mb.py 43.3 KB
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#!/usr/bin/env python
# Copyright 2016 the V8 project authors. All rights reserved.
# Copyright 2015 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.

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"""MB - the Meta-Build wrapper around GN.
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MB is a wrapper script for GN that can be used to generate build files
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for sets of canned configurations and analyze them.
"""

from __future__ import print_function

import argparse
import ast
import errno
import json
import os
import pipes
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import platform
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import pprint
import re
import shutil
import sys
import subprocess
import tempfile
import traceback
import urllib2

from collections import OrderedDict

CHROMIUM_SRC_DIR = os.path.dirname(os.path.dirname(os.path.dirname(
    os.path.abspath(__file__))))
sys.path = [os.path.join(CHROMIUM_SRC_DIR, 'build')] + sys.path

import gn_helpers


def main(args):
  mbw = MetaBuildWrapper()
  return mbw.Main(args)


class MetaBuildWrapper(object):
  def __init__(self):
    self.chromium_src_dir = CHROMIUM_SRC_DIR
    self.default_config = os.path.join(self.chromium_src_dir, 'infra', 'mb',
                                       'mb_config.pyl')
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    self.default_isolate_map = os.path.join(self.chromium_src_dir, 'infra',
                                            'mb', 'gn_isolate_map.pyl')
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    self.executable = sys.executable
    self.platform = sys.platform
    self.sep = os.sep
    self.args = argparse.Namespace()
    self.configs = {}
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    self.luci_tryservers = {}
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    self.masters = {}
    self.mixins = {}

  def Main(self, args):
    self.ParseArgs(args)
    try:
      ret = self.args.func()
      if ret:
        self.DumpInputFiles()
      return ret
    except KeyboardInterrupt:
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      self.Print('interrupted, exiting')
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      return 130
    except Exception:
      self.DumpInputFiles()
      s = traceback.format_exc()
      for l in s.splitlines():
        self.Print(l)
      return 1

  def ParseArgs(self, argv):
    def AddCommonOptions(subp):
      subp.add_argument('-b', '--builder',
                        help='builder name to look up config from')
      subp.add_argument('-m', '--master',
                        help='master name to look up config from')
      subp.add_argument('-c', '--config',
                        help='configuration to analyze')
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      subp.add_argument('--phase',
                        help='optional phase name (used when builders '
                             'do multiple compiles with different '
                             'arguments in a single build)')
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      subp.add_argument('-f', '--config-file', metavar='PATH',
                        default=self.default_config,
                        help='path to config file '
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                             '(default is %(default)s)')
      subp.add_argument('-i', '--isolate-map-file', metavar='PATH',
                        help='path to isolate map file '
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                             '(default is %(default)s)',
                        default=[],
                        action='append',
                        dest='isolate_map_files')
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      subp.add_argument('-g', '--goma-dir',
                        help='path to goma directory')
      subp.add_argument('--android-version-code',
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                        help='Sets GN arg android_default_version_code')
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      subp.add_argument('--android-version-name',
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                        help='Sets GN arg android_default_version_name')
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      subp.add_argument('-n', '--dryrun', action='store_true',
                        help='Do a dry run (i.e., do nothing, just print '
                             'the commands that will run)')
      subp.add_argument('-v', '--verbose', action='store_true',
                        help='verbose logging')

    parser = argparse.ArgumentParser(prog='mb')
    subps = parser.add_subparsers()

    subp = subps.add_parser('analyze',
                            help='analyze whether changes to a set of files '
                                 'will cause a set of binaries to be rebuilt.')
    AddCommonOptions(subp)
    subp.add_argument('path', nargs=1,
                      help='path build was generated into.')
    subp.add_argument('input_path', nargs=1,
                      help='path to a file containing the input arguments '
                           'as a JSON object.')
    subp.add_argument('output_path', nargs=1,
                      help='path to a file containing the output arguments '
                           'as a JSON object.')
    subp.set_defaults(func=self.CmdAnalyze)

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    subp = subps.add_parser('export',
                            help='print out the expanded configuration for'
                                 'each builder as a JSON object')
    subp.add_argument('-f', '--config-file', metavar='PATH',
                      default=self.default_config,
                      help='path to config file (default is %(default)s)')
    subp.add_argument('-g', '--goma-dir',
                      help='path to goma directory')
    subp.set_defaults(func=self.CmdExport)

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    subp = subps.add_parser('gen',
                            help='generate a new set of build files')
    AddCommonOptions(subp)
    subp.add_argument('--swarming-targets-file',
                      help='save runtime dependencies for targets listed '
                           'in file.')
    subp.add_argument('path', nargs=1,
                      help='path to generate build into')
    subp.set_defaults(func=self.CmdGen)

    subp = subps.add_parser('isolate',
                            help='generate the .isolate files for a given'
                                 'binary')
    AddCommonOptions(subp)
    subp.add_argument('path', nargs=1,
                      help='path build was generated into')
    subp.add_argument('target', nargs=1,
                      help='ninja target to generate the isolate for')
    subp.set_defaults(func=self.CmdIsolate)

    subp = subps.add_parser('lookup',
                            help='look up the command for a given config or '
                                 'builder')
    AddCommonOptions(subp)
    subp.set_defaults(func=self.CmdLookup)

    subp = subps.add_parser(
        'run',
        help='build and run the isolated version of a '
             'binary',
        formatter_class=argparse.RawDescriptionHelpFormatter)
    subp.description = (
        'Build, isolate, and run the given binary with the command line\n'
        'listed in the isolate. You may pass extra arguments after the\n'
        'target; use "--" if the extra arguments need to include switches.\n'
        '\n'
        'Examples:\n'
        '\n'
        '  % tools/mb/mb.py run -m chromium.linux -b "Linux Builder" \\\n'
        '    //out/Default content_browsertests\n'
        '\n'
        '  % tools/mb/mb.py run out/Default content_browsertests\n'
        '\n'
        '  % tools/mb/mb.py run out/Default content_browsertests -- \\\n'
        '    --test-launcher-retry-limit=0'
        '\n'
    )
    AddCommonOptions(subp)
    subp.add_argument('-j', '--jobs', dest='jobs', type=int,
                      help='Number of jobs to pass to ninja')
    subp.add_argument('--no-build', dest='build', default=True,
                      action='store_false',
                      help='Do not build, just isolate and run')
    subp.add_argument('path', nargs=1,
                      help=('path to generate build into (or use).'
                            ' This can be either a regular path or a '
                            'GN-style source-relative path like '
                            '//out/Default.'))
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    subp.add_argument('-s', '--swarmed', action='store_true',
                      help='Run under swarming with the default dimensions')
    subp.add_argument('-d', '--dimension', default=[], action='append', nargs=2,
                      dest='dimensions', metavar='FOO bar',
                      help='dimension to filter on')
    subp.add_argument('--no-default-dimensions', action='store_false',
                      dest='default_dimensions', default=True,
                      help='Do not automatically add dimensions to the task')
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    subp.add_argument('target', nargs=1,
                      help='ninja target to build and run')
    subp.add_argument('extra_args', nargs='*',
                      help=('extra args to pass to the isolate to run. Use '
                            '"--" as the first arg if you need to pass '
                            'switches'))
    subp.set_defaults(func=self.CmdRun)

    subp = subps.add_parser('validate',
                            help='validate the config file')
    subp.add_argument('-f', '--config-file', metavar='PATH',
                      default=self.default_config,
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                      help='path to config file (default is %(default)s)')
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    subp.set_defaults(func=self.CmdValidate)

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    subp = subps.add_parser('gerrit-buildbucket-config',
                            help='Print buildbucket.config for gerrit '
                            '(see MB user guide)')
    subp.add_argument('-f', '--config-file', metavar='PATH',
                      default=self.default_config,
                      help='path to config file (default is %(default)s)')
    subp.set_defaults(func=self.CmdBuildbucket)

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    subp = subps.add_parser('help',
                            help='Get help on a subcommand.')
    subp.add_argument(nargs='?', action='store', dest='subcommand',
                      help='The command to get help for.')
    subp.set_defaults(func=self.CmdHelp)

    self.args = parser.parse_args(argv)

  def DumpInputFiles(self):

    def DumpContentsOfFilePassedTo(arg_name, path):
      if path and self.Exists(path):
        self.Print("\n# To recreate the file passed to %s:" % arg_name)
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        self.Print("%% cat > %s <<EOF" % path)
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        contents = self.ReadFile(path)
        self.Print(contents)
        self.Print("EOF\n%\n")

    if getattr(self.args, 'input_path', None):
      DumpContentsOfFilePassedTo(
          'argv[0] (input_path)', self.args.input_path[0])
    if getattr(self.args, 'swarming_targets_file', None):
      DumpContentsOfFilePassedTo(
          '--swarming-targets-file', self.args.swarming_targets_file)

  def CmdAnalyze(self):
    vals = self.Lookup()
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    return self.RunGNAnalyze(vals)
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  def CmdExport(self):
    self.ReadConfigFile()
    obj = {}
    for master, builders in self.masters.items():
      obj[master] = {}
      for builder in builders:
        config = self.masters[master][builder]
        if not config:
          continue

        if isinstance(config, dict):
          args = {k: self.FlattenConfig(v)['gn_args']
                  for k, v in config.items()}
        elif config.startswith('//'):
          args = config
        else:
          args = self.FlattenConfig(config)['gn_args']
          if 'error' in args:
            continue

        obj[master][builder] = args

    # Dump object and trim trailing whitespace.
    s = '\n'.join(l.rstrip() for l in
                  json.dumps(obj, sort_keys=True, indent=2).splitlines())
    self.Print(s)
    return 0

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  def CmdGen(self):
    vals = self.Lookup()
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    return self.RunGNGen(vals)
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  def CmdHelp(self):
    if self.args.subcommand:
      self.ParseArgs([self.args.subcommand, '--help'])
    else:
      self.ParseArgs(['--help'])

  def CmdIsolate(self):
    vals = self.GetConfig()
    if not vals:
      return 1
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    return self.RunGNIsolate()
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  def CmdLookup(self):
    vals = self.Lookup()
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    cmd = self.GNCmd('gen', '_path_')
    gn_args = self.GNArgs(vals)
    self.Print('\nWriting """\\\n%s""" to _path_/args.gn.\n' % gn_args)
    env = None
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    self.PrintCmd(cmd, env)
    return 0

  def CmdRun(self):
    vals = self.GetConfig()
    if not vals:
      return 1

    build_dir = self.args.path[0]
    target = self.args.target[0]

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    if self.args.build:
      ret = self.Build(target)
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      if ret:
        return ret
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    ret = self.RunGNIsolate()
    if ret:
      return ret

    if self.args.swarmed:
      return self._RunUnderSwarming(build_dir, target)
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    else:
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      return self._RunLocallyIsolated(build_dir, target)

  def _RunUnderSwarming(self, build_dir, target):
    # TODO(dpranke): Look up the information for the target in
    # the //testing/buildbot.json file, if possible, so that we
    # can determine the isolate target, command line, and additional
    # swarming parameters, if possible.
    #
    # TODO(dpranke): Also, add support for sharding and merging results.
    dimensions = []
    for k, v in self._DefaultDimensions() + self.args.dimensions:
      dimensions += ['-d', k, v]
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    cmd = [
        self.executable,
        self.PathJoin('tools', 'swarming_client', 'isolate.py'),
        'archive',
        '-s',
        self.ToSrcRelPath('%s/%s.isolated' % (build_dir, target)),
        '-I', 'isolateserver.appspot.com',
      ]
    ret, out, _ = self.Run(cmd, force_verbose=False)
    if ret:
      return ret

    isolated_hash = out.splitlines()[0].split()[0]
    cmd = [
        self.executable,
        self.PathJoin('tools', 'swarming_client', 'swarming.py'),
          'run',
          '-s', isolated_hash,
          '-I', 'isolateserver.appspot.com',
          '-S', 'chromium-swarm.appspot.com',
      ] + dimensions
    if self.args.extra_args:
      cmd += ['--'] + self.args.extra_args
    ret, _, _ = self.Run(cmd, force_verbose=True, buffer_output=False)
    return ret

  def _RunLocallyIsolated(self, build_dir, target):
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    cmd = [
        self.executable,
        self.PathJoin('tools', 'swarming_client', 'isolate.py'),
        'run',
        '-s',
        self.ToSrcRelPath('%s/%s.isolated' % (build_dir, target)),
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      ]
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    if self.args.extra_args:
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      cmd += ['--'] + self.args.extra_args
    ret, _, _ = self.Run(cmd, force_verbose=True, buffer_output=False)
    return ret
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  def _DefaultDimensions(self):
    if not self.args.default_dimensions:
      return []

    # This code is naive and just picks reasonable defaults per platform.
    if self.platform == 'darwin':
      os_dim = ('os', 'Mac-10.12')
    elif self.platform.startswith('linux'):
      os_dim = ('os', 'Ubuntu-14.04')
    elif self.platform == 'win32':
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      os_dim = ('os', 'Windows-10')
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    else:
      raise MBErr('unrecognized platform string "%s"' % self.platform)
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    return [('pool', 'Chrome'),
            ('cpu', 'x86-64'),
            os_dim]
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  def CmdBuildbucket(self):
    self.ReadConfigFile()

    self.Print('# This file was generated using '
               '"tools/mb/mb.py gerrit-buildbucket-config".')

    for luci_tryserver in sorted(self.luci_tryservers):
      self.Print('[bucket "luci.%s"]' % luci_tryserver)
      for bot in sorted(self.luci_tryservers[luci_tryserver]):
        self.Print('\tbuilder = %s' % bot)

    for master in sorted(self.masters):
      if master.startswith('tryserver.'):
        self.Print('[bucket "master.%s"]' % master)
        for bot in sorted(self.masters[master]):
          self.Print('\tbuilder = %s' % bot)

    return 0

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  def CmdValidate(self, print_ok=True):
    errs = []

    # Read the file to make sure it parses.
    self.ReadConfigFile()

    # Build a list of all of the configs referenced by builders.
    all_configs = {}
    for master in self.masters:
      for config in self.masters[master].values():
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        if isinstance(config, dict):
          for c in config.values():
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            all_configs[c] = master
        else:
          all_configs[config] = master

    # Check that every referenced args file or config actually exists.
    for config, loc in all_configs.items():
      if config.startswith('//'):
        if not self.Exists(self.ToAbsPath(config)):
          errs.append('Unknown args file "%s" referenced from "%s".' %
                      (config, loc))
      elif not config in self.configs:
        errs.append('Unknown config "%s" referenced from "%s".' %
                    (config, loc))

    # Check that every actual config is actually referenced.
    for config in self.configs:
      if not config in all_configs:
        errs.append('Unused config "%s".' % config)

    # Figure out the whole list of mixins, and check that every mixin
    # listed by a config or another mixin actually exists.
    referenced_mixins = set()
    for config, mixins in self.configs.items():
      for mixin in mixins:
        if not mixin in self.mixins:
          errs.append('Unknown mixin "%s" referenced by config "%s".' %
                      (mixin, config))
        referenced_mixins.add(mixin)

    for mixin in self.mixins:
      for sub_mixin in self.mixins[mixin].get('mixins', []):
        if not sub_mixin in self.mixins:
          errs.append('Unknown mixin "%s" referenced by mixin "%s".' %
                      (sub_mixin, mixin))
        referenced_mixins.add(sub_mixin)

    # Check that every mixin defined is actually referenced somewhere.
    for mixin in self.mixins:
      if not mixin in referenced_mixins:
        errs.append('Unreferenced mixin "%s".' % mixin)

    if errs:
      raise MBErr(('mb config file %s has problems:' % self.args.config_file) +
                    '\n  ' + '\n  '.join(errs))

    if print_ok:
      self.Print('mb config file %s looks ok.' % self.args.config_file)
    return 0

  def GetConfig(self):
    build_dir = self.args.path[0]

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    vals = self.DefaultVals()
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    if self.args.builder or self.args.master or self.args.config:
      vals = self.Lookup()
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      # Re-run gn gen in order to ensure the config is consistent with the
      # build dir.
      self.RunGNGen(vals)
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      return vals

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    toolchain_path = self.PathJoin(self.ToAbsPath(build_dir),
                                   'toolchain.ninja')
    if not self.Exists(toolchain_path):
      self.Print('Must either specify a path to an existing GN build dir '
                 'or pass in a -m/-b pair or a -c flag to specify the '
                 'configuration')
      return {}
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    vals['gn_args'] = self.GNArgsFromDir(build_dir)
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    return vals

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  def GNArgsFromDir(self, build_dir):
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    args_contents = ""
    gn_args_path = self.PathJoin(self.ToAbsPath(build_dir), 'args.gn')
    if self.Exists(gn_args_path):
      args_contents = self.ReadFile(gn_args_path)
    gn_args = []
    for l in args_contents.splitlines():
      fields = l.split(' ')
      name = fields[0]
      val = ' '.join(fields[2:])
      gn_args.append('%s=%s' % (name, val))

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    return ' '.join(gn_args)
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  def Lookup(self):
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    vals = self.ReadIOSBotConfig()
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    if not vals:
      self.ReadConfigFile()
      config = self.ConfigFromArgs()
      if config.startswith('//'):
        if not self.Exists(self.ToAbsPath(config)):
          raise MBErr('args file "%s" not found' % config)
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        vals = self.DefaultVals()
        vals['args_file'] = config
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      else:
        if not config in self.configs:
          raise MBErr('Config "%s" not found in %s' %
                      (config, self.args.config_file))
        vals = self.FlattenConfig(config)
    return vals

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  def ReadIOSBotConfig(self):
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    if not self.args.master or not self.args.builder:
      return {}
    path = self.PathJoin(self.chromium_src_dir, 'ios', 'build', 'bots',
                         self.args.master, self.args.builder + '.json')
    if not self.Exists(path):
      return {}

    contents = json.loads(self.ReadFile(path))
    gn_args = ' '.join(contents.get('gn_args', []))

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    vals = self.DefaultVals()
    vals['gn_args'] = gn_args
    return vals
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  def ReadConfigFile(self):
    if not self.Exists(self.args.config_file):
      raise MBErr('config file not found at %s' % self.args.config_file)

    try:
      contents = ast.literal_eval(self.ReadFile(self.args.config_file))
    except SyntaxError as e:
      raise MBErr('Failed to parse config file "%s": %s' %
                 (self.args.config_file, e))

    self.configs = contents['configs']
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    self.luci_tryservers = contents.get('luci_tryservers', {})
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    self.masters = contents['masters']
    self.mixins = contents['mixins']

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  def ReadIsolateMap(self):
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    if not self.args.isolate_map_files:
      self.args.isolate_map_files = [self.default_isolate_map]

    for f in self.args.isolate_map_files:
      if not self.Exists(f):
        raise MBErr('isolate map file not found at %s' % f)
    isolate_maps = {}
    for isolate_map in self.args.isolate_map_files:
      try:
        isolate_map = ast.literal_eval(self.ReadFile(isolate_map))
        duplicates = set(isolate_map).intersection(isolate_maps)
        if duplicates:
          raise MBErr(
              'Duplicate targets in isolate map files: %s.' %
              ', '.join(duplicates))
        isolate_maps.update(isolate_map)
      except SyntaxError as e:
        raise MBErr(
            'Failed to parse isolate map file "%s": %s' % (isolate_map, e))
    return isolate_maps
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  def ConfigFromArgs(self):
    if self.args.config:
      if self.args.master or self.args.builder:
        raise MBErr('Can not specific both -c/--config and -m/--master or '
                    '-b/--builder')

      return self.args.config

    if not self.args.master or not self.args.builder:
      raise MBErr('Must specify either -c/--config or '
                  '(-m/--master and -b/--builder)')

    if not self.args.master in self.masters:
      raise MBErr('Master name "%s" not found in "%s"' %
                  (self.args.master, self.args.config_file))

    if not self.args.builder in self.masters[self.args.master]:
      raise MBErr('Builder name "%s"  not found under masters[%s] in "%s"' %
                  (self.args.builder, self.args.master, self.args.config_file))

    config = self.masters[self.args.master][self.args.builder]
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    if isinstance(config, dict):
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      if self.args.phase is None:
        raise MBErr('Must specify a build --phase for %s on %s' %
                    (self.args.builder, self.args.master))
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      phase = str(self.args.phase)
      if phase not in config:
        raise MBErr('Phase %s doesn\'t exist for %s on %s' %
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                    (phase, self.args.builder, self.args.master))
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      return config[phase]
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    if self.args.phase is not None:
      raise MBErr('Must not specify a build --phase for %s on %s' %
                  (self.args.builder, self.args.master))
    return config

  def FlattenConfig(self, config):
    mixins = self.configs[config]
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    vals = self.DefaultVals()

    visited = []
    self.FlattenMixins(mixins, vals, visited)
    return vals

  def DefaultVals(self):
    return {
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      'args_file': '',
      'cros_passthrough': False,
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      'gn_args': '',
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    }

  def FlattenMixins(self, mixins, vals, visited):
    for m in mixins:
      if m not in self.mixins:
        raise MBErr('Unknown mixin "%s"' % m)

      visited.append(m)

      mixin_vals = self.mixins[m]

      if 'cros_passthrough' in mixin_vals:
        vals['cros_passthrough'] = mixin_vals['cros_passthrough']
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      if 'args_file' in mixin_vals:
        if vals['args_file']:
            raise MBErr('args_file specified multiple times in mixins '
                        'for %s on %s' % (self.args.builder, self.args.master))
        vals['args_file'] = mixin_vals['args_file']
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      if 'gn_args' in mixin_vals:
        if vals['gn_args']:
          vals['gn_args'] += ' ' + mixin_vals['gn_args']
        else:
          vals['gn_args'] = mixin_vals['gn_args']

      if 'mixins' in mixin_vals:
        self.FlattenMixins(mixin_vals['mixins'], vals, visited)
    return vals

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  def RunGNGen(self, vals, compute_grit_inputs_for_analyze=False):
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    build_dir = self.args.path[0]

    cmd = self.GNCmd('gen', build_dir, '--check')
    gn_args = self.GNArgs(vals)
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    if compute_grit_inputs_for_analyze:
      gn_args += ' compute_grit_inputs_for_analyze=true'
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    # Since GN hasn't run yet, the build directory may not even exist.
    self.MaybeMakeDirectory(self.ToAbsPath(build_dir))

    gn_args_path = self.ToAbsPath(build_dir, 'args.gn')
    self.WriteFile(gn_args_path, gn_args, force_verbose=True)

    swarming_targets = []
    if getattr(self.args, 'swarming_targets_file', None):
      # We need GN to generate the list of runtime dependencies for
      # the compile targets listed (one per line) in the file so
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      # we can run them via swarming. We use gn_isolate_map.pyl to convert
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      # the compile targets to the matching GN labels.
      path = self.args.swarming_targets_file
      if not self.Exists(path):
        self.WriteFailureAndRaise('"%s" does not exist' % path,
                                  output_path=None)
      contents = self.ReadFile(path)
      swarming_targets = set(contents.splitlines())

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      isolate_map = self.ReadIsolateMap()
      err, labels = self.MapTargetsToLabels(isolate_map, swarming_targets)
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      if err:
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          raise MBErr(err)
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      gn_runtime_deps_path = self.ToAbsPath(build_dir, 'runtime_deps')
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      self.WriteFile(gn_runtime_deps_path, '\n'.join(labels) + '\n')
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      cmd.append('--runtime-deps-list-file=%s' % gn_runtime_deps_path)

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    ret, _, _ = self.Run(cmd)
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    if ret:
        # If `gn gen` failed, we should exit early rather than trying to
        # generate isolates. Run() will have already logged any error output.
        self.Print('GN gen failed: %d' % ret)
        return ret

    android = 'target_os="android"' in vals['gn_args']
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    fuchsia = 'target_os="fuchsia"' in vals['gn_args']
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    for target in swarming_targets:
      if android:
        # Android targets may be either android_apk or executable. The former
        # will result in runtime_deps associated with the stamp file, while the
        # latter will result in runtime_deps associated with the executable.
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        label = isolate_map[target]['label']
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        runtime_deps_targets = [
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            target + '.runtime_deps',
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            'obj/%s.stamp.runtime_deps' % label.replace(':', '/')]
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      elif fuchsia:
        # Only emit a runtime deps file for the group() target on Fuchsia.
        label = isolate_map[target]['label']
        runtime_deps_targets = [
          'obj/%s.stamp.runtime_deps' % label.replace(':', '/')]
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      elif (isolate_map[target]['type'] == 'script' or
            isolate_map[target].get('label_type') == 'group'):
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        # For script targets, the build target is usually a group,
        # for which gn generates the runtime_deps next to the stamp file
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        # for the label, which lives under the obj/ directory, but it may
        # also be an executable.
        label = isolate_map[target]['label']
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        runtime_deps_targets = [
            'obj/%s.stamp.runtime_deps' % label.replace(':', '/')]
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        if self.platform == 'win32':
          runtime_deps_targets += [ target + '.exe.runtime_deps' ]
        else:
          runtime_deps_targets += [ target + '.runtime_deps' ]
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      elif self.platform == 'win32':
        runtime_deps_targets = [target + '.exe.runtime_deps']
      else:
        runtime_deps_targets = [target + '.runtime_deps']

      for r in runtime_deps_targets:
        runtime_deps_path = self.ToAbsPath(build_dir, r)
        if self.Exists(runtime_deps_path):
          break
      else:
        raise MBErr('did not generate any of %s' %
                    ', '.join(runtime_deps_targets))

      runtime_deps = self.ReadFile(runtime_deps_path).splitlines()

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      self.WriteIsolateFiles(build_dir, target, runtime_deps)
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    return 0

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  def RunGNIsolate(self):
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    target = self.args.target[0]
    isolate_map = self.ReadIsolateMap()
    err, labels = self.MapTargetsToLabels(isolate_map, [target])
    if err:
      raise MBErr(err)
    label = labels[0]
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    build_dir = self.args.path[0]

    cmd = self.GNCmd('desc', build_dir, label, 'runtime_deps')
    ret, out, _ = self.Call(cmd)
    if ret:
      if out:
        self.Print(out)
      return ret

    runtime_deps = out.splitlines()

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    self.WriteIsolateFiles(build_dir, target, runtime_deps)
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    ret, _, _ = self.Run([
        self.executable,
        self.PathJoin('tools', 'swarming_client', 'isolate.py'),
        'check',
        '-i',
        self.ToSrcRelPath('%s/%s.isolate' % (build_dir, target)),
        '-s',
        self.ToSrcRelPath('%s/%s.isolated' % (build_dir, target))],
        buffer_output=False)

    return ret

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  def WriteIsolateFiles(self, build_dir, target, runtime_deps):
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    isolate_path = self.ToAbsPath(build_dir, target + '.isolate')
    self.WriteFile(isolate_path,
      pprint.pformat({
        'variables': {
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          'files': sorted(runtime_deps),
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        }
      }) + '\n')

    self.WriteJSON(
      {
        'args': [
          '--isolated',
          self.ToSrcRelPath('%s/%s.isolated' % (build_dir, target)),
          '--isolate',
          self.ToSrcRelPath('%s/%s.isolate' % (build_dir, target)),
        ],
        'dir': self.chromium_src_dir,
        'version': 1,
      },
      isolate_path + 'd.gen.json',
    )

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  def MapTargetsToLabels(self, isolate_map, targets):
    labels = []
    err = ''

    for target in targets:
      if target == 'all':
        labels.append(target)
      elif target.startswith('//'):
        labels.append(target)
      else:
        if target in isolate_map:
          if isolate_map[target]['type'] == 'unknown':
            err += ('test target "%s" type is unknown\n' % target)
          else:
            labels.append(isolate_map[target]['label'])
        else:
          err += ('target "%s" not found in '
                  '//infra/mb/gn_isolate_map.pyl\n' % target)

    return err, labels

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  def GNCmd(self, subcommand, path, *args):
    if self.platform == 'linux2':
      subdir, exe = 'linux64', 'gn'
    elif self.platform == 'darwin':
      subdir, exe = 'mac', 'gn'
    else:
      subdir, exe = 'win', 'gn.exe'

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    arch = platform.machine()
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    if (arch.startswith('s390') or arch.startswith('ppc') or
        self.platform.startswith('aix')):
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      # use gn in PATH
      gn_path = 'gn'
    else:
      gn_path = self.PathJoin(self.chromium_src_dir, 'buildtools', subdir, exe)
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    return [gn_path, subcommand, path] + list(args)

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  def GNArgs(self, vals):
    if vals['cros_passthrough']:
      if not 'GN_ARGS' in os.environ:
        raise MBErr('MB is expecting GN_ARGS to be in the environment')
      gn_args = os.environ['GN_ARGS']
      if not re.search('target_os.*=.*"chromeos"', gn_args):
        raise MBErr('GN_ARGS is missing target_os = "chromeos": (GN_ARGS=%s)' %
                    gn_args)
    else:
      gn_args = vals['gn_args']

    if self.args.goma_dir:
      gn_args += ' goma_dir="%s"' % self.args.goma_dir

    android_version_code = self.args.android_version_code
    if android_version_code:
      gn_args += ' android_default_version_code="%s"' % android_version_code

    android_version_name = self.args.android_version_name
    if android_version_name:
      gn_args += ' android_default_version_name="%s"' % android_version_name

    # Canonicalize the arg string into a sorted, newline-separated list
    # of key-value pairs, and de-dup the keys if need be so that only
    # the last instance of each arg is listed.
    gn_args = gn_helpers.ToGNString(gn_helpers.FromGNArgs(gn_args))

    args_file = vals.get('args_file', None)
    if args_file:
      gn_args = ('import("%s")\n' % vals['args_file']) + gn_args
    return gn_args

  def ToAbsPath(self, build_path, *comps):
    return self.PathJoin(self.chromium_src_dir,
                         self.ToSrcRelPath(build_path),
                         *comps)

  def ToSrcRelPath(self, path):
    """Returns a relative path from the top of the repo."""
    if path.startswith('//'):
      return path[2:].replace('/', self.sep)
    return self.RelPath(path, self.chromium_src_dir)

  def RunGNAnalyze(self, vals):
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    # Analyze runs before 'gn gen' now, so we need to run gn gen
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    # in order to ensure that we have a build directory.
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    ret = self.RunGNGen(vals, compute_grit_inputs_for_analyze=True)
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    if ret:
      return ret

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    build_path = self.args.path[0]
    input_path = self.args.input_path[0]
    gn_input_path = input_path + '.gn'
    output_path = self.args.output_path[0]
    gn_output_path = output_path + '.gn'

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    inp = self.ReadInputJSON(['files', 'test_targets',
                              'additional_compile_targets'])
    if self.args.verbose:
      self.Print()
      self.Print('analyze input:')
      self.PrintJSON(inp)
      self.Print()


    # This shouldn't normally happen, but could due to unusual race conditions,
    # like a try job that gets scheduled before a patch lands but runs after
    # the patch has landed.
    if not inp['files']:
      self.Print('Warning: No files modified in patch, bailing out early.')
      self.WriteJSON({
            'status': 'No dependency',
            'compile_targets': [],
            'test_targets': [],
          }, output_path)
      return 0

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    gn_inp = {}
    gn_inp['files'] = ['//' + f for f in inp['files'] if not f.startswith('//')]

    isolate_map = self.ReadIsolateMap()
    err, gn_inp['additional_compile_targets'] = self.MapTargetsToLabels(
        isolate_map, inp['additional_compile_targets'])
    if err:
      raise MBErr(err)

    err, gn_inp['test_targets'] = self.MapTargetsToLabels(
        isolate_map, inp['test_targets'])
    if err:
      raise MBErr(err)
    labels_to_targets = {}
    for i, label in enumerate(gn_inp['test_targets']):
      labels_to_targets[label] = inp['test_targets'][i]
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    try:
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      self.WriteJSON(gn_inp, gn_input_path)
      cmd = self.GNCmd('analyze', build_path, gn_input_path, gn_output_path)
      ret, _, _ = self.Run(cmd, force_verbose=True)
      if ret:
        return ret
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      gn_outp_str = self.ReadFile(gn_output_path)
      try:
        gn_outp = json.loads(gn_outp_str)
      except Exception as e:
        self.Print("Failed to parse the JSON string GN returned: %s\n%s"
                   % (repr(gn_outp_str), str(e)))
        raise

      outp = {}
      if 'status' in gn_outp:
        outp['status'] = gn_outp['status']
      if 'error' in gn_outp:
        outp['error'] = gn_outp['error']
      if 'invalid_targets' in gn_outp:
        outp['invalid_targets'] = gn_outp['invalid_targets']
      if 'compile_targets' in gn_outp:
        all_input_compile_targets = sorted(
            set(inp['test_targets'] + inp['additional_compile_targets']))

        # If we're building 'all', we can throw away the rest of the targets
        # since they're redundant.
        if 'all' in gn_outp['compile_targets']:
          outp['compile_targets'] = ['all']
        else:
          outp['compile_targets'] = gn_outp['compile_targets']

        # crbug.com/736215: When GN returns targets back, for targets in
        # the default toolchain, GN will have generated a phony ninja
        # target matching the label, and so we can safely (and easily)
        # transform any GN label into the matching ninja target. For
        # targets in other toolchains, though, GN doesn't generate the
        # phony targets, and we don't know how to turn the labels into
        # compile targets. In this case, we also conservatively give up
        # and build everything. Probably the right thing to do here is
        # to have GN return the compile targets directly.
        if any("(" in target for target in outp['compile_targets']):
          self.Print('WARNING: targets with non-default toolchains were '
                     'found, building everything instead.')
          outp['compile_targets'] = all_input_compile_targets
        else:
          outp['compile_targets'] = [
              label.replace('//', '') for label in outp['compile_targets']]

        # Windows has a maximum command line length of 8k; even Linux
        # maxes out at 128k; if analyze returns a *really long* list of
        # targets, we just give up and conservatively build everything instead.
        # Probably the right thing here is for ninja to support response
        # files as input on the command line
        # (see https://github.com/ninja-build/ninja/issues/1355).
        if len(' '.join(outp['compile_targets'])) > 7*1024:
          self.Print('WARNING: Too many compile targets were affected.')
          self.Print('WARNING: Building everything instead to avoid '
                     'command-line length issues.')
          outp['compile_targets'] = all_input_compile_targets


      if 'test_targets' in gn_outp:
        outp['test_targets'] = [
          labels_to_targets[label] for label in gn_outp['test_targets']]

      if self.args.verbose:
        self.Print()
        self.Print('analyze output:')
        self.PrintJSON(outp)
        self.Print()

      self.WriteJSON(outp, output_path)
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    finally:
      if self.Exists(gn_input_path):
        self.RemoveFile(gn_input_path)
      if self.Exists(gn_output_path):
        self.RemoveFile(gn_output_path)
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    return 0

  def ReadInputJSON(self, required_keys):
    path = self.args.input_path[0]
    output_path = self.args.output_path[0]
    if not self.Exists(path):
      self.WriteFailureAndRaise('"%s" does not exist' % path, output_path)

    try:
      inp = json.loads(self.ReadFile(path))
    except Exception as e:
      self.WriteFailureAndRaise('Failed to read JSON input from "%s": %s' %
                                (path, e), output_path)

    for k in required_keys:
      if not k in inp:
        self.WriteFailureAndRaise('input file is missing a "%s" key' % k,
                                  output_path)

    return inp

  def WriteFailureAndRaise(self, msg, output_path):
    if output_path:
      self.WriteJSON({'error': msg}, output_path, force_verbose=True)
    raise MBErr(msg)

  def WriteJSON(self, obj, path, force_verbose=False):
    try:
      self.WriteFile(path, json.dumps(obj, indent=2, sort_keys=True) + '\n',
                     force_verbose=force_verbose)
    except Exception as e:
      raise MBErr('Error %s writing to the output path "%s"' %
                 (e, path))

  def CheckCompile(self, master, builder):
    url_template = self.args.url_template + '/{builder}/builds/_all?as_text=1'
    url = urllib2.quote(url_template.format(master=master, builder=builder),
                        safe=':/()?=')
    try:
      builds = json.loads(self.Fetch(url))
    except Exception as e:
      return str(e)
    successes = sorted(
        [int(x) for x in builds.keys() if "text" in builds[x] and
          cmp(builds[x]["text"][:2], ["build", "successful"]) == 0],
        reverse=True)
    if not successes:
      return "no successful builds"
    build = builds[str(successes[0])]
    step_names = set([step["name"] for step in build["steps"]])
    compile_indicators = set(["compile", "compile (with patch)", "analyze"])
    if compile_indicators & step_names:
      return "compiles"
    return "does not compile"

  def PrintCmd(self, cmd, env):
    if self.platform == 'win32':
      env_prefix = 'set '
      env_quoter = QuoteForSet
      shell_quoter = QuoteForCmd
    else:
      env_prefix = ''
      env_quoter = pipes.quote
      shell_quoter = pipes.quote

    def print_env(var):
      if env and var in env:
        self.Print('%s%s=%s' % (env_prefix, var, env_quoter(env[var])))

    print_env('LLVM_FORCE_HEAD_REVISION')

    if cmd[0] == self.executable:
      cmd = ['python'] + cmd[1:]
    self.Print(*[shell_quoter(arg) for arg in cmd])

  def PrintJSON(self, obj):
    self.Print(json.dumps(obj, indent=2, sort_keys=True))

  def Build(self, target):
    build_dir = self.ToSrcRelPath(self.args.path[0])
    ninja_cmd = ['ninja', '-C', build_dir]
    if self.args.jobs:
      ninja_cmd.extend(['-j', '%d' % self.args.jobs])
    ninja_cmd.append(target)
    ret, _, _ = self.Run(ninja_cmd, force_verbose=False, buffer_output=False)
    return ret

  def Run(self, cmd, env=None, force_verbose=True, buffer_output=True):
    # This function largely exists so it can be overridden for testing.
    if self.args.dryrun or self.args.verbose or force_verbose:
      self.PrintCmd(cmd, env)
    if self.args.dryrun:
      return 0, '', ''

    ret, out, err = self.Call(cmd, env=env, buffer_output=buffer_output)
    if self.args.verbose or force_verbose:
      if ret:
        self.Print('  -> returned %d' % ret)
      if out:
        self.Print(out, end='')
      if err:
        self.Print(err, end='', file=sys.stderr)
    return ret, out, err

  def Call(self, cmd, env=None, buffer_output=True):
    if buffer_output:
      p = subprocess.Popen(cmd, shell=False, cwd=self.chromium_src_dir,
                           stdout=subprocess.PIPE, stderr=subprocess.PIPE,
                           env=env)
      out, err = p.communicate()
    else:
      p = subprocess.Popen(cmd, shell=False, cwd=self.chromium_src_dir,
                           env=env)
      p.wait()
      out = err = ''
    return p.returncode, out, err

  def ExpandUser(self, path):
    # This function largely exists so it can be overridden for testing.
    return os.path.expanduser(path)

  def Exists(self, path):
    # This function largely exists so it can be overridden for testing.
    return os.path.exists(path)

  def Fetch(self, url):
    # This function largely exists so it can be overridden for testing.
    f = urllib2.urlopen(url)
    contents = f.read()
    f.close()
    return contents

  def MaybeMakeDirectory(self, path):
    try:
      os.makedirs(path)
    except OSError, e:
      if e.errno != errno.EEXIST:
        raise

  def PathJoin(self, *comps):
    # This function largely exists so it can be overriden for testing.
    return os.path.join(*comps)

  def Print(self, *args, **kwargs):
    # This function largely exists so it can be overridden for testing.
    print(*args, **kwargs)
    if kwargs.get('stream', sys.stdout) == sys.stdout:
      sys.stdout.flush()

  def ReadFile(self, path):
    # This function largely exists so it can be overriden for testing.
    with open(path) as fp:
      return fp.read()

  def RelPath(self, path, start='.'):
    # This function largely exists so it can be overriden for testing.
    return os.path.relpath(path, start)

  def RemoveFile(self, path):
    # This function largely exists so it can be overriden for testing.
    os.remove(path)

  def RemoveDirectory(self, abs_path):
    if self.platform == 'win32':
      # In other places in chromium, we often have to retry this command
      # because we're worried about other processes still holding on to
      # file handles, but when MB is invoked, it will be early enough in the
      # build that their should be no other processes to interfere. We
      # can change this if need be.
      self.Run(['cmd.exe', '/c', 'rmdir', '/q', '/s', abs_path])
    else:
      shutil.rmtree(abs_path, ignore_errors=True)

  def TempFile(self, mode='w'):
    # This function largely exists so it can be overriden for testing.
    return tempfile.NamedTemporaryFile(mode=mode, delete=False)

  def WriteFile(self, path, contents, force_verbose=False):
    # This function largely exists so it can be overriden for testing.
    if self.args.dryrun or self.args.verbose or force_verbose:
      self.Print('\nWriting """\\\n%s""" to %s.\n' % (contents, path))
    with open(path, 'w') as fp:
      return fp.write(contents)


class MBErr(Exception):
  pass


# See http://goo.gl/l5NPDW and http://goo.gl/4Diozm for the painful
# details of this next section, which handles escaping command lines
# so that they can be copied and pasted into a cmd window.
UNSAFE_FOR_SET = set('^<>&|')
UNSAFE_FOR_CMD = UNSAFE_FOR_SET.union(set('()%'))
ALL_META_CHARS = UNSAFE_FOR_CMD.union(set('"'))


def QuoteForSet(arg):
  if any(a in UNSAFE_FOR_SET for a in arg):
    arg = ''.join('^' + a if a in UNSAFE_FOR_SET else a for a in arg)
  return arg


def QuoteForCmd(arg):
  # First, escape the arg so that CommandLineToArgvW will parse it properly.
  if arg == '' or ' ' in arg or '"' in arg:
    quote_re = re.compile(r'(\\*)"')
    arg = '"%s"' % (quote_re.sub(lambda mo: 2 * mo.group(1) + '\\"', arg))

  # Then check to see if the arg contains any metacharacters other than
  # double quotes; if it does, quote everything (including the double
  # quotes) for safety.
  if any(a in UNSAFE_FOR_CMD for a in arg):
    arg = ''.join('^' + a if a in ALL_META_CHARS else a for a in arg)
  return arg


if __name__ == '__main__':
  sys.exit(main(sys.argv[1:]))