Exemplo n.º 1
0
def show_responses(rtags, indent, is_new):
    """Show rtags collected

    Args:
        rtags (dict): review tags to show
            key: Response tag (e.g. 'Reviewed-by')
            value: Set of people who gave that response, each a name/email string
        indent (str): Indentation string to write before each line
        is_new (bool): True if this output should be highlighted

    Returns:
        int: Number of review tags displayed
    """
    col = terminal.Color()
    count = 0
    for tag in sorted(rtags.keys()):
        people = rtags[tag]
        for who in sorted(people):
            terminal.tprint(indent + '%s %s: ' % ('+' if is_new else ' ', tag),
                            newline=False,
                            colour=col.GREEN,
                            bright=is_new)
            terminal.tprint(who, colour=col.WHITE, bright=is_new)
            count += 1
    return count
Exemplo n.º 2
0
                    if cc:
                        print(cc)
        fd.close()

    elif args.full_help:
        tools.print_full_help(
            os.path.join(os.path.dirname(os.path.realpath(sys.argv[0])),
                         'README'))

    else:
        # If we are not processing tags, no need to warning about bad ones
        if not args.process_tags:
            args.ignore_bad_tags = True
        control.send(args)

# Check status of patches in patchwork
elif args.cmd == 'status':
    ret_code = 0
    try:
        control.patchwork_status(args.branch, args.count, args.start, args.end,
                                 args.dest_branch, args.force,
                                 args.show_comments, args.patchwork_url)
    except Exception as e:
        terminal.tprint('patman: %s: %s' % (type(e).__name__, e),
                        colour=terminal.Color.RED)
        if args.debug:
            print()
            traceback.print_exc()
        ret_code = 1
    sys.exit(ret_code)
Exemplo n.º 3
0
def DoBuildman(options,
               args,
               toolchains=None,
               make_func=None,
               boards=None,
               clean_dir=False,
               test_thread_exceptions=False):
    """The main control code for buildman

    Args:
        options: Command line options object
        args: Command line arguments (list of strings)
        toolchains: Toolchains to use - this should be a Toolchains()
                object. If None, then it will be created and scanned
        make_func: Make function to use for the builder. This is called
                to execute 'make'. If this is None, the normal function
                will be used, which calls the 'make' tool with suitable
                arguments. This setting is useful for tests.
        board: Boards() object to use, containing a list of available
                boards. If this is None it will be created and scanned.
        clean_dir: Used for tests only, indicates that the existing output_dir
            should be removed before starting the build
        test_thread_exceptions: Uses for tests only, True to make the threads
            raise an exception instead of reporting their result. This simulates
            a failure in the code somewhere
    """
    global builder

    if options.full_help:
        tools.print_full_help(
            os.path.join(os.path.dirname(os.path.realpath(sys.argv[0])),
                         'README'))
        return 0

    gitutil.setup()
    col = terminal.Color()

    options.git_dir = os.path.join(options.git, '.git')

    no_toolchains = toolchains is None
    if no_toolchains:
        toolchains = toolchain.Toolchains(options.override_toolchain)

    if options.fetch_arch:
        if options.fetch_arch == 'list':
            sorted_list = toolchains.ListArchs()
            print(
                col.build(
                    col.BLUE,
                    'Available architectures: %s\n' % ' '.join(sorted_list)))
            return 0
        else:
            fetch_arch = options.fetch_arch
            if fetch_arch == 'all':
                fetch_arch = ','.join(toolchains.ListArchs())
                print(
                    col.build(col.CYAN,
                              '\nDownloading toolchains: %s' % fetch_arch))
            for arch in fetch_arch.split(','):
                print()
                ret = toolchains.FetchAndInstall(arch)
                if ret:
                    return ret
            return 0

    if no_toolchains:
        toolchains.GetSettings()
        toolchains.Scan(options.list_tool_chains and options.verbose)
    if options.list_tool_chains:
        toolchains.List()
        print()
        return 0

    if options.incremental:
        print(
            col.build(col.RED,
                      'Warning: -I has been removed. See documentation'))
    if not options.output_dir:
        if options.work_in_output:
            sys.exit(col.build(col.RED, '-w requires that you specify -o'))
        options.output_dir = '..'

    # Work out what subset of the boards we are building
    if not boards:
        if not os.path.exists(options.output_dir):
            os.makedirs(options.output_dir)
        board_file = os.path.join(options.output_dir, 'boards.cfg')
        our_path = os.path.dirname(os.path.realpath(__file__))
        genboardscfg = os.path.join(our_path, '../genboardscfg.py')
        if not os.path.exists(genboardscfg):
            genboardscfg = os.path.join(options.git, 'tools/genboardscfg.py')
        status = subprocess.call([genboardscfg, '-q', '-o', board_file])
        if status != 0:
            # Older versions don't support -q
            status = subprocess.call([genboardscfg, '-o', board_file])
            if status != 0:
                sys.exit("Failed to generate boards.cfg")

        boards = board.Boards()
        boards.ReadBoards(board_file)

    exclude = []
    if options.exclude:
        for arg in options.exclude:
            exclude += arg.split(',')

    if options.boards:
        requested_boards = []
        for b in options.boards:
            requested_boards += b.split(',')
    else:
        requested_boards = None
    why_selected, board_warnings = boards.SelectBoards(args, exclude,
                                                       requested_boards)
    selected = boards.GetSelected()
    if not len(selected):
        sys.exit(col.build(col.RED, 'No matching boards found'))

    if options.print_prefix:
        err = ShowToolchainPrefix(boards, toolchains)
        if err:
            sys.exit(col.build(col.RED, err))
        return 0

    # Work out how many commits to build. We want to build everything on the
    # branch. We also build the upstream commit as a control so we can see
    # problems introduced by the first commit on the branch.
    count = options.count
    has_range = options.branch and '..' in options.branch
    if count == -1:
        if not options.branch:
            count = 1
        else:
            if has_range:
                count, msg = gitutil.count_commits_in_range(
                    options.git_dir, options.branch)
            else:
                count, msg = gitutil.count_commits_in_branch(
                    options.git_dir, options.branch)
            if count is None:
                sys.exit(col.build(col.RED, msg))
            elif count == 0:
                sys.exit(
                    col.build(col.RED,
                              "Range '%s' has no commits" % options.branch))
            if msg:
                print(col.build(col.YELLOW, msg))
            count += 1  # Build upstream commit also

    if not count:
        str = ("No commits found to process in branch '%s': "
               "set branch's upstream or use -c flag" % options.branch)
        sys.exit(col.build(col.RED, str))
    if options.work_in_output:
        if len(selected) != 1:
            sys.exit(
                col.build(col.RED, '-w can only be used with a single board'))
        if count != 1:
            sys.exit(
                col.build(col.RED, '-w can only be used with a single commit'))

    # Read the metadata from the commits. First look at the upstream commit,
    # then the ones in the branch. We would like to do something like
    # upstream/master~..branch but that isn't possible if upstream/master is
    # a merge commit (it will list all the commits that form part of the
    # merge)
    # Conflicting tags are not a problem for buildman, since it does not use
    # them. For example, Series-version is not useful for buildman. On the
    # other hand conflicting tags will cause an error. So allow later tags
    # to overwrite earlier ones by setting allow_overwrite=True
    if options.branch:
        if count == -1:
            if has_range:
                range_expr = options.branch
            else:
                range_expr = gitutil.get_range_in_branch(
                    options.git_dir, options.branch)
            upstream_commit = gitutil.get_upstream(options.git_dir,
                                                   options.branch)
            series = patchstream.get_metadata_for_list(upstream_commit,
                                                       options.git_dir,
                                                       1,
                                                       series=None,
                                                       allow_overwrite=True)

            series = patchstream.get_metadata_for_list(range_expr,
                                                       options.git_dir,
                                                       None,
                                                       series,
                                                       allow_overwrite=True)
        else:
            # Honour the count
            series = patchstream.get_metadata_for_list(options.branch,
                                                       options.git_dir,
                                                       count,
                                                       series=None,
                                                       allow_overwrite=True)
    else:
        series = None
        if not options.dry_run:
            options.verbose = True
            if not options.summary:
                options.show_errors = True

    # By default we have one thread per CPU. But if there are not enough jobs
    # we can have fewer threads and use a high '-j' value for make.
    if options.threads is None:
        options.threads = min(multiprocessing.cpu_count(), len(selected))
    if not options.jobs:
        options.jobs = max(1,
                           (multiprocessing.cpu_count() + len(selected) - 1) //
                           len(selected))

    if not options.step:
        options.step = len(series.commits) - 1

    gnu_make = command.output(os.path.join(options.git,
                                           'scripts/show-gnu-make'),
                              raise_on_error=False).rstrip()
    if not gnu_make:
        sys.exit('GNU Make not found')

    # Create a new builder with the selected options.
    output_dir = options.output_dir
    if options.branch:
        dirname = options.branch.replace('/', '_')
        # As a special case allow the board directory to be placed in the
        # output directory itself rather than any subdirectory.
        if not options.no_subdirs:
            output_dir = os.path.join(options.output_dir, dirname)
        if clean_dir and os.path.exists(output_dir):
            shutil.rmtree(output_dir)
    adjust_cfg = cfgutil.convert_list_to_dict(options.adjust_cfg)

    builder = Builder(toolchains,
                      output_dir,
                      options.git_dir,
                      options.threads,
                      options.jobs,
                      gnu_make=gnu_make,
                      checkout=True,
                      show_unknown=options.show_unknown,
                      step=options.step,
                      no_subdirs=options.no_subdirs,
                      full_path=options.full_path,
                      verbose_build=options.verbose_build,
                      mrproper=options.mrproper,
                      per_board_out_dir=options.per_board_out_dir,
                      config_only=options.config_only,
                      squash_config_y=not options.preserve_config_y,
                      warnings_as_errors=options.warnings_as_errors,
                      work_in_output=options.work_in_output,
                      test_thread_exceptions=test_thread_exceptions,
                      adjust_cfg=adjust_cfg)
    builder.force_config_on_failure = not options.quick
    if make_func:
        builder.do_make = make_func

    # For a dry run, just show our actions as a sanity check
    if options.dry_run:
        ShowActions(series, why_selected, selected, builder, options,
                    board_warnings)
    else:
        builder.force_build = options.force_build
        builder.force_build_failures = options.force_build_failures
        builder.force_reconfig = options.force_reconfig
        builder.in_tree = options.in_tree

        # Work out which boards to build
        board_selected = boards.GetSelectedDict()

        if series:
            commits = series.commits
            # Number the commits for test purposes
            for commit in range(len(commits)):
                commits[commit].sequence = commit
        else:
            commits = None

        tprint(
            GetActionSummary(options.summary, commits, board_selected,
                             options))

        # We can't show function sizes without board details at present
        if options.show_bloat:
            options.show_detail = True
        builder.SetDisplayOptions(
            options.show_errors, options.show_sizes, options.show_detail,
            options.show_bloat, options.list_error_boards, options.show_config,
            options.show_environment, options.filter_dtb_warnings,
            options.filter_migration_warnings)
        if options.summary:
            builder.ShowSummary(commits, board_selected)
        else:
            fail, warned, excs = builder.BuildBoards(commits, board_selected,
                                                     options.keep_outputs,
                                                     options.verbose)
            if excs:
                return 102
            elif fail:
                return 100
            elif warned and not options.ignore_warnings:
                return 101
    return 0
Exemplo n.º 4
0
def check_patchwork_status(series,
                           series_id,
                           branch,
                           dest_branch,
                           force,
                           show_comments,
                           url,
                           rest_api=call_rest_api,
                           test_repo=None):
    """Check the status of a series on Patchwork

    This finds review tags and comments for a series in Patchwork, displaying
    them to show what is new compared to the local series.

    Args:
        series (Series): Series object for the existing branch
        series_id (str): Patch series ID number
        branch (str): Existing branch to update, or None
        dest_branch (str): Name of new branch to create, or None
        force (bool): True to force overwriting dest_branch if it exists
        show_comments (bool): True to show the comments on each patch
        url (str): URL of patchwork server, e.g. 'https://patchwork.ozlabs.org'
        rest_api (function): API function to call to access Patchwork, for
            testing
        test_repo (pygit2.Repository): Repo to use (use None unless testing)
    """
    patches = collect_patches(series, series_id, url, rest_api)
    col = terminal.Color()
    count = len(series.commits)
    new_rtag_list = [None] * count
    review_list = [None] * count

    patch_for_commit, _, warnings = compare_with_series(series, patches)
    for warn in warnings:
        tout.warning(warn)

    patch_list = [patch_for_commit.get(c) for c in range(len(series.commits))]

    with concurrent.futures.ThreadPoolExecutor(max_workers=16) as executor:
        futures = executor.map(find_new_responses, repeat(new_rtag_list),
                               repeat(review_list), range(count),
                               series.commits, patch_list, repeat(url),
                               repeat(rest_api))
    for fresponse in futures:
        if fresponse:
            raise fresponse.exception()

    num_to_add = 0
    for seq, cmt in enumerate(series.commits):
        patch = patch_for_commit.get(seq)
        if not patch:
            continue
        terminal.tprint('%3d %s' % (patch.seq, patch.subject[:50]),
                        colour=col.BLUE)
        cmt = series.commits[seq]
        base_rtags = cmt.rtags
        new_rtags = new_rtag_list[seq]

        indent = ' ' * 2
        show_responses(base_rtags, indent, False)
        num_to_add += show_responses(new_rtags, indent, True)
        if show_comments:
            for review in review_list[seq]:
                terminal.tprint('Review: %s' % review.meta, colour=col.RED)
                for snippet in review.snippets:
                    for line in snippet:
                        quoted = line.startswith('>')
                        terminal.tprint('    %s' % line,
                                        colour=col.MAGENTA if quoted else None)
                    terminal.tprint()

    terminal.tprint(
        "%d new response%s available in patchwork%s" %
        (num_to_add, 's' if num_to_add != 1 else '',
         '' if dest_branch else ' (use -d to write them to a new branch)'))

    if dest_branch:
        num_added = create_branch(series, new_rtag_list, branch, dest_branch,
                                  force, test_repo)
        terminal.tprint(
            "%d response%s added from patchwork into new branch '%s'" %
            (num_added, 's' if num_added != 1 else '', dest_branch))