# Copyright 2018 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. from contextlib import contextmanager from recipe_engine import recipe_api class WindowsSDKApi(recipe_api.RecipeApi): """API for using Windows SDK distributed via CIPD.""" def __init__(self, sdk_properties, *args, **kwargs): super(WindowsSDKApi, self).__init__(*args, **kwargs) self._sdk_properties = sdk_properties @contextmanager def __call__(self, path=None, version=None, enabled=True): """Setups the SDK environment when enabled. Args: path (path): Path to a directory where to install the SDK (default is '[start_dir]/cipd/windows_sdk') version (str): CIPD instance ID, tag or ref of the SDK (default is set via $infra/windows_sdk.version property) enabled (bool): Whether the SDK should be used or not. Raises: StepFailure or InfraFailure. """ if enabled: sdk_dir = self._ensure_sdk( path or self.m.path['start_dir'].join('cipd', 'windows_sdk'), version or self._sdk_properties['version']) try: with self.m.context(**self._sdk_env(sdk_dir)): yield finally: if self.m.platform.is_win: # cl.exe automatically starts background mspdbsrv.exe daemon which # needs to be manually stopped so Swarming can tidy up after itself. self.m.step('taskkill mspdbsrv', ['taskkill.exe', '/f', '/t', '/im', 'mspdbsrv.exe']) else: yield def _ensure_sdk(self, sdk_dir, sdk_version): """Ensures the Windows SDK CIPD package is installed. Returns the directory where the SDK package has been installed. Args: path (path): Path to a directory. version (str): CIPD instance ID, tag or ref. """ with self.m.context(infra_steps=True): pkgs = self.m.cipd.EnsureFile() pkgs.add_package('chrome_internal/third_party/sdk/windows', sdk_version) self.m.cipd.ensure(sdk_dir, pkgs) return sdk_dir def _sdk_env(self, sdk_dir): """Constructs the environment for the SDK. Returns environment and environment prefixes. Args: sdk_dir (path): Path to a directory containing the SDK. """ env = {} env_prefixes = {} # Load .../win_sdk/bin/SetEnv.${arch}.json to extract the required # environment. It contains a dict that looks like this: # { # "env": { # "VAR": [["..", "..", "x"], ["..", "..", "y"]], # ... # } # } # All these environment variables need to be added to the environment # for the compiler and linker to work. filename = 'SetEnv.%s.json' % {32: 'x86', 64: 'x64'}[self.m.platform.bits] step_result = self.m.json.read( 'read %s' % filename, sdk_dir.join('win_sdk', 'bin', filename), step_test_data=lambda: self.m.json.test_api.output({ 'env': { 'PATH': [['..', '..', 'win_sdk', 'bin', 'x64']], 'VSINSTALLDIR': [['..', '..\\']],},})) data = step_result.json.output.get('env') for key in data: # recipes' Path() does not like .., ., \, or /, so this is cumbersome. # What we want to do is: # [sdk_bin_dir.join(*e) for e in env[k]] # Instead do that badly, and rely (but verify) on the fact that the paths # are all specified relative to the root, but specified relative to # win_sdk/bin (i.e. everything starts with "../../".) results = [] for value in data[key]: assert value[0] == '..' and (value[1] == '..' or value[1] == '..\\') results.append('%s' % sdk_dir.join(*value[2:])) # PATH is special-cased because we don't want to overwrite other things # like C:\Windows\System32. Others are replacements because prepending # doesn't necessarily makes sense, like VSINSTALLDIR. if key.lower() == 'path': env_prefixes[key] = results else: env[key] = ';'.join(results) return {'env': env, 'env_prefixes': env_prefixes}