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webkit / WebKit / 3ee83bd7079b5d32a56631e7e3c8cee2e6830703 / . / Tools / Scripts / webkitpy / common / system / executive.py
blob: 7e2ab0c139f0d8bede6ee63cfa66dc3975d72398 [file] [log] [blame]
# Copyright (c) 2009, Google Inc. All rights reserved.
# Copyright (c) 2009 Apple Inc. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following disclaimer
# in the documentation and/or other materials provided with the
# distribution.
# * Neither the name of Google Inc. nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import errno
import logging
import multiprocessing
import os
import signal
import subprocess
import sys
import time
from webkitpy.common.system.abstractexecutive import AbstractExecutive
from webkitpy.common.system.outputtee import Tee
from webkitpy.common import unicode_compatibility
_log = logging.getLogger(__name__)
class ScriptError(Exception):
def __init__(self,
message=None,
script_args=None,
exit_code=None,
output=None,
cwd=None):
if not message:
message = 'Failed to run "%s"' % repr(script_args)
if exit_code:
message += " exit_code: %d" % exit_code
if cwd:
message += " cwd: %s" % cwd
Exception.__init__(self, message)
self.script_args = script_args # 'args' is already used by Exception
self.exit_code = exit_code
self.output = output
self.cwd = cwd
def message_with_output(self, output_limit=500):
if self.output:
if output_limit and len(self.output) > output_limit:
return u"%s\n\nLast %s characters of output:\n%s" % \
(self, output_limit, self.output[-output_limit:])
return u"%s\n\n%s" % (self, self.output)
return unicode_compatibility.unicode(self)
def command_name(self):
command_path = self.script_args
if type(command_path) is list:
command_path = command_path[0]
return os.path.basename(command_path)
class Executive(AbstractExecutive):
PIPE = subprocess.PIPE
STDOUT = subprocess.STDOUT
class WrappedPopen(object):
def __init__(self, popen):
for attribute in dir(popen):
if attribute.startswith('__'):
continue
setattr(self, attribute, getattr(popen, attribute))
def __enter__(self):
return self
def __exit__(self, *args):
self.wait()
def __init__(self):
self.pid_to_system_pid = {}
self._is_native_win = sys.platform.startswith('win')
self._is_cygwin = sys.platform == 'cygwin'
def _should_close_fds(self):
# We need to pass close_fds=True to work around Python bug #2320
# (otherwise we can hang when we kill DumpRenderTree when we are running
# multiple threads). See http://bugs.python.org/issue2320 .
# In Python 2.7.10, close_fds is also supported on Windows.
# However, "you cannot set close_fds to true and also redirect the standard
# handles by setting stdin, stdout or stderr.".
if self._is_native_win:
return False
else:
return True
def _run_command_with_teed_output(self, args, teed_output, **kwargs):
child_process = self.popen(args,
stdout=self.PIPE,
stderr=self.STDOUT,
close_fds=self._should_close_fds(),
**kwargs)
with child_process:
# Use our own custom wait loop because Popen ignores a tee'd
# stderr/stdout.
# FIXME: This could be improved not to flatten output to stdout.
while child_process.poll() is None:
output_line = child_process.stdout.readline()
teed_output.write(unicode_compatibility.decode_for(output_line, str))
return child_process.poll()
# FIXME: Remove this deprecated method and move callers to run_command.
# FIXME: This method is a hack to allow running command which both
# capture their output and print out to stdin. Useful for things
# like "build-webkit" where we want to display to the user that we're building
# but still have the output to stuff into a log file.
def run_and_throw_if_fail(self, args, quiet=False, decode_output=True, **kwargs):
# Cache the child's output locally so it can be used for error reports.
child_out_file = unicode_compatibility.StringIO()
tee_stdout = sys.stdout
try:
if quiet:
dev_null = open(os.devnull, "w") # FIXME: Does this need an encoding?
tee_stdout = dev_null
child_stdout = Tee(child_out_file, tee_stdout)
exit_code = self._run_command_with_teed_output(args, child_stdout, **kwargs)
finally:
if quiet:
dev_null.close()
child_output = child_out_file.getvalue()
child_out_file.close()
if decode_output:
child_output = unicode_compatibility.decode_if_necessary(child_output, self._child_process_encoding())
else:
child_output = unicode_compatibility.encode_if_necessary(child_output, self._child_process_encoding())
if exit_code:
raise ScriptError(script_args=args,
exit_code=exit_code,
output=child_output)
return child_output
def cpu_count(self):
try:
cpus = int(os.environ.get('NUMBER_OF_PROCESSORS'))
if cpus > 0:
return cpus
except (ValueError, TypeError):
pass
return multiprocessing.cpu_count()
def kill_process(self, pid):
# Killing a process with a pid of 0 or a negative pid is a valid command, but
# will kill all processes in this process' group (if 0) or all non-system processes
# (if -1) (kill(2)). Throw an exception if this is the behavior requested, this
# class is not designed to provide this functionality.
if pid is None or pid <= 0:
raise RuntimeError('Cannot kill process with invalid pid of {}'.format(pid))
"""Attempts to kill the given pid.
Will fail silently if pid does not exist or insufficient permisssions."""
if self._is_native_win:
# We only use taskkill.exe on windows (not cygwin) because subprocess.pid
# is a CYGWIN pid and taskkill.exe expects a windows pid.
# Thankfully os.kill on CYGWIN handles either pid type.
task_kill_executable = os.path.join('C:', os.sep, 'WINDOWS', 'system32', 'taskkill.exe')
command = [task_kill_executable, "/f", "/t", "/pid", pid]
# taskkill will exit 128 if the process is not found. We should log.
self.run_command(command, ignore_errors=True)
return
# According to http://docs.python.org/library/os.html
# os.kill isn't available on Windows. python 2.5.5 os.kill appears
# to work in cygwin, however it occasionally raises EAGAIN.
retries_left = 10 if self._is_cygwin else 2
current_signal = signal.SIGTERM
while retries_left > 0 and self.check_running_pid(pid):
try:
retries_left -= 1
os.kill(pid, current_signal)
except OSError as e:
if current_signal == signal.SIGTERM:
pass
elif e.errno == errno.EAGAIN:
if retries_left <= 0:
_log.warn("Failed to kill pid %s. Too many EAGAIN errors." % pid)
elif e.errno == errno.ESRCH: # The process does not exist.
return
elif e.errno == errno.EPIPE: # The process has exited already on cygwin
return
elif e.errno == errno.ECHILD:
# Can't wait on a non-child process, but the kill worked.
return
elif e.errno == errno.EACCES and self._is_cygwin:
# Cygwin python sometimes can't kill native processes.
return
else:
raise
# Give processes one chance to clean up quickly before exiting.
current_signal = signal.SIGKILL
def _win32_check_running_pid(self, pid):
# importing ctypes at the top-level seems to cause weird crashes at
# exit under cygwin on apple's win port. Only win32 needs cygwin, so
# we import it here instead. See https://bugs.webkit.org/show_bug.cgi?id=91682
import ctypes
class PROCESSENTRY32(ctypes.Structure):
_fields_ = [("dwSize", ctypes.c_ulong),
("cntUsage", ctypes.c_ulong),
("th32ProcessID", ctypes.c_ulong),
("th32DefaultHeapID", ctypes.POINTER(ctypes.c_ulong)),
("th32ModuleID", ctypes.c_ulong),
("cntThreads", ctypes.c_ulong),
("th32ParentProcessID", ctypes.c_ulong),
("pcPriClassBase", ctypes.c_ulong),
("dwFlags", ctypes.c_ulong),
("szExeFile", ctypes.c_char * 260)]
CreateToolhelp32Snapshot = ctypes.windll.kernel32.CreateToolhelp32Snapshot
Process32First = ctypes.windll.kernel32.Process32First
Process32Next = ctypes.windll.kernel32.Process32Next
CloseHandle = ctypes.windll.kernel32.CloseHandle
TH32CS_SNAPPROCESS = 0x00000002 # win32 magic number
hProcessSnap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0)
pe32 = PROCESSENTRY32()
pe32.dwSize = ctypes.sizeof(PROCESSENTRY32)
result = False
if not Process32First(hProcessSnap, ctypes.byref(pe32)):
_log.debug("Failed getting first process.")
CloseHandle(hProcessSnap)
return result
while True:
if pe32.th32ProcessID == pid:
result = True
break
if not Process32Next(hProcessSnap, ctypes.byref(pe32)):
break
CloseHandle(hProcessSnap)
return result
def check_running_pid(self, pid):
# An undefined process or a negative process are never running.
if pid is None or pid <= 0:
return False
"""Return True if pid is alive, otherwise return False."""
if self._is_native_win:
return self._win32_check_running_pid(pid)
try:
os.kill(pid, 0)
return True
except OSError:
return False
def running_pids(self, process_name_filter=None):
if self._is_native_win:
# FIXME: running_pids isn't implemented on native Windows yet...
return []
if not process_name_filter:
process_name_filter = lambda process_name: True
running_pids = []
if self._is_cygwin:
ps_process = self.run_command(['ps', '-e'], ignore_errors=True)
for line in ps_process.splitlines():
tokens = line.strip().split()
try:
pid, ppid, pgid, winpid, tty, uid, stime, process_name = tokens
if process_name_filter(process_name):
running_pids.append(int(pid))
self.pid_to_system_pid[int(pid)] = int(winpid)
except ValueError as e:
pass
else:
with self.popen(['ps', '-eo', 'pid,comm'], stdout=self.PIPE, stderr=self.PIPE) as ps_process:
stdout, _ = ps_process.communicate()
for line in stdout.splitlines():
try:
# In some cases the line can contain one or more
# leading white-spaces, so strip it before split.
pid, process_name = line.strip().split(' ', 1)
if process_name_filter(process_name):
running_pids.append(int(pid))
except ValueError as e:
pass
return sorted(running_pids)
def _windows_image_name(self, process_name):
name, extension = os.path.splitext(process_name)
if not extension:
# taskkill expects processes to end in .exe
# If necessary we could add a flag to disable appending .exe.
process_name = "%s.exe" % name
return process_name
def interrupt(self, pid):
interrupt_signal = signal.CTRL_C_EVENT if self._is_native_win else signal.SIGINT
try:
os.kill(pid, interrupt_signal)
except OSError:
# Silently ignore when the pid doesn't exist.
# It's impossible for callers to avoid race conditions with process shutdown.
pass
def kill_all(self, process_name):
"""Attempts to kill processes matching process_name.
Will fail silently if no process are found."""
if self._is_cygwin or self._is_native_win:
image_name = self._windows_image_name(process_name)
killCommmand = 'taskkill.exe'
if self._is_native_win:
killCommand = os.path.join('C:', os.sep, 'WINDOWS', 'system32', 'taskkill.exe')
command = [killCommmand, "/f", "/im", image_name]
# taskkill will exit 128 if the process is not found. We should log.
self.run_command(command, ignore_errors=True)
return
# FIXME: This is inconsistent that kill_all uses TERM and kill_process
# uses KILL. Windows is always using /f (which seems like -KILL).
# We should pick one mode, or add support for switching between them.
# Note: Mac OS X 10.6 requires -SIGNALNAME before -u USER
command = ["killall", "-TERM", "-u", os.getenv("USER"), process_name]
# killall returns 1 if no process can be found and 2 on command error.
# FIXME: We should pass a custom error_handler to allow only exit_code 1.
# We should log in exit_code == 1
self.run_command(command, ignore_errors=True)
def _compute_stdin(self, input):
"""Returns (stdin, string_to_communicate)"""
# FIXME: We should be returning /dev/null for stdin
# or closing stdin after process creation to prevent
# child processes from getting input from the user.
if not input:
return (None, None)
if hasattr(input, "read"): # Check if the input is a file.
return (input, None) # Assume the file is in the right encoding.
# Popen in Python 2.5 and before does not automatically encode unicode objects.
# http://bugs.python.org/issue5290
# See https://bugs.webkit.org/show_bug.cgi?id=37528
# for an example of a regresion caused by passing a unicode string directly.
# FIXME: We may need to encode differently on different platforms.
input = unicode_compatibility.encode_if_necessary(input, self._child_process_encoding())
return (self.PIPE, input)
# FIXME: run_and_throw_if_fail should be merged into this method.
def run_command(self,
args,
cwd=None,
env=None,
input=None,
error_handler=None,
ignore_errors=False,
return_exit_code=False,
return_stderr=True,
decode_output=True):
"""Popen wrapper for convenience and to work around python bugs."""
assert(isinstance(args, list) or isinstance(args, tuple))
start_time = time.time()
stdin, string_to_communicate = self._compute_stdin(input)
stderr = self.STDOUT if return_stderr else None
process = self.popen(args,
stdin=stdin,
stdout=self.PIPE,
stderr=stderr,
cwd=cwd,
env=env,
close_fds=self._should_close_fds())
with process:
if not string_to_communicate:
output = process.communicate()[0]
else:
output = process.communicate(unicode_compatibility.encode_if_necessary(string_to_communicate, 'utf-8'))[0]
# run_command automatically decodes to unicode() and converts CRLF to LF unless explicitly told not to.
if decode_output:
output = unicode_compatibility.decode_if_necessary(output, self._child_process_encoding()).replace('\r\n', '\n')
# wait() is not threadsafe and can throw OSError due to:
# http://bugs.python.org/issue1731717
exit_code = process.wait()
_log.debug('"%s" took %.2fs' % (self.command_for_printing(args), time.time() - start_time))
if return_exit_code:
return exit_code
if exit_code:
script_error = ScriptError(script_args=args,
exit_code=exit_code,
output=output,
cwd=cwd)
if ignore_errors:
assert error_handler is None, "don't specify error_handler if ignore_errors is True"
error_handler = Executive.ignore_error
(error_handler or self.default_error_handler)(script_error)
return output
def _child_process_encoding(self):
# Win32 Python 2.x uses CreateProcessA rather than CreateProcessW
# to launch subprocesses, so we have to encode arguments using the
# current code page.
if self._is_native_win and sys.version < '3':
return 'mbcs'
# All other platforms use UTF-8.
# FIXME: Using UTF-8 on Cygwin will confuse Windows-native commands
# which will expect arguments to be encoded using the current code
# page.
return 'utf-8'
def _should_encode_child_process_arguments(self):
# Cygwin's Python's os.execv doesn't support unicode command
# arguments, and neither does Cygwin's execv itself.
if self._is_cygwin:
return True
# Win32 Python 2.x uses CreateProcessA rather than CreateProcessW
# to launch subprocesses, so we have to encode arguments using the
# current code page.
if self._is_native_win and sys.version < '3':
return True
return False
def _encode_argument_if_needed(self, argument):
if not self._should_encode_child_process_arguments():
return argument
return unicode_compatibility.encode_if_necessary(argument, self._child_process_encoding())
def _stringify_args(self, args):
# Popen will throw an exception if args are non-strings (like int())
string_args = map(unicode_compatibility.unicode, args)
# The Windows implementation of Popen cannot handle unicode strings. :(
return map(self._encode_argument_if_needed, string_args)
def _needs_interpreter_check(self, argument):
return not argument.endswith(('perl', 'python', 'ruby', 'taskkill.exe', 'git', 'svn'))
# The only required argument to popen is named "args", the rest are optional keyword arguments.
def popen(self, args, **kwargs):
if self._is_native_win:
_log.debug("Looking at {0}".format(args))
# Must include proper interpreter
if self._needs_interpreter_check(args[0]):
try:
with open(args[0], 'r') as f:
line = f.readline()
if "perl" in line:
args.insert(0, "perl")
elif "python" in line:
args.insert(0, "python")
elif "ruby" in line:
args.insert(0, "ruby")
except IOError:
pass
# FIXME: We should always be stringifying the args, but callers who pass shell=True
# expect that the exact bytes passed will get passed to the shell (even if they're wrongly encoded).
# shell=True is wrong for many other reasons, and we should remove this
# hack as soon as we can fix all callers to not use shell=True.
if kwargs.get('shell') == True:
string_args = args
else:
string_args = self._stringify_args(args)
# Python 3 treats Popen as a context manager, we should allow this in Python 2
result = subprocess.Popen(string_args, **kwargs)
if not callable(getattr(result, "__enter__", None)) and not callable(getattr(result, "__exit__", None)):
return self.WrappedPopen(result)
return result
def run_in_parallel(self, command_lines_and_cwds, processes=None):
"""Runs a list of (cmd_line list, cwd string) tuples in parallel and returns a list of (retcode, stdout, stderr) tuples."""
assert len(command_lines_and_cwds)
if self._is_cygwin or self._is_native_win:
return map(_run_command_thunk, command_lines_and_cwds)
pool = multiprocessing.Pool(processes=processes)
results = pool.map(_run_command_thunk, command_lines_and_cwds)
pool.close()
pool.join()
return results
def _run_command_thunk(cmd_line_and_cwd):
# Note that this needs to be a bare module (and hence Picklable) method to work with multiprocessing.Pool.
(cmd_line, cwd) = cmd_line_and_cwd
proc = subprocess.Popen(cmd_line, cwd=cwd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
stdout, stderr = proc.communicate()
return (proc.returncode, stdout, stderr)