blob: 440bbcb8411d703f864fbc127db6f2721076f6ea [file] [log] [blame]
#!/usr/bin/env python
# Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""Entry point for both build and try bots.
This script is invoked from XXX, usually without arguments
to package an SDK. It automatically determines whether
this SDK is for mac, win, linux.
The script inspects the following environment variables:
BUILDBOT_BUILDERNAME to determine whether the script is run locally
and whether it should upload an SDK to file storage (GSTORE)
# pylint: disable=W0621
# std python includes
import argparse
import datetime
import glob
import os
import re
import sys
if sys.version_info < (2, 7, 0):
sys.stderr.write("python 2.7 or later is required run this script\n")
# local includes
import buildbot_common
import build_projects
import build_updater
import build_version
import generate_notice
import manifest_util
import parse_dsc
import verify_filelist
from build_paths import SCRIPT_DIR, SDK_SRC_DIR, SRC_DIR, NACL_DIR, OUT_DIR
from build_paths import GSTORE, GONACL_APPENGINE_SRC_DIR
# Add SDK make tools scripts to the python path.
sys.path.append(os.path.join(SDK_SRC_DIR, 'tools'))
sys.path.append(os.path.join(NACL_DIR, 'build'))
import getos
import oshelpers
BUILD_DIR = os.path.join(NACL_DIR, 'build')
NACL_TOOLCHAIN_DIR = os.path.join(NACL_DIR, 'toolchain')
CYGTAR = os.path.join(BUILD_DIR, '')
PKGVER = os.path.join(BUILD_DIR, 'package_version', '')
GNBUILD_DIR = 'gnbuild'
options = None
# Map of: ToolchainName: (PackageName, SDKDir, arch).
'arm_glibc': ('nacl_arm_glibc', '%(platform)s_arm_glibc', 'arm'),
'x86_glibc': ('nacl_x86_glibc', '%(platform)s_x86_glibc', 'x86'),
'pnacl': ('pnacl_newlib', '%(platform)s_pnacl', 'pnacl')
def GetToolchainDirName(tcname):
"""Return the directory name for a given toolchain"""
return TOOLCHAIN_PACKAGE_MAP[tcname][1] % {'platform': getos.GetPlatform()}
def GetToolchainDir(pepperdir, tcname):
"""Return the full path to a given toolchain within a given sdk root"""
return os.path.join(pepperdir, 'toolchain', GetToolchainDirName(tcname))
def GetToolchainLibc(tcname):
if tcname == 'pnacl':
return 'newlib'
for libc in ('glibc', 'newlib', 'host'):
if libc in tcname:
return libc
def GetToolchainNaClInclude(pepperdir, tcname, arch=None):
tcpath = GetToolchainDir(pepperdir, tcname)
if arch is None:
arch = TOOLCHAIN_PACKAGE_MAP[tcname][2]
if arch == 'x86':
return os.path.join(tcpath, 'x86_64-nacl', 'include')
elif arch == 'pnacl':
return os.path.join(tcpath, 'le32-nacl', 'include')
elif arch == 'arm':
return os.path.join(tcpath, 'arm-nacl', 'include')
buildbot_common.ErrorExit('Unknown architecture: %s' % arch)
def GetNinjaOutDir(arch):
return os.path.join(OUT_DIR, GNBUILD_DIR + '-' + arch)
def GetGnBuiltLib(tc, arch):
if 'glibc' in tc:
out_dir = 'glibc_%s' % arch
elif arch == 'pnacl':
out_dir = 'newlib_pnacl'
out_dir = 'clang_newlib_%s' % arch
return os.path.join(GetNinjaOutDir('x64'), out_dir)
def GetToolchainNaClLib(tcname, tcpath, arch):
if arch == 'x86':
return os.path.join(tcpath, 'x86_64-nacl', 'lib32')
elif arch == 'x64':
return os.path.join(tcpath, 'x86_64-nacl', 'lib')
elif arch == 'arm':
return os.path.join(tcpath, 'arm-nacl', 'lib')
elif tcname == 'pnacl':
return os.path.join(tcpath, 'le32-nacl', 'lib')
def GetOutputToolchainLib(pepperdir, tcname, arch):
tcpath = os.path.join(pepperdir, 'toolchain', GetToolchainDirName(tcname))
return GetToolchainNaClLib(tcname, tcpath, arch)
def GetPNaClTranslatorLib(tcpath, arch):
if arch not in ['arm', 'x86', 'x64']:
buildbot_common.ErrorExit('Unknown architecture %s.' % arch)
if arch == 'x86':
arch = 'x86-32'
elif arch == 'x64':
arch = 'x86-64'
return os.path.join(tcpath, 'translator', arch, 'lib')
def BuildStepDownloadToolchains(toolchains):
args = [sys.executable, PKGVER, '--mode', 'nacl_core_sdk']
args.extend(['sync', '--extract'])
buildbot_common.Run(args, cwd=NACL_DIR)
def BuildStepCleanPepperDirs(pepperdir, pepperdir_old):
buildbot_common.BuildStep('Clean Pepper Dirs')
dirs_to_remove = (
os.path.join(OUT_DIR, 'arm_trusted')
for dirname in dirs_to_remove:
if os.path.exists(dirname):
def BuildStepMakePepperDirs(pepperdir, subdirs):
for subdir in subdirs:
buildbot_common.MakeDir(os.path.join(pepperdir, subdir))
def BuildStepCopyTextFiles(pepperdir, pepper_ver, chrome_revision,
buildbot_common.BuildStep('Add Text Files')
InstallFiles(SDK_SRC_DIR, pepperdir, TEXT_FILES)
# Replace a few placeholders in README
readme_text = open(os.path.join(SDK_SRC_DIR, 'README')).read()
readme_text = readme_text.replace('${VERSION}', pepper_ver)
readme_text = readme_text.replace('${CHROME_REVISION}', chrome_revision)
readme_text = readme_text.replace('${CHROME_COMMIT_POSITION}',
readme_text = readme_text.replace('${NACL_REVISION}', nacl_revision)
# Year/Month/Day Hour:Minute:Second
time_format = '%Y/%m/%d %H:%M:%S'
readme_text = readme_text.replace('${DATE}',
open(os.path.join(pepperdir, 'README'), 'w').write(readme_text)
def BuildStepUntarToolchains(pepperdir, toolchains):
buildbot_common.BuildStep('Untar Toolchains')
platform = getos.GetPlatform()
build_platform = '%s_x86' % platform
tmpdir = os.path.join(OUT_DIR, 'tc_temp')
# Create a list of extract packages tuples, the first part should be
# "$PACKAGE_TARGET/$PACKAGE". The second part should be the destination
# directory relative to pepperdir/toolchain.
extract_packages = []
for toolchain in toolchains:
toolchain_map = TOOLCHAIN_PACKAGE_MAP.get(toolchain, None)
if toolchain_map:
package_name, tcdir, _ = toolchain_map
package_tuple = (os.path.join(build_platform, package_name),
tcdir % {'platform': platform})
# On linux we also want to extract the arm_trusted package which contains
# the ARM libraries we ship in support of sel_ldr_arm.
if platform == 'linux':
extract_packages.append((os.path.join(build_platform, 'arm_trusted'),
if extract_packages:
# Extract all of the packages into the temp directory.
package_names = [package_tuple[0] for package_tuple in extract_packages]
buildbot_common.Run([sys.executable, PKGVER,
'--packages', ','.join(package_names),
'--dest-dir', tmpdir,
# Move all the packages we extracted to the correct destination.
for package_name, dest_dir in extract_packages:
full_src_dir = os.path.join(tmpdir, package_name)
full_dst_dir = os.path.join(pepperdir, 'toolchain', dest_dir)
buildbot_common.Move(full_src_dir, full_dst_dir)
# Cleanup the temporary directory we are no longer using.
# List of toolchain headers to install.
# Source is relative to top of Chromium tree, destination is relative
# to the toolchain header directory.
'newlib': [
('native_client/src/include/nacl/nacl_exception.h', 'nacl/'),
('native_client/src/include/nacl/nacl_minidump.h', 'nacl/'),
('native_client/src/untrusted/irt/irt.h', ''),
('native_client/src/untrusted/irt/irt_dev.h', ''),
('native_client/src/untrusted/irt/irt_extension.h', ''),
('native_client/src/untrusted/nacl/nacl_dyncode.h', 'nacl/'),
('native_client/src/untrusted/nacl/nacl_startup.h', 'nacl/'),
('native_client/src/untrusted/pthread/pthread.h', ''),
('native_client/src/untrusted/pthread/semaphore.h', ''),
('native_client/src/untrusted/valgrind/dynamic_annotations.h', 'nacl/'),
('ppapi/nacl_irt/public/irt_ppapi.h', ''),
'glibc': [
('native_client/src/include/nacl/nacl_exception.h', 'nacl/'),
('native_client/src/include/nacl/nacl_minidump.h', 'nacl/'),
('native_client/src/untrusted/irt/irt.h', ''),
('native_client/src/untrusted/irt/irt_dev.h', ''),
('native_client/src/untrusted/irt/irt_extension.h', ''),
('native_client/src/untrusted/nacl/nacl_dyncode.h', 'nacl/'),
('native_client/src/untrusted/nacl/nacl_startup.h', 'nacl/'),
('native_client/src/untrusted/valgrind/dynamic_annotations.h', 'nacl/'),
('ppapi/nacl_irt/public/irt_ppapi.h', ''),
def InstallFiles(src_root, dest_root, file_list):
"""Copy a set of files from src_root to dest_root according
to the given mapping. This allows files to be copied from
to a location in the destination tree that is different to the
location in the source tree.
If the destination mapping ends with a '/' then the destination
basename is inherited from the the source file.
Wildcards can be used in the source list but it is not recommended
as this can end up adding things to the SDK unintentionally.
for file_spec in file_list:
# The list of files to install can be a simple list of
# strings or a list of pairs, where each pair corresponds
# to a mapping from source to destination names.
if isinstance(file_spec, str):
src_file = dest_file = file_spec
src_file, dest_file = file_spec
src_file = os.path.join(src_root, src_file)
# Expand sources files using glob.
sources = glob.glob(src_file)
if not sources:
sources = [src_file]
if len(sources) > 1 and not dest_file.endswith('/'):
buildbot_common.ErrorExit("Target file must end in '/' when "
"using globbing to install multiple files")
for source in sources:
if dest_file.endswith('/'):
dest = os.path.join(dest_file, os.path.basename(source))
dest = dest_file
dest = os.path.join(dest_root, dest)
if not os.path.isdir(os.path.dirname(dest)):
buildbot_common.CopyFile(source, dest)
def InstallNaClHeaders(tc_dst_inc, tcname):
"""Copies NaCl headers to expected locations in the toolchain."""
InstallFiles(SRC_DIR, tc_dst_inc, NACL_HEADER_MAP[GetToolchainLibc(tcname)])
def GnNinjaInstall(pepperdir, toolchains):
tools_files_x86 = [
['sel_ldr', 'sel_ldr_x86_32'],
tools_files_x64 = [
['sel_ldr', 'sel_ldr_x86_64'],
['ncval_new', 'ncval'],
['clang_newlib_arm/elf_loader.nexe', 'elf_loader_arm.nexe'],
['irt_x86/irt_core.nexe', 'irt_core_x86_32.nexe'],
['irt_x64/irt_core.nexe', 'irt_core_x86_64.nexe'],
tools_files_arm = []
platform = getos.GetPlatform()
# TODO(binji): dump_syms doesn't currently build on Windows. See
if platform != 'win':
tools_files_x64 += [
['dump_syms', 'dump_syms'],
['minidump_dump', 'minidump_dump'],
['minidump_stackwalk', 'minidump_stackwalk']
if platform == 'linux':
tools_files_x86 += [['nonsfi_loader', 'nonsfi_loader_x86_32'],
tools_files_x64 += [['nacl_helper_bootstrap',
# Add ARM trusted binaries (linux only)
if not options.no_arm_trusted:
tools_files_x64 += [
['irt_arm/irt_core.nexe', 'irt_core_arm.nexe'],
tools_files_arm += [
['nacl_helper_bootstrap', 'nacl_helper_bootstrap_arm'],
['nonsfi_loader', 'nonsfi_loader_arm'],
['sel_ldr', 'sel_ldr_arm']
tools_dir = os.path.join(pepperdir, 'tools')
# Add .exe extensions to all windows tools
for pair in tools_files_x86 + tools_files_x64:
if platform == 'win' and not os.path.splitext(pair[0])[1]:
pair[0] += '.exe'
pair[1] += '.exe'
InstallFiles(GetNinjaOutDir('x64'), tools_dir, tools_files_x64)
InstallFiles(GetNinjaOutDir('x86'), tools_dir, tools_files_x86)
if platform == 'linux':
InstallFiles(GetNinjaOutDir('arm'), tools_dir, tools_files_arm)
stub_dir = os.path.join(SRC_DIR, 'ppapi/native_client/src/untrusted/irt_stub')
for tc in toolchains:
if tc in ('host', 'clang-newlib'):
elif tc == 'pnacl':
xarches = ('pnacl', 'x86', 'x64', 'arm')
elif tc in ('x86_glibc'):
xarches = ('x86', 'x64')
elif tc == 'arm_glibc':
xarches = ('arm',)
raise AssertionError('unexpected toolchain value: %s' % tc)
for xarch in xarches:
src_dir = GetGnBuiltLib(tc, xarch)
src_dir = os.path.join(src_dir, 'obj', 'ppapi', 'native_client', 'src',
'untrusted', 'irt_stub')
dst_dir = GetOutputToolchainLib(pepperdir, tc, xarch)
InstallFiles(src_dir, dst_dir, ['libppapi_stub.a'])
InstallFiles(stub_dir, dst_dir, ['libppapi.a'])
if 'glibc' in tc:
InstallFiles(stub_dir, dst_dir, [''])
def GnNinjaBuildAll(rel_out_dir):
def MakeNinjaRelPath(suffix):
return os.path.join(os.path.relpath(OUT_DIR, SRC_DIR), rel_out_dir + suffix)
GnNinjaBuild('x64', MakeNinjaRelPath('-x64'), ['nacl_sdk_untrusted=true'])
GnNinjaBuild('x86', MakeNinjaRelPath('-x86'))
if getos.GetPlatform() == 'linux':
GnNinjaBuild('arm', MakeNinjaRelPath('-arm'))
def GetGNExecutable(platform):
# TODO(sbc): Remove this code, which is duplicated from and simply
# rely on the depot_tools gn wrapper which should be in the PATH.
if platform == 'linux':
subdir, exe = 'linux64', 'gn'
elif platform == 'mac':
subdir, exe = 'mac', 'gn'
subdir, exe = 'win', 'gn.exe'
return os.path.join(SRC_DIR, 'buildtools', subdir, exe)
def GnNinjaBuild(arch, out_dir, extra_gn_args=None):
gn_args = ['is_debug=false']
if extra_gn_args is not None:
gn_args += extra_gn_args
platform = getos.GetPlatform()
if platform == 'mac':
if options.mac_sdk:
gn_args.append('mac_sdk_min="%s"' % options.mac_sdk)
if arch == 'arm':
# Without this the target_cpu='arm' build complains about missing code
# signing identity
gn_exe = GetGNExecutable(platform)
if arch is not None:
gn_args.append('target_cpu="%s"' % arch)
if arch == 'arm':
if options.no_arm_trusted:
gn_args = ' '.join(gn_args)
buildbot_common.Run([gn_exe, 'gen', '--args=%s' % gn_args, out_dir],
buildbot_common.Run(['ninja', '-C', out_dir, 'nacl_core_sdk'], cwd=SRC_DIR)
def BuildStepBuildToolchains(pepperdir, toolchains, build, clean):
buildbot_common.BuildStep('SDK Items')
if clean:
for dirname in glob.glob(os.path.join(OUT_DIR, GNBUILD_DIR + '*')):
build = True
if build:
GnNinjaInstall(pepperdir, toolchains)
for toolchain in toolchains:
if toolchain not in ('host', 'clang-newlib'):
InstallNaClHeaders(GetToolchainNaClInclude(pepperdir, toolchain),
if 'pnacl' in toolchains:
# NOTE: gn build all untrusted code in the x86 build
build_dir = GetNinjaOutDir('x64')
nacl_arches = ['x86', 'x64', 'arm']
for nacl_arch in nacl_arches:
shim_file = os.path.join(build_dir, 'clang_newlib_' + nacl_arch, 'obj',
'ppapi', 'native_client', 'src', 'untrusted',
'pnacl_irt_shim', 'libpnacl_irt_shim.a')
pnacldir = GetToolchainDir(pepperdir, 'pnacl')
pnacl_translator_lib_dir = GetPNaClTranslatorLib(pnacldir, nacl_arch)
if not os.path.isdir(pnacl_translator_lib_dir):
buildbot_common.ErrorExit('Expected %s directory to exist.' %
buildbot_common.CopyFile(shim_file, pnacl_translator_lib_dir)
InstallNaClHeaders(GetToolchainNaClInclude(pepperdir, 'pnacl', 'x86'),
InstallNaClHeaders(GetToolchainNaClInclude(pepperdir, 'pnacl', 'arm'),
def MakeDirectoryOrClobber(pepperdir, dirname, clobber):
dirpath = os.path.join(pepperdir, dirname)
if clobber:
return dirpath
def BuildStepUpdateHelpers(pepperdir, clobber):
buildbot_common.BuildStep('Update project helpers')
build_projects.UpdateHelpers(pepperdir, clobber=clobber)
def BuildStepUpdateUserProjects(pepperdir, toolchains,
build_experimental, clobber):
buildbot_common.BuildStep('Update examples and libraries')
filters = {}
if not build_experimental:
filters['EXPERIMENTAL'] = False
dsc_toolchains = []
for t in toolchains:
if t.startswith('x86_') or t.startswith('arm_'):
if t[4:] not in dsc_toolchains:
elif t == 'host':
filters['TOOLS'] = dsc_toolchains
# Update examples and libraries
filters['DEST'] = [
tree = parse_dsc.LoadProjectTree(SDK_SRC_DIR, include=filters)
build_projects.UpdateProjects(pepperdir, tree, clobber=clobber,
def BuildStepMakeAll(pepperdir, directory, step_name,
deps=True, clean=False, config='Debug', args=None):
build_projects.BuildProjectsBranch(pepperdir, directory, clean,
deps, config, args)
def BuildStepBuildLibraries(pepperdir, args=None):
BuildStepMakeAll(pepperdir, 'src', 'Build Libraries Debug',
clean=True, config='Debug', args=args)
BuildStepMakeAll(pepperdir, 'src', 'Build Libraries Release',
clean=True, config='Release', args=args)
# Cleanup .pyc file generated while building libraries. Without
# this we would end up shipping the pyc in the SDK tarball.
buildbot_common.RemoveFile(os.path.join(pepperdir, 'tools', '*.pyc'))
def GenerateNotice(fileroot, output_filename='NOTICE', extra_files=None):
# Look for LICENSE files
license_filenames_re = re.compile('LICENSE|COPYING|COPYRIGHT')
license_files = []
for root, _, files in os.walk(fileroot):
for filename in files:
if license_filenames_re.match(filename):
path = os.path.join(root, filename)
if extra_files:
license_files += [os.path.join(fileroot, f) for f in extra_files]
print '\n'.join(license_files)
if not os.path.isabs(output_filename):
output_filename = os.path.join(fileroot, output_filename)
generate_notice.Generate(output_filename, fileroot, license_files)
def BuildStepVerifyFilelist(pepperdir):
buildbot_common.BuildStep('Verify SDK Files')
file_list_path = os.path.join(SCRIPT_DIR, 'sdk_files.list')
print 'SDK directory: %s' % pepperdir
verify_filelist.Verify(file_list_path, pepperdir)
print 'OK'
except verify_filelist.ParseException, e:
buildbot_common.ErrorExit('Parsing sdk_files.list failed:\n\n%s' % e)
except verify_filelist.VerifyException, e:
file_list_rel = os.path.relpath(file_list_path)
verify_filelist_py = os.path.splitext(verify_filelist.__file__)[0] + '.py'
verify_filelist_py = os.path.relpath(verify_filelist_py)
pepperdir_rel = os.path.relpath(pepperdir)
msg = """\
SDK verification failed:
Add/remove files from %s to fix.
./%s %s %s
to test.""" % (e, file_list_rel, verify_filelist_py, file_list_rel,
def BuildStepTarBundle(pepper_ver, tarfile):
buildbot_common.BuildStep('Tar Pepper Bundle')
buildbot_common.Run([sys.executable, CYGTAR, '-C', OUT_DIR, '-cjf', tarfile,
'pepper_' + pepper_ver], cwd=NACL_DIR)
def GetManifestBundle(pepper_ver, chrome_revision, nacl_revision, tarfile,
with open(tarfile, 'rb') as tarfile_stream:
archive_sha1, archive_size = manifest_util.DownloadAndComputeHash(
archive = manifest_util.Archive(manifest_util.GetHostOS())
archive.url = archive_url
archive.size = archive_size
archive.checksum = archive_sha1
bundle = manifest_util.Bundle('pepper_' + pepper_ver)
bundle.revision = int(chrome_revision)
bundle.repath = 'pepper_' + pepper_ver
bundle.version = int(pepper_ver)
bundle.description = (
'Chrome %s bundle. Chrome revision: %s. NaCl revision: %s' % (
pepper_ver, chrome_revision, nacl_revision))
bundle.stability = 'dev'
bundle.recommended = 'no'
bundle.archives = [archive]
return bundle
def Archive(filename, from_directory, step_link=True):
if buildbot_common.IsSDKBuilder():
bucket_path = 'nativeclient-mirror/nacl/nacl_sdk/'
bucket_path = 'nativeclient-mirror/nacl/nacl_sdk_test/'
bucket_path += build_version.ChromeVersion()
buildbot_common.Archive(filename, bucket_path, from_directory, step_link)
def BuildStepArchiveBundle(name, pepper_ver, chrome_revision, nacl_revision,
buildbot_common.BuildStep('Archive %s' % name)
tarname = os.path.basename(tarfile)
tarfile_dir = os.path.dirname(tarfile)
Archive(tarname, tarfile_dir)
# generate "manifest snippet" for this archive.
archive_url = GSTORE + 'nacl_sdk/%s/%s' % (
build_version.ChromeVersion(), tarname)
bundle = GetManifestBundle(pepper_ver, chrome_revision, nacl_revision,
tarfile, archive_url)
manifest_snippet_file = os.path.join(OUT_DIR, tarname + '.json')
with open(manifest_snippet_file, 'wb') as manifest_snippet_stream:
Archive(tarname + '.json', OUT_DIR, step_link=False)
def BuildStepBuildPNaClComponent(version, revision):
# Sadly revision can go backwords for a given version since when a version
# is built from master, revision will be a huge number (in the hundreds of
# thousands. Once the branch happens the revision will reset to zero.
# TODO(sbc): figure out how to compensate for this in some way such that
# revisions always go forward for a given version.
buildbot_common.BuildStep('PNaCl Component')
# Version numbers must follow the format specified in:
# So ensure that rev_major/rev_minor don't overflow and ensure there
# are no leading zeros.
if len(revision) > 4:
rev_minor = int(revision[-4:])
rev_major = int(revision[:-4])
version = "0.%s.%s.%s" % (version, rev_major, rev_minor)
version = "0.%s.0.%s" % (version, revision)
'' % revision,
version], cwd=SCRIPT_DIR)
def BuildStepArchivePNaClComponent(revision):
buildbot_common.BuildStep('Archive PNaCl Component')
Archive('' % revision, OUT_DIR)
def BuildStepArchiveSDKTools():
buildbot_common.BuildStep('Build SDK Tools')
buildbot_common.BuildStep('Archive SDK Tools')
Archive('sdk_tools.tgz', OUT_DIR, step_link=False)
Archive('', OUT_DIR, step_link=False)
def BuildStepBuildAppEngine(pepperdir, chrome_revision):
"""Build the projects found in src/gonacl_appengine/src"""
buildbot_common.BuildStep('Build GoNaCl AppEngine Projects')
cmd = ['make', 'upload', 'REVISION=%s' % chrome_revision]
env = dict(os.environ)
env['NACL_SDK_ROOT'] = pepperdir
buildbot_common.Run(cmd, env=env, cwd=GONACL_APPENGINE_SRC_DIR)
def main(args):
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument('--qemu', help='Add qemu for ARM.',
parser.add_argument('--tar', help='Force the tar step.',
parser.add_argument('--archive', help='Force the archive step.',
parser.add_argument('--release', help='PPAPI release version.',
dest='release', default=None)
help='Build AppEngine demos.', action='store_true')
help='build experimental examples and libraries', action='store_true',
parser.add_argument('--skip-toolchain', help='Skip toolchain untar',
parser.add_argument('--no-clean', dest='clean', action='store_false',
help="Don't clean gn build directories")
help='Set the mac-sdk (e.g. 10.6) to use when building with ninja.')
parser.add_argument('--no-arm-trusted', action='store_true',
help='Disable building of ARM trusted components (sel_ldr, etc).')
parser.add_argument('--no-use-sysroot', action='store_true',
help='Disable building against sysroot.')
# To setup bash completion for this command first install optcomplete
# and then add this line to your .bashrc:
# complete -F _optcomplete
import optcomplete
except ImportError:
global options
options = parser.parse_args(args)
if buildbot_common.IsSDKBuilder():
options.archive = True
# TODO(binji): re-enable app_engine build when the linux builder stops
# breaking when trying to git clone from github.
# See
options.build_app_engine = False
options.tar = True
# NOTE: order matters here. This will be the order that is specified in the
# Makefiles; the first toolchain will be the default.
toolchains = ['pnacl', 'x86_glibc', 'arm_glibc', 'clang-newlib', 'host']
print 'Building: ' + ' '.join(toolchains)
platform = getos.GetPlatform()
if options.archive and not options.tar:
parser.error('Incompatible arguments with archive.')
chrome_version = int(build_version.ChromeMajorVersion())
chrome_revision = build_version.ChromeRevision()
nacl_revision = build_version.NaClRevision()
pepper_ver = str(chrome_version)
pepper_old = str(chrome_version - 1)
pepperdir = os.path.join(OUT_DIR, 'pepper_' + pepper_ver)
pepperdir_old = os.path.join(OUT_DIR, 'pepper_' + pepper_old)
tarname = 'naclsdk_%s.tar.bz2' % platform
tarfile = os.path.join(OUT_DIR, tarname)
if options.release:
pepper_ver = options.release
print 'Building PEPPER %s at %s' % (pepper_ver, chrome_revision)
if 'NACL_SDK_ROOT' in os.environ:
# We don't want the currently configured NACL_SDK_ROOT to have any effect
# of the build.
del os.environ['NACL_SDK_ROOT']
if platform == 'linux':
# Linux-only: make sure the debian/stable sysroot image is installed
install_script = os.path.join(SRC_DIR, 'build', 'linux', 'sysroot_scripts',
buildbot_common.Run([sys.executable, install_script, '--arch=arm'])
buildbot_common.Run([sys.executable, install_script, '--arch=i386'])
buildbot_common.Run([sys.executable, install_script, '--arch=amd64'])
if not options.skip_toolchain:
BuildStepCleanPepperDirs(pepperdir, pepperdir_old)
BuildStepMakePepperDirs(pepperdir, ['include', 'toolchain', 'tools'])
BuildStepUntarToolchains(pepperdir, toolchains)
if platform == 'linux':
buildbot_common.Move(os.path.join(pepperdir, 'toolchain', 'arm_trusted'),
os.path.join(OUT_DIR, 'arm_trusted'))
if platform == 'linux':
# Linux-only: Copy arm libraries from the arm_trusted package. These are
# needed to be able to run sel_ldr_arm under qemu.
arm_libs = [
arm_lib_dir = os.path.join(pepperdir, 'tools', 'lib', 'arm_trusted', 'lib')
for arm_lib in arm_libs:
arm_lib = os.path.join(OUT_DIR, 'arm_trusted', arm_lib)
buildbot_common.CopyFile(arm_lib, arm_lib_dir)
buildbot_common.CopyFile(os.path.join(OUT_DIR, 'arm_trusted', 'qemu-arm'),
os.path.join(pepperdir, 'tools'))
BuildStepBuildToolchains(pepperdir, toolchains,
not options.skip_toolchain,
BuildStepUpdateHelpers(pepperdir, True)
BuildStepUpdateUserProjects(pepperdir, toolchains,
options.build_experimental, True)
BuildStepCopyTextFiles(pepperdir, pepper_ver, chrome_revision, nacl_revision)
# Ship with libraries prebuilt, so run that first.
# Verify the SDK contains what we expect.
if options.tar:
BuildStepTarBundle(pepper_ver, tarfile)
if platform == 'linux':
BuildStepBuildPNaClComponent(pepper_ver, chrome_revision)
if options.build_app_engine and platform == 'linux':
BuildStepBuildAppEngine(pepperdir, chrome_revision)
if options.qemu:
qemudir = os.path.join(NACL_DIR, 'toolchain', 'linux_arm-trusted')
oshelpers.Copy(['-r', qemudir, pepperdir])
# Archive the results on Google Cloud Storage.
if options.archive:
BuildStepArchiveBundle('build', pepper_ver, chrome_revision, nacl_revision,
# Only archive sdk_tools/naclport/pnacl_component on linux.
if platform == 'linux':
return 0
if __name__ == '__main__':
except KeyboardInterrupt:
buildbot_common.ErrorExit('build_sdk: interrupted')