OVMS3-idf/components/test/TestCaseScript/SleepMode/ForceSleep.py
Yinling 90e57cdf8f add auto generated test folder to components:
1. add test cases and related scripts
2. add CI config files
read README.md for detail
2016-10-11 17:19:40 +11:00

254 lines
10 KiB
Python
Executable file

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()