Tools/Scripts/webkitpy/port/server_process.py - WebKit - Git at Google

 # Copyright (C) 2017-2019 Apple Inc. All rights reserved.
 # Copyright (C) 2010 Google 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 Google name 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.

 """Package that implements the ServerProcess wrapper class"""

 import errno
 import logging
 import signal
 import sys
 import time

 from webkitcorepy import string_utils

 # Note that although win32 python does provide an implementation of
 # the win32 select API, it only works on sockets, and not on the named pipes
 # used by subprocess, so we have to use the native APIs directly.
 if sys.platform.startswith('win'):
     import msvcrt
     import pywintypes
     import win32api
     import win32file
     import win32pipe
     import winerror
 else:
     import fcntl
     import os
     import select


 _log = logging.getLogger(__name__)


 class ServerProcess(object):
     """This class provides a wrapper around a subprocess that
     implements a simple request/response usage model. The primary benefit
     is that reading responses takes a deadline, so that we don't ever block
     indefinitely. The class also handles transparently restarting processes
     as necessary to keep issuing commands."""

     def __init__(self, port_obj, name, cmd, env=None, universal_newlines=False, treat_no_data_as_crash=False, target_host=None, crash_message=None, allow_emulation=True):
         self._port = port_obj
         self._name = name  # Should be the command name (e.g. DumpRenderTree, ImageDiff)

         platform = self._port.host.platform
         if allow_emulation and platform.is_mac() and platform.architecture() != self._port.architecture():
             self._cmd = ['/usr/bin/arch', '-{}'.format(self._port.architecture())] + cmd
         else:
             self._cmd = cmd
         self._env = env
         self._crash_message = crash_message or 'This test marked as a crash'

         # Set if the process outputs non-standard newlines like '\r\n' or '\r'.
         # Don't set if there will be binary data or the data must be ASCII encoded.
         self._universal_newlines = universal_newlines
         self._treat_no_data_as_crash = treat_no_data_as_crash
         self._target_host = target_host or port_obj.host
         self._pid = None
         self._system_pid = None
         self._child_processes = {}
         self._reset()

         # See comment in imports for why we need the win32 APIs and can't just use select.
         # FIXME: there should be a way to get win32 vs. cygwin from platforminfo.
         self._use_win32_apis = sys.platform.startswith('win')

     def child_processes(self):
         return self._child_processes

     def set_child_processes(self, child_processes):
         self._child_processes = child_processes

     def pid(self):
         return self._pid

     def system_pid(self):
         return self._system_pid

     def _reset(self):
         if getattr(self, '_proc', None):
             if self._proc.stdin:
                 self._proc.stdin.close()
                 self._proc.stdin = None
             if self._proc.stdout:
                 self._proc.stdout.close()
                 self._proc.stdout = None
             if self._proc.stderr:
                 self._proc.stderr.close()
                 self._proc.stderr = None

         self._proc = None
         self._output = b''
         self._error = b''
         self._crashed = False
         self.timed_out = False

     def process_name(self):
         return self._name

     @staticmethod
     def _set_file_nonblocking(file):
         flags = fcntl.fcntl(file.fileno(), fcntl.F_GETFL)
         fcntl.fcntl(file.fileno(), fcntl.F_SETFL, flags | os.O_NONBLOCK)

     def _start(self):
         if self._proc:
             raise ValueError("%s already running" % self._name)
         self._reset()
         self._proc = self._target_host.executive.popen(self._cmd, stdin=self._target_host.executive.PIPE,
             stdout=self._target_host.executive.PIPE,
             stderr=self._target_host.executive.PIPE,
             close_fds=self._should_close_fds(),
             env=self._env,
             universal_newlines=self._universal_newlines)
         self._pid = self._proc.pid
         self._system_pid = int(self._port._filesystem.read_text_file('/proc/%d/winpid' % self._pid)) if self._port.host.platform.is_cygwin() else self._pid
         self._child_processes = {}
         if not self._use_win32_apis:
             self._set_file_nonblocking(self._proc.stdout)
             self._set_file_nonblocking(self._proc.stderr)

     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.".
         platform = self._port.host.platform
         if platform.is_win() and not platform.is_cygwin():
             return False
         else:
             return True

     def _handle_possible_interrupt(self):
         """This routine checks to see if the process crashed or exited
         because of a keyboard interrupt and raises KeyboardInterrupt
         accordingly."""
         # FIXME: Linux and Mac set the returncode to -signal.SIGINT if a
         # subprocess is killed with a ctrl^C.  Previous comments in this
         # routine said that supposedly Windows returns 0xc000001d, but that's not what
         # -1073741510 evaluates to. Figure out what the right value is
         # for win32 and cygwin here ...
         if self._proc.returncode in (-1073741510, -signal.SIGINT):
             raise KeyboardInterrupt

     def poll(self):
         """Check to see if the underlying process is running; returns None
         if it still is (wrapper around subprocess.poll)."""
         if self._proc:
             return self._proc.poll()
         return None

     def write(self, bytes, ignore_crash=False):
         """Write a request to the subprocess. The subprocess is (re-)start()'ed
         if is not already running."""
         if not self._proc:
             self._start()
         try:
             self._proc.stdin.write(string_utils.encode(bytes))
             self._proc.stdin.flush()
         except (IOError, ValueError):
             self.stop(0.0)
             # stop() calls _reset(), so we have to set crashed to True after calling stop()
             # unless we already know that this is a timeout.
             if not ignore_crash:
                 _log.debug('{} because of a broken pipe when writing to stdin of the server process.'.format(self._crash_message))
                 self._crashed = True

     def _pop_stdout_line_if_ready(self):
         index_after_newline = self._output.find(b'\n') + 1
         if index_after_newline > 0:
             return self._pop_output_bytes(index_after_newline)
         return None

     def _pop_stderr_line_if_ready(self):
         index_after_newline = self._error.find(b'\n') + 1
         if index_after_newline > 0:
             return self._pop_error_bytes(index_after_newline)
         return None

     def pop_all_buffered_stdout(self):
         return self._pop_output_bytes(len(self._output))

     def pop_all_buffered_stderr(self):
         return self._pop_error_bytes(len(self._error))

     def read_stdout_line(self, deadline):
         return self._read(deadline, self._pop_stdout_line_if_ready)

     def has_available_stdout(self):
         if not self.has_crashed() and self._use_win32_apis:
             self._wait_for_data_and_update_buffers_using_win32_apis(0)
         elif not self.has_crashed():
             self._wait_for_data_and_update_buffers_using_select(0)

         return bool(self._output)

     def read_stderr_line(self, deadline):
         return self._read(deadline, self._pop_stderr_line_if_ready)

     def read_either_stdout_or_stderr_line(self, deadline):
         def retrieve_bytes_from_buffers():
             stdout_line = self._pop_stdout_line_if_ready()
             if stdout_line:
                 return stdout_line, None
             stderr_line = self._pop_stderr_line_if_ready()
             if stderr_line:
                 return None, stderr_line
             return None  # Instructs the caller to keep waiting.

         return_value = self._read(deadline, retrieve_bytes_from_buffers)
         # FIXME: This is a bit of a hack around the fact that _read normally only returns one value, but this caller wants it to return two.
         if return_value is None:
             return None, None
         return return_value

     def read_stdout(self, deadline, size):
         if size <= 0:
             raise ValueError('ServerProcess.read() called with a non-positive size: %d ' % size)

         def retrieve_bytes_from_stdout_buffer():
             if len(self._output) >= size:
                 return self._pop_output_bytes(size)
             return None

         return self._read(deadline, retrieve_bytes_from_stdout_buffer)

     def _log(self, message):
         # This is a bit of a hack, but we first log a blank line to avoid
         # messing up the master process's output.
         _log.info('')
         _log.info(message)

     def _handle_timeout(self):
         self.timed_out = True
         if self._port.get_option("sample_on_timeout"):
             self._port.sample_process(self._name, self._proc.pid, self._target_host)

     def _split_string_after_index(self, string, index):
         return string[:index], string[index:]

     def _pop_output_bytes(self, bytes_count):
         output, self._output = self._split_string_after_index(self._output, bytes_count)
         return output

     def _pop_error_bytes(self, bytes_count):
         output, self._error = self._split_string_after_index(self._error, bytes_count)
         return output

     def _wait_for_data_and_update_buffers_using_select(self, deadline, stopping=False):
         if not self._proc or self._proc.stdout.closed or self._proc.stderr.closed:
             # If the process crashed and is using FIFOs, like Chromium Android, the
             # stdout and stderr pipes will be closed.
             return

         out_fd = self._proc.stdout.fileno()
         err_fd = self._proc.stderr.fileno()
         select_fds = (out_fd, err_fd)
         try:
             read_fds, _, _ = select.select(select_fds, [], select_fds, max(deadline - time.time(), 0))
         except select.error as e:
             # We can ignore EINVAL since it's likely the process just crashed and we'll
             # figure that out the next time through the loop in _read().
             # We also ignore EINTR as we can resume reading the next time
             # through the loop in _read().
             if e.args[0] in [errno.EINVAL, errno.EINTR]:
                 return
             raise

         try:
             # Note that we may get no data during read() even though
             # select says we got something; see the select() man page
             # on linux. I don't know if this happens on Mac OS and
             # other Unixen as well, but we don't bother special-casing
             # Linux because it's relatively harmless either way.
             if out_fd in read_fds:
                 data = self._proc.stdout.read()
                 if not data and not stopping and (self._treat_no_data_as_crash or self._proc.poll()):
                     _log.debug('{} because of no data while reading stdout for the server process.'.format(self._crash_message))
                     self._crashed = True
                 self._output += data

             if err_fd in read_fds:
                 data = self._proc.stderr.read()
                 if not data and not stopping and (self._treat_no_data_as_crash or self._proc.poll()):
                     _log.debug('{} because of no data while reading stdout for the server process.'.format(self._crash_message))
                     self._crashed = True
                 self._error += data
         except IOError:
             # We can ignore the IOErrors because we will detect if the subporcess crashed
             # the next time through the loop in _read()
             pass

     def _wait_for_data_and_update_buffers_using_win32_apis(self, deadline):
         if not self._proc:
             return

         # See http://code.activestate.com/recipes/440554-module-to-allow-asynchronous-subprocess-use-on-win/
         # and http://docs.activestate.com/activepython/2.6/pywin32/modules.html
         # for documentation on all of these win32-specific modules.
         out_fh = msvcrt.get_osfhandle(self._proc.stdout.fileno())
         err_fh = msvcrt.get_osfhandle(self._proc.stderr.fileno())
         checking = True
         while checking:
             output = self._non_blocking_read_win32(out_fh)
             error = self._non_blocking_read_win32(err_fh)
             if output or error:
                 if output:
                     self._output += output
                 if error:
                     self._error += error
                 return
             if self._proc.poll() is not None:
                 return
             time.sleep(0.01)
             checking = time.time() < deadline

     def _non_blocking_read_win32(self, handle):
         try:
             _, avail, _ = win32pipe.PeekNamedPipe(handle, 0)
             if avail > 0:
                 _, buf = win32file.ReadFile(handle, avail, None)
                 return buf
         except pywintypes.error as e:
             if e.winerror not in (winerror.ERROR_INVALID_FUNCTION, winerror.ERROR_BROKEN_PIPE, errno.ESHUTDOWN):
                 raise
         return None

     def has_crashed(self):
         if not self._crashed and self.poll():
             _log.debug('{} because of failure to poll the server process (return code was {}).'.format(self._crash_message, self._proc.returncode))
             self._crashed = True
             self._handle_possible_interrupt()
         return self._crashed

     # This read function is a bit oddly-designed, as it polls both stdout and stderr, yet
     # only reads/returns from one of them (buffering both in local self._output/self._error).
     # It might be cleaner to pass in the file descriptor to poll instead.
     def _read(self, deadline, fetch_bytes_from_buffers_callback):
         while True:
             # Polling does not need to occur before bytes are fetched from the buffer.
             if self._crashed:
                 return None

             if time.time() > deadline:
                 self._handle_timeout()
                 return None

             bytes = fetch_bytes_from_buffers_callback()
             if bytes is not None:
                 return bytes

             if self.has_crashed():
                 return None

             if self._use_win32_apis:
                 self._wait_for_data_and_update_buffers_using_win32_apis(deadline)
             else:
                 self._wait_for_data_and_update_buffers_using_select(deadline)

     def start(self):
         if not self._proc:
             self._start()

     def stop(self, timeout_secs=3.0):
         if not self._proc:
             return (None, None)

         # Only bother to check for leaks or stderr if the process is still running.
         if self.poll() is None:
             self._port.check_for_leaks(self.process_name(), self.pid())
             for child_process_name in self._child_processes.keys():
                 for child_process_id in self._child_processes[child_process_name]:
                     self._port.check_for_leaks(child_process_name, child_process_id)

         if self._proc.stdin:
             self._proc.stdin.close()
             self._proc.stdin = None

         return self._wait_for_stop(timeout_secs)

     def _wait_for_stop(self, timeout_secs=3.0):
         now = time.time()
         killed = False
         if timeout_secs:
             deadline = now + timeout_secs
             while self._proc and self._proc.poll() is None and time.time() < deadline:
                 time.sleep(0.01)
             if self._proc and self._proc.poll() is None:
                 _log.warning('stopping %s(pid %d) timed out, killing it' % (self._name, self._proc.pid))

         if self._proc and self._proc.poll() is None:
             self._kill()
             killed = True
             _log.debug('killed pid %d' % self._proc.pid)

         # read any remaining data on the pipes and return it.
         if self._proc and not killed:
             if self._use_win32_apis:
                 self._wait_for_data_and_update_buffers_using_win32_apis(now)
             else:
                 self._wait_for_data_and_update_buffers_using_select(now, stopping=True)
         out, err = self._output, self._error
         self._reset()
         return (out, err)

     def kill(self):
         self.stop(0.0)

     def _kill(self):
         self._target_host.executive.kill_process(self._proc.pid)
         if self._proc.poll() is None:
             self._proc.wait()

     def replace_outputs(self, stdout, stderr):
         assert self._proc
         if stdout:
             self._proc.stdout.close()
             self._proc.stdout = stdout
         if stderr:
             self._proc.stderr.close()
             self._proc.stderr = stderr
	# Copyright (C) 2017-2019 Apple Inc. All rights reserved.
	# Copyright (C) 2010 Google 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 Google name 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.

	"""Package that implements the ServerProcess wrapper class"""

	import errno
	import logging
	import signal
	import sys
	import time

	from webkitcorepy import string_utils

	# Note that although win32 python does provide an implementation of
	# the win32 select API, it only works on sockets, and not on the named pipes
	# used by subprocess, so we have to use the native APIs directly.
	if sys.platform.startswith('win'):
	import msvcrt
	import pywintypes
	import win32api
	import win32file
	import win32pipe
	import winerror
	else:
	import fcntl
	import os
	import select


	_log = logging.getLogger(__name__)


	class ServerProcess(object):
	"""This class provides a wrapper around a subprocess that
	implements a simple request/response usage model. The primary benefit
	is that reading responses takes a deadline, so that we don't ever block
	indefinitely. The class also handles transparently restarting processes
	as necessary to keep issuing commands."""

	def __init__(self, port_obj, name, cmd, env=None, universal_newlines=False, treat_no_data_as_crash=False, target_host=None, crash_message=None, allow_emulation=True):
	self._port = port_obj
	self._name = name # Should be the command name (e.g. DumpRenderTree, ImageDiff)

	platform = self._port.host.platform
	if allow_emulation and platform.is_mac() and platform.architecture() != self._port.architecture():
	self._cmd = ['/usr/bin/arch', '-{}'.format(self._port.architecture())] + cmd
	else:
	self._cmd = cmd
	self._env = env
	self._crash_message = crash_message or 'This test marked as a crash'

	# Set if the process outputs non-standard newlines like '\r\n' or '\r'.
	# Don't set if there will be binary data or the data must be ASCII encoded.
	self._universal_newlines = universal_newlines
	self._treat_no_data_as_crash = treat_no_data_as_crash
	self._target_host = target_host or port_obj.host
	self._pid = None
	self._system_pid = None
	self._child_processes = {}
	self._reset()

	# See comment in imports for why we need the win32 APIs and can't just use select.
	# FIXME: there should be a way to get win32 vs. cygwin from platforminfo.
	self._use_win32_apis = sys.platform.startswith('win')

	def child_processes(self):
	return self._child_processes

	def set_child_processes(self, child_processes):
	self._child_processes = child_processes

	def pid(self):
	return self._pid

	def system_pid(self):
	return self._system_pid

	def _reset(self):
	if getattr(self, '_proc', None):
	if self._proc.stdin:
	self._proc.stdin.close()
	self._proc.stdin = None
	if self._proc.stdout:
	self._proc.stdout.close()
	self._proc.stdout = None
	if self._proc.stderr:
	self._proc.stderr.close()
	self._proc.stderr = None

	self._proc = None
	self._output = b''
	self._error = b''
	self._crashed = False
	self.timed_out = False

	def process_name(self):
	return self._name

	@staticmethod
	def _set_file_nonblocking(file):
	flags = fcntl.fcntl(file.fileno(), fcntl.F_GETFL)
	fcntl.fcntl(file.fileno(), fcntl.F_SETFL, flags \| os.O_NONBLOCK)

	def _start(self):
	if self._proc:
	raise ValueError("%s already running" % self._name)
	self._reset()
	self._proc = self._target_host.executive.popen(self._cmd, stdin=self._target_host.executive.PIPE,
	stdout=self._target_host.executive.PIPE,
	stderr=self._target_host.executive.PIPE,
	close_fds=self._should_close_fds(),
	env=self._env,
	universal_newlines=self._universal_newlines)
	self._pid = self._proc.pid
	self._system_pid = int(self._port._filesystem.read_text_file('/proc/%d/winpid' % self._pid)) if self._port.host.platform.is_cygwin() else self._pid
	self._child_processes = {}
	if not self._use_win32_apis:
	self._set_file_nonblocking(self._proc.stdout)
	self._set_file_nonblocking(self._proc.stderr)

	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.".
	platform = self._port.host.platform
	if platform.is_win() and not platform.is_cygwin():
	return False
	else:
	return True

	def _handle_possible_interrupt(self):
	"""This routine checks to see if the process crashed or exited
	because of a keyboard interrupt and raises KeyboardInterrupt
	accordingly."""
	# FIXME: Linux and Mac set the returncode to -signal.SIGINT if a
	# subprocess is killed with a ctrl^C. Previous comments in this
	# routine said that supposedly Windows returns 0xc000001d, but that's not what
	# -1073741510 evaluates to. Figure out what the right value is
	# for win32 and cygwin here ...
	if self._proc.returncode in (-1073741510, -signal.SIGINT):
	raise KeyboardInterrupt

	def poll(self):
	"""Check to see if the underlying process is running; returns None
	if it still is (wrapper around subprocess.poll)."""
	if self._proc:
	return self._proc.poll()
	return None

	def write(self, bytes, ignore_crash=False):
	"""Write a request to the subprocess. The subprocess is (re-)start()'ed
	if is not already running."""
	if not self._proc:
	self._start()
	try:
	self._proc.stdin.write(string_utils.encode(bytes))
	self._proc.stdin.flush()
	except (IOError, ValueError):
	self.stop(0.0)
	# stop() calls _reset(), so we have to set crashed to True after calling stop()
	# unless we already know that this is a timeout.
	if not ignore_crash:
	_log.debug('{} because of a broken pipe when writing to stdin of the server process.'.format(self._crash_message))
	self._crashed = True

	def _pop_stdout_line_if_ready(self):
	index_after_newline = self._output.find(b'\n') + 1
	if index_after_newline > 0:
	return self._pop_output_bytes(index_after_newline)
	return None

	def _pop_stderr_line_if_ready(self):
	index_after_newline = self._error.find(b'\n') + 1
	if index_after_newline > 0:
	return self._pop_error_bytes(index_after_newline)
	return None

	def pop_all_buffered_stdout(self):
	return self._pop_output_bytes(len(self._output))

	def pop_all_buffered_stderr(self):
	return self._pop_error_bytes(len(self._error))

	def read_stdout_line(self, deadline):
	return self._read(deadline, self._pop_stdout_line_if_ready)

	def has_available_stdout(self):
	if not self.has_crashed() and self._use_win32_apis:
	self._wait_for_data_and_update_buffers_using_win32_apis(0)
	elif not self.has_crashed():
	self._wait_for_data_and_update_buffers_using_select(0)

	return bool(self._output)

	def read_stderr_line(self, deadline):
	return self._read(deadline, self._pop_stderr_line_if_ready)

	def read_either_stdout_or_stderr_line(self, deadline):
	def retrieve_bytes_from_buffers():
	stdout_line = self._pop_stdout_line_if_ready()
	if stdout_line:
	return stdout_line, None
	stderr_line = self._pop_stderr_line_if_ready()
	if stderr_line:
	return None, stderr_line
	return None # Instructs the caller to keep waiting.

	return_value = self._read(deadline, retrieve_bytes_from_buffers)
	# FIXME: This is a bit of a hack around the fact that _read normally only returns one value, but this caller wants it to return two.
	if return_value is None:
	return None, None
	return return_value

	def read_stdout(self, deadline, size):
	if size <= 0:
	raise ValueError('ServerProcess.read() called with a non-positive size: %d ' % size)

	def retrieve_bytes_from_stdout_buffer():
	if len(self._output) >= size:
	return self._pop_output_bytes(size)
	return None

	return self._read(deadline, retrieve_bytes_from_stdout_buffer)

	def _log(self, message):
	# This is a bit of a hack, but we first log a blank line to avoid
	# messing up the master process's output.
	_log.info('')
	_log.info(message)

	def _handle_timeout(self):
	self.timed_out = True
	if self._port.get_option("sample_on_timeout"):
	self._port.sample_process(self._name, self._proc.pid, self._target_host)

	def _split_string_after_index(self, string, index):
	return string[:index], string[index:]

	def _pop_output_bytes(self, bytes_count):
	output, self._output = self._split_string_after_index(self._output, bytes_count)
	return output

	def _pop_error_bytes(self, bytes_count):
	output, self._error = self._split_string_after_index(self._error, bytes_count)
	return output

	def _wait_for_data_and_update_buffers_using_select(self, deadline, stopping=False):
	if not self._proc or self._proc.stdout.closed or self._proc.stderr.closed:
	# If the process crashed and is using FIFOs, like Chromium Android, the
	# stdout and stderr pipes will be closed.
	return

	out_fd = self._proc.stdout.fileno()
	err_fd = self._proc.stderr.fileno()
	select_fds = (out_fd, err_fd)
	try:
	read_fds, _, _ = select.select(select_fds, [], select_fds, max(deadline - time.time(), 0))
	except select.error as e:
	# We can ignore EINVAL since it's likely the process just crashed and we'll
	# figure that out the next time through the loop in _read().
	# We also ignore EINTR as we can resume reading the next time
	# through the loop in _read().
	if e.args[0] in [errno.EINVAL, errno.EINTR]:
	return
	raise

	try:
	# Note that we may get no data during read() even though
	# select says we got something; see the select() man page
	# on linux. I don't know if this happens on Mac OS and
	# other Unixen as well, but we don't bother special-casing
	# Linux because it's relatively harmless either way.
	if out_fd in read_fds:
	data = self._proc.stdout.read()
	if not data and not stopping and (self._treat_no_data_as_crash or self._proc.poll()):
	_log.debug('{} because of no data while reading stdout for the server process.'.format(self._crash_message))
	self._crashed = True
	self._output += data

	if err_fd in read_fds:
	data = self._proc.stderr.read()
	if not data and not stopping and (self._treat_no_data_as_crash or self._proc.poll()):
	_log.debug('{} because of no data while reading stdout for the server process.'.format(self._crash_message))
	self._crashed = True
	self._error += data
	except IOError:
	# We can ignore the IOErrors because we will detect if the subporcess crashed
	# the next time through the loop in _read()
	pass

	def _wait_for_data_and_update_buffers_using_win32_apis(self, deadline):
	if not self._proc:
	return

	# See http://code.activestate.com/recipes/440554-module-to-allow-asynchronous-subprocess-use-on-win/
	# and http://docs.activestate.com/activepython/2.6/pywin32/modules.html
	# for documentation on all of these win32-specific modules.
	out_fh = msvcrt.get_osfhandle(self._proc.stdout.fileno())
	err_fh = msvcrt.get_osfhandle(self._proc.stderr.fileno())
	checking = True
	while checking:
	output = self._non_blocking_read_win32(out_fh)
	error = self._non_blocking_read_win32(err_fh)
	if output or error:
	if output:
	self._output += output
	if error:
	self._error += error
	return
	if self._proc.poll() is not None:
	return
	time.sleep(0.01)
	checking = time.time() < deadline

	def _non_blocking_read_win32(self, handle):
	try:
	_, avail, _ = win32pipe.PeekNamedPipe(handle, 0)
	if avail > 0:
	_, buf = win32file.ReadFile(handle, avail, None)
	return buf
	except pywintypes.error as e:
	if e.winerror not in (winerror.ERROR_INVALID_FUNCTION, winerror.ERROR_BROKEN_PIPE, errno.ESHUTDOWN):
	raise
	return None

	def has_crashed(self):
	if not self._crashed and self.poll():
	_log.debug('{} because of failure to poll the server process (return code was {}).'.format(self._crash_message, self._proc.returncode))
	self._crashed = True
	self._handle_possible_interrupt()
	return self._crashed

	# This read function is a bit oddly-designed, as it polls both stdout and stderr, yet
	# only reads/returns from one of them (buffering both in local self._output/self._error).
	# It might be cleaner to pass in the file descriptor to poll instead.
	def _read(self, deadline, fetch_bytes_from_buffers_callback):
	while True:
	# Polling does not need to occur before bytes are fetched from the buffer.
	if self._crashed:
	return None

	if time.time() > deadline:
	self._handle_timeout()
	return None

	bytes = fetch_bytes_from_buffers_callback()
	if bytes is not None:
	return bytes

	if self.has_crashed():
	return None

	if self._use_win32_apis:
	self._wait_for_data_and_update_buffers_using_win32_apis(deadline)
	else:
	self._wait_for_data_and_update_buffers_using_select(deadline)

	def start(self):
	if not self._proc:
	self._start()

	def stop(self, timeout_secs=3.0):
	if not self._proc:
	return (None, None)

	# Only bother to check for leaks or stderr if the process is still running.
	if self.poll() is None:
	self._port.check_for_leaks(self.process_name(), self.pid())
	for child_process_name in self._child_processes.keys():
	for child_process_id in self._child_processes[child_process_name]:
	self._port.check_for_leaks(child_process_name, child_process_id)

	if self._proc.stdin:
	self._proc.stdin.close()
	self._proc.stdin = None

	return self._wait_for_stop(timeout_secs)

	def _wait_for_stop(self, timeout_secs=3.0):
	now = time.time()
	killed = False
	if timeout_secs:
	deadline = now + timeout_secs
	while self._proc and self._proc.poll() is None and time.time() < deadline:
	time.sleep(0.01)
	if self._proc and self._proc.poll() is None:
	_log.warning('stopping %s(pid %d) timed out, killing it' % (self._name, self._proc.pid))

	if self._proc and self._proc.poll() is None:
	self._kill()
	killed = True
	_log.debug('killed pid %d' % self._proc.pid)

	# read any remaining data on the pipes and return it.
	if self._proc and not killed:
	if self._use_win32_apis:
	self._wait_for_data_and_update_buffers_using_win32_apis(now)
	else:
	self._wait_for_data_and_update_buffers_using_select(now, stopping=True)
	out, err = self._output, self._error
	self._reset()
	return (out, err)

	def kill(self):
	self.stop(0.0)

	def _kill(self):
	self._target_host.executive.kill_process(self._proc.pid)
	if self._proc.poll() is None:
	self._proc.wait()

	def replace_outputs(self, stdout, stderr):
	assert self._proc
	if stdout:
	self._proc.stdout.close()
	self._proc.stdout = stdout
	if stderr:
	self._proc.stderr.close()
	self._proc.stderr = stderr