# SPDX-License-Identifier: GPL-2.0+ # Copyright 2022 Google LLC # Copyright (C) 2022 Weidmüller Interface GmbH & Co. KG # Stefan Herbrechtsmeier # """Base class for all bintools This defines the common functionality for all bintools, including running the tool, checking its version and fetching it if needed. """ import collections import glob import importlib import multiprocessing import os import shutil import tempfile import urllib.error from u_boot_pylib import command from u_boot_pylib import terminal from u_boot_pylib import tools from u_boot_pylib import tout BINMAN_DIR = os.path.dirname(os.path.realpath(__file__)) # Format string for listing bintools, see also the header in list_all() FORMAT = '%-16.16s %-12.12s %-26.26s %s' # List of known modules, to avoid importing the module multiple times modules = {} # Possible ways of fetching a tool (FETCH_COUNT is number of ways) FETCH_ANY, FETCH_BIN, FETCH_BUILD, FETCH_COUNT = range(4) FETCH_NAMES = { FETCH_ANY: 'any method', FETCH_BIN: 'binary download', FETCH_BUILD: 'build from source' } # Status of tool fetching FETCHED, FAIL, PRESENT, STATUS_COUNT = range(4) class Bintool: """Tool which operates on binaries to help produce entry contents This is the base class for all bintools """ # List of bintools to regard as missing missing_list = [] # Directory to store tools. Note that this set up by set_tool_dir() which # must be called before this class is used. tooldir = '' def __init__(self, name, desc, version_regex=None, version_args='-V'): self.name = name self.desc = desc self.version_regex = version_regex self.version_args = version_args @staticmethod def find_bintool_class(btype): """Look up the bintool class for bintool Args: byte: Bintool to use, e.g. 'mkimage' Returns: The bintool class object if found, else a tuple: module name that could not be found exception received """ # Convert something like 'u-boot' to 'u_boot' since we are only # interested in the type. module_name = btype.replace('-', '_') module = modules.get(module_name) class_name = f'Bintool{module_name}' # Import the module if we have not already done so if not module: try: module = importlib.import_module('binman.btool.' + module_name) except ImportError as exc: try: # Deal with classes which must be renamed due to conflicts # with Python libraries module = importlib.import_module('binman.btool.btool_' + module_name) except ImportError: return module_name, exc modules[module_name] = module # Look up the expected class name return getattr(module, class_name) @staticmethod def create(name): """Create a new bintool object Args: name (str): Bintool to create, e.g. 'mkimage' Returns: A new object of the correct type (a subclass of Binutil) """ cls = Bintool.find_bintool_class(name) if isinstance(cls, tuple): raise ValueError("Cannot import bintool module '%s': %s" % cls) # Call its constructor to get the object we want. obj = cls(name) return obj @classmethod def set_tool_dir(cls, pathname): """Set the path to use to store and find tools""" cls.tooldir = pathname def show(self): """Show a line of information about a bintool""" if self.is_present(): version = self.version() else: version = '-' print(FORMAT % (self.name, version, self.desc, self.get_path() or '(not found)')) @classmethod def set_missing_list(cls, missing_list): cls.missing_list = missing_list or [] @staticmethod def get_tool_list(include_testing=False): """Get a list of the known tools Returns: list of str: names of all tools known to binman """ files = glob.glob(os.path.join(BINMAN_DIR, 'btool/*')) names = [os.path.splitext(os.path.basename(fname))[0] for fname in files] names = [name for name in names if name[0] != '_'] names = [name[6:] if name.startswith('btool_') else name for name in names] if include_testing: names.append('_testing') return sorted(names) @staticmethod def list_all(): """List all the bintools known to binman""" names = Bintool.get_tool_list() print(FORMAT % ('Name', 'Version', 'Description', 'Path')) print(FORMAT % ('-' * 15,'-' * 11, '-' * 25, '-' * 30)) for name in names: btool = Bintool.create(name) btool.show() def is_present(self): """Check if a bintool is available on the system Returns: bool: True if available, False if not """ if self.name in self.missing_list: return False return bool(self.get_path()) def get_path(self): """Get the path of a bintool Returns: str: Path to the tool, if available, else None """ return tools.tool_find(self.name) def fetch_tool(self, method, col, skip_present): """Fetch a single tool Args: method (FETCH_...): Method to use col (terminal.Color): Color terminal object skip_present (boo;): Skip fetching if it is already present Returns: int: Result of fetch either FETCHED, FAIL, PRESENT """ def try_fetch(meth): res = None try: res = self.fetch(meth) except urllib.error.URLError as uerr: message = uerr.reason print(col.build(col.RED, f'- {message}')) except ValueError as exc: print(f'Exception: {exc}') return res if skip_present and self.is_present(): return PRESENT print(col.build(col.YELLOW, 'Fetch: %s' % self.name)) if method == FETCH_ANY: for try_method in range(1, FETCH_COUNT): print(f'- trying method: {FETCH_NAMES[try_method]}') result = try_fetch(try_method) if result: break else: result = try_fetch(method) if not result: return FAIL if result is not True: fname, tmpdir = result dest = os.path.join(self.tooldir, self.name) os.makedirs(self.tooldir, exist_ok=True) print(f"- writing to '{dest}'") shutil.move(fname, dest) if tmpdir: shutil.rmtree(tmpdir) return FETCHED @staticmethod def fetch_tools(method, names_to_fetch): """Fetch bintools from a suitable place This fetches or builds the requested bintools so that they can be used by binman Args: names_to_fetch (list of str): names of bintools to fetch Returns: True on success, False on failure """ def show_status(color, prompt, names): print(col.build( color, f'{prompt}:%s{len(names):2}: %s' % (' ' * (16 - len(prompt)), ' '.join(names)))) col = terminal.Color() skip_present = False name_list = names_to_fetch if len(names_to_fetch) == 1 and names_to_fetch[0] in ['all', 'missing']: name_list = Bintool.get_tool_list() if names_to_fetch[0] == 'missing': skip_present = True print(col.build(col.YELLOW, 'Fetching tools: %s' % ' '.join(name_list))) status = collections.defaultdict(list) for name in name_list: btool = Bintool.create(name) result = btool.fetch_tool(method, col, skip_present) status[result].append(name) if result == FAIL: if method == FETCH_ANY: print('- failed to fetch with all methods') else: print(f"- method '{FETCH_NAMES[method]}' is not supported") if len(name_list) > 1: if skip_present: show_status(col.GREEN, 'Already present', status[PRESENT]) show_status(col.GREEN, 'Tools fetched', status[FETCHED]) if status[FAIL]: show_status(col.RED, 'Failures', status[FAIL]) return not status[FAIL] def run_cmd_result(self, *args, binary=False, raise_on_error=True): """Run the bintool using command-line arguments Args: args (list of str): Arguments to provide, in addition to the bintool name binary (bool): True to return output as bytes instead of str raise_on_error (bool): True to raise a ValueError exception if the tool returns a non-zero return code Returns: CommandResult: Resulting output from the bintool, or None if the tool is not present """ if self.name in self.missing_list: return None name = os.path.expanduser(self.name) # Expand paths containing ~ all_args = (name,) + args env = tools.get_env_with_path() tout.debug(f"bintool: {' '.join(all_args)}") result = command.run_pipe( [all_args], capture=True, capture_stderr=True, env=env, raise_on_error=False, binary=binary) if result.return_code: # Return None if the tool was not found. In this case there is no # output from the tool and it does not appear on the path. We still # try to run it (as above) since RunPipe() allows faking the tool's # output if not any([result.stdout, result.stderr, tools.tool_find(name)]): tout.info(f"bintool '{name}' not found") return None if raise_on_error: tout.info(f"bintool '{name}' failed") raise ValueError("Error %d running '%s': %s" % (result.return_code, ' '.join(all_args), result.stderr or result.stdout)) if result.stdout: tout.debug(result.stdout) if result.stderr: tout.debug(result.stderr) return result def run_cmd(self, *args, binary=False): """Run the bintool using command-line arguments Args: args (list of str): Arguments to provide, in addition to the bintool name binary (bool): True to return output as bytes instead of str Returns: str or bytes: Resulting stdout from the bintool """ result = self.run_cmd_result(*args, binary=binary) if result: return result.stdout @classmethod def build_from_git(cls, git_repo, make_targets, bintool_path, flags=None): """Build a bintool from a git repo This clones the repo in a temporary directory, builds it with 'make', then returns the filename of the resulting executable bintool Args: git_repo (str): URL of git repo make_targets (list of str): List of targets to pass to 'make' to build the tool bintool_path (str): Relative path of the tool in the repo, after build is complete flags (list of str): Flags or variables to pass to make, or None Returns: tuple: str: Filename of fetched file to copy to a suitable directory str: Name of temp directory to remove, or None or None on error """ tmpdir = tempfile.mkdtemp(prefix='binmanf.') print(f"- clone git repo '{git_repo}' to '{tmpdir}'") tools.run('git', 'clone', '--depth', '1', git_repo, tmpdir) for target in make_targets: print(f"- build target '{target}'") cmd = ['make', '-C', tmpdir, '-j', f'{multiprocessing.cpu_count()}', target] if flags: cmd += flags tools.run(*cmd) fname = os.path.join(tmpdir, bintool_path) if not os.path.exists(fname): print(f"- File '{fname}' was not produced") return None return fname, tmpdir @classmethod def fetch_from_url(cls, url): """Fetch a bintool from a URL Args: url (str): URL to fetch from Returns: tuple: str: Filename of fetched file to copy to a suitable directory str: Name of temp directory to remove, or None """ fname, tmpdir = tools.download(url) tools.run('chmod', 'a+x', fname) return fname, tmpdir @classmethod def fetch_from_drive(cls, drive_id): """Fetch a bintool from Google drive Args: drive_id (str): ID of file to fetch. For a URL of the form 'https://drive.google.com/file/d/xxx/view?usp=sharing' the value passed here should be 'xxx' Returns: tuple: str: Filename of fetched file to copy to a suitable directory str: Name of temp directory to remove, or None """ url = f'https://drive.google.com/uc?export=download&id={drive_id}' return cls.fetch_from_url(url) @classmethod def apt_install(cls, package): """Install a bintool using the 'apt' tool This requires use of servo so may request a password Args: package (str): Name of package to install Returns: True, assuming it completes without error """ args = ['sudo', 'apt', 'install', '-y', package] print('- %s' % ' '.join(args)) tools.run(*args) return True @staticmethod def WriteDocs(modules, test_missing=None): """Write out documentation about the various bintools to stdout Args: modules: List of modules to include test_missing: Used for testing. This is a module to report as missing """ print('''.. SPDX-License-Identifier: GPL-2.0+ Binman bintool Documentation ============================ This file describes the bintools (binary tools) supported by binman. Bintools are binman's name for external executables that it runs to generate or process binaries. It is fairly easy to create new bintools. Just add a new file to the 'btool' directory. You can use existing bintools as examples. ''') modules = sorted(modules) missing = [] for name in modules: module = Bintool.find_bintool_class(name) docs = getattr(module, '__doc__') if test_missing == name: docs = None if docs: lines = docs.splitlines() first_line = lines[0] rest = [line[4:] for line in lines[1:]] hdr = 'Bintool: %s: %s' % (name, first_line) print(hdr) print('-' * len(hdr)) print('\n'.join(rest)) print() print() else: missing.append(name) if missing: raise ValueError('Documentation is missing for modules: %s' % ', '.join(missing)) # pylint: disable=W0613 def fetch(self, method): """Fetch handler for a bintool This should be implemented by the base class Args: method (FETCH_...): Method to use Returns: tuple: str: Filename of fetched file to copy to a suitable directory str: Name of temp directory to remove, or None or True if the file was fetched and already installed or None if no fetch() implementation is available Raises: Valuerror: Fetching could not be completed """ print(f"No method to fetch bintool '{self.name}'") return False def version(self): """Version handler for a bintool Returns: str: Version string for this bintool """ if self.version_regex is None: return 'unknown' import re result = self.run_cmd_result(self.version_args) out = result.stdout.strip() if not out: out = result.stderr.strip() if not out: return 'unknown' m_version = re.search(self.version_regex, out) return m_version.group(1) if m_version else out class BintoolPacker(Bintool): """Tool which compression / decompression entry contents This is a bintools base class for compression / decompression packer Properties: name: Name of packer tool compression: Compression type (COMPRESS_...), value of 'name' property if none compress_args: List of positional args provided to tool for compress, ['--compress'] if none decompress_args: List of positional args provided to tool for decompress, ['--decompress'] if none fetch_package: Name of the tool installed using the apt, value of 'name' property if none version_regex: Regular expressions to extract the version from tool version output, '(v[0-9.]+)' if none """ def __init__(self, name, compression=None, compress_args=None, decompress_args=None, fetch_package=None, version_regex=r'(v[0-9.]+)', version_args='-V'): desc = '%s compression' % (compression if compression else name) super().__init__(name, desc, version_regex, version_args) if compress_args is None: compress_args = ['--compress'] self.compress_args = compress_args if decompress_args is None: decompress_args = ['--decompress'] self.decompress_args = decompress_args if fetch_package is None: fetch_package = name self.fetch_package = fetch_package def compress(self, indata): """Compress data Args: indata (bytes): Data to compress Returns: bytes: Compressed data """ with tempfile.NamedTemporaryFile(prefix='comp.tmp', dir=tools.get_output_dir()) as tmp: tools.write_file(tmp.name, indata) args = self.compress_args + ['--stdout', tmp.name] return self.run_cmd(*args, binary=True) def decompress(self, indata): """Decompress data Args: indata (bytes): Data to decompress Returns: bytes: Decompressed data """ with tempfile.NamedTemporaryFile(prefix='decomp.tmp', dir=tools.get_output_dir()) as inf: tools.write_file(inf.name, indata) args = self.decompress_args + ['--stdout', inf.name] return self.run_cmd(*args, binary=True) def fetch(self, method): """Fetch handler This installs the gzip package using the apt utility. Args: method (FETCH_...): Method to use Returns: True if the file was fetched and now installed, None if a method other than FETCH_BIN was requested Raises: Valuerror: Fetching could not be completed """ if method != FETCH_BIN: return None return self.apt_install(self.fetch_package)