testing/test_env.py - chromium/src - Git at Google

 #!/usr/bin/env python
 # Copyright (c) 2012 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Sets environment variables needed to run a chromium unit test."""

 import io
 import os
 import signal
 import stat
 import subprocess
 import sys
 import time

 # This is hardcoded to be src/ relative to this script.
 ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))

 CHROME_SANDBOX_ENV = 'CHROME_DEVEL_SANDBOX'
 CHROME_SANDBOX_PATH = '/opt/chromium/chrome_sandbox'


 def get_sandbox_env(env):
   """Returns the environment flags needed for the SUID sandbox to work."""
   extra_env = {}
   chrome_sandbox_path = env.get(CHROME_SANDBOX_ENV, CHROME_SANDBOX_PATH)
   # The above would silently disable the SUID sandbox if the env value were
   # an empty string. We don't want to allow that. http://crbug.com/245376
   # TODO(jln): Remove this check once it's no longer possible to disable the
   # sandbox that way.
   if not chrome_sandbox_path:
     chrome_sandbox_path = CHROME_SANDBOX_PATH
   extra_env[CHROME_SANDBOX_ENV] = chrome_sandbox_path

   return extra_env


 def trim_cmd(cmd):
   """Removes internal flags from cmd since they're just used to communicate from
   the host machine to this script running on the swarm slaves."""
   sanitizers = ['asan', 'lsan', 'msan', 'tsan']
   internal_flags = frozenset('--%s=%d' % (name, value)
                              for name in sanitizers
                              for value in [0, 1])
   return [i for i in cmd if i not in internal_flags]


 def fix_python_path(cmd):
   """Returns the fixed command line to call the right python executable."""
   out = cmd[:]
   if out[0] == 'python':
     out[0] = sys.executable
   elif out[0].endswith('.py'):
     out.insert(0, sys.executable)
   return out


 def get_sanitizer_env(cmd, asan, lsan, msan, tsan, cfi_diag):
   """Returns the envirnoment flags needed for sanitizer tools."""

   extra_env = {}

   # Instruct GTK to use malloc while running sanitizer-instrumented tests.
   extra_env['G_SLICE'] = 'always-malloc'

   extra_env['NSS_DISABLE_ARENA_FREE_LIST'] = '1'
   extra_env['NSS_DISABLE_UNLOAD'] = '1'

   # TODO(glider): remove the symbolizer path once
   # https://code.google.com/p/address-sanitizer/issues/detail?id=134 is fixed.
   symbolizer_path = os.path.join(ROOT_DIR,
       'third_party', 'llvm-build', 'Release+Asserts', 'bin', 'llvm-symbolizer')

   if lsan or tsan:
     # LSan is not sandbox-compatible, so we can use online symbolization. In
     # fact, it needs symbolization to be able to apply suppressions.
     symbolization_options = ['symbolize=1',
                              'external_symbolizer_path=%s' % symbolizer_path]
   elif (asan or msan or cfi_diag) and sys.platform not in ['win32', 'cygwin']:
     # ASan uses a script for offline symbolization, except on Windows.
     # Important note: when running ASan with leak detection enabled, we must use
     # the LSan symbolization options above.
     symbolization_options = ['symbolize=0']
     # Set the path to llvm-symbolizer to be used by asan_symbolize.py
     extra_env['LLVM_SYMBOLIZER_PATH'] = symbolizer_path
   else:
     symbolization_options = []

   # Leverage sanitizer to print stack trace on abort (e.g. assertion failure).
   symbolization_options.append('handle_abort=1')

   if asan:
     asan_options = symbolization_options[:]
     if lsan:
       asan_options.append('detect_leaks=1')

     if asan_options:
       extra_env['ASAN_OPTIONS'] = ' '.join(asan_options)

     if sys.platform == 'darwin':
       isolate_output_dir = os.path.abspath(os.path.dirname(cmd[0]))
       # This is needed because the test binary has @executable_path embedded in
       # it that the OS tries to resolve to the cache directory and not the
       # mapped directory.
       extra_env['DYLD_LIBRARY_PATH'] = str(isolate_output_dir)

   if lsan:
     if asan or msan:
       lsan_options = []
     else:
       lsan_options = symbolization_options[:]
     if sys.platform == 'linux2':
       # Use the debug version of libstdc++ under LSan. If we don't, there will
       # be a lot of incomplete stack traces in the reports.
       extra_env['LD_LIBRARY_PATH'] = '/usr/lib/x86_64-linux-gnu/debug:'

     extra_env['LSAN_OPTIONS'] = ' '.join(lsan_options)

   if msan:
     msan_options = symbolization_options[:]
     if lsan:
       msan_options.append('detect_leaks=1')
     extra_env['MSAN_OPTIONS'] = ' '.join(msan_options)

   if tsan:
     tsan_options = symbolization_options[:]
     extra_env['TSAN_OPTIONS'] = ' '.join(tsan_options)

   # CFI uses the UBSan runtime to provide diagnostics.
   if cfi_diag:
     ubsan_options = symbolization_options[:] + ['print_stacktrace=1']
     extra_env['UBSAN_OPTIONS'] = ' '.join(ubsan_options)

   return extra_env


 def get_sanitizer_symbolize_command(json_path=None, executable_path=None):
   """Construct the command to invoke offline symbolization script."""
   script_path = os.path.join(
       ROOT_DIR, 'tools', 'valgrind', 'asan', 'asan_symbolize.py')
   cmd = [sys.executable, script_path]
   if json_path is not None:
     cmd.append('--test-summary-json-file=%s' % json_path)
   if executable_path is not None:
     cmd.append('--executable-path=%s' % executable_path)
   return cmd


 def get_json_path(cmd):
   """Extract the JSON test summary path from a command line."""
   json_path_flag = '--test-launcher-summary-output='
   for arg in cmd:
     if arg.startswith(json_path_flag):
       return arg.split(json_path_flag).pop()
   return None


 def symbolize_snippets_in_json(cmd, env):
   """Symbolize output snippets inside the JSON test summary."""
   json_path = get_json_path(cmd)
   if json_path is None:
     return

   try:
     symbolize_command = get_sanitizer_symbolize_command(
         json_path=json_path, executable_path=cmd[0])
     p = subprocess.Popen(symbolize_command, stderr=subprocess.PIPE, env=env)
     (_, stderr) = p.communicate()
   except OSError as e:
     print >> sys.stderr, 'Exception while symbolizing snippets: %s' % e
     raise

   if p.returncode != 0:
     print >> sys.stderr, "Error: failed to symbolize snippets in JSON:\n"
     print >> sys.stderr, stderr
     raise subprocess.CalledProcessError(p.returncode, symbolize_command)


 def run_command_with_output(argv, stdoutfile, env=None, cwd=None):
   """Run command and stream its stdout/stderr to the console & |stdoutfile|.

   Also forward_signals to obey
   https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

   Returns:
     integer returncode of the subprocess.
   """
   print('Running %r in %r (env: %r)' % (argv, cwd, env))
   assert stdoutfile
   with io.open(stdoutfile, 'wb') as writer, \
       io.open(stdoutfile, 'rb', 1) as reader:
     process = subprocess.Popen(argv, env=env, cwd=cwd, stdout=writer,
         stderr=subprocess.STDOUT)
     forward_signals([process])
     while process.poll() is None:
       sys.stdout.write(reader.read())
       # This sleep is needed for signal propagation. See the
       # wait_with_signals() docstring.
       time.sleep(0.1)
     # Read the remaining.
     sys.stdout.write(reader.read())
     print('Command %r returned exit code %d' % (argv, process.returncode))
     return process.returncode


 def run_command(argv, env=None, cwd=None, log=True):
   """Run command and stream its stdout/stderr both to stdout.

   Also forward_signals to obey
   https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

   Returns:
     integer returncode of the subprocess.
   """
   if log:
     print('Running %r in %r (env: %r)' % (argv, cwd, env))
   process = subprocess.Popen(argv, env=env, cwd=cwd, stderr=subprocess.STDOUT)
   forward_signals([process])
   return wait_with_signals(process)


 def run_command_output_to_handle(argv, file_handle, env=None, cwd=None):
   """Run command and stream its stdout/stderr both to |file_handle|.

   Also forward_signals to obey
   https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

   Returns:
     integer returncode of the subprocess.
   """
   print('Running %r in %r (env: %r)' % (argv, cwd, env))
   process = subprocess.Popen(
       argv, env=env, cwd=cwd, stderr=file_handle, stdout=file_handle)
   forward_signals([process])
   exit_code = wait_with_signals(process)
   print('Command returned exit code %d' % exit_code)
   return exit_code


 def wait_with_signals(process):
   """A version of process.wait() that works cross-platform.

   This version properly surfaces the SIGBREAK signal.

   From reading the subprocess.py source code, it seems we need to explicitly
   call time.sleep(). The reason is that subprocess.Popen.wait() on Windows
   directly calls WaitForSingleObject(), but only time.sleep() properly surface
   the SIGBREAK signal.

   Refs:
   https://github.com/python/cpython/blob/v2.7.15/Lib/subprocess.py#L692
   https://github.com/python/cpython/blob/v2.7.15/Modules/timemodule.c#L1084

   Returns:
     returncode of the process.
   """
   while process.poll() is None:
     time.sleep(0.1)
   return process.returncode


 def forward_signals(procs):
   """Forwards unix's SIGTERM or win's CTRL_BREAK_EVENT to the given processes.

   This plays nicely with swarming's timeout handling. See also
   https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

   Args:
       procs: A list of subprocess.Popen objects representing child processes.
   """
   assert all(isinstance(p, subprocess.Popen) for p in procs)
   def _sig_handler(sig, _):
     for p in procs:
       if p.poll() is not None:
         continue
       # SIGBREAK is defined only for win32.
       if sys.platform == 'win32' and sig == signal.SIGBREAK:
         p.send_signal(signal.CTRL_BREAK_EVENT)
       else:
         p.send_signal(sig)
   if sys.platform == 'win32':
     signal.signal(signal.SIGBREAK, _sig_handler)
   else:
     signal.signal(signal.SIGTERM, _sig_handler)
     signal.signal(signal.SIGINT, _sig_handler)

 def run_executable(cmd, env, stdoutfile=None):
   """Runs an executable with:
     - CHROME_HEADLESS set to indicate that the test is running on a
       bot and shouldn't do anything interactive like show modal dialogs.
     - environment variable CR_SOURCE_ROOT set to the root directory.
     - environment variable LANGUAGE to en_US.UTF-8.
     - environment variable CHROME_DEVEL_SANDBOX set
     - Reuses sys.executable automatically.
   """
   extra_env = {
       # Set to indicate that the executable is running non-interactively on
       # a bot.
       'CHROME_HEADLESS': '1',

        # Many tests assume a English interface...
       'LANG': 'en_US.UTF-8',
   }

   # Used by base/base_paths_linux.cc as an override. Just make sure the default
   # logic is used.
   env.pop('CR_SOURCE_ROOT', None)
   extra_env.update(get_sandbox_env(env))

   # Copy logic from  tools/build/scripts/slave/runtest.py.
   asan = '--asan=1' in cmd
   lsan = '--lsan=1' in cmd
   msan = '--msan=1' in cmd
   tsan = '--tsan=1' in cmd
   cfi_diag = '--cfi-diag=1' in cmd
   if stdoutfile or sys.platform in ['win32', 'cygwin']:
     # Symbolization works in-process on Windows even when sandboxed.
     use_symbolization_script = False
   else:
     # LSan doesn't support sandboxing yet, so we use the in-process symbolizer.
     # Note that ASan and MSan can work together with LSan.
     use_symbolization_script = (asan or msan or cfi_diag) and not lsan

   if asan or lsan or msan or tsan or cfi_diag:
     extra_env.update(get_sanitizer_env(cmd, asan, lsan, msan, tsan, cfi_diag))

   if lsan or tsan:
     # LSan and TSan are not sandbox-friendly.
     cmd.append('--no-sandbox')

   cmd = trim_cmd(cmd)

   # Ensure paths are correctly separated on windows.
   cmd[0] = cmd[0].replace('/', os.path.sep)
   cmd = fix_python_path(cmd)

   # We also want to print the GTEST env vars that were set by the caller,
   # because you need them to reproduce the task properly.
   env_to_print = extra_env.copy()
   for env_var_name in ('GTEST_SHARD_INDEX', 'GTEST_TOTAL_SHARDS'):
       if env_var_name in env:
           env_to_print[env_var_name] = env[env_var_name]

   print('Additional test environment:\n%s\n'
         'Command: %s\n' % (
         '\n'.join('    %s=%s' %
             (k, v) for k, v in sorted(env_to_print.iteritems())),
         ' '.join(cmd)))
   sys.stdout.flush()
   env.update(extra_env or {})
   try:
     if stdoutfile:
       # Write to stdoutfile and poll to produce terminal output.
       return run_command_with_output(cmd, env=env, stdoutfile=stdoutfile)
     elif use_symbolization_script:
       # See above comment regarding offline symbolization.
       # Need to pipe to the symbolizer script.
       p1 = subprocess.Popen(cmd, env=env, stdout=subprocess.PIPE,
                             stderr=sys.stdout)
       p2 = subprocess.Popen(
           get_sanitizer_symbolize_command(executable_path=cmd[0]),
           env=env, stdin=p1.stdout)
       p1.stdout.close()  # Allow p1 to receive a SIGPIPE if p2 exits.
       forward_signals([p1, p2])
       wait_with_signals(p1)
       wait_with_signals(p2)
       # Also feed the out-of-band JSON output to the symbolizer script.
       symbolize_snippets_in_json(cmd, env)
       return p1.returncode
     else:
       return run_command(cmd, env=env, log=False)
   except OSError:
     print >> sys.stderr, 'Failed to start %s' % cmd
     raise


 def main():
   return run_executable(sys.argv[1:], os.environ.copy())


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python
	# Copyright (c) 2012 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Sets environment variables needed to run a chromium unit test."""

	import io
	import os
	import signal
	import stat
	import subprocess
	import sys
	import time

	# This is hardcoded to be src/ relative to this script.
	ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))

	CHROME_SANDBOX_ENV = 'CHROME_DEVEL_SANDBOX'
	CHROME_SANDBOX_PATH = '/opt/chromium/chrome_sandbox'


	def get_sandbox_env(env):
	"""Returns the environment flags needed for the SUID sandbox to work."""
	extra_env = {}
	chrome_sandbox_path = env.get(CHROME_SANDBOX_ENV, CHROME_SANDBOX_PATH)
	# The above would silently disable the SUID sandbox if the env value were
	# an empty string. We don't want to allow that. http://crbug.com/245376
	# TODO(jln): Remove this check once it's no longer possible to disable the
	# sandbox that way.
	if not chrome_sandbox_path:
	chrome_sandbox_path = CHROME_SANDBOX_PATH
	extra_env[CHROME_SANDBOX_ENV] = chrome_sandbox_path

	return extra_env


	def trim_cmd(cmd):
	"""Removes internal flags from cmd since they're just used to communicate from
	the host machine to this script running on the swarm slaves."""
	sanitizers = ['asan', 'lsan', 'msan', 'tsan']
	internal_flags = frozenset('--%s=%d' % (name, value)
	for name in sanitizers
	for value in [0, 1])
	return [i for i in cmd if i not in internal_flags]


	def fix_python_path(cmd):
	"""Returns the fixed command line to call the right python executable."""
	out = cmd[:]
	if out[0] == 'python':
	out[0] = sys.executable
	elif out[0].endswith('.py'):
	out.insert(0, sys.executable)
	return out


	def get_sanitizer_env(cmd, asan, lsan, msan, tsan, cfi_diag):
	"""Returns the envirnoment flags needed for sanitizer tools."""

	extra_env = {}

	# Instruct GTK to use malloc while running sanitizer-instrumented tests.
	extra_env['G_SLICE'] = 'always-malloc'

	extra_env['NSS_DISABLE_ARENA_FREE_LIST'] = '1'
	extra_env['NSS_DISABLE_UNLOAD'] = '1'

	# TODO(glider): remove the symbolizer path once
	# https://code.google.com/p/address-sanitizer/issues/detail?id=134 is fixed.
	symbolizer_path = os.path.join(ROOT_DIR,
	'third_party', 'llvm-build', 'Release+Asserts', 'bin', 'llvm-symbolizer')

	if lsan or tsan:
	# LSan is not sandbox-compatible, so we can use online symbolization. In
	# fact, it needs symbolization to be able to apply suppressions.
	symbolization_options = ['symbolize=1',
	'external_symbolizer_path=%s' % symbolizer_path]
	elif (asan or msan or cfi_diag) and sys.platform not in ['win32', 'cygwin']:
	# ASan uses a script for offline symbolization, except on Windows.
	# Important note: when running ASan with leak detection enabled, we must use
	# the LSan symbolization options above.
	symbolization_options = ['symbolize=0']
	# Set the path to llvm-symbolizer to be used by asan_symbolize.py
	extra_env['LLVM_SYMBOLIZER_PATH'] = symbolizer_path
	else:
	symbolization_options = []

	# Leverage sanitizer to print stack trace on abort (e.g. assertion failure).
	symbolization_options.append('handle_abort=1')

	if asan:
	asan_options = symbolization_options[:]
	if lsan:
	asan_options.append('detect_leaks=1')

	if asan_options:
	extra_env['ASAN_OPTIONS'] = ' '.join(asan_options)

	if sys.platform == 'darwin':
	isolate_output_dir = os.path.abspath(os.path.dirname(cmd[0]))
	# This is needed because the test binary has @executable_path embedded in
	# it that the OS tries to resolve to the cache directory and not the
	# mapped directory.
	extra_env['DYLD_LIBRARY_PATH'] = str(isolate_output_dir)

	if lsan:
	if asan or msan:
	lsan_options = []
	else:
	lsan_options = symbolization_options[:]
	if sys.platform == 'linux2':
	# Use the debug version of libstdc++ under LSan. If we don't, there will
	# be a lot of incomplete stack traces in the reports.
	extra_env['LD_LIBRARY_PATH'] = '/usr/lib/x86_64-linux-gnu/debug:'

	extra_env['LSAN_OPTIONS'] = ' '.join(lsan_options)

	if msan:
	msan_options = symbolization_options[:]
	if lsan:
	msan_options.append('detect_leaks=1')
	extra_env['MSAN_OPTIONS'] = ' '.join(msan_options)

	if tsan:
	tsan_options = symbolization_options[:]
	extra_env['TSAN_OPTIONS'] = ' '.join(tsan_options)

	# CFI uses the UBSan runtime to provide diagnostics.
	if cfi_diag:
	ubsan_options = symbolization_options[:] + ['print_stacktrace=1']
	extra_env['UBSAN_OPTIONS'] = ' '.join(ubsan_options)

	return extra_env


	def get_sanitizer_symbolize_command(json_path=None, executable_path=None):
	"""Construct the command to invoke offline symbolization script."""
	script_path = os.path.join(
	ROOT_DIR, 'tools', 'valgrind', 'asan', 'asan_symbolize.py')
	cmd = [sys.executable, script_path]
	if json_path is not None:
	cmd.append('--test-summary-json-file=%s' % json_path)
	if executable_path is not None:
	cmd.append('--executable-path=%s' % executable_path)
	return cmd


	def get_json_path(cmd):
	"""Extract the JSON test summary path from a command line."""
	json_path_flag = '--test-launcher-summary-output='
	for arg in cmd:
	if arg.startswith(json_path_flag):
	return arg.split(json_path_flag).pop()
	return None


	def symbolize_snippets_in_json(cmd, env):
	"""Symbolize output snippets inside the JSON test summary."""
	json_path = get_json_path(cmd)
	if json_path is None:
	return

	try:
	symbolize_command = get_sanitizer_symbolize_command(
	json_path=json_path, executable_path=cmd[0])
	p = subprocess.Popen(symbolize_command, stderr=subprocess.PIPE, env=env)
	(_, stderr) = p.communicate()
	except OSError as e:
	print >> sys.stderr, 'Exception while symbolizing snippets: %s' % e
	raise

	if p.returncode != 0:
	print >> sys.stderr, "Error: failed to symbolize snippets in JSON:\n"
	print >> sys.stderr, stderr
	raise subprocess.CalledProcessError(p.returncode, symbolize_command)


	def run_command_with_output(argv, stdoutfile, env=None, cwd=None):
	"""Run command and stream its stdout/stderr to the console & \|stdoutfile\|.

	Also forward_signals to obey
	https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

	Returns:
	integer returncode of the subprocess.
	"""
	print('Running %r in %r (env: %r)' % (argv, cwd, env))
	assert stdoutfile
	with io.open(stdoutfile, 'wb') as writer, \
	io.open(stdoutfile, 'rb', 1) as reader:
	process = subprocess.Popen(argv, env=env, cwd=cwd, stdout=writer,
	stderr=subprocess.STDOUT)
	forward_signals([process])
	while process.poll() is None:
	sys.stdout.write(reader.read())
	# This sleep is needed for signal propagation. See the
	# wait_with_signals() docstring.
	time.sleep(0.1)
	# Read the remaining.
	sys.stdout.write(reader.read())
	print('Command %r returned exit code %d' % (argv, process.returncode))
	return process.returncode


	def run_command(argv, env=None, cwd=None, log=True):
	"""Run command and stream its stdout/stderr both to stdout.

	Also forward_signals to obey
	https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

	Returns:
	integer returncode of the subprocess.
	"""
	if log:
	print('Running %r in %r (env: %r)' % (argv, cwd, env))
	process = subprocess.Popen(argv, env=env, cwd=cwd, stderr=subprocess.STDOUT)
	forward_signals([process])
	return wait_with_signals(process)


	def run_command_output_to_handle(argv, file_handle, env=None, cwd=None):
	"""Run command and stream its stdout/stderr both to \|file_handle\|.

	Also forward_signals to obey
	https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

	Returns:
	integer returncode of the subprocess.
	"""
	print('Running %r in %r (env: %r)' % (argv, cwd, env))
	process = subprocess.Popen(
	argv, env=env, cwd=cwd, stderr=file_handle, stdout=file_handle)
	forward_signals([process])
	exit_code = wait_with_signals(process)
	print('Command returned exit code %d' % exit_code)
	return exit_code


	def wait_with_signals(process):
	"""A version of process.wait() that works cross-platform.

	This version properly surfaces the SIGBREAK signal.

	From reading the subprocess.py source code, it seems we need to explicitly
	call time.sleep(). The reason is that subprocess.Popen.wait() on Windows
	directly calls WaitForSingleObject(), but only time.sleep() properly surface
	the SIGBREAK signal.

	Refs:
	https://github.com/python/cpython/blob/v2.7.15/Lib/subprocess.py#L692
	https://github.com/python/cpython/blob/v2.7.15/Modules/timemodule.c#L1084

	Returns:
	returncode of the process.
	"""
	while process.poll() is None:
	time.sleep(0.1)
	return process.returncode


	def forward_signals(procs):
	"""Forwards unix's SIGTERM or win's CTRL_BREAK_EVENT to the given processes.

	This plays nicely with swarming's timeout handling. See also
	https://chromium.googlesource.com/infra/luci/luci-py/+/master/appengine/swarming/doc/Bot.md#graceful-termination_aka-the-sigterm-and-sigkill-dance

	Args:
	procs: A list of subprocess.Popen objects representing child processes.
	"""
	assert all(isinstance(p, subprocess.Popen) for p in procs)
	def _sig_handler(sig, _):
	for p in procs:
	if p.poll() is not None:
	continue
	# SIGBREAK is defined only for win32.
	if sys.platform == 'win32' and sig == signal.SIGBREAK:
	p.send_signal(signal.CTRL_BREAK_EVENT)
	else:
	p.send_signal(sig)
	if sys.platform == 'win32':
	signal.signal(signal.SIGBREAK, _sig_handler)
	else:
	signal.signal(signal.SIGTERM, _sig_handler)
	signal.signal(signal.SIGINT, _sig_handler)

	def run_executable(cmd, env, stdoutfile=None):
	"""Runs an executable with:
	- CHROME_HEADLESS set to indicate that the test is running on a
	bot and shouldn't do anything interactive like show modal dialogs.
	- environment variable CR_SOURCE_ROOT set to the root directory.
	- environment variable LANGUAGE to en_US.UTF-8.
	- environment variable CHROME_DEVEL_SANDBOX set
	- Reuses sys.executable automatically.
	"""
	extra_env = {
	# Set to indicate that the executable is running non-interactively on
	# a bot.
	'CHROME_HEADLESS': '1',

	# Many tests assume a English interface...
	'LANG': 'en_US.UTF-8',
	}

	# Used by base/base_paths_linux.cc as an override. Just make sure the default
	# logic is used.
	env.pop('CR_SOURCE_ROOT', None)
	extra_env.update(get_sandbox_env(env))

	# Copy logic from tools/build/scripts/slave/runtest.py.
	asan = '--asan=1' in cmd
	lsan = '--lsan=1' in cmd
	msan = '--msan=1' in cmd
	tsan = '--tsan=1' in cmd
	cfi_diag = '--cfi-diag=1' in cmd
	if stdoutfile or sys.platform in ['win32', 'cygwin']:
	# Symbolization works in-process on Windows even when sandboxed.
	use_symbolization_script = False
	else:
	# LSan doesn't support sandboxing yet, so we use the in-process symbolizer.
	# Note that ASan and MSan can work together with LSan.
	use_symbolization_script = (asan or msan or cfi_diag) and not lsan

	if asan or lsan or msan or tsan or cfi_diag:
	extra_env.update(get_sanitizer_env(cmd, asan, lsan, msan, tsan, cfi_diag))

	if lsan or tsan:
	# LSan and TSan are not sandbox-friendly.
	cmd.append('--no-sandbox')

	cmd = trim_cmd(cmd)

	# Ensure paths are correctly separated on windows.
	cmd[0] = cmd[0].replace('/', os.path.sep)
	cmd = fix_python_path(cmd)

	# We also want to print the GTEST env vars that were set by the caller,
	# because you need them to reproduce the task properly.
	env_to_print = extra_env.copy()
	for env_var_name in ('GTEST_SHARD_INDEX', 'GTEST_TOTAL_SHARDS'):
	if env_var_name in env:
	env_to_print[env_var_name] = env[env_var_name]

	print('Additional test environment:\n%s\n'
	'Command: %s\n' % (
	'\n'.join(' %s=%s' %
	(k, v) for k, v in sorted(env_to_print.iteritems())),
	' '.join(cmd)))
	sys.stdout.flush()
	env.update(extra_env or {})
	try:
	if stdoutfile:
	# Write to stdoutfile and poll to produce terminal output.
	return run_command_with_output(cmd, env=env, stdoutfile=stdoutfile)
	elif use_symbolization_script:
	# See above comment regarding offline symbolization.
	# Need to pipe to the symbolizer script.
	p1 = subprocess.Popen(cmd, env=env, stdout=subprocess.PIPE,
	stderr=sys.stdout)
	p2 = subprocess.Popen(
	get_sanitizer_symbolize_command(executable_path=cmd[0]),
	env=env, stdin=p1.stdout)
	p1.stdout.close() # Allow p1 to receive a SIGPIPE if p2 exits.
	forward_signals([p1, p2])
	wait_with_signals(p1)
	wait_with_signals(p2)
	# Also feed the out-of-band JSON output to the symbolizer script.
	symbolize_snippets_in_json(cmd, env)
	return p1.returncode
	else:
	return run_command(cmd, env=env, log=False)
	except OSError:
	print >> sys.stderr, 'Failed to start %s' % cmd
	raise


	def main():
	return run_executable(sys.argv[1:], os.environ.copy())


	if __name__ == '__main__':
	sys.exit(main())