#!/usr/bin/env python # coding=utf-8 # # ESP-IDF helper script to enumerate the builds of multiple configurations of multiple apps. # Produces the list of builds. The list can be consumed by build_apps.py, which performs the actual builds. import argparse import os import sys import re import glob import logging import typing from typing import Optional from find_build_apps import ( BUILD_SYSTEMS, BUILD_SYSTEM_CMAKE, BuildSystem, BuildItem, setup_logging, ConfigRule, config_rules_from_str, DEFAULT_TARGET, ) # Helper functions def dict_from_sdkconfig(path): """ Parse the sdkconfig file at 'path', return name:value pairs as a dict """ regex = re.compile(r"^([^#=]+)=(.+)$") result = {} with open(path) as f: for line in f: m = regex.match(line) if m: val = m.group(2) if val.startswith('"') and val.endswith('"'): val = val[1:-1] result[m.group(1)] = val return result # Main logic: enumerating apps and builds def find_builds_for_app( app_path, work_dir, build_dir, build_log, target_arg, build_system, config_rules): # type: (str, str, str, str, str, str, typing.List[ConfigRule]) -> typing.List[BuildItem] """ Find configurations (sdkconfig file fragments) for the given app, return them as BuildItem objects :param app_path: app directory (can be / usually will be a relative path) :param work_dir: directory where the app should be copied before building. May contain env. variables and placeholders. :param build_dir: directory where the build will be done, relative to the work_dir. May contain placeholders. :param build_log: path of the build log. May contain placeholders. May be None, in which case the log should go into stdout/stderr. :param target_arg: the value of IDF_TARGET passed to the script. Used to filter out configurations with a different CONFIG_IDF_TARGET value. :param build_system: name of the build system, index into BUILD_SYSTEMS dictionary :param config_rules: mapping of sdkconfig file name patterns to configuration names :return: list of BuildItems representing build configuration of the app """ build_items = [] # type: typing.List[BuildItem] default_config_name = "" for rule in config_rules: if not rule.file_name: default_config_name = rule.config_name continue sdkconfig_paths = glob.glob(os.path.join(app_path, rule.file_name)) sdkconfig_paths = sorted(sdkconfig_paths) for sdkconfig_path in sdkconfig_paths: # Check if the sdkconfig file specifies IDF_TARGET, and if it is matches the --target argument. sdkconfig_dict = dict_from_sdkconfig(sdkconfig_path) target_from_config = sdkconfig_dict.get("CONFIG_IDF_TARGET") if target_from_config is not None and target_from_config != target_arg: logging.debug("Skipping sdkconfig {} which requires target {}".format( sdkconfig_path, target_from_config)) continue # Figure out the config name config_name = rule.config_name or "" if "*" in rule.file_name: # convert glob pattern into a regex regex_str = r".*" + rule.file_name.replace(".", r"\.").replace("*", r"(.*)") groups = re.match(regex_str, sdkconfig_path) assert groups config_name = groups.group(1) sdkconfig_path = os.path.relpath(sdkconfig_path, app_path) logging.debug('Adding build: app {}, sdkconfig {}, config name "{}"'.format( app_path, sdkconfig_path, config_name)) build_items.append( BuildItem( app_path, work_dir, build_dir, build_log, target_arg, sdkconfig_path, config_name, build_system, )) if not build_items: logging.debug('Adding build: app {}, default sdkconfig, config name "{}"'.format(app_path, default_config_name)) return [ BuildItem( app_path, work_dir, build_dir, build_log, target_arg, None, default_config_name, build_system, ) ] return build_items def find_apps(build_system_class, path, recursive, exclude_list, target, build_apps_list_file=None): # type: (typing.Type[BuildSystem], str, bool, typing.List[str], str, Optional[str]) -> typing.List[str] """ Find app directories in path (possibly recursively), which contain apps for the given build system, compatible with the given target. :param build_system_class: class derived from BuildSystem, representing the build system in use :param path: path where to look for apps :param recursive: whether to recursively descend into nested directories if no app is found :param exclude_list: list of paths to be excluded from the recursive search :param target: desired value of IDF_TARGET; apps incompatible with the given target are skipped. :param build_apps_list_file: List of apps need to be built, apps not on this list will be skipped. None or empty file to build all apps. :return: list of paths of the apps found """ build_system_name = build_system_class.NAME logging.debug("Looking for {} apps in {}{}".format(build_system_name, path, " recursively" if recursive else "")) if not recursive: if exclude_list: logging.warn("--exclude option is ignored when used without --recursive") if not build_system_class.is_app(path): logging.warn("Path {} specified without --recursive flag, but no {} app found there".format( path, build_system_name)) return [] return [path] # if this argument is empty, treat it as build_all. if not build_apps_list_file: build_all = True else: # if this argument is not empty but the file doesn't exists, treat as no supported apps. if not os.path.exists(build_apps_list_file): return [] else: build_all = False with open(build_apps_list_file) as fr: apps_need_be_built = set([line.strip() for line in fr.readlines() if line]) # The remaining part is for recursive == True apps_found = [] # type: typing.List[str] for root, dirs, _ in os.walk(path, topdown=True): logging.debug("Entering {}".format(root)) if root in exclude_list: logging.debug("Skipping {} (excluded)".format(root)) del dirs[:] continue if not build_all: if os.path.abspath(root) not in apps_need_be_built: logging.debug("Skipping, app not listed in {}".format(build_apps_list_file)) continue if build_system_class.is_app(root): logging.debug("Found {} app in {}".format(build_system_name, root)) # Don't recurse into app subdirectories del dirs[:] supported_targets = build_system_class.supported_targets(root) if supported_targets and target not in supported_targets: logging.debug("Skipping, app only supports targets: " + ", ".join(supported_targets)) continue apps_found.append(root) return apps_found def main(): parser = argparse.ArgumentParser(description="Tool to generate build steps for IDF apps") parser.add_argument( "-v", "--verbose", action="count", help="Increase the logging level of the script. Can be specified multiple times.", ) parser.add_argument( "--log-file", type=argparse.FileType("w"), help="Write the script log to the specified file, instead of stderr", ) parser.add_argument( "--recursive", action="store_true", help="Look for apps in the specified directories recursively.", ) parser.add_argument("--build-system", choices=BUILD_SYSTEMS.keys(), default=BUILD_SYSTEM_CMAKE) parser.add_argument( "--work-dir", help="If set, the app is first copied into the specified directory, and then built." + "If not set, the work directory is the directory of the app.", ) parser.add_argument( "--config", action="append", help="Adds configurations (sdkconfig file names) to build. This can either be " + "FILENAME[=NAME] or FILEPATTERN. FILENAME is the name of the sdkconfig file, " + "relative to the project directory, to be used. Optional NAME can be specified, " + "which can be used as a name of this configuration. FILEPATTERN is the name of " + "the sdkconfig file, relative to the project directory, with at most one wildcard. " + "The part captured by the wildcard is used as the name of the configuration.", ) parser.add_argument( "--build-dir", help="If set, specifies the build directory name. Can expand placeholders. Can be either a " + "name relative to the work directory, or an absolute path.", ) parser.add_argument( "--build-log", help="If specified, the build log will be written to this file. Can expand placeholders.", ) parser.add_argument("--target", help="Build apps for given target.") parser.add_argument( "--format", default="json", choices=["json"], help="Format to write the list of builds as", ) parser.add_argument( "--exclude", action="append", help="Ignore specified directory (if --recursive is given). Can be used multiple times.", ) parser.add_argument( "-o", "--output", type=argparse.FileType("w"), help="Output the list of builds to the specified file", ) parser.add_argument( '-s', '--scan-tests-json', default=None, help="Scan tests result. Restrict the build/architect behavior to apps need to be built.\n" "If it's None or the file does not exist, will build all apps and upload all artifacts." ) parser.add_argument("paths", nargs="+", help="One or more app paths.") args = parser.parse_args() setup_logging(args) build_system_class = BUILD_SYSTEMS[args.build_system] # If the build target is not set explicitly, get it from the environment or use the default one (esp32) if not args.target: env_target = os.environ.get("IDF_TARGET") if env_target: logging.info("--target argument not set, using IDF_TARGET={} from the environment".format(env_target)) args.target = env_target else: logging.info("--target argument not set, using IDF_TARGET={} as the default".format(DEFAULT_TARGET)) args.target = DEFAULT_TARGET # Prepare the list of app paths app_paths = [] # type: typing.List[str] for path in args.paths: app_paths += find_apps(build_system_class, path, args.recursive, args.exclude or [], args.target, args.build_apps_list_file) build_items = [] # type: typing.List[BuildItem] if not app_paths: logging.warning("No {} apps found, skipping...".format(build_system_class.NAME)) sys.exit(0) logging.info("Found {} apps".format(len(app_paths))) app_paths = sorted(app_paths) # Find compatible configurations of each app, collect them as BuildItems config_rules = config_rules_from_str(args.config or []) for app_path in app_paths: build_items += find_builds_for_app( app_path, args.work_dir, args.build_dir, args.build_log, args.target, args.build_system, config_rules, ) logging.info("Found {} builds".format(len(build_items))) # Write out the BuildItems. Only JSON supported now (will add YAML later). if args.format != "json": raise NotImplementedError() out = args.output or sys.stdout out.writelines([item.to_json() + "\n" for item in build_items]) if __name__ == "__main__": main()