scripts/build/builders/efr32.py - third_party/github/project-chip/connectedhomeip - Git at Google

 # Copyright (c) 2021 Project CHIP Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 # http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 import os
 import shlex
 import subprocess
 from enum import Enum, auto

 from .gn import GnBuilder


 class Efr32App(Enum):
     LIGHT = auto()
     LOCK = auto()
     SWITCH = auto()
     WINDOW_COVERING = auto()
     THERMOSTAT = auto()
     UNIT_TEST = auto()

     def ExampleName(self):
         if self == Efr32App.LIGHT:
             return 'lighting-app'
         elif self == Efr32App.LOCK:
             return 'lock-app'
         elif self == Efr32App.SWITCH:
             return 'light-switch-app'
         elif self == Efr32App.WINDOW_COVERING:
             return 'window-app'
         elif self == Efr32App.THERMOSTAT:
             return 'thermostat'
         else:
             raise Exception('Unknown app type: %r' % self)

     def AppNamePrefix(self):
         if self == Efr32App.LIGHT:
             return 'matter-silabs-lighting-example'
         elif self == Efr32App.LOCK:
             return 'matter-silabs-lock-example'
         elif self == Efr32App.SWITCH:
             return 'matter-silabs-light-switch-example'
         elif self == Efr32App.WINDOW_COVERING:
             return 'matter-silabs-window-example'
         elif self == Efr32App.THERMOSTAT:
             return 'matter-silabs-thermostat-example'
         elif self == Efr32App.UNIT_TEST:
             return 'matter-silabs-device_tests'
         else:
             raise Exception('Unknown app type: %r' % self)

     def FlashBundleName(self):
         if self == Efr32App.LIGHT:
             return 'lighting_app.flashbundle.txt'
         elif self == Efr32App.LOCK:
             return 'lock_app.flashbundle.txt'
         elif self == Efr32App.SWITCH:
             return 'light_switch_app.flashbundle.txt'
         elif self == Efr32App.WINDOW_COVERING:
             return 'window_app.flashbundle.txt'
         elif self == Efr32App.THERMOSTAT:
             return 'thermostat_app.flashbundle.txt'
         elif self == Efr32App.UNIT_TEST:
             return 'efr32_device_tests.flashbundle.txt'
         else:
             raise Exception('Unknown app type: %r' % self)

     def BuildRoot(self, root):
         if self == Efr32App.UNIT_TEST:
             return os.path.join(root, 'src', 'test_driver', 'efr32')
         else:
             return os.path.join(root, 'examples', self.ExampleName(), 'silabs')


 class Efr32Board(Enum):
     BRD4161A = 1
     BRD4163A = 2
     BRD4164A = 3
     BRD4166A = 4
     BRD4170A = 5
     BRD4186A = 6
     BRD4187A = 7
     BRD4304A = 8
     BRD4187C = 9
     BRD4186C = 10

     def GnArgName(self):
         if self == Efr32Board.BRD4161A:
             return 'BRD4161A'
         elif self == Efr32Board.BRD4163A:
             return 'BRD4163A'
         elif self == Efr32Board.BRD4164A:
             return 'BRD4164A'
         elif self == Efr32Board.BRD4166A:
             return 'BRD4166A'
         elif self == Efr32Board.BRD4170A:
             return 'BRD4170A'
         elif self == Efr32Board.BRD4186A:
             return 'BRD4186A'
         elif self == Efr32Board.BRD4187A:
             return 'BRD4187A'
         elif self == Efr32Board.BRD4304A:
             return 'BRD4304A'
         elif self == Efr32Board.BRD4186C:
             return 'BRD4186C'
         elif self == Efr32Board.BRD4187C:
             return 'BRD4187C'
         else:
             raise Exception('Unknown board #: %r' % self)


 class Efr32Builder(GnBuilder):

     def __init__(self,
                  root,
                  runner,
                  app: Efr32App = Efr32App.LIGHT,
                  board: Efr32Board = Efr32Board.BRD4161A,
                  chip_build_libshell: bool = False,
                  chip_logging: bool = True,
                  chip_openthread_ftd: bool = True,
                  enable_heap_monitoring: bool = False,
                  enable_openthread_cli: bool = True,
                  show_qr_code: bool = False,
                  enable_rpcs: bool = False,
                  enable_ota_requestor: bool = False,
                  enable_sed: bool = False,
                  enable_low_power: bool = False,
                  enable_wifi: bool = False,
                  enable_rs911x: bool = False,
                  enable_wf200: bool = False,
                  enable_wifi_ipv4: bool = False,
                  enable_additional_data_advertising: bool = False,
                  enable_ot_lib: bool = False,
                  enable_ot_coap_lib: bool = False,
                  no_version: bool = False
                  ):
         super(Efr32Builder, self).__init__(
             root=app.BuildRoot(root),
             runner=runner)
         self.app = app
         self.extra_gn_options = ['silabs_board="%s"' % board.GnArgName()]
         self.dotfile = ''

         if enable_rpcs:
             self.extra_gn_options.append('is_debug=false import("//with_pw_rpc.gni")')

         if enable_ota_requestor:
             self.extra_gn_options.append('chip_enable_ota_requestor=true')

         if enable_sed:
             self.extra_gn_options.append('enable_sleepy_device=true chip_openthread_ftd=false')

         if enable_low_power:
             self.extra_gn_options.append(
                 'chip_build_libshell=false enable_openthread_cli=false show_qr_code=false disable_lcd=true')

         if chip_build_libshell:
             self.extra_gn_options.append('chip_build_libshell=true')

         if chip_logging is False:
             self.extra_gn_options.append('chip_logging=false')

         if chip_openthread_ftd is False:
             self.extra_gn_options.append('chip_openthread_ftd=false')

         if enable_heap_monitoring:
             self.extra_gn_options.append('enable_heap_monitoring=true')

         if enable_openthread_cli is False:
             self.extra_gn_options.append('enable_openthread_cli=false')

         if show_qr_code:
             self.extra_gn_options.append('show_qr_code=true')

         if enable_wifi:
             self.dotfile += self.root + '/build_for_wifi_gnfile.gn'
             if board == Efr32Board.BRD4161A:
                 self.extra_gn_options.append('is_debug=false chip_logging=false')
             else:
                 self.extra_gn_options.append('disable_lcd=true use_external_flash=false')

             if enable_rs911x:
                 self.extra_gn_options.append('use_rs911x=true')
             elif enable_wf200:
                 self.extra_gn_options.append('use_wf200=true')
             else:
                 raise Exception('Wifi usage: ...-wifi-[rs911x|wf200]-...')

         if enable_wifi_ipv4:
             self.extra_gn_options.append('chip_enable_wifi_ipv4=true')

         if enable_additional_data_advertising:
             self.extra_gn_options.append('chip_enable_additional_data_advertising=true chip_enable_rotating_device_id=true')

         if enable_ot_lib:
             self.extra_gn_options.append(
                 'use_silabs_thread_lib=true chip_openthread_target="../silabs:ot-efr32-cert" openthread_external_platform=""')

         if enable_ot_coap_lib:
             self.extra_gn_options.append(
                 'use_silabs_thread_lib=true chip_openthread_target="../silabs:ot-efr32-cert" '
                 'use_thread_coap_lib=true openthread_external_platform=""')

         if not no_version:
             shortCommitSha = subprocess.check_output(
                 ['git', 'describe', '--always', '--dirty', '--exclude', '*']).decode('ascii').strip()
             branchName = subprocess.check_output(['git', 'rev-parse', '--abbrev-ref', 'HEAD']).decode('ascii').strip()
             self.extra_gn_options.append(
                 'sl_matter_version_str="v1.1-%s-%s"' % (branchName, shortCommitSha))

         if "GSDK_ROOT" in os.environ:
             # EFR32 SDK is very large. If the SDK path is already known (the
             # case for pre-installed images), use it directly.
             sdk_path = shlex.quote(os.environ['GSDK_ROOT'])
             self.extra_gn_options.append(f"efr32_sdk_root=\"{sdk_path}\"")
             self.extra_gn_options.append(f"openthread_root=\"{sdk_path}/util/third_party/openthread\"")

     def GnBuildArgs(self):
         return self.extra_gn_options

     def build_outputs(self):
         items = {}
         for extension in ["out", "out.map", "hex"]:
             name = '%s.%s' % (self.app.AppNamePrefix(), extension)
             items[name] = os.path.join(self.output_dir, name)

         if self.app == Efr32App.UNIT_TEST:
             # Include test runner python wheels
             for root, dirs, files in os.walk(os.path.join(self.output_dir, 'chip_nl_test_runner_wheels')):
                 for file in files:
                     items["chip_nl_test_runner_wheels/" +
                           file] = os.path.join(root, file)

         # Figure out flash bundle files and build accordingly
         with open(os.path.join(self.output_dir, self.app.FlashBundleName())) as f:
             for line in f.readlines():
                 name = line.strip()
                 items['flashbundle/%s' %
                       name] = os.path.join(self.output_dir, name)

         return items

     def generate(self):
         cmd = [
             'gn', 'gen', '--check', '--fail-on-unused-args',
             '--export-compile-commands',
             '--root=%s' % self.root
         ]
         if self.dotfile:
             cmd += ['--dotfile=%s' % self.dotfile]

         extra_args = self.GnBuildArgs()

         if self.options.pw_command_launcher:
             extra_args.append('pw_command_launcher="%s"' % self.options.pw_command_launcher)

         if self.options.pregen_dir:
             extra_args.append('chip_code_pre_generated_directory="%s"' % self.options.pregen_dir)

         if extra_args:
             cmd += ['--args=%s' % ' '.join(extra_args)]

         cmd += [self.output_dir]

         title = 'Generating ' + self.identifier
         extra_env = self.GnBuildEnv()

         if extra_env:
             # convert the command into a bash command that includes
             # setting environment variables
             cmd = [
                 'bash', '-c', '\n' + ' '.join(
                     ['%s="%s" \\\n' % (key, value) for key, value in extra_env.items()] +
                     [shlex.join(cmd)]
                 )
             ]

         self._Execute(cmd, title=title)
	# Copyright (c) 2021 Project CHIP Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import os
	import shlex
	import subprocess
	from enum import Enum, auto

	from .gn import GnBuilder


	class Efr32App(Enum):
	LIGHT = auto()
	LOCK = auto()
	SWITCH = auto()
	WINDOW_COVERING = auto()
	THERMOSTAT = auto()
	UNIT_TEST = auto()

	def ExampleName(self):
	if self == Efr32App.LIGHT:
	return 'lighting-app'
	elif self == Efr32App.LOCK:
	return 'lock-app'
	elif self == Efr32App.SWITCH:
	return 'light-switch-app'
	elif self == Efr32App.WINDOW_COVERING:
	return 'window-app'
	elif self == Efr32App.THERMOSTAT:
	return 'thermostat'
	else:
	raise Exception('Unknown app type: %r' % self)

	def AppNamePrefix(self):
	if self == Efr32App.LIGHT:
	return 'matter-silabs-lighting-example'
	elif self == Efr32App.LOCK:
	return 'matter-silabs-lock-example'
	elif self == Efr32App.SWITCH:
	return 'matter-silabs-light-switch-example'
	elif self == Efr32App.WINDOW_COVERING:
	return 'matter-silabs-window-example'
	elif self == Efr32App.THERMOSTAT:
	return 'matter-silabs-thermostat-example'
	elif self == Efr32App.UNIT_TEST:
	return 'matter-silabs-device_tests'
	else:
	raise Exception('Unknown app type: %r' % self)

	def FlashBundleName(self):
	if self == Efr32App.LIGHT:
	return 'lighting_app.flashbundle.txt'
	elif self == Efr32App.LOCK:
	return 'lock_app.flashbundle.txt'
	elif self == Efr32App.SWITCH:
	return 'light_switch_app.flashbundle.txt'
	elif self == Efr32App.WINDOW_COVERING:
	return 'window_app.flashbundle.txt'
	elif self == Efr32App.THERMOSTAT:
	return 'thermostat_app.flashbundle.txt'
	elif self == Efr32App.UNIT_TEST:
	return 'efr32_device_tests.flashbundle.txt'
	else:
	raise Exception('Unknown app type: %r' % self)

	def BuildRoot(self, root):
	if self == Efr32App.UNIT_TEST:
	return os.path.join(root, 'src', 'test_driver', 'efr32')
	else:
	return os.path.join(root, 'examples', self.ExampleName(), 'silabs')


	class Efr32Board(Enum):
	BRD4161A = 1
	BRD4163A = 2
	BRD4164A = 3
	BRD4166A = 4
	BRD4170A = 5
	BRD4186A = 6
	BRD4187A = 7
	BRD4304A = 8
	BRD4187C = 9
	BRD4186C = 10

	def GnArgName(self):
	if self == Efr32Board.BRD4161A:
	return 'BRD4161A'
	elif self == Efr32Board.BRD4163A:
	return 'BRD4163A'
	elif self == Efr32Board.BRD4164A:
	return 'BRD4164A'
	elif self == Efr32Board.BRD4166A:
	return 'BRD4166A'
	elif self == Efr32Board.BRD4170A:
	return 'BRD4170A'
	elif self == Efr32Board.BRD4186A:
	return 'BRD4186A'
	elif self == Efr32Board.BRD4187A:
	return 'BRD4187A'
	elif self == Efr32Board.BRD4304A:
	return 'BRD4304A'
	elif self == Efr32Board.BRD4186C:
	return 'BRD4186C'
	elif self == Efr32Board.BRD4187C:
	return 'BRD4187C'
	else:
	raise Exception('Unknown board #: %r' % self)


	class Efr32Builder(GnBuilder):

	def __init__(self,
	root,
	runner,
	app: Efr32App = Efr32App.LIGHT,
	board: Efr32Board = Efr32Board.BRD4161A,
	chip_build_libshell: bool = False,
	chip_logging: bool = True,
	chip_openthread_ftd: bool = True,
	enable_heap_monitoring: bool = False,
	enable_openthread_cli: bool = True,
	show_qr_code: bool = False,
	enable_rpcs: bool = False,
	enable_ota_requestor: bool = False,
	enable_sed: bool = False,
	enable_low_power: bool = False,
	enable_wifi: bool = False,
	enable_rs911x: bool = False,
	enable_wf200: bool = False,
	enable_wifi_ipv4: bool = False,
	enable_additional_data_advertising: bool = False,
	enable_ot_lib: bool = False,
	enable_ot_coap_lib: bool = False,
	no_version: bool = False
	):
	super(Efr32Builder, self).__init__(
	root=app.BuildRoot(root),
	runner=runner)
	self.app = app
	self.extra_gn_options = ['silabs_board="%s"' % board.GnArgName()]
	self.dotfile = ''

	if enable_rpcs:
	self.extra_gn_options.append('is_debug=false import("//with_pw_rpc.gni")')

	if enable_ota_requestor:
	self.extra_gn_options.append('chip_enable_ota_requestor=true')

	if enable_sed:
	self.extra_gn_options.append('enable_sleepy_device=true chip_openthread_ftd=false')

	if enable_low_power:
	self.extra_gn_options.append(
	'chip_build_libshell=false enable_openthread_cli=false show_qr_code=false disable_lcd=true')

	if chip_build_libshell:
	self.extra_gn_options.append('chip_build_libshell=true')

	if chip_logging is False:
	self.extra_gn_options.append('chip_logging=false')

	if chip_openthread_ftd is False:
	self.extra_gn_options.append('chip_openthread_ftd=false')

	if enable_heap_monitoring:
	self.extra_gn_options.append('enable_heap_monitoring=true')

	if enable_openthread_cli is False:
	self.extra_gn_options.append('enable_openthread_cli=false')

	if show_qr_code:
	self.extra_gn_options.append('show_qr_code=true')

	if enable_wifi:
	self.dotfile += self.root + '/build_for_wifi_gnfile.gn'
	if board == Efr32Board.BRD4161A:
	self.extra_gn_options.append('is_debug=false chip_logging=false')
	else:
	self.extra_gn_options.append('disable_lcd=true use_external_flash=false')

	if enable_rs911x:
	self.extra_gn_options.append('use_rs911x=true')
	elif enable_wf200:
	self.extra_gn_options.append('use_wf200=true')
	else:
	raise Exception('Wifi usage: ...-wifi-[rs911x\|wf200]-...')

	if enable_wifi_ipv4:
	self.extra_gn_options.append('chip_enable_wifi_ipv4=true')

	if enable_additional_data_advertising:
	self.extra_gn_options.append('chip_enable_additional_data_advertising=true chip_enable_rotating_device_id=true')

	if enable_ot_lib:
	self.extra_gn_options.append(
	'use_silabs_thread_lib=true chip_openthread_target="../silabs:ot-efr32-cert" openthread_external_platform=""')

	if enable_ot_coap_lib:
	self.extra_gn_options.append(
	'use_silabs_thread_lib=true chip_openthread_target="../silabs:ot-efr32-cert" '
	'use_thread_coap_lib=true openthread_external_platform=""')

	if not no_version:
	shortCommitSha = subprocess.check_output(
	['git', 'describe', '--always', '--dirty', '--exclude', '*']).decode('ascii').strip()
	branchName = subprocess.check_output(['git', 'rev-parse', '--abbrev-ref', 'HEAD']).decode('ascii').strip()
	self.extra_gn_options.append(
	'sl_matter_version_str="v1.1-%s-%s"' % (branchName, shortCommitSha))

	if "GSDK_ROOT" in os.environ:
	# EFR32 SDK is very large. If the SDK path is already known (the
	# case for pre-installed images), use it directly.
	sdk_path = shlex.quote(os.environ['GSDK_ROOT'])
	self.extra_gn_options.append(f"efr32_sdk_root=\"{sdk_path}\"")
	self.extra_gn_options.append(f"openthread_root=\"{sdk_path}/util/third_party/openthread\"")

	def GnBuildArgs(self):
	return self.extra_gn_options

	def build_outputs(self):
	items = {}
	for extension in ["out", "out.map", "hex"]:
	name = '%s.%s' % (self.app.AppNamePrefix(), extension)
	items[name] = os.path.join(self.output_dir, name)

	if self.app == Efr32App.UNIT_TEST:
	# Include test runner python wheels
	for root, dirs, files in os.walk(os.path.join(self.output_dir, 'chip_nl_test_runner_wheels')):
	for file in files:
	items["chip_nl_test_runner_wheels/" +
	file] = os.path.join(root, file)

	# Figure out flash bundle files and build accordingly
	with open(os.path.join(self.output_dir, self.app.FlashBundleName())) as f:
	for line in f.readlines():
	name = line.strip()
	items['flashbundle/%s' %
	name] = os.path.join(self.output_dir, name)

	return items

	def generate(self):
	cmd = [
	'gn', 'gen', '--check', '--fail-on-unused-args',
	'--export-compile-commands',
	'--root=%s' % self.root
	]
	if self.dotfile:
	cmd += ['--dotfile=%s' % self.dotfile]

	extra_args = self.GnBuildArgs()

	if self.options.pw_command_launcher:
	extra_args.append('pw_command_launcher="%s"' % self.options.pw_command_launcher)

	if self.options.pregen_dir:
	extra_args.append('chip_code_pre_generated_directory="%s"' % self.options.pregen_dir)

	if extra_args:
	cmd += ['--args=%s' % ' '.join(extra_args)]

	cmd += [self.output_dir]

	title = 'Generating ' + self.identifier
	extra_env = self.GnBuildEnv()

	if extra_env:
	# convert the command into a bash command that includes
	# setting environment variables
	cmd = [
	'bash', '-c', '\n' + ' '.join(
	['%s="%s" \\\n' % (key, value) for key, value in extra_env.items()] +
	[shlex.join(cmd)]
	)
	]

	self._Execute(cmd, title=title)