OVMS3-idf/components/test/TestCaseScript/SleepMode/DeepSleep.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

259 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")
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()