| #!/usr/bin/python |
| # -*- coding: utf-8 -*- |
| # Copyright 2016 The Tulsi Authors. All rights reserved. |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| |
| """Bridge between Xcode and Bazel for the "build" action.""" |
| |
| import atexit |
| import errno |
| import fcntl |
| import inspect |
| import io |
| import json |
| import os |
| import pipes |
| import re |
| import shutil |
| import signal |
| import subprocess |
| import sys |
| import textwrap |
| import threading |
| import time |
| import zipfile |
| |
| from apfs_clone_copy import CopyOnWrite |
| import bazel_build_events |
| import bazel_build_settings |
| import bazel_options |
| from bootstrap_lldbinit import BootstrapLLDBInit |
| from bootstrap_lldbinit import TULSI_LLDBINIT_FILE |
| import tulsi_logging |
| from update_symbol_cache import UpdateSymbolCache |
| |
| |
| # List of frameworks that Xcode injects into test host targets that should be |
| # re-signed when running the tests on devices. |
| XCODE_INJECTED_FRAMEWORKS = [ |
| 'libXCTestBundleInject.dylib', |
| 'IDEBundleInjection.framework', |
| 'XCTAutomationSupport.framework', |
| 'XCTest.framework', |
| ] |
| |
| _logger = None |
| |
| |
| def _PrintUnbuffered(msg): |
| sys.stdout.write('%s\n' % msg) |
| sys.stdout.flush() |
| |
| |
| def _PrintXcodeWarning(msg): |
| sys.stdout.write(':: warning: %s\n' % msg) |
| sys.stdout.flush() |
| |
| |
| def _PrintXcodeError(msg): |
| sys.stderr.write(':: error: %s\n' % msg) |
| sys.stderr.flush() |
| |
| |
| def _Fatal(msg, fatal_frame=None): |
| """Print a fatal error pointing to the failure line inside the script.""" |
| if not fatal_frame: |
| fatal_frame = inspect.currentframe().f_back |
| filename, line_number, _, _, _ = inspect.getframeinfo(fatal_frame) |
| _PrintUnbuffered('%s:%d: error: %s' % (os.path.abspath(filename), |
| line_number, msg)) |
| |
| |
| CLEANUP_BEP_FILE_AT_EXIT = False |
| |
| |
| # Function to be called atexit to clean up the BEP file if one is present. |
| # This is especially useful in cases of abnormal termination (such as what |
| # happens when Xcode is killed). |
| def _BEPFileExitCleanup(bep_file_path): |
| if not CLEANUP_BEP_FILE_AT_EXIT: |
| return |
| try: |
| os.remove(bep_file_path) |
| except OSError as e: |
| _PrintXcodeWarning('Failed to remove BEP file from %s. Error: %s' % |
| (bep_file_path, e.strerror)) |
| |
| |
| def _InterruptHandler(signum, frame): |
| """Gracefully exit on SIGINT.""" |
| del signum, frame # Unused. |
| _PrintUnbuffered('Caught interrupt signal. Exiting...') |
| sys.exit(0) |
| |
| |
| class Timer(object): |
| """Simple profiler.""" |
| |
| def __init__(self, action_name, action_id): |
| """Creates a new Timer object. |
| |
| Args: |
| action_name: A human-readable action name, shown in the build log. |
| action_id: A machine-readable action identifier, can be used for metrics. |
| |
| Returns: |
| A Timer instance. |
| |
| Raises: |
| RuntimeError: if Timer is created without initializing _logger. |
| """ |
| if _logger is None: |
| raise RuntimeError('Attempted to create Timer without a logger.') |
| self.action_name = action_name |
| self.action_id = action_id |
| self._start = None |
| |
| def Start(self): |
| self._start = time.time() |
| return self |
| |
| def End(self, log_absolute_times=False): |
| end = time.time() |
| seconds = end - self._start |
| if log_absolute_times: |
| _logger.log_action(self.action_name, self.action_id, seconds, |
| self._start, end) |
| else: |
| _logger.log_action(self.action_name, self.action_id, seconds) |
| |
| |
| # Function to be called atexit to release the file lock on script termination. |
| def _LockFileExitCleanup(lock_file_handle): |
| lock_file_handle.close() |
| |
| |
| def _LockFileAcquire(lock_path): |
| """Force script to wait on global file lock to serialize build target actions. |
| |
| Args: |
| lock_path: Path to the lock file. |
| """ |
| # TODO(b/74119354): Add lockfile timer back and lazily instantiate logger. |
| _PrintUnbuffered('Queuing Tulsi build...') |
| # TODO(b/69414272): See if we can improve this for multiple WORKSPACEs. |
| lockfile = open(lock_path, 'w') |
| # Register "fclose(...)" as early as possible, before acquiring lock. |
| atexit.register(_LockFileExitCleanup, lockfile) |
| while True: |
| try: |
| fcntl.lockf(lockfile, fcntl.LOCK_EX | fcntl.LOCK_NB) |
| break |
| except IOError as err: |
| if err.errno != errno.EAGAIN: |
| raise |
| else: |
| time.sleep(0.1) |
| |
| |
| class CodesignBundleAttributes(object): |
| """Wrapper class for codesigning attributes of a signed bundle.""" |
| |
| # List of codesigning attributes that this script requires. |
| _ATTRIBUTES = ['Authority', 'Identifier', 'TeamIdentifier'] |
| |
| def __init__(self, codesign_output): |
| self.attributes = {} |
| |
| pending_attributes = list(self._ATTRIBUTES) |
| for line in codesign_output.split('\n'): |
| if not pending_attributes: |
| break |
| |
| for attribute in pending_attributes: |
| if line.startswith(attribute): |
| value = line[len(attribute) + 1:] |
| self.attributes[attribute] = value |
| pending_attributes.remove(attribute) |
| break |
| |
| for attribute in self._ATTRIBUTES: |
| if attribute not in self.attributes: |
| _PrintXcodeError( |
| 'Failed to extract %s from %s.\n' % (attribute, codesign_output)) |
| |
| def Get(self, attribute): |
| """Returns the value for the given attribute, or None if it wasn't found.""" |
| value = self.attributes.get(attribute) |
| if attribute not in self._ATTRIBUTES: |
| _PrintXcodeError( |
| 'Attribute %s not declared to be parsed. ' % attribute + |
| 'Available attributes are %s.\n' % self._ATTRIBUTES) |
| return value |
| |
| |
| class _OptionsParser(object): |
| """Handles parsing script options.""" |
| |
| # List of all supported Xcode configurations. |
| KNOWN_CONFIGS = ['Debug', 'Release'] |
| |
| def __init__(self, build_settings, sdk_version, platform_name, arch): |
| self.targets = [] |
| self.build_settings = build_settings |
| self.common_build_options = [ |
| '--verbose_failures', |
| '--bes_outerr_buffer_size=0', # Don't buffer Bazel output. |
| ] |
| |
| self.sdk_version = sdk_version |
| self.platform_name = platform_name |
| |
| if self.platform_name.startswith('watch'): |
| config_platform = 'watchos' |
| elif self.platform_name.startswith('iphone'): |
| config_platform = 'ios' |
| elif self.platform_name.startswith('macos'): |
| config_platform = 'macos' |
| elif self.platform_name.startswith('appletv'): |
| config_platform = 'tvos' |
| else: |
| self._WarnUnknownPlatform() |
| config_platform = 'ios' |
| self.bazel_build_config = '{}_{}'.format(config_platform, arch) |
| if self.bazel_build_config not in build_settings.platformConfigFlags: |
| _PrintXcodeError('Unknown active compilation target of "{}". ' |
| 'Please report a Tulsi bug.' |
| .format(self.bazel_build_config)) |
| sys.exit(1) |
| |
| self.verbose = 0 |
| self.bazel_bin_path = 'bazel-bin' |
| self.bazel_executable = None |
| |
| @staticmethod |
| def _UsageMessage(): |
| """Returns a usage message string.""" |
| usage = textwrap.dedent("""\ |
| Usage: %s <target> [<target2> ...] --bazel <bazel_binary_path> [options] |
| |
| Where options are: |
| --verbose [-v] |
| Increments the verbosity of the script by one level. This argument |
| may be provided multiple times to enable additional output levels. |
| |
| --bazel_bin_path <path> |
| Path at which Bazel-generated artifacts may be retrieved. |
| """ % sys.argv[0]) |
| |
| return usage |
| |
| def ParseOptions(self, args): |
| """Parses arguments, returning (message, exit_code).""" |
| |
| bazel_executable_index = args.index('--bazel') |
| |
| self.targets = args[:bazel_executable_index] |
| if not self.targets or len(args) < bazel_executable_index + 2: |
| return (self._UsageMessage(), 10) |
| self.bazel_executable = args[bazel_executable_index + 1] |
| |
| return self._ParseVariableOptions(args[bazel_executable_index + 2:]) |
| |
| def GetBaseFlagsForTargets(self, config): |
| is_debug = config == 'Debug' |
| return self.build_settings.flags_for_target( |
| self.targets[0], |
| is_debug, |
| self.bazel_build_config) |
| |
| def GetEnabledFeatures(self): |
| """Returns a list of enabled Bazel features for the active target.""" |
| return self.build_settings.features_for_target(self.targets[0]) |
| |
| def GetBazelOptions(self, config): |
| """Returns the full set of build options for the given config.""" |
| bazel, start_up, build = self.GetBaseFlagsForTargets(config) |
| all_build = [] |
| all_build.extend(self.common_build_options) |
| all_build.extend(build) |
| |
| version_string = self._GetXcodeVersionString() |
| if version_string and self._NeedsXcodeVersionFlag(version_string): |
| all_build.append('--xcode_version=%s' % version_string) |
| |
| return bazel, start_up, all_build |
| |
| def _WarnUnknownPlatform(self): |
| _PrintUnbuffered('Warning: unknown platform "%s" will be treated as ' |
| 'iOS' % self.platform_name) |
| |
| def _ParseVariableOptions(self, args): |
| """Parses flag-based args, returning (message, exit_code).""" |
| |
| verbose_re = re.compile('-(v+)$') |
| |
| while args: |
| arg = args[0] |
| args = args[1:] |
| |
| if arg == '--bazel_bin_path': |
| if not args: |
| return ('Missing required parameter for %s' % arg, 2) |
| self.bazel_bin_path = args[0] |
| args = args[1:] |
| |
| elif arg == '--verbose': |
| self.verbose += 1 |
| |
| else: |
| match = verbose_re.match(arg) |
| if match: |
| self.verbose += len(match.group(1)) |
| else: |
| return ('Unknown option "%s"\n%s' % (arg, self._UsageMessage()), 1) |
| |
| return (None, 0) |
| |
| @staticmethod |
| def _GetXcodeVersionString(): |
| """Returns Xcode version info from the environment as a string.""" |
| reported_version = os.environ['XCODE_VERSION_ACTUAL'] |
| match = re.match(r'(\d{2})(\d)(\d)$', reported_version) |
| if not match: |
| _PrintUnbuffered('Warning: Failed to extract Xcode version from %s' % ( |
| reported_version)) |
| return None |
| major_version = int(match.group(1)) |
| minor_version = int(match.group(2)) |
| fix_version = int(match.group(3)) |
| fix_version_string = '' |
| if fix_version: |
| fix_version_string = '.%d' % fix_version |
| return '%d.%d%s' % (major_version, minor_version, fix_version_string) |
| |
| @staticmethod |
| def _NeedsXcodeVersionFlag(xcode_version): |
| """Returns True if the --xcode_version flag should be used for building. |
| |
| The flag should be used if the active Xcode version was not the same one |
| used during project generation. |
| |
| Note this a best-attempt only; this may not be accurate as Bazel itself |
| caches the active DEVELOPER_DIR path and the user may have changed their |
| installed Xcode version. |
| |
| Args: |
| xcode_version: active Xcode version string. |
| """ |
| tulsi_xcode_version = os.environ.get('TULSI_XCODE_VERSION') |
| if not tulsi_xcode_version: |
| return True |
| |
| # xcode_version will be of the form Major.Minor(.Fix)? while |
| # TULSI_XCODE_VERSION will be of the form Major.Minor.Fix so we'll need to |
| # remove the trailing .0 if it exists. |
| if tulsi_xcode_version.endswith('.0'): |
| tulsi_xcode_version = tulsi_xcode_version[:-2] |
| |
| return xcode_version != tulsi_xcode_version |
| |
| |
| class BazelBuildBridge(object): |
| """Handles invoking Bazel and unpacking generated binaries.""" |
| |
| BUILD_EVENTS_FILE = 'build_events.json' |
| |
| def __init__(self, build_settings): |
| self.build_settings = build_settings |
| self.verbose = 0 |
| self.build_path = None |
| self.bazel_bin_path = None |
| self.codesign_attributes = {} |
| |
| self.codesigning_folder_path = os.environ['CODESIGNING_FOLDER_PATH'] |
| |
| self.xcode_action = os.environ['ACTION'] # The Xcode build action. |
| # When invoked as an external build system script, Xcode will set ACTION to |
| # an empty string. |
| if not self.xcode_action: |
| self.xcode_action = 'build' |
| |
| if int(os.environ['XCODE_VERSION_MAJOR']) < 900: |
| xcode_build_version = os.environ['XCODE_PRODUCT_BUILD_VERSION'] |
| _PrintXcodeWarning('Tulsi officially supports Xcode 9+. You are using an ' |
| 'earlier Xcode, build %s.' % xcode_build_version) |
| |
| self.tulsi_version = os.environ.get('TULSI_VERSION', 'UNKNOWN') |
| |
| # TODO(b/69857078): Remove this when wrapped_clang is updated. |
| self.direct_debug_prefix_map = False |
| self.normalized_prefix_map = False |
| |
| self.update_symbol_cache = UpdateSymbolCache() |
| |
| # Target architecture. Must be defined for correct setting of |
| # the --cpu flag. Note that Xcode will set multiple values in |
| # ARCHS when building for a Generic Device. |
| archs = os.environ.get('ARCHS') |
| if not archs: |
| _PrintXcodeError('Tulsi requires env variable ARCHS to be ' |
| 'set. Please file a bug against Tulsi.') |
| sys.exit(1) |
| self.arch = archs.split()[-1] |
| |
| # Path into which generated artifacts should be copied. |
| self.built_products_dir = os.environ['BUILT_PRODUCTS_DIR'] |
| # Path where Xcode expects generated sources to be placed. |
| self.derived_sources_folder_path = os.environ.get('DERIVED_SOURCES_DIR') |
| # Full name of the target artifact (e.g., "MyApp.app" or "Test.xctest"). |
| self.full_product_name = os.environ['FULL_PRODUCT_NAME'] |
| # Whether to generate runfiles for this target. |
| self.gen_runfiles = os.environ.get('GENERATE_RUNFILES') |
| # Target SDK version. |
| self.sdk_version = os.environ.get('SDK_VERSION') |
| # TEST_HOST for unit tests. |
| self.test_host_binary = os.environ.get('TEST_HOST') |
| # Whether this target is a test or not. |
| self.is_test = os.environ.get('WRAPPER_EXTENSION') == 'xctest' |
| # Target platform. |
| self.platform_name = os.environ['PLATFORM_NAME'] |
| # Type of the target artifact. |
| self.product_type = os.environ['PRODUCT_TYPE'] |
| # Path to the parent of the xcodeproj bundle. |
| self.project_dir = os.environ['PROJECT_DIR'] |
| # Path to the xcodeproj bundle. |
| self.project_file_path = os.environ['PROJECT_FILE_PATH'] |
| # Path to the directory containing the WORKSPACE file. |
| self.workspace_root = os.path.abspath(os.environ['TULSI_WR']) |
| # Set to the name of the generated bundle for bundle-type targets, None for |
| # single file targets (like static libraries). |
| self.wrapper_name = os.environ.get('WRAPPER_NAME') |
| self.wrapper_suffix = os.environ.get('WRAPPER_SUFFIX', '') |
| |
| # Path where Xcode expects the artifacts to be written to. This is not the |
| # codesigning_path as device vs simulator builds have different signing |
| # requirements, so Xcode expects different paths to be signed. This is |
| # mostly apparent on XCUITests where simulator builds set the codesigning |
| # path to be the .xctest bundle, but for device builds it is actually the |
| # UI runner app (since it needs to be codesigned to run on the device.) The |
| # FULL_PRODUCT_NAME variable is a stable path on where to put the expected |
| # artifacts. For static libraries (objc_library, swift_library), |
| # FULL_PRODUCT_NAME corresponds to the .a file name, which coincides with |
| # the expected location for a single artifact output. |
| # TODO(b/35811023): Check these paths are still valid. |
| self.artifact_output_path = os.path.join( |
| os.environ['TARGET_BUILD_DIR'], |
| os.environ['FULL_PRODUCT_NAME']) |
| |
| # Path to where Xcode expects the binary to be placed. |
| self.binary_path = os.path.join( |
| os.environ['TARGET_BUILD_DIR'], os.environ['EXECUTABLE_PATH']) |
| |
| self.is_simulator = self.platform_name.endswith('simulator') |
| # Check to see if code signing actions should be skipped or not. |
| if self.is_simulator: |
| self.codesigning_allowed = False |
| else: |
| self.codesigning_allowed = os.environ.get('CODE_SIGNING_ALLOWED') == 'YES' |
| |
| if self.codesigning_allowed: |
| platform_prefix = 'iOS' |
| if self.platform_name.startswith('macos'): |
| platform_prefix = 'macOS' |
| entitlements_filename = '%sXCTRunner.entitlements' % platform_prefix |
| self.runner_entitlements_template = os.path.join(self.project_file_path, |
| '.tulsi', |
| 'Resources', |
| entitlements_filename) |
| |
| self.bazel_executable = None |
| |
| def Run(self, args): |
| """Executes a Bazel build based on the environment and given arguments.""" |
| if self.xcode_action != 'build': |
| sys.stderr.write('Xcode action is %s, ignoring.' % self.xcode_action) |
| return 0 |
| |
| parser = _OptionsParser(self.build_settings, |
| self.sdk_version, |
| self.platform_name, |
| self.arch) |
| timer = Timer('Parsing options', 'parsing_options').Start() |
| message, exit_code = parser.ParseOptions(args[1:]) |
| timer.End() |
| if exit_code: |
| _PrintXcodeError('Option parsing failed: %s' % message) |
| return exit_code |
| |
| self.verbose = parser.verbose |
| self.bazel_bin_path = os.path.abspath(parser.bazel_bin_path) |
| self.bazel_executable = parser.bazel_executable |
| self.bazel_exec_root = self.build_settings.bazelExecRoot |
| |
| # Update feature flags. |
| features = parser.GetEnabledFeatures() |
| self.direct_debug_prefix_map = 'DirectDebugPrefixMap' in features |
| self.normalized_prefix_map = 'DebugPathNormalization' in features |
| |
| self.build_path = os.path.join(self.bazel_bin_path, |
| os.environ.get('TULSI_BUILD_PATH', '')) |
| |
| # Path to the Build Events JSON file uses pid and is removed if the |
| # build is successful. |
| filename = '%d_%s' % (os.getpid(), BazelBuildBridge.BUILD_EVENTS_FILE) |
| self.build_events_file_path = os.path.join( |
| self.project_file_path, |
| '.tulsi', |
| filename) |
| |
| (command, retval) = self._BuildBazelCommand(parser) |
| if retval: |
| return retval |
| |
| timer = Timer('Running Bazel', 'running_bazel').Start() |
| exit_code, outputs = self._RunBazelAndPatchOutput(command) |
| timer.End() |
| if exit_code: |
| _Fatal('Bazel build failed with exit code %d. Please check the build ' |
| 'log in Report Navigator (⌘9) for more information.' |
| % exit_code) |
| return exit_code |
| |
| post_bazel_timer = Timer('Total Tulsi Post-Bazel time', 'total_post_bazel') |
| post_bazel_timer.Start() |
| |
| if not os.path.exists(self.bazel_exec_root): |
| _Fatal('No Bazel execution root was found at %r. Debugging experience ' |
| 'will be compromised. Please report a Tulsi bug.' |
| % self.bazel_exec_root) |
| return 404 |
| |
| # This needs to run after `bazel build`, since it depends on the Bazel |
| # workspace directory |
| exit_code = self._LinkTulsiWorkspace() |
| if exit_code: |
| return exit_code |
| |
| exit_code, outputs_data = self._ExtractAspectOutputsData(outputs) |
| if exit_code: |
| return exit_code |
| |
| # Generated headers are installed on a thread since we are launching |
| # a separate process to do so. This gives us clean timings. |
| install_thread = threading.Thread( |
| target=self._InstallGeneratedHeaders, args=(outputs,)) |
| install_thread.start() |
| timer = Timer('Installing artifacts', 'installing_artifacts').Start() |
| exit_code = self._InstallArtifact(outputs_data) |
| timer.End() |
| install_thread.join() |
| if exit_code: |
| return exit_code |
| |
| exit_code, dsym_paths = self._InstallDSYMBundles( |
| self.built_products_dir, outputs_data) |
| if exit_code: |
| return exit_code |
| |
| if not dsym_paths: |
| # Clean any bundles from a previous build that can interfere with |
| # debugging in LLDB. |
| self._CleanExistingDSYMs() |
| else: |
| for path in dsym_paths: |
| # Starting with Xcode 9.x, a plist based remapping exists for dSYM |
| # bundles that works with Swift as well as (Obj-)C(++). |
| # |
| # This solution also works for Xcode 8.x for (Obj-)C(++) but not |
| # for Swift. |
| timer = Timer('Adding remappings as plists to dSYM', |
| 'plist_dsym').Start() |
| exit_code = self._PlistdSYMPaths(path) |
| timer.End() |
| if exit_code: |
| _PrintXcodeError('Remapping dSYMs process returned %i, please ' |
| 'report a Tulsi bug and attach a full Xcode ' |
| 'build log.' % exit_code) |
| return exit_code |
| |
| # Starting with Xcode 7.3, XCTests inject several supporting frameworks |
| # into the test host that need to be signed with the same identity as |
| # the host itself. |
| if (self.is_test and not self.platform_name.startswith('macos') and |
| self.codesigning_allowed): |
| exit_code = self._ResignTestArtifacts() |
| if exit_code: |
| return exit_code |
| |
| # Starting with Xcode 8, .lldbinit files are honored during Xcode debugging |
| # sessions. This allows use of the target.source-map field to remap the |
| # debug symbol paths encoded in the binary to the paths expected by Xcode. |
| # |
| # This will not work with dSYM bundles, or a direct -fdebug-prefix-map from |
| # the Bazel-built locations to Xcode-visible sources. |
| timer = Timer('Updating .lldbinit', 'updating_lldbinit').Start() |
| clear_source_map = dsym_paths or self.direct_debug_prefix_map |
| exit_code = self._UpdateLLDBInit(clear_source_map) |
| timer.End() |
| if exit_code: |
| _PrintXcodeWarning('Updating .lldbinit action failed with code %d' % |
| exit_code) |
| |
| post_bazel_timer.End(log_absolute_times=True) |
| |
| return 0 |
| |
| def _BuildBazelCommand(self, options): |
| """Builds up a commandline string suitable for running Bazel.""" |
| configuration = os.environ['CONFIGURATION'] |
| # Treat the special testrunner build config as a Debug compile. |
| test_runner_config_prefix = '__TulsiTestRunner_' |
| if configuration.startswith(test_runner_config_prefix): |
| configuration = configuration[len(test_runner_config_prefix):] |
| elif os.environ.get('TULSI_TEST_RUNNER_ONLY') == 'YES': |
| _PrintXcodeError('Building test targets with configuration "%s" is not ' |
| 'allowed. Please use the "Test" action or "Build for" > ' |
| '"Testing" instead.' % configuration) |
| return (None, 1) |
| |
| if configuration not in _OptionsParser.KNOWN_CONFIGS: |
| _PrintXcodeError('Unknown build configuration "%s"' % configuration) |
| return (None, 1) |
| |
| bazel, start_up, build = options.GetBazelOptions(configuration) |
| bazel_command = [bazel] |
| bazel_command.extend(start_up) |
| bazel_command.append('build') |
| bazel_command.extend(build) |
| |
| bazel_command.extend([ |
| # The following flags are used by Tulsi to identify itself and read |
| # build information from Bazel. They shold not affect Bazel anaylsis |
| # caching. |
| '--tool_tag=tulsi_v%s:bazel_build' % self.tulsi_version, |
| '--build_event_json_file=%s' % self.build_events_file_path, |
| '--noexperimental_build_event_json_file_path_conversion', |
| '--aspects', '@tulsi//tulsi:tulsi_aspects.bzl%tulsi_outputs_aspect']) |
| |
| if self.is_test and self.gen_runfiles: |
| bazel_command.append('--output_groups=+tulsi_outputs') |
| else: |
| bazel_command.append('--output_groups=tulsi_outputs,default') |
| |
| bazel_command.extend(options.targets) |
| |
| extra_options = bazel_options.BazelOptions(os.environ) |
| bazel_command.extend(extra_options.bazel_feature_flags()) |
| |
| return (bazel_command, 0) |
| |
| def _RunBazelAndPatchOutput(self, command): |
| """Runs subprocess command, patching output as it's received.""" |
| self._PrintVerbose('Running "%s", patching output for workspace root at ' |
| '"%s" with project path at "%s".' % |
| (' '.join([pipes.quote(x) for x in command]), |
| self.workspace_root, |
| self.project_dir)) |
| # Xcode translates anything that looks like ""<path>:<line>:" that is not |
| # followed by the word "warning" into an error. Bazel warnings and debug |
| # messages do not fit this scheme and must be patched here. |
| bazel_warning_line_regex = re.compile( |
| r'(?:DEBUG|WARNING): ([^:]+:\d+:(?:\d+:)?)\s+(.+)') |
| |
| def PatchBazelWarningStatements(output_line): |
| match = bazel_warning_line_regex.match(output_line) |
| if match: |
| output_line = '%s warning: %s' % (match.group(1), match.group(2)) |
| return output_line |
| |
| patch_xcode_parsable_line = PatchBazelWarningStatements |
| if self.workspace_root != self.project_dir: |
| # Match (likely) filename:line_number: lines. |
| xcode_parsable_line_regex = re.compile(r'([^/][^:]+):\d+:') |
| |
| def PatchOutputLine(output_line): |
| output_line = PatchBazelWarningStatements(output_line) |
| if xcode_parsable_line_regex.match(output_line): |
| output_line = '%s/%s' % (self.workspace_root, output_line) |
| return output_line |
| patch_xcode_parsable_line = PatchOutputLine |
| |
| def HandleOutput(output): |
| for line in output.splitlines(): |
| _logger.log_bazel_message(patch_xcode_parsable_line(line)) |
| |
| def WatcherUpdate(watcher): |
| """Processes any new events in the given watcher. |
| |
| Args: |
| watcher: a BazelBuildEventsWatcher object. |
| |
| Returns: |
| A list of new tulsiout file names seen. |
| """ |
| new_events = watcher.check_for_new_events() |
| new_outputs = [] |
| for build_event in new_events: |
| if build_event.stderr: |
| HandleOutput(build_event.stderr) |
| if build_event.stdout: |
| HandleOutput(build_event.stdout) |
| if build_event.files: |
| outputs = [x for x in build_event.files if x.endswith('.tulsiouts')] |
| new_outputs.extend(outputs) |
| return new_outputs |
| |
| def ReaderThread(file_handle, out_buffer): |
| out_buffer.append(file_handle.read()) |
| file_handle.close() |
| |
| # Make sure the BEP JSON file exists and is empty. We do this to prevent |
| # any sort of race between the watcher, bazel, and the old file contents. |
| open(self.build_events_file_path, 'w').close() |
| |
| # Capture the stderr and stdout from Bazel. We only display it if it we're |
| # unable to read any BEP events. |
| process = subprocess.Popen(command, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.STDOUT, |
| bufsize=1) |
| |
| # Register atexit function to clean up BEP file. |
| atexit.register(_BEPFileExitCleanup, self.build_events_file_path) |
| global CLEANUP_BEP_FILE_AT_EXIT |
| CLEANUP_BEP_FILE_AT_EXIT = True |
| |
| # Start capturing output from Bazel. |
| reader_buffer = [] |
| reader_thread = threading.Thread(target=ReaderThread, |
| args=(process.stdout, reader_buffer)) |
| reader_thread.daemon = True |
| reader_thread.start() |
| |
| with io.open(self.build_events_file_path, 'r', -1, 'utf-8', 'ignore' |
| ) as bep_file: |
| watcher = bazel_build_events.BazelBuildEventsWatcher(bep_file, |
| _PrintXcodeWarning) |
| output_locations = [] |
| while process.returncode is None: |
| output_locations.extend(WatcherUpdate(watcher)) |
| time.sleep(0.1) |
| process.poll() |
| |
| output_locations.extend(WatcherUpdate(watcher)) |
| |
| # If BEP JSON parsing failed, we should display the raw stdout and |
| # stderr from Bazel. |
| reader_thread.join() |
| if not watcher.has_read_events(): |
| HandleOutput(reader_buffer[0]) |
| |
| if process.returncode == 0 and not output_locations: |
| CLEANUP_BEP_FILE_AT_EXIT = False |
| _PrintXcodeError('Unable to find location of the .tulsiouts file.' |
| 'Please report this as a Tulsi bug, including the' |
| 'contents of %s.' % self.build_events_file_path) |
| return 1, output_locations |
| return process.returncode, output_locations |
| |
| def _ExtractAspectOutputsData(self, output_files): |
| """Converts aspect output from paths to json to a list of dictionaries. |
| |
| Args: |
| output_files: A list of strings to files representing Bazel aspect output |
| in UTF-8 JSON format. |
| |
| Returns: |
| return_code, [dict]: A tuple with a return code as its first argument and |
| for its second argument, a list of dictionaries for |
| each output_file that could be interpreted as valid |
| JSON, representing the returned Bazel aspect |
| information. |
| return_code, None: If an error occurred while converting the list of |
| files into JSON. |
| """ |
| outputs_data = [] |
| for output_file in output_files: |
| try: |
| output_data = json.load(open(output_file)) |
| except (ValueError, IOError) as e: |
| _PrintXcodeError('Failed to load output map ""%s". ' |
| '%s' % (output_file, e)) |
| return 600, None |
| outputs_data.append(output_data) |
| return 0, outputs_data |
| |
| def _InstallArtifact(self, outputs_data): |
| """Installs Bazel-generated artifacts into the Xcode output directory.""" |
| xcode_artifact_path = self.artifact_output_path |
| |
| if not outputs_data: |
| _PrintXcodeError('Failed to load top level output file.') |
| return 600 |
| |
| primary_output_data = outputs_data[0] |
| |
| if 'artifact' not in primary_output_data: |
| _PrintXcodeError( |
| 'Failed to find an output artifact for target %s in output map %r' % |
| (xcode_artifact_path, primary_output_data)) |
| return 601 |
| |
| primary_artifact = primary_output_data['artifact'] |
| artifact_archive_root = primary_output_data.get('archive_root') |
| bundle_name = primary_output_data.get('bundle_name') |
| |
| # The PRODUCT_NAME used by the Xcode project is not trustable as it may be |
| # modified by the user and, more importantly, may have been modified by |
| # Tulsi to disambiguate multiple targets with the same name. |
| self.bazel_product_name = bundle_name |
| |
| # We need to handle IPAs (from {ios, tvos}_application) differently from |
| # ZIPs (from the other bundled rules) because they output slightly different |
| # directory structures. |
| is_ipa = primary_artifact.endswith('.ipa') |
| is_zip = primary_artifact.endswith('.zip') |
| |
| if is_ipa or is_zip: |
| expected_bundle_name = bundle_name + self.wrapper_suffix |
| |
| # The directory structure within the IPA is then determined based on |
| # Bazel's package and/or product type. |
| if is_ipa: |
| bundle_subpath = os.path.join('Payload', expected_bundle_name) |
| else: |
| # If the artifact is a ZIP, assume that the bundle is the top-level |
| # directory (this is the way in which Skylark rules package artifacts |
| # that are not standalone IPAs). |
| bundle_subpath = expected_bundle_name |
| |
| # Prefer to copy over files from the archive root instead of unzipping the |
| # ipa/zip in order to help preserve timestamps. Note that the archive root |
| # is only present for local builds; for remote builds we must extract from |
| # the zip file. |
| if self._IsValidArtifactArchiveRoot(artifact_archive_root, bundle_name): |
| source_location = os.path.join(artifact_archive_root, bundle_subpath) |
| exit_code = self._RsyncBundle(os.path.basename(primary_artifact), |
| source_location, |
| xcode_artifact_path) |
| else: |
| exit_code = self._UnpackTarget(primary_artifact, |
| xcode_artifact_path, |
| bundle_subpath) |
| if exit_code: |
| return exit_code |
| |
| elif os.path.isfile(primary_artifact): |
| # Remove the old artifact before copying. |
| if os.path.isfile(xcode_artifact_path): |
| try: |
| os.remove(xcode_artifact_path) |
| except OSError as e: |
| _PrintXcodeError('Failed to remove stale output file ""%s". ' |
| '%s' % (xcode_artifact_path, e)) |
| return 600 |
| exit_code = self._CopyFile(os.path.basename(primary_artifact), |
| primary_artifact, |
| xcode_artifact_path) |
| if exit_code: |
| return exit_code |
| else: |
| self._InstallBundle(primary_artifact, |
| xcode_artifact_path) |
| |
| # No return code check as this is not an essential operation. |
| self._InstallEmbeddedBundlesIfNecessary(primary_output_data) |
| |
| return 0 |
| |
| def _IsValidArtifactArchiveRoot(self, archive_root, bundle_name): |
| """Returns true if the archive root is valid for use.""" |
| if not archive_root or not os.path.isdir(archive_root): |
| return False |
| |
| # The archive root will not be updated for any remote builds, but will be |
| # valid for local builds. We detect this by using an implementation detail |
| # of the rules_apple bundler: archives will always be transformed from |
| # <name>.unprocessed.zip (locally or remotely) to <name>.archive-root. |
| # |
| # Thus if the mod time on the archive root is not greater than the mod |
| # time on the on the zip, the archive root is not valid. Remote builds |
| # will end up copying the <name>.unprocessed.zip but not the |
| # <name>.archive-root, making this a valid temporary solution. |
| # |
| # In the future, it would be better to have this handled by the rules; |
| # until then this should suffice as a work around to improve build times. |
| unprocessed_zip = os.path.join(os.path.dirname(archive_root), |
| '%s.unprocessed.zip' % bundle_name) |
| if not os.path.isfile(unprocessed_zip): |
| return False |
| return os.path.getmtime(archive_root) > os.path.getmtime(unprocessed_zip) |
| |
| def _InstallEmbeddedBundlesIfNecessary(self, output_data): |
| """Install embedded bundles next to the current target's output.""" |
| |
| # In order to find and load symbols for the binary installed on device, |
| # Instruments needs to "see" it in Spotlight index somewhere on the local |
| # filesystem. This is only needed for on-device instrumentation. |
| # |
| # Unfortunatelly, it does not seem to be possible to detect when a build is |
| # being made for profiling, thus we can't exclude this step for on-device |
| # non-profiling builds. |
| |
| if self.is_simulator or ('embedded_bundles' not in output_data): |
| return |
| |
| timer = Timer('Installing embedded bundles', |
| 'installing_embedded_bundles').Start() |
| |
| for bundle_info in output_data['embedded_bundles']: |
| bundle_name = bundle_info['bundle_name'] |
| bundle_extension = bundle_info['bundle_extension'] |
| full_name = bundle_name + bundle_extension |
| output_path = os.path.join(self.built_products_dir, full_name) |
| # TODO(b/68936732): See if copying just the binary (not the whole bundle) |
| # is enough to make Instruments work. |
| if self._IsValidArtifactArchiveRoot(bundle_info['archive_root'], |
| bundle_name): |
| source_path = os.path.join(bundle_info['archive_root'], full_name) |
| self._RsyncBundle(full_name, source_path, output_path) |
| else: |
| # Try to find the embedded bundle within the installed main bundle. |
| bundle_path = self._FindEmbeddedBundleInMain(bundle_name, |
| bundle_extension) |
| if bundle_path: |
| self._RsyncBundle(full_name, bundle_path, output_path) |
| else: |
| _PrintXcodeWarning('Could not find bundle %s in main bundle. ' % |
| (bundle_name + bundle_extension) + |
| 'Device-level Instruments debugging will be ' |
| 'disabled for this bundle. Please report a ' |
| 'Tulsi bug and attach a full Xcode build log.') |
| |
| timer.End() |
| |
| # Maps extensions to anticipated subfolders. |
| _EMBEDDED_BUNDLE_PATHS = { |
| '.appex': 'PlugIns', |
| '.framework': 'Frameworks' |
| } |
| |
| def _FindEmbeddedBundleInMain(self, bundle_name, bundle_extension): |
| """Retrieves the first embedded bundle found within our main bundle.""" |
| main_bundle = os.environ.get('EXECUTABLE_FOLDER_PATH') |
| |
| if not main_bundle: |
| return None |
| |
| main_bundle_path = os.path.join(self.built_products_dir, |
| main_bundle) |
| |
| return self._FindEmbeddedBundle(bundle_name, |
| bundle_extension, |
| main_bundle_path) |
| |
| def _FindEmbeddedBundle(self, bundle_name, bundle_extension, bundle_path): |
| """Retrieves the first embedded bundle found within this bundle path.""" |
| embedded_subfolder = self._EMBEDDED_BUNDLE_PATHS.get(bundle_extension) |
| |
| if not embedded_subfolder: |
| return None |
| |
| projected_bundle_path = os.path.join(bundle_path, |
| embedded_subfolder, |
| bundle_name + bundle_extension) |
| |
| if os.path.isdir(projected_bundle_path): |
| return projected_bundle_path |
| |
| # For frameworks not in the main app bundle, and possibly other executable |
| # bundle content in the future, we recurse through every .appex in PlugIns |
| # to find those frameworks. |
| # |
| # This won't support frameworks that could potentially have the same name |
| # but are different between the app and extensions, but we intentionally |
| # choose not to handle that case. Xcode build system only supports |
| # uniquely named frameworks, and we shouldn't confuse the dynamic loader |
| # with frameworks that have the same image names but different content. |
| appex_root_path = os.path.join(bundle_path, 'PlugIns') |
| if not os.path.isdir(appex_root_path): |
| return None |
| |
| # Find each directory within appex_root_path and attempt to find a bundle. |
| # If one can't be found, return None. |
| appex_dirs = os.listdir(appex_root_path) |
| for appex_dir in appex_dirs: |
| appex_path = os.path.join(appex_root_path, appex_dir) |
| path = self._FindEmbeddedBundle(bundle_name, |
| bundle_extension, |
| appex_path) |
| if path: |
| return path |
| return None |
| |
| def _InstallGeneratedHeaders(self, outputs): |
| """Invokes install_genfiles.py to install generated Bazel files.""" |
| genfiles_timer = Timer('Installing generated headers', |
| 'installing_generated_headers').Start() |
| # Resolve the path to the install_genfiles.py script. |
| # It should be in the same directory as this script. |
| path = os.path.join(os.path.dirname(os.path.realpath(__file__)), |
| 'install_genfiles.py') |
| |
| args = [path, self.bazel_exec_root] |
| args.extend(outputs) |
| |
| self._PrintVerbose('Spawning subprocess install_genfiles.py to copy ' |
| 'generated files in the background...') |
| process = subprocess.Popen(args) |
| process.wait() |
| genfiles_timer.End() |
| |
| def _InstallBundle(self, source_path, output_path): |
| """Copies the bundle at source_path to output_path.""" |
| if not os.path.isdir(source_path): |
| return 0, None |
| |
| if os.path.isdir(output_path): |
| try: |
| shutil.rmtree(output_path) |
| except OSError as e: |
| _PrintXcodeError('Failed to remove stale bundle ""%s". ' |
| '%s' % (output_path, e)) |
| return 700, None |
| |
| exit_code = self._CopyBundle(os.path.basename(source_path), |
| source_path, |
| output_path) |
| return exit_code, output_path |
| |
| def _RsyncBundle(self, source_path, full_source_path, output_path): |
| """Rsyncs the given bundle to the given expected output path.""" |
| self._PrintVerbose('Copying %s to %s' % (source_path, output_path)) |
| |
| # rsync behavior changes based on presence of a trailing slash. |
| if not full_source_path.endswith('/'): |
| full_source_path += '/' |
| |
| try: |
| # Use -c to check differences by checksum, -v for verbose, |
| # and --delete to delete stale files. |
| # The rest of the flags are the same as -a but without preserving |
| # timestamps, which is done intentionally so the timestamp will |
| # only change when the file is changed. |
| subprocess.check_output(['rsync', |
| '-vcrlpgoD', |
| '--delete', |
| full_source_path, |
| output_path], |
| stderr=subprocess.STDOUT) |
| except subprocess.CalledProcessError as e: |
| _PrintXcodeError('Rsync failed. %s' % e) |
| return 650 |
| return 0 |
| |
| def _CopyBundle(self, source_path, full_source_path, output_path): |
| """Copies the given bundle to the given expected output path.""" |
| self._PrintVerbose('Copying %s to %s' % (source_path, output_path)) |
| try: |
| CopyOnWrite(full_source_path, output_path, tree=True) |
| except OSError as e: |
| _PrintXcodeError('Copy failed. %s' % e) |
| return 650 |
| return 0 |
| |
| def _CopyFile(self, source_path, full_source_path, output_path): |
| """Copies the given file to the given expected output path.""" |
| self._PrintVerbose('Copying %s to %s' % (source_path, output_path)) |
| output_path_dir = os.path.dirname(output_path) |
| if not os.path.exists(output_path_dir): |
| try: |
| os.makedirs(output_path_dir) |
| except OSError as e: |
| _PrintXcodeError('Failed to create output directory "%s". ' |
| '%s' % (output_path_dir, e)) |
| return 650 |
| try: |
| CopyOnWrite(full_source_path, output_path) |
| except OSError as e: |
| _PrintXcodeError('Copy failed. %s' % e) |
| return 650 |
| return 0 |
| |
| def _UnpackTarget(self, bundle_path, output_path, bundle_subpath): |
| """Unpacks generated bundle into the given expected output path.""" |
| self._PrintVerbose('Unpacking %s to %s' % (bundle_path, output_path)) |
| |
| if not os.path.isfile(bundle_path): |
| _PrintXcodeError('Generated bundle not found at "%s"' % bundle_path) |
| return 670 |
| |
| if os.path.isdir(output_path): |
| try: |
| shutil.rmtree(output_path) |
| except OSError as e: |
| _PrintXcodeError('Failed to remove stale output directory ""%s". ' |
| '%s' % (output_path, e)) |
| return 600 |
| |
| # We need to handle IPAs (from {ios, tvos}_application) differently from |
| # ZIPs (from the other bundled rules) because they output slightly different |
| # directory structures. |
| is_ipa = bundle_path.endswith('.ipa') |
| |
| with zipfile.ZipFile(bundle_path, 'r') as zf: |
| for item in zf.infolist(): |
| filename = item.filename |
| |
| # Support directories do not seem to be needed by the debugger and are |
| # skipped. |
| basedir = filename.split(os.sep)[0] |
| if basedir.endswith('Support') or basedir.endswith('Support2'): |
| continue |
| |
| if len(filename) < len(bundle_subpath): |
| continue |
| |
| attributes = (item.external_attr >> 16) & 0o777 |
| self._PrintVerbose('Extracting %s (%o)' % (filename, attributes), |
| level=1) |
| |
| if not filename.startswith(bundle_subpath): |
| _PrintXcodeWarning('Mismatched extraction path. Bundle content ' |
| 'at "%s" expected to have subpath of "%s"' % |
| (filename, bundle_subpath)) |
| |
| dir_components = self._SplitPathComponents(filename) |
| |
| # Get the file's path, ignoring the payload components if the archive |
| # is an IPA. |
| if is_ipa: |
| subpath = os.path.join(*dir_components[2:]) |
| else: |
| subpath = os.path.join(*dir_components[1:]) |
| target_path = os.path.join(output_path, subpath) |
| |
| # Ensure the target directory exists. |
| try: |
| target_dir = os.path.dirname(target_path) |
| if not os.path.isdir(target_dir): |
| os.makedirs(target_dir) |
| except OSError as e: |
| _PrintXcodeError( |
| 'Failed to create target path "%s" during extraction. %s' % ( |
| target_path, e)) |
| return 671 |
| |
| # If the archive item looks like a file, extract it. |
| if not filename.endswith(os.sep): |
| with zf.open(item) as src, file(target_path, 'wb') as dst: |
| shutil.copyfileobj(src, dst) |
| |
| # Patch up the extracted file's attributes to match the zip content. |
| if attributes: |
| os.chmod(target_path, attributes) |
| |
| return 0 |
| |
| def _InstallDSYMBundles(self, output_dir, outputs_data): |
| """Copies any generated dSYM bundles to the given directory.""" |
| # Indicates that our aspect reports a dSYM was generated for this build. |
| has_dsym = outputs_data[0]['has_dsym'] |
| |
| if not has_dsym: |
| return 0, None |
| |
| # Start the timer now that we know we have dSYM bundles to install. |
| timer = Timer('Installing DSYM bundles', 'installing_dsym').Start() |
| |
| # Declares the Xcode-generated name of our main target's dSYM. |
| # This environment variable is always set, for any possible Xcode output |
| # that could generate a dSYM bundle. |
| target_dsym = os.environ.get('DWARF_DSYM_FILE_NAME') |
| if target_dsym: |
| dsym_to_process = set([(self.build_path, target_dsym)]) |
| |
| # Collect additional dSYM bundles generated by the dependencies of this |
| # build such as extensions or frameworks. |
| child_dsyms = set() |
| for data in outputs_data: |
| for bundle_info in data.get('embedded_bundles', []): |
| if not bundle_info['has_dsym']: |
| continue |
| # Uses the parent of archive_root to find dSYM bundles associated with |
| # app/extension/df bundles. Currently hinges on implementation of the |
| # build rules. |
| dsym_path = os.path.dirname(bundle_info['archive_root']) |
| bundle_full_name = (bundle_info['bundle_name'] + |
| bundle_info['bundle_extension']) |
| dsym_filename = '%s.dSYM' % bundle_full_name |
| child_dsyms.add((dsym_path, dsym_filename)) |
| dsym_to_process.update(child_dsyms) |
| |
| dsyms_found = [] |
| for dsym_path, dsym_filename in dsym_to_process: |
| input_dsym_full_path = os.path.join(dsym_path, dsym_filename) |
| output_full_path = os.path.join(output_dir, dsym_filename) |
| exit_code, path = self._InstallBundle(input_dsym_full_path, |
| output_full_path) |
| if exit_code: |
| _PrintXcodeWarning('Failed to install dSYM "%s" (%s)' |
| % (dsym_filename, exit_code)) |
| elif path is None: |
| _PrintXcodeWarning('Could not find a dSYM bundle named "%s"' |
| % dsym_filename) |
| else: |
| dsyms_found.append(path) |
| |
| timer.End() |
| return 0, dsyms_found |
| |
| def _ResignBundle(self, bundle_path, signing_identity, entitlements=None): |
| """Re-signs the bundle with the given signing identity and entitlements.""" |
| if not self.codesigning_allowed: |
| return 0 |
| |
| timer = Timer('\tSigning ' + bundle_path, 'signing_bundle').Start() |
| command = [ |
| 'xcrun', |
| 'codesign', |
| '-f', |
| '--timestamp=none', |
| '-s', |
| signing_identity, |
| ] |
| |
| if entitlements: |
| command.extend(['--entitlements', entitlements]) |
| else: |
| command.append('--preserve-metadata=entitlements') |
| |
| command.append(bundle_path) |
| |
| returncode, output = self._RunSubprocess(command) |
| timer.End() |
| if returncode: |
| _PrintXcodeError('Re-sign command %r failed. %s' % (command, output)) |
| return 800 + returncode |
| return 0 |
| |
| def _ResignTestArtifacts(self): |
| """Resign test related artifacts that Xcode injected into the outputs.""" |
| if not self.is_test: |
| return 0 |
| # Extract the signing identity from the bundle at the expected output path |
| # since that's where the signed bundle from bazel was placed. |
| signing_identity = self._ExtractSigningIdentity(self.artifact_output_path) |
| if not signing_identity: |
| return 800 |
| |
| exit_code = 0 |
| timer = Timer('Re-signing injected test host artifacts', |
| 'resigning_test_host').Start() |
| |
| if self.test_host_binary: |
| # For Unit tests, we need to resign the frameworks that Xcode injected |
| # into the test host bundle. |
| test_host_bundle = os.path.dirname(self.test_host_binary) |
| exit_code = self._ResignXcodeTestFrameworks( |
| test_host_bundle, signing_identity) |
| else: |
| # For UI tests, we need to resign the UI test runner app and the |
| # frameworks that Xcode injected into the runner app. The UI Runner app |
| # also needs to be signed with entitlements. |
| exit_code = self._ResignXcodeTestFrameworks( |
| self.codesigning_folder_path, signing_identity) |
| if exit_code == 0: |
| entitlements_path = self._InstantiateUIRunnerEntitlements() |
| if entitlements_path: |
| exit_code = self._ResignBundle( |
| self.codesigning_folder_path, |
| signing_identity, |
| entitlements_path) |
| else: |
| _PrintXcodeError('Could not instantiate UI runner entitlements.') |
| exit_code = 800 |
| |
| timer.End() |
| return exit_code |
| |
| def _ResignXcodeTestFrameworks(self, bundle, signing_identity): |
| """Re-signs the support frameworks injected by Xcode in the given bundle.""" |
| if not self.codesigning_allowed: |
| return 0 |
| |
| for framework in XCODE_INJECTED_FRAMEWORKS: |
| framework_path = os.path.join( |
| bundle, 'Frameworks', framework) |
| if os.path.isdir(framework_path) or os.path.isfile(framework_path): |
| exit_code = self._ResignBundle(framework_path, signing_identity) |
| if exit_code != 0: |
| return exit_code |
| return 0 |
| |
| def _InstantiateUIRunnerEntitlements(self): |
| """Substitute team and bundle identifiers into UI runner entitlements. |
| |
| This method throws an IOError exception if the template wasn't found in |
| its expected location, or an OSError if the expected output folder could |
| not be created. |
| |
| Returns: |
| The path to where the entitlements file was generated. |
| """ |
| if not self.codesigning_allowed: |
| return None |
| if not os.path.exists(self.derived_sources_folder_path): |
| os.makedirs(self.derived_sources_folder_path) |
| |
| output_file = os.path.join( |
| self.derived_sources_folder_path, |
| self.bazel_product_name + '_UIRunner.entitlements') |
| if os.path.exists(output_file): |
| os.remove(output_file) |
| |
| with open(self.runner_entitlements_template, 'r') as template: |
| contents = template.read() |
| contents = contents.replace( |
| '$(TeamIdentifier)', |
| self._ExtractSigningTeamIdentifier(self.artifact_output_path)) |
| contents = contents.replace( |
| '$(BundleIdentifier)', |
| self._ExtractSigningBundleIdentifier(self.artifact_output_path)) |
| with open(output_file, 'w') as output: |
| output.write(contents) |
| return output_file |
| |
| def _ExtractSigningIdentity(self, signed_bundle): |
| """Returns the identity used to sign the given bundle path.""" |
| return self._ExtractSigningAttribute(signed_bundle, 'Authority') |
| |
| def _ExtractSigningTeamIdentifier(self, signed_bundle): |
| """Returns the team identifier used to sign the given bundle path.""" |
| return self._ExtractSigningAttribute(signed_bundle, 'TeamIdentifier') |
| |
| def _ExtractSigningBundleIdentifier(self, signed_bundle): |
| """Returns the bundle identifier used to sign the given bundle path.""" |
| return self._ExtractSigningAttribute(signed_bundle, 'Identifier') |
| |
| def _ExtractSigningAttribute(self, signed_bundle, attribute): |
| """Returns the attribute used to sign the given bundle path.""" |
| if not self.codesigning_allowed: |
| return '<CODE_SIGNING_ALLOWED=NO>' |
| |
| cached = self.codesign_attributes.get(signed_bundle) |
| if cached: |
| return cached.Get(attribute) |
| |
| timer = Timer('\tExtracting signature for ' + signed_bundle, |
| 'extracting_signature').Start() |
| output = subprocess.check_output(['xcrun', |
| 'codesign', |
| '-dvv', |
| signed_bundle], |
| stderr=subprocess.STDOUT) |
| timer.End() |
| |
| bundle_attributes = CodesignBundleAttributes(output) |
| self.codesign_attributes[signed_bundle] = bundle_attributes |
| return bundle_attributes.Get(attribute) |
| |
| def _UpdateLLDBInit(self, clear_source_map=False): |
| """Updates ~/.lldbinit-tulsiproj to enable debugging of Bazel binaries.""" |
| |
| # Make sure a reference to ~/.lldbinit-tulsiproj exists in ~/.lldbinit or |
| # ~/.lldbinit-Xcode. Priority is given to ~/.lldbinit-Xcode if it exists, |
| # otherwise the bootstrapping will be written to ~/.lldbinit. |
| BootstrapLLDBInit() |
| |
| with open(TULSI_LLDBINIT_FILE, 'w') as out: |
| out.write('# This file is autogenerated by Tulsi and should not be ' |
| 'edited.\n') |
| |
| if clear_source_map: |
| out.write('settings clear target.source-map\n') |
| return 0 |
| |
| if self.normalized_prefix_map: |
| source_map = ('./', self._NormalizePath(self.workspace_root)) |
| out.write('# This maps the normalized root to that used by ' |
| '%r.\n' % os.path.basename(self.project_file_path)) |
| else: |
| # NOTE: settings target.source-map is different from |
| # DBGSourcePathRemapping; the former is an LLDB target-level |
| # remapping API that rewrites breakpoints, the latter is an LLDB |
| # module-level remapping API that changes DWARF debug info in memory. |
| # |
| # If we had multiple remappings, it would not make sense for the |
| # two APIs to share the same mappings. They have very different |
| # side-effects in how they individually handle debug information. |
| source_map = self._ExtractTargetSourceMap() |
| out.write('# This maps Bazel\'s execution root to that used by ' |
| '%r.\n' % os.path.basename(self.project_file_path)) |
| |
| out.write('settings set target.source-map "%s" "%s"\n' % source_map) |
| |
| return 0 |
| |
| def _DWARFdSYMBinaries(self, dsym_bundle_path): |
| """Returns an array of abs paths to DWARF binaries in the dSYM bundle. |
| |
| Args: |
| dsym_bundle_path: absolute path to the dSYM bundle. |
| |
| Returns: |
| str[]: a list of strings representing the absolute paths to each binary |
| found within the dSYM bundle. |
| """ |
| dwarf_dir = os.path.join(dsym_bundle_path, |
| 'Contents', |
| 'Resources', |
| 'DWARF') |
| |
| dsym_binaries = [] |
| |
| for f in os.listdir(dwarf_dir): |
| # Ignore hidden files, such as .DS_Store files. |
| if not f.startswith('.'): |
| # Append full path info. |
| dsym_binary = os.path.join(dwarf_dir, f) |
| dsym_binaries.append(dsym_binary) |
| |
| return dsym_binaries |
| |
| def _UUIDInfoForBinary(self, source_binary_path): |
| """Returns exit code of dwarfdump along with every UUID + arch found. |
| |
| Args: |
| source_binary_path: absolute path to the binary file. |
| |
| Returns: |
| (Int, str[(str, str)]): a tuple containing the return code of dwarfdump |
| as its first element, and a list of strings |
| representing each UUID found for each given |
| binary slice found within the binary with its |
| given architecture, if no error has occcured. |
| """ |
| |
| returncode, output = self._RunSubprocess([ |
| 'xcrun', |
| 'dwarfdump', |
| '--uuid', |
| source_binary_path |
| ]) |
| if returncode: |
| _PrintXcodeWarning('dwarfdump returned %d while finding the UUID for %s' |
| % (returncode, source_binary_path)) |
| return (returncode, []) |
| |
| # All UUIDs for binary slices will be returned as the second from left, |
| # from output; "UUID: D4DE5AA2-79EE-36FE-980C-755AED318308 (x86_64) |
| # /Applications/Calendar.app/Contents/MacOS/Calendar" |
| |
| uuids_found = [] |
| for dwarfdump_output in output.split('\n'): |
| if not dwarfdump_output: |
| continue |
| found_output = re.match(r'^(?:UUID: )([^ ]+) \(([^)]+)', dwarfdump_output) |
| if not found_output: |
| continue |
| found_uuid = found_output.group(1) |
| if not found_uuid: |
| continue |
| found_arch = found_output.group(2) |
| if not found_arch: |
| continue |
| uuids_found.append((found_uuid, found_arch)) |
| |
| return (0, uuids_found) |
| |
| def _CreateUUIDPlist(self, dsym_bundle_path, uuid, arch, source_maps): |
| """Creates a UUID.plist in a dSYM bundle to redirect sources. |
| |
| Args: |
| dsym_bundle_path: absolute path to the dSYM bundle. |
| uuid: string representing the UUID of the binary slice with paths to |
| remap in the dSYM bundle. |
| arch: the architecture of the binary slice. |
| source_maps: list of tuples representing all absolute paths to source |
| files compiled by Bazel as strings ($0) associated with the |
| paths to Xcode-visible sources used for the purposes of |
| Tulsi debugging as strings ($1). |
| |
| Returns: |
| Bool: True if no error was found, or False, representing a failure to |
| write when creating the plist. |
| """ |
| |
| # Create a UUID plist at (dsym_bundle_path)/Contents/Resources/. |
| remap_plist = os.path.join(dsym_bundle_path, |
| 'Contents', |
| 'Resources', |
| '%s.plist' % uuid) |
| |
| # Via an XML plist, add the mappings from _ExtractTargetSourceMap(). |
| try: |
| with open(remap_plist, 'w') as out: |
| out.write('<?xml version="1.0" encoding="UTF-8"?>\n' |
| '<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" ' |
| '"http://www.apple.com/DTDs/PropertyList-1.0.dtd">\n' |
| '<plist version="1.0">\n' |
| '<dict>\n' |
| '<key>DBGSourcePathRemapping</key>\n' |
| '<dict>\n') |
| for source_map in source_maps: |
| # Add the mapping as a DBGSourcePathRemapping to the UUID plist here. |
| out.write('<key>%s</key>\n<string>%s</string>\n' % source_map) |
| |
| # Make sure that we also set DBGVersion to 3. |
| out.write('</dict>\n' |
| '<key>DBGVersion</key>\n' |
| '<string>3</string>\n' |
| '</dict>\n' |
| '</plist>\n') |
| except OSError as e: |
| _PrintXcodeError('Failed to write %s, received error %s' % |
| (remap_plist, e)) |
| return False |
| |
| # Update the dSYM symbol cache with a reference to this dSYM bundle. |
| err_msg = self.update_symbol_cache.UpdateUUID(uuid, |
| dsym_bundle_path, |
| arch) |
| if err_msg: |
| _PrintXcodeWarning('Attempted to save (uuid, dsym_bundle_path, arch) ' |
| 'to DBGShellCommands\' dSYM cache, but got error ' |
| '\"%s\".' % err_msg) |
| |
| return True |
| |
| def _CleanExistingDSYMs(self): |
| """Clean dSYM bundles that were left over from a previous build.""" |
| |
| output_dir = self.built_products_dir |
| output_dir_list = os.listdir(output_dir) |
| for item in output_dir_list: |
| if item.endswith('.dSYM'): |
| shutil.rmtree(os.path.join(output_dir, item)) |
| |
| def _PlistdSYMPaths(self, dsym_bundle_path): |
| """Adds Plists to a given dSYM bundle to redirect DWARF data.""" |
| |
| # Retrieve the paths that we are expected to remap. |
| |
| # Always include a direct path from the execroot to Xcode-visible sources. |
| source_maps = [self._ExtractTargetSourceMap()] |
| |
| # Remap relative paths from the workspace root. |
| if self.normalized_prefix_map: |
| # Take the normalized path and map that to Xcode-visible sources. |
| source_maps.append(('./', self._NormalizePath(self.workspace_root))) |
| |
| # Find the binaries within the dSYM bundle. UUIDs will match that of the |
| # binary it was based on. |
| dsym_binaries = self._DWARFdSYMBinaries(dsym_bundle_path) |
| |
| if not dsym_binaries: |
| _PrintXcodeWarning('Could not find the binaries that the dSYM %s was ' |
| 'based on to determine DWARF binary slices to patch. ' |
| 'Debugging will probably fail.' % (dsym_bundle_path)) |
| return 404 |
| |
| # Find the binary slice UUIDs with dwarfdump from each binary. |
| for source_binary_path in dsym_binaries: |
| |
| returncode, uuid_info_found = self._UUIDInfoForBinary(source_binary_path) |
| if returncode: |
| return returncode |
| |
| # Create a plist per UUID, each indicating a binary slice to remap paths. |
| for uuid, arch in uuid_info_found: |
| plist_created = self._CreateUUIDPlist(dsym_bundle_path, |
| uuid, |
| arch, |
| source_maps) |
| if not plist_created: |
| return 405 |
| |
| return 0 |
| |
| def _NormalizePath(self, path): |
| """Returns paths with a common form, normalized with a trailing slash. |
| |
| Args: |
| path: a file system path given in the form of a string. |
| |
| Returns: |
| str: a normalized string with a trailing slash, based on |path|. |
| """ |
| return os.path.normpath(path) + os.sep |
| |
| def _ExtractTargetSourceMap(self, normalize=True): |
| """Extracts the source path as a tuple associated with the WORKSPACE path. |
| |
| Args: |
| normalize: Defines if all paths should be normalized. Preferred for APIs |
| like DBGSourcePathRemapping and target.source-map but won't |
| work for the purposes of -fdebug-prefix-map. |
| |
| Returns: |
| None: if an error occurred. |
| (str, str): a single tuple representing all absolute paths to source |
| files compiled by Bazel as strings ($0) associated with |
| the paths to Xcode-visible sources used for the purposes |
| of Tulsi debugging as strings ($1). |
| """ |
| # All paths route to the "workspace root" for sources visible from Xcode. |
| sm_destpath = self.workspace_root |
| if normalize: |
| sm_destpath = self._NormalizePath(sm_destpath) |
| |
| # Add a redirection for the Bazel execution root, the path where sources |
| # are referenced by Bazel. |
| sm_execroot = self.bazel_exec_root |
| if normalize: |
| sm_execroot = self._NormalizePath(sm_execroot) |
| return (sm_execroot, sm_destpath) |
| |
| def _LinkTulsiWorkspace(self): |
| """Links the Bazel Workspace to the Tulsi Workspace (`tulsi-workspace`).""" |
| tulsi_workspace = self.workspace_root + '/tulsi-workspace' |
| if os.path.islink(tulsi_workspace): |
| os.unlink(tulsi_workspace) |
| |
| os.symlink(self.bazel_exec_root, tulsi_workspace) |
| if not os.path.exists(tulsi_workspace): |
| _PrintXcodeError( |
| 'Linking Tulsi Workspace to %s failed.' % tulsi_workspace) |
| return -1 |
| |
| @staticmethod |
| def _SplitPathComponents(path): |
| """Splits the given path into an array of all of its components.""" |
| components = path.split(os.sep) |
| # Patch up the first component if path started with an os.sep |
| if not components[0]: |
| components[0] = os.sep |
| return components |
| |
| def _RunSubprocess(self, cmd): |
| """Runs the given command as a subprocess, returning (exit_code, output).""" |
| self._PrintVerbose('%r' % cmd, 1) |
| process = subprocess.Popen(cmd, |
| stdout=subprocess.PIPE, |
| stderr=subprocess.STDOUT) |
| output, _ = process.communicate() |
| return (process.returncode, output) |
| |
| def _PrintVerbose(self, msg, level=0): |
| if self.verbose > level: |
| _PrintUnbuffered(msg) |
| |
| |
| def main(argv): |
| build_settings = bazel_build_settings.BUILD_SETTINGS |
| if build_settings is None: |
| _Fatal('Unable to resolve build settings. Please report a Tulsi bug.') |
| return 1 |
| return BazelBuildBridge(build_settings).Run(argv) |
| |
| |
| if __name__ == '__main__': |
| _LockFileAcquire('/tmp/tulsi_bazel_build.lock') |
| _logger = tulsi_logging.Logger() |
| logger_warning = tulsi_logging.validity_check() |
| if logger_warning: |
| _PrintXcodeWarning(logger_warning) |
| _timer = Timer('Everything', 'complete_build').Start() |
| signal.signal(signal.SIGINT, _InterruptHandler) |
| _exit_code = main(sys.argv) |
| _timer.End() |
| sys.exit(_exit_code) |