xemu/scripts/qapi/introspect.py
Markus Armbruster b6c18755e4 qapi: Add feature flags to enum members
This is quite similar to commit 84ab008687 "qapi: Add feature flags to
struct members", only for enums instead of structs.

Special feature flag 'deprecated' is silently ignored there.  This is
okay only because it will be implemented shortly.

Signed-off-by: Markus Armbruster <armbru@redhat.com>
Reviewed-by: Eric Blake <eblake@redhat.com>
Message-Id: <20211025042405.3762351-3-armbru@redhat.com>
Reviewed-by: John Snow <jsnow@redhat.com>
2021-10-27 17:18:55 +02:00

391 lines
14 KiB
Python

"""
QAPI introspection generator
Copyright (C) 2015-2021 Red Hat, Inc.
Authors:
Markus Armbruster <armbru@redhat.com>
John Snow <jsnow@redhat.com>
This work is licensed under the terms of the GNU GPL, version 2.
See the COPYING file in the top-level directory.
"""
from typing import (
Any,
Dict,
Generic,
List,
Optional,
Sequence,
TypeVar,
Union,
)
from .common import c_name, mcgen
from .gen import QAPISchemaMonolithicCVisitor
from .schema import (
QAPISchema,
QAPISchemaArrayType,
QAPISchemaBuiltinType,
QAPISchemaEntity,
QAPISchemaEnumMember,
QAPISchemaFeature,
QAPISchemaIfCond,
QAPISchemaObjectType,
QAPISchemaObjectTypeMember,
QAPISchemaType,
QAPISchemaVariant,
QAPISchemaVariants,
)
from .source import QAPISourceInfo
# This module constructs a tree data structure that is used to
# generate the introspection information for QEMU. It is shaped
# like a JSON value.
#
# A complexity over JSON is that our values may or may not be annotated.
#
# Un-annotated values may be:
# Scalar: str, bool, None.
# Non-scalar: List, Dict
# _value = Union[str, bool, None, Dict[str, JSONValue], List[JSONValue]]
#
# With optional annotations, the type of all values is:
# JSONValue = Union[_Value, Annotated[_Value]]
#
# Sadly, mypy does not support recursive types; so the _Stub alias is used to
# mark the imprecision in the type model where we'd otherwise use JSONValue.
_Stub = Any
_Scalar = Union[str, bool, None]
_NonScalar = Union[Dict[str, _Stub], List[_Stub]]
_Value = Union[_Scalar, _NonScalar]
JSONValue = Union[_Value, 'Annotated[_Value]']
# These types are based on structures defined in QEMU's schema, so we
# lack precise types for them here. Python 3.6 does not offer
# TypedDict constructs, so they are broadly typed here as simple
# Python Dicts.
SchemaInfo = Dict[str, object]
SchemaInfoEnumMember = Dict[str, object]
SchemaInfoObject = Dict[str, object]
SchemaInfoObjectVariant = Dict[str, object]
SchemaInfoObjectMember = Dict[str, object]
SchemaInfoCommand = Dict[str, object]
_ValueT = TypeVar('_ValueT', bound=_Value)
class Annotated(Generic[_ValueT]):
"""
Annotated generally contains a SchemaInfo-like type (as a dict),
But it also used to wrap comments/ifconds around scalar leaf values,
for the benefit of features and enums.
"""
# TODO: Remove after Python 3.7 adds @dataclass:
# pylint: disable=too-few-public-methods
def __init__(self, value: _ValueT, ifcond: QAPISchemaIfCond,
comment: Optional[str] = None):
self.value = value
self.comment: Optional[str] = comment
self.ifcond = ifcond
def _tree_to_qlit(obj: JSONValue,
level: int = 0,
dict_value: bool = False) -> str:
"""
Convert the type tree into a QLIT C string, recursively.
:param obj: The value to convert.
This value may not be Annotated when dict_value is True.
:param level: The indentation level for this particular value.
:param dict_value: True when the value being processed belongs to a
dict key; which suppresses the output indent.
"""
def indent(level: int) -> str:
return level * 4 * ' '
if isinstance(obj, Annotated):
# NB: _tree_to_qlit is called recursively on the values of a
# key:value pair; those values can't be decorated with
# comments or conditionals.
msg = "dict values cannot have attached comments or if-conditionals."
assert not dict_value, msg
ret = ''
if obj.comment:
ret += indent(level) + f"/* {obj.comment} */\n"
if obj.ifcond.is_present():
ret += obj.ifcond.gen_if()
ret += _tree_to_qlit(obj.value, level)
if obj.ifcond.is_present():
ret += '\n' + obj.ifcond.gen_endif()
return ret
ret = ''
if not dict_value:
ret += indent(level)
# Scalars:
if obj is None:
ret += 'QLIT_QNULL'
elif isinstance(obj, str):
ret += f"QLIT_QSTR({to_c_string(obj)})"
elif isinstance(obj, bool):
ret += f"QLIT_QBOOL({str(obj).lower()})"
# Non-scalars:
elif isinstance(obj, list):
ret += 'QLIT_QLIST(((QLitObject[]) {\n'
for value in obj:
ret += _tree_to_qlit(value, level + 1).strip('\n') + '\n'
ret += indent(level + 1) + '{}\n'
ret += indent(level) + '}))'
elif isinstance(obj, dict):
ret += 'QLIT_QDICT(((QLitDictEntry[]) {\n'
for key, value in sorted(obj.items()):
ret += indent(level + 1) + "{{ {:s}, {:s} }},\n".format(
to_c_string(key),
_tree_to_qlit(value, level + 1, dict_value=True)
)
ret += indent(level + 1) + '{}\n'
ret += indent(level) + '}))'
else:
raise NotImplementedError(
f"type '{type(obj).__name__}' not implemented"
)
if level > 0:
ret += ','
return ret
def to_c_string(string: str) -> str:
return '"' + string.replace('\\', r'\\').replace('"', r'\"') + '"'
class QAPISchemaGenIntrospectVisitor(QAPISchemaMonolithicCVisitor):
def __init__(self, prefix: str, unmask: bool):
super().__init__(
prefix, 'qapi-introspect',
' * QAPI/QMP schema introspection', __doc__)
self._unmask = unmask
self._schema: Optional[QAPISchema] = None
self._trees: List[Annotated[SchemaInfo]] = []
self._used_types: List[QAPISchemaType] = []
self._name_map: Dict[str, str] = {}
self._genc.add(mcgen('''
#include "qemu/osdep.h"
#include "%(prefix)sqapi-introspect.h"
''',
prefix=prefix))
def visit_begin(self, schema: QAPISchema) -> None:
self._schema = schema
def visit_end(self) -> None:
# visit the types that are actually used
for typ in self._used_types:
typ.visit(self)
# generate C
name = c_name(self._prefix, protect=False) + 'qmp_schema_qlit'
self._genh.add(mcgen('''
#include "qapi/qmp/qlit.h"
extern const QLitObject %(c_name)s;
''',
c_name=c_name(name)))
self._genc.add(mcgen('''
const QLitObject %(c_name)s = %(c_string)s;
''',
c_name=c_name(name),
c_string=_tree_to_qlit(self._trees)))
self._schema = None
self._trees = []
self._used_types = []
self._name_map = {}
def visit_needed(self, entity: QAPISchemaEntity) -> bool:
# Ignore types on first pass; visit_end() will pick up used types
return not isinstance(entity, QAPISchemaType)
def _name(self, name: str) -> str:
if self._unmask:
return name
if name not in self._name_map:
self._name_map[name] = '%d' % len(self._name_map)
return self._name_map[name]
def _use_type(self, typ: QAPISchemaType) -> str:
assert self._schema is not None
# Map the various integer types to plain int
if typ.json_type() == 'int':
typ = self._schema.lookup_type('int')
elif (isinstance(typ, QAPISchemaArrayType) and
typ.element_type.json_type() == 'int'):
typ = self._schema.lookup_type('intList')
# Add type to work queue if new
if typ not in self._used_types:
self._used_types.append(typ)
# Clients should examine commands and events, not types. Hide
# type names as integers to reduce the temptation. Also, it
# saves a few characters on the wire.
if isinstance(typ, QAPISchemaBuiltinType):
return typ.name
if isinstance(typ, QAPISchemaArrayType):
return '[' + self._use_type(typ.element_type) + ']'
return self._name(typ.name)
@staticmethod
def _gen_features(features: Sequence[QAPISchemaFeature]
) -> List[Annotated[str]]:
return [Annotated(f.name, f.ifcond) for f in features]
def _gen_tree(self, name: str, mtype: str, obj: Dict[str, object],
ifcond: QAPISchemaIfCond = QAPISchemaIfCond(),
features: Sequence[QAPISchemaFeature] = ()) -> None:
"""
Build and append a SchemaInfo object to self._trees.
:param name: The SchemaInfo's name.
:param mtype: The SchemaInfo's meta-type.
:param obj: Additional SchemaInfo members, as appropriate for
the meta-type.
:param ifcond: Conditionals to apply to the SchemaInfo.
:param features: The SchemaInfo's features.
Will be omitted from the output if empty.
"""
comment: Optional[str] = None
if mtype not in ('command', 'event', 'builtin', 'array'):
if not self._unmask:
# Output a comment to make it easy to map masked names
# back to the source when reading the generated output.
comment = f'"{self._name(name)}" = {name}'
name = self._name(name)
obj['name'] = name
obj['meta-type'] = mtype
if features:
obj['features'] = self._gen_features(features)
self._trees.append(Annotated(obj, ifcond, comment))
def _gen_enum_member(self, member: QAPISchemaEnumMember
) -> Annotated[SchemaInfoEnumMember]:
obj: SchemaInfoEnumMember = {
'name': member.name,
}
if member.features:
obj['features'] = self._gen_features(member.features)
return Annotated(obj, member.ifcond)
def _gen_object_member(self, member: QAPISchemaObjectTypeMember
) -> Annotated[SchemaInfoObjectMember]:
obj: SchemaInfoObjectMember = {
'name': member.name,
'type': self._use_type(member.type)
}
if member.optional:
obj['default'] = None
if member.features:
obj['features'] = self._gen_features(member.features)
return Annotated(obj, member.ifcond)
def _gen_variant(self, variant: QAPISchemaVariant
) -> Annotated[SchemaInfoObjectVariant]:
obj: SchemaInfoObjectVariant = {
'case': variant.name,
'type': self._use_type(variant.type)
}
return Annotated(obj, variant.ifcond)
def visit_builtin_type(self, name: str, info: Optional[QAPISourceInfo],
json_type: str) -> None:
self._gen_tree(name, 'builtin', {'json-type': json_type})
def visit_enum_type(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
features: List[QAPISchemaFeature],
members: List[QAPISchemaEnumMember],
prefix: Optional[str]) -> None:
self._gen_tree(
name, 'enum',
{'members': [self._gen_enum_member(m) for m in members],
'values': [Annotated(m.name, m.ifcond) for m in members]},
ifcond, features
)
def visit_array_type(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
element_type: QAPISchemaType) -> None:
element = self._use_type(element_type)
self._gen_tree('[' + element + ']', 'array', {'element-type': element},
ifcond)
def visit_object_type_flat(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
features: List[QAPISchemaFeature],
members: List[QAPISchemaObjectTypeMember],
variants: Optional[QAPISchemaVariants]) -> None:
obj: SchemaInfoObject = {
'members': [self._gen_object_member(m) for m in members]
}
if variants:
obj['tag'] = variants.tag_member.name
obj['variants'] = [self._gen_variant(v) for v in variants.variants]
self._gen_tree(name, 'object', obj, ifcond, features)
def visit_alternate_type(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
features: List[QAPISchemaFeature],
variants: QAPISchemaVariants) -> None:
self._gen_tree(
name, 'alternate',
{'members': [Annotated({'type': self._use_type(m.type)},
m.ifcond)
for m in variants.variants]},
ifcond, features
)
def visit_command(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
features: List[QAPISchemaFeature],
arg_type: Optional[QAPISchemaObjectType],
ret_type: Optional[QAPISchemaType], gen: bool,
success_response: bool, boxed: bool, allow_oob: bool,
allow_preconfig: bool, coroutine: bool) -> None:
assert self._schema is not None
arg_type = arg_type or self._schema.the_empty_object_type
ret_type = ret_type or self._schema.the_empty_object_type
obj: SchemaInfoCommand = {
'arg-type': self._use_type(arg_type),
'ret-type': self._use_type(ret_type)
}
if allow_oob:
obj['allow-oob'] = allow_oob
self._gen_tree(name, 'command', obj, ifcond, features)
def visit_event(self, name: str, info: Optional[QAPISourceInfo],
ifcond: QAPISchemaIfCond,
features: List[QAPISchemaFeature],
arg_type: Optional[QAPISchemaObjectType],
boxed: bool) -> None:
assert self._schema is not None
arg_type = arg_type or self._schema.the_empty_object_type
self._gen_tree(name, 'event', {'arg-type': self._use_type(arg_type)},
ifcond, features)
def gen_introspect(schema: QAPISchema, output_dir: str, prefix: str,
opt_unmask: bool) -> None:
vis = QAPISchemaGenIntrospectVisitor(prefix, opt_unmask)
schema.visit(vis)
vis.write(output_dir)