scripts/list_hardware.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/usr/bin/env python3

 # Copyright (c) 2023 Nordic Semiconductor ASA
 # SPDX-License-Identifier: Apache-2.0

 import argparse
 from dataclasses import dataclass
 from pathlib import Path, PurePath
 import pykwalify.core
 import sys
 from typing import List
 import yaml
 import re

 try:
     from yaml import CSafeLoader as SafeLoader
 except ImportError:
     from yaml import SafeLoader


 SOC_SCHEMA_PATH = str(Path(__file__).parent / 'schemas' / 'soc-schema.yml')
 with open(SOC_SCHEMA_PATH, 'r') as f:
     soc_schema = yaml.load(f.read(), Loader=SafeLoader)

 ARCH_SCHEMA_PATH = str(Path(__file__).parent / 'schemas' / 'arch-schema.yml')
 with open(ARCH_SCHEMA_PATH, 'r') as f:
     arch_schema = yaml.load(f.read(), Loader=SafeLoader)

 SOC_YML = 'soc.yml'
 ARCHS_YML_PATH = PurePath('arch/archs.yml')

 class Systems:

     def __init__(self, folder='', soc_yaml=None):
         self._socs = []
         self._series = []
         self._families = []
         self._extended_socs = []

         if soc_yaml is None:
             return

         try:
             data = yaml.load(soc_yaml, Loader=SafeLoader)
             pykwalify.core.Core(source_data=data,
                                 schema_data=soc_schema).validate()
         except (yaml.YAMLError, pykwalify.errors.SchemaError) as e:
             sys.exit(f'ERROR: Malformed yaml {soc_yaml.as_posix()}', e)

         for f in data.get('family', []):
             family = Family(f['name'], [folder], [], [])
             for s in f.get('series', []):
                 series = Series(s['name'], [folder], f['name'], [])
                 socs = [(Soc(soc['name'],
                              [c['name'] for c in soc.get('cpuclusters', [])],
                              [folder], s['name'], f['name']))
                         for soc in s.get('socs', [])]
                 series.socs.extend(socs)
                 self._series.append(series)
                 self._socs.extend(socs)
                 family.series.append(series)
                 family.socs.extend(socs)
             socs = [(Soc(soc['name'],
                          [c['name'] for c in soc.get('cpuclusters', [])],
                          [folder], None, f['name']))
                     for soc in f.get('socs', [])]
             self._socs.extend(socs)
             self._families.append(family)

         for s in data.get('series', []):
             series = Series(s['name'], [folder], '', [])
             socs = [(Soc(soc['name'],
                          [c['name'] for c in soc.get('cpuclusters', [])],
                          [folder], s['name'], ''))
                     for soc in s.get('socs', [])]
             series.socs.extend(socs)
             self._series.append(series)
             self._socs.extend(socs)

         for soc in data.get('socs', []):
             mutual_exclusive = {'name', 'extend'}
             if len(mutual_exclusive - soc.keys()) < 1:
                 sys.exit(f'ERROR: Malformed content in SoC file: {soc_yaml}\n'
                          f'{mutual_exclusive} are mutual exclusive at this level.')
             if soc.get('name') is not None:
                 self._socs.append(Soc(soc['name'], [c['name'] for c in soc.get('cpuclusters', [])],
                                   [folder], '', ''))
             elif soc.get('extend') is not None:
                 self._extended_socs.append(Soc(soc['extend'],
                                            [c['name'] for c in soc.get('cpuclusters', [])],
                                            [folder], '', ''))
             else:
                 sys.exit(f'ERROR: Malformed "socs" section in SoC file: {soc_yaml}\n'
                          f'Cannot find one of required keys {mutual_exclusive}.')

         # Ensure that any runner configuration matches socs and cpuclusters declared in the same
         # soc.yml file
         if 'runners' in data and 'run_once' in data['runners']:
             for grp in data['runners']['run_once']:
                 for item_data in data['runners']['run_once'][grp]:
                     for group in item_data['groups']:
                         for qualifiers in group['qualifiers']:
                             soc_name = qualifiers.split('/')[0]
                             found_match = False

                             for soc in self._socs + self._extended_socs:
                                 if re.match(fr'^{soc_name}$', soc.name) is not None:
                                     found_match = True
                                     break

                             if found_match is False:
                                 sys.exit(f'ERROR: SoC qualifier match unresolved: {qualifiers}')

     @staticmethod
     def from_file(socs_file):
         '''Load SoCs from a soc.yml file.
         '''
         try:
             with open(socs_file, 'r') as f:
                 socs_yaml = f.read()
         except FileNotFoundError as e:
             sys.exit(f'ERROR: socs.yml file not found: {socs_file.as_posix()}', e)

         return Systems(str(socs_file.parent), socs_yaml)

     @staticmethod
     def from_yaml(socs_yaml):
         '''Load socs from a string with YAML contents.
         '''
         return Systems('', socs_yaml)

     def extend(self, systems):
         self._families.extend(systems.get_families())
         self._series.extend(systems.get_series())

         for es in self._extended_socs[:]:
             for s in systems.get_socs():
                 if s.name == es.name:
                     s.extend(es)
                     self._extended_socs.remove(es)
                     break
         self._socs.extend(systems.get_socs())

         for es in systems.get_extended_socs():
             for s in self._socs:
                 if s.name == es.name:
                     s.extend(es)
                     break
             else:
                 self._extended_socs.append(es)

     def get_families(self):
         return self._families

     def get_series(self):
         return self._series

     def get_socs(self):
         return self._socs

     def get_extended_socs(self):
         return self._extended_socs

     def get_soc(self, name):
         try:
             return next(s for s in self._socs if s.name == name)
         except StopIteration:
             sys.exit(f"ERROR: SoC '{name}' is not found, please ensure that the SoC exists "
                      f"and that soc-root containing '{name}' has been correctly defined.")


 @dataclass
 class Soc:
     name: str
     cpuclusters: List[str]
     folder: List[str]
     series: str = ''
     family: str = ''

     def extend(self, soc):
         if self.name == soc.name:
             self.cpuclusters.extend(soc.cpuclusters)
             self.folder.extend(soc.folder)


 @dataclass
 class Series:
     name: str
     folder: List[str]
     family: str
     socs: List[Soc]


 @dataclass
 class Family:
     name: str
     folder: List[str]
     series: List[Series]
     socs: List[Soc]


 def unique_paths(paths):
     # Using dict keys ensures both uniqueness and a deterministic order.
     yield from dict.fromkeys(map(Path.resolve, paths)).keys()


 def find_v2_archs(args):
     ret = {'archs': []}
     for root in unique_paths(args.arch_roots):
         archs_yml = root / ARCHS_YML_PATH

         if Path(archs_yml).is_file():
             with Path(archs_yml).open('r', encoding='utf-8') as f:
                 archs = yaml.load(f.read(), Loader=SafeLoader)

             try:
                 pykwalify.core.Core(source_data=archs, schema_data=arch_schema).validate()
             except pykwalify.errors.SchemaError as e:
                 sys.exit('ERROR: Malformed "build" section in file: {}\n{}'
                          .format(archs_yml.as_posix(), e))

             if args.arch is not None:
                 archs = {'archs': list(filter(
                     lambda arch: arch.get('name') == args.arch, archs['archs']))}
             for arch in archs['archs']:
                 arch.update({'path': root / 'arch' / arch['path']})
                 arch.update({'hwm': 'v2'})
                 arch.update({'type': 'arch'})

             ret['archs'].extend(archs['archs'])

     return ret


 def find_v2_systems(args):
     yml_files = []
     systems = Systems()
     for root in unique_paths(args.soc_roots):
         yml_files.extend(sorted((root / 'soc').rglob(SOC_YML)))

     for soc_yml in yml_files:
         if soc_yml.is_file():
             systems.extend(Systems.from_file(soc_yml))

     return systems


 def parse_args():
     parser = argparse.ArgumentParser(allow_abbrev=False)
     add_args(parser)
     return parser.parse_args()


 def add_args(parser):
     default_fmt = '{name}'

     parser.add_argument("--soc-root", dest='soc_roots', default=[],
                         type=Path, action='append',
                         help='add a SoC root, may be given more than once')
     parser.add_argument("--soc", default=None, help='lookup the specific soc')
     parser.add_argument("--soc-series", default=None, help='lookup the specific soc series')
     parser.add_argument("--soc-family", default=None, help='lookup the specific family')
     parser.add_argument("--socs", action='store_true', help='lookup all socs')
     parser.add_argument("--arch-root", dest='arch_roots', default=[],
                         type=Path, action='append',
                         help='add a arch root, may be given more than once')
     parser.add_argument("--arch", default=None, help='lookup the specific arch')
     parser.add_argument("--archs", action='store_true', help='lookup all archs')
     parser.add_argument("--format", default=default_fmt,
                         help='''Format string to use to list each soc.''')
     parser.add_argument("--cmakeformat", default=None,
                         help='''CMake format string to use to list each arch/soc.''')


 def dump_v2_archs(args):
     archs = find_v2_archs(args)

     for arch in archs['archs']:
         if args.cmakeformat is not None:
             info = args.cmakeformat.format(
                 TYPE='TYPE;' + arch['type'],
                 NAME='NAME;' + arch['name'],
                 DIR='DIR;' + str(arch['path'].as_posix()),
                 HWM='HWM;' + arch['hwm'],
                 # Below is non exising for arch but is defined here to support
                 # common formatting string.
                 SERIES='',
                 FAMILY='',
                 ARCH='',
                 VENDOR=''
             )
         else:
             info = args.format.format(
                 type=arch.get('type'),
                 name=arch.get('name'),
                 dir=arch.get('path'),
                 hwm=arch.get('hwm'),
                 # Below is non exising for arch but is defined here to support
                 # common formatting string.
                 series='',
                 family='',
                 arch='',
                 vendor=''
             )

         print(info)


 def dump_v2_system(args, type, system):
     if args.cmakeformat is not None:
         info = args.cmakeformat.format(
            TYPE='TYPE;' + type,
            NAME='NAME;' + system.name,
            DIR='DIR;' + ';'.join([Path(x).as_posix() for x in system.folder]),
            HWM='HWM;' + 'v2'
         )
     else:
         info = args.format.format(
            type=type,
            name=system.name,
            dir=system.folder,
            hwm='v2'
         )

     print(info)


 def dump_v2_systems(args):
     systems = find_v2_systems(args)

     for f in systems.get_families():
         dump_v2_system(args, 'family', f)

     for s in systems.get_series():
         dump_v2_system(args, 'series', s)

     for s in systems.get_socs():
         dump_v2_system(args, 'soc', s)


 if __name__ == '__main__':
     args = parse_args()
     if any([args.socs, args.soc, args.soc_series, args.soc_family]):
         dump_v2_systems(args)
     if args.archs or args.arch is not None:
         dump_v2_archs(args)
	#!/usr/bin/env python3

	# Copyright (c) 2023 Nordic Semiconductor ASA
	# SPDX-License-Identifier: Apache-2.0

	import argparse
	from dataclasses import dataclass
	from pathlib import Path, PurePath
	import pykwalify.core
	import sys
	from typing import List
	import yaml
	import re

	try:
	from yaml import CSafeLoader as SafeLoader
	except ImportError:
	from yaml import SafeLoader


	SOC_SCHEMA_PATH = str(Path(__file__).parent / 'schemas' / 'soc-schema.yml')
	with open(SOC_SCHEMA_PATH, 'r') as f:
	soc_schema = yaml.load(f.read(), Loader=SafeLoader)

	ARCH_SCHEMA_PATH = str(Path(__file__).parent / 'schemas' / 'arch-schema.yml')
	with open(ARCH_SCHEMA_PATH, 'r') as f:
	arch_schema = yaml.load(f.read(), Loader=SafeLoader)

	SOC_YML = 'soc.yml'
	ARCHS_YML_PATH = PurePath('arch/archs.yml')

	class Systems:

	def __init__(self, folder='', soc_yaml=None):
	self._socs = []
	self._series = []
	self._families = []
	self._extended_socs = []

	if soc_yaml is None:
	return

	try:
	data = yaml.load(soc_yaml, Loader=SafeLoader)
	pykwalify.core.Core(source_data=data,
	schema_data=soc_schema).validate()
	except (yaml.YAMLError, pykwalify.errors.SchemaError) as e:
	sys.exit(f'ERROR: Malformed yaml {soc_yaml.as_posix()}', e)

	for f in data.get('family', []):
	family = Family(f['name'], [folder], [], [])
	for s in f.get('series', []):
	series = Series(s['name'], [folder], f['name'], [])
	socs = [(Soc(soc['name'],
	[c['name'] for c in soc.get('cpuclusters', [])],
	[folder], s['name'], f['name']))
	for soc in s.get('socs', [])]
	series.socs.extend(socs)
	self._series.append(series)
	self._socs.extend(socs)
	family.series.append(series)
	family.socs.extend(socs)
	socs = [(Soc(soc['name'],
	[c['name'] for c in soc.get('cpuclusters', [])],
	[folder], None, f['name']))
	for soc in f.get('socs', [])]
	self._socs.extend(socs)
	self._families.append(family)

	for s in data.get('series', []):
	series = Series(s['name'], [folder], '', [])
	socs = [(Soc(soc['name'],
	[c['name'] for c in soc.get('cpuclusters', [])],
	[folder], s['name'], ''))
	for soc in s.get('socs', [])]
	series.socs.extend(socs)
	self._series.append(series)
	self._socs.extend(socs)

	for soc in data.get('socs', []):
	mutual_exclusive = {'name', 'extend'}
	if len(mutual_exclusive - soc.keys()) < 1:
	sys.exit(f'ERROR: Malformed content in SoC file: {soc_yaml}\n'
	f'{mutual_exclusive} are mutual exclusive at this level.')
	if soc.get('name') is not None:
	self._socs.append(Soc(soc['name'], [c['name'] for c in soc.get('cpuclusters', [])],
	[folder], '', ''))
	elif soc.get('extend') is not None:
	self._extended_socs.append(Soc(soc['extend'],
	[c['name'] for c in soc.get('cpuclusters', [])],
	[folder], '', ''))
	else:
	sys.exit(f'ERROR: Malformed "socs" section in SoC file: {soc_yaml}\n'
	f'Cannot find one of required keys {mutual_exclusive}.')

	# Ensure that any runner configuration matches socs and cpuclusters declared in the same
	# soc.yml file
	if 'runners' in data and 'run_once' in data['runners']:
	for grp in data['runners']['run_once']:
	for item_data in data['runners']['run_once'][grp]:
	for group in item_data['groups']:
	for qualifiers in group['qualifiers']:
	soc_name = qualifiers.split('/')[0]
	found_match = False

	for soc in self._socs + self._extended_socs:
	if re.match(fr'^{soc_name}$', soc.name) is not None:
	found_match = True
	break

	if found_match is False:
	sys.exit(f'ERROR: SoC qualifier match unresolved: {qualifiers}')

	@staticmethod
	def from_file(socs_file):
	'''Load SoCs from a soc.yml file.
	'''
	try:
	with open(socs_file, 'r') as f:
	socs_yaml = f.read()
	except FileNotFoundError as e:
	sys.exit(f'ERROR: socs.yml file not found: {socs_file.as_posix()}', e)

	return Systems(str(socs_file.parent), socs_yaml)

	@staticmethod
	def from_yaml(socs_yaml):
	'''Load socs from a string with YAML contents.
	'''
	return Systems('', socs_yaml)

	def extend(self, systems):
	self._families.extend(systems.get_families())
	self._series.extend(systems.get_series())

	for es in self._extended_socs[:]:
	for s in systems.get_socs():
	if s.name == es.name:
	s.extend(es)
	self._extended_socs.remove(es)
	break
	self._socs.extend(systems.get_socs())

	for es in systems.get_extended_socs():
	for s in self._socs:
	if s.name == es.name:
	s.extend(es)
	break
	else:
	self._extended_socs.append(es)

	def get_families(self):
	return self._families

	def get_series(self):
	return self._series

	def get_socs(self):
	return self._socs

	def get_extended_socs(self):
	return self._extended_socs

	def get_soc(self, name):
	try:
	return next(s for s in self._socs if s.name == name)
	except StopIteration:
	sys.exit(f"ERROR: SoC '{name}' is not found, please ensure that the SoC exists "
	f"and that soc-root containing '{name}' has been correctly defined.")


	@dataclass
	class Soc:
	name: str
	cpuclusters: List[str]
	folder: List[str]
	series: str = ''
	family: str = ''

	def extend(self, soc):
	if self.name == soc.name:
	self.cpuclusters.extend(soc.cpuclusters)
	self.folder.extend(soc.folder)


	@dataclass
	class Series:
	name: str
	folder: List[str]
	family: str
	socs: List[Soc]


	@dataclass
	class Family:
	name: str
	folder: List[str]
	series: List[Series]
	socs: List[Soc]


	def unique_paths(paths):
	# Using dict keys ensures both uniqueness and a deterministic order.
	yield from dict.fromkeys(map(Path.resolve, paths)).keys()


	def find_v2_archs(args):
	ret = {'archs': []}
	for root in unique_paths(args.arch_roots):
	archs_yml = root / ARCHS_YML_PATH

	if Path(archs_yml).is_file():
	with Path(archs_yml).open('r', encoding='utf-8') as f:
	archs = yaml.load(f.read(), Loader=SafeLoader)

	try:
	pykwalify.core.Core(source_data=archs, schema_data=arch_schema).validate()
	except pykwalify.errors.SchemaError as e:
	sys.exit('ERROR: Malformed "build" section in file: {}\n{}'
	.format(archs_yml.as_posix(), e))

	if args.arch is not None:
	archs = {'archs': list(filter(
	lambda arch: arch.get('name') == args.arch, archs['archs']))}
	for arch in archs['archs']:
	arch.update({'path': root / 'arch' / arch['path']})
	arch.update({'hwm': 'v2'})
	arch.update({'type': 'arch'})

	ret['archs'].extend(archs['archs'])

	return ret


	def find_v2_systems(args):
	yml_files = []
	systems = Systems()
	for root in unique_paths(args.soc_roots):
	yml_files.extend(sorted((root / 'soc').rglob(SOC_YML)))

	for soc_yml in yml_files:
	if soc_yml.is_file():
	systems.extend(Systems.from_file(soc_yml))

	return systems


	def parse_args():
	parser = argparse.ArgumentParser(allow_abbrev=False)
	add_args(parser)
	return parser.parse_args()


	def add_args(parser):
	default_fmt = '{name}'

	parser.add_argument("--soc-root", dest='soc_roots', default=[],
	type=Path, action='append',
	help='add a SoC root, may be given more than once')
	parser.add_argument("--soc", default=None, help='lookup the specific soc')
	parser.add_argument("--soc-series", default=None, help='lookup the specific soc series')
	parser.add_argument("--soc-family", default=None, help='lookup the specific family')
	parser.add_argument("--socs", action='store_true', help='lookup all socs')
	parser.add_argument("--arch-root", dest='arch_roots', default=[],
	type=Path, action='append',
	help='add a arch root, may be given more than once')
	parser.add_argument("--arch", default=None, help='lookup the specific arch')
	parser.add_argument("--archs", action='store_true', help='lookup all archs')
	parser.add_argument("--format", default=default_fmt,
	help='''Format string to use to list each soc.''')
	parser.add_argument("--cmakeformat", default=None,
	help='''CMake format string to use to list each arch/soc.''')


	def dump_v2_archs(args):
	archs = find_v2_archs(args)

	for arch in archs['archs']:
	if args.cmakeformat is not None:
	info = args.cmakeformat.format(
	TYPE='TYPE;' + arch['type'],
	NAME='NAME;' + arch['name'],
	DIR='DIR;' + str(arch['path'].as_posix()),
	HWM='HWM;' + arch['hwm'],
	# Below is non exising for arch but is defined here to support
	# common formatting string.
	SERIES='',
	FAMILY='',
	ARCH='',
	VENDOR=''
	)
	else:
	info = args.format.format(
	type=arch.get('type'),
	name=arch.get('name'),
	dir=arch.get('path'),
	hwm=arch.get('hwm'),
	# Below is non exising for arch but is defined here to support
	# common formatting string.
	series='',
	family='',
	arch='',
	vendor=''
	)

	print(info)


	def dump_v2_system(args, type, system):
	if args.cmakeformat is not None:
	info = args.cmakeformat.format(
	TYPE='TYPE;' + type,
	NAME='NAME;' + system.name,
	DIR='DIR;' + ';'.join([Path(x).as_posix() for x in system.folder]),
	HWM='HWM;' + 'v2'
	)
	else:
	info = args.format.format(
	type=type,
	name=system.name,
	dir=system.folder,
	hwm='v2'
	)

	print(info)


	def dump_v2_systems(args):
	systems = find_v2_systems(args)

	for f in systems.get_families():
	dump_v2_system(args, 'family', f)

	for s in systems.get_series():
	dump_v2_system(args, 'series', s)

	for s in systems.get_socs():
	dump_v2_system(args, 'soc', s)


	if __name__ == '__main__':
	args = parse_args()
	if any([args.socs, args.soc, args.soc_series, args.soc_family]):
	dump_v2_systems(args)
	if args.archs or args.arch is not None:
	dump_v2_archs(args)