esp-idf/examples/peripherals/can/can_network/example_test.py
Darian Leung 859ddcdb63 can: Fix reset mode entry and exit calls
This commit fixes multiple bugs caused by incorrect calls to
can_enter_reset_mode() and can_exit_reset_mode. Example test
scripts also updated to match new runners.
2019-10-26 16:45:10 +08:00

81 lines
3.1 KiB
Python

# Need Python 3 string formatting functions
from __future__ import print_function
import os
import sys
from threading import Thread
try:
import IDF
except ImportError:
# The test cause is dependent on the Tiny Test Framework. Ensure the
# `TEST_FW_PATH` environment variable is set to `$IDF_PATH/tools/tiny-test-fw`
test_fw_path = os.getenv("TEST_FW_PATH")
if test_fw_path and test_fw_path not in sys.path:
sys.path.insert(0, test_fw_path)
import IDF
# Define tuple of strings to expect for each DUT.
master_expect = ("CAN Master: Driver installed", "CAN Master: Driver uninstalled")
slave_expect = ("CAN Slave: Driver installed", "CAN Slave: Driver uninstalled")
listen_only_expect = ("CAN Listen Only: Driver installed", "CAN Listen Only: Driver uninstalled")
def dut_thread_callback(**kwargs):
# Parse keyword arguments
dut = kwargs['dut'] # Get DUT from kwargs
expected = kwargs['expected']
result = kwargs['result'] # Get result[out] from kwargs. MUST be of mutable type e.g. list
# Must reset again as flashing during start_app will reset multiple times, causing unexpected results
dut.reset()
for string in expected:
dut.expect(string, 20)
# Mark thread has run to completion without any exceptions
result[0] = True
@IDF.idf_example_test(env_tag='Example_CAN2')
def test_can_network_example(env, extra_data):
# Get device under test. "dut1", "dut2", and "dut3" must be properly defined in EnvConfig
dut_master = env.get_dut("dut1", "examples/peripherals/can/can_network/can_network_master")
dut_slave = env.get_dut("dut2", "examples/peripherals/can/can_network/can_network_slave")
dut_listen_only = env.get_dut("dut3", "examples/peripherals/can/can_network/can_network_listen_only")
# Flash app onto each DUT, each DUT is reset again at the start of each thread
dut_master.start_app()
dut_slave.start_app()
dut_listen_only.start_app()
# Create dict of keyword arguments for each dut
results = [[False], [False], [False]]
master_kwargs = {"dut": dut_master, "result": results[0], "expected": master_expect}
slave_kwargs = {"dut": dut_slave, "result": results[1], "expected": slave_expect}
listen_only_kwargs = {"dut": dut_listen_only, "result": results[2], "expected": listen_only_expect}
# Create thread for each dut
dut_master_thread = Thread(target=dut_thread_callback, name="Master Thread", kwargs=master_kwargs)
dut_slave_thread = Thread(target=dut_thread_callback, name="Slave Thread", kwargs=slave_kwargs)
dut_listen_only_thread = Thread(target=dut_thread_callback, name="Listen Only Thread", kwargs=listen_only_kwargs)
# Start each thread
dut_listen_only_thread.start()
dut_master_thread.start()
dut_slave_thread.start()
# Wait for threads to complete
dut_listen_only_thread.join()
dut_master_thread.join()
dut_slave_thread.join()
# check each thread ran to completion
for result in results:
if result[0] is not True:
raise Exception("One or more threads did not run successfully")
if __name__ == '__main__':
test_can_network_example()