| #!/usr/bin/env python |
| |
| import logging |
| |
| from lark import Lark |
| from lark.visitors import Transformer, v_args |
| |
| try: |
| from .matter_idl_types import * |
| except: |
| import os |
| import sys |
| sys.path.append(os.path.abspath(os.path.dirname(__file__))) |
| |
| from matter_idl_types import * |
| |
| |
| class AddServerClusterToEndpointTransform: |
| """Provides an 'apply' method that can be run on endpoints |
| to add a server cluster to the given endpoint. |
| """ |
| |
| def __init__(self, cluster: ServerClusterInstantiation): |
| self.cluster = cluster |
| |
| def apply(self, endpoint): |
| endpoint.server_clusters.append(self.cluster) |
| |
| |
| class AddBindingToEndpointTransform: |
| """Provides an 'apply' method that can be run on endpoints |
| to add a cluster binding to the given endpoint. |
| """ |
| |
| def __init__(self, name): |
| self.name = name |
| |
| def apply(self, endpoint): |
| endpoint.client_bindings.append(self.name) |
| |
| |
| class AddDeviceTypeToEndpointTransform: |
| """Provides an 'apply' method that can be run on endpoints |
| to add a device type to it |
| """ |
| |
| def __init__(self, device_type: DeviceType): |
| self.device_type = device_type |
| |
| def apply(self, endpoint): |
| endpoint.device_types.append(self.device_type) |
| |
| |
| class MatterIdlTransformer(Transformer): |
| """ |
| A transformer capable to transform data parsed by Lark according to |
| matter_grammar.lark. |
| |
| Generally transforms a ".matter" file into an Abstract Syntax Tree (AST). |
| End result will be a `matter_idl_types.Idl` value that represents the |
| entire parsed .matter file. |
| |
| The content of this file closely resembles the .lark input file and its |
| purpose is to convert LARK tokens (that ar generally inputted by name) |
| into underlying python types. |
| |
| Some documentation to get started is available at |
| https://lark-parser.readthedocs.io/en/latest/visitors.html#transformer |
| |
| TLDR would be: |
| When the ".lark" defines a token like `foo: number`, the transformer |
| has the option to define a method called `foo` which will take the |
| parsed input (as strings unless transformed) and interpret them. |
| |
| Actual parametes to the methods depend on the rules multiplicity and/or |
| optionality. |
| """ |
| |
| def __init__(self, skip_meta): |
| self.skip_meta = skip_meta |
| |
| def positive_integer(self, tokens): |
| """Numbers in the grammar are integers or hex numbers. |
| """ |
| if len(tokens) != 1: |
| raise Error("Unexpected argument counts") |
| |
| n = tokens[0].value |
| if n.startswith('0x'): |
| return int(n[2:], 16) |
| else: |
| return int(n) |
| |
| @v_args(inline=True) |
| def negative_integer(self, value): |
| return -value |
| |
| @v_args(inline=True) |
| def integer(self, value): |
| return value |
| |
| def bool_default_true(self, _): |
| return True |
| |
| def bool_default_false(self, _): |
| return False |
| |
| def id(self, tokens): |
| """An id is a string containing an identifier |
| """ |
| if len(tokens) != 1: |
| raise Error("Unexpected argument counts") |
| return tokens[0].value |
| |
| def type(self, tokens): |
| """A type is just a string for the type |
| """ |
| if len(tokens) != 1: |
| raise Error("Unexpected argument counts") |
| return tokens[0].value |
| |
| def data_type(self, tokens): |
| if len(tokens) == 1: |
| return DataType(name=tokens[0]) |
| # Just a string for data type |
| elif len(tokens) == 2: |
| return DataType(name=tokens[0], max_length=tokens[1]) |
| else: |
| raise Error("Unexpected size for data type") |
| |
| @v_args(inline=True) |
| def constant_entry(self, id, number): |
| return ConstantEntry(name=id, code=number) |
| |
| @v_args(inline=True) |
| def enum(self, id, type, *entries): |
| return Enum(name=id, base_type=type, entries=list(entries)) |
| |
| @v_args(inline=True) |
| def bitmap(self, id, type, *entries): |
| return Bitmap(name=id, base_type=type, entries=list(entries)) |
| |
| def field(self, args): |
| data_type, name = args[0], args[1] |
| is_list = (len(args) == 4) |
| code = args[-1] |
| |
| return Field(data_type=data_type, name=name, code=code, is_list=is_list) |
| |
| def optional(self, _): |
| return FieldAttribute.OPTIONAL |
| |
| def nullable(self, _): |
| return FieldAttribute.NULLABLE |
| |
| def attr_readonly(self, _): |
| return AttributeTag.READABLE |
| |
| def attr_nosubscribe(self, _): |
| return AttributeTag.NOSUBSCRIBE |
| |
| def critical_priority(self, _): |
| return EventPriority.CRITICAL |
| |
| def info_priority(self, _): |
| return EventPriority.INFO |
| |
| def debug_priority(self, _): |
| return EventPriority.DEBUG |
| |
| def timed_command(self, _): |
| return CommandAttribute.TIMED_INVOKE |
| |
| def command_attributes(self, attrs): |
| # List because attrs is a tuple |
| return set(list(attrs)) |
| |
| def struct_field(self, args): |
| # Last argument is the named_member, the rest |
| # are attributes |
| field = args[-1] |
| field.attributes = set(args[:-1]) |
| return field |
| |
| def server_cluster(self, _): |
| return ClusterSide.SERVER |
| |
| def client_cluster(self, _): |
| return ClusterSide.CLIENT |
| |
| def command_access(self, privilege): |
| return privilege[0] |
| |
| def command_with_access(self, args): |
| # Arguments |
| # - optional access for invoke |
| # - event identifier (name) |
| init_args = { |
| "name": args[-1] |
| } |
| if len(args) > 1: |
| init_args["invokeacl"] = args[0] |
| |
| return init_args |
| |
| def command(self, args): |
| # A command has 4 arguments if no input or |
| # 5 arguments if input parameter is available |
| param_in = None |
| if len(args) > 4: |
| param_in = args[2] |
| |
| return Command( |
| attributes=args[0], input_param=param_in, output_param=args[-2], code=args[-1], **args[1]) |
| |
| def event_access(self, privilege): |
| return privilege[0] |
| |
| def event_with_access(self, args): |
| # Arguments |
| # - optional access for read |
| # - event identifier (name) |
| init_args = { |
| "name": args[-1] |
| } |
| if len(args) > 1: |
| init_args["readacl"] = args[0] |
| |
| return init_args |
| |
| def event(self, args): |
| return Event(priority=args[0], code=args[2], fields=args[3:], **args[1]) |
| |
| def view_privilege(self, args): |
| return AccessPrivilege.VIEW |
| |
| def operate_privilege(self, args): |
| return AccessPrivilege.OPERATE |
| |
| def manage_privilege(self, args): |
| return AccessPrivilege.MANAGE |
| |
| def administer_privilege(self, args): |
| return AccessPrivilege.ADMINISTER |
| |
| def read_access(self, args): |
| return AttributeOperation.READ |
| |
| def write_access(self, args): |
| return AttributeOperation.WRITE |
| |
| @v_args(inline=True) |
| def attribute_access_entry(self, operation, access): |
| return (operation, access) |
| |
| def attribute_access(self, value): |
| # return value as-is to not need to deal with trees in `attribute_with_access` |
| return value |
| |
| def attribute_with_access(self, args): |
| # Input arguments are: |
| # - acl (optional list of pairs operation + access) |
| # - field definition |
| acl = {} |
| if len(args) > 1: |
| for operation, access in args[0]: |
| if operation == AttributeOperation.READ: |
| acl['readacl'] = access |
| elif operation == AttributeOperation.WRITE: |
| acl['writeacl'] = access |
| else: |
| raise Exception("Unknown attribute operation: %r" % operation) |
| |
| return (args[-1], acl) |
| |
| def ram_attribute(self, _): |
| return AttributeStorage.RAM |
| |
| def persist_attribute(self, _): |
| return AttributeStorage.PERSIST |
| |
| def callback_attribute(self, _): |
| return AttributeStorage.CALLBACK |
| |
| @v_args(meta=True, inline=True) |
| def endpoint_attribute_instantiation(self, meta, storage, id, default=None): |
| meta = None if self.skip_meta else ParseMetaData(meta) |
| return AttributeInstantiation(parse_meta=meta, name=id, storage=storage, default=default) |
| |
| def ESCAPED_STRING(self, s): |
| # handle escapes, skip the start and end quotes |
| return s.value[1:-1].encode('utf-8').decode('unicode-escape') |
| |
| def attribute(self, args): |
| tags = set(args[:-1]) |
| (definition, acl) = args[-1] |
| |
| # until we support write only (and need a bit of a reshuffle) |
| # if the 'attr_readonly == READABLE' is not in the list, we make things |
| # read/write |
| if AttributeTag.READABLE not in tags: |
| tags.add(AttributeTag.READABLE) |
| tags.add(AttributeTag.WRITABLE) |
| |
| return Attribute(definition=definition, tags=tags, **acl) |
| |
| @v_args(inline=True) |
| def struct(self, id, *fields): |
| return Struct(name=id, fields=list(fields)) |
| |
| @v_args(inline=True) |
| def request_struct(self, value): |
| value.tag = StructTag.REQUEST |
| return value |
| |
| @v_args(inline=True) |
| def response_struct(self, id, code, *fields): |
| return Struct(name=id, tag=StructTag.RESPONSE, code=code, fields=list(fields)) |
| |
| @v_args(inline=True) |
| def endpoint(self, number, *transforms): |
| endpoint = Endpoint(number=number) |
| |
| for t in transforms: |
| t.apply(endpoint) |
| |
| return endpoint |
| |
| @v_args(inline=True) |
| def endpoint_device_type(self, name, code): |
| return AddDeviceTypeToEndpointTransform(DeviceType(name=name, code=code)) |
| |
| @v_args(inline=True) |
| def endpoint_cluster_binding(self, id): |
| return AddBindingToEndpointTransform(id) |
| |
| @v_args(meta=True, inline=True) |
| def endpoint_server_cluster(self, meta, id, *attributes): |
| meta = None if self.skip_meta else ParseMetaData(meta) |
| return AddServerClusterToEndpointTransform(ServerClusterInstantiation(parse_meta=meta, name=id, attributes=list(attributes))) |
| |
| @v_args(inline=True, meta=True) |
| def cluster(self, meta, side, name, code, *content): |
| meta = None if self.skip_meta else ParseMetaData(meta) |
| |
| result = Cluster(parse_meta=meta, side=side, name=name, code=code) |
| |
| for item in content: |
| if type(item) == Enum: |
| result.enums.append(item) |
| elif type(item) == Bitmap: |
| result.bitmaps.append(item) |
| elif type(item) == Event: |
| result.events.append(item) |
| elif type(item) == Attribute: |
| result.attributes.append(item) |
| elif type(item) == Struct: |
| result.structs.append(item) |
| elif type(item) == Command: |
| result.commands.append(item) |
| else: |
| raise Exception("UNKNOWN cluster content item: %r" % item) |
| |
| return result |
| |
| def idl(self, items): |
| idl = Idl() |
| |
| for item in items: |
| if type(item) == Enum: |
| idl.enums.append(item) |
| elif type(item) == Struct: |
| idl.structs.append(item) |
| elif type(item) == Cluster: |
| idl.clusters.append(item) |
| elif type(item) == Endpoint: |
| idl.endpoints.append(item) |
| else: |
| raise Exception("UNKNOWN idl content item: %r" % item) |
| |
| return idl |
| |
| |
| class ParserWithLines: |
| def __init__(self, parser, skip_meta: bool): |
| self.parser = parser |
| self.skip_meta = skip_meta |
| |
| def parse(self, file, file_name: str = None): |
| idl = MatterIdlTransformer(self.skip_meta).transform(self.parser.parse(file)) |
| idl.parse_file_name = file_name |
| return idl |
| |
| |
| def CreateParser(skip_meta: bool = False): |
| """ |
| Generates a parser that will process a ".matter" file into a IDL |
| """ |
| return ParserWithLines(Lark.open('matter_grammar.lark', rel_to=__file__, start='idl', parser='lalr', propagate_positions=True), skip_meta) |
| |
| |
| if __name__ == '__main__': |
| # This Parser is generally not intended to be run as a stand-alone binary. |
| # The ability to run is for debug and to print out the parsed AST. |
| import click |
| import coloredlogs |
| import pprint |
| |
| # Supported log levels, mapping string values required for argument |
| # parsing into logging constants |
| __LOG_LEVELS__ = { |
| 'debug': logging.DEBUG, |
| 'info': logging.INFO, |
| 'warn': logging.WARN, |
| 'fatal': logging.FATAL, |
| } |
| |
| @click.command() |
| @click.option( |
| '--log-level', |
| default='INFO', |
| type=click.Choice(__LOG_LEVELS__.keys(), case_sensitive=False), |
| help='Determines the verbosity of script output.') |
| @click.argument('filename') |
| def main(log_level, filename=None): |
| coloredlogs.install(level=__LOG_LEVELS__[ |
| log_level], fmt='%(asctime)s %(levelname)-7s %(message)s') |
| |
| logging.info("Starting to parse ...") |
| data = CreateParser().parse(open(filename).read(), file_name=filename) |
| logging.info("Parse completed") |
| |
| logging.info("Data:") |
| pprint.pp(data) |
| |
| main() |