e727582180
1. close github issue: https://github.com/espressif/esp-idf/issues/1792 2. close github issue: https://github.com/espressif/esp-idf/issues/1781
458 lines
16 KiB
Text
Executable file
458 lines
16 KiB
Text
Executable file
menu "LWIP"
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config L2_TO_L3_COPY
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bool "Enable copy between Layer2 and Layer3 packets"
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default n
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help
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If this feature is enabled, all traffic from layer2(WIFI Driver) will be
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copied to a new buffer before sending it to layer3(LWIP stack), freeing
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the layer2 buffer.
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Please be notified that the total layer2 receiving buffer is fixed and
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ESP32 currently supports 25 layer2 receiving buffer, when layer2 buffer
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runs out of memory, then the incoming packets will be dropped in hardware.
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The layer3 buffer is allocated from the heap, so the total layer3 receiving
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buffer depends on the available heap size, when heap runs out of memory,
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no copy will be sent to layer3 and packet will be dropped in layer2.
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Please make sure you fully understand the impact of this feature before
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enabling it.
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config LWIP_IRAM_OPTIMIZATION
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bool "Enable LWIP IRAM optimization"
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default n
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help
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If this feature is enabled, some functions relating to RX/TX in LWIP will be
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put into IRAM, it can improve UDP/TCP throughput by >10% for single core mode,
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it doesn't help too much for dual core mode. On the other hand, it needs about
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10KB IRAM for these optimizations.
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If this feature is disabled, all lwip functions will be put into FLASH.
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config LWIP_MAX_SOCKETS
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int "Max number of open sockets"
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range 1 16
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default 10
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help
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Sockets take up a certain amount of memory, and allowing fewer
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sockets to be open at the same time conserves memory. Specify
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the maximum amount of sockets here. The valid value is from 1
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to 16.
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config LWIP_SO_REUSE
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bool "Enable SO_REUSEADDR option"
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default y
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help
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Enabling this option allows binding to a port which remains in
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TIME_WAIT.
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config LWIP_SO_REUSE_RXTOALL
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bool "SO_REUSEADDR copies broadcast/multicast to all matches"
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depends on LWIP_SO_REUSE
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default y
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help
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Enabling this option means that any incoming broadcast or multicast
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packet will be copied to all of the local sockets that it matches
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(may be more than one if SO_REUSEADDR is set on the socket.)
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This increases memory overhead as the packets need to be copied,
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however they are only copied per matching socket. You can safely
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disable it if you don't plan to receive broadcast or multicast
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traffic on more than one socket at a time.
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config LWIP_SO_RCVBUF
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bool "Enable SO_RCVBUF option"
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default n
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help
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Enabling this option allows checking for available data on a netconn.
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config LWIP_DHCP_MAX_NTP_SERVERS
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int "Maximum number of NTP servers"
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default 1
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range 1 16
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help
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Set maximum number of NTP servers used by LwIP SNTP module.
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First argument of sntp_setserver/sntp_setservername functions
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is limited to this value.
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config LWIP_IP_FRAG
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bool "Enable fragment outgoing IP packets"
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default n
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help
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Enabling this option allows fragmenting outgoing IP packets if their size
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exceeds MTU.
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config LWIP_IP_REASSEMBLY
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bool "Enable reassembly incoming fragmented IP packets"
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default n
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help
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Enabling this option allows reassemblying incoming fragmented IP packets.
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config LWIP_STATS
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bool "Enable LWIP statistics"
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default n
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help
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Enabling this option allows LWIP statistics
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config LWIP_ETHARP_TRUST_IP_MAC
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bool "Enable LWIP ARP trust"
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default y
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help
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Enabling this option allows ARP table to be updated.
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If this option is enabled, the incoming IP packets cause the ARP table to be
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updated with the source MAC and IP addresses supplied in the packet.
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You may want to disable this if you do not trust LAN peers to have the
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correct addresses, or as a limited approach to attempt to handle
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spoofing. If disabled, lwIP will need to make a new ARP request if
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the peer is not already in the ARP table, adding a little latency.
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The peer *is* in the ARP table if it requested our address before.
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Also notice that this slows down input processing of every IP packet!
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config TCPIP_RECVMBOX_SIZE
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int "TCPIP task receive mail box size"
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default 32
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range 6 64
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help
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Set TCPIP task receive mail box size. Generally bigger value means higher throughput
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but more memory. The value should be bigger than UDP/TCP mail box size.
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config LWIP_DHCP_DOES_ARP_CHECK
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bool "DHCP: Perform ARP check on any offered address"
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default y
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help
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Enabling this option performs a check (via ARP request) if the offered IP address
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is not already in use by another host on the network.
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menu "DHCP server"
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config LWIP_DHCPS_LEASE_UNIT
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int "Multiplier for lease time, in seconds"
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range 1 3600
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default 60
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help
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The DHCP server is calculating lease time multiplying the sent
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and received times by this number of seconds per unit.
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The default is 60, that equals one minute.
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config LWIP_DHCPS_MAX_STATION_NUM
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int "Maximum number of stations"
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range 1 64
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default 8
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help
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The maximum number of DHCP clients that are connected to the server.
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After this number is exceeded, DHCP server removes of the oldest device
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from it's address pool, without notification.
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endmenu # DHCPS
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menuconfig LWIP_AUTOIP
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bool "Enable IPV4 Link-Local Addressing (AUTOIP)"
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default n
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help
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Enabling this option allows the device to self-assign an address
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in the 169.256/16 range if none is assigned statically or via DHCP.
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See RFC 3927.
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config LWIP_AUTOIP_TRIES
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int "DHCP Probes before self-assigning IPv4 LL address"
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range 1 100
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default 2
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depends on LWIP_AUTOIP
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help
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DHCP client will send this many probes before self-assigning a
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link local address.
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From LWIP help: "This can be set as low as 1 to get an AutoIP
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address very quickly, but you should be prepared to handle a
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changing IP address when DHCP overrides AutoIP." (In the case of
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ESP-IDF, this means multiple SYSTEM_EVENT_STA_GOT_IP events.)
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config LWIP_AUTOIP_MAX_CONFLICTS
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int "Max IP conflicts before rate limiting"
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range 1 100
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default 9
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depends on LWIP_AUTOIP
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help
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If the AUTOIP functionality detects this many IP conflicts while
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self-assigning an address, it will go into a rate limited mode.
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config LWIP_AUTOIP_RATE_LIMIT_INTERVAL
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int "Rate limited interval (seconds)"
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range 5 120
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default 20
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depends on LWIP_AUTOIP
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help
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If rate limiting self-assignment requests, wait this long between
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each request.
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menuconfig LWIP_NETIF_LOOPBACK
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bool "Support per-interface loopback"
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default y
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help
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Enabling this option means that if a packet is sent with a destination
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address equal to the interface's own IP address, it will "loop back" and
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be received by this interface.
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config LWIP_LOOPBACK_MAX_PBUFS
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int "Max queued loopback packets per interface"
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range 0 16
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default 8
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depends on LWIP_NETIF_LOOPBACK
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help
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Configure the maximum number of packets which can be queued for
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loopback on a given interface. Reducing this number may cause packets
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to be dropped, but will avoid filling memory with queued packet data.
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menu "TCP"
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config LWIP_MAX_ACTIVE_TCP
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int "Maximum active TCP Connections"
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range 1 1024
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default 16
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help
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The maximum number of simultaneously active TCP
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connections. The practical maximum limit is
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determined by available heap memory at runtime.
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Changing this value by itself does not substantially
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change the memory usage of LWIP, except for preventing
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new TCP connections after the limit is reached.
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config LWIP_MAX_LISTENING_TCP
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int "Maximum listening TCP Connections"
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range 1 1024
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default 16
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help
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The maximum number of simultaneously listening TCP
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connections. The practical maximum limit is
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determined by available heap memory at runtime.
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Changing this value by itself does not substantially
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change the memory usage of LWIP, except for preventing
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new listening TCP connections after the limit is reached.
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config TCP_MAXRTX
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int "Maximum number of retransmissions of data segments"
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default 12
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range 3 12
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help
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Set maximum number of retransmissions of data segments.
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config TCP_SYNMAXRTX
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int "Maximum number of retransmissions of SYN segments"
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default 6
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range 3 12
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help
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Set maximum number of retransmissions of SYN segments.
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config TCP_MSS
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int "Maximum Segment Size (MSS)"
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default 1436
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range 1220 1436
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help
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Set maximum segment size for TCP transmission.
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Can be set lower to save RAM, the default value 1436 will give best throughput.
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config TCP_MSL
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int "Maximum segment lifetime (MSL)"
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default 60000
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help
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Set maximum segment lifetime in in milliseconds.
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config TCP_SND_BUF_DEFAULT
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int "Default send buffer size"
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default 5744 # 4 * default MSS
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range 2440 65535
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help
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Set default send buffer size for new TCP sockets.
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Per-socket send buffer size can be changed at runtime
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with lwip_setsockopt(s, TCP_SNDBUF, ...).
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This value must be at least 2x the MSS size, and the default
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is 4x the default MSS size.
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Setting a smaller default SNDBUF size can save some RAM, but
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will decrease performance.
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config TCP_WND_DEFAULT
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int "Default receive window size"
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default 5744 # 4 * default MSS
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range 2440 65535
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help
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Set default TCP receive window size for new TCP sockets.
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Per-socket receive window size can be changed at runtime
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with lwip_setsockopt(s, TCP_WINDOW, ...).
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Setting a smaller default receive window size can save some RAM,
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but will significantly decrease performance.
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config TCP_RECVMBOX_SIZE
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int "Default TCP receive mail box size"
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default 6
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range 6 64
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help
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Set TCP receive mail box size. Generally bigger value means higher throughput
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but more memory. The recommended value is: TCP_WND_DEFAULT/TCP_MSS + 2, e.g. if
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TCP_WND_DEFAULT=14360, TCP_MSS=1436, then the recommended receive mail box size is
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(14360/1436 + 2) = 12.
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TCP receive mail box is a per socket mail box, when the application receives packets
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from TCP socket, LWIP core firstly posts the packets to TCP receive mail box and the
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application then fetches the packets from mail box. It means LWIP can caches maximum
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TCP_RECCVMBOX_SIZE packets for each TCP socket, so the maximum possible cached TCP packets
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for all TCP sockets is TCP_RECCVMBOX_SIZE multiples the maximum TCP socket number. In other
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words, the bigger TCP_RECVMBOX_SIZE means more memory.
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On the other hand, if the receiv mail box is too small, the mail box may be full. If the
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mail box is full, the LWIP drops the packets. So generally we need to make sure the TCP
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receive mail box is big enough to avoid packet drop between LWIP core and application.
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config TCP_QUEUE_OOSEQ
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bool "Queue incoming out-of-order segments"
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default y
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help
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Queue incoming out-of-order segments for later use.
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Disable this option to save some RAM during TCP sessions, at the expense
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of increased retransmissions if segments arrive out of order.
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choice TCP_OVERSIZE
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prompt "Pre-allocate transmit PBUF size"
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default TCP_OVERSIZE_MSS
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help
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Allows enabling "oversize" allocation of TCP transmission pbufs ahead of time,
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which can reduce the length of pbuf chains used for transmission.
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This will not make a difference to sockets where Nagle's algorithm
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is disabled.
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Default value of MSS is fine for most applications, 25% MSS may save
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some RAM when only transmitting small amounts of data. Disabled will
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have worst performance and fragmentation characteristics, but uses
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least RAM overall.
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config TCP_OVERSIZE_MSS
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bool "MSS"
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config TCP_OVERSIZE_QUARTER_MSS
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bool "25% MSS"
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config TCP_OVERSIZE_DISABLE
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bool "Disabled"
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endchoice
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endmenu # TCP
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menu "UDP"
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config LWIP_MAX_UDP_PCBS
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int "Maximum active UDP control blocks"
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range 1 1024
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default 16
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help
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The maximum number of active UDP "connections" (ie
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UDP sockets sending/receiving data).
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The practical maximum limit is determined by available
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heap memory at runtime.
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config UDP_RECVMBOX_SIZE
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int "Default UDP receive mail box size"
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default 6
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range 6 64
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help
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Set UDP receive mail box size. The recommended value is 6.
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UDP receive mail box is a per socket mail box, when the application receives packets
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from UDP socket, LWIP core firstly posts the packets to UDP receive mail box and the
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application then fetches the packets from mail box. It means LWIP can caches maximum
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UDP_RECCVMBOX_SIZE packets for each UDP socket, so the maximum possible cached UDP packets
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for all UDP sockets is UDP_RECCVMBOX_SIZE multiples the maximum UDP socket number. In other
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words, the bigger UDP_RECVMBOX_SIZE means more memory.
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On the other hand, if the receiv mail box is too small, the mail box may be full. If the
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mail box is full, the LWIP drops the packets. So generally we need to make sure the UDP
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receive mail box is big enough to avoid packet drop between LWIP core and application.
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endmenu # UDP
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config TCPIP_TASK_STACK_SIZE
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int "TCP/IP Task Stack Size"
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default 2048
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# for high log levels, tcpip_adapter API calls can end up
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# a few calls deep and logging there can trigger a stack overflow
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range 2048 65536 if LOG_DEFAULT_LEVEL < 4
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range 2560 65536 if LOG_DEFAULT_LEVEL >= 4
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help
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Configure TCP/IP task stack size, used by LWIP to process multi-threaded TCP/IP operations.
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Setting this stack too small will result in stack overflow crashes.
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menuconfig PPP_SUPPORT
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bool "Enable PPP support (new/experimental)"
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default n
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help
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Enable PPP stack. Now only PPP over serial is possible.
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PPP over serial support is experimental and unsupported.
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config PPP_PAP_SUPPORT
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bool "Enable PAP support"
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depends on PPP_SUPPORT
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default n
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help
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Enable Password Authentication Protocol (PAP) support
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config PPP_CHAP_SUPPORT
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bool "Enable CHAP support"
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depends on PPP_SUPPORT
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default n
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help
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Enable Challenge Handshake Authentication Protocol (CHAP) support
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config PPP_MSCHAP_SUPPORT
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bool "Enable MSCHAP support"
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depends on PPP_SUPPORT
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default n
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help
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Enable Microsoft version of the Challenge-Handshake Authentication Protocol (MSCHAP) support
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config PPP_MPPE_SUPPORT
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bool "Enable MPPE support"
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depends on PPP_SUPPORT
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default n
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help
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Enable Microsoft Point-to-Point Encryption (MPPE) support
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config PPP_DEBUG_ON
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bool "Enable PPP debug log output"
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depends on PPP_SUPPORT
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default n
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help
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Enable PPP debug log output
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menu "ICMP"
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config LWIP_MULTICAST_PING
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bool "Respond to multicast pings"
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default n
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config LWIP_BROADCAST_PING
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bool "Respond to broadcast pings"
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default n
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endmenu # ICMP
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menu "LWIP RAW API"
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config LWIP_MAX_RAW_PCBS
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int "Maximum LWIP RAW PCBs"
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range 1 1024
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default 16
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help
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The maximum number of simultaneously active LWIP
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RAW protocol control blocks. The practical maximum
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limit is determined by available heap memory at runtime.
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endmenu # LWIP RAW API
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endmenu
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