# Copyright 2024, The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Build script for the CI `test_suites` target.""" import argparse from dataclasses import dataclass import json import logging import os import pathlib import re import subprocess import sys from typing import Callable from build_context import BuildContext import optimized_targets import metrics_agent import test_discovery_agent REQUIRED_ENV_VARS = frozenset(['TARGET_PRODUCT', 'TARGET_RELEASE', 'TOP', 'DIST_DIR']) SOONG_UI_EXE_REL_PATH = 'build/soong/soong_ui.bash' LOG_PATH = 'logs/build_test_suites.log' REQUIRED_BUILD_TARGETS = frozenset(['dist']) class Error(Exception): def __init__(self, message): super().__init__(message) class BuildFailureError(Error): def __init__(self, return_code): super().__init__(f'Build command failed with return code: f{return_code}') self.return_code = return_code class BuildPlanner: """Class in charge of determining how to optimize build targets. Given the build context and targets to build it will determine a final list of targets to build along with getting a set of packaging functions to package up any output zip files needed by the build. """ def __init__( self, build_context: BuildContext, args: argparse.Namespace, target_optimizations: dict[str, optimized_targets.OptimizedBuildTarget], ): self.build_context = build_context self.args = args self.target_optimizations = target_optimizations def create_build_plan(self): if 'optimized_build' not in self.build_context.enabled_build_features: return BuildPlan(set(self.args.extra_targets), set()) build_targets = set() packaging_commands_getters = [] # In order to roll optimizations out differently between test suites and # device builds, we have separate flags. if ( 'test_suites_zip_test_discovery' in self.build_context.enabled_build_features and not self.args.device_build ) or ( 'device_zip_test_discovery' in self.build_context.enabled_build_features and self.args.device_build ): preliminary_build_targets = self._collect_preliminary_build_targets() else: preliminary_build_targets = self._legacy_collect_preliminary_build_targets() # Keep reporting metrics when test discovery is disabled. # To be removed once test discovery is fully rolled out. optimization_rationale = '' test_discovery_zip_regexes = set() try: test_discovery_zip_regexes = self._get_test_discovery_zip_regexes() logging.info(f'Discovered test discovery regexes: {test_discovery_zip_regexes}') except test_discovery_agent.TestDiscoveryError as e: optimization_rationale = e.message logging.warning(f'Unable to perform test discovery: {optimization_rationale}') for target in self.args.extra_targets: if optimization_rationale: get_metrics_agent().report_unoptimized_target(target, optimization_rationale) continue try: regex = r'\b(%s.*)\b' % re.escape(target) if any(re.search(regex, opt) for opt in test_discovery_zip_regexes): get_metrics_agent().report_unoptimized_target(target, 'Test artifact used.') continue get_metrics_agent().report_optimized_target(target) except Exception as e: logging.error(f'unable to parse test discovery output: {repr(e)}') for target in preliminary_build_targets: target_optimizer_getter = self.target_optimizations.get(target, None) if not target_optimizer_getter: build_targets.add(target) continue target_optimizer = target_optimizer_getter( target, self.build_context, self.args ) build_targets.update(target_optimizer.get_build_targets()) packaging_commands_getters.append( target_optimizer.get_package_outputs_commands ) return BuildPlan(build_targets, packaging_commands_getters) def _collect_preliminary_build_targets(self): build_targets = set() try: test_discovery_zip_regexes = self._get_test_discovery_zip_regexes() logging.info(f'Discovered test discovery regexes: {test_discovery_zip_regexes}') except test_discovery_agent.TestDiscoveryError as e: optimization_rationale = e.message logging.warning(f'Unable to perform test discovery: {optimization_rationale}') for target in self.args.extra_targets: get_metrics_agent().report_unoptimized_target(target, optimization_rationale) return self._legacy_collect_preliminary_build_targets() for target in self.args.extra_targets: if target in REQUIRED_BUILD_TARGETS: build_targets.add(target) continue regex = r'\b(%s.*)\b' % re.escape(target) for opt in test_discovery_zip_regexes: try: if re.search(regex, opt): get_metrics_agent().report_unoptimized_target(target, 'Test artifact used.') build_targets.add(target) continue get_metrics_agent().report_optimized_target(target) except Exception as e: # In case of exception report as unoptimized build_targets.add(target) get_metrics_agent().report_unoptimized_target(target, f'Error in parsing test discovery output for {target}: {repr(e)}') logging.error(f'unable to parse test discovery output: {repr(e)}') return build_targets def _legacy_collect_preliminary_build_targets(self): build_targets = set() for target in self.args.extra_targets: if self._unused_target_exclusion_enabled( target ) and not self.build_context.build_target_used(target): continue build_targets.add(target) return build_targets def _unused_target_exclusion_enabled(self, target: str) -> bool: return ( f'{target}_unused_exclusion' in self.build_context.enabled_build_features ) def _get_test_discovery_zip_regexes(self) -> set[str]: build_target_regexes = set() for test_info in self.build_context.test_infos: tf_command = self._build_tf_command(test_info) discovery_agent = test_discovery_agent.TestDiscoveryAgent(tradefed_args=tf_command) for regex in discovery_agent.discover_test_zip_regexes(): build_target_regexes.add(regex) return build_target_regexes def _build_tf_command(self, test_info) -> list[str]: command = [test_info.command] for extra_option in test_info.extra_options: if not extra_option.get('key'): continue arg_key = '--' + extra_option.get('key') if arg_key == '--build-id': command.append(arg_key) command.append(os.environ.get('BUILD_NUMBER')) continue if extra_option.get('values'): for value in extra_option.get('values'): command.append(arg_key) command.append(value) else: command.append(arg_key) return command @dataclass(frozen=True) class BuildPlan: build_targets: set[str] packaging_commands_getters: list[Callable[[], list[list[str]]]] def build_test_suites(argv: list[str]) -> int: """Builds all test suites passed in, optimizing based on the build_context content. Args: argv: The command line arguments passed in. Returns: The exit code of the build. """ get_metrics_agent().analysis_start() try: args = parse_args(argv) check_required_env() build_context = BuildContext(load_build_context()) build_planner = BuildPlanner( build_context, args, optimized_targets.OPTIMIZED_BUILD_TARGETS ) build_plan = build_planner.create_build_plan() except: raise finally: get_metrics_agent().analysis_end() try: execute_build_plan(build_plan) except BuildFailureError as e: logging.error('Build command failed! Check build_log for details.') return e.return_code finally: get_metrics_agent().end_reporting() return 0 def parse_args(argv: list[str]) -> argparse.Namespace: argparser = argparse.ArgumentParser() argparser.add_argument( 'extra_targets', nargs='*', help='Extra test suites to build.' ) argparser.add_argument( '--device-build', action='store_true', help='Flag to indicate running a device build.', ) return argparser.parse_args(argv) def check_required_env(): """Check for required env vars. Raises: RuntimeError: If any required env vars are not found. """ missing_env_vars = sorted(v for v in REQUIRED_ENV_VARS if v not in os.environ) if not missing_env_vars: return t = ','.join(missing_env_vars) raise Error(f'Missing required environment variables: {t}') def load_build_context(): build_context_path = pathlib.Path(os.environ.get('BUILD_CONTEXT', '')) if build_context_path.is_file(): try: with open(build_context_path, 'r') as f: return json.load(f) except json.decoder.JSONDecodeError as e: raise Error(f'Failed to load JSON file: {build_context_path}') logging.info('No BUILD_CONTEXT found, skipping optimizations.') return empty_build_context() def empty_build_context(): return {'enabledBuildFeatures': []} def execute_build_plan(build_plan: BuildPlan): build_command = [] build_command.append(get_top().joinpath(SOONG_UI_EXE_REL_PATH)) build_command.append('--make-mode') build_command.extend(build_plan.build_targets) try: run_command(build_command) except subprocess.CalledProcessError as e: raise BuildFailureError(e.returncode) from e get_metrics_agent().packaging_start() try: for packaging_commands_getter in build_plan.packaging_commands_getters: for packaging_command in packaging_commands_getter(): run_command(packaging_command) except subprocess.CalledProcessError as e: raise BuildFailureError(e.returncode) from e finally: get_metrics_agent().packaging_end() def get_top() -> pathlib.Path: return pathlib.Path(os.environ['TOP']) def run_command(args: list[str], stdout=None): subprocess.run(args=args, check=True, stdout=stdout) def get_metrics_agent(): return metrics_agent.MetricsAgent.instance() def main(argv): dist_dir = os.environ.get('DIST_DIR') if dist_dir: log_file = pathlib.Path(dist_dir) / LOG_PATH logging.basicConfig( level=logging.DEBUG, format='%(asctime)s %(levelname)s %(message)s', filename=log_file, ) sys.exit(build_test_suites(argv)) if __name__ == '__main__': main(sys.argv[1:])