tools/net/ynl/lib/nlspec.py - linux/torvalds/linux - Git at Google

 # SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause

 import collections
 import importlib
 import os
 import yaml


 # To be loaded dynamically as needed
 jsonschema = None


 class SpecElement:
     """Netlink spec element.

     Abstract element of the Netlink spec. Implements the dictionary interface
     for access to the raw spec. Supports iterative resolution of dependencies
     across elements and class inheritance levels. The elements of the spec
     may refer to each other, and although loops should be very rare, having
     to maintain correct ordering of instantiation is painful, so the resolve()
     method should be used to perform parts of init which require access to
     other parts of the spec.

     Attributes:
         yaml        raw spec as loaded from the spec file
         family      back reference to the full family

         name        name of the entity as listed in the spec (optional)
         ident_name  name which can be safely used as identifier in code (optional)
     """
     def __init__(self, family, yaml):
         self.yaml = yaml
         self.family = family

         if 'name' in self.yaml:
             self.name = self.yaml['name']
             self.ident_name = self.name.replace('-', '_')

         self._super_resolved = False
         family.add_unresolved(self)

     def __getitem__(self, key):
         return self.yaml[key]

     def __contains__(self, key):
         return key in self.yaml

     def get(self, key, default=None):
         return self.yaml.get(key, default)

     def resolve_up(self, up):
         if not self._super_resolved:
             up.resolve()
             self._super_resolved = True

     def resolve(self):
         pass


 class SpecEnumEntry(SpecElement):
     """ Entry within an enum declared in the Netlink spec.

     Attributes:
         doc         documentation string
         enum_set    back reference to the enum
         value       numerical value of this enum (use accessors in most situations!)

     Methods:
         raw_value   raw value, i.e. the id in the enum, unlike user value which is a mask for flags
         user_value   user value, same as raw value for enums, for flags it's the mask
     """
     def __init__(self, enum_set, yaml, prev, value_start):
         if isinstance(yaml, str):
             yaml = {'name': yaml}
         super().__init__(enum_set.family, yaml)

         self.doc = yaml.get('doc', '')
         self.enum_set = enum_set

         if 'value' in yaml:
             self.value = yaml['value']
         elif prev:
             self.value = prev.value + 1
         else:
             self.value = value_start

     def has_doc(self):
         return bool(self.doc)

     def raw_value(self):
         return self.value

     def user_value(self):
         if self.enum_set['type'] == 'flags':
             return 1 << self.value
         else:
             return self.value


 class SpecEnumSet(SpecElement):
     """ Enum type

     Represents an enumeration (list of numerical constants)
     as declared in the "definitions" section of the spec.

     Attributes:
         type            enum or flags
         entries         entries by name
         entries_by_val  entries by value
     Methods:
         get_mask      for flags compute the mask of all defined values
     """
     def __init__(self, family, yaml):
         super().__init__(family, yaml)

         self.type = yaml['type']

         prev_entry = None
         value_start = self.yaml.get('value-start', 0)
         self.entries = dict()
         self.entries_by_val = dict()
         for entry in self.yaml['entries']:
             e = self.new_entry(entry, prev_entry, value_start)
             self.entries[e.name] = e
             self.entries_by_val[e.raw_value()] = e
             prev_entry = e

     def new_entry(self, entry, prev_entry, value_start):
         return SpecEnumEntry(self, entry, prev_entry, value_start)

     def has_doc(self):
         if 'doc' in self.yaml:
             return True
         for entry in self.entries.values():
             if entry.has_doc():
                 return True
         return False

     def get_mask(self):
         mask = 0
         idx = self.yaml.get('value-start', 0)
         for _ in self.entries.values():
             mask |= 1 << idx
             idx += 1
         return mask


 class SpecAttr(SpecElement):
     """ Single Netlink atttribute type

     Represents a single attribute type within an attr space.

     Attributes:
         value      numerical ID when serialized
         attr_set   Attribute Set containing this attr
     """
     def __init__(self, family, attr_set, yaml, value):
         super().__init__(family, yaml)

         self.value = value
         self.attr_set = attr_set
         self.is_multi = yaml.get('multi-attr', False)


 class SpecAttrSet(SpecElement):
     """ Netlink Attribute Set class.

     Represents a ID space of attributes within Netlink.

     Note that unlike other elements, which expose contents of the raw spec
     via the dictionary interface Attribute Set exposes attributes by name.

     Attributes:
         attrs      ordered dict of all attributes (indexed by name)
         attrs_by_val  ordered dict of all attributes (indexed by value)
         subset_of  parent set if this is a subset, otherwise None
     """
     def __init__(self, family, yaml):
         super().__init__(family, yaml)

         self.subset_of = self.yaml.get('subset-of', None)

         self.attrs = collections.OrderedDict()
         self.attrs_by_val = collections.OrderedDict()

         if self.subset_of is None:
             val = 1
             for elem in self.yaml['attributes']:
                 if 'value' in elem:
                     val = elem['value']

                 attr = self.new_attr(elem, val)
                 self.attrs[attr.name] = attr
                 self.attrs_by_val[attr.value] = attr
                 val += 1
         else:
             real_set = family.attr_sets[self.subset_of]
             for elem in self.yaml['attributes']:
                 attr = real_set[elem['name']]
                 self.attrs[attr.name] = attr
                 self.attrs_by_val[attr.value] = attr

     def new_attr(self, elem, value):
         return SpecAttr(self.family, self, elem, value)

     def __getitem__(self, key):
         return self.attrs[key]

     def __contains__(self, key):
         return key in self.attrs

     def __iter__(self):
         yield from self.attrs

     def items(self):
         return self.attrs.items()


 class SpecOperation(SpecElement):
     """Netlink Operation

     Information about a single Netlink operation.

     Attributes:
         value       numerical ID when serialized, None if req/rsp values differ

         req_value   numerical ID when serialized, user -> kernel
         rsp_value   numerical ID when serialized, user <- kernel
         is_call     bool, whether the operation is a call
         is_async    bool, whether the operation is a notification
         is_resv     bool, whether the operation does not exist (it's just a reserved ID)
         attr_set    attribute set name

         yaml        raw spec as loaded from the spec file
     """
     def __init__(self, family, yaml, req_value, rsp_value):
         super().__init__(family, yaml)

         self.value = req_value if req_value == rsp_value else None
         self.req_value = req_value
         self.rsp_value = rsp_value

         self.is_call = 'do' in yaml or 'dump' in yaml
         self.is_async = 'notify' in yaml or 'event' in yaml
         self.is_resv = not self.is_async and not self.is_call

         # Added by resolve:
         self.attr_set = None
         delattr(self, "attr_set")

     def resolve(self):
         self.resolve_up(super())

         if 'attribute-set' in self.yaml:
             attr_set_name = self.yaml['attribute-set']
         elif 'notify' in self.yaml:
             msg = self.family.msgs[self.yaml['notify']]
             attr_set_name = msg['attribute-set']
         elif self.is_resv:
             attr_set_name = ''
         else:
             raise Exception(f"Can't resolve attribute set for op '{self.name}'")
         if attr_set_name:
             self.attr_set = self.family.attr_sets[attr_set_name]


 class SpecFamily(SpecElement):
     """ Netlink Family Spec class.

     Netlink family information loaded from a spec (e.g. in YAML).
     Takes care of unfolding implicit information which can be skipped
     in the spec itself for brevity.

     The class can be used like a dictionary to access the raw spec
     elements but that's usually a bad idea.

     Attributes:
         proto     protocol type (e.g. genetlink)

         attr_sets  dict of attribute sets
         msgs       dict of all messages (index by name)
         msgs_by_value  dict of all messages (indexed by name)
         ops        dict of all valid requests / responses
         consts     dict of all constants/enums
     """
     def __init__(self, spec_path, schema_path=None):
         with open(spec_path, "r") as stream:
             spec = yaml.safe_load(stream)

         self._resolution_list = []

         super().__init__(self, spec)

         self.proto = self.yaml.get('protocol', 'genetlink')

         if schema_path is None:
             schema_path = os.path.dirname(os.path.dirname(spec_path)) + f'/{self.proto}.yaml'
         if schema_path:
             global jsonschema

             with open(schema_path, "r") as stream:
                 schema = yaml.safe_load(stream)

             if jsonschema is None:
                 jsonschema = importlib.import_module("jsonschema")

             jsonschema.validate(self.yaml, schema)

         self.attr_sets = collections.OrderedDict()
         self.msgs = collections.OrderedDict()
         self.req_by_value = collections.OrderedDict()
         self.rsp_by_value = collections.OrderedDict()
         self.ops = collections.OrderedDict()
         self.consts = collections.OrderedDict()

         last_exception = None
         while len(self._resolution_list) > 0:
             resolved = []
             unresolved = self._resolution_list
             self._resolution_list = []

             for elem in unresolved:
                 try:
                     elem.resolve()
                 except (KeyError, AttributeError) as e:
                     self._resolution_list.append(elem)
                     last_exception = e
                     continue

                 resolved.append(elem)

             if len(resolved) == 0:
                 raise last_exception

     def new_enum(self, elem):
         return SpecEnumSet(self, elem)

     def new_attr_set(self, elem):
         return SpecAttrSet(self, elem)

     def new_operation(self, elem, req_val, rsp_val):
         return SpecOperation(self, elem, req_val, rsp_val)

     def add_unresolved(self, elem):
         self._resolution_list.append(elem)

     def _dictify_ops_unified(self):
         val = 1
         for elem in self.yaml['operations']['list']:
             if 'value' in elem:
                 val = elem['value']

             op = self.new_operation(elem, val, val)
             val += 1

             self.msgs[op.name] = op

     def _dictify_ops_directional(self):
         req_val = rsp_val = 1
         for elem in self.yaml['operations']['list']:
             if 'notify' in elem:
                 if 'value' in elem:
                     rsp_val = elem['value']
                 req_val_next = req_val
                 rsp_val_next = rsp_val + 1
                 req_val = None
             elif 'do' in elem or 'dump' in elem:
                 mode = elem['do'] if 'do' in elem else elem['dump']

                 v = mode.get('request', {}).get('value', None)
                 if v:
                     req_val = v
                 v = mode.get('reply', {}).get('value', None)
                 if v:
                     rsp_val = v

                 rsp_inc = 1 if 'reply' in mode else 0
                 req_val_next = req_val + 1
                 rsp_val_next = rsp_val + rsp_inc
             else:
                 raise Exception("Can't parse directional ops")

             op = self.new_operation(elem, req_val, rsp_val)
             req_val = req_val_next
             rsp_val = rsp_val_next

             self.msgs[op.name] = op

     def resolve(self):
         self.resolve_up(super())

         for elem in self.yaml['definitions']:
             if elem['type'] == 'enum' or elem['type'] == 'flags':
                 self.consts[elem['name']] = self.new_enum(elem)
             else:
                 self.consts[elem['name']] = elem

         for elem in self.yaml['attribute-sets']:
             attr_set = self.new_attr_set(elem)
             self.attr_sets[elem['name']] = attr_set

         msg_id_model = self.yaml['operations'].get('enum-model', 'unified')
         if msg_id_model == 'unified':
             self._dictify_ops_unified()
         elif msg_id_model == 'directional':
             self._dictify_ops_directional()

         for op in self.msgs.values():
             if op.req_value is not None:
                 self.req_by_value[op.req_value] = op
             if op.rsp_value is not None:
                 self.rsp_by_value[op.rsp_value] = op
             if not op.is_async and 'attribute-set' in op:
                 self.ops[op.name] = op
	# SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause

	import collections
	import importlib
	import os
	import yaml


	# To be loaded dynamically as needed
	jsonschema = None


	class SpecElement:
	"""Netlink spec element.

	Abstract element of the Netlink spec. Implements the dictionary interface
	for access to the raw spec. Supports iterative resolution of dependencies
	across elements and class inheritance levels. The elements of the spec
	may refer to each other, and although loops should be very rare, having
	to maintain correct ordering of instantiation is painful, so the resolve()
	method should be used to perform parts of init which require access to
	other parts of the spec.

	Attributes:
	yaml raw spec as loaded from the spec file
	family back reference to the full family

	name name of the entity as listed in the spec (optional)
	ident_name name which can be safely used as identifier in code (optional)
	"""
	def __init__(self, family, yaml):
	self.yaml = yaml
	self.family = family

	if 'name' in self.yaml:
	self.name = self.yaml['name']
	self.ident_name = self.name.replace('-', '_')

	self._super_resolved = False
	family.add_unresolved(self)

	def __getitem__(self, key):
	return self.yaml[key]

	def __contains__(self, key):
	return key in self.yaml

	def get(self, key, default=None):
	return self.yaml.get(key, default)

	def resolve_up(self, up):
	if not self._super_resolved:
	up.resolve()
	self._super_resolved = True

	def resolve(self):
	pass


	class SpecEnumEntry(SpecElement):
	""" Entry within an enum declared in the Netlink spec.

	Attributes:
	doc documentation string
	enum_set back reference to the enum
	value numerical value of this enum (use accessors in most situations!)

	Methods:
	raw_value raw value, i.e. the id in the enum, unlike user value which is a mask for flags
	user_value user value, same as raw value for enums, for flags it's the mask
	"""
	def __init__(self, enum_set, yaml, prev, value_start):
	if isinstance(yaml, str):
	yaml = {'name': yaml}
	super().__init__(enum_set.family, yaml)

	self.doc = yaml.get('doc', '')
	self.enum_set = enum_set

	if 'value' in yaml:
	self.value = yaml['value']
	elif prev:
	self.value = prev.value + 1
	else:
	self.value = value_start

	def has_doc(self):
	return bool(self.doc)

	def raw_value(self):
	return self.value

	def user_value(self):
	if self.enum_set['type'] == 'flags':
	return 1 << self.value
	else:
	return self.value


	class SpecEnumSet(SpecElement):
	""" Enum type

	Represents an enumeration (list of numerical constants)
	as declared in the "definitions" section of the spec.

	Attributes:
	type enum or flags
	entries entries by name
	entries_by_val entries by value
	Methods:
	get_mask for flags compute the mask of all defined values
	"""
	def __init__(self, family, yaml):
	super().__init__(family, yaml)

	self.type = yaml['type']

	prev_entry = None
	value_start = self.yaml.get('value-start', 0)
	self.entries = dict()
	self.entries_by_val = dict()
	for entry in self.yaml['entries']:
	e = self.new_entry(entry, prev_entry, value_start)
	self.entries[e.name] = e
	self.entries_by_val[e.raw_value()] = e
	prev_entry = e

	def new_entry(self, entry, prev_entry, value_start):
	return SpecEnumEntry(self, entry, prev_entry, value_start)

	def has_doc(self):
	if 'doc' in self.yaml:
	return True
	for entry in self.entries.values():
	if entry.has_doc():
	return True
	return False

	def get_mask(self):
	mask = 0
	idx = self.yaml.get('value-start', 0)
	for _ in self.entries.values():
	mask \|= 1 << idx
	idx += 1
	return mask


	class SpecAttr(SpecElement):
	""" Single Netlink atttribute type

	Represents a single attribute type within an attr space.

	Attributes:
	value numerical ID when serialized
	attr_set Attribute Set containing this attr
	"""
	def __init__(self, family, attr_set, yaml, value):
	super().__init__(family, yaml)

	self.value = value
	self.attr_set = attr_set
	self.is_multi = yaml.get('multi-attr', False)


	class SpecAttrSet(SpecElement):
	""" Netlink Attribute Set class.

	Represents a ID space of attributes within Netlink.

	Note that unlike other elements, which expose contents of the raw spec
	via the dictionary interface Attribute Set exposes attributes by name.

	Attributes:
	attrs ordered dict of all attributes (indexed by name)
	attrs_by_val ordered dict of all attributes (indexed by value)
	subset_of parent set if this is a subset, otherwise None
	"""
	def __init__(self, family, yaml):
	super().__init__(family, yaml)

	self.subset_of = self.yaml.get('subset-of', None)

	self.attrs = collections.OrderedDict()
	self.attrs_by_val = collections.OrderedDict()

	if self.subset_of is None:
	val = 1
	for elem in self.yaml['attributes']:
	if 'value' in elem:
	val = elem['value']

	attr = self.new_attr(elem, val)
	self.attrs[attr.name] = attr
	self.attrs_by_val[attr.value] = attr
	val += 1
	else:
	real_set = family.attr_sets[self.subset_of]
	for elem in self.yaml['attributes']:
	attr = real_set[elem['name']]
	self.attrs[attr.name] = attr
	self.attrs_by_val[attr.value] = attr

	def new_attr(self, elem, value):
	return SpecAttr(self.family, self, elem, value)

	def __getitem__(self, key):
	return self.attrs[key]

	def __contains__(self, key):
	return key in self.attrs

	def __iter__(self):
	yield from self.attrs

	def items(self):
	return self.attrs.items()


	class SpecOperation(SpecElement):
	"""Netlink Operation

	Information about a single Netlink operation.

	Attributes:
	value numerical ID when serialized, None if req/rsp values differ

	req_value numerical ID when serialized, user -> kernel
	rsp_value numerical ID when serialized, user <- kernel
	is_call bool, whether the operation is a call
	is_async bool, whether the operation is a notification
	is_resv bool, whether the operation does not exist (it's just a reserved ID)
	attr_set attribute set name

	yaml raw spec as loaded from the spec file
	"""
	def __init__(self, family, yaml, req_value, rsp_value):
	super().__init__(family, yaml)

	self.value = req_value if req_value == rsp_value else None
	self.req_value = req_value
	self.rsp_value = rsp_value

	self.is_call = 'do' in yaml or 'dump' in yaml
	self.is_async = 'notify' in yaml or 'event' in yaml
	self.is_resv = not self.is_async and not self.is_call

	# Added by resolve:
	self.attr_set = None
	delattr(self, "attr_set")

	def resolve(self):
	self.resolve_up(super())

	if 'attribute-set' in self.yaml:
	attr_set_name = self.yaml['attribute-set']
	elif 'notify' in self.yaml:
	msg = self.family.msgs[self.yaml['notify']]
	attr_set_name = msg['attribute-set']
	elif self.is_resv:
	attr_set_name = ''
	else:
	raise Exception(f"Can't resolve attribute set for op '{self.name}'")
	if attr_set_name:
	self.attr_set = self.family.attr_sets[attr_set_name]


	class SpecFamily(SpecElement):
	""" Netlink Family Spec class.

	Netlink family information loaded from a spec (e.g. in YAML).
	Takes care of unfolding implicit information which can be skipped
	in the spec itself for brevity.

	The class can be used like a dictionary to access the raw spec
	elements but that's usually a bad idea.

	Attributes:
	proto protocol type (e.g. genetlink)

	attr_sets dict of attribute sets
	msgs dict of all messages (index by name)
	msgs_by_value dict of all messages (indexed by name)
	ops dict of all valid requests / responses
	consts dict of all constants/enums
	"""
	def __init__(self, spec_path, schema_path=None):
	with open(spec_path, "r") as stream:
	spec = yaml.safe_load(stream)

	self._resolution_list = []

	super().__init__(self, spec)

	self.proto = self.yaml.get('protocol', 'genetlink')

	if schema_path is None:
	schema_path = os.path.dirname(os.path.dirname(spec_path)) + f'/{self.proto}.yaml'
	if schema_path:
	global jsonschema

	with open(schema_path, "r") as stream:
	schema = yaml.safe_load(stream)

	if jsonschema is None:
	jsonschema = importlib.import_module("jsonschema")

	jsonschema.validate(self.yaml, schema)

	self.attr_sets = collections.OrderedDict()
	self.msgs = collections.OrderedDict()
	self.req_by_value = collections.OrderedDict()
	self.rsp_by_value = collections.OrderedDict()
	self.ops = collections.OrderedDict()
	self.consts = collections.OrderedDict()

	last_exception = None
	while len(self._resolution_list) > 0:
	resolved = []
	unresolved = self._resolution_list
	self._resolution_list = []

	for elem in unresolved:
	try:
	elem.resolve()
	except (KeyError, AttributeError) as e:
	self._resolution_list.append(elem)
	last_exception = e
	continue

	resolved.append(elem)

	if len(resolved) == 0:
	raise last_exception

	def new_enum(self, elem):
	return SpecEnumSet(self, elem)

	def new_attr_set(self, elem):
	return SpecAttrSet(self, elem)

	def new_operation(self, elem, req_val, rsp_val):
	return SpecOperation(self, elem, req_val, rsp_val)

	def add_unresolved(self, elem):
	self._resolution_list.append(elem)

	def _dictify_ops_unified(self):
	val = 1
	for elem in self.yaml['operations']['list']:
	if 'value' in elem:
	val = elem['value']

	op = self.new_operation(elem, val, val)
	val += 1

	self.msgs[op.name] = op

	def _dictify_ops_directional(self):
	req_val = rsp_val = 1
	for elem in self.yaml['operations']['list']:
	if 'notify' in elem:
	if 'value' in elem:
	rsp_val = elem['value']
	req_val_next = req_val
	rsp_val_next = rsp_val + 1
	req_val = None
	elif 'do' in elem or 'dump' in elem:
	mode = elem['do'] if 'do' in elem else elem['dump']

	v = mode.get('request', {}).get('value', None)
	if v:
	req_val = v
	v = mode.get('reply', {}).get('value', None)
	if v:
	rsp_val = v

	rsp_inc = 1 if 'reply' in mode else 0
	req_val_next = req_val + 1
	rsp_val_next = rsp_val + rsp_inc
	else:
	raise Exception("Can't parse directional ops")

	op = self.new_operation(elem, req_val, rsp_val)
	req_val = req_val_next
	rsp_val = rsp_val_next

	self.msgs[op.name] = op

	def resolve(self):
	self.resolve_up(super())

	for elem in self.yaml['definitions']:
	if elem['type'] == 'enum' or elem['type'] == 'flags':
	self.consts[elem['name']] = self.new_enum(elem)
	else:
	self.consts[elem['name']] = elem

	for elem in self.yaml['attribute-sets']:
	attr_set = self.new_attr_set(elem)
	self.attr_sets[elem['name']] = attr_set

	msg_id_model = self.yaml['operations'].get('enum-model', 'unified')
	if msg_id_model == 'unified':
	self._dictify_ops_unified()
	elif msg_id_model == 'directional':
	self._dictify_ops_directional()

	for op in self.msgs.values():
	if op.req_value is not None:
	self.req_by_value[op.req_value] = op
	if op.rsp_value is not None:
	self.rsp_by_value[op.rsp_value] = op
	if not op.is_async and 'attribute-set' in op:
	self.ops[op.name] = op