gecko-dev/build/mach_bootstrap.py

Ignoring revisions in .git-blame-ignore-revs. Click here to bypass and see the normal blame view.

420 строки
16 KiB
Python
Исходник Обычный вид История

# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
from __future__ import print_function, unicode_literals
Bug 1182677 - Aggressively prompt to run `mach mercurial-setup`; r=smacleod Having not configured or out-of-date tools benefits nobody. It slows people down. Version control tools are an integral part of working on Firefox. It is important for version control tools to be configured optimally and to be continuously updated so they stay optimal. The `mach mercurial-setup` command exists to optimally configure Mercurial for working on Firefox and other Mozilla projects. This commit adds a pre-dispatch handler to mach that will verify Mercurial is in a happy state. If `mach mercurial-setup` has never executed, it will complain. If `mach mercurial-setup` hasn't been executed in the past 31 days, it will complain. Yes, aborting command execution and forcing people to context switch to run `mach mercurial-setup` is annoying. First, we have carved out several exceptions to this behavior, including detection for running in automation, on the machines of curmudgeons, when Mercurial isn't being used, and from non-interactive processes. Second, I argue that people ignore optional notifications and that having persistently poorly-configured tools is worse than a single context switch at most every month. Therefore, the heavyhanded approach is justified. In addition, if we did support a non-fatal notification, we would introduce the problem of extra output from commands. If anyone was e.g. parsing mach output, we could very likely break those systems. These cases should be caught by the isatty() check or be running in a context with MOZ_AUTOMATION set. But you never know. --HG-- extra : commitid : 7f7JQpa953u extra : rebase_source : 47b6304b6ac2c9d8136f2023a7d03df7d1f45e4f extra : source : f06616ee7b2b54d63d20ee4795539514d1df8c7b
2015-07-15 00:20:03 +03:00
import errno
import json
import os
import platform
import subprocess
import sys
import uuid
import __builtin__
from types import ModuleType
STATE_DIR_FIRST_RUN = '''
mach and the build system store shared state in a common directory on the
filesystem. The following directory will be created:
{userdir}
If you would like to use a different directory, hit CTRL+c and set the
MOZBUILD_STATE_PATH environment variable to the directory you would like to
use and re-run mach. For this change to take effect forever, you'll likely
want to export this environment variable from your shell's init scripts.
Press ENTER/RETURN to continue or CTRL+c to abort.
'''.lstrip()
# Individual files providing mach commands.
MACH_MODULES = [
'build/valgrind/mach_commands.py',
'devtools/shared/css/generated/mach_commands.py',
'dom/bindings/mach_commands.py',
'layout/tools/reftest/mach_commands.py',
'python/mach_commands.py',
'python/safety/mach_commands.py',
'python/mach/mach/commands/commandinfo.py',
'python/mach/mach/commands/settings.py',
'python/mozboot/mozboot/mach_commands.py',
'python/mozbuild/mozbuild/mach_commands.py',
'python/mozbuild/mozbuild/backend/mach_commands.py',
'python/mozbuild/mozbuild/compilation/codecomplete.py',
'python/mozbuild/mozbuild/frontend/mach_commands.py',
'python/mozrelease/mozrelease/mach_commands.py',
'taskcluster/mach_commands.py',
Bug 1344813 - Implement AWSY as a marionette-based mach command, r=jmaher,pyang,erahm. usage: mach [global arguments] awsy-test [command arguments] mach awsy-test runs the in-tree version of the Are We Slim Yet (AWSY) tests. awsy-test is implemented as a marionette test and marionette test arguments also apply although they are not necessary since reasonable defaults will be chosen. The AWSY specific arguments can be found in the Command Arguments for AWSY section below. awsy-test will automatically download the tp5n.zip talos pageset from tooltool and install it under topobjdir/_tests/awsy/html. You can specify your own page set by specifying --web-root and --page-manifest. The results of the test will be placed in the results directory specified by the --results argument. Command Arguments for AWSY: --web-root WEBROOTDIR Path to web server root directory. If not specified, defaults to topobjdir/_tests/awsy/html. --page-manifest PAGEMANIFEST Path to page manifest text file containing a list of urls to test. The urls must be served from localhost. If not specified, defaults to page_load_test/tp5b/tp5n.manifest under the web root. --results RESULTSDIR Path to results directory. If not specified, defaults to the parent directory of the web root. --quick Set --entities=3, --iterations=1, --per-tab-pause=1, --settle-wait-time=1 for a quick test. Overrides any explicit argument settings. --entities ENTITIES Number of urls to load. Defaults to the total number of urls. --max-tabs MAXTABS Maximum number of tabs to open. Defaults to 30. --iterations ITERATIONS Number of times to run through the test suite. Defaults to 5. --per-tab-pause PERTABPAUSE Seconds to wait in between opening tabs. Defaults to 10. --settle-wait-time SETTLEWAITTIME Seconds to wait for things to settled down. Defaults to 30.
2017-03-29 11:47:46 +03:00
'testing/awsy/mach_commands.py',
'testing/firefox-ui/mach_commands.py',
'testing/geckodriver/mach_commands.py',
'testing/mach_commands.py',
'testing/marionette/mach_commands.py',
'testing/mochitest/mach_commands.py',
'testing/mozharness/mach_commands.py',
'testing/raptor/mach_commands.py',
'testing/tps/mach_commands.py',
'testing/talos/mach_commands.py',
'testing/web-platform/mach_commands.py',
'testing/xpcshell/mach_commands.py',
'tools/compare-locales/mach_commands.py',
'tools/docs/mach_commands.py',
'tools/lint/mach_commands.py',
'tools/mach_commands.py',
'tools/power/mach_commands.py',
'tools/tryselect/mach_commands.py',
'mobile/android/mach_commands.py',
]
CATEGORIES = {
'build': {
'short': 'Build Commands',
'long': 'Interact with the build system',
'priority': 80,
},
'post-build': {
'short': 'Post-build Commands',
'long': 'Common actions performed after completing a build.',
'priority': 70,
},
'testing': {
'short': 'Testing',
'long': 'Run tests.',
'priority': 60,
},
'ci': {
'short': 'CI',
'long': 'Taskcluster commands',
'priority': 59,
},
'devenv': {
'short': 'Development Environment',
'long': 'Set up and configure your development environment.',
'priority': 50,
},
'build-dev': {
'short': 'Low-level Build System Interaction',
'long': 'Interact with specific parts of the build system.',
'priority': 20,
},
'misc': {
'short': 'Potpourri',
'long': 'Potent potables and assorted snacks.',
'priority': 10,
},
'release': {
'short': 'Release automation',
'long': 'Commands for used in release automation.',
'priority': 5,
},
'disabled': {
'short': 'Disabled',
'long': 'The disabled commands are hidden by default. Use -v to display them. '
'These commands are unavailable for your current context, '
'run "mach <command>" to see why.',
'priority': 0,
},
}
Bug 1356101 - Derive the mach_bootstrap search path from build/virtualenv_packages.txt. r=gps Most entries in virtualenv_packages.txt that are .pth or packages.txt are currently in SEARCH_PATHS in mach_bootstrap. The ones that are missing would make sense in SEARCH_PATHS. None of non-.pth or packages.txt entries, however, are in SEARCH_PATHS and don't make sense there. On the other hand, virtualenv_packages.txt misses a lot of things that are in SEARCH_PATHS, all of which should be there. One exception: xpcom/idl-parser, which causes problems due to the xpidl package containing an xpidl module, which causes problems with the in-tree scripts using it. Plus, it needs a cache directory, which is messy, so it's preferable to keep it away from the virtualenv. It turns out it was added to mach_bootstrap.py in bug 893976 for a command that was since then removed (bug 1244736), so we can get away with removing it. So instead of keeping those two separate lists out of sync, we replace the SEARCH_PATHS list from mach_bootstrap with one that is derived at runtime from the contents of virtualenv_packages.txt. And since a .pth can't fail to install in the virtualenv, it makes no sense to have psutil.pth defined as optional, which allows it to end up in the mach_bootstrap search path automatically. Finally, because we do have overlapping module names in the tree (e.g. runtests), and mach_bootstrap's SEARCH_PATHS had a guaranteed order, we change the order of the virtualenv_packages.txt file to match what used to be in mach_bootstrap, and make all the pth entries use the same file name so that the order is more guaranteed in the virtualenv too. --HG-- extra : rebase_source : 5bd09f2f984d6f78a76b38e768d8a67806af5954
2017-04-14 02:19:08 +03:00
def search_path(mozilla_dir, packages_txt):
with open(os.path.join(mozilla_dir, packages_txt)) as f:
packages = [line.rstrip().split(':') for line in f]
def handle_package(package):
if package[0] == 'optional':
try:
for path in handle_package(package[1:]):
yield path
except Exception:
pass
if package[0] in ('windows', '!windows'):
for_win = not package[0].startswith('!')
is_win = sys.platform == 'win32'
if is_win == for_win:
for path in handle_package(package[1:]):
yield path
Bug 1356101 - Derive the mach_bootstrap search path from build/virtualenv_packages.txt. r=gps Most entries in virtualenv_packages.txt that are .pth or packages.txt are currently in SEARCH_PATHS in mach_bootstrap. The ones that are missing would make sense in SEARCH_PATHS. None of non-.pth or packages.txt entries, however, are in SEARCH_PATHS and don't make sense there. On the other hand, virtualenv_packages.txt misses a lot of things that are in SEARCH_PATHS, all of which should be there. One exception: xpcom/idl-parser, which causes problems due to the xpidl package containing an xpidl module, which causes problems with the in-tree scripts using it. Plus, it needs a cache directory, which is messy, so it's preferable to keep it away from the virtualenv. It turns out it was added to mach_bootstrap.py in bug 893976 for a command that was since then removed (bug 1244736), so we can get away with removing it. So instead of keeping those two separate lists out of sync, we replace the SEARCH_PATHS list from mach_bootstrap with one that is derived at runtime from the contents of virtualenv_packages.txt. And since a .pth can't fail to install in the virtualenv, it makes no sense to have psutil.pth defined as optional, which allows it to end up in the mach_bootstrap search path automatically. Finally, because we do have overlapping module names in the tree (e.g. runtests), and mach_bootstrap's SEARCH_PATHS had a guaranteed order, we change the order of the virtualenv_packages.txt file to match what used to be in mach_bootstrap, and make all the pth entries use the same file name so that the order is more guaranteed in the virtualenv too. --HG-- extra : rebase_source : 5bd09f2f984d6f78a76b38e768d8a67806af5954
2017-04-14 02:19:08 +03:00
if package[0] == 'packages.txt':
assert len(package) == 2
for p in search_path(mozilla_dir, package[1]):
yield os.path.join(mozilla_dir, p)
if package[0].endswith('.pth'):
assert len(package) == 2
yield os.path.join(mozilla_dir, package[1])
for package in packages:
for path in handle_package(package):
yield path
Bug 1356101 - Derive the mach_bootstrap search path from build/virtualenv_packages.txt. r=gps Most entries in virtualenv_packages.txt that are .pth or packages.txt are currently in SEARCH_PATHS in mach_bootstrap. The ones that are missing would make sense in SEARCH_PATHS. None of non-.pth or packages.txt entries, however, are in SEARCH_PATHS and don't make sense there. On the other hand, virtualenv_packages.txt misses a lot of things that are in SEARCH_PATHS, all of which should be there. One exception: xpcom/idl-parser, which causes problems due to the xpidl package containing an xpidl module, which causes problems with the in-tree scripts using it. Plus, it needs a cache directory, which is messy, so it's preferable to keep it away from the virtualenv. It turns out it was added to mach_bootstrap.py in bug 893976 for a command that was since then removed (bug 1244736), so we can get away with removing it. So instead of keeping those two separate lists out of sync, we replace the SEARCH_PATHS list from mach_bootstrap with one that is derived at runtime from the contents of virtualenv_packages.txt. And since a .pth can't fail to install in the virtualenv, it makes no sense to have psutil.pth defined as optional, which allows it to end up in the mach_bootstrap search path automatically. Finally, because we do have overlapping module names in the tree (e.g. runtests), and mach_bootstrap's SEARCH_PATHS had a guaranteed order, we change the order of the virtualenv_packages.txt file to match what used to be in mach_bootstrap, and make all the pth entries use the same file name so that the order is more guaranteed in the virtualenv too. --HG-- extra : rebase_source : 5bd09f2f984d6f78a76b38e768d8a67806af5954
2017-04-14 02:19:08 +03:00
def bootstrap(topsrcdir, mozilla_dir=None):
if mozilla_dir is None:
mozilla_dir = topsrcdir
# Ensure we are running Python 2.7+. We put this check here so we generate a
# user-friendly error message rather than a cryptic stack trace on module
# import.
if sys.version_info[0] != 2 or sys.version_info[1] < 7:
print('Python 2.7 or above (but not Python 3) is required to run mach.')
print('You are running Python', platform.python_version())
sys.exit(1)
# Global build system and mach state is stored in a central directory. By
# default, this is ~/.mozbuild. However, it can be defined via an
# environment variable. We detect first run (by lack of this directory
# existing) and notify the user that it will be created. The logic for
# creation is much simpler for the "advanced" environment variable use
# case. For default behavior, we educate users and give them an opportunity
# to react. We always exit after creating the directory because users don't
# like surprises.
Bug 1356101 - Derive the mach_bootstrap search path from build/virtualenv_packages.txt. r=gps Most entries in virtualenv_packages.txt that are .pth or packages.txt are currently in SEARCH_PATHS in mach_bootstrap. The ones that are missing would make sense in SEARCH_PATHS. None of non-.pth or packages.txt entries, however, are in SEARCH_PATHS and don't make sense there. On the other hand, virtualenv_packages.txt misses a lot of things that are in SEARCH_PATHS, all of which should be there. One exception: xpcom/idl-parser, which causes problems due to the xpidl package containing an xpidl module, which causes problems with the in-tree scripts using it. Plus, it needs a cache directory, which is messy, so it's preferable to keep it away from the virtualenv. It turns out it was added to mach_bootstrap.py in bug 893976 for a command that was since then removed (bug 1244736), so we can get away with removing it. So instead of keeping those two separate lists out of sync, we replace the SEARCH_PATHS list from mach_bootstrap with one that is derived at runtime from the contents of virtualenv_packages.txt. And since a .pth can't fail to install in the virtualenv, it makes no sense to have psutil.pth defined as optional, which allows it to end up in the mach_bootstrap search path automatically. Finally, because we do have overlapping module names in the tree (e.g. runtests), and mach_bootstrap's SEARCH_PATHS had a guaranteed order, we change the order of the virtualenv_packages.txt file to match what used to be in mach_bootstrap, and make all the pth entries use the same file name so that the order is more guaranteed in the virtualenv too. --HG-- extra : rebase_source : 5bd09f2f984d6f78a76b38e768d8a67806af5954
2017-04-14 02:19:08 +03:00
sys.path[0:0] = [os.path.join(mozilla_dir, path)
for path in search_path(mozilla_dir,
'build/virtualenv_packages.txt')]
import mach.base
import mach.main
from mozboot.util import get_state_dir
from mozbuild.util import patch_main
patch_main()
def resolve_repository():
import mozversioncontrol
try:
# This API doesn't respect the vcs binary choices from configure.
# If we ever need to use the VCS binary here, consider something
# more robust.
return mozversioncontrol.get_repository_object(path=mozilla_dir)
except (mozversioncontrol.InvalidRepoPath,
mozversioncontrol.MissingVCSTool):
return None
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
def should_skip_telemetry_submission(handler):
# The user is performing a maintenance command.
if handler.name in ('bootstrap', 'doctor', 'mach-commands', 'vcs-setup',
# We call mach environment in client.mk which would cause the
# data submission to block the forward progress of make.
'environment'):
return True
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
# Never submit data when running in automation or when running tests.
if any(e in os.environ for e in ('MOZ_AUTOMATION', 'TASK_ID', 'MACH_TELEMETRY_NO_SUBMIT')):
return True
return False
def post_dispatch_handler(context, handler, instance, result,
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
start_time, end_time, depth, args):
"""Perform global operations after command dispatch.
For now, we will use this to handle build system telemetry.
"""
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
# Don't write telemetry data if this mach command was invoked as part of another
# mach command.
if depth != 1 or os.environ.get('MACH_MAIN_PID') != str(os.getpid()):
return
# We have not opted-in to telemetry
if not context.settings.build.telemetry:
return
from mozbuild.telemetry import gather_telemetry
from mozbuild.base import MozbuildObject
import mozpack.path as mozpath
if not isinstance(instance, MozbuildObject):
instance = MozbuildObject.from_environment()
try:
substs = instance.substs
except Exception:
substs = {}
# We gather telemetry for every operation.
paths = {
instance.topsrcdir: '$topsrcdir/',
instance.topobjdir: '$topobjdir/',
mozpath.normpath(os.path.expanduser('~')): '$HOME/',
}
# This might override one of the existing entries, that's OK.
# We don't use a sigil here because we treat all arguments as potentially relative
# paths, so we'd like to get them back as they were specified.
paths[mozpath.normpath(os.getcwd())] = ''
data = gather_telemetry(command=handler.name, success=(result == 0),
start_time=start_time, end_time=end_time,
mach_context=context, substs=substs,
paths=paths)
if data:
telemetry_dir = os.path.join(get_state_dir()[0], 'telemetry')
try:
os.mkdir(telemetry_dir)
except OSError as e:
if e.errno != errno.EEXIST:
raise
outgoing_dir = os.path.join(telemetry_dir, 'outgoing')
try:
os.mkdir(outgoing_dir)
except OSError as e:
if e.errno != errno.EEXIST:
raise
with open(os.path.join(outgoing_dir, str(uuid.uuid4()) + '.json'),
'w') as f:
json.dump(data, f, sort_keys=True)
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
if should_skip_telemetry_submission(handler):
return True
state_dir, _ = get_state_dir()
machpath = os.path.join(instance.topsrcdir, 'mach')
with open(os.devnull, 'wb') as devnull:
subprocess.Popen([sys.executable, machpath, 'python',
'--no-virtualenv',
os.path.join(topsrcdir, 'build',
'submit_telemetry_data.py'),
state_dir],
stdout=devnull, stderr=devnull)
def populate_context(context, key=None):
if key is None:
return
if key == 'state_dir':
state_dir, is_environ = get_state_dir()
if is_environ:
if not os.path.exists(state_dir):
print('Creating global state directory from environment variable: %s'
% state_dir)
os.makedirs(state_dir, mode=0o770)
else:
if not os.path.exists(state_dir):
if not os.environ.get('MOZ_AUTOMATION'):
print(STATE_DIR_FIRST_RUN.format(userdir=state_dir))
try:
sys.stdin.readline()
except KeyboardInterrupt:
sys.exit(1)
print('\nCreating default state directory: %s' % state_dir)
os.makedirs(state_dir, mode=0o770)
return state_dir
if key == 'topdir':
return topsrcdir
if key == 'post_dispatch_handler':
return post_dispatch_handler
if key == 'repository':
return resolve_repository()
raise AttributeError(key)
bug 1505205 - don't write telemetry for recursive mach command invocations. r=firefox-build-system-reviewers,chmanchester This change tries to ensure that we don't write telemetry data for mach commands invoked recursively as part of other mach commands. The intent of build system telemetry is to only collect data about commands that users are invoking directly. There are two ways that we found mach commands can be recursively invoked: * By running a python subprocess to recursively invoke mach (used in `mach bootstrap` to call `mach artifact toolchain`) * By using `Registrar.dispatch` to delegate to a sub-command (used by many build system commands to invoke `mach build`). The subprocess case is handled here by having mach set a `MACH_MAIN_PID` environment variable whose value is the current process' pid on startup if it does not already exist in the environment. Telemetry code then checks that the value of that variable matches the current pid and skips writing telemetry data if not. The dispatch case is handled by making `MachRegistrar` store the current depth of the command stack and pass it to the `post_dispatch_handler` which will skip writing telemetry data if depth != 1. Additionally the `should_skip_dispatch` function in mach_bootstrap is renamed to `should_skip_telemetry_submission`, which was its original intent. The combination of checks added in this change should be sufficient for deciding when to write telemetry data, and we were not collecting telemetry for the set of mach commands in that function (which included `mach bootstrap`). In order to facilitate writing a test for the dispatch case this change adds a `mach python --exec-file` option to execute Python code directly in the context of the `mach python` command. Differential Revision: https://phabricator.services.mozilla.com/D11207 --HG-- extra : moz-landing-system : lando
2018-11-10 22:04:30 +03:00
# Note which process is top-level so that recursive mach invocations can avoid writing
# telemetry data.
if 'MACH_MAIN_PID' not in os.environ:
os.environ[b'MACH_MAIN_PID'] = str(os.getpid()).encode('ascii')
driver = mach.main.Mach(os.getcwd())
driver.populate_context_handler = populate_context
if not driver.settings_paths:
# default global machrc location
driver.settings_paths.append(get_state_dir()[0])
# always load local repository configuration
driver.settings_paths.append(mozilla_dir)
for category, meta in CATEGORIES.items():
driver.define_category(category, meta['short'], meta['long'],
meta['priority'])
repo = resolve_repository()
for path in MACH_MODULES:
# Sparse checkouts may not have all mach_commands.py files. Ignore
# errors from missing files.
try:
driver.load_commands_from_file(os.path.join(mozilla_dir, path))
except mach.base.MissingFileError:
if not repo or not repo.sparse_checkout_present():
raise
return driver
# Hook import such that .pyc/.pyo files without a corresponding .py file in
# the source directory are essentially ignored. See further below for details
# and caveats.
# Objdirs outside the source directory are ignored because in most cases, if
# a .pyc/.pyo file exists there, a .py file will be next to it anyways.
class ImportHook(object):
def __init__(self, original_import):
self._original_import = original_import
# Assume the source directory is the parent directory of the one
# containing this file.
self._source_dir = os.path.normcase(os.path.abspath(
os.path.dirname(os.path.dirname(__file__)))) + os.sep
self._modules = set()
def __call__(self, name, globals=None, locals=None, fromlist=None,
level=-1):
# name might be a relative import. Instead of figuring out what that
# resolves to, which is complex, just rely on the real import.
# Since we don't know the full module name, we can't check sys.modules,
# so we need to keep track of which modules we've already seen to avoid
# to stat() them again when they are imported multiple times.
module = self._original_import(name, globals, locals, fromlist, level)
# Some tests replace modules in sys.modules with non-module instances.
if not isinstance(module, ModuleType):
return module
resolved_name = module.__name__
if resolved_name in self._modules:
return module
self._modules.add(resolved_name)
# Builtin modules don't have a __file__ attribute.
if not hasattr(module, '__file__'):
return module
# Note: module.__file__ is not always absolute.
path = os.path.normcase(os.path.abspath(module.__file__))
# Note: we could avoid normcase and abspath above for non pyc/pyo
# files, but those are actually rare, so it doesn't really matter.
if not path.endswith(('.pyc', '.pyo')):
return module
# Ignore modules outside our source directory
if not path.startswith(self._source_dir):
return module
# If there is no .py corresponding to the .pyc/.pyo module we're
# loading, remove the .pyc/.pyo file, and reload the module.
# Since we already loaded the .pyc/.pyo module, if it had side
# effects, they will have happened already, and loading the module
# with the same name, from another directory may have the same side
# effects (or different ones). We assume it's not a problem for the
# python modules under our source directory (either because it
# doesn't happen or because it doesn't matter).
if not os.path.exists(module.__file__[:-1]):
if os.path.exists(module.__file__):
os.remove(module.__file__)
del sys.modules[module.__name__]
module = self(name, globals, locals, fromlist, level)
return module
# Install our hook
__builtin__.__import__ = ImportHook(__builtin__.__import__)