示例#1
0
 def testUpToDate(self):
     """Check behavior w/a valid chroot."""
     self.version_mock.return_value = 123
     self.assertTrue(cros_sdk_lib.IsChrootReady('/'))
示例#2
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 def testMissing(self):
     """Check behavior w/out a chroot."""
     self.version_mock.return_value = None
     self.assertFalse(cros_sdk_lib.IsChrootReady('/'))
示例#3
0
 def testNotSetup(self):
     """Check behavior w/an existing uninitialized chroot."""
     self.version_mock.return_value = 0
     self.assertFalse(cros_sdk_lib.IsChrootReady('/'))
示例#4
0
def main(argv):
    # Turn on strict sudo checks.
    cros_build_lib.STRICT_SUDO = True
    conf = key_value_store.LoadFile(os.path.join(constants.SOURCE_ROOT,
                                                 constants.SDK_VERSION_FILE),
                                    ignore_missing=True)
    sdk_latest_version = conf.get('SDK_LATEST_VERSION', '<unknown>')
    bootstrap_frozen_version = conf.get('BOOTSTRAP_FROZEN_VERSION',
                                        '<unknown>')

    # Use latest SDK for bootstrapping if requested. Use a frozen version of SDK
    # for bootstrapping if BOOTSTRAP_FROZEN_VERSION is set.
    bootstrap_latest_version = (sdk_latest_version if bootstrap_frozen_version
                                == '<unknown>' else bootstrap_frozen_version)
    parser, commands = _CreateParser(sdk_latest_version,
                                     bootstrap_latest_version)
    options = parser.parse_args(argv)
    chroot_command = options.commands

    # Some sanity checks first, before we ask for sudo credentials.
    cros_build_lib.AssertOutsideChroot()

    host = os.uname()[4]
    if host != 'x86_64':
        cros_build_lib.Die(
            "cros_sdk is currently only supported on x86_64; you're running"
            ' %s.  Please find a x86_64 machine.' % (host, ))

    # Merge the outside PATH setting if we re-execed ourselves.
    if 'CHROMEOS_SUDO_PATH' in os.environ:
        os.environ['PATH'] = '%s:%s' % (os.environ.pop('CHROMEOS_SUDO_PATH'),
                                        os.environ['PATH'])

    _ReportMissing(osutils.FindMissingBinaries(NEEDED_TOOLS))
    if options.proxy_sim:
        _ReportMissing(osutils.FindMissingBinaries(PROXY_NEEDED_TOOLS))
    missing_image_tools = osutils.FindMissingBinaries(IMAGE_NEEDED_TOOLS)

    if (sdk_latest_version == '<unknown>'
            or bootstrap_latest_version == '<unknown>'):
        cros_build_lib.Die(
            'No SDK version was found. '
            'Are you in a Chromium source tree instead of Chromium OS?\n\n'
            'Please change to a directory inside your Chromium OS source tree\n'
            'and retry.  If you need to setup a Chromium OS source tree, see\n'
            '  https://dev.chromium.org/chromium-os/developer-guide')

    any_snapshot_operation = (options.snapshot_create
                              or options.snapshot_restore
                              or options.snapshot_delete
                              or options.snapshot_list)
    if any_snapshot_operation and not options.use_image:
        cros_build_lib.Die('Snapshot operations are not compatible with '
                           '--nouse-image.')

    if (options.snapshot_delete
            and options.snapshot_delete == options.snapshot_restore):
        parser.error('Cannot --snapshot_delete the same snapshot you are '
                     'restoring with --snapshot_restore.')

    _ReExecuteIfNeeded([sys.argv[0]] + argv)

    lock_path = os.path.dirname(options.chroot)
    lock_path = os.path.join(
        lock_path, '.%s_lock' % os.path.basename(options.chroot).lstrip('.'))

    # Expand out the aliases...
    if options.replace:
        options.delete = options.create = True

    if options.bootstrap:
        options.create = True

    # If a command is not given, default to enter.
    # pylint: disable=protected-access
    # This _group_actions access sucks, but upstream decided to not include an
    # alternative to optparse's option_list, and this is what they recommend.
    options.enter |= not any(
        getattr(options, x.dest) for x in commands._group_actions)
    # pylint: enable=protected-access
    options.enter |= bool(chroot_command)

    if (options.delete and not options.create
            and (options.enter or any_snapshot_operation)):
        parser.error('Trying to enter or snapshot the chroot when --delete '
                     'was specified makes no sense.')

    if (options.unmount
            and (options.create or options.enter or any_snapshot_operation)):
        parser.error(
            '--unmount cannot be specified with other chroot actions.')

    if options.working_dir is not None and not os.path.isabs(
            options.working_dir):
        options.working_dir = path_util.ToChrootPath(options.working_dir)

    # Discern if we need to create the chroot.
    chroot_exists = cros_sdk_lib.IsChrootReady(options.chroot)
    if (options.use_image and not chroot_exists and not options.delete
            and not options.unmount and not missing_image_tools
            and os.path.exists(_ImageFileForChroot(options.chroot))):
        # Try to re-mount an existing image in case the user has rebooted.
        with cgroups.SimpleContainChildren('cros_sdk'):
            with locking.FileLock(lock_path, 'chroot lock') as lock:
                logging.debug(
                    'Checking if existing chroot image can be mounted.')
                lock.write_lock()
                cros_sdk_lib.MountChroot(options.chroot, create=False)
                chroot_exists = cros_sdk_lib.IsChrootReady(options.chroot)
                if chroot_exists:
                    logging.notice('Mounted existing image %s on chroot',
                                   _ImageFileForChroot(options.chroot))

    # Finally, flip create if necessary.
    if options.enter or options.snapshot_create:
        options.create |= not chroot_exists

    # Make sure we will download if we plan to create.
    options.download |= options.create

    # Anything that needs to manipulate the main chroot mount or communicate with
    # LVM needs to be done here before we enter the new namespaces.

    # If deleting, do it regardless of the use_image flag so that a
    # previously-created loopback chroot can also be cleaned up.
    # TODO(bmgordon): See if the DeleteChroot call below can be removed in
    # favor of this block.
    chroot_deleted = False
    if options.delete:
        with cgroups.SimpleContainChildren('cros_sdk'):
            # Set a timeout of 300 seconds when getting the lock.
            with locking.FileLock(lock_path,
                                  'chroot lock',
                                  blocking_timeout=300) as lock:
                try:
                    lock.write_lock()
                except timeout_util.TimeoutError as e:
                    logging.error('Acquiring write_lock on %s failed: %s',
                                  lock_path, e)
                    if not options.force:
                        cros_build_lib.Die(
                            'Exiting; use --force to continue w/o lock.')
                    else:
                        logging.warning(
                            'cros_sdk was invoked with force option, continuing.'
                        )
                if missing_image_tools:
                    logging.notice('Unmounting chroot.')
                    osutils.UmountTree(options.chroot)
                else:
                    logging.notice('Deleting chroot.')
                    cros_sdk_lib.CleanupChrootMount(options.chroot,
                                                    delete=True)
                    chroot_deleted = True

    # If cleanup was requested, we have to do it while we're still in the original
    # namespace.  Since cleaning up the mount will interfere with any other
    # commands, we exit here.  The check above should have made sure that no other
    # action was requested, anyway.
    if options.unmount:
        # Set a timeout of 300 seconds when getting the lock.
        with locking.FileLock(lock_path, 'chroot lock',
                              blocking_timeout=300) as lock:
            try:
                lock.write_lock()
            except timeout_util.TimeoutError as e:
                logging.error('Acquiring write_lock on %s failed: %s',
                              lock_path, e)
                logging.warning(
                    'Continuing with CleanupChroot(%s), which will umount the tree.',
                    options.chroot)
            # We can call CleanupChroot (which calls cros_sdk_lib.CleanupChrootMount)
            # even if we don't get the lock because it will attempt to unmount the
            # tree and will print diagnostic information from 'fuser', 'lsof', and
            # 'ps'.
            CleanupChroot(options.chroot)
            sys.exit(0)

    # Make sure the main chroot mount is visible.  Contents will be filled in
    # below if needed.
    if options.create and options.use_image:
        if missing_image_tools:
            raise SystemExit("""The tool(s) %s were not found.
Please make sure the lvm2 and thin-provisioning-tools packages
are installed on your host.
Example(ubuntu):
  sudo apt-get install lvm2 thin-provisioning-tools

If you want to run without lvm2, pass --nouse-image (chroot
snapshots will be unavailable).""" % ', '.join(missing_image_tools))

        logging.debug('Making sure chroot image is mounted.')
        with cgroups.SimpleContainChildren('cros_sdk'):
            with locking.FileLock(lock_path, 'chroot lock') as lock:
                lock.write_lock()
                if not cros_sdk_lib.MountChroot(options.chroot, create=True):
                    cros_build_lib.Die('Unable to mount %s on chroot',
                                       _ImageFileForChroot(options.chroot))
                logging.notice('Mounted %s on chroot',
                               _ImageFileForChroot(options.chroot))

    # Snapshot operations will always need the VG/LV, but other actions won't.
    if any_snapshot_operation:
        with cgroups.SimpleContainChildren('cros_sdk'):
            with locking.FileLock(lock_path, 'chroot lock') as lock:
                chroot_vg, chroot_lv = cros_sdk_lib.FindChrootMountSource(
                    options.chroot)
                if not chroot_vg or not chroot_lv:
                    cros_build_lib.Die('Unable to find VG/LV for chroot %s',
                                       options.chroot)

                # Delete snapshot before creating a new one.  This allows the user to
                # throw out old state, create a new snapshot, and enter the chroot in a
                # single call to cros_sdk.  Since restore involves deleting, also do it
                # before creating.
                if options.snapshot_restore:
                    lock.write_lock()
                    valid_snapshots = ListChrootSnapshots(chroot_vg, chroot_lv)
                    if options.snapshot_restore not in valid_snapshots:
                        cros_build_lib.Die(
                            '%s is not a valid snapshot to restore to. '
                            'Valid snapshots: %s', options.snapshot_restore,
                            ', '.join(valid_snapshots))
                    osutils.UmountTree(options.chroot)
                    if not RestoreChrootSnapshot(options.snapshot_restore,
                                                 chroot_vg, chroot_lv):
                        cros_build_lib.Die(
                            'Unable to restore chroot to snapshot.')
                    if not cros_sdk_lib.MountChroot(options.chroot,
                                                    create=False):
                        cros_build_lib.Die(
                            'Unable to mount restored snapshot onto chroot.')

                # Use a read lock for snapshot delete and create even though they modify
                # the filesystem, because they don't modify the mounted chroot itself.
                # The underlying LVM commands take their own locks, so conflicting
                # concurrent operations here may crash cros_sdk, but won't corrupt the
                # chroot image.  This tradeoff seems worth it to allow snapshot
                # operations on chroots that have a process inside.
                if options.snapshot_delete:
                    lock.read_lock()
                    DeleteChrootSnapshot(options.snapshot_delete, chroot_vg,
                                         chroot_lv)

                if options.snapshot_create:
                    lock.read_lock()
                    if not CreateChrootSnapshot(options.snapshot_create,
                                                chroot_vg, chroot_lv):
                        cros_build_lib.Die('Unable to create snapshot.')

    img_path = _ImageFileForChroot(options.chroot)
    if (options.use_image and os.path.exists(options.chroot)
            and os.path.exists(img_path)):
        img_stat = os.stat(img_path)
        img_used_bytes = img_stat.st_blocks * 512

        mount_stat = os.statvfs(options.chroot)
        mount_used_bytes = mount_stat.f_frsize * (mount_stat.f_blocks -
                                                  mount_stat.f_bfree)

        extra_gbs = (img_used_bytes - mount_used_bytes) // 2**30
        if extra_gbs > MAX_UNUSED_IMAGE_GBS:
            logging.notice(
                '%s is using %s GiB more than needed.  Running '
                'fstrim.', img_path, extra_gbs)
            cmd = ['fstrim', options.chroot]
            try:
                cros_build_lib.dbg_run(cmd)
            except cros_build_lib.RunCommandError as e:
                logging.warning(
                    'Running fstrim failed. Consider running fstrim on '
                    'your chroot manually.\n%s', e)

    # Enter a new set of namespaces.  Everything after here cannot directly affect
    # the hosts's mounts or alter LVM volumes.
    namespaces.SimpleUnshare()
    if options.ns_pid:
        first_pid = namespaces.CreatePidNs()
    else:
        first_pid = None

    if options.snapshot_list:
        for snap in ListChrootSnapshots(chroot_vg, chroot_lv):
            print(snap)
        sys.exit(0)

    if not options.sdk_version:
        sdk_version = (bootstrap_latest_version
                       if options.bootstrap else sdk_latest_version)
    else:
        sdk_version = options.sdk_version
    if options.buildbot_log_version:
        logging.PrintBuildbotStepText(sdk_version)

    # Based on selections, determine the tarball to fetch.
    if options.download:
        if options.sdk_url:
            urls = [options.sdk_url]
        else:
            urls = GetArchStageTarballs(sdk_version)

    with cgroups.SimpleContainChildren('cros_sdk', pid=first_pid):
        with locking.FileLock(lock_path, 'chroot lock') as lock:
            if options.proxy_sim:
                _ProxySimSetup(options)

            if (options.delete and not chroot_deleted and
                (os.path.exists(options.chroot)
                 or os.path.exists(_ImageFileForChroot(options.chroot)))):
                lock.write_lock()
                DeleteChroot(options.chroot)

            sdk_cache = os.path.join(options.cache_dir, 'sdks')
            distfiles_cache = os.path.join(options.cache_dir, 'distfiles')
            osutils.SafeMakedirsNonRoot(options.cache_dir)

            for target in (sdk_cache, distfiles_cache):
                src = os.path.join(constants.SOURCE_ROOT,
                                   os.path.basename(target))
                if not os.path.exists(src):
                    osutils.SafeMakedirsNonRoot(target)
                    continue
                lock.write_lock(
                    'Upgrade to %r needed but chroot is locked; please exit '
                    'all instances so this upgrade can finish.' % src)
                if not os.path.exists(src):
                    # Note that while waiting for the write lock, src may've vanished;
                    # it's a rare race during the upgrade process that's a byproduct
                    # of us avoiding taking a write lock to do the src check.  If we
                    # took a write lock for that check, it would effectively limit
                    # all cros_sdk for a chroot to a single instance.
                    osutils.SafeMakedirsNonRoot(target)
                elif not os.path.exists(target):
                    # Upgrade occurred, but a reversion, or something whacky
                    # occurred writing to the old location.  Wipe and continue.
                    os.rename(src, target)
                else:
                    # Upgrade occurred once already, but either a reversion or
                    # some before/after separate cros_sdk usage is at play.
                    # Wipe and continue.
                    osutils.RmDir(src)

            if options.download:
                lock.write_lock()
                sdk_tarball = FetchRemoteTarballs(
                    sdk_cache, urls, 'stage3' if options.bootstrap else 'SDK')

            if options.create:
                lock.write_lock()
                # Recheck if the chroot is set up here before creating to make sure we
                # account for whatever the various delete/unmount/remount steps above
                # have done.
                if cros_sdk_lib.IsChrootReady(options.chroot):
                    logging.debug('Chroot already exists.  Skipping creation.')
                else:
                    CreateChroot(options.chroot,
                                 sdk_tarball,
                                 options.cache_dir,
                                 nousepkg=(options.bootstrap
                                           or options.nousepkg))

            if options.enter:
                lock.read_lock()
                EnterChroot(options.chroot, options.cache_dir,
                            options.chrome_root, options.chrome_root_mount,
                            options.goma_dir, options.goma_client_json,
                            options.working_dir, chroot_command)