Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / external / skqp / c795a4c8862dbab914561fadf7a3567c55362ae4 / . / infra / bots / recipe_modules / flavor / gn_flavor.py
blob: b1855de98e61655e0609ae4d34978208b30ac5fa [file] [log] [blame]
# Copyright 2016 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.
import default_flavor
"""GN flavor utils, used for building Skia with GN."""
class GNFlavorUtils(default_flavor.DefaultFlavorUtils):
def _run(self, title, cmd, infra_step=False, **kwargs):
return self.m.run(self.m.step, title, cmd=cmd,
infra_step=infra_step, **kwargs)
def _py(self, title, script, infra_step=True, args=()):
return self.m.run(self.m.python, title, script=script, args=args,
infra_step=infra_step)
def build_command_buffer(self):
self.m.run(self.m.python, 'build command_buffer',
script=self.m.vars.skia_dir.join('tools', 'build_command_buffer.py'),
args=[
'--chrome-dir', self.m.vars.checkout_root,
'--output-dir', self.m.vars.skia_out.join(self.m.vars.configuration),
'--no-sync', '--make-output-dir'])
def compile(self, unused_target):
"""Build Skia with GN."""
compiler = self.m.vars.builder_cfg.get('compiler', '')
configuration = self.m.vars.builder_cfg.get('configuration', '')
extra_config = self.m.vars.builder_cfg.get('extra_config', '')
os = self.m.vars.builder_cfg.get('os', '')
target_arch = self.m.vars.builder_cfg.get('target_arch', '')
clang_linux = str(self.m.vars.slave_dir.join('clang_linux'))
emscripten_sdk = str(self.m.vars.slave_dir.join('emscripten_sdk'))
linux_vulkan_sdk = str(self.m.vars.slave_dir.join('linux_vulkan_sdk'))
win_toolchain = str(self.m.vars.slave_dir.join(
't', 'depot_tools', 'win_toolchain', 'vs_files',
'd3cb0e37bdd120ad0ac4650b674b09e81be45616'))
win_vulkan_sdk = str(self.m.vars.slave_dir.join('win_vulkan_sdk'))
cc, cxx = None, None
extra_cflags = []
extra_ldflags = []
if compiler == 'Clang' and self.m.vars.is_linux:
cc = clang_linux + '/bin/clang'
cxx = clang_linux + '/bin/clang++'
extra_cflags .append('-B%s/bin' % clang_linux)
extra_ldflags.append('-B%s/bin' % clang_linux)
extra_ldflags.append('-fuse-ld=lld')
elif compiler == 'Clang':
cc, cxx = 'clang', 'clang++'
elif compiler == 'GCC' and os == "Ubuntu14":
cc, cxx = 'gcc-4.8', 'g++-4.8'
elif compiler == 'GCC':
cc, cxx = 'gcc', 'g++'
elif compiler == 'EMCC':
cc = emscripten_sdk + '/emscripten/incoming/emcc'
cxx = emscripten_sdk + '/emscripten/incoming/em++'
extra_cflags.append('-Wno-unknown-warning-option')
if extra_config == 'Coverage':
# See https://clang.llvm.org/docs/SourceBasedCodeCoverage.html for
# more info on using llvm to gather coverage information.
extra_cflags.append('-fprofile-instr-generate')
extra_cflags.append('-fcoverage-mapping')
extra_ldflags.append('-fprofile-instr-generate')
extra_ldflags.append('-fcoverage-mapping')
elif compiler != 'MSVC' and configuration == 'Debug':
extra_cflags.append('-O1')
if extra_config == 'Exceptions':
extra_cflags.append('/EHsc')
if extra_config == 'Fast':
extra_cflags.extend(['-march=native', '-fomit-frame-pointer', '-O3',
'-ffp-contract=off'])
if extra_config.startswith('SK'):
extra_cflags.append('-D' + extra_config)
if extra_config == 'MSAN':
extra_ldflags.append('-L' + clang_linux + '/msan')
args = {}
if configuration != 'Debug':
args['is_debug'] = 'false'
if extra_config == 'ANGLE':
args['skia_use_angle'] = 'true'
if extra_config == 'CommandBuffer':
self.m.run.run_once(self.build_command_buffer)
if extra_config == 'GDI':
args['skia_use_gdi'] = 'true'
if extra_config == 'MSAN':
args['skia_enable_gpu'] = 'false'
args['skia_use_fontconfig'] = 'false'
if 'ASAN' in extra_config or 'UBSAN' in extra_config:
args['skia_enable_spirv_validation'] = 'false'
if extra_config == 'Mesa':
args['skia_use_mesa'] = 'true'
if extra_config == 'Mini':
args.update({
'is_component_build': 'true', # Proves we can link a coherent .so.
'is_official_build': 'true', # No debug symbols, no tools.
'skia_enable_effects': 'false',
'skia_enable_gpu': 'true',
'skia_enable_pdf': 'false',
'skia_use_expat': 'false',
'skia_use_libjpeg_turbo': 'false',
'skia_use_libpng': 'false',
'skia_use_libwebp': 'false',
'skia_use_zlib': 'false',
})
if extra_config == 'NoGPU':
args['skia_enable_gpu'] = 'false'
if extra_config == 'Shared':
args['is_component_build'] = 'true'
if extra_config == 'Vulkan':
args['skia_enable_vulkan_debug_layers'] = 'false'
if self.m.vars.is_linux:
args['skia_vulkan_sdk'] = '"%s"' % linux_vulkan_sdk
if 'Win' in os:
args['skia_vulkan_sdk'] = '"%s"' % win_vulkan_sdk
if 'Metal' in extra_config:
args['skia_use_metal'] = 'true'
if 'CheckGeneratedFiles' in extra_config:
args['skia_compile_processors'] = 'true'
if compiler == 'Clang' and 'Win' in os:
args['clang_win'] = '"%s"' % self.m.vars.slave_dir.join('clang_win')
if target_arch == 'wasm':
args.update({
'skia_use_freetype': 'false',
'skia_use_fontconfig': 'false',
'skia_use_dng_sdk': 'false',
'skia_use_icu': 'false',
'skia_enable_gpu': 'false',
})
if extra_config == 'Coverage':
args['skia_use_system_freetype2'] = 'false'
sanitize = ''
if extra_config == 'UBSAN_float_cast_overflow':
sanitize = 'float-cast-overflow'
elif 'SAN' in extra_config:
sanitize = extra_config
for (k,v) in {
'cc': cc,
'cxx': cxx,
'sanitize': sanitize,
'target_cpu': target_arch,
'target_os': 'ios' if 'iOS' in extra_config else '',
'windk': win_toolchain if 'Win' in os else '',
}.iteritems():
if v:
args[k] = '"%s"' % v
if extra_cflags:
args['extra_cflags'] = repr(extra_cflags).replace("'", '"')
if extra_ldflags:
args['extra_ldflags'] = repr(extra_ldflags).replace("'", '"')
gn_args = ' '.join('%s=%s' % (k,v) for (k,v) in sorted(args.iteritems()))
gn = 'gn.exe' if 'Win' in os else 'gn'
ninja = 'ninja.exe' if 'Win' in os else 'ninja'
gn = self.m.vars.skia_dir.join('bin', gn)
with self.m.context(cwd=self.m.vars.skia_dir):
self._py('fetch-gn', self.m.vars.skia_dir.join('bin', 'fetch-gn'))
env = {}
if 'CheckGeneratedFiles' in extra_config:
env['PATH'] = '%s:%%(PATH)s' % self.m.vars.skia_dir.join('bin')
self._py(
'fetch-clang-format',
self.m.vars.skia_dir.join('bin', 'fetch-clang-format'))
if target_arch == 'wasm':
fastcomp = emscripten_sdk + '/clang/fastcomp/build_incoming_64/bin'
env['PATH'] = '%s:%%(PATH)s' % fastcomp
with self.m.env(env):
self._run('gn gen', [gn, 'gen', self.out_dir, '--args=' + gn_args])
self._run('ninja', [ninja, '-C', self.out_dir])
def copy_extra_build_products(self, swarming_out_dir):
configuration = self.m.vars.builder_cfg.get('configuration', '')
extra_config = self.m.vars.builder_cfg.get('extra_config', '')
os = self.m.vars.builder_cfg.get('os', '')
win_vulkan_sdk = str(self.m.vars.slave_dir.join('win_vulkan_sdk'))
if 'Win' in os and extra_config == 'Vulkan':
self.m.run.copy_build_products(
win_vulkan_sdk,
swarming_out_dir.join('out', configuration + '_x64'))
def step(self, name, cmd):
app = self.m.vars.skia_out.join(self.m.vars.configuration, cmd[0])
cmd = [app] + cmd[1:]
env = self.m.context.env
path = []
ld_library_path = []
slave_dir = self.m.vars.slave_dir
clang_linux = str(slave_dir.join('clang_linux'))
extra_config = self.m.vars.builder_cfg.get('extra_config', '')
if self.m.vars.is_linux:
if (self.m.vars.builder_cfg.get('cpu_or_gpu', '') == 'GPU'
and 'Intel' in self.m.vars.builder_cfg.get('cpu_or_gpu_value', '')):
# The vulkan in this asset name simply means that the graphics driver
# supports Vulkan. It is also the driver used for GL code.
dri_path = slave_dir.join('linux_vulkan_intel_driver_release')
if self.m.vars.builder_cfg.get('configuration', '') == 'Debug':
dri_path = slave_dir.join('linux_vulkan_intel_driver_debug')
ld_library_path.append(dri_path)
env['LIBGL_DRIVERS_PATH'] = str(dri_path)
env['VK_ICD_FILENAMES'] = str(dri_path.join('intel_icd.x86_64.json'))
if 'Vulkan' in extra_config:
path.append(slave_dir.join('linux_vulkan_sdk', 'bin'))
ld_library_path.append(slave_dir.join('linux_vulkan_sdk', 'lib'))
if 'SAN' in extra_config:
# Sanitized binaries may want to run clang_linux/bin/llvm-symbolizer.
path.append(clang_linux + '/bin')
elif self.m.vars.is_linux:
cmd = ['catchsegv'] + cmd
if 'ASAN' == extra_config or 'UBSAN' in extra_config:
env[ 'ASAN_OPTIONS'] = 'symbolize=1 detect_leaks=1'
env[ 'LSAN_OPTIONS'] = 'symbolize=1 print_suppressions=1'
env['UBSAN_OPTIONS'] = 'symbolize=1 print_stacktrace=1'
if 'MSAN' == extra_config:
# Find the MSAN-built libc++.
ld_library_path.append(clang_linux + '/msan')
if 'TSAN' == extra_config:
# We don't care about malloc(), fprintf, etc. used in signal handlers.
# If we're in a signal handler, we're already crashing...
env['TSAN_OPTIONS'] = 'report_signal_unsafe=0'
if 'Coverage' == extra_config:
# This is the output file for the coverage data. Just running the binary
# will produce the output. The output_file is in the swarming_out_dir and
# thus will be an isolated output of the Test step.
env['LLVM_PROFILE_FILE'] = self.m.path.join(self.m.vars.swarming_out_dir,
'output.profraw')
if path:
env['PATH'] = '%%(PATH)s:%s' % ':'.join('%s' % p for p in path)
if ld_library_path:
env['LD_LIBRARY_PATH'] = ':'.join('%s' % p for p in ld_library_path)
to_symbolize = ['dm', 'nanobench']
if name in to_symbolize and self.m.vars.is_linux:
# Convert path objects or placeholders into strings such that they can
# be passed to symbolize_stack_trace.py
args = [slave_dir] + [str(x) for x in cmd]
with self.m.context(cwd=self.m.vars.skia_dir, env=env):
self._py('symbolized %s' % name,
self.module.resource('symbolize_stack_trace.py'),
args=args,
infra_step=False)
else:
with self.m.context(env=env):
self._run(name, cmd)