# SPDX-License-Identifier: GPL-2.0+ # Copyright (c) 2013 The Chromium OS Authors. # """Control module for buildman This holds the main control logic for buildman, when not running tests. """ import multiprocessing import os import shutil import sys from buildman import boards from buildman import bsettings from buildman import cfgutil from buildman import toolchain from buildman.builder import Builder from patman import gitutil from patman import patchstream from u_boot_pylib import command from u_boot_pylib import terminal from u_boot_pylib.terminal import tprint TEST_BUILDER = None def get_plural(count): """Returns a plural 's' if count is not 1""" return 's' if count != 1 else '' def count_build_commits(commits, step): """Calculate the number of commits to be built Args: commits (list of Commit): Commits to build or None step (int): Step value for commits, typically 1 Returns: Number of commits that will be built """ if commits: count = len(commits) return (count + step - 1) // step return 0 def get_action_summary(is_summary, commit_count, selected, threads, jobs): """Return a string summarising the intended action. Args: is_summary (bool): True if this is a summary (otherwise it is building) commits (list): List of commits being built selected (list of Board): List of Board objects that are marked step (int): Step increment through commits threads (int): Number of processor threads being used jobs (int): Number of jobs to build at once Returns: Summary string. """ if commit_count: commit_str = f'{commit_count} commit{get_plural(commit_count)}' else: commit_str = 'current source' msg = (f"{'Summary of' if is_summary else 'Building'} " f'{commit_str} for {len(selected)} boards') msg += (f' ({threads} thread{get_plural(threads)}, ' f'{jobs} job{get_plural(jobs)} per thread)') return msg # pylint: disable=R0913 def show_actions(series, why_selected, boards_selected, output_dir, board_warnings, step, threads, jobs, verbose): """Display a list of actions that we would take, if not a dry run. Args: series: Series object why_selected: Dictionary where each key is a buildman argument provided by the user, and the value is the list of boards brought in by that argument. For example, 'arm' might bring in 400 boards, so in this case the key would be 'arm' and the value would be a list of board names. boards_selected: Dict of selected boards, key is target name, value is Board object output_dir (str): Output directory for builder board_warnings: List of warnings obtained from board selected step (int): Step increment through commits threads (int): Number of processor threads being used jobs (int): Number of jobs to build at once verbose (bool): True to indicate why each board was selected """ col = terminal.Color() print('Dry run, so not doing much. But I would do this:') print() if series: commits = series.commits else: commits = None print(get_action_summary(False, count_build_commits(commits, step), boards_selected, threads, jobs)) print(f'Build directory: {output_dir}') if commits: for upto in range(0, len(series.commits), step): commit = series.commits[upto] print(' ', col.build(col.YELLOW, commit.hash[:8], bright=False), end=' ') print(commit.subject) print() for arg in why_selected: if arg != 'all': print(arg, f': {len(why_selected[arg])} boards') if verbose: print(f" {' '.join(why_selected[arg])}") print('Total boards to build for each ' f"commit: {len(why_selected['all'])}\n") if board_warnings: for warning in board_warnings: print(col.build(col.YELLOW, warning)) def show_toolchain_prefix(brds, toolchains): """Show information about a the tool chain used by one or more boards The function checks that all boards use the same toolchain, then prints the correct value for CROSS_COMPILE. Args: boards: Boards object containing selected boards toolchains: Toolchains object containing available toolchains Return: None on success, string error message otherwise """ board_selected = brds.get_selected_dict() tc_set = set() for brd in board_selected.values(): tc_set.add(toolchains.Select(brd.arch)) if len(tc_set) != 1: sys.exit('Supplied boards must share one toolchain') tchain = tc_set.pop() print(tchain.GetEnvArgs(toolchain.VAR_CROSS_COMPILE)) def show_arch(brds): """Show information about a the architecture used by one or more boards The function checks that all boards use the same architecture, then prints the correct value for ARCH. Args: boards: Boards object containing selected boards Return: None on success, string error message otherwise """ board_selected = brds.get_selected_dict() arch_set = set() for brd in board_selected.values(): arch_set.add(brd.arch) if len(arch_set) != 1: sys.exit('Supplied boards must share one arch') print(arch_set.pop()) def get_allow_missing(opt_allow, opt_no_allow, num_selected, has_branch): """Figure out whether to allow external blobs Uses the allow-missing setting and the provided arguments to decide whether missing external blobs should be allowed Args: opt_allow (bool): True if --allow-missing flag is set opt_no_allow (bool): True if --no-allow-missing flag is set num_selected (int): Number of selected board has_branch (bool): True if a git branch (to build) has been provided Returns: bool: True to allow missing external blobs, False to produce an error if external blobs are used """ allow_missing = False am_setting = bsettings.get_global_item_value('allow-missing') if am_setting: if am_setting == 'always': allow_missing = True if 'multiple' in am_setting and num_selected > 1: allow_missing = True if 'branch' in am_setting and has_branch: allow_missing = True if opt_allow: allow_missing = True if opt_no_allow: allow_missing = False return allow_missing def count_commits(branch, count, col, git_dir): """Could the number of commits in the branch/ranch being built Args: branch (str): Name of branch to build, or None if none count (int): Number of commits to build, or -1 for all col (Terminal.Color): Color object to use git_dir (str): Git directory to use, e.g. './.git' Returns: tuple: Number of commits being built True if the 'branch' string contains a range rather than a simple name """ has_range = branch and '..' in branch if count == -1: if not branch: count = 1 else: if has_range: count, msg = gitutil.count_commits_in_range(git_dir, branch) else: count, msg = gitutil.count_commits_in_branch(git_dir, branch) if count is None: sys.exit(col.build(col.RED, msg)) elif count == 0: sys.exit(col.build(col.RED, f"Range '{branch}' has no commits")) if msg: print(col.build(col.YELLOW, msg)) count += 1 # Build upstream commit also if not count: msg = (f"No commits found to process in branch '{branch}': " "set branch's upstream or use -c flag") sys.exit(col.build(col.RED, msg)) return count, has_range def determine_series(selected, col, git_dir, count, branch, work_in_output): """Determine the series which is to be built, if any If there is a series, the commits in that series are numbered by setting their sequence value (starting from 0). This is used by tests. Args: selected (list of Board): List of Board objects that are marked selected col (Terminal.Color): Color object to use git_dir (str): Git directory to use, e.g. './.git' count (int): Number of commits in branch branch (str): Name of branch to build, or None if none work_in_output (bool): True to work in the output directory Returns: Series: Series to build, or None for none 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 """ # 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, has_range = count_commits(branch, count, col, git_dir) if 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')) if branch: if count == -1: if has_range: range_expr = branch else: range_expr = gitutil.get_range_in_branch(git_dir, branch) upstream_commit = gitutil.get_upstream(git_dir, branch) series = patchstream.get_metadata_for_list(upstream_commit, git_dir, 1, series=None, allow_overwrite=True) series = patchstream.get_metadata_for_list(range_expr, git_dir, None, series, allow_overwrite=True) else: # Honour the count series = patchstream.get_metadata_for_list(branch, git_dir, count, series=None, allow_overwrite=True) # Number the commits for test purposes for i, commit in enumerate(series.commits): commit.sequence = i else: series = None return series def do_fetch_arch(toolchains, col, fetch_arch): """Handle the --fetch-arch option Args: toolchains (Toolchains): Tool chains to use col (terminal.Color): Color object to build fetch_arch (str): Argument passed to the --fetch-arch option Returns: int: Return code for buildman """ if fetch_arch == 'list': sorted_list = toolchains.ListArchs() print(col.build( col.BLUE, f"Available architectures: {' '.join(sorted_list)}\n")) return 0 if fetch_arch == 'all': fetch_arch = ','.join(toolchains.ListArchs()) print(col.build(col.CYAN, f'\nDownloading toolchains: {fetch_arch}')) for arch in fetch_arch.split(','): print() ret = toolchains.FetchAndInstall(arch) if ret: return ret return 0 def get_toolchains(toolchains, col, override_toolchain, fetch_arch, list_tool_chains, verbose): """Get toolchains object to use Args: toolchains (Toolchains or None): Toolchains to use. If None, then a Toolchains object will be created and scanned col (Terminal.Color): Color object override_toolchain (str or None): Override value for toolchain, or None fetch_arch (bool): True to fetch the toolchain for the architectures list_tool_chains (bool): True to list all tool chains verbose (bool): True for verbose output when listing toolchains Returns: Either: int: Operation completed and buildman should exit with exit code Toolchains: Toolchains object to use """ no_toolchains = toolchains is None if no_toolchains: toolchains = toolchain.Toolchains(override_toolchain) if fetch_arch: return do_fetch_arch(toolchains, col, fetch_arch) if no_toolchains: toolchains.GetSettings() toolchains.Scan(list_tool_chains and verbose) if list_tool_chains: toolchains.List() print() return 0 return toolchains def get_boards_obj(output_dir, regen_board_list, maintainer_check, full_check, threads, verbose): """Object the Boards object to use Creates the output directory and ensures there is a boards.cfg file, then read it in. Args: output_dir (str): Output directory to use regen_board_list (bool): True to just regenerate the board list maintainer_check (bool): True to just run a maintainer check full_check (bool): True to just run a full check of Kconfig and maintainers threads (int or None): Number of threads to use to create boards file verbose (bool): False to suppress output from boards-file generation Returns: Either: int: Operation completed and buildman should exit with exit code Boards: Boards object to use """ brds = boards.Boards() nr_cpus = threads or multiprocessing.cpu_count() if maintainer_check or full_check: warnings = brds.build_board_list(jobs=nr_cpus, warn_targets=full_check)[1] if warnings: for warn in warnings: print(warn, file=sys.stderr) return 2 return 0 if not os.path.exists(output_dir): os.makedirs(output_dir) board_file = os.path.join(output_dir, 'boards.cfg') if regen_board_list and regen_board_list != '-': board_file = regen_board_list okay = brds.ensure_board_list(board_file, nr_cpus, force=regen_board_list, quiet=not verbose) if regen_board_list: return 0 if okay else 2 brds.read_boards(board_file) return brds def determine_boards(brds, args, col, opt_boards, exclude_list): """Determine which boards to build Each element of args and exclude can refer to a board name, arch or SoC Args: brds (Boards): Boards object args (list of str): Arguments describing boards to build col (Terminal.Color): Color object opt_boards (list of str): Specific boards to build, or None for all exclude_list (list of str): Arguments describing boards to exclude Returns: tuple: list of Board: List of Board objects that are marked selected why_selected: Dictionary where each key is a buildman argument provided by the user, and the value is the list of boards brought in by that argument. For example, 'arm' might bring in 400 boards, so in this case the key would be 'arm' and the value would be a list of board names. board_warnings: List of warnings obtained from board selected """ exclude = [] if exclude_list: for arg in exclude_list: exclude += arg.split(',') if opt_boards: requested_boards = [] for brd in opt_boards: requested_boards += brd.split(',') else: requested_boards = None why_selected, board_warnings = brds.select_boards(args, exclude, requested_boards) selected = brds.get_selected() if not selected: sys.exit(col.build(col.RED, 'No matching boards found')) return selected, why_selected, board_warnings def adjust_args(args, series, selected): """Adjust arguments according to various constraints Updates verbose, show_errors, threads, jobs and step Args: args (Namespace): Namespace object to adjust series (Series): Series being built / summarised selected (list of Board): List of Board objects that are marked """ if not series and not args.dry_run: args.verbose = True if not args.summary: args.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 args.threads is None: args.threads = min(multiprocessing.cpu_count(), len(selected)) if not args.jobs: args.jobs = max(1, (multiprocessing.cpu_count() + len(selected) - 1) // len(selected)) if not args.step: args.step = len(series.commits) - 1 # We can't show function sizes without board details at present if args.show_bloat: args.show_detail = True def setup_output_dir(output_dir, work_in_output, branch, no_subdirs, col, clean_dir): """Set up the output directory Args: output_dir (str): Output directory provided by the user, or None if none work_in_output (bool): True to work in the output directory branch (str): Name of branch to build, or None if none no_subdirs (bool): True to put the output in the top-level output dir clean_dir: Used for tests only, indicates that the existing output_dir should be removed before starting the build Returns: str: Updated output directory pathname """ if not output_dir: if work_in_output: sys.exit(col.build(col.RED, '-w requires that you specify -o')) output_dir = '..' if branch and not no_subdirs: # As a special case allow the board directory to be placed in the # output directory itself rather than any subdirectory. dirname = branch.replace('/', '_') output_dir = os.path.join(output_dir, dirname) if clean_dir and os.path.exists(output_dir): shutil.rmtree(output_dir) return output_dir def run_builder(builder, commits, board_selected, args): """Run the builder or show the summary Args: commits (list of Commit): List of commits being built, None if no branch boards_selected (dict): Dict of selected boards: key: target name value: Board object args (Namespace): Namespace to use Returns: int: Return code for buildman """ gnu_make = command.output(os.path.join(args.git, 'scripts/show-gnu-make'), raise_on_error=False).rstrip() if not gnu_make: sys.exit('GNU Make not found') builder.gnu_make = gnu_make if not args.ide: commit_count = count_build_commits(commits, args.step) tprint(get_action_summary(args.summary, commit_count, board_selected, args.threads, args.jobs)) builder.set_display_options( args.show_errors, args.show_sizes, args.show_detail, args.show_bloat, args.list_error_boards, args.show_config, args.show_environment, args.filter_dtb_warnings, args.filter_migration_warnings, args.ide) if args.summary: builder.show_summary(commits, board_selected) else: fail, warned, excs = builder.build_boards( commits, board_selected, args.keep_outputs, args.verbose) if excs: return 102 if fail: return 100 if warned and not args.ignore_warnings: return 101 return 0 def calc_adjust_cfg(adjust_cfg, reproducible_builds): """Calculate the value to use for adjust_cfg Args: adjust_cfg (list of str): List of configuration changes. See cfgutil for details reproducible_builds (bool): True to adjust the configuration to get reproduceable builds Returns: adjust_cfg (list of str): List of configuration changes """ adjust_cfg = cfgutil.convert_list_to_dict(adjust_cfg) # Drop LOCALVERSION_AUTO since it changes the version string on every commit if reproducible_builds: # If these are mentioned, leave the local version alone if 'LOCALVERSION' in adjust_cfg or 'LOCALVERSION_AUTO' in adjust_cfg: print('Not dropping LOCALVERSION_AUTO for reproducible build') else: adjust_cfg['LOCALVERSION_AUTO'] = '~' return adjust_cfg def do_buildman(args, toolchains=None, make_func=None, brds=None, clean_dir=False, test_thread_exceptions=False): """The main control code for buildman Args: args: ArgumentParser 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. brds: 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 """ # Used so testing can obtain the builder: pylint: disable=W0603 global TEST_BUILDER gitutil.setup() col = terminal.Color() git_dir = os.path.join(args.git, '.git') toolchains = get_toolchains(toolchains, col, args.override_toolchain, args.fetch_arch, args.list_tool_chains, args.verbose) if isinstance(toolchains, int): return toolchains output_dir = setup_output_dir( args.output_dir, args.work_in_output, args.branch, args.no_subdirs, col, clean_dir) # Work out what subset of the boards we are building if not brds: brds = get_boards_obj(output_dir, args.regen_board_list, args.maintainer_check, args.full_check, args.threads, args.verbose and not args.print_arch and not args.print_prefix) if isinstance(brds, int): return brds selected, why_selected, board_warnings = determine_boards( brds, args.terms, col, args.boards, args.exclude) if args.print_prefix: show_toolchain_prefix(brds, toolchains) return 0 if args.print_arch: show_arch(brds) return 0 series = determine_series(selected, col, git_dir, args.count, args.branch, args.work_in_output) adjust_args(args, series, selected) # For a dry run, just show our actions as a sanity check if args.dry_run: show_actions(series, why_selected, selected, output_dir, board_warnings, args.step, args.threads, args.jobs, args.verbose) return 0 # Create a new builder with the selected args builder = Builder(toolchains, output_dir, git_dir, args.threads, args.jobs, checkout=True, show_unknown=args.show_unknown, step=args.step, no_subdirs=args.no_subdirs, full_path=args.full_path, verbose_build=args.verbose_build, mrproper=args.mrproper, per_board_out_dir=args.per_board_out_dir, config_only=args.config_only, squash_config_y=not args.preserve_config_y, warnings_as_errors=args.warnings_as_errors, work_in_output=args.work_in_output, test_thread_exceptions=test_thread_exceptions, adjust_cfg=calc_adjust_cfg(args.adjust_cfg, args.reproducible_builds), allow_missing=get_allow_missing(args.allow_missing, args.no_allow_missing, len(selected), args.branch), no_lto=args.no_lto, reproducible_builds=args.reproducible_builds, force_build = args.force_build, force_build_failures = args.force_build_failures, force_reconfig = args.force_reconfig, in_tree = args.in_tree, force_config_on_failure=not args.quick, make_func=make_func) TEST_BUILDER = builder return run_builder(builder, series.commits if series else None, brds.get_selected_dict(), args)