# 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. """ import multiprocessing import os import re import sys # The -t tools are incompatible with -j and -l t_specified = False j_specified = False output_dir = '.' for index, arg in enumerate(sys.argv[1:]): if arg == '-j': j_specified = True if arg == '-t': t_specified = True if arg == '-C': # + 1 to get the next argument and +1 because we trimmed off sys.argv[0] output_dir = sys.argv[index + 2] use_goma = False try: 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 m = re.match('^\s*use_goma\s*=\s*true(\s*$|\s*#.*$)', line) if m: use_goma = True except IOError: pass if sys.platform.startswith('win'): # Specify ninja.exe on Windows so that ninja.bat can call autoninja and not # be called back. args = ['ninja.exe'] + sys.argv[1:] else: args = ['ninja'] + sys.argv[1:] num_cores = multiprocessing.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", "20")) args.append('%d' % (num_cores * core_multiplier)) else: core_addition = os.environ.get("NINJA_CORE_ADDITION") if core_addition: core_addition = int(core_addition) args.append('-j') args.append('%d' % (num_cores + core_addition)) if not t_specified: # Specify a maximum CPU load so that running builds in two different command # prompts won't overload the system too much. This is not reliable enough to # be used to auto-adjust between goma/non-goma loads, but it is a nice # fallback load balancer. args.append('-l') args.append('%d' % num_cores) print ' '.join(args)