certificate(config["client_certificate"]) + client_key = PKIItem.PrivateKey(config["client_key"]) + client_ca = PKIItem.Certificate(config["client_trust_anchor"]) + # always check server cert key + if self.__check_cert_key_content(server_cert, server_key) is False: + result = self.CERT_KEY_FAIL + break + # if require to verify server + if config["verify_server"] is True: + if self.__check_verify_server(client_ca, server_cert) is False: + result = self.CERT_KEY_FAIL + break + # if require to verify client + if config["verify_client"] is True: + if self.__check_verify_client(client_cert, client_key, server_ca) is False: + result = self.CERT_KEY_FAIL + break + break + return result + + CHECK_FUNC = { + TYPE_CONTEXT: check_context, + TYPE_NEGOTIATION: check_negotiation_param, + TYPE_CERT_KEY: check_cert_key, + } + CONFIG_KEY = { + TYPE_CONTEXT: CERT_KEY_CONFIG, + TYPE_NEGOTIATION: NEGOTIATION_CONFIG, + TYPE_CERT_KEY: CERT_KEY_CONFIG, + } + + def compute_result(self, typ, config_list): + succeed_list = [] + fail_list = [] + for config in config_list: + if self.CHECK_FUNC[typ](self, dict(zip(self.CONFIG_KEY[typ], config))) != self.SUCCEED: + fail_list.append(config) + else: + succeed_list.append(config) + return succeed_list, fail_list + pass + + +class GenerateTestConfig(ComputeResult): + TEST_CONFIG = ComputeResult.NEGOTIATION_CONFIG + \ + ComputeResult.CERT_KEY_CONFIG + + def __init__(self, client_capability, server_capability): + ComputeResult.__init__(self, client_capability, server_capability) + self.key_dict = PKIDict.PKIDict.KEY_DICT + self.cert_dict = PKIDict.PKIDict.CERT_DICT + pass + + def generate_negotiation_config(self): + _config = list_multiply(self.client_capability.get("version"), + self.client_capability.get("cipher_suite"), + self.client_capability.get("fragment_size"), + self.server_capability.get("version"), + self.server_capability.get("cipher_suite"), + self.server_capability.get("fragment_size")) + return self.compute_result(self.TYPE_NEGOTIATION, _config) + + def __choose_cert_key(self, verify_server, verify_client, + client_ca_opt, client_cert_key_opt, + server_ca_opt, server_cert_key_opt): + pass + + # CERT_KEY_CONFIG = ["verify_server", "verify_client", + # "client_trust_anchor", "client_certificate", "client_key", + # "server_trust_anchor", "server_certificate", "server_key"] + def generate_cert_key_config(self): + # first handle not verify certificate case + _config_list = [] + for cert in PKIDict.PKIDict.CERT_DICT: + for key in PKIDict.PKIDict.KEY_DICT: + _config_list.append([False, False, None, None, None, None, cert, key]) + cert_key_succeed, context_fail = self.compute_result(self.TYPE_CONTEXT, _config_list) + cert_key_succeed, cert_key_fail = self.compute_result(self.TYPE_CERT_KEY, cert_key_succeed) + key_cert_pair = [[x[6], x[7]] for x in cert_key_succeed] + # for succeed config, do server cert verify + _config_list = [] + for _config in cert_key_succeed: + for cert in PKIDict.PKIDict.CERT_DICT: + _config_list.append([True, False, cert, None, None, + None, _config[6], _config[7]]) + _cert_key_succeed, _context_fail = self.compute_result(self.TYPE_CONTEXT, _config_list) + context_fail += _context_fail + _cert_key_succeed, _cert_key_fail = self.compute_result(self.TYPE_CERT_KEY, _cert_key_succeed) + cert_key_fail += _cert_key_fail + cert_key_succeed += _cert_key_succeed + # for succeed config, do client verify + _config_list = [] + for _config in _cert_key_succeed: + for key_cert in key_cert_pair: + _config_list.append([True, True, _config[2], key_cert[0], key_cert[1], + key_cert[0], _config[6], _config[7]]) + _cert_key_succeed, _context_fail = self.compute_result(self.TYPE_CONTEXT, _config_list) + context_fail += _context_fail + _cert_key_succeed, _cert_key_fail = self.compute_result(self.TYPE_CERT_KEY, _cert_key_succeed) + cert_key_fail += _cert_key_fail + cert_key_succeed += _cert_key_succeed + # only verify client not verify server + _config_list = [] + for _config in _cert_key_succeed: + _config_list.append([False, True, None, + _config[3], _config[4], _config[5], _config[6], _config[7]]) + _cert_key_succeed, _context_fail = self.compute_result(self.TYPE_CONTEXT, _config_list) + context_fail += _context_fail + _cert_key_succeed, _cert_key_fail = self.compute_result(self.TYPE_CERT_KEY, _cert_key_succeed) + cert_key_fail += _cert_key_fail + cert_key_succeed += _cert_key_succeed + return cert_key_succeed, context_fail, cert_key_fail + + +class ConfigUtility(GenerateTestConfig): + # test config + _TEST_CONFIG_DICT_KEY = ("config", "result") + + def __init__(self, client_capability, server_capability): + GenerateTestConfig.__init__(self, client_capability, server_capability) + pass + + def get_all_test_config(self): + negotiation_succeed, negotiation_fail = self.generate_negotiation_config() + cert_key_succeed, context_fail, cert_key_fail = self.generate_cert_key_config() + succeed_config = list_multiply(negotiation_succeed, cert_key_succeed) + context_fail_config = list_multiply([negotiation_succeed[0]], context_fail) + negotiation_fail_config = list_multiply(negotiation_fail, [cert_key_succeed[0]]) + cert_key_fail_config = list_multiply([negotiation_succeed[0]], cert_key_fail) + return dict(zip(["succeed", "context_fail", "negotiation_fail", "cert_key_fail"], + [[dict(zip(self.TEST_CONFIG, x)) for x in succeed_config], + [dict(zip(self.TEST_CONFIG, x)) for x in context_fail_config], + [dict(zip(self.TEST_CONFIG, x)) for x in negotiation_fail_config], + [dict(zip(self.TEST_CONFIG, x)) for x in cert_key_fail_config]])) + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/Parameter.py b/components/test/TestCaseScript/SSLTest/Parameter.py new file mode 100755 index 000000000..1670c5fd2 --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/Parameter.py @@ -0,0 +1,56 @@ + + +VERSION = { + "SSLv23": 0x1F, + "SSLv23_2": 0x1C, # current target ssl implementation do not support SSLv20 and TLSv12 + "SSLv20": 0x01, + "SSLv30": 0x02, + "TLSv10": 0x04, + "TLSv11": 0x08, + "TLSv12": 0x10, +} + + +CIPHER_SUITE = { + # supported algorithm + "TLS_RSA_WITH_AES_128_CBC_SHA": "AES128-SHA", + "TLS_RSA_WITH_AES_256_CBC_SHA": "AES256-SHA", + "TLS_RSA_WITH_RC4_128_SHA": "RC4-SHA", + "TLS_RSA_WITH_RC4_128_MD5": "RC4-MD5", + "TLS_DH_DSS_WITH_AES_128_CBC_SHA": "DH-DSS-AES128-SHA", + "TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256": "ECDHE-RSA-AES128-GCM-SHA256", +} + + +FRAGMENT_SIZE = { + "SIZE_DEFAULT": 0, + "SIZE_512": 512, + "SIZE_1024": 1024, + "SIZE_2048": 2048, + "SIZE_4096": 4096, + "SIZE_8192": 8192, +} + + +VERIFY_OPTION = { + "NOT_VERIFY": "NOT_VERIFY", + "VERIFY": "VERIFY", +} + + +SEND_OPTION = { + "MAX_SEND_SIZE_512": 512, + "MAX_SEND_SIZE_1K": 1024, + "MAX_SEND_SIZE_2K": 2048, + "MAX_SEND_SIZE_4K": 4096, + "MAX_SEND_SIZE_8K": 8192, + "MAX_SEND_SIZE_16K": 16384, +} + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/SSLHandler.py b/components/test/TestCaseScript/SSLTest/SSLHandler.py new file mode 100644 index 000000000..7fe19b3ce --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/SSLHandler.py @@ -0,0 +1,498 @@ +import socket +import ssl +import os +import re +import time +import threading + +import Parameter +from PKI import PKIDict +from PKI import PKIItem +from NativeLog import NativeLog + + +class SerialPortCheckFail(StandardError): + pass + + +class SSLHandlerFail(StandardError): + pass + + +class PCFail(StandardError): + pass + + +class TargetFail(StandardError): + pass + + +def ssl_handler_wrapper(handler_type): + if handler_type == "PC": + exception_type = PCFail + elif handler_type == "Target": + exception_type = TargetFail + else: + exception_type = None + + def _handle_func(func): + def _handle_args(*args, **kwargs): + try: + ret = func(*args, **kwargs) + except StandardError, e: + NativeLog.add_exception_log(e) + raise exception_type(str(e)) + return ret + return _handle_args + return _handle_func + + +class SerialPort(object): + def __init__(self, tc_action, port_name): + self.tc_action = tc_action + self.port_name = port_name + + def flush(self): + self.tc_action.flush_data(self.port_name) + + def write_line(self, data): + self.tc_action.serial_write_line(self.port_name, data) + + def check(self, condition, timeout=10): + if self.tc_action.check_response(self.port_name, condition, timeout) is False: + raise SerialPortCheckFail("serial port check fail, condition is %s" % condition) + + def read_data(self): + return self.tc_action.serial_read_data(self.port_name) + pass + + +class SSLHandler(object): + # ssl operation timeout is 30 seconds + TIMEOUT = 30 + + def __init__(self, typ, config, serial_port): + self.type = typ + self.config = config + self.timeout = self.TIMEOUT + self.serial_port = serial_port + self.accept_thread = None + self.data_validation = False + + def set_timeout(self, timeout): + self.timeout = timeout + + def init_context(self): + pass + + def connect(self, remote_ip, remote_port, local_ip=0, local_port=0): + pass + + def listen(self, local_port=0, local_ip=0): + pass + + def send(self, size, data): + pass + + def recv(self, length, timeout): + pass + + def set_data_validation(self, validation): + pass + + def close(self): + if self.accept_thread is not None: + self.accept_thread.exit() + self.accept_thread.join(5) + pass + + +class TargetSSLHandler(SSLHandler): + def __init__(self, typ, config, serial_port): + SSLHandler.__init__(self, typ, config, serial_port) + self.ssl_id = None + self.server_id = None + + @ssl_handler_wrapper("Target") + def init_context(self): + self.serial_port.flush() + self.serial_port.write_line("soc -T") + self.serial_port.check("+CLOSEALL") + + if self.type == "client": + version = Parameter.VERSION[self.config["client_version"]] + fragment = self.config["client_fragment_size"] + ca = self.config["client_trust_anchor"] + cert = self.config["client_certificate"] + key = self.config["client_key"] + verify_required = 0x01 if self.config["verify_server"] is True else 0x00 + context_type = 1 + else: + version = Parameter.VERSION[self.config["server_version"]] + fragment = self.config["server_fragment_size"] + ca = self.config["server_trust_anchor"] + cert = self.config["server_certificate"] + key = self.config["server_key"] + verify_required = 0x02 if self.config["verify_client"] is True else 0x00 + context_type = 2 + ssc_cmd = "ssl -I -t %u -r %u -v %u -o %u" % (context_type, fragment, version, verify_required) + + if ca is not None: + _index = PKIDict.PKIDict.CERT_DICT[ca] + ssc_cmd += " -a %d" % _index + if cert is not None: + _index = PKIDict.PKIDict.CERT_DICT[cert] + ssc_cmd += " -c %d" % _index + if key is not None: + _index = PKIDict.PKIDict.KEY_DICT[key] + ssc_cmd += " -k %d" % _index + # write command and check result + self.serial_port.flush() + self.serial_port.write_line(ssc_cmd) + self.serial_port.check(["+SSL:OK", "AND", "!+SSL:ERROR"]) + + @ssl_handler_wrapper("Target") + def connect(self, remote_ip, remote_port, local_ip=0, local_port=0): + self.serial_port.flush() + self.serial_port.write_line("soc -B -t SSL -i %s -p %s" % (local_ip, local_port)) + self.serial_port.check(["OK", "AND", "!ERROR"]) + self.serial_port.flush() + self.serial_port.write_line("soc -C -s 0 -i %s -p %s" % (remote_ip, remote_port)) + self.serial_port.check(["OK", "AND", "!ERROR"], timeout=30) + self.ssl_id = 0 + pass + + def accept_succeed(self): + self.ssl_id = 1 + + class Accept(threading.Thread): + def __init__(self, serial_port, succeed_cb): + threading.Thread.__init__(self) + self.setDaemon(True) + self.serial_port = serial_port + self.succeed_cb = succeed_cb + self.exit_flag = threading.Event() + + def run(self): + while self.exit_flag.isSet() is False: + try: + self.serial_port.check("+ACCEPT:", timeout=1) + self.succeed_cb() + break + except StandardError: + pass + + def exit(self): + self.exit_flag.set() + + @ssl_handler_wrapper("Target") + def listen(self, local_port=0, local_ip=0): + self.serial_port.flush() + self.serial_port.write_line("soc -B -t SSL -i %s -p %s" % (local_ip, local_port)) + self.serial_port.check(["OK", "AND", "!ERROR"]) + self.serial_port.flush() + self.serial_port.write_line("soc -L -s 0") + self.serial_port.check(["OK", "AND", "!ERROR"]) + self.server_id = 0 + self.accept_thread = self.Accept(self.serial_port, self.accept_succeed) + self.accept_thread.start() + pass + + @ssl_handler_wrapper("Target") + def send(self, size=10, data=None): + if data is not None: + size = len(data) + self.serial_port.flush() + self.serial_port.write_line("soc -S -s %s -l %s" % (self.ssl_id, size)) + self.serial_port.check(["OK", "AND", "!ERROR"]) + pass + + @ssl_handler_wrapper("Target") + def recv(self, length, timeout=SSLHandler.TIMEOUT): + pattern = re.compile("\+RECV:\d+,(\d+)\r\n") + data_len = 0 + data = "" + time1 = time.time() + while time.time() - time1 < timeout: + data += self.serial_port.read_data() + if self.data_validation is True: + if "+DATA_ERROR" in data: + raise SSLHandlerFail("target data validation fail") + while True: + match = pattern.search(data) + if match is None: + break + else: + data_len += int(match.group(1)) + data = data[data.find(match.group())+len(match.group()):] + if data_len >= length: + result = True + break + else: + result = False + if result is False: + raise SSLHandlerFail("Target recv fail") + + def set_data_validation(self, validation): + self.data_validation = validation + self.serial_port.flush() + self.serial_port.write_line("soc -V -s %s -o %s" % (self.ssl_id, 1 if validation is True else 0)) + self.serial_port.check(["OK", "AND", "!ERROR"]) + + @ssl_handler_wrapper("Target") + def close(self): + SSLHandler.close(self) + self.serial_port.flush() + self.serial_port.write_line("ssl -D") + self.serial_port.check(["+SSL:OK", "OR", "+SSL:ERROR"]) + self.serial_port.write_line("soc -T") + self.serial_port.check("+CLOSEALL") + pass + + pass + + +def calc_hash(index): + return (index & 0xffffffff) % 83 + (index & 0xffffffff) % 167 + + +def verify_data(data, start_index): + for i, c in enumerate(data): + if ord(c) != calc_hash(start_index + i): + NativeLog.add_trace_critical("[Data Validation Error] target sent data index %u is error." + " Sent data is %x, should be %x" + % (start_index + i, ord(c), calc_hash(start_index + i))) + return False + return True + + +def make_validation_data(length, start_index): + return bytes().join([chr(calc_hash(start_index + i)) for i in range(length)]) + + +class PCSSLHandler(SSLHandler): + PROTOCOL_MAPPING = { + "SSLv23": ssl.PROTOCOL_SSLv23, + "SSLv23_2": ssl.PROTOCOL_SSLv23, + "SSLv20": ssl.PROTOCOL_SSLv2, + "SSLv30": ssl.PROTOCOL_SSLv3, + "TLSv10": ssl.PROTOCOL_TLSv1, + "TLSv11": ssl.PROTOCOL_TLSv1_1, + "TLSv12": ssl.PROTOCOL_TLSv1_2, + } + CERT_FOLDER = os.path.join(".", "PKI", PKIDict.PKIDict.CERT_FOLDER) + KEY_FOLDER = os.path.join(".", "PKI", PKIDict.PKIDict.KEY_FOLDER) + + def __init__(self, typ, config, serial_port): + SSLHandler.__init__(self, typ, config, serial_port) + self.ssl_context = None + self.ssl = None + self.server_sock = None + self.send_index = 0 + self.recv_index = 0 + + class InitContextThread(threading.Thread): + def __init__(self, handler, version, cipher_suite, ca, cert, key, verify_required, remote_cert): + threading.Thread.__init__(self) + self.setDaemon(True) + self.handler = handler + self.version = version + self.cipher_suite = cipher_suite + self.ca = ca + self.cert = cert + self.key = key + self.verify_required = verify_required + self.remote_cert = remote_cert + pass + + @staticmethod + def handle_cert(cert_file, ca_file): + cert = PKIItem.Certificate() + cert.parse_file(cert_file) + ca = PKIItem.Certificate() + ca.parse_file(ca_file) + if cert.file_encoding == "PEM" and ca.name in cert.cert_chain: + cert_chain_t = cert.cert_chain[1:cert.cert_chain.index(ca.name)] + ret = ["%s.pem" % c for c in cert_chain_t] + else: + ret = [] + return ret + + def run(self): + try: + ssl_context = ssl.SSLContext(self.version) + # cipher suite + ssl_context.set_ciphers(self.cipher_suite) + if self.ca is not None: + ssl_context.load_verify_locations(cafile=os.path.join(self.handler.CERT_FOLDER, self.ca)) + # python ssl can't verify cert chain, don't know why + # need to load cert between cert and ca for pem (pem cert contains cert chain) + if self.remote_cert is not None: + cert_chain = self.handle_cert(self.remote_cert, self.ca) + for c in cert_chain: + NativeLog.add_trace_info("load ca chain %s" % c) + ssl_context.load_verify_locations(cafile=os.path.join(self.handler.CERT_FOLDER, c)) + if self.cert is not None: + cert = os.path.join(self.handler.CERT_FOLDER, self.cert) + key = os.path.join(self.handler.KEY_FOLDER, self.key) + ssl_context.load_cert_chain(cert, keyfile=key) + if self.verify_required is True: + ssl_context.verify_mode = ssl.CERT_REQUIRED + else: + ssl_context.verify_mode = ssl.CERT_NONE + self.handler.ssl_context = ssl_context + except StandardError, e: + NativeLog.add_exception_log(e) + pass + pass + + @ssl_handler_wrapper("PC") + def init_context(self): + if self.type == "client": + version = self.PROTOCOL_MAPPING[self.config["client_version"]] + cipher_suite = Parameter.CIPHER_SUITE[self.config["client_cipher_suite"]] + ca = self.config["client_trust_anchor"] + cert = self.config["client_certificate"] + key = self.config["client_key"] + verify_required = self.config["verify_server"] + remote_cert = self.config["server_certificate"] + else: + version = self.PROTOCOL_MAPPING[self.config["server_version"]] + cipher_suite = Parameter.CIPHER_SUITE[self.config["server_cipher_suite"]] + ca = self.config["server_trust_anchor"] + cert = self.config["server_certificate"] + key = self.config["server_key"] + verify_required = self.config["verify_client"] + remote_cert = self.config["client_certificate"] + + _init_context = self.InitContextThread(self, version, cipher_suite, ca, cert, key, verify_required, remote_cert) + _init_context.start() + _init_context.join(5) + if self.ssl_context is None: + raise StandardError("Init Context Fail") + + pass + + @ssl_handler_wrapper("PC") + def connect(self, remote_ip, remote_port, local_ip=0, local_port=0): + sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + # reuse socket in TIME_WAIT state + sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) + sock.settimeout(self.timeout) + sock.bind((local_ip, local_port)) + self.ssl = self.ssl_context.wrap_socket(sock) + self.ssl.connect((remote_ip, remote_port)) + pass + + def accept_succeed(self, ssl_new): + ssl_new.settimeout(self.timeout) + self.ssl = ssl_new + + class Accept(threading.Thread): + def __init__(self, server_sock, ssl_context, succeed_cb): + threading.Thread.__init__(self) + self.setDaemon(True) + self.server_sock = server_sock + self.ssl_context = ssl_context + self.succeed_cb = succeed_cb + self.exit_flag = threading.Event() + + def run(self): + while self.exit_flag.isSet() is False: + try: + new_socket, addr = self.server_sock.accept() + ssl_new = self.ssl_context.wrap_socket(new_socket, server_side=True) + self.succeed_cb(ssl_new) + break + except StandardError: + pass + pass + + def exit(self): + self.exit_flag.set() + + @ssl_handler_wrapper("PC") + def listen(self, local_port=0, local_ip=0): + self.server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + # reuse socket in TIME_WAIT state + self.server_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) + self.server_sock.settimeout(1) + self.server_sock.bind((local_ip, local_port)) + self.server_sock.listen(5) + self.accept_thread = self.Accept(self.server_sock, self.ssl_context, self.accept_succeed) + self.accept_thread.start() + pass + + @ssl_handler_wrapper("PC") + def send(self, size=10, data=None): + if data is None: + self.ssl.send(make_validation_data(size, self.send_index)) + if self.data_validation is True: + self.send_index += size + else: + self.ssl.send(data) + + @ssl_handler_wrapper("PC") + def recv(self, length, timeout=SSLHandler.TIMEOUT, data_validation=False): + time1 = time.time() + data_len = 0 + while time.time() - time1 < timeout: + data = self.ssl.read() + + if data_validation is True and len(data) > 0: + if verify_data(data, self.recv_index) is False: + raise SSLHandlerFail("PC data validation fail, index is %s" % self.recv_index) + self.recv_index += len(data) + data_len += len(data) + if data_len >= length: + result = True + break + else: + result = False + if result is False: + raise SSLHandlerFail("PC recv fail") + + def set_data_validation(self, validation): + self.data_validation = validation + + @ssl_handler_wrapper("PC") + def close(self): + SSLHandler.close(self) + if self.ssl is not None: + self.ssl.close() + self.ssl = None + if self.server_sock is not None: + self.server_sock.close() + self.server_sock = None + del self.ssl_context + + +def main(): + ssl_context = ssl.SSLContext(ssl.PROTOCOL_SSLv23) + # cipher suite + ssl_context.set_ciphers("AES256-SHA") + ssl_context.load_cert_chain("D:\workspace\\auto_test_script\PKI\Certificate\\" + "L2CertRSA512sha1_L1CertRSA512sha1_RootCertRSA512sha1.pem", + keyfile="D:\workspace\\auto_test_script\PKI\Key\PrivateKey2RSA512.pem") + ssl_context.verify_mode = ssl.CERT_NONE + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + # reuse socket in TIME_WAIT state + server_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) + server_sock.settimeout(100) + server_sock.bind(("192.168.111.5", 443)) + server_sock.listen(5) + while True: + try: + new_socket, addr = server_sock.accept() + ssl_new = ssl_context.wrap_socket(new_socket, server_side=True) + print "server connected" + break + except StandardError: + pass + + +pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/SSLHandshake.py b/components/test/TestCaseScript/SSLTest/SSLHandshake.py new file mode 100755 index 000000000..5eb68c350 --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/SSLHandshake.py @@ -0,0 +1,240 @@ +import os +import random +import time +import re + +from TCAction import TCActionBase +from TCAction import PerformanceTCBase +from NativeLog import NativeLog, HTMLGenerator +from Utility import MakeFolder + +import ConfigUtility +import Capability +import SSLHandler + +LOG_FOLDER = os.path.join("AT_LOG", "TEMP") + +HEAP_SIZE_LIMIT = 30000 + + +class SSLHandshake(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=15, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.client_type = None + self.server_type = None + self.client_capability = dict() + self.server_capability = dict() + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + timestamp = time.strftime("%d%H%M%S", time.localtime()) + folder = MakeFolder.make_folder(os.path.join(LOG_FOLDER, "SSLHandshake_%s" % timestamp)) + self.tested_log = os.path.join(folder, "SSLHandshakeTested.log") + self.failed_log = os.path.join(folder, "SSLHandshakeFailed.log") + self.memory_track_log = os.path.join(folder, "SSLHandshakeMemTrack.log") + self.succeed_log = os.path.join(folder, "SSLHandshakeSucceed.log") + # store test result for failed config + self.failed_log2 = os.path.join(folder, "SSLHandshakeFailed2.log") + self.succeed_log2 = os.path.join(folder, "SSLHandshakeSucceed2.log") + + self.heap_size_pattern = re.compile("\+FREEHEAP:(\d+)\r\n") + + @staticmethod + def close(client, server): + try: + client.close() + except StandardError: + pass + try: + server.close() + except StandardError: + pass + + def query_heap_size(self, scenario="idle"): + self.flush_data("SSC1") + self.serial_write_line("SSC1", "ram -H") + match = self.check_regular_expression("SSC1", self.heap_size_pattern) + if match is None: + NativeLog.add_trace_critical("No response for SSC ram command") + else: + heap_size = int(match.group(1)) + self.log_memory("[heap size][%s] %s" % (scenario, heap_size)) + if heap_size < HEAP_SIZE_LIMIT and scenario == "idle": + NativeLog.add_trace_critical("[HeapSize] %s" % heap_size) + + pass + + def prepare_handshake_test(self): + # check if connected + self.flush_data("SSC1") + self.serial_write_line("SSC1", "sta -Q") + if self.check_response("SSC1", "+JAP:CONNECTED,") is False: + ap_ssid = self.get_parameter("ap_ssid") + ap_password = self.get_parameter("ap_password") + self.serial_write_line("SSC1", "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + self.check_response("SSC1", "+JAP:CONNECTED,") + self.query_heap_size() + + @staticmethod + def log_data_to_file(file_name, data): + with open(file_name, "ab+") as f: + f.write(data+"\r\n") + + def log_test_config(self, data): + # append to log + with self.sync_lock: + _formatted_data = HTMLGenerator.process_one_log_item(data) + self.append_to_log_file(_formatted_data) + self.log_data_to_file(self.tested_log, data) + + def log_memory(self, data): + self.log_data_to_file(self.memory_track_log, data) + + def log_fail(self, data, log_type="succeed"): + print data + if log_type == "succeed": + self.log_data_to_file(self.failed_log, data) + else: + self.log_data_to_file(self.failed_log2, data) + + def log_succeed(self, data, log_type="succeed"): + if log_type == "succeed": + self.log_data_to_file(self.succeed_log, data) + else: + self.log_data_to_file(self.succeed_log2, data) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + # rewrite the following code + if self.client_type == "PC": + client_capability = Capability.PCSSLCapability("PCClient") + client_handler = SSLHandler.PCSSLHandler + client_ip = self.get_parameter("pc_ip") + else: + client_capability = Capability.TargetSSLCapability("TargetClient", **self.client_capability) + client_handler = SSLHandler.TargetSSLHandler + client_ip = self.get_parameter("target_ip") + if self.server_type == "PC": + server_capability = Capability.PCSSLCapability("PCServer") + server_handler = SSLHandler.PCSSLHandler + server_ip = self.get_parameter("pc_ip") + else: + server_capability = Capability.TargetSSLCapability("TargetServer", **self.server_capability) + server_handler = SSLHandler.TargetSSLHandler + server_ip = self.get_parameter("target_ip") + + serial_port = SSLHandler.SerialPort(self, "SSC1") + # generate config + config_utility = ConfigUtility.ConfigUtility(client_capability, server_capability) + config_list_dict = config_utility.get_all_test_config() + + # succeed + for config in config_list_dict["succeed"]: + self.prepare_handshake_test() + self.log_test_config("[Succeed config] %s" % config) + port = random.randint(500, 50000) + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + try: + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=port) + client.connect(server_ip, port, local_ip=client_ip) + self.query_heap_size(scenario="connected") + self.log_succeed("[Succeed config] %s" % config) + except SSLHandler.TargetFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[Target][%s]\r\n[Failed][Succeed config] %s" % (e, config)) + except SSLHandler.PCFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[PC][%s]\r\n[Failed][Succeed config] %s" % (e, config)) + + self.close(client, server) + + # init context fail + for config in config_list_dict["context_fail"]: + self.prepare_handshake_test() + port = random.randint(500, 50000) + self.log_test_config("[Init context fail config] %s" % config) + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + try: + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=port) + client.connect(server_ip, port, local_ip=client_ip) + self.log_fail("[Target]\r\n[Failed][Init context fail config] %s" % config, log_type="failed") + except StandardError, e: + NativeLog.add_exception_log(e) + self.log_succeed("[init context fail] %s" % config, log_type="failed") + self.close(client, server) + pass + + # negotiation fail + for config in config_list_dict["negotiation_fail"]: + self.prepare_handshake_test() + self.log_test_config("[negotiation_fail] %s" % config) + port = random.randint(500, 50000) + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + try: + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=port) + except SSLHandler.TargetFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[Target][%s]\r\n[Failed][negotiation fail config] %s" % (e, config), log_type="failed") + self.close(client, server) + continue + except SSLHandler.PCFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[PC][%s]\r\n[Failed][negotiation fail config] %s" % (e, config), log_type="failed") + self.close(client, server) + continue + try: + client.connect(server_ip, port, local_ip=client_ip) + self.log_fail("[Target]\r\n[Failed][negotiation fail config] %s" % config, log_type="failed") + except StandardError, e: + NativeLog.add_exception_log(e) + self.log_succeed("[negotiation fail] %s" % config, log_type="failed") + self.close(client, server) + + # cert key fail + for config in config_list_dict["cert_key_fail"]: + self.prepare_handshake_test() + self.log_test_config("[cert_key_fail] %s" % config) + port = random.randint(500, 50000) + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + try: + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=port) + except SSLHandler.TargetFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[Target][%s]\r\n[Failed][cert_key fail config] %s" % (e, config), log_type="failed") + self.close(client, server) + continue + except SSLHandler.PCFail, e: + NativeLog.add_exception_log(e) + self.log_fail("[PC][%s]\r\n[Failed][cert_key fail config] %s" % (e, config), log_type="failed") + self.close(client, server) + continue + try: + client.connect(server_ip, port, local_ip=client_ip) + self.log_fail("[Target][Failed][cert_key fail config] %s" % config, log_type="failed") + except StandardError, e: + NativeLog.add_exception_log(e) + self.log_succeed("[cert_key_fail] %s" % config, log_type="failed") + self.close(client, server) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/SSLLowMem.py b/components/test/TestCaseScript/SSLTest/SSLLowMem.py new file mode 100644 index 000000000..fdc058f90 --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/SSLLowMem.py @@ -0,0 +1,140 @@ +import os +import random +import time +import re + +from TCAction import TCActionBase +from TCAction import PerformanceTCBase +from NativeLog import NativeLog, HTMLGenerator +from Utility import MakeFolder + +import ConfigUtility +import Capability +import SSLHandler + +LOG_FOLDER = os.path.join("AT_LOG", "TEMP") + +HEAP_SIZE_LIMIT = 30000 + + +class SSLLowMem(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=15, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.client_type = None + self.server_type = None + self.client_capability = dict() + self.server_capability = dict() + self.heap_usage_range = (10000, 30000) + self.test_time = 120 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + timestamp = time.strftime("%d%H%M%S", time.localtime()) + self.heap_size_pattern = re.compile("\+FREEHEAP:(\d+)\r\n") + + @staticmethod + def close(client, server): + try: + client.close() + except StandardError: + pass + try: + server.close() + except StandardError: + pass + + def query_heap_size(self, scenario="idle"): + self.flush_data("SSC1") + self.serial_write_line("SSC1", "ram -H") + match = self.check_regular_expression("SSC1", self.heap_size_pattern) + if match is None: + NativeLog.add_trace_critical("No response for SSC ram command") + else: + heap_size = int(match.group(1)) + if heap_size < HEAP_SIZE_LIMIT and scenario == "idle": + NativeLog.add_trace_critical("[HeapSize] %s" % heap_size) + + pass + + def prepare_handshake_test(self): + # check if connected + self.flush_data("SSC1") + self.serial_write_line("SSC1", "sta -Q") + if self.check_response("SSC1", "+JAP:CONNECTED,") is False: + ap_ssid = self.get_parameter("ap_ssid") + ap_password = self.get_parameter("ap_password") + self.serial_write_line("SSC1", "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + self.check_response("SSC1", "+JAP:CONNECTED,") + # random alloc memory + while True: + memory_size = random.randint(self.heap_usage_range[0], self.heap_usage_range[1]) + self.serial_write_line("SSC1", "soc -M -l %s" % memory_size) + if self.check_response("SSC1", "+SOC_BUFFER:OK", timeout=1) is True: + break + # query size + self.query_heap_size() + + @staticmethod + def log_data_to_file(file_name, data): + with open(file_name, "ab+") as f: + f.write(data+"\r\n") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + # rewrite the following code + if self.client_type == "PC": + client_capability = Capability.PCSSLCapability("PCClient") + client_handler = SSLHandler.PCSSLHandler + client_ip = self.get_parameter("pc_ip") + else: + client_capability = Capability.TargetSSLCapability("TargetClient", **self.client_capability) + client_handler = SSLHandler.TargetSSLHandler + client_ip = self.get_parameter("target_ip") + if self.server_type == "PC": + server_capability = Capability.PCSSLCapability("PCServer") + server_handler = SSLHandler.PCSSLHandler + server_ip = self.get_parameter("pc_ip") + else: + server_capability = Capability.TargetSSLCapability("TargetServer", **self.server_capability) + server_handler = SSLHandler.TargetSSLHandler + server_ip = self.get_parameter("target_ip") + + test_time = self.test_time * 60 # convert test time from minutes to seconds + + serial_port = SSLHandler.SerialPort(self, "SSC1") + # generate config + config_utility = ConfigUtility.ConfigUtility(client_capability, server_capability) + config_list_dict = config_utility.get_all_test_config() + + start_time = time.time() + + # succeed + for config in config_list_dict["succeed"]: + if time.time() - start_time > test_time: + break + self.prepare_handshake_test() + port = random.randint(500, 50000) + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + try: + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=port) + client.connect(server_ip, port, local_ip=client_ip) + self.query_heap_size(scenario="connected") + except SSLHandler.TargetFail, e: + NativeLog.add_exception_log(e) + except SSLHandler.PCFail, e: + NativeLog.add_exception_log(e) + self.close(client, server) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/SSLSendRecv.py b/components/test/TestCaseScript/SSLTest/SSLSendRecv.py new file mode 100644 index 000000000..13fe0b152 --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/SSLSendRecv.py @@ -0,0 +1,147 @@ +import random +import time + +from TCAction import TCActionBase +from TCAction import PerformanceTCBase +from NativeLog import NativeLog +import ConfigUtility +import Capability +import SSLHandler + + +class SSLSendRecv(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=15, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.target_role = "Client" + self.max_send_len = 2048 + self.test_time = 120 + self.data_validation = False + + self.target_capability = {"version": ["SSLv23"], + "cipher_suite": ["TLS_RSA_WITH_AES_256_CBC_SHA", "TLS_RSA_WITH_AES_128_CBC_SHA"], + "fragment_size": [2048], + "verify_server": False, + "verify_client": False, + "key_algorithm": ["RSA2048"], + "key_encoding": ["PEM"], + "pem_encryption": [None], + "certificate_encoding": ["PEM"], + "certificate_digest": ["sha1"], + } + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + @staticmethod + def close(client, server): + try: + client.close() + except StandardError: + pass + try: + server.close() + except StandardError: + pass + + def cleanup(self): + self.serial_write_line("SSC1", "ssl -D") + self.check_response("SSC1", "SSL") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + + target_role = self.target_role + max_send_len = self.max_send_len + test_time = self.test_time * 60 + data_validation = self.data_validation + + ssl_port = random.randint(10000, 50000) + NativeLog.add_prompt_trace("SSL port is %s" % ssl_port) + + # make sure ssl context deinit + self.serial_write_line("SSC1", "ssl -D") + self.check_response("SSC1", "SSL") + + # close all sockets and enlarge send buffer + self.serial_write_line("SSC1", "soc -T") + self.check_response("SSC1", "CLOSEALL") + + self.serial_write_line("SSC1", "soc -M -l %s" % max_send_len) + self.check_response("SSC1", "+SOC_BUFFER:OK") + + # rewrite the following code + if target_role == "Server": + client_capability = Capability.PCSSLCapability("PCClient") + client_handler = SSLHandler.PCSSLHandler + client_ip = self.get_parameter("pc_ip") + server_capability = Capability.TargetSSLCapability("TargetServer", **self.target_capability) + server_handler = SSLHandler.TargetSSLHandler + server_ip = self.get_parameter("target_ip") + elif target_role == "Client": + client_capability = Capability.TargetSSLCapability("TargetClient", **self.target_capability) + client_handler = SSLHandler.TargetSSLHandler + client_ip = self.get_parameter("target_ip") + server_capability = Capability.PCSSLCapability("PCServer") + server_handler = SSLHandler.PCSSLHandler + server_ip = self.get_parameter("pc_ip") + else: + raise StandardError("Unsupported target role %s" % target_role) + + serial_port = SSLHandler.SerialPort(self, "SSC1") + + # generate one succeed config + config_utility = ConfigUtility.ConfigUtility(client_capability, server_capability) + config_list_dict = config_utility.get_all_test_config() + + for config in config_list_dict["succeed"]: + try: + # create connection + NativeLog.add_prompt_trace(str(config)) # do print config + client = client_handler("client", config, serial_port) + server = server_handler("server", config, serial_port) + client.init_context() + server.init_context() + server.listen(local_ip=server_ip, local_port=ssl_port) + client.connect(server_ip, ssl_port, local_ip=client_ip) + except StandardError, e: + NativeLog.add_exception_log(e) + return + + # set data validation + client.set_data_validation(data_validation) + server.set_data_validation(data_validation) + + # do send recv + time_start = time.time() + while time.time() - time_start < test_time: + send_len = random.randint(1, max_send_len) + try: + client.send(size=send_len) + client.send(size=send_len) + server.recv(send_len*2) + except StandardError, e: + NativeLog.add_exception_log(e) + NativeLog.add_prompt_trace("client send / server recv fail") + break + try: + # do send twice, try to create a tcp segment with 2 records + server.send(size=send_len) + server.send(size=send_len) + client.recv(send_len*2) + except StandardError, e: + NativeLog.add_exception_log(e) + NativeLog.add_prompt_trace("server send / client recv fail") + break + else: + self.set_result("Succeed") + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SSLTest/__init__.py b/components/test/TestCaseScript/SSLTest/__init__.py new file mode 100755 index 000000000..98fe3be4a --- /dev/null +++ b/components/test/TestCaseScript/SSLTest/__init__.py @@ -0,0 +1 @@ +__all__ = ["Capability", "ConfigUtility", "Parameter", "SSLHandler", "SSLHandshake"] diff --git a/components/test/TestCaseScript/SleepMode/AutoSleep.py b/components/test/TestCaseScript/SleepMode/AutoSleep.py new file mode 100755 index 000000000..9db70227c --- /dev/null +++ b/components/test/TestCaseScript/SleepMode/AutoSleep.py @@ -0,0 +1,561 @@ +import random +import os +import time +import string +import re +import threading + +from TCAction import TCActionBase, PerformanceTCBase +from NativeLog import NativeLog +from Utility import MakeFolder +from Utility import MultimeterUtil +from Utility import ShellCmd + +LOG_PATH = os.path.join("AT_LOG", "SLEEP") + +SLEEP_MODE_LIST = ["none_sleep", "light_sleep", "modem_sleep"] +SLEEP_MODE = dict(zip(SLEEP_MODE_LIST, range(len(SLEEP_MODE_LIST)))) + +SAMPLE_RATE_SLEEP_MODE_CHANGE = 0.002 +SAMPLE_NUM_SLEEP_MODE_CHANGE = 256 + +SAMPLE_RATE = 0.002 +SAMPLE_NUM = 512 +MAX_VALUE = 1 +Y_AXIS_LABEL = "Current (mA)" +GPIO_EDGE_DELAY = 120 # 20 ms + +NONE_SLEEP_MIN_CUR = 30 +LIGHT_SLEEP_MIN_CUR = 1.5 +MODEM_SLEEP_MIN_CUR = 20 + +GPIO_WAKE_UP = 15 +GPIO_CHIP_RESET = 14 + +SLEEP_WAKEUP_DELAY = 0.01 + + +class AutoSleep(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.test_mode = "mode_change" + self.test_count = 100 + self.sleep_mode = SLEEP_MODE_LIST + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.log_folder = MakeFolder.make_folder(os.path.join(LOG_PATH, + "AUTO_SLEEP_%s_%s" % (self.test_mode, + time.strftime("%d%H%M%S", + time.localtime())))) + self.multimeter = MultimeterUtil.MultimeterUtil(self.log_folder) + + @staticmethod + def find_min_items(item_list, count): + assert count < len(item_list) + min_items = [] + for i in range(count): + min_val = min(item_list) + min_items.append(min_val) + item_list.remove(min_val) + return min_items + + def sleep_mode_change(self, sleep_mode): + result = True + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] %s start" % sleep_mode) + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + # set sleep mode + self.serial_write_line("SSC1", "sleep -S -t %d" % sleep_mode_enum) + self.check_response("SSC1", "+SLEEP_MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] mode set") + time.sleep(6) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE_SLEEP_MODE_CHANGE, + sample_num=SAMPLE_NUM_SLEEP_MODE_CHANGE, + max_value=MAX_VALUE) + # do check measure + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + + NativeLog.add_prompt_trace("[AutoSleep][ModeChange] measure done, average min current %f" % average_val) + + if sleep_mode == "none_sleep": + if average_val < NONE_SLEEP_MIN_CUR: + result = False + elif sleep_mode == "light_sleep": + if average_val > LIGHT_SLEEP_MIN_CUR: + result = False + elif sleep_mode == "modem_sleep": + if average_val > MODEM_SLEEP_MIN_CUR or average_val < LIGHT_SLEEP_MIN_CUR: + result = False + if result is False: + NativeLog.add_trace_critical("[AutoSleep][ModeChange] %s failed" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, "%s_fail" % sleep_mode, Y_AXIS_LABEL) + + time.sleep(5) + return result + + def sleep_current_measure(self, sleep_mode): + result = True + + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] %s start" % sleep_mode) + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + # set sleep mode + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sleep -S -t %d" % sleep_mode_enum) + self.check_response("SSC1", "+SLEEP_MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] set mode done") + time.sleep(10) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, sleep_mode, Y_AXIS_LABEL) + NativeLog.add_prompt_trace("[AutoSleep][CurrentMeasure] measure done") + return result + + def light_sleep_wakeup(self): + result = True + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] start") + + time.sleep(1) + self.serial_write_line("SSC1", "") + time.sleep(1) + # check if respond to uart + self.flush_data("SSC1") + for i in range(60): + self.serial_write("SSC1", "a") + time.sleep(0.043) + time.sleep(0.1) + respond_data = self.serial_read_data("SSC1") + if len(respond_data) >= 60: + NativeLog.add_trace_critical("[AutoSleep][light sleep wakeup] " + "Failed when recving data during sleep, %d" % len(respond_data)) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] check on sleep mode done") + + self.serial_write_line("SSC1", "") + time.sleep(1) + + # change GPIO to make target wakeup + self.serial_write_line("SSC2", "gpio -L -p %d -t 0" % GPIO_WAKE_UP) + self.check_response("SSC2", "+GPIO_SET:OK") + + self.serial_write_line("SSC1", "") + time.sleep(1) + self.flush_data("SSC1") + for i in range(60): + self.serial_write("SSC1", "a") + time.sleep(0.043) + time.sleep(0.1) + respond_data = self.serial_read_data("SSC1") + if len(respond_data) < 60: + NativeLog.add_trace_critical("[AutoSleep][light sleep wakeup] " + "Failed when recving data during wakeup, %d" % len(respond_data)) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][LightSleepWakeup] check on wakeup mode done") + self.serial_write_line("SSC1", "") + # restore GPIO level + self.serial_write_line("SSC2", "gpio -L -p %d -t 1" % GPIO_WAKE_UP) + self.check_response("SSC2", "+GPIO_SET:OK") + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_EDGE_DELAY)) + self.check_response("SSC2", "+GPIO_SET:OK") + time.sleep(2) + return result + + def sleep_exit_enter(self, sleep_mode, ssid, password): + result = True + if sleep_mode == "modem_sleep": + max_current_for_sleep = 20 + elif sleep_mode == "light_sleep": + max_current_for_sleep = 5 + else: + raise StandardError("Not supported mode %s" % sleep_mode) + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] %s start" % sleep_mode) + + ap_ssid = self.get_parameter("ap_ssid") + ap_password = self.get_parameter("ap_password") + + # step A: no STA connect to SoftAP, enter modem sleep mode + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 1") + self.check_response("SSC1", "+MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + self.check_response("SSC2", "+GPIO_SET:OK") + self.check_response("SSC1", "+JAP:CONNECTED") + self.check_response("SSC1", "pm open") + + self.serial_write_line("SSC2", "sta -D") + self.check_response("SSC2", "+QAP") + + time.sleep(5) + + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val > max_current_for_sleep: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] " + "did not enter %s sleep, %d" % (sleep_mode, average_val)) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_A" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step A done") + # step B: STA connect to SoftAP, exit modem sleep mode + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 3") + self.check_response("SSC1", "+MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + time.sleep(1) + self.serial_write_line("SSC2", "sta -C -s %s -p %s" % (ssid, password)) + self.check_response("SSC2", "+JAP:CONNECTED") + # self.check_response("SSC1", "pm close") + time.sleep(10) + + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val < 30: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] did not exit %s sleep" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_B" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step B done") + # step C: target set to STA mode, enter modem sleep + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 1") + self.check_response("SSC1", "+MODE:OK") + + self.check_response("SSC2", "+GPIO_SET:OK") + # self.check_response("SSC1", "pm open") + time.sleep(15) + + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val > max_current_for_sleep: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] did not enter %s sleep" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_C" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step C done") + # step D: target disconnect, exit modem sleep + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sta -D") + self.check_response("SSC1", "+QAP") + self.check_response("SSC2", "+GPIO_SET:OK") + # self.check_response("SSC1", "pm close") + time.sleep(5) + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val < 30: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] did not exit %s sleep" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_D" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step D done") + # step E: target connect to AP, enter modem sleep + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + self.check_response("SSC2", "+GPIO_SET:OK") + self.check_response("SSC1", "+JAP:CONNECTED") + self.check_response("SSC1", "pm open") + time.sleep(3) + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val > max_current_for_sleep: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] did not enter %s sleep" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_E" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step E done") + # step F: target set to AP mode, exit modem sleep + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 2") + self.check_response("SSC1", "+MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + # self.check_response("SSC1", "pm close") + time.sleep(5) + + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val < 30: + NativeLog.add_trace_critical("[AutoSleep][SleepExitEnter] did not exit %s sleep" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_sleep_exit_enter_fail_F" % sleep_mode, Y_AXIS_LABEL) + result = False + + NativeLog.add_prompt_trace("[AutoSleep][EnterExitSleep] step F done") + return result + + def ping_test(self, sleep_mode): + result = True + NativeLog.add_prompt_trace("[AutoSleep][PingTest] %s start" % sleep_mode) + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + if sleep_mode == "modem_sleep": + max_current_for_sleep = MODEM_SLEEP_MIN_CUR + elif sleep_mode == "light_sleep": + max_current_for_sleep = LIGHT_SLEEP_MIN_CUR + else: + raise StandardError("Not supported mode %s" % sleep_mode) + + self.serial_write_line("SSC1", "op -S -o 1") + self.check_response("SSC1", "+MODE:OK") + + # set sleep mode + self.serial_write_line("SSC1", "sleep -S -t %d" % sleep_mode_enum) + self.check_response("SSC1", "+SLEEP_MODE:OK") + NativeLog.add_prompt_trace("[AutoSleep][PingTest] set mode done") + + # connect to AP + ap_ssid = self.get_parameter("ap_ssid") + ap_password = self.get_parameter("ap_password") + target_ip = self.get_parameter("target_ip") + + self.serial_write_line("SSC1", "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + self.check_response("SSC1", "+JAP:CONNECTED") + + time.sleep(10) + # measure current, should be in sleep mode + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + + if average_val > max_current_for_sleep: + NativeLog.add_trace_critical("[AutoSleep][PingTest] step A did not enter %s sleep, %f" + % (sleep_mode, average_val)) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_ping_test_fail_not_enter_sleep" % sleep_mode, Y_AXIS_LABEL) + result = False + else: + NativeLog.add_prompt_trace("[AutoSleep][PingTest] step A enter %s sleep, %f" + % (sleep_mode, average_val)) + + class PingThread(threading.Thread): + def __init__(self, ping_ip): + threading.Thread.__init__(self) + self.setDaemon(True) + self.target_ip = ping_ip + self.exit_event = threading.Event() + + def run(self): + while self.exit_event.isSet() is False: + ShellCmd.shell_check_output("ping %s -w 500" % self.target_ip) + time.sleep(0.1) + pass + + def exit(self): + self.exit_event.set() + + NativeLog.add_prompt_trace("[AutoSleep][PingTest] ping start") + ping_thread = PingThread(target_ip) + ping_thread.start() + time.sleep(5) + + # measure current, should not be in sleep mode + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val < 30: + NativeLog.add_trace_critical("[AutoSleep][PingTest] step B did not exit %s sleep, %f" + % (sleep_mode, average_val)) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_ping_test_fail_not_exit_sleep" % sleep_mode, Y_AXIS_LABEL) + result = False + else: + NativeLog.add_prompt_trace("[AutoSleep][PingTest] step B exit %s sleep, %f" + % (sleep_mode, average_val)) + + ping_thread.exit() + ping_thread.join(20) + NativeLog.add_prompt_trace("[AutoSleep][PingTest] ping stop") + time.sleep(10) + + # measure current, should not be in sleep mode + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val > max_current_for_sleep: + NativeLog.add_trace_critical("[AutoSleep][PingTest] step C did not enter %s" % sleep_mode) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "%s_ping_test_fail_not_enter_sleep" % sleep_mode, Y_AXIS_LABEL) + result = False + else: + NativeLog.add_prompt_trace("[AutoSleep][PingTest] step C enter %s sleep" % sleep_mode) + + return result + + def cleanup(self): + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sleep -S -t %d" % SLEEP_MODE["modem_sleep"]) + self.check_response("SSC1", "OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + + try: + test_mode = self.test_mode + test_count = self.test_count + sleep_mode = self.sleep_mode + except StandardError, e: + return + + # make sure enter modem sleep mode before start test + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sleep -S -t %d" % SLEEP_MODE["modem_sleep"]) + self.check_response("SSC1", "+SLEEP_MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + self.check_response("SSC1", "pm open", timeout=10) + + self.serial_write_line("SSC1", "gpio -G -p %d" % GPIO_WAKE_UP) + self.check_response("SSC1", "+GPIO_GET") + self.serial_write_line("SSC1", "gpio -G -p %d" % GPIO_CHIP_RESET) + self.check_response("SSC1", "+GPIO_GET") + + # start test + if "mode_change" in test_mode: + for i in range(test_count): + result = self.sleep_mode_change(random.choice(SLEEP_MODE_LIST)) + + elif "measure_current" in test_mode: + for i in range(test_count): + for mode in sleep_mode: + result = self.sleep_current_measure(mode) + pass + elif "gpio_wakeup" in test_mode: + # change GPIO to make sure target exit sleep mode, so it can process SSC commands + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + # set sleep mode + self.serial_write_line("SSC1", "sleep -S -t %d" % SLEEP_MODE["light_sleep"]) + self.check_response("SSC1", "+SLEEP_MODE:OK") + + self.check_response("SSC2", "+GPIO_SET:OK") + for i in range(test_count): + result = self.light_sleep_wakeup() + pass + elif "sleep_exit_enter" in test_mode: + ssid = "".join([random.choice(string.lowercase) for i in range(10)]) + password = "".join([random.choice(string.lowercase) for i in range(10)]) + self.serial_write_line("SSC2", "sta -D") + self.check_response("SSC2", "+QAP") + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 3") + self.check_response("SSC1", "+MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + self.serial_write_line("SSC1", "ap -S -s %s -p %s -t 3" % (ssid, password)) + self.check_response("SSC1", "+SAP:OK") + self.serial_write_line("SSC2", "op -S -o 1") + self.check_response("SSC2", "+MODE:OK") + + for mode in sleep_mode: + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "sleep -S -t %d" % SLEEP_MODE[mode]) + self.check_response("SSC1", "+SLEEP_MODE:OK") + self.check_response("SSC2", "+GPIO_SET:OK") + + for i in range(test_count): + result = self.sleep_exit_enter(mode, ssid, password) + elif "ping" in test_mode: + for mode in sleep_mode: + for i in range(test_count): + result = self.ping_test(mode) + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SleepMode/DeepSleep.py b/components/test/TestCaseScript/SleepMode/DeepSleep.py new file mode 100755 index 000000000..252ebb075 --- /dev/null +++ b/components/test/TestCaseScript/SleepMode/DeepSleep.py @@ -0,0 +1,259 @@ +import random +import os +import time + +from TCAction import TCActionBase, PerformanceTCBase +from Utility import MakeFolder +from Utility import MultimeterUtil +from NativeLog import NativeLog + +LOG_PATH = os.path.join("AT_LOG", "SLEEP") + +DEEP_SLEEP_OPTION_LIST = ["up_to_bin", "normal", "no_rf_calibrate", "rf_off"] +DEEP_SLEEP_OPTION = { + "up_to_bin": 0, + "normal": 1, + "no_rf_calibrate": 2, + "rf_off": 4, +} + +SAMPLE_RATE = 0.001 +SAMPLE_NUM = 512 +MAX_VALUE = 0.1 +Y_AXIS_LABEL = "Current (mA)" + + +MEASURE_FREQ = 3600 + +GPIO_WAKE_UP = 15 +GPIO_CHIP_RESET = 14 +GPIO_EDGE_DELAY = 100 # 20 ms + + +class DeepSleep(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.test_mode = "mode_change" + self.test_count = 100 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.log_folder = MakeFolder.make_folder(os.path.join(LOG_PATH, + "DEEP_SLEEP_%s_%s" % (self.test_mode, + time.strftime("%d%H%M%S", + time.localtime())))) + self.sleep_time_log = os.path.join(self.log_folder, "deep_sleep_wakeup_time.log") + self.multimeter = MultimeterUtil.MultimeterUtil(self.log_folder) + + def deep_sleep_stable(self): + result = True + RandomTime = random.randint(1, 100) + self.serial_write_line("SSC1", "dsleep -S -t %s" % RandomTime) + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + if self.check_response("SSC1", "ready!!!") is False: + result = False + NativeLog.add_trace_critical("[DeepSleep][Stable] wait ready err") + else: + NativeLog.add_trace_critical("[DeepSleep][Stable] SleepTime:%d" % RandomTime) + time.sleep(1) + + RandomTime = random.randint(100000, 1000000) + self.serial_write_line("SSC1", "dsleep -S -t %s" % RandomTime) + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + if self.check_response("SSC1", "ready!!!") is False: + result = False + NativeLog.add_trace_critical("[DeepSleep][Stable] wait ready err") + else: + NativeLog.add_trace_critical("[DeepSleep][Stable] SleepTime:%d" % RandomTime) + time.sleep(1) + return result + + def deep_sleep_current_measure(self): + result = True + self.serial_write_line("SSC1", "") + self.serial_write_line("SSC1", "dsleep -S -t 10000000") + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + time.sleep(3) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + average_current = float(0) + for current in current_line: + average_current += current + average_current /= SAMPLE_NUM + + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "deep_sleep_current", Y_AXIS_LABEL) + + if average_current > 1: + NativeLog.add_trace_critical("[DeepSleep][CurrentMeasure] average current %f > 1mA" % average_current) + else: + NativeLog.add_trace_critical("[DeepSleep][CurrentMeasure] dsleep current ok, %f" % average_current) + + if self.check_response("SSC1", "ready!!!") is False: + NativeLog.add_trace_critical("[DeepSleep][CurrentMeasure] CurrentMeasure wait ready err %f" + % average_current) + result = False + + NativeLog.add_trace_critical("[DeepSleep][CurrentMeasure] wait ready ok") + + return result + + ########################################## + # gpio wake up + ########################################## + def deep_sleep_wakeup(self): + result = True + + self.serial_write_line("SSC1", "dsleep -S -t 0") + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + + time.sleep(2) + + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + average_current = float(0) + for current in current_line: + average_current += current + average_current /= SAMPLE_NUM + + if average_current > 1: + NativeLog.add_trace_critical("[DeepSleep][Wakeup] average current %f > 1mA" % average_current) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "deep_sleep_current", Y_AXIS_LABEL) + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_EDGE_DELAY)) + self.check_response("SSC2", "+GPIO_SET:OK") + if self.check_response("SSC1", "ready!!!") is False: + NativeLog.add_trace_critical("[DeepSleep][Wakeup] target did not wakeup") + result = False + else: + NativeLog.add_trace_critical("[DeepSleep][Wakeup] target wakeup") + + time.sleep(1) + return result + + ######################################### + #test one hour, Verify RTC Clock timer + ######################################### + def deep_sleep_timeout(self): + result = True + Timeout = 3600 + + start_sleep_time = time.time() + self.serial_write_line("SSC1", "") + self.serial_write_line("SSC1", "dsleep -S -t %d" % (Timeout*1000000)) + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + self.check_response("SSC1", "ready!!!", timeout = Timeout*2) + time_escaped = time.time() - start_sleep_time + NativeLog.add_trace_critical("[DeepSleep][timeout] desired sleep timeout is %s, actual sleep timeout is %s" % (Timeout, time_escaped)) + with open(self.sleep_time_log, "ab+") as f: + f.write("[DeepSleep] desired sleep timeout is %s, actual sleep timeout is %s" % (Timeout, time_escaped)) + return result + + ############################################ + # Capture current map, verify the process of power on + # notice: option = "up_to_bin" up to byte108 in init.bin, + ############################################ + def wake_option(self): + result = True + for option in DEEP_SLEEP_OPTION_LIST: + for i in range(8): + self.serial_write_line("SSC1", "dsleep -O -m %s" % DEEP_SLEEP_OPTION[option]) + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + self.serial_write_line("SSC1", "dsleep -S -t 1200000") + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + + # measure current + current_line = self.multimeter.measure_current(sample_rate=0.002, + sample_num=SAMPLE_NUM, + max_value=1) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "deep_sleep_wakeup_option_%s_%d" + % (option, DEEP_SLEEP_OPTION[option]), Y_AXIS_LABEL) + + NativeLog.add_trace_critical("[DeepSleep][wake_option] target wakeup option:%d" + % DEEP_SLEEP_OPTION[option]) + time.sleep(3) + + return result + + def deep_sleep_wakeup_flash_gpio_status(self): + result = True + RandomTime = random.randint(2000000, 2000000) + self.serial_write_line("SSC1", "dsleep -S -t %s" % RandomTime) + if self.check_response("SSC1", "+DSLEEP:OK") is False: + result = False + if self.check_response("SSC1", "ready!!!") is False: + result = False + NativeLog.add_trace_critical("[DeepSleep][Stable] wait ready err") + else: + NativeLog.add_trace_critical("[DeepSleep][Stable] SleepTime:%d" % RandomTime) + + self.serial_write_line("SSC1", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + self.check_response("SSC1", "+GPIO_SET:OK") + + time.sleep(1) + return result + + def cleanup(self): + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_EDGE_DELAY)) + self.check_response("SSC2", "+GPIO_SET:OK") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.serial_write_line("SSC2", "sta -D") + self.check_response("SSC2", "+QAP") + self.serial_write_line("SSC1", "sta -D") + self.check_response("SSC1", "+QAP") + try: + test_mode = self.test_mode + test_count = self.test_count + except StandardError, e: + return + + # self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_EDGE_DELAY)) + # self.check_response("SSC2", "+GPIO_SET:OK") + # time.sleep(1) + + if "stable" in test_mode: + for i in range(test_count): + # result = self.deep_sleep_wakeup_flash_gpio_status() + result = self.deep_sleep_stable() + elif "measure_current" in test_mode: + for i in range(test_count): + result = self.deep_sleep_current_measure() + elif "timeout" in test_mode: + for i in range(test_count): + result = self.deep_sleep_timeout() + elif "wakeup" in test_mode: + for i in range(test_count): + result = self.deep_sleep_wakeup() + elif "wake_option" in test_mode: + for i in range(test_count): + result = self.wake_option() + + self.set_result("Succeed") + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SleepMode/ForceSleep.py b/components/test/TestCaseScript/SleepMode/ForceSleep.py new file mode 100755 index 000000000..4938a97c2 --- /dev/null +++ b/components/test/TestCaseScript/SleepMode/ForceSleep.py @@ -0,0 +1,254 @@ +import random +import os +import time + +from TCAction import TCActionBase, PerformanceTCBase +from Utility import MakeFolder +from Utility import MultimeterUtil +from NativeLog import NativeLog + +LOG_PATH = os.path.join("AT_LOG", "SLEEP") + +SLEEP_MODE_LIST = ["none_sleep", "light_sleep", "modem_sleep"] +SLEEP_MODE = dict(zip(SLEEP_MODE_LIST, range(len(SLEEP_MODE_LIST)))) + +SAMPLE_RATE = 0.002 +SAMPLE_NUM = 512 +MAX_VALUE = 1 +Y_AXIS_LABEL = "Current (mA)" + +MEASURE_FREQ_HOUR = 3600 + +GPIO_WAKE_UP = 15 +GPIO_EDGE_DELAY = 120 # 20 ms +GPIO_CHIP_RESET = 14 +GPIO_CHIP_RESET_DELAY = 100 + +NONE_SLEEP_MIN_CUR = 30 +LIGHT_SLEEP_MIN_CUR = 1.5 +MODEM_SLEEP_MIN_CUR = 20 + +LIGHT_SLEEP_WAKEUP_DELAY = 0.01 + + +class ForceSleep(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.test_mode = "mode_change" + self.test_count = 100 + self.sleep_mode = SLEEP_MODE_LIST + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.log_folder = MakeFolder.make_folder(os.path.join(LOG_PATH, + "FORCE_SLEEP_%s_%s" % (self.test_mode, + time.strftime("%d%H%M%S", + time.localtime())))) + self.multimeter = MultimeterUtil.MultimeterUtil(self.log_folder) + + @staticmethod + def find_min_items(item_list, count): + assert count < len(item_list) + min_items = [] + for i in range(count): + min_val = min(item_list) + min_items.append(min_val) + item_list.remove(min_val) + return min_items + + def sleep_time_boundary_test(self): + result = True + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 0") + self.check_response("SSC2", "+GPIO_SET:OK") + if self.check_response("SSC1", "+MODE:OK") is False: + result = False + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "fsleep -S -t 1") + self.check_response("SSC2", "+GPIO_SET:OK") + if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + result = False + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "fsleep -D -d 0") + self.check_response("SSC2", "+GPIO_SET:OK") + # if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + # result = False + time.sleep(1) + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + min_items = self.find_min_items(current_line, 10) + average_val = float(0) + for val in min_items: + average_val += val + average_val /= 10 + if average_val > LIGHT_SLEEP_MIN_CUR: + NativeLog.add_trace_critical("[ForceSleep][Boundary] did not enter light sleep %d" % average_val) + result = False + return result + else: + NativeLog.add_trace_critical("[ForceSleep][Boundary] enter light sleep") + + for i in range(3): + time.sleep(MEASURE_FREQ_HOUR) + for j in range(3): + time.sleep(10) + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "light_sleep_boundary_%s_%s" % (i, j), Y_AXIS_LABEL) + pass + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + self.check_response("SSC2", "+GPIO_SET:OK") + time.sleep(1) + self.serial_write_line("SSC1", "reboot") + self.check_response("SSC1", "ready!!!") + self.serial_write_line("SSC1", "fsleep -S -t 1") + if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + result = False + self.serial_write_line("SSC1", "") + self.serial_write_line("SSC1", "fsleep -B -t 1") + if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + result = False + time.sleep(MEASURE_FREQ_HOUR) + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET,GPIO_CHIP_RESET_DELAY)) + return result + + def force_sleep_current_measure(self, sleep_mode): + result = True + # choose sleep mode + sleep_mode_enum = SLEEP_MODE[sleep_mode] + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 0") + if self.check_response("SSC1", "+MODE:OK") is False: + result = False + self.check_response("SSC2", "+GPIO_SET:OK") + + # set sleep mode + self.serial_write_line("SSC1", "fsleep -S -t %s" % sleep_mode_enum) + if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + result = False + self.serial_write_line("SSC1", "fsleep -D -d 0") + # if self.check_response("SSC1", "+FSLEEP_MODE:OK") is False: + # result = False + + time.sleep(3) + + for i in range(10): + time.sleep(10) + # measure current + current_line = self.multimeter.measure_current(sample_rate=SAMPLE_RATE, + sample_num=SAMPLE_NUM, + max_value=MAX_VALUE) + self.multimeter.draw_graph(current_line, SAMPLE_RATE, + "force_%s_sleep_current_%s" % (sleep_mode, i), Y_AXIS_LABEL) + NativeLog.add_trace_critical("[ForceSleep][current_measure] force_%s_%d"% (sleep_mode,i)) + + # self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP,GPIO_EDGE_DELAY)) + # self.check_response("SSC2", "+GPIO_SET:OK") + # self.serial_write_line("SSC1", "reboot") + # self.check_response("SSC1", "ready!!!") + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_CHIP_RESET_DELAY)) + self.check_response("SSC2", "+GPIO_SET:OK") + if self.check_response("SSC1", "ready!!!") is False: + result = False + time.sleep(1) + return result + + def force_sleep_illegal_enter(self): + result = True + # choose sleep mode + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "op -S -o 2") + if self.check_response("SSC1", "+MODE:OK") is False: + result = False + self.check_response("SSC2", "+GPIO_SET:OK") + + # set sleep mode + self.serial_write_line("SSC1", "fsleep -D -d 0") + if self.check_response("SSC1", "ready!!!", timeout=10) is False: + result = False + time.sleep(5) + return result + + def force_sleep_stable_test(self): + result = True + # choose sleep mode + + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "fsleep -L") + if self.check_response("SSC1", "+MODE:OK") is False: + result = False + self.check_response("SSC2", "+GPIO_SET:OK") + + time.sleep(3600) + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_CHIP_RESET, GPIO_CHIP_RESET_DELAY)) + time.sleep(5) + return result + + def cleanup(self): + self.serial_write_line("SSC2", "gpio -E -p %d -t 0 -d %d" % (GPIO_WAKE_UP, GPIO_EDGE_DELAY)) + time.sleep(LIGHT_SLEEP_WAKEUP_DELAY) + self.serial_write_line("SSC1", "reboot") + self.check_response("SSC1", "ready!!!") + self.check_response("SSC2", "+GPIO_SET:OK") + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.serial_write_line("SSC2", "sta -D") + self.check_response("SSC2", "+QAP") + self.serial_write_line("SSC1", "sta -D") + self.check_response("SSC1", "+QAP") + try: + test_mode = self.test_mode + test_count = self.test_count + sleep_mode = self.sleep_mode + except StandardError, e: + return + + # set gpio to input on sleep target + self.serial_write_line("SSC1", "gpio -G -p %d" % GPIO_WAKE_UP) + self.check_response("SSC1", "+GPIO_GET") + self.serial_write_line("SSC1", "gpio -G -p %d" % GPIO_CHIP_RESET) + self.check_response("SSC1", "+GPIO_GET") + + if test_mode == "boundary_test": + for i in range(test_count): + result = self.sleep_time_boundary_test() + pass + elif test_mode == "measure_current": + for j in range(test_count): + for mode in sleep_mode: + result = self.force_sleep_current_measure(mode) + pass + elif test_mode == "illegal_enter": + for i in range(test_count): + result = self.force_sleep_illegal_enter() + pass + elif test_mode == "stable_test": + for i in range(test_count): + result = self.force_sleep_stable_test() + pass + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/SleepMode/__init__.py b/components/test/TestCaseScript/SleepMode/__init__.py new file mode 100755 index 000000000..fcd54657f --- /dev/null +++ b/components/test/TestCaseScript/SleepMode/__init__.py @@ -0,0 +1 @@ +__all__ = ["AutoSleep", "DeepSleep", "ForceSleep"] diff --git a/components/test/TestCaseScript/StableTest/StableCase1.py b/components/test/TestCaseScript/StableTest/StableCase1.py new file mode 100755 index 000000000..2554c1499 --- /dev/null +++ b/components/test/TestCaseScript/StableTest/StableCase1.py @@ -0,0 +1,160 @@ +import time +import random +import threading + +from TCAction import TCActionBase +from NativeLog import NativeLog + + +class StableCase1(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.exit_event = threading.Event() + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def check_wifi_status(self, data): + if data.find("+JAP:DISCONNECTED") != -1: + self.exit_event.set() + NativeLog.add_trace_critical("[Wifi] Disconnected") + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + # target role + target_role = self.target_role + # enable tcp send/recv + tcp_enable = self.tcp_enable + # enable udp send/recv + udp_enable = self.udp_enable + # enable ping + ping_enable = self.ping_enable + # delay range + delay_range = self.delay_range + # test time in hours + test_time = self.test_time * 3600 + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + if target_role == "AP": + pc_ip = "" + target_ip = "" + elif target_role == "STA": + pc_ip = "" + target_ip = "" + else: + raise StandardError("target role only support AP or STA") + + # step 1, create UDP socket and TCP server + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t UDP -p "] + fail_string = "Fail, Fail to create UDP socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t TCP -p "] + fail_string = "Fail, Fail to create tcp server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 RE LISTEN:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -L -s "] + fail_string = "Fail, Fail to listen" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 2, PC connect to 8266 tcp server, PC create UDP socket + checker_stings = ["R SOC_COM C OK"] + test_action_string = ["SOC SOC1 BIND %s" % pc_ip] + fail_string = "Fail, Fail to create udp socket on PC" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["P SSC1 A :ACCEPT:(\d+),\d+", "P SOC_COM C OK"] + test_action_string = ["SOC SOC2 CONNECT %s 0 %s" % (target_ip, pc_ip)] + fail_string = "Fail, Fail to create tcp socket on PC" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + total_test_count = ping_fail_count = tcp_fail_count = udp_fail_count = 0 + + # step 3, start do tcp/udp/ping + while time.time() - start_time < test_time and self.exit_event.isSet() is False: + total_test_count += 1 + if ping_enable is True: + # do ping + checker_stings = ["P PC_COM RE \+PING:\d+ms"] + test_action_string = ["PING %s -n 1 -w 1000" % target_ip] + fail_string = "Fail, Fail to ping target" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + ping_fail_count += 1 + NativeLog.add_prompt_trace("[ping fail] fail/total = %s/%s" + % (ping_fail_count, total_test_count)) + pass + + data_len = random.randint(1, 1460) + + if tcp_enable is True: + # do tcp send/recv + checker_stings = ["P SSC1 SL +%s" % data_len, "P SOC2 RL %s" % data_len] + test_action_string = ["SSC SSC1 soc -S -s -l %s" % data_len, + "SOC SOC2 SEND %s" % data_len] + fail_string = "Fail, Fail to send/recv tcp" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + tcp_fail_count += 1 + NativeLog.add_prompt_trace("[tcp fail] fail/total = %s/%s" + % (tcp_fail_count, total_test_count)) + # tcp fail, break + self.exit_event.set() + pass + + if udp_enable is True: + # do udp send/recv + checker_stings = ["P SSC1 SL +%s" % data_len, "P SOC1 RL %s" % data_len] + test_action_string = ["SSC SSC1 soc -S -s " + "-i %s -p -l %s" % (pc_ip, data_len), + "SOC SOC1 SENDTO %s %s" % (data_len, target_ip)] + fail_string = "Fail, Fail to sendto/recvfrom udp" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=20) is False: + udp_fail_count += 1 + NativeLog.add_prompt_trace("[udp fail] fail/total = %s/%s" + % (udp_fail_count, total_test_count)) + pass + + # sleep + time.sleep(random.randint(delay_range[0], delay_range[1])) + pass + + # finally, execute done + if self.exit_event.isSet() is False: + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + self.result_cntx.append_data(port_name, data) + if port_name != "SOC1" and port_name != "SOC2": + # socket received data do not need to be logged + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + if port_name == "SSC1": + self.check_wifi_status(data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/StableTest/__init__.py b/components/test/TestCaseScript/StableTest/__init__.py new file mode 100755 index 000000000..be905f816 --- /dev/null +++ b/components/test/TestCaseScript/StableTest/__init__.py @@ -0,0 +1 @@ +__all__ = ["StableCase1"] diff --git a/components/test/TestCaseScript/TCPIPStress/ARPStress.py b/components/test/TestCaseScript/TCPIPStress/ARPStress.py new file mode 100755 index 000000000..38dcb8fd8 --- /dev/null +++ b/components/test/TestCaseScript/TCPIPStress/ARPStress.py @@ -0,0 +1,121 @@ +import time + +from NativeLog import NativeLog +from TCAction import TCActionBase +from comm.NIC import Adapter + +WARNING_COUNT = 5 + + +class ARPStress(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.adapter = None + self.target_mode = "STA" + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + self.adapter.close() + del self.adapter + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + test_time = self.test_time * 60 + # test frequency min should be 0.1s, otherwise reply could be missed + test_freq = self.test_freq if self.test_freq > 0.1 else 0.1 + # test softAP or sta + target_mode = self.target_mode + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for ARPStress script, error is %s" % e) + raise StandardError("Error configuration") + + # get parameters + if target_mode == "STA": + target_ip = self.get_parameter("target_ip") + target_mac = self.get_parameter("target_mac") + pc_mac = self.get_parameter("pc_nic_mac") + pc_nic_name = self.get_parameter("pc_nic") + elif target_mode == "SoftAP": + target_ip = self.get_parameter("target_ap_ip") + target_mac = self.get_parameter("target_ap_mac") + pc_mac = self.get_parameter("pc_wifi_nic_mac") + pc_nic_name = self.get_parameter("pc_wifi_nic") + else: + raise StandardError("Unsupported target mode: %s" % target_mode) + + time_start = time.time() + + # open device + self.adapter = Adapter.Adapter(pc_nic_name, "capture+send") + ret = self.adapter.set_filter("arp and ether src %s and ether dst %s" % (target_mac, pc_mac)) + if ret != "LIBPCAP_SUCCEED": + NativeLog.add_trace_critical("ARP Stress test error: %s" % ret) + return + + ret = self.adapter.start_capture() + if ret != "LIBPCAP_SUCCEED": + NativeLog.add_trace_critical("ARP Stress test error: %s" % ret) + return + + arp_pdu = self.adapter.create_pdu("ARP", self.adapter.create_payload(), + arp_op_code="request", arp_target_proto_addr=target_ip, + ethernet_dst_addr="ff:ff:ff:ff:ff:ff") + + data = arp_pdu.to_bytes() + + total_test_count = total_fail_count = successive_fail_count = most_successive_fail_count = 0 + + while (time.time() - time_start) < test_time: + # send arp req + ret = self.adapter.ether_send(data) + if ret != "LIBNET_SUCCEED": + NativeLog.add_prompt_trace("libnet send fail, %s" % ret) + continue + total_test_count += 1 + # wait for reply + time.sleep(test_freq) + # should get one arp reply + pdu_list = self.adapter.get_packets() + + if len(pdu_list) == 0: + # failed to get arp reply + total_fail_count += 1 + successive_fail_count += 1 + if successive_fail_count > WARNING_COUNT: + NativeLog.add_trace_critical("ARP Fail: successive fail %u times, total tested %u times" + % (successive_fail_count, total_test_count)) + else: + most_successive_fail_count = most_successive_fail_count \ + if most_successive_fail_count > successive_fail_count \ + else successive_fail_count + successive_fail_count = 0 + pass + NativeLog.add_trace_critical("ARP stress test, total %s times, failed %s times, most successive fail count %s" + % (total_test_count, total_fail_count, most_successive_fail_count)) + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPIPStress/PingStress.py b/components/test/TestCaseScript/TCPIPStress/PingStress.py new file mode 100755 index 000000000..71ab91ce5 --- /dev/null +++ b/components/test/TestCaseScript/TCPIPStress/PingStress.py @@ -0,0 +1,122 @@ +import time + +from NativeLog import NativeLog +from TCAction import TCActionBase +from comm.NIC import Adapter + +WARNING_COUNT = 2 + + +class PingStress(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.adapter = None + self.target_mode = "STA" + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + self.adapter.close() + del self.adapter + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + test_time = self.test_time * 60 + # ping data len + ping_len = self.ping_len + # test frequency min should be 0.1s, otherwise reply could be missed + test_freq = self.test_freq if self.test_freq > 0.1 else 0.1 + # target mode + target_mode = self.target_mode + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for PingStress script, error is %s" % e) + raise StandardError("Error configuration") + + if target_mode == "STA": + target_ip = self.get_parameter("target_ip") + target_mac = self.get_parameter("target_mac") + pc_mac = self.get_parameter("pc_nic_mac") + pc_nic_name = self.get_parameter("pc_nic") + elif target_mode == "SoftAP": + target_ip = self.get_parameter("target_ap_ip") + target_mac = self.get_parameter("target_ap_mac") + pc_mac = self.get_parameter("pc_wifi_nic_mac") + pc_nic_name = self.get_parameter("pc_wifi_nic") + else: + raise StandardError("Unsupported target mode: %s" % target_mode) + + time_start = time.time() + # open device + self.adapter = Adapter.Adapter(pc_nic_name, "capture+send") + + ret = self.adapter.set_filter("icmp[icmpcode]=icmp-echoreply and ether src %s and ether dst %s" + % (target_mac, pc_mac)) + if ret != "LIBPCAP_SUCCEED": + NativeLog.add_trace_critical("PING Stress test error: %s" % ret) + return + + ret = self.adapter.start_capture() + if ret != "LIBPCAP_SUCCEED": + NativeLog.add_trace_critical("PING Stress test error: %s" % ret) + return + + total_test_count = total_fail_count = successive_fail_count = most_successive_fail_count = 0 + + while (time.time() - time_start) < test_time: + + ping_pdu = self.adapter.create_pdu("ICMP", self.adapter.create_payload("A" * ping_len), + icmp_type="echo-request", ipv4_protocol="ICMP", + ipv4_dst_ip=target_ip, ethernet_dst_addr=target_mac) + # send ping req + ret = self.adapter.ether_send(ping_pdu.to_bytes()) + if ret != "LIBNET_SUCCEED": + NativeLog.add_prompt_trace("libnet send fail, %s" % ret) + continue + total_test_count += 1 + # wait for reply + time.sleep(test_freq) + # should get one ping reply + pdu_list = self.adapter.get_packets() + + if len(pdu_list) == 0: + # failed to get ping reply + total_fail_count += 1 + successive_fail_count += 1 + if successive_fail_count > WARNING_COUNT: + NativeLog.add_trace_critical("Ping Fail: successive fail %u times, total tested %u times" + % (successive_fail_count, total_test_count)) + pass + else: + most_successive_fail_count = most_successive_fail_count \ + if most_successive_fail_count > successive_fail_count \ + else successive_fail_count + successive_fail_count = 0 + pass + pass + NativeLog.add_trace_critical("Ping stress test, total %s times, failed %s times, most successive fail count %s" + % (total_test_count, total_fail_count, most_successive_fail_count)) + self.result_cntx.set_result("Succeed") + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPIPStress/__init__.py b/components/test/TestCaseScript/TCPIPStress/__init__.py new file mode 100755 index 000000000..25ae68917 --- /dev/null +++ b/components/test/TestCaseScript/TCPIPStress/__init__.py @@ -0,0 +1 @@ +__all__ = ["ARPStress", "PingStress"] diff --git a/components/test/TestCaseScript/TCPStress/TCPAP4STA.py b/components/test/TestCaseScript/TCPStress/TCPAP4STA.py new file mode 100755 index 000000000..95be6fbe4 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPAP4STA.py @@ -0,0 +1,168 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import copy +import time +import random +import string + + +class TCPAP4STAResultCheckCntx(TCActionBase.ResultCheckContext): + + def __init__(self, test_action, test_env, name): + TCActionBase.ResultCheckContext.__init__(self, test_action, test_env, name) + self.failed_port = [] + pass + + def run(self): + + while True: + exit_flag = self.wait_exit_event(1) + # force exit + if exit_flag is True: + break + try: + self.lock_data() + temp_cache = copy.deepcopy(self.data_cache) + self.data_cache = [] + finally: + self.unlock_data() + + for _cache in temp_cache: + _data = _cache[1] + if _data.find("user_test_tcpclient_recon_cb") != -1 or _data.find("discon") != -1 \ + or _data.find("No heap available") != -1: + self.failed_port.append(_cache[0]) + NativeLog.add_trace_critical("TCPAP4STA failed, failed on %s" % _cache[0]) + pass + if len(self.failed_port) != 0: + # disconnect happen + break + + def get_test_results(self): + return self.failed_port + + +class TCPAP4STA(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len = self.send_len + # test count + test_count = self.test_count + # server port + server_port = self.server_port + # ap ip + ap_ip = self.ap_ip + # server echo + server_echo = self.server_echo + # station number + sta_number = self.sta_number + # pass standard + pass_standard = self.pass_standard + # send delay + send_delay = self.send_delay + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step0 reboot + checker_stings = [] + test_action_string = [] + + for i in range(sta_number+1): + checker_stings.append("P SSC%d C !!!ready!!!" % (i+1)) + test_action_string.append("SSCC SSC%d reboot" % (i+1)) + + fail_string = "Fail, Fail to reboot" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step1 set ap on SSC1, create server + ssid = "".join([random.choice(string.lowercase) for m in range(10)]) + password = "".join([random.choice(string.lowercase) for m in range(10)]) + checker_stings = ["R SSC1 C dhcp%20server%20start"] + test_action_string = ["SSCC SSC1 ap -S -s %s -p %s -n 10 -t 0 -m 8" % (ssid, password)] + fail_string = "Fail, Fail set ap" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 C server%20starts%20at%20port"] + if server_echo is True: + test_action_string = ["SSCC SSC1 tcp -S -p %s -b 1" % server_port] + else: + test_action_string = ["SSCC SSC1 tcp -S -p %s" % server_port] + fail_string = "Fail, Fail create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 2, 4 SSC target(SSC2 - SSC5) join SSC1 soft AP + checker_stings = [] + test_action_string = [] + + for i in range(sta_number): + checker_stings.append("P SSC%d C ip C mask C gw C get%%20ip%%20of" % (i+2)) + test_action_string.append("SSCC SSC%d ap -C -s %s -p %s" % (i+2, ssid, password)) + + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + + # step 3, create client on SSC2 - SSC5 + checker_stings = [] + test_action_string = [] + + for i in range(sta_number): + checker_stings.append("P SSC%d C tcp%%20client%%20connect%%20with%%20server" % (i+2)) + test_action_string.append("SSCC SSC%d tcp -W -i %s -p %s -c %s -n 1 -l %s -d %d" + % ((i+2), ap_ip, server_port, test_count, send_len, send_delay)) + + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # switch to new result context + self.result_cntx.stop_thread() + self.result_cntx.join() + self.result_cntx = TCPAP4STAResultCheckCntx(self, self.test_env, self.tc_name) + self.result_cntx.start() + + self.result_cntx.join() + + failed_port = self.result_cntx.get_test_results() + if (time.time() - start_time) > pass_standard: + self.result_cntx.set_result("Succeed") + else: + self.result_cntx.set_result("Failed") + NativeLog.add_trace_critical("Failed port: %s" % failed_port) + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/TCPStress/TCPAPNSTA.py b/components/test/TestCaseScript/TCPStress/TCPAPNSTA.py new file mode 100755 index 000000000..6c160a9a0 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPAPNSTA.py @@ -0,0 +1,209 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import time +import random +import string + + +TEST_COUNT_ONE_ROUND = 500 + + +class TCPAPNSTA(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len = self.send_len + # test count + test_count = self.test_count + # server port + server_port = self.server_port + # ap ip + ap_ip = self.ap_ip + # server echo + server_echo = self.server_echo + # station number + sta_number = self.sta_number + # pass standard + pass_standard = self.pass_standard + # send delay + send_delay = self.send_delay + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step0 reboot + checker_stings = [] + test_action_string = [] + + for i in range(sta_number+1): + checker_stings.append("P SSC%d C !!!ready!!!" % (i+1)) + test_action_string.append("SSCC SSC%d reboot" % (i+1)) + + fail_string = "Fail, Fail to reboot" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step1 set ap on SSC1, create server + checker_stings = ["R SSC1 C +MODE:OK"] + test_action_string = ["SSCC SSC1 op -S -o 2"] + fail_string = "Fail, Fail set mode" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + ssid = "".join([random.choice(string.lowercase) for m in range(10)]) + password = "".join([random.choice(string.lowercase) for m in range(10)]) + checker_stings = ["R SSC1 C +SAP:OK"] + test_action_string = ["SSCC SSC1 ap -S -s %s -p %s -n 10 -t 0 -m 8" % (ssid, password)] + fail_string = "Fail, Fail set ap" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -B -t TCP -p %s" % server_port] + fail_string = "Fail, Fail create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -L -s "] + fail_string = "Fail, Fail create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 2, 8 SSC target(SSC2 - SSC9) join SSC1 soft AP + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d C +MODE:OK" % (i+2)) + test_action_string.append("SSCC SSC%d op -S -o 1" % (i+2)) + fail_string = "Fail, Fail set mode" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d C +JAP:CONNECTED,%s" % (i+2, ssid)) + test_action_string.append("SSCC SSC%d ap -C -s %s -p %s" % (i+2, ssid, password)) + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + + # step 3, create client on SSC2 - SSC9 + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d A :BIND:(\d+),OK" % (i+2, i+2)) + test_action_string.append("SSCC SSC%d soc -B -t TCP" % (i+2)) + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for i in range(sta_number): + checker_stings = ["P SSC%d RE CONNECT:(\d+),OK" % (i+2), + "P SSC1 A :ACCEPT:(\d+),.+" % (i+2)] + test_action_string = ["SSCC SSC%d soc -C -s -i %s -p %s" % + (i+2, i+2, ap_ip, server_port)] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 4, do send/recv + while test_count > 0: + _tmp_count = TEST_COUNT_ONE_ROUND if test_count - TEST_COUNT_ONE_ROUND > 0 else test_count + test_count -= TEST_COUNT_ONE_ROUND + + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d RE \+SEND:\d+,OK NC CLOSED" % (i+2)) + test_action_string.append("SSC SSC%d soc -S -s -l %d -n %d -j %d" % + (i+2, i+2, send_len, _tmp_count, send_delay)) + if server_echo is True: + test_action_string.append("SSC SSC1 soc -S -s -l %d -n %d -j %d" % + (i+2, send_len, _tmp_count, send_delay)) + checker_stings.append("P SSC1 RE \"\+SEND:%%%%s,OK\"%%%%() NC CLOSED)" % + (i+2)) + + fail_string = "Fail, Failed to send/recv data" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=300) is False: + break + pass + + if (time.time() - start_time) > pass_standard: + self.result_cntx.set_result("Succeed") + else: + checker_stings = [] + test_action_string = [] + for i in range(sta_number + 1): + checker_stings.append("P SSC%d C CLOSEALL" % (i + 1)) + test_action_string.append("SSCC SSC%d soc -T" % (i + 1)) + fail_string = "Fail, Fail to close socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + server_port = random.randint(20000, 30000) + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -B -t TCP -p %s" % server_port] + fail_string = "Fail, Fail to bind socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -L -s "] + fail_string = "Fail, Fail to listen" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d A :BIND:(\d+),OK" % (i + 2, i + 2)) + test_action_string.append("SSCC SSC%d soc -B -t TCP" % (i + 2)) + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for i in range(sta_number): + checker_stings = ["P SSC%d RE CONNECT:(\d+),OK" % (i + 2), + "P SSC1 A :ACCEPT:(\d+),.+" % (i + 2)] + test_action_string = ["SSCC SSC%d soc -C -s -i %s -p %s" % + (i + 2, i + 2, ap_ip, server_port)] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + self.result_cntx.set_result("Failed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/TCPStress/TCPConnStressTC.py b/components/test/TestCaseScript/TCPStress/TCPConnStressTC.py new file mode 100755 index 000000000..b04ede6ac --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPConnStressTC.py @@ -0,0 +1,363 @@ +import random +import re +import sys +import threading +import time + +import TCPConnUtility +from NativeLog import NativeLog +from TCAction import TCActionBase + +reload(sys) +sys.setdefaultencoding('iso-8859-1') # # use encoding that with 1 Byte length and contain 256 chars + + +DEFAULT_MAX_CONN_ALLOWED = 5 + + +# complicated design because I want to make this script applied for all TCP connect/close test scenarios +# basic flow: try to create max connections, send/recv data if possible, close all connections +# connect: +# 1. find available (target_link_id, socket_id) list, +# notice that target_link_id maybe not correct if PC is client +# (during that time, some link may timeout and got disconnected from FIN_WAIT or other state) +# 2. choose one method from method set, try to connect +# 3. update state table: a)check result and destination state, b)find real target_link_id, c)update +# send/recv data: +# 1. find channels that are possible to send data on all connections +# 2. send data on possible channels +# disconnect: +# 1. find available connections +# 2. choose one method from disconnect set, try to disconnect +# 3. update state table (phase 1) +# async process: +# listen on AT UART port, record all "x,CONNECT" and "x,CLOSE" command +# for "x,CONNECT", append them to self.target_link_id_list, used when need to find real target_link_id +# for "x,CLOSE", update state table (phase 2), if matching connection is pending on wait state, +# close them and remove from state table +class TCPConnStressTC(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.__at1_buff = "" + self.max_conn_allowed = test_env.get_variable_by_name("max_conn") + self.enable_log = True + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + # connection_state_dict: {target_link_id: [socket_id, target_state, socket_state, is_closed]} + # is_closed: found "x,CLOSE" in AT UART port + self.connection_state_dict = dict(zip(range(self.max_conn_allowed), [None] * self.max_conn_allowed)) + self.created_link_id_list = [] + + self.__available_soc_id = range(2, 2+self.max_conn_allowed) + self.__available_link_id = range(self.max_conn_allowed) + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + self.utility = TCPConnUtility.TCPConnUtility(self) + self.state_lock = threading.Lock() + self.link_id_lock = threading.Lock() + self.available_id_lock = threading.Lock() + pass + + def __add_log(self, log_str): + if self.enable_log is True: + NativeLog.add_trace_info(log_str) + + def __get_created_target_link_id(self): + self.link_id_lock.acquire() + try: + link_id = self.created_link_id_list[-1] + self.created_link_id_list = [] + finally: + self.link_id_lock.release() + return link_id + pass + + def __set_created_target_link_id(self, link_id): + self.link_id_lock.acquire() + try: + self.created_link_id_list.append(link_id) + finally: + self.link_id_lock.release() + pass + + def __find_channel_list(self): + channel_list = [] # # [(socket_id, able_to_send, link_id, able_to_send), ] + self.state_lock.acquire() + try: + for link_id in self.connection_state_dict: + state = self.connection_state_dict[link_id] + if state is not None: + channel_list.append([state[0], self.utility.is_able_to_send_data(state[2]), + link_id, self.utility.is_able_to_send_data(state[1])]) + finally: + self.state_lock.release() + return channel_list + pass + + def __established_connection_list(self): + conn_list = [] # # [(socket_id, link_id), ] + self.state_lock.acquire() + try: + for link_id in self.connection_state_dict: + state = self.connection_state_dict[link_id] + if state is not None: + if self.utility.is_established_connection([state[1], state[2]]) is True: + conn_list.append([state[0], link_id]) + finally: + self.state_lock.release() + return conn_list + pass + + # find free socket_id, target_link_id pair + def __get_available_id_list(self): + self.available_id_lock.acquire() + try: + id_list = zip(self.__available_soc_id, self.__available_link_id) + finally: + self.available_id_lock.release() + return id_list + pass + + def __update_available_id_list(self, soc_id, link_id, action="ADD"): + self.available_id_lock.acquire() + try: + if action == "ADD": + self.__available_link_id.append(link_id) + self.__available_soc_id.append(soc_id) + self.__add_log("[AVAILABLE ID]soc %d link %d is available" % (soc_id, link_id)) + elif action == "REMOVE": + self.__available_link_id.remove(link_id) + self.__available_soc_id.remove(soc_id) + self.__add_log("[AVAILABLE ID]soc %d link %d is used" % (soc_id, link_id)) + finally: + self.available_id_lock.release() + + def __update_connection_state_item(self, target_link_id, socket_id=None, + target_state=None, socket_state=None, is_closed=None): + self.state_lock.acquire() + try: + state = self.connection_state_dict[target_link_id] + if state is None: + state = [None] * 4 + if socket_id is not None: + state[0] = socket_id + if target_state is not None: + state[1] = target_state + if socket_state is not None: + state[2] = socket_state + if is_closed is not None: + state[3] = is_closed + + # remove closed connections + closed = self.utility.is_closed_state(state[1]) and (state[3] is True) + if closed is True: + self.__update_available_id_list(state[0], target_link_id) + state = None + # if new connection created + if self.connection_state_dict[target_link_id] is None: + created = self.utility.is_created_state(state[1]) + if created is True: + self.__update_available_id_list(state[0], target_link_id, "REMOVE") + else: + # connection did not created, do not add them to connection state table + state = None + + # set new connection_state + self.connection_state_dict[target_link_id] = state + self.__add_log("[STATE] link id is %d, state is %s" % (target_link_id, state)) + except StandardError, e: + pass + finally: + self.state_lock.release() + pass + + # update state table: if result is false, return, if result is true: + # for connect, find real link id, update table according to destination state + # for disconnect, if target in SOC_CLOSE_STATE && catch "x,CLOSE" from AT, remove the item + def update_connection_state_table(self, conn_id, destination_state=None): + if isinstance(conn_id, list) is True or isinstance(conn_id, tuple) is True: + socket_id = conn_id[0] + try: + target_link_id = self.__get_created_target_link_id() + except IndexError: + target_link_id = conn_id[1] + self.__add_log("[STATE]fail to get link id, state is %s, %s" + % (destination_state[0], destination_state[1])) + self.__update_connection_state_item(target_link_id, socket_id, + destination_state[0], destination_state[1]) + pass + else: # # called when recv CLOSED + target_link_id = conn_id + self.__update_connection_state_item(target_link_id, is_closed=True) + pass + pass + + def process_at_data(self, data): + pos1 = 0 + pos2 = 0 + connect = re.compile("\d,CONNECT\r\n") + close = re.compile("\d,CLOSED\r\n") + connect_match = connect.findall(data) + close_match = close.findall(data) + close = re.compile("\d,CONNECT FAIL\r\n") + close_match += close.findall(data) + if len(connect_match) != 0: + pos1 = data.find(connect_match[-1]) + 9 + # append last connected link id + self.__set_created_target_link_id(int(connect_match[-1][:1])) + pass + if len(close_match) != 0: + pos2 = data.find(close_match[-1]) + 7 + # update for all closed links + for close_str in close_match: + self.update_connection_state_table(int(close_str[:1])) + pass + pos = pos1 if pos1 > pos2 else pos2 + + return data[pos:] + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # configurable params + # mandatory params + try: + connect_method_set = self.connect_method_set + test_count = self.test_count + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPConnSingleMode script, error is %s" % e) + raise StandardError("Error configuration") + # optional params + try: + disconn_method_set = self.disconn_method_set + except StandardError: + disconn_method_set = ["D_05"] + pass + try: + delay = self.delay + except StandardError: + delay = 0 + pass + try: + check_data_len = self.check_data_len + except StandardError: + check_data_len = [0, 0] + pass + if isinstance(check_data_len, list) is False: + check_data_len = [check_data_len] * 2 + # configurable params + + # step1 use to create server on both PC and target side + checker_stings = ["SOCP SOC_COM L OK", "ATP AT1 L OK"] + test_action_string = ["SOC SOC1 LISTEN ", "ATC AT1 CIPSERVER 1 "] + fail_string = "Fail, Fail on create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for tested_count in xrange(test_count): + # step2 do connect + available_id_list = self.__get_available_id_list() + + for conn_id in available_id_list: + connect_method = random.choice(connect_method_set) + # ret, destination_state = self.utility.execute_tcp_method(connect_method, conn_id) + try: + self.__add_log("[ACTION]connect method is %s, connect id is %s" + % (connect_method, conn_id)) + ret, destination_state = self.utility.execute_tcp_method(connect_method, conn_id) + except StandardError, e: + NativeLog.add_trace_critical("Error in connect, error is %s" % e) + raise StandardError("Exception happen when connect") + if ret is False: + # connect fail, should terminate TC and mark as fail + return + else: + # succeed, append to table + self.update_connection_state_table(conn_id, destination_state) + if delay != 0: + time.sleep(delay) + + # step 3 send/recv test data + # # [(socket_id, able_to_send, link_id, able_to_send)] + self.__add_log("[ACTION]SEND/RECV data") + channel_list = self.__find_channel_list() + for channel in channel_list: + _check_data_len = [0, 0] + if channel[1] is True: + _check_data_len[0] = check_data_len[0] + if channel[3] is True: + _check_data_len[1] = check_data_len[1] + ret = self.utility.send_test_data(channel[0], + channel[2], + _check_data_len) + if ret is False: + # send/recv fail, should terminate TC and mark as fail + return + if delay != 0: + time.sleep(delay) + + # step 4 close all established connections + # (socket_id, link_id) + conn_list = self.__established_connection_list() + for conn_id in conn_list: + disconn_method = random.choice(disconn_method_set) + try: + self.__add_log("[ACTION]disconnect method is %s, connect id is %s" + % (disconn_method, conn_id)) + ret, destination_state = self.utility.execute_tcp_method(disconn_method, conn_id) + except StandardError, e: + NativeLog.add_trace_critical("Error in disconnect, error is %s" % e) + raise StandardError("Exception happen when disconnect") + if ret is False: + # connect fail, should terminate TC and mark as fail + return + else: + # succeed, append to table + self.update_connection_state_table(conn_id, destination_state) + if delay != 0: + time.sleep(delay) + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + # find "x,CONNECT" and "x,CLOSE" + if port_name.find("AT") != -1: + self.__at1_buff += data + self.__at1_buff = self.process_at_data(self.__at1_buff) + + +def main(): + at1_buff = "" + pos1 = 0 + pos2 = 0 + data = "dafgajglajdfg0,CLOSEjdalghalksdg1,CONNECT\r\n\r\n3,CONNECT4,CLOSEadfaasdf" + at1_buff += data + connect = re.compile("\d,CONNECT") + close = re.compile("\d,CLOSE") + connect_match = connect.findall(at1_buff) + close_match = close.findall(at1_buff) + if len(connect_match) != 0: + pos1 = at1_buff.find(connect_match[-1]) + 9 + pass + if len(close_match) != 0: + pos2 = at1_buff.find(close_match[-1]) + 7 + pass + pos = pos1 if pos1 > pos2 else pos2 + + at1_buff = at1_buff[pos:] + + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/TCPStress/TCPConnUtility.py b/components/test/TestCaseScript/TCPStress/TCPConnUtility.py new file mode 100755 index 000000000..305936901 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPConnUtility.py @@ -0,0 +1,273 @@ +from NativeLog import NativeLog + +# make sure target do not listen on this port +ERROR_PORT = 23333 + + +def unused_param(param): + return param + + +class TCPUtilError(StandardError): + pass + + +class TCPConnUtility(object): + METHOD_RESULT = {"C_01": ("ESTABLISHED", "ESTABLISHED"), # target TCP peer state, PC TCP peer state + "C_02": ("SYNC_SENT", "CLOSED"), + "C_03": ("CLOSED", "CLOSED"), + "C_04": ("SYN_RCVD", "ESTABLISHED"), + "C_05": ("ESTABLISHED", "ESTABLISHED"), + "C_06": ("CLOSED", "CLOSED"), + "C_07": ("CLOSED", "CLOSED"), + "C_08": ("CLOSED", "CLOSED"), + "D_01": ("TIME_WAIT", "CLOSED"), + "D_02": ("TIME_WAIT", "TIME_WAIT"), + "D_03": ("FIN_WAIT_2", "CLOSE_WAIT"), + "D_04": ("FIN_WAIT_1", "CLOSE_WAIT"), + "D_05": ("CLOSED", "TIME_WAIT"), + "D_06": ("CLOSED", "CLOSED"), + "D_07": ("CLOSE_WAIT", "FIN_WAIT2"), + "D_08": ("TIME_WAIT", "CLOSED"), } + + SOC_CLOSED_STATE = ("FIN_WAIT_1", "FIN_WAIT_2", "CLOSING", "TIME_WAIT", "LAST_ACK", "CLOSED") + SOC_CREATED_STATE = ("SYNC_RCVD", "SYNC_SENT", "ESTABLISHED") + SOC_SEND_DATA_STATE = ("ESTABLISHED", "CLOSE_WAIT") + SOC_ESTABLISHED_STATE = ("ESTABLISHED", ) + + def __init__(self, tc_action): + self.tc_action = tc_action + self.pc_server_port = "" + self.target_server_port = "" + self.pc_ip = "" + self.target_ip = "" + pass + + def config_parameters(self, pc_server_port=None, target_server_port=None, pc_ip=None, target_ip=None): + if pc_ip is not None: + self.pc_ip = pc_ip + if target_ip is not None: + self.target_ip = target_ip + if pc_server_port is not None: + self.pc_server_port = pc_server_port + if target_server_port is not None: + self.target_server_port = target_server_port + pass + + def __connect_c_01(self, conn_id): + checker_stings = ["SOCR SOC1 C +ACCEPT", "ATR AT1 NC CLOSE L OK"] + test_action_strings = ["ATC AT1 CIPSTART %d \"TCP\" %s %s" % + (conn_id[1], self.pc_ip, self.pc_server_port)] + fail_string = "Fail, Target failed on connect to PC server" + ret = self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) + if ret is False: + return ret + + checker_stings = ["SOCR SOC_COM L OK"] + test_action_strings = ["SOC SOC1 ACCEPT SOC%d" % conn_id[0]] + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) + pass + + def __connect_c_02(self, conn_id): + checker_stings = ["ATR AT1 C ERROR"] + test_action_strings = ["ATC AT1 CIPSTART %d \"TCP\" %s %s" % + (conn_id[1], self.pc_ip, ERROR_PORT)] + fail_string = "Fail, Target fail on connect to port not listened" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, fail_string) + pass + + def __connect_c_03(self, conn_id): + pass + + def __connect_c_04(self, conn_id): + pass + + def __connect_c_05(self, conn_id): + checker_stings = ["SOCP SOC_COM OK", "ATP AT1 C CONNECT"] + test_action_strings = ["SOC SOC%d CONNECT %s %s" % + (conn_id[0], self.target_server_port, self.target_ip)] + fail_string = "Fail, PC fail on connect to target server" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + pass + + def __connect_c_06(self, conn_id): + pass + + def __connect_c_07(self, conn_id): + # no checker strings, only try to create + # while connect is a blocking function, will return till target reply RST + checker_stings = ["SOCR SOC_COM C CLOSE"] + test_action_strings = ["SOC SOC%d CONNECT %s %s" % + (conn_id[0], ERROR_PORT, self.target_ip)] + fail_string = "Fail, PC fail on connect to target server" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=2000, check_freq=0.01) + pass + + def __connect_c_08(self, conn_id): + pass + + def __close_d_01(self, conn_id): + checker_stings = ["ATP AT1 C %d,CLOSED" % conn_id[1], "SOCP SOC_COM C CLOSE"] + test_action_strings = ["SOC SOC%d SETOPT CLOSE_OPT IMM_SEND_FIN" % conn_id[0], + "ATS AT1 AT+CIPCLOSE=%d" % conn_id[1]] + fail_string = "Fail, Fail to close socket using D_01" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + pass + + def __close_d_02(self, conn_id): + pass + + def __close_d_03(self, conn_id): + checker_stings = [] + test_action_strings = ["SOC SOC%d SETOPT CLOSE_OPT WAIT_TO" % conn_id[0], + "ATS AT1 AT+CIPCLOSE=%d" % conn_id[1]] + fail_string = "Fail, Fail to close socket using D_01" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=500, check_freq=0.01) + pass + + def __close_d_04(self, conn_id): + pass + + def __close_d_05(self, conn_id): + checker_stings = ["ATP AT1 C %d,CLOSED" % conn_id[1]] + test_action_strings = ["SOC SOC%d SETOPT CLOSE_OPT IMM_SEND_FIN" % conn_id[0], + "SOC SOC%d CLOSE" % conn_id[0]] + fail_string = "Fail, Fail to close socket using D_05" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + pass + + def __close_d_06(self, conn_id): + # 1. set PC socket close option, stop calling recv; send in target + checker_stings = ["ATP AT1 C >"] + test_action_strings = ["SOC SOC%d STOPRECV" % conn_id[0], + "SOC SOC%d SETOPT CLOSE_OPT IMM_SEND_RST" % conn_id[0], + "ATS AT1 AT+CIPSEND=%d,5" % conn_id[1]] + fail_string = "Fail, Fail to close socket using D_06" + ret = self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + if ret is False: + return ret + + # 2. send 5 bytes to socket + checker_stings = ["ATP AT1 C OK"] + test_action_strings = ["ATSN AT1 5"] + fail_string = "Fail, Fail to close socket using D_06" + ret = self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + if ret is False: + return ret + + # 3. close socket + checker_stings = ["ATP AT1 OR 2 C %d,CONNECT C %d,CLOSED" % (conn_id[1], conn_id[1])] + test_action_strings = ["SOC SOC%d CLOSE" % conn_id[0]] + fail_string = "Fail, Fail to close socket using D_06" + return self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=200, check_freq=0.01) + pass + + def __close_d_07(self, conn_id): + pass + + def __close_d_08(self, conn_id): + pass + + def send_test_data(self, socket_id, target_link_id, check_data_len): + # check_data_len[0] for socket data len, check_data_len[1] for target link data len + fail_string = "Fail, Fail on send and recv data" + + ret = True + + for i in range(1): + if check_data_len[1] != 0: + checker_stings = ["ATP AT1 C >"] + test_action_strings = ["ATS AT1 AT+CIPSEND=%d,%d" % (target_link_id, check_data_len[1])] + if self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail on target send command for link %d" % target_link_id) + ret = False + break + checker_stings = ["SOCP SOC%d RL %d" % (socket_id, check_data_len[1]), "ATP AT1 C OK"] + test_action_strings = ["ATSN AT1 %d" % check_data_len[1]] + if self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail on target send for link %d, send or recv error" % target_link_id) + ret = False + break + + if check_data_len[0] != 0: + checker_stings = ["ATP AT1 DL %d+%d" % (target_link_id, check_data_len[0])] + test_action_strings = ["SOC SOC%d SEND %d" % (socket_id, check_data_len[0])] + + if self.tc_action.load_and_exe_one_step(checker_stings, test_action_strings, + fail_string, check_time=20) is False: + NativeLog.add_trace_critical("Fail to receive PC SOC%d sent data" % socket_id) + ret = False + break + + # return ret + # for now do not validate data + return True + + TCP_ACTION_DICT = {"C_01": __connect_c_01, + "C_02": __connect_c_02, + "C_03": __connect_c_03, + "C_04": __connect_c_04, + "C_05": __connect_c_05, + "C_06": __connect_c_06, + "C_07": __connect_c_07, + "C_08": __connect_c_08, + "D_01": __close_d_01, + "D_02": __close_d_02, + "D_03": __close_d_03, + "D_04": __close_d_04, + "D_05": __close_d_05, + "D_06": __close_d_06, + "D_07": __close_d_07, + "D_08": __close_d_08, + } + + def get_method_destination_state(self, method): + return self.METHOD_RESULT[method] + + def execute_tcp_method(self, method, conn_id): + if method in self.METHOD_RESULT: + return self.TCP_ACTION_DICT[method](self, conn_id), self.get_method_destination_state(method) + else: + raise TCPUtilError("Not TCP connection method") + pass + + def is_created_state(self, state): + if state in self.SOC_CREATED_STATE: + return True + else: + return False + + def is_closed_state(self, state): + if state in self.SOC_CLOSED_STATE: + return True + else: + return False + + def is_able_to_send_data(self, state): + if state in self.SOC_SEND_DATA_STATE: + return True + else: + return False + + def is_established_connection(self, state): + if state[0] in self.SOC_ESTABLISHED_STATE and state[1] in self.SOC_ESTABLISHED_STATE: + return True + else: + return False + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPConnection.py b/components/test/TestCaseScript/TCPStress/TCPConnection.py new file mode 100755 index 000000000..8b481c7df --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPConnection.py @@ -0,0 +1,321 @@ +import random +import re +import socket +import threading +import time + +import TCPConnectionUtility +from NativeLog import NativeLog +from TCAction import PerformanceTCBase + +DELAY_RANGE = [10, 3000] +CONNECTION_STRUCTURE = ("Connection handler", "PC socket", "Target socket id", + "Target port", "PC port", "PC state", "Target state") + + +class CheckerBase(threading.Thread): + + CHECK_ITEM = ("CONDITION", "NOTIFIER", "ID", "DATA") + SLEEP_TIME = 0.1 # sleep 100ms between each check action + + def __init__(self): + threading.Thread.__init__(self) + self.setDaemon(True) + self.exit_event = threading.Event() + self.sync_lock = threading.Lock() + self.check_item_list = [] + self.check_item_id = 0 + + def run(self): + while self.exit_event.isSet() is False: + self.process() + pass + + def process(self): + pass + + def add_check_item(self, condition, notifier): + with self.sync_lock: + check_item_id = self.check_item_id + self.check_item_id += 1 + self.check_item_list.append(dict(zip(self.CHECK_ITEM, (condition, notifier, check_item_id, str())))) + return check_item_id + + def remove_check_item(self, check_item_id): + ret = None + with self.sync_lock: + check_items = filter(lambda x: x["ID"] == check_item_id, self.check_item_list) + if len(check_items) > 0: + self.check_item_list.remove(check_items[0]) + ret = check_items[0]["DATA"] + return ret + + def exit(self): + self.exit_event.set() + pass + + +# check on serial port +class SerialPortChecker(CheckerBase): + def __init__(self, serial_reader): + CheckerBase.__init__(self) + self.serial_reader = serial_reader + pass + + # check condition for serial is compiled regular expression pattern + @staticmethod + def do_check(check_item, data): + match = check_item["CONDITION"].search(data) + if match is not None: + pos = data.find(match.group()) + len(match.group()) + # notify user + check_item["NOTIFIER"]("serial", match) + else: + pos = -1 + return pos + + def process(self): + # do check + with self.sync_lock: + # read data + new_data = self.serial_reader() + # NativeLog.add_trace_info("[debug][read data] %s" % new_data) + # do check each item + for check_item in self.check_item_list: + # NativeLog.add_trace_info("[debug][read data][ID][%s]" % check_item["ID"]) + check_item["DATA"] += new_data + self.do_check(check_item, check_item["DATA"]) + time.sleep(self.SLEEP_TIME) + + +# handle PC TCP server accept and notify user +class TCPServerChecker(CheckerBase): + def __init__(self, server_sock): + CheckerBase.__init__(self) + self.server_sock = server_sock + server_sock.settimeout(self.SLEEP_TIME) + self.accepted_socket_list = [] + + # check condition for tcp accepted sock is tcp source port + @staticmethod + def do_check(check_item, data): + for sock_addr_pair in data: + addr = sock_addr_pair[1] + if addr[1] == check_item["CONDITION"]: + # same port, so this is the socket that matched, notify and remove it from list + check_item["NOTIFIER"]("tcp", sock_addr_pair[0]) + data.remove(sock_addr_pair) + + def process(self): + # do accept + try: + client_sock, addr = self.server_sock.accept() + self.accepted_socket_list.append((client_sock, addr)) + except socket.error: + pass + # do check + with self.sync_lock: + check_item_list = self.check_item_list + for check_item in check_item_list: + self.do_check(check_item, self.accepted_socket_list) + pass + + +# this thread handles one tcp connection. +class ConnectionHandler(threading.Thread): + CHECK_FREQ = CheckerBase.SLEEP_TIME/2 + + def __init__(self, utility, serial_checker, tcp_checker, connect_method, disconnect_method): + threading.Thread.__init__(self) + self.setDaemon(True) + self.utility = utility + self.connect_method = connect_method + self.disconnect_method = disconnect_method + self.exit_event = threading.Event() + # following members are used in communication with checker threads + self.serial_checker = serial_checker + self.tcp_checker = tcp_checker + self.serial_notify_event = threading.Event() + self.tcp_notify_event = threading.Event() + self.serial_result = None + self.tcp_result = None + self.serial_check_item_id = None + self.tcp_check_item_id = None + self.data_cache = None + pass + + def new_connection_structure(self): + connection = dict.fromkeys(CONNECTION_STRUCTURE, None) + connection["Connection handler"] = self + return connection + + def run(self): + while self.exit_event.isSet() is False: + connection = self.new_connection_structure() + # do connect + connect_method_choice = random.choice(self.connect_method) + self.utility.execute_tcp_method(connect_method_choice, connection) + # check if established + if self.utility.is_established_state(connection) is True: + time.sleep(float(random.randint(DELAY_RANGE[0], DELAY_RANGE[1]))/1000) + # do disconnect if established + disconnect_method_choice = random.choice(self.disconnect_method) + self.utility.execute_tcp_method(disconnect_method_choice, connection) + # make sure target socket closed + self.utility.close_connection(connection) + time.sleep(float(random.randint(DELAY_RANGE[0], DELAY_RANGE[1]))/1000) + pass + + # serial_condition: re string + # tcp_condition: target local port + def add_checkers(self, serial_condition=None, tcp_condition=None): + # cleanup + self.serial_result = None + self.tcp_result = None + self.serial_notify_event.clear() + self.tcp_notify_event.clear() + # serial_checker + if serial_condition is not None: + pattern = re.compile(serial_condition) + self.serial_check_item_id = self.serial_checker.add_check_item(pattern, self.notifier) + else: + # set event so that serial check always pass + self.serial_notify_event.set() + if tcp_condition is not None: + self.tcp_check_item_id = self.tcp_checker.add_check_item(tcp_condition, self.notifier) + else: + # set event so that tcp check always pass + self.tcp_notify_event.set() + # NativeLog.add_trace_info("[Debug] add check item %s, connection is %s" % (self.serial_check_item_id, self)) + pass + + def get_checker_results(self, timeout=5): + time1 = time.time() + while time.time() - time1 < timeout: + # if one type of checker is not set, its event will be set in add_checkers + if self.serial_notify_event.isSet() is True and self.tcp_notify_event.isSet() is True: + break + time.sleep(self.CHECK_FREQ) + # do cleanup + # NativeLog.add_trace_info("[Debug] remove check item %s, connection is %s" % (self.serial_check_item_id, self)) + self.data_cache = self.serial_checker.remove_check_item(self.serial_check_item_id) + self.tcp_checker.remove_check_item(self.tcp_check_item_id) + # self.serial_check_item_id = None + # self.tcp_check_item_id = None + return self.serial_result, self.tcp_result + + def notifier(self, typ, result): + if typ == "serial": + self.serial_notify_event.set() + self.serial_result = result + elif typ == "tcp": + self.tcp_notify_event.set() + self.tcp_result = result + + def exit(self): + self.exit_event.set() + pass + + +class TCPConnection(PerformanceTCBase.PerformanceTCBase): + def __init__(self, name, test_env, cmd_set, timeout=120, log_path=None): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.max_connection = 5 + self.execute_time = 120 # execute time default 120 minutes + self.pc_ip = "pc_ip" + self.target_ip = "target_ip" + self.connect_method = ["C_01"] + self.disconnect_method = ["D_05"] + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + self.error_event = threading.Event() + self.serial_lock = threading.Lock() + pass + + def serial_reader(self): + return self.serial_read_data("SSC1") + + def send_ssc_command(self, data): + with self.serial_lock: + time.sleep(0.05) + self.serial_write_line("SSC1", data) + + def error_detected(self): + self.error_event.set() + + def process(self): + # parameters + max_connection = self.max_connection + execute_time = self.execute_time * 60 + pc_ip = self.get_parameter(self.pc_ip) + target_ip = self.get_parameter(self.target_ip) + connect_method = self.connect_method + disconnect_method = self.disconnect_method + server_port = random.randint(30000, 50000) + + # step 1, create TCP server on target and PC + # create TCP server on target + self.serial_write_line("SSC1", "soc -B -t TCP -p %s" % server_port) + match = self.check_regular_expression("SSC1", re.compile("BIND:(\d+),OK")) + if match is None: + NativeLog.add_prompt_trace("Failed to create TCP server on target") + return + target_sock_id = match.group(1) + + self.serial_write_line("SSC1", "soc -L -s %s" % target_sock_id) + if self.check_response("SSC1", "+LISTEN:%s,OK" % target_sock_id) is False: + NativeLog.add_prompt_trace("Failed to create TCP server on target") + return + + # create TCP server on PC + try: + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, server_port)) + server_sock.listen(5) + except StandardError: + NativeLog.add_prompt_trace("Failed to create TCP server on PC") + return + + # step 2, create checker + serial_port_checker = SerialPortChecker(self.serial_reader) + tcp_server_checker = TCPServerChecker(server_sock) + serial_port_checker.start() + tcp_server_checker.start() + + # step 3, create 5 thread and do connection + utility = TCPConnectionUtility.Utility(self, server_port, server_port, pc_ip, target_ip) + work_thread = [] + for i in range(max_connection): + t = ConnectionHandler(utility, serial_port_checker, tcp_server_checker, + connect_method, disconnect_method) + work_thread.append(t) + t.start() + + # step 4, wait and exit + self.error_event.wait(execute_time) + # close all threads + for t in work_thread: + t.exit() + t.join() + serial_port_checker.exit() + tcp_server_checker.exit() + serial_port_checker.join() + tcp_server_checker.join() + + if self.error_event.isSet() is False: + # no error detected + self.set_result("Succeed") + pass + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPConnectionUtility.py b/components/test/TestCaseScript/TCPStress/TCPConnectionUtility.py new file mode 100755 index 000000000..f28218af0 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPConnectionUtility.py @@ -0,0 +1,251 @@ +import random +import socket +import threading + +from NativeLog import NativeLog + +# from NativeLog import NativeLog + +# make sure target do not listen on this port +ERROR_PORT = 62685 + + +class Utility(object): + METHOD_RESULT = {"C_01": ("ESTABLISHED", "ESTABLISHED"), # target TCP peer state, PC TCP peer state + "C_02": ("SYNC_SENT", "CLOSED"), + "C_03": ("CLOSED", "CLOSED"), + "C_04": ("SYN_RCVD", "ESTABLISHED"), + "C_05": ("ESTABLISHED", "ESTABLISHED"), + "C_06": ("CLOSED", "CLOSED"), + "C_07": ("CLOSED", "CLOSED"), + "C_08": ("CLOSED", "CLOSED"), + "D_01": ("TIME_WAIT", "CLOSED"), + "D_02": ("TIME_WAIT", "TIME_WAIT"), + "D_03": ("FIN_WAIT_2", "CLOSE_WAIT"), + "D_04": ("FIN_WAIT_1", "CLOSE_WAIT"), + "D_05": ("CLOSED", "TIME_WAIT"), + "D_06": ("CLOSED", "CLOSED"), + "D_07": ("CLOSE_WAIT", "FIN_WAIT2"), + "D_08": ("TIME_WAIT", "CLOSED"), } + + SOC_CLOSED_STATE = ("FIN_WAIT_1", "FIN_WAIT_2", "CLOSING", "TIME_WAIT", "LAST_ACK", "CLOSED") + SOC_CREATED_STATE = ("SYNC_RCVD", "ESTABLISHED") + SOC_SEND_DATA_STATE = ("ESTABLISHED", "CLOSE_WAIT") + SOC_ESTABLISHED_STATE = ("ESTABLISHED", ) + + def __init__(self, tc_action, pc_server_port, target_server_port, pc_ip, target_ip): + self.tc_action = tc_action + self.pc_server_port = pc_server_port + self.target_server_port = target_server_port + self.pc_ip = pc_ip + self.target_ip = target_ip + self.pc_close_wait_socket_list = [] + self.sync_lock = threading.Lock() + pass + + # create a tcp socket, return True or False + def __create_tcp_socket(self, connection): + connection_handler = connection["Connection handler"] + connection["Target port"] = random.randint(10000, 60000) + connection_handler.add_checkers("BIND:(\d+),OK,%s,%s" + % (self.target_ip, connection["Target port"])) + self.tc_action.send_ssc_command("soc -B -t TCP -i %s -p %s" % (self.target_ip, connection["Target port"])) + serial_result, tcp_result = connection_handler.get_checker_results() + if serial_result is not None: + connection["Target socket id"] = serial_result.group(1) + return True + else: + return False + + # target do connect, return True or False + def __target_do_connect(self, connection, dest_ip, dest_port, timeout=20): + connection_handler = connection["Connection handler"] + connection_handler.add_checkers("CONNECT:%s,OK" % connection["Target socket id"], + connection["Target port"]) + self.tc_action.send_ssc_command("soc -C -s %s -i %s -p %s" + % (connection["Target socket id"], dest_ip, dest_port)) + serial_result, tcp_result = connection_handler.get_checker_results(timeout) + if serial_result is not None and tcp_result is not None: + connection["PC socket"] = tcp_result + return True + else: + return False + pass + + # pc do connect, return True or False + def __pc_do_connect(self, connection, dest_ip, dest_port, timeout=20): + connection_handler = connection["Connection handler"] + sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + while True: + connection["PC port"] = random.randint(10000, 60000) + try: + sock.bind((self.pc_ip, connection["PC port"])) + break + except socket.error, e: + if e.errno == 10048: # socket port reuse + continue + sock.settimeout(timeout) + connection["PC socket"] = sock + connection_handler.add_checkers("ACCEPT:(\d+),\d+,%s,%s" + % (self.pc_ip, connection["PC port"])) + try: + sock.connect((dest_ip, dest_port)) + except socket.error: + pass + serial_result, tcp_result = connection_handler.get_checker_results() + if serial_result is not None: + connection["Target socket id"] = serial_result.group(1) + return True + else: + return False + pass + + def connect_c_01(self, connection): + if self.__create_tcp_socket(connection) is True: + return self.__target_do_connect(connection, self.pc_ip, self.pc_server_port) + else: + return False + + def connect_c_02(self, connection): + if self.__create_tcp_socket(connection) is True: + return not self.__target_do_connect(connection, self.pc_ip, ERROR_PORT, timeout=5) + else: + return False + + def connect_c_03(self, connection): + return False + + def connect_c_04(self, connection): + return False + + def connect_c_05(self, connection): + return self.__pc_do_connect(connection, self.target_ip, self.target_server_port) + + def connect_c_06(self, connection): + return False + + def connect_c_07(self, connection): + return not self.__pc_do_connect(connection, self.target_ip, ERROR_PORT) + + def connect_c_08(self, connection): + return False + + def __target_socket_close(self, connection): + connection_handler = connection["Connection handler"] + if connection["Target socket id"] is not None: + connection_handler.add_checkers("CLOSE:%s" % connection["Target socket id"]) + self.tc_action.send_ssc_command("soc -T -s %s" % connection["Target socket id"]) + serial_result, tcp_result = connection_handler.get_checker_results() + connection["Target socket id"] = None + else: + serial_result = None + return True if serial_result is not None else False + + @staticmethod + def __pc_socket_close(connection): + connection_handler = connection["Connection handler"] + if connection["PC socket"] is not None: + connection_handler.add_checkers("CLOSED:%s" % connection["Target socket id"]) + connection["PC socket"].close() + serial_result, tcp_result = connection_handler.get_checker_results() + connection["PC socket"] = None + else: + serial_result = None + return True if serial_result is not None else False + + def close_d_01(self, connection): + connection["PC socket"] = None + return self.__target_socket_close(connection) + + def close_d_02(self, connection): + pass + + def close_d_03(self, connection): + with self.sync_lock: + self.pc_close_wait_socket_list.append(connection["PC socket"]) + return self.__target_socket_close(connection) + pass + + def close_d_04(self, connection): + pass + + def close_d_05(self, connection): + return self.__pc_socket_close(connection) + + def close_d_06(self, connection): + # target send data to PC, PC don't recv and close socket + connection_handler = connection["Connection handler"] + connection_handler.add_checkers("SEND:%s,OK" % connection["Target socket id"]) + self.tc_action.send_ssc_command("soc -S -s %s -l 100" % connection["Target socket id"]) + serial_result, tcp_result = connection_handler.get_checker_results() + if serial_result is None: + return False + return self.__pc_socket_close(connection) + + def close_d_07(self, connection): + # PC shutdown WR + result = False + try: + connection["PC socket"].shutdown(socket.SHUT_WR) + result = True + except StandardError: + pass + return result + + def close_d_08(self, connection): + pass + + def close_connection(self, connection): + self.__target_socket_close(connection) + pass + + TCP_ACTION_DICT = {"C_01": connect_c_01, + "C_02": connect_c_02, + "C_03": connect_c_03, + "C_04": connect_c_04, + "C_05": connect_c_05, + "C_06": connect_c_06, + "C_07": connect_c_07, + "C_08": connect_c_08, + "D_01": close_d_01, + "D_02": close_d_02, + "D_03": close_d_03, + "D_04": close_d_04, + "D_05": close_d_05, + "D_06": close_d_06, + "D_07": close_d_07, + "D_08": close_d_08, + } + + def get_method_destination_state(self, method): + return self.METHOD_RESULT[method] + + def execute_tcp_method(self, method, connection): + if method in self.METHOD_RESULT: + result = self.TCP_ACTION_DICT[method](self, connection) + if result is True: + state = self.get_method_destination_state(method) + connection["Target state"] = state[0] + connection["PC state"] = state[1] + else: + NativeLog.add_prompt_trace("[TCPConnection] tcp method %s fail, connection is %s" + % (method, connection)) + NativeLog.add_trace_info("[TCPConnection][data cache][check item %s] %s" + % (connection["Connection handler"].serial_check_item_id, + connection["Connection handler"].data_cache)) + else: + raise StandardError("Not TCP connection method") + return result + + def is_established_state(self, connection): + return True if connection["Target state"] in self.SOC_CREATED_STATE else False + + def is_closed_state(self, connection): + return True if connection["Target state"] in self.SOC_CLOSED_STATE else False + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPDataValidation.py b/components/test/TestCaseScript/TCPStress/TCPDataValidation.py new file mode 100755 index 000000000..b056af38f --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPDataValidation.py @@ -0,0 +1,244 @@ +import os +import random +import threading +import socket +import time +import re + +from TCAction import TCActionBase +from TCAction import PerformanceTCBase +from NativeLog import NativeLog + + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "Throughput") + + +AP_PROP_KEY = ("ssid", "password", "apc") + + +def calc_hash(index): + return (index & 0xffffffff) % 83 + (index & 0xffffffff) % 167 + + +def verify_data(data, start_index): + for i, c in enumerate(data): + if ord(c) != calc_hash(start_index + i): + NativeLog.add_trace_critical("[Data Validation Error] target sent data index %u is error." + " Sent data is %x, should be %x" + % (start_index + i, ord(c), calc_hash(start_index + i))) + return False + return True + + +def make_validation_data(length, start_index): + return bytes().join([chr(calc_hash(start_index + i)) for i in range(length)]) + + +class SendThread(threading.Thread): + def __init__(self, sock, send_len): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.send_len = send_len + self.exit_event = threading.Event() + pass + + def exit(self): + self.exit_event.set() + + def run(self): + index = 0 + while self.exit_event.isSet() is False: + data = make_validation_data(self.send_len, index) + try: + self.sock.send(data) + index += self.send_len + except StandardError: + # pass but not exit thread + time.sleep(1) + continue + pass + + +class RecvThread(threading.Thread): + def __init__(self, sock): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.exit_event = threading.Event() + + def exit(self): + self.exit_event.set() + + def run(self): + index = 0 + while self.exit_event.isSet() is False: + if self.sock is not None: + try: + data = self.sock.recv(8*1024) + except StandardError, e: + NativeLog.add_exception_log(e) + NativeLog.add_trace_critical("recv error, connection closed") + break + if verify_data(data, index) is not True: + break + index += len(data) + else: + time.sleep(1) + pass + + +class ValidationThread(threading.Thread): + def __init__(self, tc_action): + threading.Thread.__init__(self) + self.setDaemon(True) + self.tc_action = tc_action + self.exit_event = threading.Event() + + def exit(self): + self.exit_event.set() + + def run(self): + while self.exit_event.isSet() is False: + if self.tc_action.check_response("SSC1", "DATA_ERROR", 5) is True: + NativeLog.add_trace_critical("[Data Validation Error] target recv data error") + break + pass + + +class TCPDataValidation(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.send_len = 1460 + self.tx_enable = True + self.rx_enable = True + self.conn_num = 1 + self.test_time = 300 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + + try: + # configurable params + send_len = self.send_len + tx_enable = self.tx_enable + rx_enable = self.rx_enable + conn_num = self.conn_num + test_time = self.test_time * 60 # convert minutes to seconds + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPThroughput script, error is %s" % e) + raise StandardError("Error configuration") + + # init throughput result data + test_item = "" + if tx_enable is True: + test_item += "Tx" + if rx_enable is True: + test_item += "Rx" + if test_item == "": + raise StandardError("no throughput test item") + + pc_ip = self.get_parameter("pc_ip") + tcp_port = random.randint(10000, 50000) + + # disable recv print during throughput test + self.serial_write_line("SSC1", "soc -R -o 0") + if self.check_response("SSC1", "+RECVPRINT", 2) is False: + NativeLog.add_trace_critical("Fail, Fail to disable recv print") + + # create server + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, tcp_port)) + server_sock.settimeout(5) + server_sock.listen(5) + + sock_id_list = [] + send_thread_list = [] + recv_thread_list = [] + + # step 4 create tcp connection + for i in range(conn_num): + self.serial_write_line("SSC1", "soc -B -t TCP") + match = self.check_regular_expression("SSC1", re.compile("\+BIND:(\d+),OK"), 2) + if match is None: + NativeLog.add_trace_critical("Fail, Fail to bind") + return + else: + sock_id_list.append(int(match.group(1))) + + self.serial_write_line("SSC1", "soc -V -s %s -o 3" % sock_id_list[-1]) + if self.check_regular_expression("SSC1", re.compile("\+DATA_VALIDATION:\d+,OK"), 2) is None: + NativeLog.add_trace_critical("Fail, Failed to enable validation") + return + + self.serial_write_line("SSC1", "soc -C -s %s -i %s -p %s" % (sock_id_list[-1], pc_ip, tcp_port)) + try: + sock, addr = server_sock.accept() + except socket.error, e: + NativeLog.add_trace_critical("%s" % e) + raise e + + if self.check_regular_expression("SSC1", re.compile("\+CONNECT:\d+,OK"), 5) is None: + NativeLog.add_trace_critical("Fail, Failed to connect") + return + + sock.settimeout(10) + + send_thread_list.append(SendThread(sock if rx_enable is True else None, send_len)) + recv_thread_list.append(RecvThread(sock if tx_enable is True else None)) + recv_thread_list[-1].start() + + # step 5 do test + validation_thread = ValidationThread(self) + validation_thread.start() + + for send_thread in send_thread_list: + send_thread.start() + + if tx_enable is True: + # do send from target + for sock_id in sock_id_list: + self.serial_write_line("SSC1", "soc -S -s %s -l %s -n 10000000" % (sock_id, send_len)) + + time1 = time.time() + exit_flag = False + + while time.time() - time1 < test_time and exit_flag is False: + for i in sock_id_list: + send_thread_list[i].join(0.5) + recv_thread_list[i].join(0.5) + validation_thread.join(0.5) + if send_thread_list[i].isAlive() is False \ + or recv_thread_list[i].isAlive() is False \ + or validation_thread.isAlive() is False: + NativeLog.add_trace_critical("validation error found") + exit_flag = True + break + else: + self.set_result("Succeed") + + # exit all thread + for i in sock_id_list: + send_thread_list[i].exit() + recv_thread_list[i].exit() + send_thread_list[i].join() + send_thread_list[i].join() + + validation_thread.exit() + validation_thread.join() + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPRandomSend.py b/components/test/TestCaseScript/TCPStress/TCPRandomSend.py new file mode 100755 index 000000000..5a07a2d96 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPRandomSend.py @@ -0,0 +1,103 @@ +import os +import time +import random +import threading +import socket +from TCAction import TCActionBase +from NativeLog import NativeLog +from NativeLog import ThroughputResult + + +class TCPRandomSend(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.send_len_config = range(1460) + self.delay_config = [0, 0.01, 0.1, 0.5, 1] + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len_config = self.send_len_config + delay_config = self.delay_config + send_count = self.send_count + test_time = self.test_time * 60 + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPThroughput script, error is %s" % e) + raise StandardError("Error configuration") + + # disable recv print during random send test + checker_stings = ["R SSC1 C +RECVPRINT"] + test_action_string = ["SSC SSC1 soc -R -o 0"] + fail_string = "Fail, Fail to disable recv print" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + pc_ip = self.test_env.get_variable_by_name("pc_ip")[1] + tcp_port = random.randint(50000, 60000) + + # step 0 create tcp connection + + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, tcp_port)) + server_sock.settimeout(1) + server_sock.listen(5) + + checker_stings = ["R SSC1 A :\+BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t TCP"] + fail_string = "Fail, Fail bind" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["P SSC1 RE \+CONNECT:\d+,OK"] + test_action_string = ["SSC SSC1 soc -C -s -i %s -p %s" % (pc_ip, tcp_port)] + fail_string = "Fail, Fail to connect" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + sock, addr = server_sock.accept() + sock.settimeout(10) + # set no delay so that tcp segment will be send as soon as send called + sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) + + # step 1 start send + start_time = time.time() + while time.time() - start_time < test_time: + for delay in delay_config: + for i in xrange(send_count): + send_len = random.choice(send_len_config) + data = "A" * (send_len+1) + try: + sock.send(data) + except socket.error, e: + NativeLog.add_exception_log(e) + return + pass + time.sleep(delay) + + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPSendRecv.py b/components/test/TestCaseScript/TCPStress/TCPSendRecv.py new file mode 100755 index 000000000..e14d7f04d --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPSendRecv.py @@ -0,0 +1,143 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import time +import random +import string + +TEST_COUNT_ONE_ROUND = 1000 + + +class TCPSendRecv(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + # step 0 turn on recv print + checker_stings = ["R SSC1 C +RECVPRINT:1"] + test_action_string = ["SSC SSC1 soc -R -o 1"] + fail_string = "Fail, Fail to turn on recv print" + self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len = self.send_len + test_time = self.test_time * 60 + duplex = self.duplex + conn_num = self.conn_num + send_delay = self.send_delay + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPSendRecv script, error is %s" % e) + raise StandardError("Error configuration") + + ssid = "".join([random.choice(string.lowercase) for m in range(10)]) + password = "".join([random.choice(string.lowercase) for m in range(10)]) + + # step 0 set ap + checker_stings = ["R SSC1 C +SAP:OK"] + test_action_string = ["SSC SSC1 ap -S -s %s -p %s -t 3" % (ssid, password)] + fail_string = "Fail, Fail to set ap" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 1 connect to ap and turn off recv print + checker_stings = ["R SSC2 C +JAP:CONNECTED"] + test_action_string = ["SSC SSC2 sta -C -s %s -p %s" % (ssid, password)] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=200) is False: + return + + checker_stings = ["P SSC1 C +RECVPRINT:0", "P SSC2 C +RECVPRINT:0"] + test_action_string = ["SSC SSC1 soc -R -o 0", "SSC SSC2 soc -R -o 0"] + fail_string = "Fail, Fail to turn off recv print" + self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=200) is False: + return + + # step 2 create server on AP + checker_stings = ["R SSC1 A :\+BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t TCP -p "] + fail_string = "Fail, Fail to create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 A :\+LISTEN:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -L -s "] + fail_string = "Fail, Fail to create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 3 create conn_num tcp connections + for i in range(conn_num): + checker_stings = ["R SSC2 A :\+BIND:(\d+),OK" % i] + test_action_string = ["SSC SSC2 soc -B -t TCP"] + fail_string = "Fail, Fail to bind" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["P SSC1 A :\+ACCEPT:(\d+),\d+" % i, + "P SSC2 RE \+CONNECT:\d+,OK"] + test_action_string = ["SSC SSC2 soc -C -s -i -p " % i] + fail_string = "Fail, Fail to connect" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + # step 4, do send/recv + while time.time()-start_time < test_time: + + checker_stings = ["P SSC1 NC ERROR NC CLOSE"] + for i in range(conn_num): + test_action_string = ["SSC SSC2 soc -S -s -l %d -n %d -j %d" % + (i, send_len, TEST_COUNT_ONE_ROUND, send_delay)] + checker_stings.append("P SSC2 RE \"\+SEND:%%%%s,OK\"%%%%() NC ERROR NC CLOSE" % i) + + if duplex is True: + checker_stings.append("P SSC1 RE \"\+SEND:%%%%s,OK\"%%%%()" % i) + test_action_string.append("SSC SSC1 soc -S -s -l %d -n %d -j %d" % + (i, send_len, TEST_COUNT_ONE_ROUND, send_delay)) + + fail_string = "Fail, Failed on send command" + if self.load_and_exe_one_step([], test_action_string, fail_string) is False: + break + # if self.load_and_exe_one_step([], ["SSC SSC1 ram -H", "SSC SSC2 ram -H"], fail_string) is False: + # break + # time.sleep(0.1) + + fail_string = "Fail, Failed to send/recv data" + if self.load_and_exe_one_step(checker_stings, ["DELAY 0.1"], fail_string, + check_freq=1, check_time=300) is False: + break + pass + + NativeLog.add_prompt_trace("time escape: %s" % (time.time() - start_time)) + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + + diff --git a/components/test/TestCaseScript/TCPStress/TCPSoftAPSTASendRecv.py b/components/test/TestCaseScript/TCPStress/TCPSoftAPSTASendRecv.py new file mode 100644 index 000000000..de31bacc1 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPSoftAPSTASendRecv.py @@ -0,0 +1,318 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import time +import random +import string + +TEST_COUNT_ONE_ROUND = 500 + + +class TCPSoftAPSTASendRecv(TCActionBase.CommonTCActionBase): + def __init__(self, name, test_env, cmd_set, timeout=45, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len = self.send_len + # test count + test_count = self.test_count + # server port + server_port = self.server_port + server_port_t = self.server_port_2 + # ap ip + # ap_ip = self.ap_ip + # server echo + server_echo = self.server_echo + # station number + sta_number = self.sta_number + # pass standard + pass_standard = self.pass_standard + # send delay + send_delay = self.send_delay + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPTransparent script, error is %s" % e) + raise StandardError("Error configuration") + + # step0 reboot + checker_stings = [] + test_action_string = [] + + for i in range(sta_number + 2): + checker_stings.append("P SSC%d C !!!ready!!!" % (i + 1)) + test_action_string.append("SSCC SSC%d reboot" % (i + 1)) + + fail_string = "Fail, Fail to reboot" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step1, set ap/STA mode on all target + for i in range(sta_number + 2): + checker_stings = ["R SSC%d C +MODE:OK" % (i + 1)] + test_action_string = ["SSCC SSC%d op -S -o 3" % (i + 1)] + fail_string = "Fail, Fail to set mode on SSC%d" % (i + 1) + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # set different getway for SSC1 softAP + checker_stings = ["R SSC1 C +DHCP:AP,OK"] + test_action_string = ["SSCC SSC1 dhcp -E -o 2"] + fail_string = "Fail, SSC1 Fail to disable DHCP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 C +IP:OK"] + test_action_string = ["SSCC SSC1 ip -S -o 2 -i 192.168.6.1"] + fail_string = "Fail, SSC1 Fail to set IP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 C +DHCP:AP,OK"] + test_action_string = ["SSCC SSC1 dhcp -S -o 2"] + fail_string = "Fail, SSC1 Fail to enable DHCP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # set different getway for SSC2 softAP + checker_stings = ["R SSC2 C +DHCP:AP,OK"] + test_action_string = ["SSCC SSC2 dhcp -E -o 2"] + fail_string = "Fail, SSC2 Fail to disable DHCP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC2 C +IP:OK"] + test_action_string = ["SSCC SSC2 ip -S -o 2 -i 192.168.5.1"] + fail_string = "Fail, SSC2 Fail to set IP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC2 C +DHCP:AP,OK"] + test_action_string = ["SSCC SSC2 dhcp -S -o 2"] + fail_string = "Fail, SSC2 Fail to enable DHCP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step2, set ssid/password on SSC1 + ssid = "".join([random.choice(string.lowercase) for m in range(10)]) + password = "".join([random.choice(string.lowercase) for m in range(10)]) + checker_stings = ["R SSC1 C +SAP:OK"] + test_action_string = ["SSCC SSC1 ap -S -s %s -p %s -n 10 -t 0 -m 8" % (ssid, password)] + fail_string = "Fail, Fail to set ssid/password on SSC1" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step3, set ssid/password on SSC2 + ssid_1 = "".join([random.choice(string.lowercase) for m in range(10)]) + password_1 = "".join([random.choice(string.lowercase) for m in range(10)]) + checker_stings = ["R SSC2 C +SAP:OK"] + test_action_string = ["SSCC SSC2 ap -S -s %s -p %s -n 10 -t 0 -m 8" % (ssid_1, password_1)] + fail_string = "Fail, Fail to set ap ssid/password on SSC2" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step4, SSC2 join SSC1(soft AP) + checker_stings = [] + test_action_string = [] + checker_stings.append("P SSC2 C +JAP:CONNECTED,%s" % ssid) + test_action_string.append("SSCC SSC2 ap -C -s %s -p %s" % (ssid, password)) + fail_string = "Fail, Fail to connect to SSC1 SoftAP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + # step5, create server on SSC1 + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -B -t TCP -p %s" % server_port] + fail_string = "Fail, Fail to create server on SSC1 while binding" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -L -s "] + fail_string = "Fail, Fail to create server on SSC1 while listening" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step6, create client on SSC2 + checker_stings = [] + test_action_string = [] + checker_stings.append("P SSC2 A :BIND:(\d+),OK") + test_action_string.append("SSCC SSC2 soc -B -t TCP") + fail_string = "Fail, SSC2 Fail to connect to server while binding" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["P SSC2 RE CONNECT:(\d+),OK", "P SSC1 A :ACCEPT:(\d+),.+"] + test_action_string = ["SSCC SSC2 soc -C -s -i %s -p %s" % ("192.168.6.1", server_port)] + fail_string = "Fail, SSC2 Fail to connect to server while connecting" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step7, SSC3 - SSC5 join SSC2 + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d C +JAP:CONNECTED,%s" % (i + 3, ssid_1)) + test_action_string.append("SSCC SSC%d ap -C -s %s -p %s" % (i + 3, ssid_1, password_1)) + fail_string = "Fail, SSC%d Fail to connect to SSC2" % (i + 3) + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=450) is False: + return + + # step8, create server on SSC2 + checker_stings = ["R SSC2 A :BIND:(\d+),OK"] + test_action_string = ["SSCC SSC2 soc -B -t TCP -p %s -i 192.168.5.1" % server_port_t] + fail_string = "Fail, Fail to create server one SSC2 while binding" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC2 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC2 soc -L -s "] + fail_string = "Fail, Fail to create server one SSC2 while listening" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step9, create client on SSC3 - SSC5 + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d A :BIND:(\d+),OK" % (i + 3, i + 3)) + test_action_string.append("SSCC SSC%d soc -B -t TCP" % (i + 3)) + fail_string = "Fail, Fail to connect to SSC2 server while binding" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for i in range(sta_number): + checker_stings = ["P SSC%d RE CONNECT:(\d+),OK" % (i + 3), + "P SSC2 A :ACCEPT:(\d+),.+" % (i + 3)] + test_action_string = ["SSCC SSC%d soc -C -s -i %s -p %s" % + (i + 3, i + 3, "192.168.5.1", server_port_t)] + fail_string = "Fail, Fail to connect to SSC2 server while connecting" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + # step 10, do send/recv + while test_count > 0: + _tmp_count = TEST_COUNT_ONE_ROUND if test_count - TEST_COUNT_ONE_ROUND > 0 else test_count + test_count -= TEST_COUNT_ONE_ROUND + + checker_stings = [] + test_action_string = [] + if server_echo is True: + test_action_string.append("SSC SSC1 soc -S -s -l %d -n %d -j %d" % + (send_len, _tmp_count, send_delay)) + checker_stings.append("P SSC1 RE \+SEND:\d+,OK NC CLOSED") + test_action_string.append("SSC SSC2 soc -S -s -l %d -n %d -j %d" % + (send_len, _tmp_count, send_delay)) + checker_stings.append("P SSC2 RE \+SEND:\d+,OK NC CLOSED") + + for i in range(sta_number): + checker_stings.append("P SSC%d RE \+SEND:\d+,OK NC CLOSED" % (i + 3)) + test_action_string.append("SSC SSC%d soc -S -s -l %d -n %d -j %d" % + (i + 3, i + 3, send_len, _tmp_count, send_delay)) + for i in range(sta_number): + test_action_string.append("SSC SSC2 soc -S -s -l %d -n %d -j %d" % + (i + 3, send_len, _tmp_count, send_delay)) + checker_stings.append("P SSC2 RE \+SEND:\d+,OK NC CLOSED") + + fail_string = "Fail, Failed to send/recv data" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=300) is False: + break + pass + + if (time.time() - start_time) > pass_standard: + self.result_cntx.set_result("Succeed") + else: + checker_stings = [] + test_action_string = [] + for i in range(sta_number + 2): + checker_stings.append("P SSC%d C CLOSEALL" % (i + 1)) + test_action_string.append("SSCC SSC%d soc -T" % (i + 1)) + fail_string = "Fail, Fail to close socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + # re-set server on SSC1 + server_port = random.randint(20000, 30000) + checker_stings = ["R SSC1 A :BIND:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -B -t TCP -p %s" % server_port] + fail_string = "Fail, Fail to bind socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["R SSC1 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC1 soc -L -s "] + fail_string = "Fail, Fail to listen" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + # SSC2 connnect SSC1 + checker_stings = [] + test_action_string = [] + checker_stings.append("P SSC2 A :BIND:(\d+),OK") + test_action_string.append("SSCC SSC2 soc -B -t TCP") + fail_string = "Fail, SSC2 Fail to bind sock" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + checker_stings = ["P SSC2 RE CONNECT:(\d+),OK", "P SSC1 A :ACCEPT:(\d+),.+"] + test_action_string = ["SSCC SSC2 soc -C -s -i %s -p %s" % ("192.168.6.1", server_port)] + fail_string = "Fail, SSC2 Fail to connect to SSC1 server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + #create server on SSC2 + checker_stings = [] + test_action_string = [] + checker_stings.append("P SSC2 A :BIND:(\d+),OK") + test_action_string.append("SSCC SSC2 soc -B -t TCP -p %s -i 192.168.5.1" % server_port_t) + fail_string = "Fail, SSC2 Fail to bind" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + checker_stings = ["R SSC2 RE LISTEN:(\d+),OK"] + test_action_string = ["SSCC SSC2 soc -L -s "] + fail_string = "Fail, SSC2 Fail to listen" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + #create client on SSC3-SSC5 + checker_stings = [] + test_action_string = [] + for i in range(sta_number): + checker_stings.append("P SSC%d A :BIND:(\d+),OK" % (i + 3, i + 3)) + test_action_string.append("SSCC SSC%d soc -B -t TCP" % (i + 3)) + fail_string = "Fail, Fail to connect to SSC2 server while binding" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for i in range(sta_number): + checker_stings = ["P SSC%d RE CONNECT:(\d+),OK" % (i + 3), + "P SSC2 A :ACCEPT:(\d+),.+" % (i + 3)] + test_action_string = ["SSCC SSC%d soc -C -s -i %s -p %s" % + (i + 3, i + 3, "192.168.5.1", server_port_t)] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + self.result_cntx.set_result("Failed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/TCPThroughput.py b/components/test/TestCaseScript/TCPStress/TCPThroughput.py new file mode 100755 index 000000000..0c40603e3 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/TCPThroughput.py @@ -0,0 +1,315 @@ +import os +import time +import random +import threading +import socket + +from TCAction import TCActionBase +from NativeLog import NativeLog +from NativeLog import ThroughputResult +from Utility import RSSICalibrator +from Utility import MakeFolder + + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "Throughput") + + +AP_PROP_KEY = ("ssid", "password", "apc") + + +class SendThread(threading.Thread): + def __init__(self, sock, send_len): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.send_len = send_len + self.exit_event = threading.Event() + self.calc_event = threading.Event() + self.bytes_sent = 0 + pass + + def start_calc(self): + self.calc_event.set() + + def stop_calc(self): + self.calc_event.clear() + self.exit_event.set() + + def run(self): + data = "A" * self.send_len + if self.sock is None: + return + while True: + if self.exit_event.isSet() is True: + break + try: + self.sock.send(data) + except StandardError: + break + if self.calc_event.isSet() is True: + self.bytes_sent += self.send_len + + def get_bytes_sent(self): + return self.bytes_sent + pass + + +class RecvThread(threading.Thread): + def __init__(self, sock): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.exit_event = threading.Event() + self.calc_event = threading.Event() + self.bytes_recv = 0 + + def start_calc(self): + self.calc_event.set() + + def stop_calc(self): + self.calc_event.clear() + self.exit_event.set() + + def run(self): + if self.sock is None: + return + while True: + if self.exit_event.isSet() is True: + break + try: + data = self.sock.recv(8*1024) + except StandardError: + break + if self.calc_event.isSet() is True: + self.bytes_recv += len(data) + + def get_bytes_recv(self): + return self.bytes_recv + pass + + +class TCPThroughput(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.att_test_list = range(60) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # read AP list + self.ap_list = [] + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROP_KEY, " + cmd_set[i][1][j] + ")))" + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + ap_list = self.ap_list + send_len = self.send_len + att_test_list = self.att_test_list + tx_enable = self.tx_enable + rx_enable = self.rx_enable + measure_period = self.measure_period + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPThroughput script, error is %s" % e) + raise StandardError("Error configuration") + + # find local ip and generate local port + local_ip_list = socket.gethostbyname_ex(socket.gethostname())[2] + for local_ip in local_ip_list: + if local_ip.find("192.168.1.") != -1: + pc_ip = local_ip + break + else: + raise StandardError("Can't find local IP.") + + tcp_port = random.randint(40000, 50000) + + # init throughput result data + test_item = "" + if tx_enable is True: + test_item += "Tx" + if rx_enable is True: + test_item += "Rx" + if test_item == "": + raise StandardError("no throughput test item") + + folder_path = MakeFolder.make_folder(LOG_FOLDER) + file_name = os.path.join(folder_path, + "TCPThroughput_%s_%s" % (test_item, time.strftime("%d%H%M%S", time.localtime()))) + + result = ThroughputResult.ThroughputResult(file_name, standard_required=True) + + # restart before executing throughput + checker_stings = ["R SSC1 C !!!ready!!!"] + test_action_string = ["SSC SSC1 reboot"] + fail_string = "Fail, Fail to reboot" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # disable recv print during throughput test + checker_stings = ["R SSC1 C +RECVPRINT"] + test_action_string = ["SSC SSC1 soc -R -o 0"] + fail_string = "Fail, Fail to disable recv print" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for ap_prop in ap_list: + if ap_prop["password"] == "": + # set a default string for open ap + ap_prop["password"] = "1" + + # switch off all outlet, switch on AP outlet + outlet_config_dict = dict.fromkeys(range(1, 9), "OFF") + outlet_config_dict[ap_prop["apc"]] = "ON" + apc_cmd = "APC " + for outlet in outlet_config_dict: + apc_cmd += " %s %s" % (outlet_config_dict[outlet], outlet) + checker_stings = ["P PC_COM L OK"] + fail_string = "Fail, Fail to switch apc" + if self.load_and_exe_one_step(checker_stings, [apc_cmd], fail_string) is False: + return + + # wait AP ready + time.sleep(20) + + # create server + server_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_STREAM) + server_sock.bind((pc_ip, tcp_port)) + server_sock.settimeout(5) + server_sock.listen(5) + + if tx_enable is True: + result.add_test_item(ap_prop["ssid"] + "_tx") + if rx_enable is True: + result.add_test_item(ap_prop["ssid"] + "_rx") + + # create RSSI Calibrator + calibrator = RSSICalibrator.Calibrator() + + for att_value in att_test_list: + # step 0 set att value + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT %s" % att_value] + fail_string = "Fail, Fail to set att value" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + # step 1 connect to AP + checker_stings = ["R SSC1 C +JAP:CONNECTED"] + test_action_string = ["SSC SSC1 sta -C -s %s -p %s" % (ap_prop["ssid"], ap_prop["password"])] + fail_string = "Fail, Fail to JAP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=30) is False: + continue + # step 2 get AP RSSI + checker_stings = ["R SSC1 A :\+SCAN:%s,[:\d\w]+,\d+,\d+,([-\d]+)" % ap_prop["ssid"]] + test_action_string = ["SSC SSC1 sta -S -s %s" % ap_prop["ssid"]] + fail_string = "Fail, Fail to scan" + rssi = scan_count = 0 + for i in range(3): + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + rssi += int(self.test_env.get_variable_by_name("rssi")[1]) + scan_count += 1 + + rssi = calibrator.calibrate_rssi(float(rssi)/scan_count if scan_count > 0 else 0, att_value) + + # step 3 close all connections + checker_stings = ["R SSC1 C +CLOSEALL"] + test_action_string = ["SSC SSC1 soc -T"] + fail_string = "Fail, Fail to create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + # step 4 create tcp connection + + checker_stings = ["R SSC1 A :\+BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t TCP"] + fail_string = "Fail, Fail bind" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + checker_stings = ["P SSC1 RE \+CONNECT:\d+,OK"] + test_action_string = ["SSC SSC1 soc -C -s -i %s -p %s" % (pc_ip, tcp_port)] + fail_string = "Fail, Fail to connect" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + try: + sock, addr = server_sock.accept() + except socket.error, e: + NativeLog.add_trace_critical("%s" % e) + continue + sock.settimeout(measure_period) + + # step 5 do throughput test + send_thread = SendThread(sock if rx_enable is True else None, send_len) + send_thread.start() + + recv_thread = RecvThread(sock if tx_enable is True else None) + recv_thread.start() + + if tx_enable is True: + # do send from target + test_action_string = ["SSC SSC1 soc -S -s -l %s -n 10000000" % send_len] + fail_string = "Fail, Fail to send" + if self.load_and_exe_one_step([], test_action_string, fail_string) is False: + pass + + # start throughput calculate + send_thread.start_calc() + recv_thread.start_calc() + + # sleep for measure period + time.sleep(measure_period) + + # stop throughput calculate + send_thread.stop_calc() + recv_thread.stop_calc() + + send_thread.join() + recv_thread.join() + + sock.close() + + # output throughput result + # in Mbps + if send_thread.get_bytes_sent() > 0: + result.log_throughput(ap_prop["ssid"] + "_rx", rssi, att_value, + float(send_thread.get_bytes_sent() * 8) / (measure_period * 1000000)) + + if recv_thread.get_bytes_recv() > 0: + result.log_throughput(ap_prop["ssid"] + "_tx", rssi, att_value, + float(recv_thread.get_bytes_recv() * 8) / (measure_period * 1000000)) + + result.output_to_file() + pass + + server_sock.close() + + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/TCPStress/__init__.py b/components/test/TestCaseScript/TCPStress/__init__.py new file mode 100755 index 000000000..049c1b961 --- /dev/null +++ b/components/test/TestCaseScript/TCPStress/__init__.py @@ -0,0 +1 @@ +__all__ = ["TCPConnUtility", "TCPConnSingleMode", "TCPConnMixedMode"] \ No newline at end of file diff --git a/components/test/TestCaseScript/UDPStress/UDPSendRecv.py b/components/test/TestCaseScript/UDPStress/UDPSendRecv.py new file mode 100755 index 000000000..3a528c6ba --- /dev/null +++ b/components/test/TestCaseScript/UDPStress/UDPSendRecv.py @@ -0,0 +1,130 @@ +from TCAction import TCActionBase +from NativeLog import NativeLog +import time +import random +import string + +TEST_COUNT_ONE_ROUND = 1000 + + +class UDPSendRecv(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def cleanup(self): + # step 0 turn on recv print + checker_stings = ["R SSC1 C +RECVPRINT:1"] + test_action_string = ["SSC SSC1 soc -R -o 1"] + fail_string = "Fail, Fail to turn on recv print" + self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + send_len = self.send_len + test_time = self.test_time * 60 + duplex = self.duplex + conn_num = self.conn_num + send_delay = self.send_delay + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for UDPSendRecv script, error is %s" % e) + raise StandardError("Error configuration") + + ssid = "".join([random.choice(string.lowercase) for m in range(10)]) + password = "".join([random.choice(string.lowercase) for m in range(10)]) + + # step 0 set ap + checker_stings = ["R SSC1 C +SAP:OK"] + test_action_string = ["SSC SSC1 ap -S -s %s -p %s -t 3" % (ssid, password)] + fail_string = "Fail, Fail to set ap" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # step 1 connect to ap and turn off recv print + checker_stings = ["R SSC2 C +JAP:CONNECTED"] + test_action_string = ["SSC SSC2 sta -C -s %s -p %s" % (ssid, password)] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=200) is False: + return + + checker_stings = ["R SSC2 A :\+STAIP:(\d+\.\d+\.\d+\.\d+)\r"] + test_action_string = ["SSC SSC2 ip -Q -o 1"] + fail_string = "Fail, Fail to connect to server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=200) is False: + return + + checker_stings = ["P SSC1 C +RECVPRINT:0", "P SSC2 C +RECVPRINT:0"] + test_action_string = ["SSC SSC1 soc -R -o 0", "SSC SSC2 soc -R -o 0"] + fail_string = "Fail, Fail to turn off recv print" + self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, check_time=200) is False: + return + + # step 2 create conn_num udp socket + for i in range(1, conn_num+1): + checker_stings = ["R SSC1 A :\+BIND:(\d+),OK" % i, + "R SSC2 A :\+BIND:(\d+),OK" % i] + test_action_string = ["SSC SSC1 soc -B -t UDP -p " % i, + "SSC SSC2 soc -B -t UDP -p " % i] + fail_string = "Fail, Fail to create socket" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + start_time = time.time() + # step 3, do send/recv + while time.time()-start_time < test_time: + + checker_stings = ["P SSC1 NC ERROR NC CLOSE"] + for i in range(1, conn_num+1): + test_action_string = ["SSC SSC2 soc -S -s -l %d -n %d -j %d " + "-i -p " % + (i, send_len, TEST_COUNT_ONE_ROUND, send_delay, i)] + checker_stings.append("P SSC2 RE \"\+SEND:%%%%s,OK\"%%%%() NC ERROR NC CLOSE" % i) + if duplex is True: + test_action_string.append("SSC SSC1 soc -S -s -l %d -n %d -j %d" + " -i -p " % + (i, send_len, TEST_COUNT_ONE_ROUND, send_delay, i)) + checker_stings.append("P SSC1 RE \"\+SEND:%%%%s,OK\"%%%%()" % i) + + fail_string = "Fail, Failed on send command" + if self.load_and_exe_one_step([], test_action_string, fail_string) is False: + break + time.sleep(1) + + fail_string = "Fail, Failed to send/recv data" + if self.load_and_exe_one_step(checker_stings, ["DELAY 0.1"], fail_string, + check_freq=1, check_time=300) is False: + break + pass + + NativeLog.add_prompt_trace("time escape: %s" % (time.time() - start_time)) + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() + + diff --git a/components/test/TestCaseScript/UDPStress/UDPThroughput.py b/components/test/TestCaseScript/UDPStress/UDPThroughput.py new file mode 100755 index 000000000..dac7c2206 --- /dev/null +++ b/components/test/TestCaseScript/UDPStress/UDPThroughput.py @@ -0,0 +1,305 @@ +import os +import time +import random +import threading +import socket + +from TCAction import TCActionBase +from NativeLog import NativeLog +from NativeLog import ThroughputResult +from Utility import RSSICalibrator +from Utility import MakeFolder + + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "Throughput") + + +AP_PROP_KEY = ("ssid", "password", "apc") + + +class SendThread(threading.Thread): + def __init__(self, sock, send_len, target_addr): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.send_len = send_len + self.target_addr = target_addr + self.exit_event = threading.Event() + pass + + def exit(self): + self.exit_event.set() + + def run(self): + data = "A" * self.send_len + if self.sock is None: + return + while True: + if self.exit_event.isSet() is True: + break + try: + self.sock.sendto(data, self.target_addr) + except StandardError: + break + pass + + +class RecvThread(threading.Thread): + def __init__(self, sock): + threading.Thread.__init__(self) + self.setDaemon(True) + self.sock = sock + self.exit_event = threading.Event() + self.calc_event = threading.Event() + self.bytes_recv = 0 + + def start_calc(self): + self.calc_event.set() + + def stop_calc(self): + self.calc_event.clear() + self.exit_event.set() + + def run(self): + if self.sock is None: + return + while True: + if self.exit_event.isSet() is True: + break + try: + data, addr = self.sock.recvfrom(65535) + except StandardError: + break + if self.calc_event.isSet() is True: + self.bytes_recv += len(data) + + def get_bytes_recv(self): + return self.bytes_recv + pass + + +class UDPThroughput(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.att_test_list = range(60) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # read AP list + self.ap_list = [] + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROP_KEY, " + cmd_set[i][1][j] + ")))" + exec cmd_string + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + ap_list = self.ap_list + send_len = self.send_len + att_test_list = self.att_test_list + tx_enable = self.tx_enable + rx_enable = self.rx_enable + measure_period = self.measure_period + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for TCPThroughput script, error is %s" % e) + raise StandardError("Error configuration") + + # find local ip and generate local port + local_ip_list = socket.gethostbyname_ex(socket.gethostname())[2] + for local_ip in local_ip_list: + if local_ip.find("192.168.1.") != -1: + pc_ip = local_ip + break + else: + raise StandardError("Can't find local IP.") + + udp_port = random.randint(40000, 50000) + + # init throughput result data + test_item = "" + if tx_enable is True: + test_item += "Tx" + if rx_enable is True: + test_item += "Rx" + if test_item == "": + raise StandardError("no throughput test item") + + folder_path = MakeFolder.make_folder(LOG_FOLDER) + file_name = os.path.join(folder_path, + "UDPThroughput_%s_%s" % (test_item, time.strftime("%d%H%M%S", time.localtime()))) + + result = ThroughputResult.ThroughputResult(file_name) + + # restart before executing throughput + checker_stings = ["R SSC1 C !!!ready!!!"] + test_action_string = ["SSC SSC1 reboot"] + fail_string = "Fail, Fail to reboot" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + # disable recv print during throughput test + checker_stings = ["R SSC1 C +RECVPRINT"] + test_action_string = ["SSC SSC1 soc -R -o 0"] + fail_string = "Fail, Fail to disable recv print" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + return + + for ap_prop in ap_list: + if ap_prop["password"] == "": + # set a default string for open ap + ap_prop["password"] = "1" + + # switch off all outlet, switch on AP outlet + outlet_config_dict = dict.fromkeys(range(1, 9), "OFF") + outlet_config_dict[ap_prop["apc"]] = "ON" + apc_cmd = "APC " + for outlet in outlet_config_dict: + apc_cmd += " %s %s" % (outlet_config_dict[outlet], outlet) + checker_stings = ["P PC_COM L OK"] + fail_string = "Fail, Fail to switch apc" + if self.load_and_exe_one_step(checker_stings, [apc_cmd], fail_string) is False: + return + + # wait AP ready + time.sleep(20) + + # create server + udp_sock = socket.socket(family=socket.AF_INET, type=socket.SOCK_DGRAM) + udp_sock.bind((pc_ip, udp_port)) + udp_sock.settimeout(1) + + if tx_enable is True: + result.add_test_item(ap_prop["ssid"] + "_tx") + if rx_enable is True: + result.add_test_item(ap_prop["ssid"] + "_rx") + + # create RSSI Calibrator + calibrator = RSSICalibrator.Calibrator() + + for att_value in att_test_list: + # step 0 set att value + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT %s" % att_value] + fail_string = "Fail, Fail to set att value" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + # step 1 connect to AP + checker_stings = ["R SSC1 C +JAP:CONNECTED"] + test_action_string = ["SSC SSC1 sta -C -s %s -p %s" % (ap_prop["ssid"], ap_prop["password"])] + fail_string = "Fail, Fail to JAP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=30) is False: + continue + checker_stings = ["R SSC1 A :STAIP:(\d+\.\d+\.\d+\.\d+)"] + test_action_string = ["SSC SSC1 ip -Q"] + fail_string = "Fail, Fail to get ip" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=30) is False: + continue + target_ip = self.get_parameter("target_ip") + # step 2 get AP RSSI + checker_stings = ["R SSC1 A :\+SCAN:%s,[:\d\w]+,\d+,\d+,([-\d]+)\r" % ap_prop["ssid"]] + test_action_string = ["SSC SSC1 sta -S -s %s" % ap_prop["ssid"]] + fail_string = "Fail, Fail to scan" + rssi = scan_count = 0 + for i in range(3): + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + rssi += int(self.test_env.get_variable_by_name("rssi")[1]) + scan_count += 1 + + rssi = calibrator.calibrate_rssi(float(rssi)/scan_count if scan_count > 0 else 0, att_value) + + # step 3 close all connections + checker_stings = ["R SSC1 C +CLOSEALL"] + test_action_string = ["SSC SSC1 soc -T"] + fail_string = "Fail, Fail to create server" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + # step 4 create UDP socket + checker_stings = ["R SSC1 A :\+BIND:(\d+),OK"] + test_action_string = ["SSC SSC1 soc -B -t UDP -i %s -p %s" % (target_ip, udp_port)] + fail_string = "Fail, Fail bind" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + # step 5 do throughput test + send_thread = SendThread(udp_sock if rx_enable is True else None, + send_len, (target_ip, udp_port)) + send_thread.start() + + recv_thread = RecvThread(udp_sock if tx_enable is True else None) + recv_thread.start() + + if tx_enable is True: + # do send from target + test_action_string = ["SSC SSC1 soc -S -s -l %s -n 10000000 -i %s -p %s" + % (send_len, pc_ip, udp_port)] + fail_string = "Fail, Fail to send" + if self.load_and_exe_one_step([], test_action_string, fail_string) is False: + pass + + # start throughput calculate + recv_thread.start_calc() + + # sleep for measure period + time.sleep(measure_period) + + # stop throughput calculate + recv_thread.stop_calc() + send_thread.exit() + + send_thread.join() + recv_thread.join() + + # output throughput result + # in Mbps + if rx_enable is True: + # get received data len from PC + self.load_and_exe_one_step(["R SSC1 A :RECVLEN:(\d+)"], + ["SSC SSC1 soc -Q -s -o 1"], + "Fail, Fail to get recv data len") + try: + rx_data_len = int(self.get_parameter("recv_len")) + except StandardError: + rx_data_len = 0 + + result.log_throughput(ap_prop["ssid"] + "_rx", rssi, att_value, + float(rx_data_len * 8) / (measure_period * 1000000)) + + if recv_thread.get_bytes_recv() > 0: + result.log_throughput(ap_prop["ssid"] + "_tx", rssi, att_value, + float(recv_thread.get_bytes_recv() * 8) / (measure_period * 1000000)) + + result.output_to_file() + pass + + udp_sock.close() + + self.result_cntx.set_result("Succeed") + + # finally, execute done + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/UDPStress/__init__.py b/components/test/TestCaseScript/UDPStress/__init__.py new file mode 100755 index 000000000..d29ee405a --- /dev/null +++ b/components/test/TestCaseScript/UDPStress/__init__.py @@ -0,0 +1 @@ +__all__ = ["UDPSendRecv", ] diff --git a/components/test/TestCaseScript/WiFiStress/SoftAPNSTA.py b/components/test/TestCaseScript/WiFiStress/SoftAPNSTA.py new file mode 100755 index 000000000..70a1169f2 --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/SoftAPNSTA.py @@ -0,0 +1,178 @@ +import random +import time +import string +import threading + +from TCAction import TCActionBase +from NativeLog import NativeLog +from TCAction import PerformanceTCBase +from Utility import Encoding + + +class STAJAPThread(threading.Thread): + def __init__(self, test_action, port_name, ssid, password, delay1, delay2, change_mac): + threading.Thread.__init__(self) + self.setDaemon(True) + self.test_action = test_action + self.port_name = port_name + self.ssid = ssid + self.password = password + self.delay1 = delay1 + self.delay2 = delay2 + self.change_mac = change_mac + self.exit_flag = threading.Event() + pass + + def exit(self): + self.exit_flag.set() + pass + + def run(self): + total_test_count = 0 + fail_count = 0 + while self.exit_flag.isSet() is False: + # change mac + if self.change_mac is True: + mac = Encoding.generate_random_mac() + self.test_action.serial_write_line(self.port_name, "mac -S -o 1 -m %s" % mac) + self.test_action.check_response(self.port_name, "+MAC:STA,OK") + + time.sleep(1) + + # JAP + total_test_count += 1 + # flush current port data + self.test_action.flush_data(self.port_name) + self.test_action.serial_write_line(self.port_name, "sta -C -s %s -p %s" % (self.ssid, self.password)) + if self.test_action.check_response(self.port_name, "+JAP:CONNECTED", 45) is False: + fail_count += 1 + NativeLog.add_trace_critical("[%s] Failed to JAP, Failed/Total : %d/%d" + % (self.port_name, fail_count, total_test_count)) + continue + time.sleep(random.randint(self.delay1[0], self.delay1[1])) + + # QAP + self.test_action.serial_write_line(self.port_name, "sta -D") + if self.test_action.check_response(self.port_name, "+QAP:OK", 5) is False: + NativeLog.add_trace_critical("[%s] Failed to QAP" % self.port_name) + time.sleep(random.randint(self.delay2[0], self.delay2[1])) + + # make sure quit AP + self.test_action.serial_write_line(self.port_name, "sta -D") + pass + pass + + +class SoftAPNSTA(PerformanceTCBase.PerformanceTCBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + PerformanceTCBase.PerformanceTCBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.sta_num = 0 + self.max_sta = 4 + self.test_time = 60 + self.delay1 = [5, 30] + self.delay2 = [5, 10] + self.change_mac = True + self.channel = 11 + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + pass + + def process(self): + # configurable parameters + try: + sta_num = self.sta_num + max_sta = self.max_sta + test_time = self.test_time + # delay between JAP succeed and QAP + delay1 = self.delay1 + # delay between QAP and JAP + delay2 = self.delay2 + # if change mac each time before JAP + change_mac = self.change_mac + # channel + channel = self.channel + except StandardError, e: + raise StandardError("miss mandatory parameters") + + # step 0, set op mode and enable dhcp + self.serial_write_line("SSC1", "op -S -o 2") + if self.check_response("SSC1", "+MODE:OK", 2) is False: + NativeLog.add_trace_critical("Failed to set ap mode") + return + self.serial_write_line("SSC1", "dhcp -E -o 2") + if self.check_response("SSC1", "+DHCP:AP,OK", 2) is False: + NativeLog.add_trace_critical("Failed to enable ap dhcp") + return + self.serial_write_line("SSC1", "dhcp -L -s 192.168.4.2 -e 192.168.4.100 -t 1") + if self.check_response("SSC1", "+DHCP:LEASE,OK", 2) is False: + NativeLog.add_trace_critical("Failed to enable ap dhcp") + return + self.serial_write_line("SSC1", "dhcp -S -o 2") + if self.check_response("SSC1", "+DHCP:AP,OK", 2) is False: + NativeLog.add_trace_critical("Failed to enable ap dhcp") + return + + for i in range(sta_num): + self.serial_write_line("SSC%d" % (i+2), "op -S -o 1") + if self.check_response("SSC%d" % (i+2), "+MODE:OK", 2) is False: + NativeLog.add_trace_critical("Failed to set sta mode") + return + self.serial_write_line("SSC%d" % (i+2), "dhcp -S -o 1") + if self.check_response("SSC%d" % (i+2), "+DHCP:STA,OK", 2) is False: + NativeLog.add_trace_critical("Failed to enable sta dhcp") + + # step 1, set ap config and load + ap_ssid = "".join([random.choice(string.uppercase) for m in range(15)]) + ap_password = "".join([random.choice(string.lowercase) for m in range(15)]) + + self.serial_write_line("SSC1", "ap -S -s %s -p %s -t 3 -m %s -n %s" + % (ap_ssid, ap_password, max_sta, channel)) + if self.check_response("SSC1", "+SAP:OK", 2) is False: + NativeLog.add_trace_critical("Failed to set AP") + return + + # step 2, start thread to let STA JAP + sta_thread_list = [] + for i in range(sta_num): + sta_thread_list.append(STAJAPThread(self, "SSC%d" % (i+2), + ap_ssid, ap_password, delay1, delay2, change_mac)) + for sta_thread in sta_thread_list: + sta_thread.start() + + # step 3, sleep for test time + for i in range(test_time): + self.flush_data("SSC1") + time.sleep(60) + + # step 4, close all thread, will disconnect when exit thread + for sta_thread in sta_thread_list: + sta_thread.exit() + for sta_thread in sta_thread_list: + sta_thread.join() + # wait and make sure disconnect done + time.sleep(1) + + # step 5, join AP and check + sta_num_temp = max_sta if sta_num > max_sta else sta_num + + for i in range(sta_num_temp): + self.serial_write_line("SSC%d" % (i+2), "sta -C -s %s -p %s" % (ap_ssid, ap_password)) + if self.check_response("SSC%d" % (i+2), "+JAP:CONNECTED", 45) is False: + self.set_result("Fail") + break + pass + else: + self.set_result("Succeed") + + +def main(): + pass + +if __name__ == '__main__': + main() + diff --git a/components/test/TestCaseScript/WiFiStress/WifiConnUtility.py b/components/test/TestCaseScript/WiFiStress/WifiConnUtility.py new file mode 100755 index 000000000..24702bfc8 --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/WifiConnUtility.py @@ -0,0 +1,240 @@ +from NativeLog import NativeLog +import time +import random + + +ERROR_AP_PROP = {"ssid": "123456789012345678901234567890", + "ssid_len": 30, + "pwd": "12345678901234567890", + "pwd_len": 20, + "channel": 10, + "enc": 3, + "apc": 9, # invalid apc count + } + + +class WifiConnUtilError(StandardError): + pass + + +class WifiConnUtility(object): + + def __init__(self, tc_action): + self.tc_action = tc_action + self.target_type = tc_action.target_type + pass + + def set_mode(self, mode): + ret = True + fail_string = "set mode fail" + cmd = [] + checker_stings = [] + for i in range(2): + if self.target_type[0] == "SSC": + cmd.append("SSCC SSC%d op -S -o %d" % (i+1, mode[i])) + checker_stings.append("SSCP SSC%d C +MODE:OK" % (i+1)) + pass + else: + cmd.append("ATC AT%d CWMODE %d" % (i+1, mode[i])) + checker_stings.append("ATP AT%d L OK" % (i+1)) + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Failed to set mode") + ret = False + return ret + pass + + def _apc_switch(self, outlet_list, action_list): + checker_stings = ["R PC_COM C OK"] + switch_cmd = "APC " + fail_string = "Error when switching APC" + ret = True + + for [_outlet, _action] in zip(action_list, outlet_list): + switch_cmd += " %s %d" % (_action, _outlet) + + if self.tc_action.load_and_exe_one_step(checker_stings, [switch_cmd], + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("Error when switching APC") + ret = False + return ret + pass + + def _set_target_ap(self, ap_prop): + ret = True + fail_string = "set target ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + if self.target_type[1] == "SSC": + if ap_prop["pwd"] == "": + cmd = ["SSCC SSC2 ap -S -s %s -t %d" % (ap_prop["ssid"], + ap_prop["enc"]) + ] + else: + cmd = ["SSCC SSC2 ap -S -s %s -p %s -t %d" % (ap_prop["ssid"], + ap_prop["pwd"], + ap_prop["enc"]) + ] + checker_stings = ["SSCP SSC2 C +SAP:OK"] + pass + else: + cmd = ["ATC AT2 CWSAP \"%s\" \"%s\" %d %d" % (ap_prop["ssid"], + ap_prop["pwd"], + ap_prop["channel"], + ap_prop["enc"]) + ] + checker_stings = ["ATR AT2 L OK"] + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical("set target ap fail") + ret = False + return ret + pass + + def setup_ap(self, ap_type, ap_prop): + if ap_type == "target": + ret = self._set_target_ap(ap_prop) + pass + else: + ret = self._apc_switch(["ON"], [ap_prop["apc"]]) + # delay for 5 seconds, wait AP ready + time.sleep(5) + pass + return ret + + def do_scan(self, ap_prop): + fail_string = "Scan fail" + ret = True + # do not check if the set AP can be scanned + if self.target_type[1] == "SSC": + cmd = ["SSCC SSC1 sta -S"] + checker_stings = ["SSCR SSC1 C +SCANDONE"] + pass + else: + cmd = ["ATS AT1 AT+CWLAP"] + checker_stings = ["ATR AT1 L OK"] + pass + if self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=100) is False: + NativeLog.add_trace_critical("Scan fail") + ret = False + return ret + pass + + def _switch_off_target_ap(self, delay): + time.sleep(delay) + self._set_target_ap(ERROR_AP_PROP) + pass + + def _switch_on_target_ap(self, ap_prop, delay): + time.sleep(delay) + self._set_target_ap(ap_prop) + pass + + def _switch_off_ap(self, ap_type, ap_prop, delay_range): + delay = random.randint(delay_range[0]*10, delay_range[1]*10)/10 + if ap_type == "target": + self._switch_off_target_ap(delay) + else: + delay -= 1.5 + time.sleep(delay if delay > 0 else 0) + self._apc_switch(["OFF"], [ap_prop["apc"]]) + pass + + def _switch_on_ap(self, ap_type, ap_prop, delay_range): + delay = random.randint(delay_range[0]*10, delay_range[1]*10)/10 + if ap_type == "target": + self._switch_on_target_ap(ap_prop, delay) + else: + delay -= 1.5 + time.sleep(delay if delay > 0 else 0) + self._apc_switch(["ON"], [ap_prop["apc"]]) + pass + + def _join_ap(self, ap_prop, test_method): + fail_string = "join target ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + if self.target_type[1] == "SSC": + cmd = ["SSCC SSC1 ap -C -s %s -p %s" % (ap_prop["ssid"], + ap_prop["pwd"],) + ] + checker_stings = ["SSCR SSC1 C +JAP:CONNECTED"] + pass + else: + cmd = ["ATC AT1 CWJAP \"%s\" \"%s\"" % (ap_prop["ssid"], + ap_prop["pwd"]) + ] + checker_stings = ["ATR AT1 NC ERROR NC FAIL L OK"] + pass + if test_method == "Normal": + ret = self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_freq=0.1, check_time=350) + if ret is not False: + ret *= 0.1 + else: + ret = self.tc_action.load_and_exe_one_step([], cmd, fail_string) + return ret + pass + + def _check_join_ap_result(self, ap_prop): + ret = False + fail_string = "join ap fail, %s, %s" % (ap_prop["ssid"], ap_prop["pwd"]) + + if self.target_type[1] == "SSC": + checker_stings = ["SSCR SSC1 C +JAP:CONNECTED"] + ret = self.tc_action.load_and_exe_one_step(checker_stings, ["DELAY 0"], + fail_string, check_freq=1, check_time=120) + pass + else: + cmd = ["ATS AT1 AT+CWJAP?"] + checker_stings = ["ATR AT1 NC busy NC No%20AP C +CWJAP"] + for i in range(3): + ret = self.tc_action.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_freq=1, check_time=2) + if ret is not False: + break + time.sleep(15) + + return ret + pass + + def join_ap(self, join_test_method, ap_type, ap_prop, delay): + + if join_test_method == "WRONG_PROP": + _prop = ERROR_AP_PROP + else: + _prop = ap_prop + + ret = self._join_ap(_prop, join_test_method) + + if join_test_method == "OFF_ON": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + self._switch_on_ap(ap_type, ap_prop, delay[1]) + ret = self._check_join_ap_result(_prop) + pass + elif join_test_method == "OFF": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + time.sleep(25) + pass + + return ret + pass + + def do_reconnect(self, reconnect_test_method, ap_type, ap_prop, delay): + ret = True + if reconnect_test_method == "OFF_ON": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + self._switch_on_ap(ap_type, ap_prop, delay[1]) + ret = self._check_join_ap_result(ap_prop) + pass + elif reconnect_test_method == "OFF": + self._switch_off_ap(ap_type, ap_prop, delay[0]) + pass + return ret + pass + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/WiFiStress/WifiJAP.py b/components/test/TestCaseScript/WiFiStress/WifiJAP.py new file mode 100755 index 000000000..20dd28041 --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/WifiJAP.py @@ -0,0 +1,218 @@ +import os +import random +import time + +import WifiConnUtility +from NativeLog import NativeLog +from TCAction import TCActionBase +from Utility import Encoding +from Utility import MakeFolder + +STEPS = {"SCAN1": 0x01, "JAP": 0x02, "SCAN2": 0x04, "RECONNECT": 0x08} + +AP_PROP = ("ssid", "ssid_len", "pwd", + "pwd_len", "channel", "enc", "apc") + +JAP_TEST_METHOD = ("Normal", "OFF_ON", "OFF", "WRONG_PROP") + +RECONNECT_TEST_METHOD = ("OFF_ON", "OFF") + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "JAP") + + +SSID_LEN_RANGE = (1, 32) # in bytes +ENC_TYPE = (0, 2, 3, 4) # do not support WEP for 8266 soft AP +PWD_RANGE = {0: [0, 0], + 1: [5, 5], + 2: [8, 63], + 3: [8, 63], + 4: [8, 63], + } + + +class WifiJAP(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # default value for optional configurable params + self.pwd_len = [8, 64] + self.step_config = [0x03, 0x01, 0x02, 0x0B, 0x0F] + self.join_test_method = ["Normal"] + self.join_delay = [[1.5, 5], [1.5, 5]] + self.reconnect_test_method = ["OFF_ON"] + self.reconnect_delay = [[1.5, 5], [1.5, 6]] + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # read AP list + self.ap_list = [] + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROP, " + cmd_set[i][1][j] + ")))" + exec cmd_string + + folder_path = MakeFolder.make_folder(LOG_FOLDER) + file_name = "JAP_log_%s.log" % (time.strftime("%m%d%H%M%S", time.localtime())) + self._performance_log_file = os.path.join(folder_path, file_name) + + # test statistics + self._succeed_count = self._fail_count = self._time_cost_count = 0 + self._total_time = self._longest_time = 0 + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + # get target type "SSC" or "AT" + self.target_type = ["SSC" if test_env.get_port_by_name("AT1") is None else "AT"] + self.target_type.append("SSC" if test_env.get_port_by_name("AT2") is None else "AT") + self._utility = WifiConnUtility.WifiConnUtility(self) + pass + + def _generate_random_ap_prop(self): + ap_prop = dict.fromkeys(AP_PROP) + # generate target ap_value + ap_prop["ssid_len"] = random.randint(SSID_LEN_RANGE[0], SSID_LEN_RANGE[1]) + ap_prop["channel"] = random.choice(range(1, 14)) + ap_prop["enc"] = random.choice(ENC_TYPE) + ap_prop["pwd_len"] = random.randint(PWD_RANGE[ap_prop["enc"]][0], PWD_RANGE[ap_prop["enc"]][1]) + # generate string + if self.target_type[0] == self.target_type[1] == "AT": + ap_prop["ssid"] = Encoding.generate_random_utf8_str(ap_prop["ssid_len"]) + ap_prop["pwd"] = Encoding.generate_random_utf8_str(ap_prop["pwd_len"]) + # NativeLog.add_trace_info("ssid hex is : %x" % ap_prop["ssid"]) + # NativeLog.add_trace_info("pwd hex is : %x" % ap_prop["pwd"]) + else: + ap_prop["ssid"] = Encoding.generate_random_printable_str(ap_prop["ssid_len"]) + ap_prop["pwd"] = Encoding.generate_random_printable_str(ap_prop["pwd_len"]) + + return ap_prop + + def _logging_performance(self, ssid, join_method="Normal", time_cost=0): + # log performance to performance log file + with open(self._performance_log_file, "ab+") as f: + # log time and ssid + f.write("\r\n[%s]:\r\n[AP name] %s\r\n" % + (time.strftime("%m-%d %H:%M:%S", time.localtime()), ssid)) + if join_method == "Normal" or join_method == "OFF_ON": + if time_cost is not False: + self._succeed_count += 1 + if join_method == "Normal": + f.write("[Succeed][%f]\r\n" % time_cost) + self._longest_time = (time_cost > self._longest_time and + [time_cost] or [self._longest_time])[0] + self._time_cost_count += 1 + self._total_time += time_cost + else: + f.write("[Succeed][%s]\r\n" % join_method) + else: + self._fail_count += 1 + f.write("[Fail][%s]\r\n" % join_method) + pass + + def _logging_fail_step(self, ssid, step): + with open(self._performance_log_file, "ab+") as f: + f.write("\r\n[%s]:\r\n[AP name] %s\r\n" % + (time.strftime("%m-%d %H:%M:%S", time.localtime()), ssid)) + f.write("[Fail][%s]\r\n" % step) + pass + + def _generate_performance_report(self): + with open(self._performance_log_file, "ab+") as f: + f.write("[Test report] Succeed: %d\r\n" % self._succeed_count) + f.write("[Test report] Failed: %d\r\n" % self._fail_count) + if self._succeed_count > 0 or self._fail_count > 0: + f.write("[Test report] Pass Rate: %f\r\n" % + (self._succeed_count/(self._fail_count+self._succeed_count))) + if self._time_cost_count > 0: + f.write("[Test report] Average time: %f\r\n" % (self._total_time/self._time_cost_count)) + f.write("[Test report] Longest time: %f\r\n" % self._longest_time) + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # mandatory configurable params + try: + target_ap_num = self.target_ap_num + test_count = self.test_count + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for WifiJAP script, error is %s" % e) + raise StandardError("Error configuration") + + # prepare ap list + _ap_list = [["target", None]] * target_ap_num + for _ap_prop in self.ap_list: + _ap_list.append(["AP", _ap_prop]) + + # set to correct mode first + self._utility.set_mode([1, 2]) + + for i in xrange(test_count): + _ap = random.choice(_ap_list) + # arrange ap + _ap_type = _ap[0] + _ap_prop = _ap[1] + if _ap_type == "target": + _ap_prop = self._generate_random_ap_prop() + pass + + # step 1 : mandatory step, set up AP + if self._utility.setup_ap(_ap_type, _ap_prop) is False: + self._logging_fail_step(_ap_prop["ssid"], "Set AP") + NativeLog.add_prompt_trace("[Step1] setup AP Fail") + continue + step_config = random.choice(self.step_config) + NativeLog.add_prompt_trace("[Step1] setup AP succeed") + + # step 2 : optional step, do scan before connect + if step_config & STEPS["SCAN1"] != 0: # check option + if self._utility.do_scan(_ap_prop) is False: + self._logging_fail_step(_ap_prop["ssid"], "Scan before JAP") + NativeLog.add_prompt_trace("[Step2] Scan Done") + + # step 3 : mandatory step, join AP + if step_config & STEPS["JAP"] != 0: # check option + _join_test_method = random.choice(self.join_test_method) + time_cost = self._utility.join_ap(_join_test_method, _ap_type, _ap_prop, self.join_delay) + # log performance to performance log file + self._logging_performance(_ap_prop["ssid"], _join_test_method, time_cost) + if time_cost is False: + # do scan once to check if AP exist + self._utility.do_scan(_ap_prop) + continue + NativeLog.add_prompt_trace("[Step3] Join AP done") + + # step 4 : optional step, scan after join AP + if step_config & STEPS["SCAN2"] != 0: # check option + if self._utility.do_scan(_ap_prop) is False: + self._logging_fail_step(_ap_prop["ssid"], "Scan after JAP") + NativeLog.add_prompt_trace("[Step4] Scan done") + + # step 5 : optional step, reconnect test + if step_config & STEPS["RECONNECT"] != 0: # check option + _reconnect_test_method = random.choice(self.reconnect_test_method) + if self._utility.do_reconnect(_reconnect_test_method, + _ap_type, _ap_prop, self.reconnect_delay) is False: + self._logging_fail_step(_ap_prop["ssid"], "Reconnect") + + NativeLog.add_prompt_trace("[Step5] Reconnect done") + # continue to next loop + NativeLog.add_prompt_trace("[WifiJAP] Test count %d done" % i) + + # generate report and cleanup + self._generate_performance_report() + + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/WiFiStress/WifiJAPAtt.py b/components/test/TestCaseScript/WiFiStress/WifiJAPAtt.py new file mode 100755 index 000000000..2c2eadc79 --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/WifiJAPAtt.py @@ -0,0 +1,173 @@ +import os +import time +from TCAction import TCActionBase +from NativeLog import NativeLog +from Utility import RSSICalibrator +from Utility import MakeFolder + +MAX_RSSI = 0 +MIN_RSSI = -110 +MAX_ATT = 60 +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "JAP") +AP_PROP_KEY = ("ssid", "password", "apc") + + +class Performance(object): + def __init__(self): + self.succeed_rssi = dict.fromkeys(range(MIN_RSSI, MAX_RSSI), 0) + self.failed_rssi = dict.fromkeys(range(MIN_RSSI, MAX_RSSI), 0) + self.failed_att = dict.fromkeys(range(MAX_ATT), 0) + pass + + def log_performance(self, result, att, rssi): + if result == "Succeed": + self.succeed_rssi[rssi] += 1 + else: + if rssi == 0: + self.failed_att[att] += 1 + else: + self.failed_rssi[rssi] += 1 + pass + + def __str__(self): + data = "Succeed:\r\n" + for rssi in self.succeed_rssi: + if self.succeed_rssi[rssi] > 0: + data += "\tRSSI%4d: %2d times\r\n" % (rssi, self.succeed_rssi[rssi]) + + data += "Failed during scan:\r\n" + for att in self.failed_att: + if self.failed_att[att] > 0: + data += "\tATT%3d: %2d times\r\n" % (att, self.failed_att[att]) + + data += "Failed during JAP:\r\n" + for rssi in self.failed_rssi: + if self.failed_rssi[rssi] > 0: + data += "\tRSSI%4d: %2d times\r\n" % (rssi, self.failed_rssi[rssi]) + + return data + pass + + +class WifiJAPAtt(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + self.att_test_list = range(60) + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + # read AP list + self.ap_list = [] + for i in range(1, len(cmd_set)): + for j in range(len(cmd_set[i][1])): + if cmd_set[i][1][j] != "": + cmd_string = "self.ap_list.append(dict(zip(AP_PROP_KEY, " + cmd_set[i][1][j] + ")))" + exec cmd_string + + self.performance = dict([(ap_prop["ssid"], Performance()) for ap_prop in self.ap_list]) + # create log file + folder_path = MakeFolder.make_folder(LOG_FOLDER) + self.performance_log = os.path.join(folder_path, + "JAP_Att_%s.log" % time.strftime("%d%H%M%S", time.localtime())) + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def log_performance(self, att, rssi, ssid, result): + NativeLog.add_prompt_trace("[%s][ssid %s] [att %s] [rssi %s]" % (result, ssid, att, rssi)) + data = "" + self.performance[ssid].log_performance(result, att, rssi) + for _ssid in self.performance: + data += "[ssid] %s\r\n%s\r\n" % (_ssid, self.performance[_ssid]) + with open(self.performance_log, "wb+") as f: + f.write(data) + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + try: + # configurable params + ap_list = self.ap_list + att_test_list = self.att_test_list + test_count = self.test_count + # configurable params + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for JAPAtt script, error is %s" % e) + raise StandardError("Error configuration") + + for x in xrange(test_count): + for ap_prop in ap_list: + if ap_prop["password"] == "": + # set a default string for open ap + ap_prop["password"] = "1" + + # switch off all outlet, switch on AP outlet + outlet_config_dict = dict.fromkeys(range(1, 9), "OFF") + outlet_config_dict[ap_prop["apc"]] = "ON" + apc_cmd = "APC " + for outlet in outlet_config_dict: + apc_cmd += " %s %s" % (outlet_config_dict[outlet], outlet) + checker_stings = ["P PC_COM L OK"] + fail_string = "Fail, Fail to switch apc" + if self.load_and_exe_one_step(checker_stings, [apc_cmd], fail_string) is False: + return + + # wait AP ready + time.sleep(20) + + # create RSSI Calibrator + calibrator = RSSICalibrator.Calibrator() + + for att_value in att_test_list: + # step 0 set att value + checker_stings = ["R PC_COM L OK"] + test_action_string = ["ATT %s" % att_value] + fail_string = "Fail, Fail to set att value" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False: + continue + + # step 1 get AP RSSI + checker_stings = ["R SSC1 A :\+SCAN:%s,[:\d\w]+,\d+,\d+,([-\d]+)" % ap_prop["ssid"]] + test_action_string = ["SSC SSC1 sta -S -s %s" % ap_prop["ssid"]] + fail_string = "Fail, Fail to scan" + rssi = scan_count = 0 + for i in range(3): + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=5) is False: + self.log_performance(att_value, 0, ap_prop["ssid"], "Failed to measure RSSI") + continue + rssi += int(self.test_env.get_variable_by_name("rssi")[1]) + scan_count += 1 + + rssi = calibrator.calibrate_rssi(float(rssi)/scan_count if scan_count > 0 else 0, att_value) + + # step 2 connect to AP + checker_stings = ["R SSC1 C +JAP:CONNECTED"] + test_action_string = ["SSC SSC1 sta -C -s %s -p %s" % (ap_prop["ssid"], ap_prop["password"])] + fail_string = "Fail, Fail to JAP" + if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string, + check_freq=1, check_time=45) is False: + self.log_performance(att_value, rssi, ap_prop["ssid"], "Failed to JAP") + continue + + self.log_performance(att_value, rssi, ap_prop["ssid"], "Succeed") + + # finally, execute done + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/WiFiStress/WifiSmartConfig.py b/components/test/TestCaseScript/WiFiStress/WifiSmartConfig.py new file mode 100755 index 000000000..3a95a920f --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/WifiSmartConfig.py @@ -0,0 +1,273 @@ +import random +import os +import time +import copy + +from TCAction import TCActionBase +from NativeLog import NativeLog +from Utility import Encoding +from Utility import MakeFolder + +AP_PROP = ("ssid", "ssid_len", "pwd", + "pwd_len", "channel", "enc", "apc") + +SMART_TYPE = ("esp-touch", "airkiss") + +TEST_METHOD = ("ssid_broadcast", "ssid_hidden") + +HT = ("ht20", "ht40") + +TEST_STAT = ("total count", "fail count", "total time", "longest time") + +_TEST_STAT_INIT_DICT = {"total count": 0, + "fail count": 0, + "total time": 0, + "longest time": 0, + } + +LOG_FOLDER = os.path.join("AT_LOG", "Performance", "SmartConfig") + + +SSID_LEN_RANGE = (1, 32) # in bytes +ENC_TYPE = (0, 2, 3, 4) # do not support WEP for 8266 soft AP +PWD_RANGE = {0: [0, 0], + 1: [5, 5], + 2: [8, 32], + 3: [8, 32], + 4: [8, 32], + } + + +class WifiSmartConfig(TCActionBase.CommonTCActionBase): + + def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH): + TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set, + timeout=timeout, log_path=log_path) + # default value for optional configurable params + self.test_method = ["ssid_hidden", "ssid_broadcast"] + self.bssid = "ff:ff:ff:ff:ff:ff" + self.ht_ap = dict(zip(HT, [("", ""), + ("", "")])) + self.ap_channel = {"ht20": 1, "ht40": 1} + self.delay_time = 3 # default 3s, wait for scan done + # load param from excel + for i in range(1, len(cmd_set)): + if cmd_set[i][0] != "dummy" and cmd_set[i][0] != "": + cmd_string = "self." + cmd_set[i][0] + exec cmd_string + + folder_path = MakeFolder.make_folder(LOG_FOLDER) + file_name = "SmartConfig_log_%s.log" % (time.strftime("%m%d%H%M%S", time.localtime())) + self._performance_log_file = os.path.join(folder_path, file_name) + + # type + self.target_type = ["SSC" if test_env.get_port_by_name("AT1") is None else "AT"] + self.target_type.append("SSC" if test_env.get_port_by_name("AT2") is None else "AT") + + # test statistics + # better ways to create? + _test_stat = dict.fromkeys(TEST_STAT, 0) + _test_method = dict.fromkeys(TEST_METHOD) + _test_ht = dict.fromkeys(HT) + self.test_stat = dict.fromkeys(SMART_TYPE) + for i in SMART_TYPE: + self.test_stat[i] = copy.deepcopy(_test_ht) + for j in HT: + self.test_stat[i][j] = copy.deepcopy(_test_method) + for k in TEST_METHOD: + self.test_stat[i][j][k] = copy.deepcopy(_test_stat) + + self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name) + pass + + def _generate_random_ap_prop(self, ht_type): + ap_prop = dict.fromkeys(AP_PROP) + # generate target ap_value + ap_prop["ssid_len"] = random.randint(SSID_LEN_RANGE[0], SSID_LEN_RANGE[1]) + ap_prop["channel"] = self.ap_channel[ht_type] + ap_prop["enc"] = random.choice(ENC_TYPE) + ap_prop["pwd_len"] = random.randint(PWD_RANGE[ap_prop["enc"]][0], PWD_RANGE[ap_prop["enc"]][1]) + ap_prop["ssid"] = Encoding.generate_random_printable_str(ap_prop["ssid_len"]) + ap_prop["pwd"] = Encoding.generate_random_printable_str(ap_prop["pwd_len"]) + + return ap_prop + + def _logging_performance(self, time_cost, ssid, password, smart_type, test_method, ht_type): + # update test statistics + stat = self.test_stat[smart_type][ht_type][test_method] + stat["total count"] += 1 + # log performance to performance log file + with open(self._performance_log_file, "ab+") as f: + # log time and ssid + if time_cost is not False: + time_tmp = float(time_cost)/10 + f.write("\r\n[%s]:\r\n[Succeed] [%.2f]\r\n" % + (time.strftime("%m-%d %H:%M:%S", time.localtime()), time_tmp)) + stat["total time"] += time_tmp + stat["longest time"] = time_tmp if time_tmp > stat["longest time"] else stat["longest time"] + else: + f.write("\r\n[%s]:\r\n[Fail]\r\n" % + time.strftime("%m-%d %H:%M:%S", time.localtime())) + stat["fail count"] += 1 + + f.write("[%s] [%s] [%s]\r\n" % + (smart_type, test_method, ht_type)) + f.write("[ssid] %s \r\n[password] %s\r\n" % + (ssid, password)) + pass + + def _generate_performance_report(self): + with open(self._performance_log_file, "ab+") as f: + for i in SMART_TYPE: + for j in HT: + for k in TEST_METHOD: + stat = self.test_stat[i][j][k] + f.write("\r\n[Test report] [%s] [%s] [%s]\r\n" % (i, j, k)) + if stat["total count"] > 0: + f.write("[Total]: %d\r\n" % stat["total count"]) + f.write("[Failed]: %d\r\n" % stat["fail count"]) + f.write("[Fail ratio]: %.2f%%\r\n" % + (float(stat["fail count"])/stat["total count"] * 100)) + f.write("[Longest time cost]: %.2f\r\n" % stat["longest time"]) + if (stat["total count"] - stat["fail count"]) > 0: + f.write("[Average time cost]: %.2f\r\n" % + (stat["total time"]/(stat["total count"]-stat["fail count"]))) + + @staticmethod + def cmd_exception_catcher(e): + raise e + pass + + def execute(self): + TCActionBase.TCActionBase.execute(self) + self.result_cntx.start() + + # mandatory configurable params + try: + test_count = self.test_count + delay_time = self.delay_time + except StandardError, e: + NativeLog.add_trace_critical("Error configuration for WifiJAP script, error is %s" % e) + raise StandardError("Error configuration") + + # step 0 : set AT1 mode + fail_string = "Fail to restore init condition" + if self.target_type[0] == "AT": + cmd = ["ATS AT1 AT+CWMODE=1"] + checker_stings = ["R AT1 L OK"] + else: + cmd = ["SSC SSC1 op -S -o 1"] + checker_stings = ["R SSC1 C +MODE:OK"] + if self.target_type[1] == "AT": + cmd.append("ATS AT2 AT+CWMODE=2") + checker_stings.append("R AT2 L OK") + else: + cmd.append("SSC SSC2 op -S -o 2") + checker_stings.append("R SSC2 C +MODE:OK") + + if self.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=150) is False: + NativeLog.add_trace_critical(fail_string) + return + + for i in xrange(test_count): + _method = random.choice(self.test_method) + _ht = random.choice(self.ht) + _ap_prop = self._generate_random_ap_prop(_ht) + _smart_type = random.choice(self.smart_type) + _ht_ap = self.ht_ap[_ht] + is_hidden = 0 if _method == "ssid_broadcast" else 1 + # get ip and + + # step 1 : restore init condition + fail_string = "Fail to restore init condition" + if self.target_type[0] == "AT": + cmd = ["ATS AT1 AT+CWSTOPSMART", "WIFI CONN %s %s " % (_ht_ap[0], _ht_ap[1])] + checker_stings = ["P AT1 L OK", "P PC_COM L OK"] + else: + cmd = ["SSC SSC1 smart -E", "WIFI CONN %s %s " % (_ht_ap[0], _ht_ap[1])] + checker_stings = ["P SSC1 C +SC:OK", "P PC_COM L OK"] + + if self.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=200) is False: + NativeLog.add_trace_critical(fail_string) + continue + NativeLog.add_prompt_trace("Step1 Done") + + # step 2 : test method is ssid_broadcast, then set AP on target 2 + if _method == "ssid_broadcast": + fail_string = "Fail to set AP" + if self.target_type[1] == "AT": + cmd = ["ATS AT2 AT+CWSAP=\"%s\",\"%s\",%d,%d" % (_ap_prop["ssid"], _ap_prop["pwd"], + _ap_prop["channel"], _ap_prop["enc"])] + checker_stings = ["R AT2 L OK"] + else: + cmd = ["SSC SSC2 ap -S -s %s -p %s -n %d -t %d" % (_ap_prop["ssid"], _ap_prop["pwd"], + _ap_prop["channel"], _ap_prop["enc"])] + checker_stings = ["R SSC2 C +SAP:OK"] + + if self.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical(fail_string) + continue + NativeLog.add_prompt_trace("Step2 Done") + + # step 3 : start SMART + fail_string = "Fail to start smart config" + if self.target_type[0] == "AT": + cmd = ["ATS AT1 AT+CWSTARTSMART"] + checker_stings = ["R AT1 L OK"] + else: + cmd = ["SSC SSC1 smart -S -a 0"] + checker_stings = ["R SSC1 C +SC:OK"] + + if self.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=50) is False: + NativeLog.add_trace_critical(fail_string) + continue + # sleep for delay_time seconds to wait scan done or simulate delay config situation + time.sleep(delay_time) + NativeLog.add_prompt_trace("Step3 Done") + + # step 4 : do smart config + fail_string = "Fail in smart config" + cmd = ["SMART %s %s %s %s %d" + % (_smart_type, _ap_prop["ssid"], _ap_prop["pwd"], self.bssid, is_hidden)] + if self.target_type[0] == "AT": + checker_stings = ["P AT1 C Smart%20get%20wifi%20info", + "P LOG1 C %s C %s" % (_ap_prop["ssid"], _ap_prop["pwd"])] + else: + checker_stings = ["P SSC1 C %s C %s" % (_ap_prop["ssid"], _ap_prop["pwd"])] + + try: + time_cost = self.load_and_exe_one_step(checker_stings, cmd, + fail_string, check_time=400, + cmd_exception_catcher=self.cmd_exception_catcher) + except StandardError: + NativeLog.add_prompt_trace("Exception occurred during executing cmd") + continue + pass + self._logging_performance(time_cost, _ap_prop["ssid"], _ap_prop["pwd"], + _smart_type, _method, _ht) + if time_cost is False: + NativeLog.add_prompt_trace(fail_string) + continue + + # continue to next loop + NativeLog.add_prompt_trace("[WifiSmartConfig] Test count %d done" % i) + + # generate report and cleanup + self._generate_performance_report() + + self.result_cntx.set_result("Succeed") + + def result_check(self, port_name, data): + TCActionBase.CommonTCActionBase.result_check(self, port_name, data) + self.result_cntx.append_data(port_name, data) + + +def main(): + pass + +if __name__ == '__main__': + main() diff --git a/components/test/TestCaseScript/WiFiStress/__init__.py b/components/test/TestCaseScript/WiFiStress/__init__.py new file mode 100755 index 000000000..7960a3ce8 --- /dev/null +++ b/components/test/TestCaseScript/WiFiStress/__init__.py @@ -0,0 +1 @@ +__all__ = ["WifiJAP", ] \ No newline at end of file diff --git a/components/test/TestCaseScript/__init__.py b/components/test/TestCaseScript/__init__.py new file mode 100755 index 000000000..0cc319da7 --- /dev/null +++ b/components/test/TestCaseScript/__init__.py @@ -0,0 +1,2 @@ +__all__ = ['ATFunc', "ATStress", "IOT", "MeshStress", "StableTest", "TCPIPStress" + "TCPStress", "UDPStress", "WiFiStress"] diff --git a/components/test/TestEnvAll.yml b/components/test/TestEnvAll.yml new file mode 100644 index 000000000..703fafcb6 --- /dev/null +++ b/components/test/TestEnvAll.yml @@ -0,0 +1,275 @@ +test environment: +- {PC OS: '', Special: N, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_SmartConfig, + test environment detail: '2 SSC target connect with PC by UART. + + PC has 1 WiFi NIC. + + One HT20 AP and One HT40 AP are placed near target.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 2.0, script path: EnvBase.py, tag: AT_T2_SmartConfig, + test environment detail: '2 AT target connect with PC by UART (AT and LOG port). + + PC has 1 WiFi NIC. + + One HT20 AP and One HT40 AP are placed near target.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_IOT1, + test environment detail: 'PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART. + + AP todo IOT test are placed near SSC1.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, UART ports: 'SSC1 + + SSC2', additional param list: '', basic param list: '', script path: EnvBase.py, + tag: SSC_T2_GPIO3, test environment detail: '[TBD] 2个ESP_8266通过UART连到PC, ESP_8266之间需要测试的Target_GPIO相连', + test script: EnvBase} +- {PC OS: linux, Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: WebServer_T1_1, + test environment detail: 'Web Server target connect with PC by UART. + + PC has 1 wired NIC connected to switch. + + APC, AP also connect with swtich. + + All devices connected with switch use same IP subnet. + + APC control AP power supply.', test script: EnvBase} +- {PC OS: linux, Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: WebServer_T1_2, + test environment detail: 'Web Server target connect with PC by UART. + + 4 PC with WiFi NIC placed near WebServer1.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, UART ports: 'SSC1 + + SSC2', additional param list: '', basic param list: '', script path: EnvBase.py, + tag: SSC_T2_GPIO1, test environment detail: '[TBD] 2个ESP_8266通过UART连到PC, ESP_8266的 + GPIO_6相连', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_Enterprise, + test environment detail: "AP use WPA2-Etherprise is placed near SSC1. \n1 SSC target\ + \ connect with PC by UART.", test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, UART ports: 'SSC1 + + SSC2', additional param list: '', basic param list: '', script path: EnvBase.py, + tag: SSC_T2_GPIO2, test environment detail: '[TBD] 1. 2个ESP_8266通过UART连到PC, ESP_8266的 + GPIO_15通过面包板相连 + + 2. 可借助面包板, 将GPIO_15, 以及中断函数被打开的8266板的GPIO_2 相连', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_HighSpeedUART, + test environment detail: 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 AT target connect with PC by high speed UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_ShieldBox, + test environment detail: '2 SSC target connect with PC by UART. + + Put them to Shield box.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_3, + test environment detail: 'Able to access WAN after connect to AP. + + 1 AT target connect with PC by UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_2, + test environment detail: 'PC has 1 WiFi NIC. + + 1 AT target connect with PC by UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, UART ports: 'SSC1 + + SSC2', additional param list: '', basic param list: '', script path: EnvBase.py, + tag: UART_T1_2, test environment detail: '[TBD] ESP_8266通过UART_0通过USB, UART_1 TXD + 通过 TTLcable 连到PC', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, UART ports: SSC_1, additional param list: '', + basic param list: '', script path: EnvBase.py, tag: UART_T1_1, test environment detail: '[TBD] + 将ESP_8266通过UART连到PC', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_ADC, + test environment detail: 'PC has 1 wired NIC connected to AP. + + Analog input connect to AT1 TOUT. + + Multimeter connect to input, able to measure input voltage. + + 1 AT target connect with PC by UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_WEP, + test environment detail: '1 SSC target connect with PC by UART. + + One WEP share key AP placed near SSC1.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_ADC, + test environment detail: 'PC has 1 wired NIC connected to AP. + + Analog input connect to SSC1 TOUT. + + Multimeter connect to input, able to measure input voltage. + + 1 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_APC, + test environment detail: "PC has 1 wired NIC connected to AP.\nPC has 1 wired NIC\ + \ connected to APC (static IP within the same subnet with APC). \nAPC control\ + \ AP power supply. \nPC has 1 WiFi NIC. \n1 SSC target connect with PC by UART.", + test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_8089, + test environment detail: 'PC has 1 wired NIC connected to AP. + + 1 8089 tablet able to run iperf test placed near SSC1. + + 1 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T1_InitData, + test environment detail: '2 SSC target connect with PC by UART. + + SSC1 use 40M crystal oscillator. + + SSC2 use normal 26M crystal oscillator. + + SSC2 GPIO connect to SSC1 power control pin.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, UART ports: SSC_1, additional param list: '', + basic param list: '', script path: EnvBase.py, tag: SSC_T1_Timer, test environment detail: '[TBD] + 通过串口工具调节Timer, 将GPIO_13端口连接到逻辑分析仪', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 3.0, script path: EnvBase.py, tag: SSC_T3_PhyMode, + test environment detail: '3 SSC target connect with PC by UART. + + PC has one WiFi NIC support capture wlan packet using libpcap. + + Set 4 AP with (HT20, channel1), (HT20, channel2), (HT40, channel1), (HT40, channel2). + + Put 4 APs near SSC targets.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: AT_T2_JAP, + test environment detail: "Several AP are placed near AT target.\nPC has 1 wired\ + \ NIC connected to APC (static IP within the same subnet with APC).\nAPC control\ + \ power supply for all APs. \n2 AT target connect with PC by UART (AT and LOG\ + \ port).", test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_PhyMode, + test environment detail: '2 SSC target connect with PC by UART. + + PC has one WiFi NIC support capture wlan packet using libpcap. + + Set 4 AP with phy mode 11b, 11g, 11n HT20, 11n HT40. + + Put 4 APs near SSC targets.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_ShieldBox, + test environment detail: 'refer to figure. + + All APs and APC should be set to the same IP subnet. + + PC wired NIC should set static IP address within the same subnet with AP. + + Must use onboard wired NIC.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_1, + test environment detail: 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: TempSensor_T1_1, + test environment detail: 'Tempeture sensor target connect with PC by UART. + + AP support DTIM placed with AT target. + + Multimeter connect with PC via GPIB. + + Series multimeter between GND and VCC of TempSensor1. + + PC has 1 wired NIC connected to switch. + + APC, AP also connect with swtich. + + All devices connected with switch use the same IP subnet. + + APC control AP power supply.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_SmartConfigIOT, + test environment detail: '1 AT target connect with PC by UART (AT and LOG port). + + PC has 1 wired NIC connect to Common AP. + + Several AP are placed near AT target. + + Several smart phone installed test APK are placed near AT target.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: AT_T2_Sleep, + test environment detail: 'AP support DTIM placed with AT target. + + 2 AT target connect with PC by UART (AT and LOG port). + + Multimeter connect with PC via GPIB. + + Series multimeter between GND and VCC of AT1. + + AT1''s light sleep wakeup pin and wakeup indication connect with AT2''s GPIO.', + test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 5.0, script path: EnvBase.py, tag: SSC_T5_1, + test environment detail: 5 SSC target connect with PC by UART., test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_TempBox, + test environment detail: '1 SSC target connect with PC by UART. + + Put SSC target to temperature box.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_1, + test environment detail: 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 AT target connect with PC by UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T6_1, + test environment detail: 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 6 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, UART ports: 'SSC1 + + SSC2', additional param list: '', basic param list: '', script path: EnvBase.py, + tag: IR_T2_1, test environment detail: '[TBD] 本测试为非自动测试, 红外能够做到数据收发吻合即可通过', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_VDD33, + test environment detail: '1 SSC target connect with PC by UART. + + Multimeter connect to VDD33, able to measure voltage.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, UART ports: SSC_1, additional param list: '', + basic param list: '', script path: EnvBase.py, tag: PWM_T1_1, test environment detail: "[TBD]\ + \ 1. PWM OS SDK 以及 Non-OS SDK的测试建议分开进行, 放在不同的文件夹, 防止文件命名混淆\n2. 分析CSV文件的Python脚本只能分析单个channel\ + \ \n3. 如果Init脚本打印\"Network Error\" 检查TCP Server是不是正常发送data", test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: NVS_T1_1, + test environment detail: '1 NVS target connect with PC by UART. + + 1 SSC target connect with PC by UART. + + SSC2 GPIO connect to NVS1 power control pin.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_Sleep2, + test environment detail: 'AP support DTIM placed with AT target. + + 2 SSC target connect with PC by UART. + + Multimeter connect with PC via GPIB. + + Series multimeter between GND and VCC of SSC1. + + SSC1''s RSTB pin connect with AT2''s GPIO.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 2.0, script path: EnvBase.py, tag: SSC_T2_Sleep1, + test environment detail: 'AP support DTIM placed with AT target. + + 2 SSC target connect with PC by UART. + + Multimeter connect with PC via GPIB. + + Series multimeter between GND and VCC of SSC1. + + SSC1''s light sleep wakeup pin and wakeup indication connect with AT2''s GPIO. + + SSC1''s XPD connect with RSTB.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 2.0, script path: EnvBase.py, tag: AT_T2_1, + test environment detail: 'PC has 1 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 2 AT target connect with PC by UART (AT and LOG port).', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_1, + test environment detail: 'PC has 2 wired NIC connected to AP. + + PC has 1 WiFi NIC. + + 1 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: N, Target Count: 1.0, script path: EnvBase.py, tag: SSC_T1_2, + test environment detail: 'Able to access WAN after connect to AP. + + 1 SSC target connect with PC by UART.', test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_APC2, + test environment detail: "Able to access WAN after connect to AP.\nPC has 1 wired\ + \ NIC connected to APC (static IP within the same subnet with APC). \nAPC control\ + \ AP power supply.\nPC has 1 WiFi NIC.\n1 AT target connect with PC by UART (AT\ + \ and LOG port).", test script: EnvBase} +- {PC OS: '', Special: Y, Target Count: 1.0, script path: EnvBase.py, tag: AT_T1_APC1, + test environment detail: "PC has 1 wired NIC connected to AP.\nPC has 1 wired NIC\ + \ connected to APC (static IP within the same subnet with APC). \nAPC control\ + \ AP power supply. \nPC has 1 WiFi NIC. \n1 AT target connect with PC by UART\ + \ (AT and LOG port).", test script: EnvBase}