autoninja.py - mirrors/cros/chromium/tools/depot_tools - Git at Google

 #!/usr/bin/env vpython
 # Copyright (c) 2017 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.

 """
 This script (intended to be invoked by autoninja or autoninja.bat) detects
 whether a build is using goma. If so it runs with a large -j value, and
 otherwise it chooses a small one. This auto-adjustment makes using goma simpler
 and safer, and avoids errors that can cause slow goma builds or swap-storms
 on non-goma builds.
 """

 # [VPYTHON:BEGIN]
 # wheel: <
 #   name: "infra/python/wheels/psutil/${vpython_platform}"
 #   version: "version:5.6.2"
 # >
 # [VPYTHON:END]

 from __future__ import print_function

 import os
 import psutil
 import re
 import sys

 SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))

 # The -t tools are incompatible with -j
 t_specified = False
 j_specified = False
 output_dir = '.'
 input_args = sys.argv
 # On Windows the autoninja.bat script passes along the arguments enclosed in
 # double quotes. This prevents multiple levels of parsing of the special '^'
 # characters needed when compiling a single file but means that this script gets
 # called with a single argument containing all of the actual arguments,
 # separated by spaces. When this case is detected we need to do argument
 # splitting ourselves. This means that arguments containing actual spaces are
 # not supported by autoninja, but that is not a real limitation.
 if (sys.platform.startswith('win') and len(sys.argv) == 2 and
     input_args[1].count(' ') > 0):
   input_args = sys.argv[:1] + sys.argv[1].split()

 # Ninja uses getopt_long, which allow to intermix non-option arguments.
 # To leave non supported parameters untouched, we do not use getopt.
 for index, arg in enumerate(input_args[1:]):
   if arg.startswith('-j'):
     j_specified = True
   if arg.startswith('-t'):
     t_specified = True
   if arg == '-C':
     # + 1 to get the next argument and +1 because we trimmed off input_args[0]
     output_dir = input_args[index + 2]
   elif arg.startswith('-C'):
     # Support -Cout/Default
     output_dir = arg[2:]

 use_goma = False
 use_jumbo_build = False

 # Attempt to auto-detect goma usage.  We support gn-based builds, where we
 # look for args.gn in the build tree, and cmake-based builds where we look for
 # rules.ninja.
 if os.path.exists(os.path.join(output_dir, 'args.gn')):
   with open(os.path.join(output_dir, 'args.gn')) as file_handle:
     for line in file_handle:
       # This regex pattern copied from create_installer_archive.py
       if re.match(r'^\s*use_goma\s*=\s*true(\s*$|\s*#.*$)', line):
         use_goma = True
         continue
       match_use_jumbo_build = re.match(
           r'^\s*use_jumbo_build\s*=\s*true(\s*$|\s*#.*$)', line)
       if match_use_jumbo_build:
         use_jumbo_build = True
         continue
 elif os.path.exists(os.path.join(output_dir, 'rules.ninja')):
   with open(os.path.join(output_dir, 'rules.ninja')) as file_handle:
     for line in file_handle:
       if re.match(r'^\s*command\s*=\s*\S+gomacc', line):
         use_goma = True
         break

 # If GOMA_DISABLED is set to "true", "t", "yes", "y", or "1" (case-insensitive)
 # then gomacc will use the local compiler instead of doing a goma compile. This
 # is convenient if you want to briefly disable goma. It avoids having to rebuild
 # the world when transitioning between goma/non-goma builds. However, it is not
 # as fast as doing a "normal" non-goma build because an extra process is created
 # for each compile step. Checking this environment variable ensures that
 # autoninja uses an appropriate -j value in this situation.
 goma_disabled_env = os.environ.get('GOMA_DISABLED', '0').lower()
 if goma_disabled_env in ['true', 't', 'yes', 'y', '1']:
   use_goma = False

 # Specify ninja.exe on Windows so that ninja.bat can call autoninja and not
 # be called back.
 ninja_exe = 'ninja.exe' if sys.platform.startswith('win') else 'ninja'
 ninja_exe_path = os.path.join(SCRIPT_DIR, ninja_exe)

 # Use absolute path for ninja path,
 # or fail to execute ninja if depot_tools is not in PATH.
 args = [ninja_exe_path] + input_args[1:]

 num_cores = psutil.cpu_count()
 if not j_specified and not t_specified:
   if use_goma:
     args.append('-j')
     core_multiplier = int(os.environ.get('NINJA_CORE_MULTIPLIER', '40'))
     j_value = num_cores * core_multiplier

     if sys.platform.startswith('win'):
       # On windows, j value higher than 1000 does not improve build performance.
       j_value = min(j_value, 1000)
     elif sys.platform == 'darwin':
       # On Mac, j value higher than 500 causes 'Too many open files' error
       # (crbug.com/936864).
       j_value = min(j_value, 500)

     args.append('%d' % j_value)
   else:
     j_value = num_cores
     # Ninja defaults to |num_cores + 2|
     j_value += int(os.environ.get('NINJA_CORE_ADDITION', '2'))
     if use_jumbo_build:
       # Compiling a jumbo .o can easily use 1-2GB of memory. Leaving 2GB per
       # process avoids memory swap/compression storms when also considering
       # already in-use memory.
       physical_ram = psutil.virtual_memory().total
       GB = 1024 * 1024 * 1024
       j_value = min(j_value, physical_ram / (2 * GB))
     args.append('-j')
     args.append('%d' % j_value)

 # On Windows, fully quote the path so that the command processor doesn't think
 # the whole output is the command.
 # On Linux and Mac, if people put depot_tools in directories with ' ',
 # shell would misunderstand ' ' as a path separation.
 # TODO(yyanagisawa): provide proper quoting for Windows.
 # see https://cs.chromium.org/chromium/src/tools/mb/mb.py
 for i in range(len(args)):
   if (i == 0 and sys.platform.startswith('win')) or ' ' in args[i]:
     args[i] = '"%s"' % args[i].replace('"', '\\"')

 if os.environ.get('NINJA_SUMMARIZE_BUILD', '0') == '1':
   args += ['-d', 'stats']

 print(' '.join(args))
	#!/usr/bin/env vpython
	# Copyright (c) 2017 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.

	"""
	This script (intended to be invoked by autoninja or autoninja.bat) detects
	whether a build is using goma. If so it runs with a large -j value, and
	otherwise it chooses a small one. This auto-adjustment makes using goma simpler
	and safer, and avoids errors that can cause slow goma builds or swap-storms
	on non-goma builds.
	"""

	# [VPYTHON:BEGIN]
	# wheel: <
	# name: "infra/python/wheels/psutil/${vpython_platform}"
	# version: "version:5.6.2"
	# >
	# [VPYTHON:END]

	from __future__ import print_function

	import os
	import psutil
	import re
	import sys

	SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))

	# The -t tools are incompatible with -j
	t_specified = False
	j_specified = False
	output_dir = '.'
	input_args = sys.argv
	# On Windows the autoninja.bat script passes along the arguments enclosed in
	# double quotes. This prevents multiple levels of parsing of the special '^'
	# characters needed when compiling a single file but means that this script gets
	# called with a single argument containing all of the actual arguments,
	# separated by spaces. When this case is detected we need to do argument
	# splitting ourselves. This means that arguments containing actual spaces are
	# not supported by autoninja, but that is not a real limitation.
	if (sys.platform.startswith('win') and len(sys.argv) == 2 and
	input_args[1].count(' ') > 0):
	input_args = sys.argv[:1] + sys.argv[1].split()

	# Ninja uses getopt_long, which allow to intermix non-option arguments.
	# To leave non supported parameters untouched, we do not use getopt.
	for index, arg in enumerate(input_args[1:]):
	if arg.startswith('-j'):
	j_specified = True
	if arg.startswith('-t'):
	t_specified = True
	if arg == '-C':
	# + 1 to get the next argument and +1 because we trimmed off input_args[0]
	output_dir = input_args[index + 2]
	elif arg.startswith('-C'):
	# Support -Cout/Default
	output_dir = arg[2:]

	use_goma = False
	use_jumbo_build = False

	# Attempt to auto-detect goma usage. We support gn-based builds, where we
	# look for args.gn in the build tree, and cmake-based builds where we look for
	# rules.ninja.
	if os.path.exists(os.path.join(output_dir, 'args.gn')):
	with open(os.path.join(output_dir, 'args.gn')) as file_handle:
	for line in file_handle:
	# This regex pattern copied from create_installer_archive.py
	if re.match(r'^\suse_goma\s=\strue(\s$\|\s#.$)', line):
	use_goma = True
	continue
	match_use_jumbo_build = re.match(
	r'^\suse_jumbo_build\s=\strue(\s$\|\s#.$)', line)
	if match_use_jumbo_build:
	use_jumbo_build = True
	continue
	elif os.path.exists(os.path.join(output_dir, 'rules.ninja')):
	with open(os.path.join(output_dir, 'rules.ninja')) as file_handle:
	for line in file_handle:
	if re.match(r'^\scommand\s=\s*\S+gomacc', line):
	use_goma = True
	break

	# If GOMA_DISABLED is set to "true", "t", "yes", "y", or "1" (case-insensitive)
	# then gomacc will use the local compiler instead of doing a goma compile. This
	# is convenient if you want to briefly disable goma. It avoids having to rebuild
	# the world when transitioning between goma/non-goma builds. However, it is not
	# as fast as doing a "normal" non-goma build because an extra process is created
	# for each compile step. Checking this environment variable ensures that
	# autoninja uses an appropriate -j value in this situation.
	goma_disabled_env = os.environ.get('GOMA_DISABLED', '0').lower()
	if goma_disabled_env in ['true', 't', 'yes', 'y', '1']:
	use_goma = False

	# Specify ninja.exe on Windows so that ninja.bat can call autoninja and not
	# be called back.
	ninja_exe = 'ninja.exe' if sys.platform.startswith('win') else 'ninja'
	ninja_exe_path = os.path.join(SCRIPT_DIR, ninja_exe)

	# Use absolute path for ninja path,
	# or fail to execute ninja if depot_tools is not in PATH.
	args = [ninja_exe_path] + input_args[1:]

	num_cores = psutil.cpu_count()
	if not j_specified and not t_specified:
	if use_goma:
	args.append('-j')
	core_multiplier = int(os.environ.get('NINJA_CORE_MULTIPLIER', '40'))
	j_value = num_cores * core_multiplier

	if sys.platform.startswith('win'):
	# On windows, j value higher than 1000 does not improve build performance.
	j_value = min(j_value, 1000)
	elif sys.platform == 'darwin':
	# On Mac, j value higher than 500 causes 'Too many open files' error
	# (crbug.com/936864).
	j_value = min(j_value, 500)

	args.append('%d' % j_value)
	else:
	j_value = num_cores
	# Ninja defaults to \|num_cores + 2\|
	j_value += int(os.environ.get('NINJA_CORE_ADDITION', '2'))
	if use_jumbo_build:
	# Compiling a jumbo .o can easily use 1-2GB of memory. Leaving 2GB per
	# process avoids memory swap/compression storms when also considering
	# already in-use memory.
	physical_ram = psutil.virtual_memory().total
	GB = 1024 * 1024 * 1024
	j_value = min(j_value, physical_ram / (2 * GB))
	args.append('-j')
	args.append('%d' % j_value)

	# On Windows, fully quote the path so that the command processor doesn't think
	# the whole output is the command.
	# On Linux and Mac, if people put depot_tools in directories with ' ',
	# shell would misunderstand ' ' as a path separation.
	# TODO(yyanagisawa): provide proper quoting for Windows.
	# see https://cs.chromium.org/chromium/src/tools/mb/mb.py
	for i in range(len(args)):
	if (i == 0 and sys.platform.startswith('win')) or ' ' in args[i]:
	args[i] = '"%s"' % args[i].replace('"', '\\"')

	if os.environ.get('NINJA_SUMMARIZE_BUILD', '0') == '1':
	args += ['-d', 'stats']

	print(' '.join(args))