コード例 #1
0
def setup():
    test_data_path = Path(__file__).parent / 'Examples/SwiftIO'

    items = ['Cartfile', 'Cartfile.resolved', 'punic.yaml']

    temp_dir = Path(tempfile.mkdtemp())

    for item in items:
        shutil.copy(test_data_path / item, temp_dir)

    return temp_dir
コード例 #2
0
    def _post_process(self, platform, products):

        ########################################################################################################

        logger.debug("<sub>Post processing</sub>...")

        # By convention sdk[0] is always the device sdk (e.g. 'iphoneos' and not 'iphonesimulator')
        device_sdk = platform.device_sdk
        device_product = products[device_sdk]

        ########################################################################################################

        output_product = copy(device_product)
        output_product.target_build_dir = self.config.build_path / platform.output_directory_name

        ########################################################################################################

        logger.debug('<sub>Copying binary</sub>...')
        if output_product.product_path.exists():
            shutil.rmtree(output_product.product_path)
        shutil.copytree(device_product.product_path, output_product.product_path)

        ########################################################################################################

        if len(products) > 1:
            logger.debug('<sub>Lipo-ing</sub>...')
            executable_paths = [product.executable_path for product in products.values()]
            command = ['/usr/bin/xcrun', 'lipo', '-create'] + executable_paths + ['-output', output_product.executable_path]
            runner.check_run(command)
            mtime = executable_paths[0].stat().st_mtime
            os.utime(str(output_product.executable_path), (mtime, mtime))

        ########################################################################################################

        logger.debug('<sub>Copying swiftmodule files</sub>...')
        for product in products.values():
            for path in product.module_paths:
                relative_path = path.relative_to(product.product_path)
                shutil.copyfile(path, output_product.product_path / relative_path)

        ########################################################################################################

        logger.debug('<sub>Copying bcsymbolmap files</sub>...')
        for product in products.values():
            for path in product.bcsymbolmap_paths:
                shutil.copy(path, output_product.target_build_dir)

        ########################################################################################################

        logger.debug('<sub>Producing dSYM files</sub>...')
        command = ['/usr/bin/xcrun', 'dsymutil', str(output_product.executable_path), '-o', str(output_product.target_build_dir / (output_product.executable_name + '.dSYM'))]
        runner.check_run(command)

        ########################################################################################################
コード例 #3
0
ファイル: model.py プロジェクト: lholoubek/punic
    def _post_process(self, platform, products):

        ########################################################################################################

        logger.debug("<sub>Post processing</sub>")

        # By convention sdk[0] is always the device sdk (e.g. 'iphoneos' and not 'iphonesimulator')
        device_sdk = platform.device_sdk
        device_product = products[device_sdk]

        ########################################################################################################

        output_product = copy(device_product)
        output_product.target_build_dir = self.config.build_path / platform.output_directory_name

        ########################################################################################################

        logger.debug('<sub>Copying binary</sub>')
        if output_product.product_path.exists():
            shutil.rmtree(output_product.product_path)
        shutil.copytree(device_product.product_path, output_product.product_path)

        ########################################################################################################

        if len(products) > 1:
            logger.debug('<sub>Lipo-ing</sub>')
            executable_paths = [product.executable_path for product in products.values()]
            command = ['/usr/bin/xcrun', 'lipo', '-create'] + executable_paths + ['-output',
                output_product.executable_path]
            runner.check_run(command)
            mtime = executable_paths[0].stat().st_mtime
            os.utime(str(output_product.executable_path), (mtime, mtime))

        ########################################################################################################

        logger.debug('<sub>Copying swiftmodule files</sub>')
        for product in products.values():
            for path in product.module_paths:
                relative_path = path.relative_to(product.product_path)
                shutil.copyfile(path, output_product.product_path / relative_path)

        ########################################################################################################

        logger.debug('<sub>Copying bcsymbolmap files</sub>')
        for product in products.values():
            for path in product.bcsymbolmap_paths:
                shutil.copy(path, output_product.target_build_dir)

        ########################################################################################################

        logger.debug('<sub>Producing dSYM files</sub>')
        command = ['/usr/bin/xcrun', 'dsymutil', str(output_product.executable_path), '-o',
            str(output_product.target_build_dir / (output_product.executable_name + '.dSYM'))]
        runner.check_run(command)
コード例 #4
0
def copy_frameworks_main():
    sym_root = Path(os.environ['SYMROOT'])
    valid_architectures = set(os.environ['VALID_ARCHS'].split(' '))
    input_file_count = int(os.environ['SCRIPT_INPUT_FILE_COUNT'])
    input_files = [
        Path(os.environ.get('SCRIPT_INPUT_FILE_{}'.format(index)))
        for index in range(0, input_file_count)
    ]
    expanded_identity = os.environ['EXPANDED_CODE_SIGN_IDENTITY_NAME']
    built_products_dir = Path(os.environ['BUILT_PRODUCTS_DIR'])
    frameworks_folder_path = os.environ['FRAMEWORKS_FOLDER_PATH']
    frameworks_path = built_products_dir / frameworks_folder_path
    code_signing_allowed = os.environ['CODE_SIGNING_ALLOWED'] == 'YES'
    enable_bitcode = os.environ['ENABLE_BITCODE'] == 'YES'
    project_dir = Path(os.environ['PROJECT_DIR'])
    platform_display_name = os.environ['PLATFORM_DISPLAY_NAME']
    punic_builds_dir = project_dir / 'Carthage' / 'Build' / platform_display_name
    action = os.environ['ACTION']

    for input_path in input_files:

        logger.info('Processing: "{}"'.format(input_path.name))

        # We don't modify the input frameworks but rather the ones in the built products directory
        output_path = frameworks_path / input_path.name

        framework_name = input_path.stem

        logger.info('\tCopying framework "{}" to "$SYMROOT/{}"'.format(
            framework_name, output_path.relative_to(sym_root)))
        if output_path.exists():
            shutil.rmtree(output_path)

        def ignore(src, names):
            src = Path(src)
            if src.suffix == ".framework":
                return ['Headers', 'PrivateHeaders', 'Modules']
            else:
                return []

        shutil.copytree(input_path, output_path, ignore=ignore)

        framework_path = output_path

        binary_path = framework_path / framework_name

        if code_signing_allowed:
            # Find out what architectures the framework has
            output = runner.check_call(
                ['/usr/bin/xcrun', 'lipo', '-info', binary_path])
            match = re.match(
                r'^Architectures in the fat file: (.+) are: (.+)'.format(
                    binary_path), output)
            assert match.groups()[0] == str(binary_path)
            architectures = set(match.groups()[1].strip().split(' '))
            logger.info('\tArchitectures: {}'.format(list(architectures)))

            # Produce a list of architectures that are not valid
            excluded_architectures = architectures.difference(
                valid_architectures)

            # Skip if all architectures are valid
            if not excluded_architectures:
                continue

            # For each invalid architecture strip it from framework
            for architecture in excluded_architectures:
                logger.info('\tStripping "{}" from "{}"'.format(
                    architecture, framework_name))
                output = runner.check_call([
                    '/usr/bin/xcrun', 'lipo', '-remove', architecture,
                    '-output', binary_path, binary_path
                ])

                # Resign framework
                logger.info('\tResigning "{}"/"{}" with "{}"'.format(
                    framework_name, architecture, expanded_identity))

            logger.info('\tCode signing: "$SYMROOT/{}"'.format(
                binary_path.relative_to(sym_root)))

            # noinspection PyUnusedLocal
            result = runner.check_call([
                '/usr/bin/xcrun', 'codesign', '--force', '--sign',
                expanded_identity,
                '--preserve-metadata=identifier,entitlements', binary_path
            ])
        else:
            logger.info('\tCode signing not allowed. Skipping.')

        if action == 'install':
            uuids = uuids_from_binary(binary_path)

            # Copy dSYM files from $PROJECT_DIRCarthage/Build to $BUILT_PRODUCTS_DIR
            dsym_path = input_path.parent / (binary_path.name + '.dSYM')

            if dsym_path.exists():

                dsym_output_path = built_products_dir / dsym_path.name

                logger.info(
                    '\tCopying "$PROJECT_DIR/{}" to "$BUILT_PRODUCTS_DIR"'.
                    format(dsym_path.relative_to(project_dir)))
                if dsym_output_path.exists():
                    shutil.rmtree(dsym_output_path)
                shutil.copytree(dsym_path, dsym_output_path)

            # Copy bcsymbolmap files from $PROJECT_DIRCarthage/Build to $BUILT_PRODUCTS_DIR
            if enable_bitcode:
                for uuid in uuids:
                    bcsymbolmap_path = punic_builds_dir / (uuid +
                                                           '.bcsymbolmap')
                    logger.info(
                        '\tCopying "$PROJECT_DIR/{}" to "$BUILT_PRODUCTS_DIR"'.
                        format(bcsymbolmap_path.relative_to(project_dir)))
                    shutil.copy(bcsymbolmap_path, built_products_dir)
コード例 #5
0
ファイル: copy_frameworks.py プロジェクト: Photonomie/punic
def copy_frameworks_main():

    sym_root = Path(os.environ['SYMROOT'])
    valid_architectures = set(os.environ['VALID_ARCHS'].split(' '))
    input_file_count = int(os.environ['SCRIPT_INPUT_FILE_COUNT'])
    input_files = [Path(os.environ.get('SCRIPT_INPUT_FILE_{}'.format(index))) for index in range(0, input_file_count)]
    expanded_identity = os.environ['EXPANDED_CODE_SIGN_IDENTITY_NAME']
    built_products_dir = Path(os.environ['BUILT_PRODUCTS_DIR'])
    frameworks_folder_path = os.environ['FRAMEWORKS_FOLDER_PATH']
    frameworks_path = built_products_dir / frameworks_folder_path
    code_signing_allowed = os.environ['CODE_SIGNING_ALLOWED'] == 'YES'
    enable_bitcode = os.environ['ENABLE_BITCODE'] == 'YES'
    project_dir = Path(os.environ['PROJECT_DIR'])
    platform_display_name = os.environ['PLATFORM_DISPLAY_NAME']
    punic_builds_dir = project_dir / 'Carthage' / 'Build' / platform_display_name
    action = os.environ['ACTION']

    for input_path in input_files:

        logger.info('Processing: "{}"'.format(input_path.name))

        # We don't modify the input frameworks but rather the ones in the built products directory
        output_path = frameworks_path / input_path.name

        framework_name = input_path.stem

        logger.info('\tCopying framework "{}" to "$SYMROOT/{}"'.format(framework_name, output_path.relative_to(sym_root)))
        if output_path.exists():
            shutil.rmtree(output_path)
        shutil.copytree(input_path, output_path)

        framework_path = output_path

        binary_path = framework_path / framework_name

        if code_signing_allowed:
            # Find out what architectures the framework has
            output = runner.check_call(['/usr/bin/xcrun', 'lipo', '-info', binary_path])
            match = re.match(r'^Architectures in the fat file: (.+) are: (.+)'.format(binary_path), output)
            assert match.groups()[0] == str(binary_path)
            architectures = set(match.groups()[1].strip().split(' '))
            logger.info('\tArchitectures: {}'.format(list(architectures)))

            # Produce a list of architectures that are not valid
            excluded_architectures = architectures.difference(valid_architectures)

            # Skip if all architectures are valid
            if not excluded_architectures:
                continue

            # For each invalid architecture strip it from framework
            for architecture in excluded_architectures:
                logger.info('\tStripping "{}" from "{}"'.format(architecture, framework_name))
                output = runner.check_call(['/usr/bin/xcrun', 'lipo', '-remove', architecture, '-output', binary_path, binary_path])

                # Resign framework
                logger.info('\tResigning "{}"/"{}" with "{}"'.format(framework_name, architecture, expanded_identity))

            logger.info('\tCode signing: "$SYMROOT/{}"'.format(binary_path.relative_to(sym_root)))

            # noinspection PyUnusedLocal
            result = runner.check_call(['/usr/bin/xcrun', 'codesign', '--force', '--sign', expanded_identity,
                '--preserve-metadata=identifier,entitlements', binary_path])
        else:
            logger.info('\tCode signing not allowed. Skipping.')

        if action == 'install':
            uuids = uuids_from_binary(binary_path)

            # Copy dSYM files from $PROJECT_DIRCarthage/Build to $BUILT_PRODUCTS_DIR
            dsym_path = input_path.parent / (binary_path.name + '.dSYM')

            if dsym_path.exists():

                dsym_output_path = built_products_dir / dsym_path.name

                logger.info('\tCopying "$PROJECT_DIR/{}" to "$BUILT_PRODUCTS_DIR"'.format(dsym_path.relative_to(project_dir)))
                if dsym_output_path.exists():
                    shutil.rmtree(dsym_output_path)
                shutil.copytree(dsym_path, dsym_output_path)


            # Copy bcsymbolmap files from $PROJECT_DIRCarthage/Build to $BUILT_PRODUCTS_DIR
            if enable_bitcode:
                for uuid in uuids:
                    bcsymbolmap_path = punic_builds_dir / (uuid + '.bcsymbolmap')
                    logger.info('\tCopying "$PROJECT_DIR/{}" to "$BUILT_PRODUCTS_DIR"'.format(bcsymbolmap_path.relative_to(project_dir)))
                    shutil.copy(bcsymbolmap_path, built_products_dir)
コード例 #6
0
    def _post_process(self, platform, products):
        # type: (punic.platform.Platform, List)

        ########################################################################################################

        logging.debug("<sub>Post processing</sub>...")

        # TODO: QUESTION: Is it possible that this could mix targets with different SDKs?
        products_by_name_then_sdk = defaultdict(dict)
        for product in products:
            products_by_name_then_sdk[product.full_product_name][
                product.sdk] = product

        for products_by_sdk in products_by_name_then_sdk.values():

            products = products_by_sdk.values()

            # TODO: By convention sdk[0] is always the device sdk (e.g. 'iphoneos' and not 'iphonesimulator')
            primary_sdk = platform.sdks[0]

            device_product = products_by_sdk[primary_sdk]

            ########################################################################################################

            output_product = copy(device_product)
            output_product.target_build_dir = self.config.build_path / platform.output_directory_name

            ########################################################################################################

            logging.debug('<sub>Copying binary</sub>...')
            if output_product.product_path.exists():
                shutil.rmtree(output_product.product_path)

            if not device_product.product_path.exists():
                raise Exception("No product at: {}".format(
                    device_product.product_path))

            shutil.copytree(device_product.product_path,
                            output_product.product_path,
                            symlinks=True)

            ########################################################################################################

            if len(products) > 1:
                logging.debug('<sub>Lipo-ing</sub>...')
                executable_paths = [
                    product.executable_path for product in products
                ]
                command = ['/usr/bin/xcrun', 'lipo', '-create'
                           ] + executable_paths + [
                               '-output', output_product.executable_path
                           ]
                runner.check_run(command)
                mtime = executable_paths[0].stat().st_mtime
                os.utime(str(output_product.executable_path), (mtime, mtime))

            ########################################################################################################

            logging.debug('<sub>Copying swiftmodule files</sub>...')
            for product in products:
                for path in product.module_paths:
                    relative_path = path.relative_to(product.product_path)
                    shutil.copyfile(
                        path, output_product.product_path / relative_path)

            ########################################################################################################

            logging.debug('<sub>Copying bcsymbolmap files</sub>...')
            for product in products:
                for path in product.bcsymbolmap_paths:
                    shutil.copy(path, output_product.target_build_dir)

            ########################################################################################################

            logging.debug('<sub>Producing dSYM files</sub>...')
            command = [
                '/usr/bin/xcrun', 'dsymutil',
                str(output_product.executable_path), '-o',
                str(output_product.target_build_dir /
                    (output_product.executable_name + '.dSYM'))
            ]
            runner.check_run(command)
コード例 #7
0
ファイル: __init__.py プロジェクト: schwa/punic
    def _post_process(self, platform, products):
        # type: (punic.platform.Platform, List)

        ########################################################################################################

        logging.debug("<sub>Post processing</sub>...")

        # TODO: QUESTION: Is it possible that this could mix targets with different SDKs?
        products_by_name_then_sdk = defaultdict(dict)
        for product in products:
            products_by_name_then_sdk[product.full_product_name][product.sdk] = product


        for products_by_sdk in products_by_name_then_sdk.values():

            products = products_by_sdk.values()

            # TODO: By convention sdk[0] is always the device sdk (e.g. 'iphoneos' and not 'iphonesimulator')
            primary_sdk = platform.sdks[0]

            device_product = products_by_sdk[primary_sdk]

            ########################################################################################################

            output_product = copy(device_product)
            output_product.target_build_dir = self.config.build_path / platform.output_directory_name

            ########################################################################################################

            logging.debug('<sub>Copying binary</sub>...')
            if output_product.product_path.exists():
                shutil.rmtree(output_product.product_path)

            if not device_product.product_path.exists():
                raise Exception("No product at: {}".format(device_product.product_path))

            shutil.copytree(device_product.product_path, output_product.product_path, symlinks=True)

            ########################################################################################################

            if len(products) > 1:
                logging.debug('<sub>Lipo-ing</sub>...')
                executable_paths = [product.executable_path for product in products]
                command = ['/usr/bin/xcrun', 'lipo', '-create'] + executable_paths + ['-output', output_product.executable_path]
                runner.check_run(command)
                mtime = executable_paths[0].stat().st_mtime
                os.utime(str(output_product.executable_path), (mtime, mtime))

            ########################################################################################################

            logging.debug('<sub>Copying swiftmodule files</sub>...')
            for product in products:
                for path in product.module_paths:
                    relative_path = path.relative_to(product.product_path)
                    shutil.copyfile(path, output_product.product_path / relative_path)

            ########################################################################################################

            logging.debug('<sub>Copying bcsymbolmap files</sub>...')
            for product in products:
                for path in product.bcsymbolmap_paths:
                    shutil.copy(path, output_product.target_build_dir)

            ########################################################################################################

            logging.debug('<sub>Producing dSYM files</sub>...')
            command = ['/usr/bin/xcrun', 'dsymutil', str(output_product.executable_path), '-o', str(output_product.target_build_dir / (output_product.executable_name + '.dSYM'))]
            runner.check_run(command)

            ########################################################################################################