#!/usr/bin/env python3.8 # -*- coding: utf-8 -*- # Copyright 2021 The ChromiumOS Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Build and test all of the Zephyr boards. This is the entry point for the custom firmware builder workflow recipe. """ import argparse import multiprocessing import pathlib import re import shlex import subprocess import sys from google.protobuf import json_format # pylint: disable=import-error import zmake.project from chromite.api.gen_sdk.chromite.api import firmware_pb2 DEFAULT_BUNDLE_DIRECTORY = "/tmp/artifact_bundles" DEFAULT_BUNDLE_METADATA_FILE = "/tmp/artifact_bundle_metadata" # Boards that we want to track the coverage of our own files specifically. SPECIAL_BOARDS = [ "herobrine", "krabby", "skyrim", "kingler", "rex", "geralt", "myst", # Nissa variants "nereid", "nivviks", # Skyrim variants "winterhold", "frostflow", "crystaldrift", "markarth", ] BINARY_SIZE_REGIONS = [ "RO_FLASH", "RO_RAM", "RO_ROM", "RW_FLASH", "RW_RAM", "RW_ROM", ] def log_cmd(cmd, env=None): """Log subprocess command.""" if env is not None: print("env", end=" ") [ # pylint:disable=expression-not-assigned print(key + "=" + shlex.quote(str(value)), end=" ") for key, value in env.items() ] print(" ".join(shlex.quote(str(x)) for x in cmd)) sys.stdout.flush() def build(opts): """Builds all Zephyr firmware targets""" metric_list = firmware_pb2.FwBuildMetricList() zephyr_dir = pathlib.Path(__file__).parent.resolve() platform_ec = zephyr_dir.parent subprocess.run( [platform_ec / "util" / "check_clang_format.py"], check=True, cwd=platform_ec, stdin=subprocess.DEVNULL, ) # Start with a clean build environment cmd = ["make", "clobber"] log_cmd(cmd) subprocess.run(cmd, cwd=platform_ec, check=True, stdin=subprocess.DEVNULL) cmd = ["zmake", "-D", "build", "-a"] if opts.code_coverage: cmd.append("--coverage") log_cmd(cmd) subprocess.run(cmd, cwd=zephyr_dir, check=True, stdin=subprocess.DEVNULL) if not opts.code_coverage: for project in zmake.project.find_projects(zephyr_dir).values(): build_dir = ( platform_ec / "build" / "zephyr" / project.config.project_name ) metric = metric_list.value.add() metric.target_name = project.config.project_name metric.platform_name = project.config.zephyr_board for variant, _ in project.iter_builds(): build_log = build_dir / f"build-{variant}" / "build.log" parse_buildlog( build_log, metric, variant.upper(), metric.target_name in SPECIAL_BOARDS, ) with open(opts.metrics, "w") as file: file.write(json_format.MessageToJson(metric_list)) UNITS = { "B": 1, "KB": 1024, "MB": 1024 * 1024, "GB": 1024 * 1024 * 1024, } def parse_buildlog(filename, metric, variant, track_on_gerrit): """Parse the build.log generated by zmake to find the size of the image.""" with open(filename, "r") as infile: # Skip over all lines until the memory report is found while True: line = infile.readline() if not line: return if line.startswith("Memory region"): break for line in infile.readlines(): # Skip any lines that are not part of the report if not line.startswith(" "): continue parts = line.split() fw_section = metric.fw_section.add() fw_section.region = variant + "_" + parts[0][:-1] fw_section.used = int(parts[1]) * UNITS[parts[2]] fw_section.total = int(parts[3]) * UNITS[parts[4]] if track_on_gerrit and fw_section.region in BINARY_SIZE_REGIONS: fw_section.track_on_gerrit = True else: fw_section.track_on_gerrit = False def bundle(opts): """Bundle the artifacts for either firmware or code coverage.""" if opts.code_coverage: bundle_coverage(opts) else: bundle_firmware(opts) def get_bundle_dir(opts): """Get the directory for the bundle from opts or use the default. Also create the directory if it doesn't exist. """ if opts.output_dir: bundle_dir = opts.output_dir else: bundle_dir = DEFAULT_BUNDLE_DIRECTORY bundle_dir = pathlib.Path(bundle_dir) if not bundle_dir.is_dir(): bundle_dir.mkdir() return bundle_dir def write_metadata(opts, info): """Write the metadata about the bundle.""" bundle_metadata_file = ( opts.metadata if opts.metadata else DEFAULT_BUNDLE_METADATA_FILE ) with open(bundle_metadata_file, "w") as file: file.write(json_format.MessageToJson(info)) def bundle_coverage(opts): """Bundles the artifacts from code coverage into its own tarball.""" info = firmware_pb2.FirmwareArtifactInfo() info.bcs_version_info.version_string = opts.bcs_version bundle_dir = get_bundle_dir(opts) zephyr_dir = pathlib.Path(__file__).parent.resolve() platform_ec = zephyr_dir.parent build_dir = platform_ec / "build" / "zephyr" tarball_name = "coverage.tbz2" tarball_path = bundle_dir / tarball_name cmd = ["tar", "cvfj", tarball_path, "lcov.info"] log_cmd(cmd) subprocess.run(cmd, cwd=build_dir, check=True, stdin=subprocess.DEVNULL) meta = info.objects.add() meta.file_name = tarball_name meta.lcov_info.type = ( firmware_pb2.FirmwareArtifactInfo.LcovTarballInfo.LcovType.LCOV ) (bundle_dir / "html").mkdir(exist_ok=True) cmd = ["mv", "lcov_rpt"] for board in SPECIAL_BOARDS: cmd.append(board + "_rpt") cmd.append(bundle_dir / "html/") log_cmd(cmd) subprocess.run(cmd, cwd=build_dir, check=True, stdin=subprocess.DEVNULL) meta = info.objects.add() meta.file_name = "html" meta.coverage_html.SetInParent() write_metadata(opts, info) def bundle_firmware(opts): """Bundles the artifacts from each target into its own tarball.""" info = firmware_pb2.FirmwareArtifactInfo() info.bcs_version_info.version_string = opts.bcs_version bundle_dir = get_bundle_dir(opts) zephyr_dir = pathlib.Path(__file__).parent.resolve() platform_ec = zephyr_dir.parent for project in zmake.project.find_projects(zephyr_dir).values(): build_dir = ( platform_ec / "build" / "zephyr" / project.config.project_name ) artifacts_dir = build_dir / "output" tarball_name = f"{project.config.project_name}.firmware.tbz2" tarball_path = bundle_dir.joinpath(tarball_name) cmd = ["tar", "cvfj", tarball_path, "."] log_cmd(cmd) subprocess.run( cmd, cwd=artifacts_dir, check=True, stdin=subprocess.DEVNULL ) meta = info.objects.add() meta.file_name = tarball_name meta.tarball_info.type = ( firmware_pb2.FirmwareArtifactInfo.TarballInfo.FirmwareType.EC ) # TODO(kmshelton): Populate the rest of metadata contents as it # gets defined in infra/proto/src/chromite/api/firmware.proto. write_metadata(opts, info) def test(opts): """Runs all of the unit tests for Zephyr firmware""" metrics = firmware_pb2.FwTestMetricList() zephyr_dir = pathlib.Path(__file__).parent.resolve() # Run tests from Makefile.cq because make knows how to run things # in parallel. cmd = ["make", "-f", "Makefile.cq", f"-j{opts.cpus}", "test"] if opts.code_coverage: cmd.append("COVERAGE=1") if SPECIAL_BOARDS: cmd.append(f"SPECIAL_BOARDS={' '.join(SPECIAL_BOARDS)}") log_cmd(cmd) subprocess.run( cmd, check=True, cwd=zephyr_dir, stdin=subprocess.DEVNULL, ) # Twister-based tests platform_ec = zephyr_dir.parent twister_out_dir = platform_ec / "twister-out-llvm" twister_out_dir_gcc = platform_ec / "twister-out-host" if opts.code_coverage: build_dir = platform_ec / "build" / "zephyr" _extract_lcov_summary( "EC_ZEPHYR_TESTS", metrics, twister_out_dir / "coverage.info" ) _extract_lcov_summary( "EC_ZEPHYR_TESTS_GCC", metrics, twister_out_dir_gcc / "coverage.info", ) _extract_lcov_summary( "EC_LEGACY_TESTS", metrics, platform_ec / "build/coverage/lcov.info" ) _extract_lcov_summary( "ALL_TESTS", metrics, build_dir / "all_tests.info" ) _extract_lcov_summary( "EC_ZEPHYR_MERGED", metrics, build_dir / "zephyr_merged.info" ) _extract_lcov_summary("ALL_MERGED", metrics, build_dir / "lcov.info") _extract_lcov_summary( "ALL_FILTERED", metrics, build_dir / "lcov_no_tests.info" ) for board in SPECIAL_BOARDS: _extract_lcov_summary( f"BOARD_{board}".upper(), metrics, build_dir / (board + "_final.info"), ) with open(opts.metrics, "w") as file: file.write(json_format.MessageToJson(metrics)) # type: ignore COVERAGE_RE = re.compile( r"lines\.*: *([0-9\.]+)% \(([0-9]+) of ([0-9]+) lines\)" ) def _extract_lcov_summary(name, metrics, filename): zephyr_dir = pathlib.Path(__file__).parent.resolve() cmd = [ "/usr/bin/lcov", "--summary", filename, ] log_cmd(cmd) output = subprocess.run( cmd, cwd=zephyr_dir, check=True, stdout=subprocess.PIPE, universal_newlines=True, stdin=subprocess.DEVNULL, ).stdout re_match = COVERAGE_RE.search(output) if re_match: metric = metrics.value.add() metric.name = name metric.coverage_percent = float(re_match.group(1)) metric.covered_lines = int(re_match.group(2)) metric.total_lines = int(re_match.group(3)) def main(args): """Builds and tests all of the Zephyr targets and reports build metrics""" opts = parse_args(args) if not hasattr(opts, "func"): print("Must select a valid sub command!") return -1 # Run selected sub command function opts.func(opts) return 0 def parse_args(args): """Parse command line args.""" parser = argparse.ArgumentParser(description=__doc__) parser.add_argument( "--cpus", default=multiprocessing.cpu_count(), help="The number of cores to use.", ) parser.add_argument( "--metrics", dest="metrics", required=True, help="File to write the json-encoded MetricsList proto message.", ) parser.add_argument( "--metadata", required=False, help=( "Full pathname for the file in which to write build artifact " "metadata." ), ) parser.add_argument( "--output-dir", required=False, help=( "Full pathname for the directory in which to bundle build " "artifacts." ), ) parser.add_argument( "--code-coverage", required=False, action="store_true", help="Build host-based unit tests for code coverage.", ) parser.add_argument( "--bcs-version", dest="bcs_version", default="", required=False, # TODO(b/180008931): make this required=True. help="BCS version to include in metadata.", ) # Would make this required=True, but not available until 3.7 sub_cmds = parser.add_subparsers() build_cmd = sub_cmds.add_parser("build", help="Builds all firmware targets") build_cmd.set_defaults(func=build) build_cmd = sub_cmds.add_parser( "bundle", help="Creates a tarball containing build " "artifacts from all firmware targets", ) build_cmd.set_defaults(func=bundle) test_cmd = sub_cmds.add_parser("test", help="Runs all firmware unit tests") test_cmd.set_defaults(func=test) return parser.parse_args(args) if __name__ == "__main__": sys.exit(main(sys.argv[1:]))