"""Miscellaneous utility functions and classes.""" from __future__ import absolute_import, print_function import atexit import contextlib import errno import fcntl import inspect import json import os import pipes import pkgutil import random import re import shutil import socket import stat import string import subprocess import sys import tempfile import time from struct import unpack, pack from termios import TIOCGWINSZ try: from abc import ABC except ImportError: from abc import ABCMeta ABC = ABCMeta('ABC', (), {}) try: # noinspection PyCompatibility from ConfigParser import SafeConfigParser as ConfigParser except ImportError: # noinspection PyCompatibility from configparser import ConfigParser DOCKER_COMPLETION = {} PYTHON_PATHS = {} # type: dict[str, str] try: MAXFD = subprocess.MAXFD except AttributeError: MAXFD = -1 COVERAGE_CONFIG_PATH = '.coveragerc' COVERAGE_OUTPUT_PATH = 'coverage' # Modes are set to allow all users the same level of access. # This permits files to be used in tests that change users. # The only exception is write access to directories for the user creating them. # This avoids having to modify the directory permissions a second time. MODE_READ = stat.S_IRUSR | stat.S_IRGRP | stat.S_IROTH MODE_FILE = MODE_READ MODE_FILE_EXECUTE = MODE_FILE | stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH MODE_FILE_WRITE = MODE_FILE | stat.S_IWUSR | stat.S_IWGRP | stat.S_IWOTH MODE_DIRECTORY = MODE_READ | stat.S_IWUSR | stat.S_IXUSR | stat.S_IXGRP | stat.S_IXOTH MODE_DIRECTORY_WRITE = MODE_DIRECTORY | stat.S_IWGRP | stat.S_IWOTH def get_docker_completion(): """ :rtype: dict[str, str] """ if not DOCKER_COMPLETION: images = read_lines_without_comments('test/runner/completion/docker.txt', remove_blank_lines=True) DOCKER_COMPLETION.update(dict(kvp for kvp in [parse_docker_completion(i) for i in images] if kvp)) return DOCKER_COMPLETION def parse_docker_completion(value): """ :type value: str :rtype: tuple[str, dict[str, str]] """ values = value.split() if not values: return None name = values[0] data = dict((kvp[0], kvp[1] if len(kvp) > 1 else '') for kvp in [item.split('=', 1) for item in values[1:]]) return name, data def is_shippable(): """ :rtype: bool """ return os.environ.get('SHIPPABLE') == 'true' def remove_file(path): """ :type path: str """ if os.path.isfile(path): os.remove(path) def read_lines_without_comments(path, remove_blank_lines=False): """ :type path: str :type remove_blank_lines: bool :rtype: list[str] """ with open(path, 'r') as path_fd: lines = path_fd.read().splitlines() lines = [re.sub(r' *#.*$', '', line) for line in lines] if remove_blank_lines: lines = [line for line in lines if line] return lines def get_python_path(args, interpreter): """ :type args: TestConfig :type interpreter: str :rtype: str """ python_path = PYTHON_PATHS.get(interpreter) if python_path: return python_path prefix = 'python-' suffix = '-ansible' root_temp_dir = '/tmp' if args.explain: return os.path.join(root_temp_dir, ''.join((prefix, 'temp', suffix))) python_path = tempfile.mkdtemp(prefix=prefix, suffix=suffix, dir=root_temp_dir) os.chmod(python_path, MODE_DIRECTORY) os.symlink(interpreter, os.path.join(python_path, 'python')) if not PYTHON_PATHS: atexit.register(cleanup_python_paths) PYTHON_PATHS[interpreter] = python_path return python_path def cleanup_python_paths(): """Clean up all temporary python directories.""" for path in sorted(PYTHON_PATHS.values()): display.info('Cleaning up temporary python directory: %s' % path, verbosity=2) shutil.rmtree(path) def get_coverage_environment(args, target_name, version, temp_path): """ :type args: TestConfig :type target_name: str :type version: str :type temp_path: str :rtype: dict[str, str] """ if temp_path: # integration tests (both localhost and the optional testhost) # config and results are in a temporary directory coverage_config_base_path = temp_path coverage_output_base_path = temp_path else: # unit tests, sanity tests and other special cases (localhost only) # config and results are in the source tree coverage_config_base_path = os.getcwd() coverage_output_base_path = os.path.abspath(os.path.join('test/results')) config_file = os.path.join(coverage_config_base_path, COVERAGE_CONFIG_PATH) coverage_file = os.path.join(coverage_output_base_path, COVERAGE_OUTPUT_PATH, '%s=%s=%s=%s=coverage' % ( args.command, target_name, args.coverage_label or 'local-%s' % version, 'python-%s' % version)) if args.coverage_check: coverage_file = '' env = dict( # both AnsiballZ and the ansible-test coverage injector rely on this _ANSIBLE_COVERAGE_CONFIG=config_file, # used during AnsiballZ wrapper creation to set COVERAGE_FILE for the module _ANSIBLE_COVERAGE_OUTPUT=coverage_file, # handle cases not covered by the AnsiballZ wrapper creation above COVERAGE_FILE=coverage_file, ) return env def find_executable(executable, cwd=None, path=None, required=True): """ :type executable: str :type cwd: str :type path: str :type required: bool | str :rtype: str | None """ match = None real_cwd = os.getcwd() if not cwd: cwd = real_cwd if os.path.dirname(executable): target = os.path.join(cwd, executable) if os.path.exists(target) and os.access(target, os.F_OK | os.X_OK): match = executable else: if path is None: path = os.environ.get('PATH', os.path.defpath) if path: path_dirs = path.split(os.path.pathsep) seen_dirs = set() for path_dir in path_dirs: if path_dir in seen_dirs: continue seen_dirs.add(path_dir) if os.path.abspath(path_dir) == real_cwd: path_dir = cwd candidate = os.path.join(path_dir, executable) if os.path.exists(candidate) and os.access(candidate, os.F_OK | os.X_OK): match = candidate break if not match and required: message = 'Required program "%s" not found.' % executable if required != 'warning': raise ApplicationError(message) display.warning(message) return match def find_python(version, path=None): """ :type version: str :type path: str | None :rtype: str """ version_info = tuple(int(n) for n in version.split('.')) if not path and version_info == sys.version_info[:len(version_info)]: python_bin = sys.executable else: python_bin = find_executable('python%s' % version, path=path) return python_bin def generate_pip_command(python): """ :type python: str :rtype: list[str] """ return [python, '-m', 'pip.__main__'] def intercept_command(args, cmd, target_name, env, capture=False, data=None, cwd=None, python_version=None, temp_path=None, coverage=None, virtualenv=None): """ :type args: TestConfig :type cmd: collections.Iterable[str] :type target_name: str :type env: dict[str, str] :type capture: bool :type data: str | None :type cwd: str | None :type python_version: str | None :type temp_path: str | None :type coverage: bool | None :type virtualenv: str | None :rtype: str | None, str | None """ if not env: env = common_environment() if coverage is None: coverage = args.coverage cmd = list(cmd) version = python_version or args.python_version interpreter = virtualenv or find_python(version) inject_path = os.path.abspath('test/runner/injector') if not virtualenv: # injection of python into the path is required when not activating a virtualenv # otherwise scripts may find the wrong interpreter or possibly no interpreter python_path = get_python_path(args, interpreter) inject_path = python_path + os.path.pathsep + inject_path env['PATH'] = inject_path + os.path.pathsep + env['PATH'] env['ANSIBLE_TEST_PYTHON_VERSION'] = version env['ANSIBLE_TEST_PYTHON_INTERPRETER'] = interpreter if coverage: # add the necessary environment variables to enable code coverage collection env.update(get_coverage_environment(args, target_name, version, temp_path)) return run_command(args, cmd, capture=capture, env=env, data=data, cwd=cwd) def run_command(args, cmd, capture=False, env=None, data=None, cwd=None, always=False, stdin=None, stdout=None, cmd_verbosity=1, str_errors='strict'): """ :type args: CommonConfig :type cmd: collections.Iterable[str] :type capture: bool :type env: dict[str, str] | None :type data: str | None :type cwd: str | None :type always: bool :type stdin: file | None :type stdout: file | None :type cmd_verbosity: int :type str_errors: str :rtype: str | None, str | None """ explain = args.explain and not always return raw_command(cmd, capture=capture, env=env, data=data, cwd=cwd, explain=explain, stdin=stdin, stdout=stdout, cmd_verbosity=cmd_verbosity, str_errors=str_errors) def raw_command(cmd, capture=False, env=None, data=None, cwd=None, explain=False, stdin=None, stdout=None, cmd_verbosity=1, str_errors='strict'): """ :type cmd: collections.Iterable[str] :type capture: bool :type env: dict[str, str] | None :type data: str | None :type cwd: str | None :type explain: bool :type stdin: file | None :type stdout: file | None :type cmd_verbosity: int :type str_errors: str :rtype: str | None, str | None """ if not cwd: cwd = os.getcwd() if not env: env = common_environment() cmd = list(cmd) escaped_cmd = ' '.join(pipes.quote(c) for c in cmd) display.info('Run command: %s' % escaped_cmd, verbosity=cmd_verbosity, truncate=True) display.info('Working directory: %s' % cwd, verbosity=2) program = find_executable(cmd[0], cwd=cwd, path=env['PATH'], required='warning') if program: display.info('Program found: %s' % program, verbosity=2) for key in sorted(env.keys()): display.info('%s=%s' % (key, env[key]), verbosity=2) if explain: return None, None communicate = False if stdin is not None: data = None communicate = True elif data is not None: stdin = subprocess.PIPE communicate = True if stdout: communicate = True if capture: stdout = stdout or subprocess.PIPE stderr = subprocess.PIPE communicate = True else: stderr = None start = time.time() process = None try: try: process = subprocess.Popen(cmd, env=env, stdin=stdin, stdout=stdout, stderr=stderr, cwd=cwd) except OSError as ex: if ex.errno == errno.ENOENT: raise ApplicationError('Required program "%s" not found.' % cmd[0]) raise if communicate: encoding = 'utf-8' data_bytes = data.encode(encoding, 'surrogateescape') if data else None stdout_bytes, stderr_bytes = process.communicate(data_bytes) stdout_text = stdout_bytes.decode(encoding, str_errors) if stdout_bytes else u'' stderr_text = stderr_bytes.decode(encoding, str_errors) if stderr_bytes else u'' else: process.wait() stdout_text, stderr_text = None, None finally: if process and process.returncode is None: process.kill() display.info('') # the process we're interrupting may have completed a partial line of output display.notice('Killed command to avoid an orphaned child process during handling of an unexpected exception.') status = process.returncode runtime = time.time() - start display.info('Command exited with status %s after %s seconds.' % (status, runtime), verbosity=4) if status == 0: return stdout_text, stderr_text raise SubprocessError(cmd, status, stdout_text, stderr_text, runtime) def common_environment(): """Common environment used for executing all programs.""" env = dict( LC_ALL='en_US.UTF-8', PATH=os.environ.get('PATH', os.path.defpath), ) required = ( 'HOME', ) optional = ( 'HTTPTESTER', 'LD_LIBRARY_PATH', 'SSH_AUTH_SOCK', # MacOS High Sierra Compatibility # http://sealiesoftware.com/blog/archive/2017/6/5/Objective-C_and_fork_in_macOS_1013.html 'OBJC_DISABLE_INITIALIZE_FORK_SAFETY', 'ANSIBLE_KEEP_REMOTE_FILES', ) env.update(pass_vars(required=required, optional=optional)) return env def pass_vars(required, optional): """ :type required: collections.Iterable[str] :type optional: collections.Iterable[str] :rtype: dict[str, str] """ env = {} for name in required: if name not in os.environ: raise MissingEnvironmentVariable(name) env[name] = os.environ[name] for name in optional: if name not in os.environ: continue env[name] = os.environ[name] return env def deepest_path(path_a, path_b): """Return the deepest of two paths, or None if the paths are unrelated. :type path_a: str :type path_b: str :rtype: str | None """ if path_a == '.': path_a = '' if path_b == '.': path_b = '' if path_a.startswith(path_b): return path_a or '.' if path_b.startswith(path_a): return path_b or '.' return None def remove_tree(path): """ :type path: str """ try: shutil.rmtree(path) except OSError as ex: if ex.errno != errno.ENOENT: raise def make_dirs(path): """ :type path: str """ try: os.makedirs(path) except OSError as ex: if ex.errno != errno.EEXIST: raise def is_binary_file(path): """ :type path: str :rtype: bool """ assume_text = set([ '.cfg', '.conf', '.crt', '.cs', '.css', '.html', '.ini', '.j2', '.js', '.json', '.md', '.pem', '.ps1', '.psm1', '.py', '.rst', '.sh', '.txt', '.xml', '.yaml', '.yml', ]) assume_binary = set([ '.bin', '.eot', '.gz', '.ico', '.iso', '.jpg', '.otf', '.p12', '.png', '.pyc', '.rpm', '.ttf', '.woff', '.woff2', '.zip', ]) ext = os.path.splitext(path)[1] if ext in assume_text: return False if ext in assume_binary: return True with open(path, 'rb') as path_fd: return b'\0' in path_fd.read(1024) def generate_password(): """Generate a random password. :rtype: str """ chars = [ string.ascii_letters, string.digits, string.ascii_letters, string.digits, '-', ] * 4 password = ''.join([random.choice(char) for char in chars[:-1]]) display.sensitive.add(password) return password class Display(object): """Manages color console output.""" clear = '\033[0m' red = '\033[31m' green = '\033[32m' yellow = '\033[33m' blue = '\033[34m' purple = '\033[35m' cyan = '\033[36m' verbosity_colors = { 0: None, 1: green, 2: blue, 3: cyan, } def __init__(self): self.verbosity = 0 self.color = True self.warnings = [] self.warnings_unique = set() self.info_stderr = False self.rows = 0 self.columns = 0 self.truncate = 0 self.redact = False self.sensitive = set() if os.isatty(0): self.rows, self.columns = unpack('HHHH', fcntl.ioctl(0, TIOCGWINSZ, pack('HHHH', 0, 0, 0, 0)))[:2] def __warning(self, message): """ :type message: str """ self.print_message('WARNING: %s' % message, color=self.purple, fd=sys.stderr) def review_warnings(self): """Review all warnings which previously occurred.""" if not self.warnings: return self.__warning('Reviewing previous %d warning(s):' % len(self.warnings)) for warning in self.warnings: self.__warning(warning) def warning(self, message, unique=False): """ :type message: str :type unique: bool """ if unique: if message in self.warnings_unique: return self.warnings_unique.add(message) self.__warning(message) self.warnings.append(message) def notice(self, message): """ :type message: str """ self.print_message('NOTICE: %s' % message, color=self.purple, fd=sys.stderr) def error(self, message): """ :type message: str """ self.print_message('ERROR: %s' % message, color=self.red, fd=sys.stderr) def info(self, message, verbosity=0, truncate=False): """ :type message: str :type verbosity: int :type truncate: bool """ if self.verbosity >= verbosity: color = self.verbosity_colors.get(verbosity, self.yellow) self.print_message(message, color=color, fd=sys.stderr if self.info_stderr else sys.stdout, truncate=truncate) def print_message(self, message, color=None, fd=sys.stdout, truncate=False): # pylint: disable=locally-disabled, invalid-name """ :type message: str :type color: str | None :type fd: file :type truncate: bool """ if self.redact and self.sensitive: for item in self.sensitive: message = message.replace(item, '*' * len(item)) if truncate: if len(message) > self.truncate > 5: message = message[:self.truncate - 5] + ' ...' if color and self.color: # convert color resets in message to desired color message = message.replace(self.clear, color) message = '%s%s%s' % (color, message, self.clear) if sys.version_info[0] == 2 and isinstance(message, type(u'')): message = message.encode('utf-8') print(message, file=fd) fd.flush() class ApplicationError(Exception): """General application error.""" pass class ApplicationWarning(Exception): """General application warning which interrupts normal program flow.""" pass class SubprocessError(ApplicationError): """Error resulting from failed subprocess execution.""" def __init__(self, cmd, status=0, stdout=None, stderr=None, runtime=None): """ :type cmd: list[str] :type status: int :type stdout: str | None :type stderr: str | None :type runtime: float | None """ message = 'Command "%s" returned exit status %s.\n' % (' '.join(pipes.quote(c) for c in cmd), status) if stderr: message += '>>> Standard Error\n' message += '%s%s\n' % (stderr.strip(), Display.clear) if stdout: message += '>>> Standard Output\n' message += '%s%s\n' % (stdout.strip(), Display.clear) message = message.strip() super(SubprocessError, self).__init__(message) self.cmd = cmd self.status = status self.stdout = stdout self.stderr = stderr self.runtime = runtime class MissingEnvironmentVariable(ApplicationError): """Error caused by missing environment variable.""" def __init__(self, name): """ :type name: str """ super(MissingEnvironmentVariable, self).__init__('Missing environment variable: %s' % name) self.name = name class CommonConfig(object): """Configuration common to all commands.""" def __init__(self, args, command): """ :type args: any :type command: str """ self.command = command self.color = args.color # type: bool self.explain = args.explain # type: bool self.verbosity = args.verbosity # type: int self.debug = args.debug # type: bool self.truncate = args.truncate # type: int self.redact = args.redact # type: bool if is_shippable(): self.redact = True self.cache = {} def docker_qualify_image(name): """ :type name: str :rtype: str """ config = get_docker_completion().get(name, {}) return config.get('name', name) @contextlib.contextmanager def named_temporary_file(args, prefix, suffix, directory, content): """ :param args: CommonConfig :param prefix: str :param suffix: str :param directory: str :param content: str | bytes | unicode :rtype: str """ if not isinstance(content, bytes): content = content.encode('utf-8') if args.explain: yield os.path.join(directory, '%stemp%s' % (prefix, suffix)) else: with tempfile.NamedTemporaryFile(prefix=prefix, suffix=suffix, dir=directory) as tempfile_fd: tempfile_fd.write(content) tempfile_fd.flush() yield tempfile_fd.name def parse_to_list_of_dict(pattern, value): """ :type pattern: str :type value: str :return: list[dict[str, str]] """ matched = [] unmatched = [] for line in value.splitlines(): match = re.search(pattern, line) if match: matched.append(match.groupdict()) else: unmatched.append(line) if unmatched: raise Exception('Pattern "%s" did not match values:\n%s' % (pattern, '\n'.join(unmatched))) return matched def get_available_port(): """ :rtype: int """ # this relies on the kernel not reusing previously assigned ports immediately socket_fd = socket.socket(socket.AF_INET, socket.SOCK_STREAM) with contextlib.closing(socket_fd): socket_fd.bind(('', 0)) return socket_fd.getsockname()[1] def get_subclasses(class_type): """ :type class_type: type :rtype: set[str] """ subclasses = set() queue = [class_type] while queue: parent = queue.pop() for child in parent.__subclasses__(): if child not in subclasses: if not inspect.isabstract(child): subclasses.add(child) queue.append(child) return subclasses def import_plugins(directory): """ :type directory: str """ path = os.path.join(os.path.dirname(__file__), directory) prefix = 'lib.%s.' % directory for (_, name, _) in pkgutil.iter_modules([path], prefix=prefix): __import__(name) def load_plugins(base_type, database): """ :type base_type: type :type database: dict[str, type] """ plugins = dict((sc.__module__.split('.')[2], sc) for sc in get_subclasses(base_type)) # type: dict [str, type] for plugin in plugins: database[plugin] = plugins[plugin] display = Display() # pylint: disable=locally-disabled, invalid-name