#!/usr/bin/env python # Copyright 2018-2019 the Deno authors. All rights reserved. MIT license. # This script contains helper functions to work with the third_party subrepo. import os import re import site import sys from tempfile import mkdtemp from util import add_env_path, executable_suffix, libdeno_path, make_env, rmtree from util import root_path, run, third_party_path depot_tools_path = os.path.join(third_party_path, "depot_tools") prebuilt_path = os.path.join(third_party_path, "prebuilt") python_packages_path = os.path.join(third_party_path, "python_packages") python_site_env = None # Creates/modifies an environment so python can find packages that are bundled # in the 'third_party' directory. def python_env(env=None, merge_env=None): if merge_env is None: merge_env = {} global python_site_env # Use site.addsitedir() to determine which search paths would be considered # if 'third_party/python_packages' was a site-packages directory. # PATH is also updated, so windows can find the DLLs that ship with pywin32. if python_site_env is None: python_site_env = {} temp = os.environ["PATH"], sys.path os.environ["PATH"], sys.path = "", [] site.addsitedir(os.path.join(libdeno_path, "build")) # Modifies PATH and sys.path. site.addsitedir(python_packages_path) # Modifies PATH and sys.path. python_site_env = {"PATH": os.environ["PATH"], "PYTHONPATH": sys.path} os.environ["PATH"], sys.path = temp # Make a new environment object. env = make_env(env=env, merge_env=merge_env) # Apply PATH and PYTHONPATH from the site-packages environment. add_env_path(python_site_env["PATH"], env=env, key="PATH") add_env_path(python_site_env["PYTHONPATH"], env=env, key="PYTHONPATH") return env # This function creates or modifies an environment so that it matches the # expectations of various google tools (gn, gclient, etc). def google_env(env=None, merge_env=None, depot_tools_path_=depot_tools_path): if merge_env is None: merge_env = {} # Google tools need the python env too. env = python_env(env=env, merge_env=merge_env) # Depot_tools to be in the PATH, before Python. add_env_path(depot_tools_path_, env=env, prepend=True) if os.name == "nt": # Windows-only enviroment tweaks. # We're not using Google's internal infrastructure. if os.name == "nt" and not "DEPOT_TOOLS_WIN_TOOLCHAIN" in env: env["DEPOT_TOOLS_WIN_TOOLCHAIN"] = "0" # The 'setup_toolchain.py' script does a good job finding the Windows # SDK. Unfortunately, if any of the environment variables below are set # (as vcvarsall.bat typically would), setup_toolchain absorbs them too, # adding multiple identical -imsvc items to CFLAGS. # This small variation has no effect on compiler output, but it # makes ninja rebuild everything, and causes sccache cache misses. # TODO(piscisaureus): fix this upstream. env["INCLUDE"] = "" env["LIB"] = "" env["LIBPATH"] = "" return env # Run Yarn to install JavaScript dependencies. def run_yarn(): run(["yarn", "install"], cwd=third_party_path) # Install python packages with pip. def run_pip(): # Install an recent version of pip into a temporary directory. The version # that is bundled with python is too old to support the next step. temp_python_home = mkdtemp() pip_env = {"PYTHONUSERBASE": temp_python_home} run([sys.executable, "-m", "pip", "install", "--upgrade", "--user", "pip"], cwd=third_party_path, merge_env=pip_env) # Install pywin32. run([ sys.executable, "-m", "pip", "install", "--upgrade", "--target", python_packages_path, "--platform=win_amd64", "--only-binary=:all:", "pypiwin32" ], cwd=third_party_path, merge_env=pip_env) # Get yapf. run([ sys.executable, "-m", "pip", "install", "--upgrade", "--target", python_packages_path, "yapf" ], cwd=third_party_path, merge_env=pip_env) run([ sys.executable, "-m", "pip", "install", "--upgrade", "--target", python_packages_path, "pylint==1.5.6" ], cwd=third_party_path, merge_env=pip_env) # Remove the temporary pip installation. rmtree(temp_python_home) # Run gclient to install other dependencies. def run_gclient_sync(): # Depot_tools will normally try to self-update, which will fail because # it's not checked out from it's own git repository; gclient will then try # to fix things up and not succeed, and and we'll end up with a huge mess. # To work around this, we rename the `depot_tools` directory to # `{root_path}/depot_tools_temp` first, and we set DEPOT_TOOLS_UPDATE=0 in # the environment so depot_tools doesn't attempt to self-update. # Since depot_tools is listed in .gclient_entries, gclient will install a # fresh copy in `third_party/depot_tools`. # If it all works out, we remove the depot_tools_temp directory afterwards. depot_tools_temp_path = os.path.join(root_path, "depot_tools_temp") # Rename depot_tools to depot_tools_temp. try: os.rename(depot_tools_path, depot_tools_temp_path) except OSError: # If renaming failed, and the depot_tools_temp directory already exists, # assume that it's still there because a prior run_gclient_sync() call # failed half-way, before we got the chance to remove the temp dir. # We'll use whatever is in the temp dir that was already there. # If not, the user can recover by removing the temp directory manually. if os.path.isdir(depot_tools_temp_path): pass else: raise args = [ "gclient", "sync", "--reset", "--shallow", "--no-history", "--nohooks" ] envs = { "DEPOT_TOOLS_UPDATE": "0", "GCLIENT_FILE": os.path.join(root_path, "gclient_config.py") } env = google_env(depot_tools_path_=depot_tools_temp_path, merge_env=envs) run(args, cwd=third_party_path, env=env) # Delete the depot_tools_temp directory, but not before verifying that # gclient did indeed install a fresh copy. # Also check that `{depot_tools_temp_path}/gclient.py` exists, so a typo in # this script won't accidentally blow out someone's home dir. if (os.path.isdir(os.path.join(depot_tools_path, ".git")) and os.path.isfile(os.path.join(depot_tools_path, "gclient.py")) and os.path.isfile( os.path.join(depot_tools_temp_path, "gclient.py"))): rmtree(depot_tools_temp_path) def get_platform_dir_name(): if sys.platform == "win32": return "win" elif sys.platform == "darwin": return "mac" elif sys.platform.startswith("linux"): return "linux64" def get_prebuilt_tool_path(tool): return os.path.join(prebuilt_path, get_platform_dir_name(), tool + executable_suffix) def get_buildtools_tool_path(tool): return os.path.join(libdeno_path, "buildtools", get_platform_dir_name(), tool + executable_suffix) def download_from_google_storage2(sha1_file, bucket): download_script = os.path.join(depot_tools_path, "download_from_google_storage.py") run([ sys.executable, download_script, "--no_auth", "--bucket=%s" % bucket, "--sha1_file", sha1_file, ], env=google_env()) # Download the given item from Google storage. def download_from_google_storage(item, bucket, base_dir): sha1_file = os.path.join(base_dir, get_platform_dir_name(), item + executable_suffix + ".sha1") download_from_google_storage2(sha1_file, bucket) # Download the given item from Chrome Infrastructure Package Deployment. def download_from_cipd(item, version): cipd_exe = os.path.join(depot_tools_path, "cipd") download_dir = os.path.join(libdeno_path, "buildtools", get_platform_dir_name()) if sys.platform == "win32": item += "windows-amd64" elif sys.platform == "darwin": item += "mac-amd64" elif sys.platform.startswith("linux"): item += "linux-amd64" # Init cipd if necessary. if not os.path.exists(os.path.join(download_dir, ".cipd")): run([ cipd_exe, "init", download_dir, "-force", ], env=google_env()) run([ cipd_exe, "install", item, "git_revision:" + version, "-root", download_dir, ], env=google_env()) # Download gn from Google storage. def download_gn(): download_from_cipd("gn/gn/", "152c5144ceed9592c20f0c8fd55769646077569b") # Download clang-format from Google storage. def download_clang_format(): download_from_google_storage("clang-format", "chromium-clang-format", os.path.join(libdeno_path, "buildtools")) # Download clang by calling the clang update script. def download_clang(): update_script = os.path.join(libdeno_path, "v8", "tools", "clang", "scripts", "update.py") run([sys.executable, update_script], env=google_env()) def maybe_download_sysroot(): if sys.platform.startswith("linux"): install_script = os.path.join(libdeno_path, "build", "linux", "sysroot_scripts", "install-sysroot.py") run([sys.executable, install_script, "--arch=amd64"], env=google_env())