# Copyright (c) 2011 The Chromium Embedded Framework 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 date_util import * from file_util import * from make_cmake import process_cmake_template from optparse import OptionParser import os import re import shlex import subprocess import git_util as git import sys import tarfile import zipfile def create_zip_archive(input_dir): """ Creates a zip archive of the specified input directory. """ zip_file = input_dir + '.zip' zf = zipfile.ZipFile(zip_file, 'w', zipfile.ZIP_DEFLATED, True) def addDir(dir): for f in os.listdir(dir): full_path = os.path.join(dir, f) if os.path.isdir(full_path): addDir(full_path) else: zf.write(full_path, os.path.relpath(full_path, \ os.path.join(input_dir, os.pardir))) addDir(input_dir) zf.close() def create_tar_archive(input_dir, format): """ Creates a tar archive of the specified input directory. """ # Supported formats include "gz" and "bz2". tar_file = input_dir + '.tar.' + format tf = tarfile.open(tar_file, "w:" + format) tf.add(input_dir, arcname=os.path.basename(input_dir)) tf.close() def create_7z_archive(input_dir, format): """ Creates a 7z archive of the specified input directory. """ # CEF_COMMAND_7ZIP might be "c:\Program Files (x86)\7Zip\7z.exe" or /usr/bin/7za # or simply 7z if the user knows that it's in the PATH var. Supported formats # depend on the 7za version -- check the 7-zip documentation for details. command = os.environ['CEF_COMMAND_7ZIP'] working_dir = os.path.abspath(os.path.join(input_dir, os.pardir)) tar_file = None if format in ('xz', 'gzip', 'bzip2'): # These formats only support one file per archive. Create a tar file first. tar_file = input_dir + '.tar' run('"%s" a -ttar -y %s %s' % (command, tar_file, input_dir), working_dir) zip_file = tar_file + '.' + format zip_input = tar_file else: zip_file = input_dir + '.' + format zip_input = input_dir # Create the compressed archive. run('"%s" a -t%s -y %s %s' % (command, format, zip_file, zip_input), working_dir) if not tar_file is None: remove_file(tar_file) def create_output_dir(name, parent_dir): """ Creates an output directory and adds the path to the archive list. """ output_dir = os.path.abspath(os.path.join(parent_dir, name)) remove_dir(output_dir, options.quiet) make_dir(output_dir, options.quiet) archive_dirs.append(output_dir) return output_dir def get_readme_component(name): """ Loads a README file component. """ paths = [] # platform directory if platform == 'windows': platform_cmp = 'win' elif platform == 'macosx': platform_cmp = 'mac' elif platform == 'linux': platform_cmp = 'linux' paths.append(os.path.join(script_dir, 'distrib', platform_cmp)) # shared directory paths.append(os.path.join(script_dir, 'distrib')) # load the file if it exists for path in paths: file = os.path.join(path, 'README.' +name + '.txt') if path_exists(file): return read_file(file) raise Exception('Readme component not found: ' + name) def create_readme(): """ Creates the README.TXT file. """ # gather the components header_data = get_readme_component('header') mode_data = get_readme_component(mode) redistrib_data = get_readme_component('redistrib') footer_data = get_readme_component('footer') # format the file data = header_data + '\n\n' + mode_data + '\n\n' + redistrib_data + '\n\n' + footer_data data = data.replace('$CEF_URL$', cef_url) data = data.replace('$CEF_REV$', cef_rev) data = data.replace('$CEF_VER$', cef_ver) data = data.replace('$CHROMIUM_URL$', chromium_url) data = data.replace('$CHROMIUM_REV$', chromium_rev) data = data.replace('$CHROMIUM_VER$', chromium_ver) data = data.replace('$DATE$', date) if platform == 'windows': platform_str = 'Windows' elif platform == 'macosx': platform_str = 'Mac OS-X' elif platform == 'linux': platform_str = 'Linux' data = data.replace('$PLATFORM$', platform_str) if mode == 'standard': distrib_type = 'Standard' distrib_desc = 'This distribution contains all components necessary to build and distribute an\n' \ 'application using CEF on the ' + platform_str + ' platform. Please see the LICENSING\n' \ 'section of this document for licensing terms and conditions.' elif mode == 'minimal': distrib_type = 'Minimal' distrib_desc = 'This distribution contains the minimial components necessary to build and\n' \ 'distribute an application using CEF on the ' + platform_str + ' platform. Please see\n' \ 'the LICENSING section of this document for licensing terms and conditions.' elif mode == 'client': distrib_type = 'Client' if platform == 'linux': client_app = 'cefsimple' else: client_app = 'cefclient' distrib_desc = 'This distribution contains a release build of the ' + client_app + ' sample application\n' \ 'for the ' + platform_str + ' platform. Please see the LICENSING section of this document for\n' \ 'licensing terms and conditions.' data = data.replace('$DISTRIB_TYPE$', distrib_type) data = data.replace('$DISTRIB_DESC$', distrib_desc) write_file(os.path.join(output_dir, 'README.txt'), data) if not options.quiet: sys.stdout.write('Creating README.TXT file.\n') def transfer_gypi_files(src_dir, gypi_paths, gypi_path_prefix, dst_dir, quiet): """ Transfer files from one location to another. """ for path in gypi_paths: # skip gyp includes if path[:2] == '<@': continue # skip test files if path.find('/test/') >= 0: continue src = os.path.join(src_dir, path) dst = os.path.join(dst_dir, path.replace(gypi_path_prefix, '')) dst_path = os.path.dirname(dst) make_dir(dst_path, quiet) copy_file(src, dst, quiet) def normalize_headers(file, new_path = ''): """ Normalize headers post-processing. Remove the path component from any project include directives. """ data = read_file(file) data = re.sub(r'''#include \"(?!include\/)[a-zA-Z0-9_\/]+\/+([a-zA-Z0-9_\.]+)\"''', \ "// Include path modified for CEF Binary Distribution.\n#include \""+new_path+"\\1\"", data) write_file(file, data) def eval_transfer_file(cef_dir, script_dir, transfer_cfg, output_dir, quiet): """ Transfer files based on the specified configuration. """ if not path_exists(transfer_cfg): return configs = eval_file(transfer_cfg) for cfg in configs: dst = os.path.join(output_dir, cfg['target']) # perform a copy if source is specified if not cfg['source'] is None: src = os.path.join(cef_dir, cfg['source']) dst_path = os.path.dirname(dst) make_dir(dst_path, quiet) copy_file(src, dst, quiet) # place a readme file in the destination directory readme = os.path.join(dst_path, 'README-TRANSFER.txt') if not path_exists(readme): copy_file(os.path.join(script_dir, 'distrib/README-TRANSFER.txt'), readme) open(readme, 'ab').write(cfg['source']+"\n") # perform any required post-processing if 'post-process' in cfg: post = cfg['post-process'] if post == 'normalize_headers': new_path = '' if cfg.has_key('new_header_path'): new_path = cfg['new_header_path'] normalize_headers(dst, new_path) def transfer_files(cef_dir, script_dir, transfer_cfg_dir, mode, output_dir, quiet): # Non-mode-specific transfers. transfer_cfg = os.path.join(transfer_cfg_dir, 'transfer.cfg') eval_transfer_file(cef_dir, script_dir, transfer_cfg, output_dir, quiet) # Mode-specific transfers. transfer_cfg = os.path.join(transfer_cfg_dir, 'transfer_%s.cfg' % mode) eval_transfer_file(cef_dir, script_dir, transfer_cfg, output_dir, quiet) def combine_libs(build_dir, libs, dest_lib): """ Combine multiple static libraries into a single static library. """ cmdline = 'msvs_env.bat win%s python combine_libs.py -o "%s"' % (platform_arch, dest_lib) for lib in libs: lib_path = os.path.join(build_dir, lib) if not path_exists(lib_path): raise Exception('Library not found: ' + lib_path) cmdline = cmdline + ' "%s"' % lib_path run(cmdline, os.path.join(cef_dir, 'tools')) def run(command_line, working_dir): """ Run a command. """ sys.stdout.write('-------- Running "'+command_line+'" in "'+\ working_dir+'"...'+"\n") args = shlex.split(command_line.replace('\\', '\\\\')) return subprocess.check_call(args, cwd=working_dir, env=os.environ, shell=(sys.platform == 'win32')) # cannot be loaded as a module if __name__ != "__main__": sys.stderr.write('This file cannot be loaded as a module!') sys.exit() # parse command-line options disc = """ This utility builds the CEF Binary Distribution. """ parser = OptionParser(description=disc) parser.add_option('--output-dir', dest='outputdir', metavar='DIR', help='output directory [required]') parser.add_option('--distrib-subdir', dest='distribsubdir', help='name of the subdirectory for the distribution', default='') parser.add_option('--allow-partial', action='store_true', dest='allowpartial', default=False, help='allow creation of partial distributions') parser.add_option('--no-symbols', action='store_true', dest='nosymbols', default=False, help='don\'t create symbol files') parser.add_option('--no-docs', action='store_true', dest='nodocs', default=False, help='don\'t create documentation') parser.add_option('--no-archive', action='store_true', dest='noarchive', default=False, help='don\'t create archives for output directories') parser.add_option('--ninja-build', action='store_true', dest='ninjabuild', default=False, help='build was created using ninja') parser.add_option('--x64-build', action='store_true', dest='x64build', default=False, help='build was created for 64-bit systems') parser.add_option('--minimal', action='store_true', dest='minimal', default=False, help='include only release build binary files') parser.add_option('--client', action='store_true', dest='client', default=False, help='include only the sample application') parser.add_option('-q', '--quiet', action='store_true', dest='quiet', default=False, help='do not output detailed status information') (options, args) = parser.parse_args() # Test the operating system. platform = ''; if sys.platform == 'win32': platform = 'windows' elif sys.platform == 'darwin': platform = 'macosx' elif sys.platform.startswith('linux'): platform = 'linux' # the outputdir option is required if options.outputdir is None: parser.print_help(sys.stderr) sys.exit() if options.minimal and options.client: print 'Invalid combination of options' parser.print_help(sys.stderr) sys.exit() if not options.ninjabuild: print 'Ninja build is required on all platforms' sys.exit() # script directory script_dir = os.path.dirname(__file__) # CEF root directory cef_dir = os.path.abspath(os.path.join(script_dir, os.pardir)) # src directory src_dir = os.path.abspath(os.path.join(cef_dir, os.pardir)) if not git.is_checkout(cef_dir): raise Exception('Not a valid checkout: %s' % (cef_dir)) # retrieve information for CEF cef_url = git.get_url(cef_dir) cef_rev = git.get_hash(cef_dir) cef_commit_number = git.get_commit_number(cef_dir) if not git.is_checkout(src_dir): raise Exception('Not a valid checkout: %s' % (src_dir)) # retrieve information for Chromium chromium_url = git.get_url(src_dir) chromium_rev = git.get_hash(src_dir) date = get_date() # Read and parse the version file (key=value pairs, one per line) args = {} read_version_file(os.path.join(cef_dir, 'VERSION'), args) read_version_file(os.path.join(cef_dir, '../chrome/VERSION'), args) cef_ver = '%s.%s.%s.g%s' % (args['CEF_MAJOR'], args['BUILD'], cef_commit_number, cef_rev[:7]) chromium_ver = args['MAJOR']+'.'+args['MINOR']+'.'+args['BUILD']+'.'+args['PATCH'] # list of output directories to be archived archive_dirs = [] platform_arch = '32' if options.x64build: platform_arch = '64' if platform == 'linux': platform_arch = '' lib_dir_name = 'lib' release_libcef_path = os.path.join(src_dir, 'out', 'Release', lib_dir_name, 'libcef.so'); debug_libcef_path = os.path.join(src_dir, 'out', 'Debug', lib_dir_name, 'libcef.so'); file_desc = '' output = subprocess.check_output('file ' + release_libcef_path + ' ' + debug_libcef_path + '; exit 0', env=os.environ, stderr=subprocess.STDOUT, shell=True) if output.find('32-bit') != -1: platform_arch = '32' if output.find('64-bit') != -1: platform_arch = '64' # output directory output_dir_base = 'cef_binary_' + cef_ver if options.distribsubdir == '': output_dir_name = output_dir_base + '_' + platform + platform_arch else: output_dir_name = options.distribsubdir if options.minimal: mode = 'minimal' output_dir_name = output_dir_name + '_minimal' elif options.client: mode = 'client' output_dir_name = output_dir_name + '_client' else: mode = 'standard' output_dir = create_output_dir(output_dir_name, options.outputdir) # create the README.TXT file create_readme() # transfer the LICENSE.txt file copy_file(os.path.join(cef_dir, 'LICENSE.txt'), output_dir, options.quiet) # read the variables list from the autogenerated cef_paths.gypi file cef_paths = eval_file(os.path.join(cef_dir, 'cef_paths.gypi')) cef_paths = cef_paths['variables'] # read the variables list from the manually edited cef_paths2.gypi file cef_paths2 = eval_file(os.path.join(cef_dir, 'cef_paths2.gypi')) cef_paths2 = cef_paths2['variables'] if mode == 'standard' or mode == 'minimal': # create the include directory include_dir = os.path.join(output_dir, 'include') make_dir(include_dir, options.quiet) # create the cmake directory cmake_dir = os.path.join(output_dir, 'cmake') make_dir(cmake_dir, options.quiet) # create the libcef_dll_wrapper directory libcef_dll_dir = os.path.join(output_dir, 'libcef_dll') make_dir(libcef_dll_dir, options.quiet) # transfer common include files transfer_gypi_files(cef_dir, cef_paths2['includes_common'], \ 'include/', include_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['includes_capi'], \ 'include/', include_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['includes_wrapper'], \ 'include/', include_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths['autogen_cpp_includes'], \ 'include/', include_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths['autogen_capi_includes'], \ 'include/', include_dir, options.quiet) # transfer common libcef_dll_wrapper files transfer_gypi_files(cef_dir, cef_paths2['libcef_dll_wrapper_sources_base'], \ 'libcef_dll/', libcef_dll_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['libcef_dll_wrapper_sources_common'], \ 'libcef_dll/', libcef_dll_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths['autogen_client_side'], \ 'libcef_dll/', libcef_dll_dir, options.quiet) # transfer additional files transfer_files(cef_dir, script_dir, os.path.join(script_dir, 'distrib'), \ mode, output_dir, options.quiet) # process cmake templates variables = dict(cef_paths.items() + cef_paths2.items()) process_cmake_template(os.path.join(cef_dir, 'CMakeLists.txt.in'), \ os.path.join(output_dir, 'CMakeLists.txt'), \ variables, options.quiet) process_cmake_template(os.path.join(cef_dir, 'cmake', 'cef_macros.cmake.in'), \ os.path.join(cmake_dir, 'cef_macros.cmake'), \ variables, options.quiet) process_cmake_template(os.path.join(cef_dir, 'cmake', 'cef_variables.cmake.in'), \ os.path.join(cmake_dir, 'cef_variables.cmake'), \ variables, options.quiet) process_cmake_template(os.path.join(cef_dir, 'cmake', 'FindCEF.cmake.in'), \ os.path.join(cmake_dir, 'FindCEF.cmake'), \ variables, options.quiet) process_cmake_template(os.path.join(cef_dir, 'libcef_dll', 'CMakeLists.txt.in'), \ os.path.join(libcef_dll_dir, 'CMakeLists.txt'), \ variables, options.quiet) if mode == 'standard': # create the cefclient directory cefclient_dir = os.path.join(output_dir, 'cefclient') make_dir(cefclient_dir, options.quiet) # create the cefsimple directory cefsimple_dir = os.path.join(output_dir, 'cefsimple') make_dir(cefsimple_dir, options.quiet) # transfer common cefclient files transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_browser'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_common'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_renderer'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_resources'], \ 'tests/cefclient/', cefclient_dir, options.quiet) # transfer common cefsimple files transfer_gypi_files(cef_dir, cef_paths2['cefsimple_sources_common'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) # process cmake templates process_cmake_template(os.path.join(cef_dir, 'tests', 'cefclient', 'CMakeLists.txt.in'), \ os.path.join(cefclient_dir, 'CMakeLists.txt'), \ variables, options.quiet) process_cmake_template(os.path.join(cef_dir, 'tests', 'cefsimple', 'CMakeLists.txt.in'), \ os.path.join(cefsimple_dir, 'CMakeLists.txt'), \ variables, options.quiet) # transfer gyp files copy_file(os.path.join(script_dir, 'distrib/cefclient.gyp'), output_dir, options.quiet) paths_gypi = os.path.join(cef_dir, 'cef_paths2.gypi') data = read_file(paths_gypi) data = data.replace('tests/cefclient/', 'cefclient/') data = data.replace('tests/cefsimple/', 'cefsimple/') write_file(os.path.join(output_dir, 'cef_paths2.gypi'), data) copy_file(os.path.join(cef_dir, 'cef_paths.gypi'), \ os.path.join(output_dir, 'cef_paths.gypi'), options.quiet) if platform == 'windows': binaries = [ 'd3dcompiler_47.dll', 'libcef.dll', 'libEGL.dll', 'libGLESv2.dll', 'natives_blob.bin', 'snapshot_blob.bin', 'widevinecdmadapter.dll', ] out_dir = os.path.join(src_dir, 'out') libcef_dll_file = 'libcef.dll.lib' sandbox_libs = [ 'obj\\base\\base.lib', 'obj\\base\\base_static.lib', 'obj\\cef\\cef_sandbox.lib', 'obj\\base\\third_party\\dynamic_annotations\\dynamic_annotations.lib', 'obj\\sandbox\\sandbox.lib', ] valid_build_dir = None build_dir_suffix = '' if options.x64build: build_dir_suffix = '_x64' if mode == 'standard': # transfer Debug files build_dir = os.path.join(out_dir, 'Debug' + build_dir_suffix); if not options.allowpartial or path_exists(os.path.join(build_dir, 'libcef.dll')): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Debug') make_dir(dst_dir, options.quiet) copy_files(os.path.join(script_dir, 'distrib/win/*.dll'), dst_dir, options.quiet) for binary in binaries: copy_file(os.path.join(build_dir, binary), os.path.join(dst_dir, binary), options.quiet) copy_file(os.path.join(build_dir, libcef_dll_file), os.path.join(dst_dir, 'libcef.lib'), \ options.quiet) combine_libs(build_dir, sandbox_libs, os.path.join(dst_dir, 'cef_sandbox.lib')); if not options.nosymbols: # create the symbol output directory symbol_output_dir = create_output_dir(output_dir_name + '_debug_symbols', options.outputdir) # transfer contents copy_file(os.path.join(build_dir, 'libcef.dll.pdb'), symbol_output_dir, options.quiet) else: sys.stderr.write("No Debug build files.\n") # transfer Release files build_dir = os.path.join(out_dir, 'Release' + build_dir_suffix); if not options.allowpartial or path_exists(os.path.join(build_dir, 'libcef.dll')): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Release') make_dir(dst_dir, options.quiet) copy_files(os.path.join(script_dir, 'distrib/win/*.dll'), dst_dir, options.quiet) for binary in binaries: copy_file(os.path.join(build_dir, binary), os.path.join(dst_dir, binary), options.quiet) if mode != 'client': copy_file(os.path.join(build_dir, libcef_dll_file), os.path.join(dst_dir, 'libcef.lib'), \ options.quiet) combine_libs(build_dir, sandbox_libs, os.path.join(dst_dir, 'cef_sandbox.lib')); else: copy_file(os.path.join(build_dir, 'cefclient.exe'), dst_dir, options.quiet) if not options.nosymbols: # create the symbol output directory symbol_output_dir = create_output_dir(output_dir_name + '_release_symbols', options.outputdir) # transfer contents copy_file(os.path.join(build_dir, 'libcef.dll.pdb'), symbol_output_dir, options.quiet) else: sys.stderr.write("No Release build files.\n") if not valid_build_dir is None: # transfer resource files build_dir = valid_build_dir if mode == 'client': dst_dir = os.path.join(output_dir, 'Release') else: dst_dir = os.path.join(output_dir, 'Resources') make_dir(dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_100_percent.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_200_percent.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_extensions.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'devtools_resources.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'icudtl.dat'), dst_dir, options.quiet) copy_dir(os.path.join(build_dir, 'locales'), os.path.join(dst_dir, 'locales'), options.quiet) if mode == 'standard' or mode == 'minimal': # transfer include files transfer_gypi_files(cef_dir, cef_paths2['includes_win'], \ 'include/', include_dir, options.quiet) # transfer additional files, if any transfer_files(cef_dir, script_dir, os.path.join(script_dir, 'distrib', 'win'), \ mode, output_dir, options.quiet) if mode == 'standard': # transfer cefclient files transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_win'], \ 'tests/cefclient/', cefclient_dir, options.quiet) # transfer cefsimple files transfer_gypi_files(cef_dir, cef_paths2['cefsimple_sources_win'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) if not options.nodocs: # generate doc files os.popen('make_cppdocs.bat '+cef_rev) src_dir = os.path.join(cef_dir, 'docs') if path_exists(src_dir): # create the docs output directory docs_output_dir = create_output_dir(output_dir_base + '_docs', options.outputdir) # transfer contents copy_dir(src_dir, docs_output_dir, options.quiet) elif platform == 'macosx': out_dir = os.path.join(src_dir, 'out') valid_build_dir = None framework_name = 'Chromium Embedded Framework' if mode == 'standard': # transfer Debug files build_dir = os.path.join(out_dir, 'Debug') if not options.allowpartial or path_exists(os.path.join(build_dir, 'cefclient.app')): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Debug') make_dir(dst_dir, options.quiet) copy_dir(os.path.join(build_dir, 'cefclient.app/Contents/Frameworks/%s.framework' % framework_name), \ os.path.join(dst_dir, '%s.framework' % framework_name), options.quiet) # transfer Release files build_dir = os.path.join(out_dir, 'Release') if not options.allowpartial or path_exists(os.path.join(build_dir, 'cefclient.app')): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Release') make_dir(dst_dir, options.quiet) if mode != 'client': copy_dir(os.path.join(build_dir, 'cefclient.app/Contents/Frameworks/%s.framework' % framework_name), \ os.path.join(dst_dir, '%s.framework' % framework_name), options.quiet) else: copy_dir(os.path.join(build_dir, 'cefclient.app'), os.path.join(dst_dir, 'cefclient.app'), options.quiet) if not options.nosymbols: # create the symbol output directory symbol_output_dir = create_output_dir(output_dir_name + '_release_symbols', options.outputdir) # create the real dSYM file from the "fake" dSYM file sys.stdout.write("Creating the real dSYM file...\n") src_path = os.path.join(build_dir, \ '%s.framework.dSYM/Contents/Resources/DWARF/%s' % (framework_name, framework_name)) dst_path = os.path.join(symbol_output_dir, '%s.dSYM' % framework_name) run('dsymutil "%s" -o "%s"' % (src_path, dst_path), cef_dir) if mode == 'standard' or mode == 'minimal': # transfer include files transfer_gypi_files(cef_dir, cef_paths2['includes_mac'], \ 'include/', include_dir, options.quiet) # transfer additional files, if any transfer_files(cef_dir, script_dir, os.path.join(script_dir, 'distrib', 'mac'), \ mode, output_dir, options.quiet) if mode == 'standard': # transfer cefclient files transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_mac'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_mac_helper'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_bundle_resources_mac'], \ 'tests/cefclient/', cefclient_dir, options.quiet) # transfer cefclient/resources/mac files copy_dir(os.path.join(cef_dir, 'tests/cefclient/resources/mac/'), \ os.path.join(output_dir, 'cefclient/resources/mac/'), \ options.quiet) # transfer cefsimple files transfer_gypi_files(cef_dir, cef_paths2['cefsimple_sources_mac'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefsimple_sources_mac_helper'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefsimple_bundle_resources_mac'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) # transfer cefsimple/mac files copy_dir(os.path.join(cef_dir, 'tests/cefsimple/mac/'), os.path.join(output_dir, 'cefsimple/mac/'), \ options.quiet) elif platform == 'linux': out_dir = os.path.join(src_dir, 'out') lib_dir_name = 'lib' valid_build_dir = None if mode == 'standard': # transfer Debug files build_dir = os.path.join(out_dir, 'Debug'); libcef_path = os.path.join(build_dir, lib_dir_name, 'libcef.so') if not options.allowpartial or path_exists(libcef_path): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Debug') make_dir(dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'chrome_sandbox'), os.path.join(dst_dir, 'chrome-sandbox'), options.quiet) copy_file(libcef_path, dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'natives_blob.bin'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'snapshot_blob.bin'), dst_dir, options.quiet) else: sys.stderr.write("No Debug build files.\n") # transfer Release files build_dir = os.path.join(out_dir, 'Release'); libcef_path = os.path.join(build_dir, lib_dir_name, 'libcef.so') if not options.allowpartial or path_exists(libcef_path): valid_build_dir = build_dir dst_dir = os.path.join(output_dir, 'Release') make_dir(dst_dir, options.quiet) if mode == 'client': lib_dst_dir = os.path.join(dst_dir, lib_dir_name) make_dir(lib_dst_dir, options.quiet) copy_file(libcef_path, lib_dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cefsimple'), dst_dir, options.quiet) else: copy_file(libcef_path, dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'chrome_sandbox'), os.path.join(dst_dir, 'chrome-sandbox'), options.quiet) copy_file(os.path.join(build_dir, 'natives_blob.bin'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'snapshot_blob.bin'), dst_dir, options.quiet) else: sys.stderr.write("No Release build files.\n") if not valid_build_dir is None: # transfer resource files build_dir = valid_build_dir if mode == 'client': dst_dir = os.path.join(output_dir, 'Release') else: dst_dir = os.path.join(output_dir, 'Resources') make_dir(dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_100_percent.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_200_percent.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'cef_extensions.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'devtools_resources.pak'), dst_dir, options.quiet) copy_file(os.path.join(build_dir, 'icudtl.dat'), dst_dir, options.quiet) copy_dir(os.path.join(build_dir, 'locales'), os.path.join(dst_dir, 'locales'), options.quiet) if mode == 'standard' or mode == 'minimal': # transfer include files transfer_gypi_files(cef_dir, cef_paths2['includes_linux'], \ 'include/', include_dir, options.quiet) # transfer additional files, if any transfer_files(cef_dir, script_dir, os.path.join(script_dir, 'distrib', 'linux'), \ mode, output_dir, options.quiet) if mode == 'standard': # transfer cefclient files transfer_gypi_files(cef_dir, cef_paths2['cefclient_sources_linux'], \ 'tests/cefclient/', cefclient_dir, options.quiet) transfer_gypi_files(cef_dir, cef_paths2['cefclient_bundle_resources_linux'], \ 'tests/cefclient/', cefclient_dir, options.quiet) # transfer cefsimple files transfer_gypi_files(cef_dir, cef_paths2['cefsimple_sources_linux'], \ 'tests/cefsimple/', cefsimple_dir, options.quiet) if not options.noarchive: # create an archive for each output directory archive_format = os.getenv('CEF_ARCHIVE_FORMAT', 'zip') if archive_format not in ('zip', 'tar.gz', 'tar.bz2'): raise Exception('Unsupported archive format: %s' % archive_format) if os.getenv('CEF_COMMAND_7ZIP', '') != '': archive_format = os.getenv('CEF_COMMAND_7ZIP_FORMAT', '7z') for dir in archive_dirs: if not options.quiet: sys.stdout.write("Creating %s archive for %s...\n" % (archive_format, os.path.basename(dir))) if archive_format == 'zip': create_zip_archive(dir) elif archive_format == 'tar.gz': create_tar_archive(dir, 'gz') elif archive_format == 'tar.bz2': create_tar_archive(dir, 'bz2') else: create_7z_archive(dir, archive_format)