infra/bots/recipe_modules/flavor/default.py - skia - Git at Google

 # Copyright 2014 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.


 # pylint: disable=W0201


 """Default flavor, used for running code on desktop machines."""


 import collections


 WIN_TOOLCHAIN_DIR = 't'


 # Notes:
 #   dm_dir: Where DM writes.
 #   skp_dir: Holds SKP files that are consumed by RenderSKPs and BenchPictures.
 DeviceDirs = collections.namedtuple(
     'DeviceDirs', ['bin_dir', 'dm_dir', 'perf_data_dir', 'resource_dir', 'images_dir',
                    'lotties_dir', 'skp_dir', 'svg_dir', 'mskp_dir', 'tmp_dir', 'texttraces_dir'])


 class DefaultFlavor(object):
   def __init__(self, module, app_name):
     # Name of the app we're going to run. May be used in various ways by
     # different flavors.
     self.app_name = app_name

     # Store a pointer to the parent recipe module (SkiaFlavorApi) so that
     # FlavorUtils objects can do recipe module-like things, like run steps or
     # access module-level resources.
     self.module = module

     # self.m is just a shortcut so that Flavor objects can use the same
     # syntax as regular recipe modules to run steps, eg: self.m.step(...)
     self.m = module.m
     self._chrome_path = None
     self.device_dirs = DeviceDirs(
         bin_dir=self.m.vars.build_dir,
         dm_dir=self.m.vars.swarming_out_dir,
         perf_data_dir=self.m.vars.swarming_out_dir,
         resource_dir=self.m.path['start_dir'].join('skia', 'resources'),
         images_dir=self.m.path['start_dir'].join('skimage'),
         lotties_dir=self.m.path['start_dir'].join('lottie-samples'),
         skp_dir=self.m.path['start_dir'].join('skp'),
         svg_dir=self.m.path['start_dir'].join('svg'),
         mskp_dir=self.m.path['start_dir'].join('mskp'),
         tmp_dir=self.m.vars.tmp_dir,
         texttraces_dir=self.m.path['start_dir'].join('text_blob_traces'))
     self.host_dirs = self.device_dirs

   def device_path_join(self, *args):
     """Like os.path.join(), but for paths on a connected device."""
     return self.m.path.join(*args)

   def copy_directory_contents_to_device(self, host_dir, device_dir):
     """Like shutil.copytree(), but for copying to a connected device."""
     # For "normal" builders who don't have an attached device, we expect
     # host_dir and device_dir to be the same.
     if str(host_dir) != str(device_dir):
       raise ValueError('For builders who do not have attached devices, copying '
                        'from host to device is undefined and only allowed if '
                        'host_path and device_path are the same (%s vs %s).' % (
                        str(host_dir), str(device_dir)))

   def copy_directory_contents_to_host(self, device_dir, host_dir):
     """Like shutil.copytree(), but for copying from a connected device."""
     # For "normal" builders who don't have an attached device, we expect
     # host_dir and device_dir to be the same.
     if str(host_dir) != str(device_dir):
       raise ValueError('For builders who do not have attached devices, copying '
                        'from device to host is undefined and only allowed if '
                        'host_path and device_path are the same (%s vs %s).' % (
                        str(host_dir), str(device_dir)))

   def copy_file_to_device(self, host_path, device_path):
     """Like shutil.copyfile, but for copying to a connected device."""
     # For "normal" builders who don't have an attached device, we expect
     # host_dir and device_dir to be the same.
     if str(host_path) != str(device_path):
       raise ValueError('For builders who do not have attached devices, copying '
                        'from host to device is undefined and only allowed if '
                        'host_path and device_path are the same (%s vs %s).' % (
                        str(host_path), str(device_path)))

   def create_clean_device_dir(self, path):
     """Like shutil.rmtree() + os.makedirs(), but on a connected device."""
     self.create_clean_host_dir(path)

   def create_clean_host_dir(self, path):
     """Convenience function for creating a clean directory."""
     self.m.run.rmtree(path)
     self.m.file.ensure_directory(
         'makedirs %s' % self.m.path.basename(path), path)

   def read_file_on_device(self, path, **kwargs):
     """Reads the specified file."""
     return self.m.file.read_text('read %s' % path, path)

   def remove_file_on_device(self, path):
     """Removes the specified file."""
     return self.m.file.remove('remove %s' % path, path)

   def install(self):
     """Run device-specific installation steps."""
     pass

   def cleanup_steps(self):
     """Run any device-specific cleanup steps."""
     pass

   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 step(self, name, cmd, **unused_kwargs):
     app = self.device_dirs.bin_dir.join(cmd[0])
     cmd = [app] + cmd[1:]
     env = self.m.context.env
     path = []
     ld_library_path = []

     workdir = self.m.vars.workdir
     clang_linux = workdir.join('clang_linux')
     extra_tokens = self.m.vars.extra_tokens

     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', '')):
         dri_path = workdir.join('mesa_intel_driver_linux')
         if ('IntelIrisXe' in self.m.vars.builder_cfg.get('cpu_or_gpu_value', '')):
           dri_path = workdir.join('mesa_intel_driver_linux_22')
         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_tokens:
         env['VULKAN_SDK'] = str(workdir.join('linux_vulkan_sdk'))
         path.append(workdir.join('linux_vulkan_sdk', 'bin'))
         ld_library_path.append(workdir.join('linux_vulkan_sdk', 'lib'))
         # Enable layers for Debug only to avoid affecting perf results on
         # Release.
         # ASAN reports leaks in the Vulkan SDK when the debug layer is enabled.
         # TSAN runs out of memory.
         if (self.m.vars.builder_cfg.get('configuration', '') != 'Release' and
             'ASAN' not in extra_tokens and
             'TSAN' not in extra_tokens):
           env['VK_LAYER_PATH'] = str(workdir.join(
               'linux_vulkan_sdk', 'etc', 'vulkan', 'explicit_layer.d'))

     if 'SwiftShader' in extra_tokens:
       ld_library_path.append(self.host_dirs.bin_dir.join('swiftshader_out'))

     # Find the MSAN/TSAN-built libc++.
     if 'MSAN' in extra_tokens:
       ld_library_path.append(clang_linux.join('msan'))
     elif 'TSAN' in extra_tokens:
       ld_library_path.append(clang_linux.join('tsan'))

     if any('SAN' in t for t in extra_tokens):
       # Sanitized binaries may want to run clang_linux/bin/llvm-symbolizer.
       path.append(clang_linux.join('bin'))
       # We find that testing sanitizer builds with libc++ uncovers more issues
       # than with the system-provided C++ standard library, which is usually
       # libstdc++. libc++ proactively hooks into sanitizers to help their
       # analyses. We ship a copy of libc++ with our Linux toolchain in /lib.
       ld_library_path.append(clang_linux.join('lib', 'x86_64-unknown-linux-gnu'))

     if 'ASAN' in extra_tokens:
       os = self.m.vars.builder_cfg.get('os', '')
       if 'Mac' in os or 'Win' in os:
         # Mac and Win don't support detect_leaks.
         env['ASAN_OPTIONS'] = 'symbolize=1'
       else:
         env['ASAN_OPTIONS'] = 'symbolize=1 detect_leaks=1'
         env['ASAN_SYMBOLIZER_PATH'] = clang_linux.join('bin', 'llvm-symbolizer')
       env[ 'LSAN_OPTIONS'] = 'symbolize=1 print_suppressions=1'
       env['UBSAN_OPTIONS'] = 'symbolize=1 print_stacktrace=1'

       # If you see <unknown module> in stacktraces, try fast_unwind_on_malloc=0.
       # This may cause a 2-25x slowdown, so use it only when you really need it.
       if name == 'dm' and 'Vulkan' in extra_tokens:
         env['ASAN_OPTIONS'] += ' fast_unwind_on_malloc=0'
         env['LSAN_OPTIONS'] += ' fast_unwind_on_malloc=0'

     if 'TSAN' in extra_tokens:
       # 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' in extra_tokens:
       # 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.
       profname = '%s.profraw' % self.m.vars.builder_cfg.get('test_filter','o')
       env['LLVM_PROFILE_FILE'] = self.m.path.join(self.m.vars.swarming_out_dir,
                                                   profname)

     if path:
       env['PATH'] = self.m.path.pathsep.join(
           ['%(PATH)s'] + ['%s' % p for p in path])
     if ld_library_path:
       env['LD_LIBRARY_PATH'] = self.m.path.pathsep.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 = [workdir] + [str(x) for x in cmd]
       with self.m.context(cwd=self.m.path['start_dir'].join('skia'), env=env):
         self._py('symbolized %s' % name,
                  self.module.resource('symbolize_stack_trace.py'),
                  args=args,
                  infra_step=False)
     elif 'Win' in self.m.vars.builder_cfg.get('os', ''):
       with self.m.context(env=env):
         wrapped_cmd = ['powershell', '-ExecutionPolicy', 'Unrestricted',
                        '-File',
                        self.module.resource('win_run_and_check_log.ps1')] + cmd
         self._run(name, wrapped_cmd)
     else:
       with self.m.context(env=env):
         self._run(name, cmd)
	# Copyright 2014 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.


	# pylint: disable=W0201


	"""Default flavor, used for running code on desktop machines."""


	import collections


	WIN_TOOLCHAIN_DIR = 't'


	# Notes:
	# dm_dir: Where DM writes.
	# skp_dir: Holds SKP files that are consumed by RenderSKPs and BenchPictures.
	DeviceDirs = collections.namedtuple(
	'DeviceDirs', ['bin_dir', 'dm_dir', 'perf_data_dir', 'resource_dir', 'images_dir',
	'lotties_dir', 'skp_dir', 'svg_dir', 'mskp_dir', 'tmp_dir', 'texttraces_dir'])


	class DefaultFlavor(object):
	def __init__(self, module, app_name):
	# Name of the app we're going to run. May be used in various ways by
	# different flavors.
	self.app_name = app_name

	# Store a pointer to the parent recipe module (SkiaFlavorApi) so that
	# FlavorUtils objects can do recipe module-like things, like run steps or
	# access module-level resources.
	self.module = module

	# self.m is just a shortcut so that Flavor objects can use the same
	# syntax as regular recipe modules to run steps, eg: self.m.step(...)
	self.m = module.m
	self._chrome_path = None
	self.device_dirs = DeviceDirs(
	bin_dir=self.m.vars.build_dir,
	dm_dir=self.m.vars.swarming_out_dir,
	perf_data_dir=self.m.vars.swarming_out_dir,
	resource_dir=self.m.path['start_dir'].join('skia', 'resources'),
	images_dir=self.m.path['start_dir'].join('skimage'),
	lotties_dir=self.m.path['start_dir'].join('lottie-samples'),
	skp_dir=self.m.path['start_dir'].join('skp'),
	svg_dir=self.m.path['start_dir'].join('svg'),
	mskp_dir=self.m.path['start_dir'].join('mskp'),
	tmp_dir=self.m.vars.tmp_dir,
	texttraces_dir=self.m.path['start_dir'].join('text_blob_traces'))
	self.host_dirs = self.device_dirs

	def device_path_join(self, *args):
	"""Like os.path.join(), but for paths on a connected device."""
	return self.m.path.join(*args)

	def copy_directory_contents_to_device(self, host_dir, device_dir):
	"""Like shutil.copytree(), but for copying to a connected device."""
	# For "normal" builders who don't have an attached device, we expect
	# host_dir and device_dir to be the same.
	if str(host_dir) != str(device_dir):
	raise ValueError('For builders who do not have attached devices, copying '
	'from host to device is undefined and only allowed if '
	'host_path and device_path are the same (%s vs %s).' % (
	str(host_dir), str(device_dir)))

	def copy_directory_contents_to_host(self, device_dir, host_dir):
	"""Like shutil.copytree(), but for copying from a connected device."""
	# For "normal" builders who don't have an attached device, we expect
	# host_dir and device_dir to be the same.
	if str(host_dir) != str(device_dir):
	raise ValueError('For builders who do not have attached devices, copying '
	'from device to host is undefined and only allowed if '
	'host_path and device_path are the same (%s vs %s).' % (
	str(host_dir), str(device_dir)))

	def copy_file_to_device(self, host_path, device_path):
	"""Like shutil.copyfile, but for copying to a connected device."""
	# For "normal" builders who don't have an attached device, we expect
	# host_dir and device_dir to be the same.
	if str(host_path) != str(device_path):
	raise ValueError('For builders who do not have attached devices, copying '
	'from host to device is undefined and only allowed if '
	'host_path and device_path are the same (%s vs %s).' % (
	str(host_path), str(device_path)))

	def create_clean_device_dir(self, path):
	"""Like shutil.rmtree() + os.makedirs(), but on a connected device."""
	self.create_clean_host_dir(path)

	def create_clean_host_dir(self, path):
	"""Convenience function for creating a clean directory."""
	self.m.run.rmtree(path)
	self.m.file.ensure_directory(
	'makedirs %s' % self.m.path.basename(path), path)

	def read_file_on_device(self, path, **kwargs):
	"""Reads the specified file."""
	return self.m.file.read_text('read %s' % path, path)

	def remove_file_on_device(self, path):
	"""Removes the specified file."""
	return self.m.file.remove('remove %s' % path, path)

	def install(self):
	"""Run device-specific installation steps."""
	pass

	def cleanup_steps(self):
	"""Run any device-specific cleanup steps."""
	pass

	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 step(self, name, cmd, **unused_kwargs):
	app = self.device_dirs.bin_dir.join(cmd[0])
	cmd = [app] + cmd[1:]
	env = self.m.context.env
	path = []
	ld_library_path = []

	workdir = self.m.vars.workdir
	clang_linux = workdir.join('clang_linux')
	extra_tokens = self.m.vars.extra_tokens

	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', '')):
	dri_path = workdir.join('mesa_intel_driver_linux')
	if ('IntelIrisXe' in self.m.vars.builder_cfg.get('cpu_or_gpu_value', '')):
	dri_path = workdir.join('mesa_intel_driver_linux_22')
	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_tokens:
	env['VULKAN_SDK'] = str(workdir.join('linux_vulkan_sdk'))
	path.append(workdir.join('linux_vulkan_sdk', 'bin'))
	ld_library_path.append(workdir.join('linux_vulkan_sdk', 'lib'))
	# Enable layers for Debug only to avoid affecting perf results on
	# Release.
	# ASAN reports leaks in the Vulkan SDK when the debug layer is enabled.
	# TSAN runs out of memory.
	if (self.m.vars.builder_cfg.get('configuration', '') != 'Release' and
	'ASAN' not in extra_tokens and
	'TSAN' not in extra_tokens):
	env['VK_LAYER_PATH'] = str(workdir.join(
	'linux_vulkan_sdk', 'etc', 'vulkan', 'explicit_layer.d'))

	if 'SwiftShader' in extra_tokens:
	ld_library_path.append(self.host_dirs.bin_dir.join('swiftshader_out'))

	# Find the MSAN/TSAN-built libc++.
	if 'MSAN' in extra_tokens:
	ld_library_path.append(clang_linux.join('msan'))
	elif 'TSAN' in extra_tokens:
	ld_library_path.append(clang_linux.join('tsan'))

	if any('SAN' in t for t in extra_tokens):
	# Sanitized binaries may want to run clang_linux/bin/llvm-symbolizer.
	path.append(clang_linux.join('bin'))
	# We find that testing sanitizer builds with libc++ uncovers more issues
	# than with the system-provided C++ standard library, which is usually
	# libstdc++. libc++ proactively hooks into sanitizers to help their
	# analyses. We ship a copy of libc++ with our Linux toolchain in /lib.
	ld_library_path.append(clang_linux.join('lib', 'x86_64-unknown-linux-gnu'))

	if 'ASAN' in extra_tokens:
	os = self.m.vars.builder_cfg.get('os', '')
	if 'Mac' in os or 'Win' in os:
	# Mac and Win don't support detect_leaks.
	env['ASAN_OPTIONS'] = 'symbolize=1'
	else:
	env['ASAN_OPTIONS'] = 'symbolize=1 detect_leaks=1'
	env['ASAN_SYMBOLIZER_PATH'] = clang_linux.join('bin', 'llvm-symbolizer')
	env[ 'LSAN_OPTIONS'] = 'symbolize=1 print_suppressions=1'
	env['UBSAN_OPTIONS'] = 'symbolize=1 print_stacktrace=1'

	# If you see <unknown module> in stacktraces, try fast_unwind_on_malloc=0.
	# This may cause a 2-25x slowdown, so use it only when you really need it.
	if name == 'dm' and 'Vulkan' in extra_tokens:
	env['ASAN_OPTIONS'] += ' fast_unwind_on_malloc=0'
	env['LSAN_OPTIONS'] += ' fast_unwind_on_malloc=0'

	if 'TSAN' in extra_tokens:
	# 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' in extra_tokens:
	# 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.
	profname = '%s.profraw' % self.m.vars.builder_cfg.get('test_filter','o')
	env['LLVM_PROFILE_FILE'] = self.m.path.join(self.m.vars.swarming_out_dir,
	profname)

	if path:
	env['PATH'] = self.m.path.pathsep.join(
	['%(PATH)s'] + ['%s' % p for p in path])
	if ld_library_path:
	env['LD_LIBRARY_PATH'] = self.m.path.pathsep.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 = [workdir] + [str(x) for x in cmd]
	with self.m.context(cwd=self.m.path['start_dir'].join('skia'), env=env):
	self._py('symbolized %s' % name,
	self.module.resource('symbolize_stack_trace.py'),
	args=args,
	infra_step=False)
	elif 'Win' in self.m.vars.builder_cfg.get('os', ''):
	with self.m.context(env=env):
	wrapped_cmd = ['powershell', '-ExecutionPolicy', 'Unrestricted',
	'-File',
	self.module.resource('win_run_and_check_log.ps1')] + cmd
	self._run(name, wrapped_cmd)
	else:
	with self.m.context(env=env):
	self._run(name, cmd)