import os import shutil import subprocess import sys import click from idf_py_actions.constants import GENERATORS, SUPPORTED_TARGETS from idf_py_actions.errors import FatalError from idf_py_actions.global_options import global_options from idf_py_actions.tools import ensure_build_directory, idf_version, merge_action_lists, realpath, run_target, TargetChoice def action_extensions(base_actions, project_path): def build_target(target_name, ctx, args): """ Execute the target build system to build target 'target_name' Calls ensure_build_directory() which will run cmake to generate a build directory (with the specified generator) as needed. """ ensure_build_directory(args, ctx.info_name) run_target(target_name, args) def menuconfig(target_name, ctx, args, style): """ Menuconfig target is build_target extended with the style argument for setting the value for the environment variable. """ if sys.version_info[0] < 3: # The subprocess lib cannot accept environment variables as "unicode". # This encoding step is required only in Python 2. style = style.encode(sys.getfilesystemencoding() or 'utf-8') os.environ['MENUCONFIG_STYLE'] = style build_target(target_name, ctx, args) def fallback_target(target_name, ctx, args): """ Execute targets that are not explicitly known to idf.py """ ensure_build_directory(args, ctx.info_name) try: subprocess.check_output(GENERATORS[args.generator]["dry_run"] + [target_name], cwd=args.build_dir) except Exception: raise FatalError( 'command "%s" is not known to idf.py and is not a %s target' % (target_name, args.generator)) run_target(target_name, args) def verbose_callback(ctx, param, value): if not value or ctx.resilient_parsing: return for line in ctx.command.verbose_output: print(line) return value def clean(action, ctx, args): if not os.path.isdir(args.build_dir): print("Build directory '%s' not found. Nothing to clean." % args.build_dir) return build_target("clean", ctx, args) def _delete_windows_symlinks(directory): """ It deletes symlinks recursively on Windows. It is useful for Python 2 which doesn't detect symlinks on Windows. """ deleted_paths = [] if os.name == "nt": import ctypes for root, dirnames, _filenames in os.walk(directory): for d in dirnames: full_path = os.path.join(root, d) try: full_path = full_path.decode("utf-8") except Exception: pass if ctypes.windll.kernel32.GetFileAttributesW(full_path) & 0x0400: os.rmdir(full_path) deleted_paths.append(full_path) return deleted_paths def fullclean(action, ctx, args): build_dir = args.build_dir if not os.path.isdir(build_dir): print("Build directory '%s' not found. Nothing to clean." % build_dir) return if len(os.listdir(build_dir)) == 0: print("Build directory '%s' is empty. Nothing to clean." % build_dir) return if not os.path.exists(os.path.join(build_dir, "CMakeCache.txt")): raise FatalError( "Directory '%s' doesn't seem to be a CMake build directory. Refusing to automatically " "delete files in this directory. Delete the directory manually to 'clean' it." % build_dir) red_flags = ["CMakeLists.txt", ".git", ".svn"] for red in red_flags: red = os.path.join(build_dir, red) if os.path.exists(red): raise FatalError( "Refusing to automatically delete files in directory containing '%s'. Delete files manually if you're sure." % red) # OK, delete everything in the build directory... # Note: Python 2.7 doesn't detect symlinks on Windows (it is supported form 3.2). Tools promising to not # follow symlinks will actually follow them. Deleting the build directory with symlinks deletes also items # outside of this directory. deleted_symlinks = _delete_windows_symlinks(build_dir) if args.verbose and len(deleted_symlinks) > 1: print("The following symlinks were identified and removed:\n%s" % "\n".join(deleted_symlinks)) for f in os.listdir(build_dir): # TODO: once we are Python 3 only, this can be os.scandir() f = os.path.join(build_dir, f) if args.verbose: print("Removing: %s" % f) if os.path.isdir(f): shutil.rmtree(f) else: os.remove(f) def set_target(action, ctx, args, idf_target): args.define_cache_entry.append("IDF_TARGET=" + idf_target) sdkconfig_path = os.path.join(args.project_dir, 'sdkconfig') sdkconfig_old = sdkconfig_path + ".old" if os.path.exists(sdkconfig_old): os.remove(sdkconfig_old) if os.path.exists(sdkconfig_path): os.rename(sdkconfig_path, sdkconfig_old) print("Set Target to: %s, new sdkconfig created. Existing sdkconfig renamed to sdkconfig.old." % idf_target) ensure_build_directory(args, ctx.info_name, True) def reconfigure(action, ctx, args): ensure_build_directory(args, ctx.info_name, True) def validate_root_options(ctx, args, tasks): args.project_dir = realpath(args.project_dir) if args.build_dir is not None and args.project_dir == realpath(args.build_dir): raise FatalError( "Setting the build directory to the project directory is not supported. Suggest dropping " "--build-dir option, the default is a 'build' subdirectory inside the project directory.") if args.build_dir is None: args.build_dir = os.path.join(args.project_dir, "build") args.build_dir = realpath(args.build_dir) def idf_version_callback(ctx, param, value): if not value or ctx.resilient_parsing: return version = idf_version() if not version: raise FatalError("ESP-IDF version cannot be determined") print("ESP-IDF %s" % version) sys.exit(0) def list_targets_callback(ctx, param, value): if not value or ctx.resilient_parsing: return for target in SUPPORTED_TARGETS: print(target) sys.exit(0) root_options = { "global_options": [ { "names": ["--version"], "help": "Show IDF version and exit.", "is_flag": True, "expose_value": False, "callback": idf_version_callback }, { "names": ["--list-targets"], "help": "Print list of supported targets and exit.", "is_flag": True, "expose_value": False, "callback": list_targets_callback }, { "names": ["-C", "--project-dir"], "help": "Project directory.", "type": click.Path(), "default": os.getcwd(), }, { "names": ["-B", "--build-dir"], "help": "Build directory.", "type": click.Path(), "default": None, }, { "names": ["-n", "--no-warnings"], "help": "Disable Cmake warnings.", "is_flag": True, "default": False, }, { "names": ["-v", "--verbose"], "help": "Verbose build output.", "is_flag": True, "is_eager": True, "default": False, "callback": verbose_callback }, { "names": ["--ccache/--no-ccache"], "help": ( "Use ccache in build. Disabled by default, unless " "IDF_CCACHE_ENABLE environment variable is set to a non-zero value."), "is_flag": True, "default": os.getenv("IDF_CCACHE_ENABLE") not in [None, "", "0"], }, { "names": ["-G", "--generator"], "help": "CMake generator.", "type": click.Choice(GENERATORS.keys()), }, { "names": ["--dry-run"], "help": "Only process arguments, but don't execute actions.", "is_flag": True, "hidden": True, "default": False }, ], "global_action_callbacks": [validate_root_options], } build_actions = { "actions": { "all": { "aliases": ["build"], "callback": build_target, "short_help": "Build the project.", "help": ( "Build the project. This can involve multiple steps:\n\n" "1. Create the build directory if needed. " "The sub-directory 'build' is used to hold build output, " "although this can be changed with the -B option.\n\n" "2. Run CMake as necessary to configure the project " "and generate build files for the main build tool.\n\n" "3. Run the main build tool (Ninja or GNU Make). " "By default, the build tool is automatically detected " "but it can be explicitly set by passing the -G option to idf.py.\n\n"), "options": global_options, "order_dependencies": [ "reconfigure", "menuconfig", "clean", "fullclean", ], }, "menuconfig": { "callback": menuconfig, "help": 'Run "menuconfig" project configuration tool.', "options": global_options + [ { "names": ["--style", "--color-scheme", "style"], "help": ( "Menuconfig style.\n" "Is it possible to customize the menuconfig style by either setting the MENUCONFIG_STYLE " "environment variable or through this option. The built-in styles include:\n\n" "- default - a yellowish theme,\n\n" "- monochrome - a black and white theme, or\n" "- aquatic - a blue theme.\n\n" "The default value is \"aquatic\". It is possible to customize these themes further " "as it is described in the Color schemes section of the kconfiglib documentation."), "default": os.environ.get('MENUCONFIG_STYLE', 'aquatic'), } ], }, "confserver": { "callback": build_target, "help": "Run JSON configuration server.", "options": global_options, }, "size": { "callback": build_target, "help": "Print basic size information about the app.", "options": global_options, "dependencies": ["app"], }, "size-components": { "callback": build_target, "help": "Print per-component size information.", "options": global_options, "dependencies": ["app"], }, "size-files": { "callback": build_target, "help": "Print per-source-file size information.", "options": global_options, "dependencies": ["app"], }, "bootloader": { "callback": build_target, "help": "Build only bootloader.", "options": global_options, }, "app": { "callback": build_target, "help": "Build only the app.", "order_dependencies": ["clean", "fullclean", "reconfigure"], "options": global_options, }, "efuse_common_table": { "callback": build_target, "help": "Generate C-source for IDF's eFuse fields.", "order_dependencies": ["reconfigure"], "options": global_options, }, "efuse_custom_table": { "callback": build_target, "help": "Generate C-source for user's eFuse fields.", "order_dependencies": ["reconfigure"], "options": global_options, }, "show_efuse_table": { "callback": build_target, "help": "Print eFuse table.", "order_dependencies": ["reconfigure"], "options": global_options, }, "partition_table": { "callback": build_target, "help": "Build only partition table.", "order_dependencies": ["reconfigure"], "options": global_options, }, "erase_otadata": { "callback": build_target, "help": "Erase otadata partition.", "options": global_options, }, "read_otadata": { "callback": build_target, "help": "Read otadata partition.", "options": global_options, }, "fallback": { "callback": fallback_target, "help": "Handle for targets not known for idf.py.", "hidden": True } } } clean_actions = { "actions": { "reconfigure": { "callback": reconfigure, "short_help": "Re-run CMake.", "help": ( "Re-run CMake even if it doesn't seem to need re-running. " "This isn't necessary during normal usage, " "but can be useful after adding/removing files from the source tree, " "or when modifying CMake cache variables. " "For example, \"idf.py -DNAME='VALUE' reconfigure\" " 'can be used to set variable "NAME" in CMake cache to value "VALUE".'), "options": global_options, "order_dependencies": ["menuconfig", "fullclean"], }, "set-target": { "callback": set_target, "short_help": "Set the chip target to build.", "help": ( "Set the chip target to build. This will remove the " "existing sdkconfig file and corresponding CMakeCache and " "create new ones according to the new target.\nFor example, " "\"idf.py set-target esp32\" will select esp32 as the new chip " "target."), "arguments": [ { "names": ["idf-target"], "nargs": 1, "type": TargetChoice(SUPPORTED_TARGETS), }, ], "dependencies": ["fullclean"], }, "clean": { "callback": clean, "short_help": "Delete build output files from the build directory.", "help": ( "Delete build output files from the build directory, " "forcing a 'full rebuild' the next time " "the project is built. Cleaning doesn't delete " "CMake configuration output and some other files"), "order_dependencies": ["fullclean"], }, "fullclean": { "callback": fullclean, "short_help": "Delete the entire build directory contents.", "help": ( "Delete the entire build directory contents. " "This includes all CMake configuration output." "The next time the project is built, " "CMake will configure it from scratch. " "Note that this option recursively deletes all files " "in the build directory, so use with care." "Project configuration is not deleted.") }, } } return merge_action_lists(root_options, build_actions, clean_actions)