tools/valgrind/common.py - platform/external/chromium_org - Git at Google

 # 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.

 import logging
 import platform
 import os
 import signal
 import subprocess
 import sys
 import time


 class NotImplementedError(Exception):
   pass


 class TimeoutError(Exception):
   pass


 def RunSubprocessInBackground(proc):
   """Runs a subprocess in the background. Returns a handle to the process."""
   logging.info("running %s in the background" % " ".join(proc))
   return subprocess.Popen(proc)


 def RunSubprocess(proc, timeout=0):
   """ Runs a subprocess, until it finishes or |timeout| is exceeded and the
   process is killed with taskkill.  A |timeout| <= 0  means no timeout.

   Args:
     proc: list of process components (exe + args)
     timeout: how long to wait before killing, <= 0 means wait forever
   """

   logging.info("running %s, timeout %d sec" % (" ".join(proc), timeout))
   sys.stdout.flush()
   sys.stderr.flush()

   # Manually read and print out stdout and stderr.
   # By default, the subprocess is supposed to inherit these from its parent,
   # however when run under buildbot, it seems unable to read data from a
   # grandchild process, so we have to read the child and print the data as if
   # it came from us for buildbot to read it.  We're not sure why this is
   # necessary.
   # TODO(erikkay): should we buffer stderr and stdout separately?
   p = subprocess.Popen(proc, universal_newlines=True,
                        bufsize=0,  # unbuffered
                        stdout=subprocess.PIPE, stderr=subprocess.STDOUT)

   logging.info("started subprocess")

   did_timeout = False
   if timeout > 0:
     wait_until = time.time() + timeout
   while p.poll() is None and not did_timeout:
     # Have to use readline rather than readlines() or "for line in p.stdout:",
     # otherwise we get buffered even with bufsize=0.
     line = p.stdout.readline()
     while line and not did_timeout:
       sys.stdout.write(line)
       sys.stdout.flush()
       line = p.stdout.readline()
       if timeout > 0:
         did_timeout = time.time() > wait_until

   if did_timeout:
     logging.info("process timed out")
   else:
     logging.info("process ended, did not time out")

   if did_timeout:
     if IsWindows():
       subprocess.call(["taskkill", "/T", "/F", "/PID", str(p.pid)])
     else:
       # Does this kill all children, too?
       os.kill(p.pid, signal.SIGINT)
     logging.error("KILLED %d" % p.pid)
     # Give the process a chance to actually die before continuing
     # so that cleanup can happen safely.
     time.sleep(1.0)
     logging.error("TIMEOUT waiting for %s" % proc[0])
     raise TimeoutError(proc[0])
   else:
     for line in p.stdout:
       sys.stdout.write(line)
     if not IsMac():   # stdout flush fails on Mac
       logging.info("flushing stdout")
       sys.stdout.flush()

   logging.info("collecting result code")
   result = p.poll()
   if result:
     logging.error("%s exited with non-zero result code %d" % (proc[0], result))
   return result


 def IsLinux():
   return sys.platform.startswith('linux')


 def IsMac():
   return sys.platform.startswith('darwin')


 def IsWindows():
   return sys.platform == 'cygwin' or sys.platform.startswith('win')


 def WindowsVersionName():
   """Returns the name of the Windows version if it is known, or None.

   Possible return values are: xp, vista, 7, 8, or None
   """
   if sys.platform == 'cygwin':
     # Windows version number is hiding in system name.  Looks like:
     # CYGWIN_NT-6.1-WOW64
     try:
       version_str = platform.uname()[0].split('-')[1]
     except:
       return None
   elif sys.platform.startswith('win'):
     # Normal Windows version string.  Mine: 6.1.7601
     version_str = platform.version()
   else:
     return None

   parts = version_str.split('.')
   try:
     major = int(parts[0])
     minor = int(parts[1])
   except:
     return None  # Can't parse, unknown version.

   if major == 5:
     return 'xp'
   elif major == 6 and minor == 0:
     return 'vista'
   elif major == 6 and minor == 1:
     return '7'
   elif major == 6 and minor == 2:
     return '8'  # Future proof.  ;)
   return None


 def PlatformNames():
   """Return an array of string to be used in paths for the platform
   (e.g. suppressions, gtest filters, ignore files etc.)
   The first element of the array describes the 'main' platform
   """
   if IsLinux():
     return ['linux']
   if IsMac():
     return ['mac']
   if IsWindows():
     names = ['win32']
     version_name = WindowsVersionName()
     if version_name is not None:
       names.append('win-%s' % version_name)
     return names
   raise NotImplementedError('Unknown platform "%s".' % sys.platform)


 def PutEnvAndLog(env_name, env_value):
   os.putenv(env_name, env_value)
   logging.info('export %s=%s', env_name, env_value)

 def BoringCallers(mangled, use_re_wildcards):
   """Return a list of 'boring' function names (optinally mangled)
   with */? wildcards (optionally .*/.).
   Boring = we drop off the bottom of stack traces below such functions.
   """

   need_mangling = [
     # Don't show our testing framework:
     ("testing::Test::Run",     "_ZN7testing4Test3RunEv"),
     ("testing::TestInfo::Run", "_ZN7testing8TestInfo3RunEv"),
     ("testing::internal::Handle*ExceptionsInMethodIfSupported*",
      "_ZN7testing8internal3?Handle*ExceptionsInMethodIfSupported*"),

     # Depend on scheduling:
     ("MessageLoop::Run",     "_ZN11MessageLoop3RunEv"),
     ("MessageLoop::RunTask", "_ZN11MessageLoop7RunTask*"),
     ("RunnableMethod*",      "_ZN14RunnableMethod*"),
     ("DispatchToMethod*",    "_Z*16DispatchToMethod*"),
     ("base::internal::Invoker*::DoInvoke*",
      "_ZN4base8internal8Invoker*DoInvoke*"),  # Invoker{1,2,3}
     ("base::internal::RunnableAdapter*::Run*",
      "_ZN4base8internal15RunnableAdapter*Run*"),
   ]

   ret = []
   for pair in need_mangling:
     ret.append(pair[1 if mangled else 0])

   ret += [
     # Also don't show the internals of libc/pthread.
     "start_thread",
     "main",
     "BaseThreadInitThunk",
   ]

   if use_re_wildcards:
     for i in range(0, len(ret)):
       ret[i] = ret[i].replace('*', '.*').replace('?', '.')

   return ret

 def NormalizeWindowsPath(path):
   """If we're using Cygwin Python, turn the path into a Windows path.

   Don't turn forward slashes into backslashes for easier copy-pasting and
   escaping.

   TODO(rnk): If we ever want to cut out the subprocess invocation, we can use
   _winreg to get the root Cygwin directory from the registry key:
   HKEY_LOCAL_MACHINE\SOFTWARE\Cygwin\setup\rootdir.
   """
   if sys.platform.startswith("cygwin"):
     p = subprocess.Popen(["cygpath", "-m", path],
                          stdout=subprocess.PIPE,
                          stderr=subprocess.PIPE)
     (out, err) = p.communicate()
     if err:
       logging.warning("WARNING: cygpath error: %s", err)
     return out.strip()
   else:
     return path

 ############################
 # Common output format code

 def PrintUsedSuppressionsList(suppcounts):
   """ Prints out the list of used suppressions in a format common to all the
       memory tools. If the list is empty, prints nothing and returns False,
       otherwise True.

       suppcounts: a dictionary of used suppression counts,
                   Key -> name, Value -> count.
   """
   if not suppcounts:
     return False

   print "-----------------------------------------------------"
   print "Suppressions used:"
   print "  count name"
   for (name, count) in sorted(suppcounts.items(), key=lambda (k,v): (v,k)):
     print "%7d %s" % (count, name)
   print "-----------------------------------------------------"
   sys.stdout.flush()
   return True
	# 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.

	import logging
	import platform
	import os
	import signal
	import subprocess
	import sys
	import time


	class NotImplementedError(Exception):
	pass


	class TimeoutError(Exception):
	pass


	def RunSubprocessInBackground(proc):
	"""Runs a subprocess in the background. Returns a handle to the process."""
	logging.info("running %s in the background" % " ".join(proc))
	return subprocess.Popen(proc)


	def RunSubprocess(proc, timeout=0):
	""" Runs a subprocess, until it finishes or \|timeout\| is exceeded and the
	process is killed with taskkill. A \|timeout\| <= 0 means no timeout.

	Args:
	proc: list of process components (exe + args)
	timeout: how long to wait before killing, <= 0 means wait forever
	"""

	logging.info("running %s, timeout %d sec" % (" ".join(proc), timeout))
	sys.stdout.flush()
	sys.stderr.flush()

	# Manually read and print out stdout and stderr.
	# By default, the subprocess is supposed to inherit these from its parent,
	# however when run under buildbot, it seems unable to read data from a
	# grandchild process, so we have to read the child and print the data as if
	# it came from us for buildbot to read it. We're not sure why this is
	# necessary.
	# TODO(erikkay): should we buffer stderr and stdout separately?
	p = subprocess.Popen(proc, universal_newlines=True,
	bufsize=0, # unbuffered
	stdout=subprocess.PIPE, stderr=subprocess.STDOUT)

	logging.info("started subprocess")

	did_timeout = False
	if timeout > 0:
	wait_until = time.time() + timeout
	while p.poll() is None and not did_timeout:
	# Have to use readline rather than readlines() or "for line in p.stdout:",
	# otherwise we get buffered even with bufsize=0.
	line = p.stdout.readline()
	while line and not did_timeout:
	sys.stdout.write(line)
	sys.stdout.flush()
	line = p.stdout.readline()
	if timeout > 0:
	did_timeout = time.time() > wait_until

	if did_timeout:
	logging.info("process timed out")
	else:
	logging.info("process ended, did not time out")

	if did_timeout:
	if IsWindows():
	subprocess.call(["taskkill", "/T", "/F", "/PID", str(p.pid)])
	else:
	# Does this kill all children, too?
	os.kill(p.pid, signal.SIGINT)
	logging.error("KILLED %d" % p.pid)
	# Give the process a chance to actually die before continuing
	# so that cleanup can happen safely.
	time.sleep(1.0)
	logging.error("TIMEOUT waiting for %s" % proc[0])
	raise TimeoutError(proc[0])
	else:
	for line in p.stdout:
	sys.stdout.write(line)
	if not IsMac(): # stdout flush fails on Mac
	logging.info("flushing stdout")
	sys.stdout.flush()

	logging.info("collecting result code")
	result = p.poll()
	if result:
	logging.error("%s exited with non-zero result code %d" % (proc[0], result))
	return result


	def IsLinux():
	return sys.platform.startswith('linux')


	def IsMac():
	return sys.platform.startswith('darwin')


	def IsWindows():
	return sys.platform == 'cygwin' or sys.platform.startswith('win')


	def WindowsVersionName():
	"""Returns the name of the Windows version if it is known, or None.

	Possible return values are: xp, vista, 7, 8, or None
	"""
	if sys.platform == 'cygwin':
	# Windows version number is hiding in system name. Looks like:
	# CYGWIN_NT-6.1-WOW64
	try:
	version_str = platform.uname()[0].split('-')[1]
	except:
	return None
	elif sys.platform.startswith('win'):
	# Normal Windows version string. Mine: 6.1.7601
	version_str = platform.version()
	else:
	return None

	parts = version_str.split('.')
	try:
	major = int(parts[0])
	minor = int(parts[1])
	except:
	return None # Can't parse, unknown version.

	if major == 5:
	return 'xp'
	elif major == 6 and minor == 0:
	return 'vista'
	elif major == 6 and minor == 1:
	return '7'
	elif major == 6 and minor == 2:
	return '8' # Future proof. ;)
	return None


	def PlatformNames():
	"""Return an array of string to be used in paths for the platform
	(e.g. suppressions, gtest filters, ignore files etc.)
	The first element of the array describes the 'main' platform
	"""
	if IsLinux():
	return ['linux']
	if IsMac():
	return ['mac']
	if IsWindows():
	names = ['win32']
	version_name = WindowsVersionName()
	if version_name is not None:
	names.append('win-%s' % version_name)
	return names
	raise NotImplementedError('Unknown platform "%s".' % sys.platform)


	def PutEnvAndLog(env_name, env_value):
	os.putenv(env_name, env_value)
	logging.info('export %s=%s', env_name, env_value)

	def BoringCallers(mangled, use_re_wildcards):
	"""Return a list of 'boring' function names (optinally mangled)
	with /? wildcards (optionally ./.).
	Boring = we drop off the bottom of stack traces below such functions.
	"""

	need_mangling = [
	# Don't show our testing framework:
	("testing::Test::Run", "_ZN7testing4Test3RunEv"),
	("testing::TestInfo::Run", "_ZN7testing8TestInfo3RunEv"),
	("testing::internal::HandleExceptionsInMethodIfSupported",
	"_ZN7testing8internal3?HandleExceptionsInMethodIfSupported"),

	# Depend on scheduling:
	("MessageLoop::Run", "_ZN11MessageLoop3RunEv"),
	("MessageLoop::RunTask", "_ZN11MessageLoop7RunTask*"),
	("RunnableMethod", "_ZN14RunnableMethod"),
	("DispatchToMethod", "_Z16DispatchToMethod*"),
	("base::internal::Invoker::DoInvoke",
	"_ZN4base8internal8InvokerDoInvoke"), # Invoker{1,2,3}
	("base::internal::RunnableAdapter::Run",
	"_ZN4base8internal15RunnableAdapterRun"),
	]

	ret = []
	for pair in need_mangling:
	ret.append(pair[1 if mangled else 0])

	ret += [
	# Also don't show the internals of libc/pthread.
	"start_thread",
	"main",
	"BaseThreadInitThunk",
	]

	if use_re_wildcards:
	for i in range(0, len(ret)):
	ret[i] = ret[i].replace('', '.').replace('?', '.')

	return ret

	def NormalizeWindowsPath(path):
	"""If we're using Cygwin Python, turn the path into a Windows path.

	Don't turn forward slashes into backslashes for easier copy-pasting and
	escaping.

	TODO(rnk): If we ever want to cut out the subprocess invocation, we can use
	_winreg to get the root Cygwin directory from the registry key:
	HKEY_LOCAL_MACHINE\SOFTWARE\Cygwin\setup\rootdir.
	"""
	if sys.platform.startswith("cygwin"):
	p = subprocess.Popen(["cygpath", "-m", path],
	stdout=subprocess.PIPE,
	stderr=subprocess.PIPE)
	(out, err) = p.communicate()
	if err:
	logging.warning("WARNING: cygpath error: %s", err)
	return out.strip()
	else:
	return path

	############################
	# Common output format code

	def PrintUsedSuppressionsList(suppcounts):
	""" Prints out the list of used suppressions in a format common to all the
	memory tools. If the list is empty, prints nothing and returns False,
	otherwise True.

	suppcounts: a dictionary of used suppression counts,
	Key -> name, Value -> count.
	"""
	if not suppcounts:
	return False

	print "-----------------------------------------------------"
	print "Suppressions used:"
	print " count name"
	for (name, count) in sorted(suppcounts.items(), key=lambda (k,v): (v,k)):
	print "%7d %s" % (count, name)
	print "-----------------------------------------------------"
	sys.stdout.flush()
	return True