blob: 2886fa8f8143bc32e25c03cf1dbf791d4c847ad4 [file] [log] [blame]
# Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
# for details. All rights reserved. Use of this source code is governed by a
# BSD-style license that can be found in the LICENSE file.
# This file contains a set of utilities functions used by other Python-based
# scripts.
from __future__ import print_function
import contextlib
import datetime
from functools import total_ordering
import glob
import importlib.util
import importlib.machinery
import json
import os
import platform
import re
import shutil
import subprocess
import sys
import tarfile
import tempfile
import uuid
try:
# Not available on Windows.
import resource
except:
pass
SEMANTIC_VERSION_PATTERN = r'^(?P<major>0|[1-9]\d*)\.(?P<minor>0|[1-9]\d*)\.(?P<patch>0|[1-9]\d*)(?:-(?P<prerelease>(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*)(?:\.(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*))*))?(?:\+(?P<buildmetadata>[0-9a-zA-Z-]+(?:\.[0-9a-zA-Z-]+)*))?$'
# To eliminate clashing with older archived builds on bleeding edge we add
# a base number bigger the largest svn revision (this also gives us an easy
# way of seeing if an archive comes from git based or svn based commits).
GIT_NUMBER_BASE = 100000
# Mapping table between build mode and build configuration.
BUILD_MODES = {
'debug': 'Debug',
'release': 'Release',
'product': 'Product',
}
# Mapping table between build mode and build configuration.
BUILD_SANITIZERS = {
None: '',
'none': '',
'asan': 'ASAN',
'lsan': 'LSAN',
'msan': 'MSAN',
'tsan': 'TSAN',
'ubsan': 'UBSAN',
}
# Mapping table between OS and build output location.
BUILD_ROOT = {
'win32': 'out',
'linux': 'out',
'freebsd': 'out',
'macos': 'xcodebuild',
}
# Note: gn expects these to be lower case.
ARCH_FAMILY = {
'ia32': 'ia32',
'x64': 'ia32',
'arm': 'arm',
'arm64': 'arm',
'arm_x64': 'arm',
'arm_arm64': 'arm',
'simarm': 'ia32',
'simarm64': 'ia32',
'simarm_x64': 'ia32',
'simarm_arm64': 'arm',
'x64c': 'ia32',
'arm64c': 'arm',
'simarm64c': 'ia32',
'simriscv32': 'ia32',
'simriscv64': 'ia32',
'simx64': 'arm',
'simx64c': 'arm',
'riscv32': 'riscv',
'riscv64': 'riscv',
}
BASE_DIR = os.path.abspath(os.path.join(os.curdir, '..'))
DART_DIR = os.path.abspath(os.path.join(__file__, '..', '..'))
VERSION_FILE = os.path.join(DART_DIR, 'tools', 'VERSION')
def GetArchFamily(arch):
return ARCH_FAMILY[arch]
def GetBuildDir(host_os):
return BUILD_ROOT[host_os]
def GetBuildMode(mode):
return BUILD_MODES[mode]
def GetBuildSanitizer(sanitizer):
return BUILD_SANITIZERS[sanitizer]
def GetBaseDir():
return BASE_DIR
def load_source(modname, filename):
loader = importlib.machinery.SourceFileLoader(modname, filename)
spec = importlib.util.spec_from_file_location(modname,
filename,
loader=loader)
module = importlib.util.module_from_spec(spec)
# The module is always executed and not cached in sys.modules.
# Uncomment the following line to cache the module.
# sys.modules[module.__name__] = module
loader.exec_module(module)
return module
def GetBotUtils(repo_path=DART_DIR):
'''Dynamically load the tools/bots/bot_utils.py python module.'''
return load_source('bot_utils',
os.path.join(repo_path, 'tools', 'bots', 'bot_utils.py'))
def GetMinidumpUtils(repo_path=DART_DIR):
'''Dynamically load the tools/minidump.py python module.'''
return load_source('minidump',
os.path.join(repo_path, 'tools', 'minidump.py'))
@total_ordering
class Version(object):
def __init__(self,
channel=None,
major=None,
minor=None,
patch=None,
prerelease=None,
prerelease_patch=None,
version=None):
self.channel = channel
self.major = major
self.minor = minor
self.patch = patch
self.prerelease = prerelease
self.prerelease_patch = prerelease_patch
if version:
self.set_version(version)
def set_version(self, version):
match = re.match(SEMANTIC_VERSION_PATTERN, version)
assert match, '%s must be a valid version' % version
self.channel = 'stable'
self.major = match['major']
self.minor = match['minor']
self.patch = match['patch']
self.prerelease = '0'
self.prerelease_patch = '0'
if match['prerelease']:
subversions = match['prerelease'].split('.')
self.prerelease = subversions[0]
self.prerelease_patch = subversions[1]
self.channel = subversions[2]
def __str__(self):
result = '%s.%s.%s' % (self.major, self.minor, self.patch)
if self.channel != 'stable':
result += '-%s.%s.%s' % (self.prerelease, self.prerelease_patch,
self.channel)
return result
def __eq__(self, other):
return self.channel == other.channel and \
self.major == other.major and \
self.minor == other.minor and \
self.patch == other.patch and \
self.prerelease == other.prerelease and \
self.prerelease_patch == other.prerelease_patch
def __lt__(self, other):
if int(self.major) < int(other.major):
return True
if int(self.major) > int(other.major):
return False
if int(self.minor) < int(other.minor):
return True
if int(self.minor) > int(other.minor):
return False
if int(self.patch) < int(other.patch):
return True
if int(self.patch) > int(other.patch):
return False
# The stable channel is ahead of the other channels on the same triplet.
if self.channel != 'stable' and other.channel == 'stable':
return True
if self.channel == 'stable' and other.channel != 'stable':
return False
# The main channel is ahead of the other channels on the same triplet.
if self.channel != 'main' and other.channel == 'main':
return True
if self.channel == 'main' and other.channel != 'main':
return False
# The be channel existed before it was renamed to main.
if self.channel != 'be' and other.channel == 'be':
return True
if self.channel == 'be' and other.channel != 'be':
return False
if int(self.prerelease) < int(other.prerelease):
return True
if int(self.prerelease) > int(other.prerelease):
return False
if int(self.prerelease_patch) < int(other.prerelease_patch):
return True
if int(self.prerelease_patch) > int(other.prerelease_patch):
return False
return False
# Try to guess the host operating system.
def GuessOS():
os_id = platform.system()
if os_id == 'Linux':
return 'linux'
elif os_id == 'Darwin':
return 'macos'
elif os_id == 'Windows' or os_id == 'Microsoft':
# On Windows Vista platform.system() can return 'Microsoft' with some
# versions of Python, see http://bugs.python.org/issue1082 for details.
return 'win32'
elif os_id == 'FreeBSD':
return 'freebsd'
elif os_id == 'OpenBSD':
return 'openbsd'
elif os_id == 'SunOS':
return 'solaris'
return None
# Runs true if the currently executing python interpreter is running under
# Rosetta. I.e., python3 is an x64 executable and we're on an arm64 Mac.
def IsRosetta():
if platform.system() == 'Darwin':
p = subprocess.Popen(['sysctl', '-in', 'sysctl.proc_translated'],
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
output, _ = p.communicate()
return output.decode('utf-8').strip() == '1'
return False
# Returns the architectures that can run on the current machine.
def HostArchitectures():
m = platform.machine()
if platform.system() == 'Darwin':
if m == 'arm64' or IsRosetta():
# ARM64 Macs also support X64.
return ['arm64', 'x64']
if m == 'x86_64':
# X64 Macs no longer support IA32.
return ['x64']
# Icky use of CIPD_ARCHITECTURE should be effectively dead whenever the
# Python on bots becomes native ARM64.
if ((platform.system() == 'Windows') and
(os.environ.get("CIPD_ARCHITECTURE") == "arm64")):
# ARM64 Windows also can emulate X64.
return ['arm64', 'x64']
if m in ['aarch64', 'arm64', 'arm64e', 'ARM64']:
return ['arm64']
if m in ['armv7l', 'armv8l']:
return ['arm']
if m in ['i386', 'i686', 'ia32', 'x86']:
return ['x86', 'ia32']
if m in ['x64', 'x86-64', 'x86_64', 'amd64', 'AMD64']:
return ['x64', 'x86', 'ia32']
if m in ['riscv64']:
return ['riscv64']
raise Exception('Failed to determine host architectures for %s %s',
platform.machine(), platform.system())
# Try to guess the host architecture.
def GuessArchitecture():
return HostArchitectures()[0]
# Try to guess the number of cpus on this machine.
def GuessCpus():
if os.getenv('DART_NUMBER_OF_CORES') is not None:
return int(os.getenv('DART_NUMBER_OF_CORES'))
if os.path.exists('/proc/cpuinfo'):
return int(
subprocess.check_output(
'grep -E \'^processor\' /proc/cpuinfo | wc -l', shell=True))
if os.path.exists('/usr/bin/hostinfo'):
return int(
subprocess.check_output(
'/usr/bin/hostinfo |'
' grep "processors are logically available." |'
' awk "{ print \\$1 }"',
shell=True))
win_cpu_count = os.getenv("NUMBER_OF_PROCESSORS")
if win_cpu_count:
return int(win_cpu_count)
return 2
# Returns true if we're running under Windows.
def IsWindows():
return GuessOS() == 'win32'
def IsCrossBuild(target_os, arch):
if (target_os not in [None, 'host']) and (target_os != GuessOS()):
return True
if arch.startswith('sim'):
return False
if arch.endswith('c'):
# Strip 'compressed' suffix.
arch = arch[:-1]
if arch in HostArchitectures():
return False
return True
def GetBuildConf(mode, arch, conf_os=None, sanitizer=None):
if conf_os is not None and conf_os != GuessOS() and conf_os != 'host':
os_fragment = conf_os.title()
if (conf_os == 'ios_simulator'):
os_fragment = 'IosSim'
return '{}{}{}'.format(GetBuildMode(mode), os_fragment, arch.upper())
# Ask for a cross build if the host and target architectures don't match.
cross_build = ''
if IsCrossBuild(conf_os, arch):
cross_build = 'X'
return '{}{}{}{}'.format(GetBuildMode(mode), GetBuildSanitizer(sanitizer),
cross_build, arch.upper())
def GetBuildRoot(host_os, mode=None, arch=None, target_os=None, sanitizer=None):
build_root = GetBuildDir(host_os)
if mode:
build_root = os.path.join(
build_root, GetBuildConf(mode, arch, target_os, sanitizer))
return build_root
def GetVersion(no_git_hash=False, version_file=None, git_revision_file=None):
version = ReadVersionFile(version_file)
if not version:
return None
suffix = ''
if version.channel in ['main', 'be']:
suffix = '-edge' if no_git_hash else '-edge.{}'.format(
GetGitRevision(git_revision_file))
elif version.channel in ('beta', 'dev'):
suffix = '-{}.{}.{}'.format(version.prerelease,
version.prerelease_patch, version.channel)
else:
assert version.channel == 'stable'
return '{}.{}.{}{}'.format(version.major, version.minor, version.patch,
suffix)
def GetChannel(version_file=None):
version = ReadVersionFile(version_file)
return version.channel
def ReadVersionFile(version_file=None):
def match_against(pattern, file_content):
match = re.search(pattern, file_content, flags=re.MULTILINE)
if match:
return match.group(1)
return None
if version_file == None:
version_file = VERSION_FILE
content = None
try:
with open(version_file) as fd:
content = fd.read()
except:
print('Warning: Could not read VERSION file ({})'.format(version_file))
return None
channel = match_against('^CHANNEL ([A-Za-z0-9]+)$', content)
major = match_against('^MAJOR (\\d+)$', content)
minor = match_against('^MINOR (\\d+)$', content)
patch = match_against('^PATCH (\\d+)$', content)
prerelease = match_against('^PRERELEASE (\\d+)$', content)
prerelease_patch = match_against('^PRERELEASE_PATCH (\\d+)$', content)
if (channel and major and minor and prerelease and prerelease_patch):
return Version(channel, major, minor, patch, prerelease,
prerelease_patch)
print('Warning: VERSION file ({}) has wrong format'.format(version_file))
return None
def GetGitRevision(git_revision_file=None, repo_path=DART_DIR):
# When building from tarball use tools/GIT_REVISION
if git_revision_file is None:
git_revision_file = os.path.join(repo_path, 'tools', 'GIT_REVISION')
try:
with open(git_revision_file) as fd:
return fd.read().strip()
except:
pass
p = subprocess.Popen(['git', 'rev-parse', 'HEAD'],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
shell=IsWindows(),
cwd=repo_path)
out, err = p.communicate()
# TODO(https://github.com/dart-lang/sdk/issues/51865): Don't ignore errors.
# if p.wait() != 0:
# raise Exception('git rev-parse failed: ' + str(err))
revision = out.decode('utf-8').strip()
# We expect a full git hash
if len(revision) != 40:
print('Warning: Could not parse git commit, output was {}'.format(
revision),
file=sys.stderr)
return None
return revision
def GetShortGitHash(repo_path=DART_DIR):
p = subprocess.Popen(['git', 'rev-parse', '--short=10', 'HEAD'],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
shell=IsWindows(),
cwd=repo_path)
out, err = p.communicate()
if p.wait() != 0:
# TODO(https://github.com/dart-lang/sdk/issues/51865): Don't ignore errors.
# raise Exception('git rev-parse failed: ' + str(err))
return None
revision = out.decode('utf-8').strip()
return revision
def GetGitTimestamp(git_timestamp_file=None, repo_path=DART_DIR):
# When building from tarball use tools/GIT_TIMESTAMP
if git_timestamp_file is None:
git_timestamp_file = os.path.join(repo_path, 'tools', 'GIT_TIMESTAMP')
try:
with open(git_timestamp_file) as fd:
return fd.read().strip()
except:
pass
p = subprocess.Popen(['git', 'log', '-n', '1', '--pretty=format:%cd'],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
shell=IsWindows(),
cwd=repo_path)
out, err = p.communicate()
if p.wait() != 0:
# TODO(https://github.com/dart-lang/sdk/issues/51865): Don't ignore errors.
# raise Exception('git log failed: ' + str(err))
return None
timestamp = out.decode('utf-8').strip()
return timestamp
# TODO(42528): Can we remove this? It's basically just an alias for Exception.
class Error(Exception):
pass
def IsCrashExitCode(exit_code):
if IsWindows():
return 0x80000000 & exit_code
return exit_code < 0
def DiagnoseExitCode(exit_code, command):
if IsCrashExitCode(exit_code):
sys.stderr.write(
'Command: {}\nCRASHED with exit code {} (0x{:x})\n'.format(
' '.join(command), exit_code, exit_code & 0xffffffff))
def CheckedInSdkPath():
tools_dir = os.path.dirname(os.path.realpath(__file__))
return os.path.join(tools_dir, 'sdks', 'dart-sdk')
def CheckedInSdkExecutable():
name = 'dart'
if IsWindows():
name = 'dart.exe'
return os.path.join(CheckedInSdkPath(), 'bin', name)
def CheckLinuxCoreDumpPattern(fatal=False):
core_pattern_file = '/proc/sys/kernel/core_pattern'
core_pattern = open(core_pattern_file).read()
expected_core_pattern = 'core.%p'
if core_pattern.strip() != expected_core_pattern:
message = (
'Invalid core_pattern configuration. '
'The configuration of core dump handling is *not* correct for '
'a buildbot. The content of {0} must be "{1}" instead of "{2}".'.
format(core_pattern_file, expected_core_pattern, core_pattern))
if fatal:
raise Exception(message)
print(message)
return False
return True
class TempDir(object):
def __init__(self, prefix=''):
self._temp_dir = None
self._prefix = prefix
def __enter__(self):
self._temp_dir = tempfile.mkdtemp(self._prefix)
return self._temp_dir
def __exit__(self, *_):
shutil.rmtree(self._temp_dir, ignore_errors=True)
class UnexpectedCrash(object):
def __init__(self, test, pid, *binaries):
self.test = test
self.pid = pid
self.binaries = binaries
def __str__(self):
return 'Crash({}: {} {})'.format(self.test, self.pid,
', '.join(self.binaries))
class PosixCoreDumpEnabler(object):
def __init__(self):
self._old_limits = None
def __enter__(self):
self._old_limits = resource.getrlimit(resource.RLIMIT_CORE)
resource.setrlimit(resource.RLIMIT_CORE, (-1, -1))
def __exit__(self, *_):
if self._old_limits != None:
resource.setrlimit(resource.RLIMIT_CORE, self._old_limits)
class LinuxCoreDumpEnabler(PosixCoreDumpEnabler):
def __enter__(self):
# Bump core limits to unlimited if core_pattern is correctly configured.
if CheckLinuxCoreDumpPattern(fatal=False):
super(LinuxCoreDumpEnabler, self).__enter__()
def __exit__(self, *args):
CheckLinuxCoreDumpPattern(fatal=False)
super(LinuxCoreDumpEnabler, self).__exit__(*args)
class WindowsCoreDumpEnabler(object):
"""This enabler assumes that Dart binary was built with Crashpad support.
In this case DART_CRASHPAD_CRASHES_DIR environment variable allows to
specify the location of Crashpad crashes database. Actual minidumps will
be written into reports subfolder of the database.
"""
CRASHPAD_DB_FOLDER = os.path.join(DART_DIR, 'crashes')
DUMPS_FOLDER = os.path.join(CRASHPAD_DB_FOLDER, 'reports')
def __init__(self):
pass
def __enter__(self):
print('INFO: Enabling coredump archiving into {}'.format(
WindowsCoreDumpEnabler.CRASHPAD_DB_FOLDER))
os.environ[
'DART_CRASHPAD_CRASHES_DIR'] = WindowsCoreDumpEnabler.CRASHPAD_DB_FOLDER
def __exit__(self, *_):
del os.environ['DART_CRASHPAD_CRASHES_DIR']
def TryUnlink(file):
try:
os.unlink(file)
except Exception as error:
print('ERROR: Failed to remove {}: {}'.format(file, error))
class BaseCoreDumpArchiver(object):
"""This class reads coredumps file written by UnexpectedCrashDumpArchiver
into the current working directory and uploads all cores and binaries
listed in it into Cloud Storage (see
pkg/test_runner/lib/src/test_progress.dart).
"""
# test.dart will write a line for each unexpected crash into this file.
_UNEXPECTED_CRASHES_FILE = 'unexpected-crashes'
def __init__(self, search_dir, output_directory):
self._bucket = 'dart-temp-crash-archive'
self._binaries_dir = os.getcwd()
self._search_dir = search_dir
self._output_directory = output_directory
def _safe_cleanup(self):
try:
return self._cleanup()
except Exception as error:
print('ERROR: Failure during cleanup: {}'.format(error))
return False
def __enter__(self):
print('INFO: Core dump archiving is activated')
# Cleanup any stale files
if self._safe_cleanup():
print('WARNING: Found and removed stale coredumps')
def __exit__(self, *_):
try:
crashes = self._find_unexpected_crashes()
if crashes:
# If we get a ton of crashes, only archive 10 dumps.
archive_crashes = crashes[:10]
print('Archiving coredumps for crash (if possible):')
for crash in archive_crashes:
print('----> {}'.format(crash))
sys.stdout.flush()
self._archive(archive_crashes)
else:
print('INFO: No unexpected crashes recorded')
dumps = self._find_all_coredumps()
if dumps:
print('INFO: However there are {} core dumps found'.format(
len(dumps)))
for dump in dumps:
print('INFO: -> {}'.format(dump))
print()
except Exception as error:
print('ERROR: Failed to archive crashes: {}'.format(error))
raise
finally:
self._safe_cleanup()
def _archive(self, crashes):
files = set()
missing = []
for crash in crashes:
files.update(crash.binaries)
core = self._find_coredump_file(crash)
if core:
files.add(core)
else:
missing.append(crash)
if self._output_directory is not None and self._is_shard():
print(
"INFO: Moving collected dumps and binaries into output directory\n"
"INFO: They will be uploaded to isolate server. Look for \"isolated"
" out\" under the failed step on the build page.\n"
"INFO: For more information see runtime/docs/infra/coredumps.md"
)
self._move(files)
else:
print(
"INFO: Uploading collected dumps and binaries into Cloud Storage\n"
"INFO: Use `gsutil.py cp from-url to-path` to download them.\n"
"INFO: For more information see runtime/docs/infra/coredumps.md"
)
self._upload(files)
if missing:
self._report_missing_crashes(missing, throw=False)
# todo(athom): move the logic to decide where to copy core dumps into the recipes.
def _is_shard(self):
return 'BUILDBOT_BUILDERNAME' not in os.environ
def _report_missing_crashes(self, missing, throw=False):
missing_as_string = ', '.join([str(c) for c in missing])
other_files = list(glob.glob(os.path.join(self._search_dir, '*')))
sys.stderr.write(
"Could not find crash dumps for '{}' in search directory '{}'.\n"
"Existing files which *did not* match the pattern inside the search "
"directory are are:\n {}\n".format(missing_as_string,
self._search_dir,
'\n '.join(other_files)))
# TODO: Figure out why windows coredump generation does not work.
# See http://dartbug.com/36469
if throw and GuessOS() != 'win32':
raise Exception(
'Missing crash dumps for: {}'.format(missing_as_string))
def _get_file_name(self, file):
# Sanitize the name: actual cores follow 'core.%d' pattern, crashed
# binaries are copied next to cores and named
# 'binary.<mode>_<arch>_<binary_name>'.
# This should match the code in testing/dart/test_progress.dart
name = os.path.basename(file)
(prefix, suffix) = name.split('.', 1)
is_binary = prefix == 'binary'
if is_binary:
(mode, arch, binary_name) = suffix.split('_', 2)
name = binary_name
return (name, is_binary)
def _move(self, files):
for file in files:
print('+++ Moving {} to output_directory ({})'.format(
file, self._output_directory))
(name, is_binary) = self._get_file_name(file)
destination = os.path.join(self._output_directory, name)
shutil.move(file, destination)
if is_binary and os.path.exists(file + '.pdb'):
# Also move a PDB file if there is one.
pdb = os.path.join(self._output_directory, name + '.pdb')
shutil.move(file + '.pdb', pdb)
def _tar(self, file):
(name, is_binary) = self._get_file_name(file)
tarname = '{}.tar.gz'.format(name)
# Compress the file.
tar = tarfile.open(tarname, mode='w:gz')
tar.add(file, arcname=name)
if is_binary and os.path.exists(file + '.pdb'):
# Also add a PDB file if there is one.
tar.add(file + '.pdb', arcname=name + '.pdb')
tar.close()
return tarname
def _upload(self, files):
bot_utils = GetBotUtils()
gsutil = bot_utils.GSUtil()
storage_path = '{}/{}/'.format(self._bucket, uuid.uuid4())
gs_prefix = 'gs://{}'.format(storage_path)
http_prefix = 'https://storage.cloud.google.com/{}'.format(storage_path)
print('\n--- Uploading into {} ({}) ---'.format(gs_prefix, http_prefix))
for file in files:
tarname = self._tar(file)
# Remove / from absolute path to not have // in gs path.
gs_url = '{}{}'.format(gs_prefix, tarname)
http_url = '{}{}'.format(http_prefix, tarname)
try:
gsutil.upload(tarname, gs_url)
print('+++ Uploaded {} ({})'.format(gs_url, http_url))
except Exception as error:
print('!!! Failed to upload {}, error: {}'.format(
tarname, error))
TryUnlink(tarname)
print('--- Done ---\n')
def _find_all_coredumps(self):
"""Return coredumps that were recorded (if supported by the platform).
This method will be overridden by concrete platform specific implementations.
"""
return []
def _find_unexpected_crashes(self):
"""Load coredumps file. Each line has the following format:
test-name,pid,binary-file1,binary-file2,...
"""
try:
with open(BaseCoreDumpArchiver._UNEXPECTED_CRASHES_FILE) as f:
return [
UnexpectedCrash(*ln.strip('\n').split(','))
for ln in f.readlines()
]
except:
return []
def _cleanup(self):
found = False
if os.path.exists(BaseCoreDumpArchiver._UNEXPECTED_CRASHES_FILE):
os.unlink(BaseCoreDumpArchiver._UNEXPECTED_CRASHES_FILE)
found = True
for binary in glob.glob(os.path.join(self._binaries_dir, 'binary.*')):
found = True
TryUnlink(binary)
return found
class PosixCoreDumpArchiver(BaseCoreDumpArchiver):
def __init__(self, search_dir, output_directory):
super(PosixCoreDumpArchiver, self).__init__(search_dir,
output_directory)
def _cleanup(self):
found = super(PosixCoreDumpArchiver, self)._cleanup()
for core in glob.glob(os.path.join(self._search_dir, 'core.*')):
found = True
TryUnlink(core)
return found
def _find_coredump_file(self, crash):
core_filename = os.path.join(self._search_dir,
'core.{}'.format(crash.pid))
if os.path.exists(core_filename):
return core_filename
class LinuxCoreDumpArchiver(PosixCoreDumpArchiver):
def __init__(self, output_directory):
super(LinuxCoreDumpArchiver, self).__init__(os.getcwd(),
output_directory)
class MacOSCoreDumpArchiver(PosixCoreDumpArchiver):
def __init__(self, output_directory):
super(MacOSCoreDumpArchiver, self).__init__('/cores', output_directory)
class WindowsCoreDumpArchiver(BaseCoreDumpArchiver):
def __init__(self, output_directory):
super(WindowsCoreDumpArchiver, self).__init__(
WindowsCoreDumpEnabler.DUMPS_FOLDER, output_directory)
self._dumps_by_pid = None
# Find CDB.exe in the win_toolchain that we are using.
def _find_cdb(self):
win_toolchain_json_path = os.path.join(DART_DIR, 'build',
'win_toolchain.json')
if not os.path.exists(win_toolchain_json_path):
return None
with open(win_toolchain_json_path, 'r') as f:
win_toolchain_info = json.loads(f.read())
win_sdk_path = win_toolchain_info['win_sdk']
# We assume that we are running on 64-bit Windows.
# Note: x64 CDB can work with both X64 and IA32 dumps.
cdb_path = os.path.join(win_sdk_path, 'Debuggers', 'x64', 'cdb.exe')
if not os.path.exists(cdb_path):
return None
return cdb_path
CDBG_PROMPT_RE = re.compile(r'^\d+:\d+>')
def _dump_all_stacks(self):
# On Windows due to crashpad integration crashes do not produce any
# stacktraces. Dump stack traces from dumps Crashpad collected using
# CDB (if available).
cdb_path = self._find_cdb()
if cdb_path is None:
return
dumps = self._find_all_coredumps()
if not dumps:
return
print('### Collected {} crash dumps'.format(len(dumps)))
for dump in dumps:
print()
print('### Dumping stacks from {} using CDB'.format(dump))
cdb_output = subprocess.check_output(
'"{}" -z "{}" -kqm -c "!uniqstack -b -v -p;qd"'.format(
cdb_path, dump),
stderr=subprocess.STDOUT)
# Extract output of uniqstack from the whole output of CDB.
output = False
for line in cdb_output.split('\n'):
if re.match(WindowsCoreDumpArchiver.CDBG_PROMPT_RE, line):
output = True
elif line.startswith('quit:'):
break
elif output:
print(line)
print()
print('#############################################')
print()
def __exit__(self, *args):
try:
self._dump_all_stacks()
except Exception as error:
print('ERROR: Unable to dump stacks from dumps: {}'.format(error))
super(WindowsCoreDumpArchiver, self).__exit__(*args)
def _cleanup(self):
found = super(WindowsCoreDumpArchiver, self)._cleanup()
for core in glob.glob(os.path.join(self._search_dir, '*')):
found = True
TryUnlink(core)
return found
def _find_all_coredumps(self):
pattern = os.path.join(self._search_dir, '*.dmp')
return [core_filename for core_filename in glob.glob(pattern)]
def _find_coredump_file(self, crash):
if self._dumps_by_pid is None:
# If this function is invoked the first time then look through the directory
# that contains crashes for all dump files and collect pid -> filename
# mapping.
self._dumps_by_pid = {}
minidump = GetMinidumpUtils()
pattern = os.path.join(self._search_dir, '*.dmp')
for core_filename in glob.glob(pattern):
pid = minidump.GetProcessIdFromDump(core_filename)
if pid != -1:
self._dumps_by_pid[str(pid)] = core_filename
if crash.pid in self._dumps_by_pid:
return self._dumps_by_pid[crash.pid]
def _report_missing_crashes(self, missing, throw=False):
# Let's only print the debugging information and not throw. We'll do more
# validation for werfault.exe and throw afterwards.
super(WindowsCoreDumpArchiver, self)._report_missing_crashes(
missing, throw=False)
if throw:
missing_as_string = ', '.join([str(c) for c in missing])
raise Exception(
'Missing crash dumps for: {}'.format(missing_as_string))
class IncreasedNumberOfFileDescriptors(object):
def __init__(self, nofiles):
self._old_limits = None
self._limits = (nofiles, nofiles)
def __enter__(self):
self._old_limits = resource.getrlimit(resource.RLIMIT_NOFILE)
resource.setrlimit(resource.RLIMIT_NOFILE, self._limits)
def __exit__(self, *_):
resource.setrlimit(resource.RLIMIT_CORE, self._old_limits)
@contextlib.contextmanager
def NooptContextManager():
yield
def CoreDumpArchiver(args):
enabled = '--copy-coredumps' in args
prefix = '--output-directory='
output_directory = next(
(arg[len(prefix):] for arg in args if arg.startswith(prefix)), None)
if not enabled:
return (NooptContextManager(),)
osname = GuessOS()
if osname == 'linux':
return (LinuxCoreDumpEnabler(), LinuxCoreDumpArchiver(output_directory))
elif osname == 'macos':
return (PosixCoreDumpEnabler(), MacOSCoreDumpArchiver(output_directory))
elif osname == 'win32':
return (WindowsCoreDumpEnabler(),
WindowsCoreDumpArchiver(output_directory))
# We don't have support for MacOS yet.
return (NooptContextManager(),)
def FileDescriptorLimitIncreaser():
osname = GuessOS()
if osname == 'macos':
return IncreasedNumberOfFileDescriptors(nofiles=10000)
assert osname in ('linux', 'win32')
# We don't have support for MacOS yet.
return NooptContextManager()
def Main():
print('GuessOS() -> ', GuessOS())
print('GuessArchitecture() -> ', GuessArchitecture())
print('GuessCpus() -> ', GuessCpus())
print('IsWindows() -> ', IsWindows())
print('GetGitRevision() -> ', GetGitRevision())
print('GetGitTimestamp() -> ', GetGitTimestamp())
print('ReadVersionFile() -> ', ReadVersionFile())
if __name__ == '__main__':
Main()