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# 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, as_flags=None):
if self.enum_set['type'] == 'flags' or as_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, as_flags=None):
mask = 0
for e in self.entries.values():
mask += e.user_value(as_flags)
return mask
class SpecAttr(SpecElement):
""" Single Netlink atttribute type
Represents a single attribute type within an attr space.
Attributes:
type string, attribute type
value numerical ID when serialized
attr_set Attribute Set containing this attr
is_multi bool, attr may repeat multiple times
struct_name string, name of struct definition
sub_type string, name of sub type
len integer, optional byte length of binary types
display_hint string, hint to help choose format specifier
when displaying the value
sub_message string, name of sub message type
selector string, name of attribute used to select
sub-message type
is_auto_scalar bool, attr is a variable-size scalar
"""
def __init__(self, family, attr_set, yaml, value):
super().__init__(family, yaml)
self.type = yaml['type']
self.value = value
self.attr_set = attr_set
self.is_multi = yaml.get('multi-attr', False)
self.struct_name = yaml.get('struct')
self.sub_type = yaml.get('sub-type')
self.byte_order = yaml.get('byte-order')
self.len = yaml.get('len')
self.display_hint = yaml.get('display-hint')
self.sub_message = yaml.get('sub-message')
self.selector = yaml.get('selector')
self.is_auto_scalar = self.type == "sint" or self.type == "uint"
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 SpecStructMember(SpecElement):
"""Struct member attribute
Represents a single struct member attribute.
Attributes:
type string, type of the member attribute
byte_order string or None for native byte order
enum string, name of the enum definition
len integer, optional byte length of binary types
display_hint string, hint to help choose format specifier
when displaying the value
"""
def __init__(self, family, yaml):
super().__init__(family, yaml)
self.type = yaml['type']
self.byte_order = yaml.get('byte-order')
self.enum = yaml.get('enum')
self.len = yaml.get('len')
self.display_hint = yaml.get('display-hint')
class SpecStruct(SpecElement):
"""Netlink struct type
Represents a C struct definition.
Attributes:
members ordered list of struct members
"""
def __init__(self, family, yaml):
super().__init__(family, yaml)
self.members = []
for member in yaml.get('members', []):
self.members.append(self.new_member(family, member))
def new_member(self, family, elem):
return SpecStructMember(family, elem)
def __iter__(self):
yield from self.members
def items(self):
return self.members.items()
class SpecSubMessage(SpecElement):
""" Netlink sub-message definition
Represents a set of sub-message formats for polymorphic nlattrs
that contain type-specific sub messages.
Attributes:
name string, name of sub-message definition
formats dict of sub-message formats indexed by match value
"""
def __init__(self, family, yaml):
super().__init__(family, yaml)
self.formats = collections.OrderedDict()
for elem in self.yaml['formats']:
format = self.new_format(family, elem)
self.formats[format.value] = format
def new_format(self, family, format):
return SpecSubMessageFormat(family, format)
class SpecSubMessageFormat(SpecElement):
""" Netlink sub-message definition
Represents a set of sub-message formats for polymorphic nlattrs
that contain type-specific sub messages.
Attributes:
value attribute value to match against type selector
fixed_header string, name of fixed header, or None
attr_set string, name of attribute set, or None
"""
def __init__(self, family, yaml):
super().__init__(family, yaml)
self.value = yaml.get('value')
self.fixed_header = yaml.get('fixed-header')
self.attr_set = yaml.get('attribute-set')
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
fixed_header string, optional name of fixed header struct
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
self.fixed_header = self.yaml.get('fixed-header', family.fixed_header)
# 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 SpecMcastGroup(SpecElement):
"""Netlink Multicast Group
Information about a multicast group.
Value is only used for classic netlink families that use the
netlink-raw schema. Genetlink families use dynamic ID allocation
where the ids of multicast groups get resolved at runtime. Value
will be None for genetlink families.
Attributes:
name name of the mulitcast group
value integer id of this multicast group for netlink-raw or None
yaml raw spec as loaded from the spec file
"""
def __init__(self, family, yaml):
super().__init__(family, yaml)
self.value = self.yaml.get('value')
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)
msg_id_model enum-model for operations (unified, directional etc.)
license spec license (loaded from an SPDX tag on the spec)
attr_sets dict of attribute sets
msgs dict of all messages (index by name)
sub_msgs dict of all sub messages (index by name)
ops dict of all valid requests / responses
ntfs dict of all async events
consts dict of all constants/enums
fixed_header string, optional name of family default fixed header struct
mcast_groups dict of all multicast groups (index by name)
"""
def __init__(self, spec_path, schema_path=None, exclude_ops=None):
with open(spec_path, "r") as stream:
prefix = '# SPDX-License-Identifier: '
first = stream.readline().strip()
if not first.startswith(prefix):
raise Exception('SPDX license tag required in the spec')
self.license = first[len(prefix):]
stream.seek(0)
spec = yaml.safe_load(stream)
self._resolution_list = []
super().__init__(self, spec)
self._exclude_ops = exclude_ops if exclude_ops else []
self.proto = self.yaml.get('protocol', 'genetlink')
self.msg_id_model = self.yaml['operations'].get('enum-model', 'unified')
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.sub_msgs = collections.OrderedDict()
self.msgs = collections.OrderedDict()
self.req_by_value = collections.OrderedDict()
self.rsp_by_value = collections.OrderedDict()
self.ops = collections.OrderedDict()
self.ntfs = collections.OrderedDict()
self.consts = collections.OrderedDict()
self.mcast_groups = 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_struct(self, elem):
return SpecStruct(self, elem)
def new_sub_message(self, elem):
return SpecSubMessage(self, elem);
def new_operation(self, elem, req_val, rsp_val):
return SpecOperation(self, elem, req_val, rsp_val)
def new_mcast_group(self, elem):
return SpecMcastGroup(self, elem)
def add_unresolved(self, elem):
self._resolution_list.append(elem)
def _dictify_ops_unified(self):
self.fixed_header = self.yaml['operations'].get('fixed-header')
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):
self.fixed_header = self.yaml['operations'].get('fixed-header')
req_val = rsp_val = 1
for elem in self.yaml['operations']['list']:
if 'notify' in elem or 'event' 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")
if req_val == req_val_next:
req_val = None
if rsp_val == rsp_val_next:
rsp_val = None
skip = False
for exclude in self._exclude_ops:
skip |= bool(exclude.match(elem['name']))
if not skip:
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 find_operation(self, name):
"""
For a given operation name, find and return operation spec.
"""
for op in self.yaml['operations']['list']:
if name == op['name']:
return op
return None
def resolve(self):
self.resolve_up(super())
definitions = self.yaml.get('definitions', [])
for elem in definitions:
if elem['type'] == 'enum' or elem['type'] == 'flags':
self.consts[elem['name']] = self.new_enum(elem)
elif elem['type'] == 'struct':
self.consts[elem['name']] = self.new_struct(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
for elem in self.yaml.get('sub-messages', []):
sub_message = self.new_sub_message(elem)
self.sub_msgs[sub_message.name] = sub_message
if self.msg_id_model == 'unified':
self._dictify_ops_unified()
elif self.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
elif op.is_async:
self.ntfs[op.name] = op
mcgs = self.yaml.get('mcast-groups')
if mcgs:
for elem in mcgs['list']:
mcg = self.new_mcast_group(elem)
self.mcast_groups[elem['name']] = mcg
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