scripts/tests/run_python_test.py - third_party/github/project-chip/connectedhomeip - Git at Google

 #!/usr/bin/env -S python3 -B

 # Copyright (c) 2022 Project CHIP Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 # http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 import datetime
 import logging
 import os
 import queue
 import re
 import shlex
 import signal
 import subprocess
 import sys
 import threading
 import time
 import typing

 import click
 import coloredlogs
 from colorama import Fore, Style

 DEFAULT_CHIP_ROOT = os.path.abspath(
     os.path.join(os.path.dirname(__file__), '..', '..'))

 MATTER_DEVELOPMENT_PAA_ROOT_CERTS = "credentials/development/paa-root-certs"


 def EnqueueLogOutput(fp, tag, q):
     for line in iter(fp.readline, b''):
         timestamp = time.time()
         if len(line) > len('[1646290606.901990]') and line[0:1] == b'[':
             try:
                 timestamp = float(line[1:18].decode())
                 line = line[19:]
             except Exception:
                 pass
         sys.stdout.buffer.write(
             (f"[{datetime.datetime.fromtimestamp(timestamp).isoformat(sep=' ')}]").encode() + tag + line)
         sys.stdout.flush()
     fp.close()


 def RedirectQueueThread(fp, tag, queue) -> threading.Thread:
     log_queue_thread = threading.Thread(target=EnqueueLogOutput, args=(
         fp, tag, queue))
     log_queue_thread.start()
     return log_queue_thread


 def DumpProgramOutputToQueue(thread_list: typing.List[threading.Thread], tag: str, process: subprocess.Popen, queue: queue.Queue):
     thread_list.append(RedirectQueueThread(process.stdout,
                                            (f"[{tag}][{Fore.YELLOW}STDOUT{Style.RESET_ALL}]").encode(), queue))
     thread_list.append(RedirectQueueThread(process.stderr,
                                            (f"[{tag}][{Fore.RED}STDERR{Style.RESET_ALL}]").encode(), queue))


 @click.command()
 @click.option("--app", type=click.Path(exists=True), default=None,
               help='Path to local application to use, omit to use external apps.')
 @click.option("--factoryreset", is_flag=True,
               help='Remove app config and repl configs (/tmp/chip* and /tmp/repl*) before running the tests.')
 @click.option("--app-args", type=str, default='',
               help='The extra arguments passed to the device.')
 @click.option("--script", type=click.Path(exists=True), default=os.path.join(DEFAULT_CHIP_ROOT,
                                                                              'src',
                                                                              'controller',
                                                                              'python',
                                                                              'test',
                                                                              'test_scripts',
                                                                              'mobile-device-test.py'), help='Test script to use.')
 @click.option("--script-args", type=str, default='',
               help='Path to the test script to use, omit to use the default test script (mobile-device-test.py).')
 @click.option("--script-gdb", is_flag=True,
               help='Run script through gdb')
 def main(app: str, factoryreset: bool, app_args: str, script: str, script_args: str, script_gdb: bool):
     if factoryreset:
         # Remove native app config
         retcode = subprocess.call("rm -rf /tmp/chip* /tmp/repl*", shell=True)
         if retcode != 0:
             raise Exception("Failed to remove /tmp/chip* for factory reset.")

         print("Contents of test directory: %s" % os.getcwd())
         print(subprocess.check_output(["ls -l"], shell=True).decode('utf-8'))

         # Remove native app KVS if that was used
         kvs_match = re.search(r"--KVS (?P<kvs_path>[^ ]+)", app_args)
         if kvs_match:
             kvs_path_to_remove = kvs_match.group("kvs_path")
             retcode = subprocess.call("rm -f %s" % kvs_path_to_remove, shell=True)
             print("Trying to remove KVS path %s" % kvs_path_to_remove)
             if retcode != 0:
                 raise Exception("Failed to remove %s for factory reset." % kvs_path_to_remove)

         # Remove Python test admin storage if provided
         storage_match = re.search(r"--storage-path (?P<storage_path>[^ ]+)", script_args)
         if storage_match:
             storage_path_to_remove = storage_match.group("storage_path")
             retcode = subprocess.call("rm -f %s" % storage_path_to_remove, shell=True)
             print("Trying to remove storage path %s" % storage_path_to_remove)
             if retcode != 0:
                 raise Exception("Failed to remove %s for factory reset." % storage_path_to_remove)

     coloredlogs.install(level='INFO')

     log_queue = queue.Queue()
     log_cooking_threads = []

     app_process = None
     if app:
         if not os.path.exists(app):
             if app is None:
                 raise FileNotFoundError(f"{app} not found")
         app_args = [app] + shlex.split(app_args)
         logging.info(f"Execute: {app_args}")
         app_process = subprocess.Popen(
             app_args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, bufsize=0)
         DumpProgramOutputToQueue(
             log_cooking_threads, Fore.GREEN + "APP " + Style.RESET_ALL, app_process, log_queue)

     script_command = [script, "--paa-trust-store-path", os.path.join(DEFAULT_CHIP_ROOT, MATTER_DEVELOPMENT_PAA_ROOT_CERTS),
                       '--log-format', '%(message)s'] + shlex.split(script_args)

     if script_gdb:
         #
         # When running through Popen, we need to preserve some space-delimited args to GDB as a single logical argument.
         # To do that, let's use '|' as a placeholder for the space character so that the initial split will not tokenize them,
         # and then replace that with the space char there-after.
         #
         script_command = ("gdb -batch -return-child-result -q -ex run -ex "
                           "thread|apply|all|bt --args python3".split() + script_command)
     else:
         script_command = "/usr/bin/env python3".split() + script_command

     final_script_command = [i.replace('|', ' ') for i in script_command]

     logging.info(f"Execute: {final_script_command}")
     test_script_process = subprocess.Popen(
         final_script_command, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
     DumpProgramOutputToQueue(log_cooking_threads, Fore.GREEN + "TEST" + Style.RESET_ALL,
                              test_script_process, log_queue)

     test_script_exit_code = test_script_process.wait()

     if test_script_exit_code != 0:
         logging.error("Test script exited with error %r" % test_script_exit_code)

     test_app_exit_code = 0
     if app_process:
         logging.warning("Stopping app with SIGINT")
         app_process.send_signal(signal.SIGINT.value)
         test_app_exit_code = app_process.wait()

     # There are some logs not cooked, so we wait until we have processed all logs.
     # This procedure should be very fast since the related processes are finished.
     for thread in log_cooking_threads:
         thread.join()

     if test_script_exit_code != 0:
         sys.exit(test_script_exit_code)
     else:
         # We expect both app and test script should exit with 0
         sys.exit(test_app_exit_code)


 if __name__ == '__main__':
     main(auto_envvar_prefix='CHIP')
	#!/usr/bin/env -S python3 -B

	# Copyright (c) 2022 Project CHIP Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import datetime
	import logging
	import os
	import queue
	import re
	import shlex
	import signal
	import subprocess
	import sys
	import threading
	import time
	import typing

	import click
	import coloredlogs
	from colorama import Fore, Style

	DEFAULT_CHIP_ROOT = os.path.abspath(
	os.path.join(os.path.dirname(__file__), '..', '..'))

	MATTER_DEVELOPMENT_PAA_ROOT_CERTS = "credentials/development/paa-root-certs"


	def EnqueueLogOutput(fp, tag, q):
	for line in iter(fp.readline, b''):
	timestamp = time.time()
	if len(line) > len('[1646290606.901990]') and line[0:1] == b'[':
	try:
	timestamp = float(line[1:18].decode())
	line = line[19:]
	except Exception:
	pass
	sys.stdout.buffer.write(
	(f"[{datetime.datetime.fromtimestamp(timestamp).isoformat(sep=' ')}]").encode() + tag + line)
	sys.stdout.flush()
	fp.close()


	def RedirectQueueThread(fp, tag, queue) -> threading.Thread:
	log_queue_thread = threading.Thread(target=EnqueueLogOutput, args=(
	fp, tag, queue))
	log_queue_thread.start()
	return log_queue_thread


	def DumpProgramOutputToQueue(thread_list: typing.List[threading.Thread], tag: str, process: subprocess.Popen, queue: queue.Queue):
	thread_list.append(RedirectQueueThread(process.stdout,
	(f"[{tag}][{Fore.YELLOW}STDOUT{Style.RESET_ALL}]").encode(), queue))
	thread_list.append(RedirectQueueThread(process.stderr,
	(f"[{tag}][{Fore.RED}STDERR{Style.RESET_ALL}]").encode(), queue))


	@click.command()
	@click.option("--app", type=click.Path(exists=True), default=None,
	help='Path to local application to use, omit to use external apps.')
	@click.option("--factoryreset", is_flag=True,
	help='Remove app config and repl configs (/tmp/chip* and /tmp/repl*) before running the tests.')
	@click.option("--app-args", type=str, default='',
	help='The extra arguments passed to the device.')
	@click.option("--script", type=click.Path(exists=True), default=os.path.join(DEFAULT_CHIP_ROOT,
	'src',
	'controller',
	'python',
	'test',
	'test_scripts',
	'mobile-device-test.py'), help='Test script to use.')
	@click.option("--script-args", type=str, default='',
	help='Path to the test script to use, omit to use the default test script (mobile-device-test.py).')
	@click.option("--script-gdb", is_flag=True,
	help='Run script through gdb')
	def main(app: str, factoryreset: bool, app_args: str, script: str, script_args: str, script_gdb: bool):
	if factoryreset:
	# Remove native app config
	retcode = subprocess.call("rm -rf /tmp/chip* /tmp/repl*", shell=True)
	if retcode != 0:
	raise Exception("Failed to remove /tmp/chip* for factory reset.")

	print("Contents of test directory: %s" % os.getcwd())
	print(subprocess.check_output(["ls -l"], shell=True).decode('utf-8'))

	# Remove native app KVS if that was used
	kvs_match = re.search(r"--KVS (?P<kvs_path>[^ ]+)", app_args)
	if kvs_match:
	kvs_path_to_remove = kvs_match.group("kvs_path")
	retcode = subprocess.call("rm -f %s" % kvs_path_to_remove, shell=True)
	print("Trying to remove KVS path %s" % kvs_path_to_remove)
	if retcode != 0:
	raise Exception("Failed to remove %s for factory reset." % kvs_path_to_remove)

	# Remove Python test admin storage if provided
	storage_match = re.search(r"--storage-path (?P<storage_path>[^ ]+)", script_args)
	if storage_match:
	storage_path_to_remove = storage_match.group("storage_path")
	retcode = subprocess.call("rm -f %s" % storage_path_to_remove, shell=True)
	print("Trying to remove storage path %s" % storage_path_to_remove)
	if retcode != 0:
	raise Exception("Failed to remove %s for factory reset." % storage_path_to_remove)

	coloredlogs.install(level='INFO')

	log_queue = queue.Queue()
	log_cooking_threads = []

	app_process = None
	if app:
	if not os.path.exists(app):
	if app is None:
	raise FileNotFoundError(f"{app} not found")
	app_args = [app] + shlex.split(app_args)
	logging.info(f"Execute: {app_args}")
	app_process = subprocess.Popen(
	app_args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, bufsize=0)
	DumpProgramOutputToQueue(
	log_cooking_threads, Fore.GREEN + "APP " + Style.RESET_ALL, app_process, log_queue)

	script_command = [script, "--paa-trust-store-path", os.path.join(DEFAULT_CHIP_ROOT, MATTER_DEVELOPMENT_PAA_ROOT_CERTS),
	'--log-format', '%(message)s'] + shlex.split(script_args)

	if script_gdb:
	#
	# When running through Popen, we need to preserve some space-delimited args to GDB as a single logical argument.
	# To do that, let's use '\|' as a placeholder for the space character so that the initial split will not tokenize them,
	# and then replace that with the space char there-after.
	#
	script_command = ("gdb -batch -return-child-result -q -ex run -ex "
	"thread\|apply\|all\|bt --args python3".split() + script_command)
	else:
	script_command = "/usr/bin/env python3".split() + script_command

	final_script_command = [i.replace('\|', ' ') for i in script_command]

	logging.info(f"Execute: {final_script_command}")
	test_script_process = subprocess.Popen(
	final_script_command, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
	DumpProgramOutputToQueue(log_cooking_threads, Fore.GREEN + "TEST" + Style.RESET_ALL,
	test_script_process, log_queue)

	test_script_exit_code = test_script_process.wait()

	if test_script_exit_code != 0:
	logging.error("Test script exited with error %r" % test_script_exit_code)

	test_app_exit_code = 0
	if app_process:
	logging.warning("Stopping app with SIGINT")
	app_process.send_signal(signal.SIGINT.value)
	test_app_exit_code = app_process.wait()

	# There are some logs not cooked, so we wait until we have processed all logs.
	# This procedure should be very fast since the related processes are finished.
	for thread in log_cooking_threads:
	thread.join()

	if test_script_exit_code != 0:
	sys.exit(test_script_exit_code)
	else:
	# We expect both app and test script should exit with 0
	sys.exit(test_app_exit_code)


	if __name__ == '__main__':
	main(auto_envvar_prefix='CHIP')