438 lines
17 KiB
Python
438 lines
17 KiB
Python
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""" Multicast DNS Service Discovery for Python, v0.14-wmcbrine
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Copyright 2003 Paul Scott-Murphy, 2014 William McBrine
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This module provides a framework for the use of DNS Service Discovery
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using IP multicast.
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
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USA
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"""
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from typing import TYPE_CHECKING, List, Optional, Set, Tuple, Union, cast
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from .._cache import DNSCache, _UniqueRecordsType
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from .._dns import DNSAddress, DNSPointer, DNSQuestion, DNSRecord, DNSRRSet
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from .._protocol.incoming import DNSIncoming
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from .._services.info import ServiceInfo
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from .._transport import _WrappedTransport
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from .._utils.net import IPVersion
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from ..const import (
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_ADDRESS_RECORD_TYPES,
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_CLASS_IN,
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_DNS_OTHER_TTL,
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_MDNS_PORT,
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_ONE_SECOND,
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_SERVICE_TYPE_ENUMERATION_NAME,
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_TYPE_A,
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_TYPE_AAAA,
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_TYPE_ANY,
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_TYPE_NSEC,
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_TYPE_PTR,
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_TYPE_SRV,
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_TYPE_TXT,
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)
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from .answers import (
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QuestionAnswers,
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_AnswerWithAdditionalsType,
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construct_outgoing_multicast_answers,
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construct_outgoing_unicast_answers,
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)
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_RESPOND_IMMEDIATE_TYPES = {_TYPE_NSEC, _TYPE_SRV, *_ADDRESS_RECORD_TYPES}
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_EMPTY_SERVICES_LIST: List[ServiceInfo] = []
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_EMPTY_TYPES_LIST: List[str] = []
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_IPVersion_ALL = IPVersion.All
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_int = int
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_str = str
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_ANSWER_STRATEGY_SERVICE_TYPE_ENUMERATION = 0
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_ANSWER_STRATEGY_POINTER = 1
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_ANSWER_STRATEGY_ADDRESS = 2
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_ANSWER_STRATEGY_SERVICE = 3
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_ANSWER_STRATEGY_TEXT = 4
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if TYPE_CHECKING:
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from .._core import Zeroconf
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class _AnswerStrategy:
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__slots__ = ("question", "strategy_type", "types", "services")
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def __init__(
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self,
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question: DNSQuestion,
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strategy_type: _int,
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types: List[str],
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services: List[ServiceInfo],
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) -> None:
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"""Create an answer strategy."""
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self.question = question
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self.strategy_type = strategy_type
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self.types = types
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self.services = services
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class _QueryResponse:
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"""A pair for unicast and multicast DNSOutgoing responses."""
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__slots__ = (
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"_is_probe",
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"_questions",
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"_now",
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"_cache",
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"_additionals",
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"_ucast",
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"_mcast_now",
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"_mcast_aggregate",
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"_mcast_aggregate_last_second",
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)
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def __init__(self, cache: DNSCache, questions: List[DNSQuestion], is_probe: bool, now: float) -> None:
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"""Build a query response."""
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self._is_probe = is_probe
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self._questions = questions
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self._now = now
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self._cache = cache
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self._additionals: _AnswerWithAdditionalsType = {}
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self._ucast: Set[DNSRecord] = set()
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self._mcast_now: Set[DNSRecord] = set()
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self._mcast_aggregate: Set[DNSRecord] = set()
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self._mcast_aggregate_last_second: Set[DNSRecord] = set()
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def add_qu_question_response(self, answers: _AnswerWithAdditionalsType) -> None:
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"""Generate a response to a multicast QU query."""
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for record, additionals in answers.items():
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self._additionals[record] = additionals
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if self._is_probe:
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self._ucast.add(record)
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if not self._has_mcast_within_one_quarter_ttl(record):
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self._mcast_now.add(record)
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elif not self._is_probe:
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self._ucast.add(record)
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def add_ucast_question_response(self, answers: _AnswerWithAdditionalsType) -> None:
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"""Generate a response to a unicast query."""
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self._additionals.update(answers)
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self._ucast.update(answers)
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def add_mcast_question_response(self, answers: _AnswerWithAdditionalsType) -> None:
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"""Generate a response to a multicast query."""
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self._additionals.update(answers)
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for answer in answers:
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if self._is_probe:
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self._mcast_now.add(answer)
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continue
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if self._has_mcast_record_in_last_second(answer):
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self._mcast_aggregate_last_second.add(answer)
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continue
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if len(self._questions) == 1:
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question = self._questions[0]
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if question.type in _RESPOND_IMMEDIATE_TYPES:
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self._mcast_now.add(answer)
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continue
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self._mcast_aggregate.add(answer)
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def answers(
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self,
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) -> QuestionAnswers:
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"""Return answer sets that will be queued."""
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ucast = {r: self._additionals[r] for r in self._ucast}
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mcast_now = {r: self._additionals[r] for r in self._mcast_now}
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mcast_aggregate = {r: self._additionals[r] for r in self._mcast_aggregate}
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mcast_aggregate_last_second = {r: self._additionals[r] for r in self._mcast_aggregate_last_second}
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return QuestionAnswers(ucast, mcast_now, mcast_aggregate, mcast_aggregate_last_second)
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def _has_mcast_within_one_quarter_ttl(self, record: DNSRecord) -> bool:
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"""Check to see if a record has been mcasted recently.
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https://datatracker.ietf.org/doc/html/rfc6762#section-5.4
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When receiving a question with the unicast-response bit set, a
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responder SHOULD usually respond with a unicast packet directed back
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to the querier. However, if the responder has not multicast that
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record recently (within one quarter of its TTL), then the responder
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SHOULD instead multicast the response so as to keep all the peer
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caches up to date
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"""
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if TYPE_CHECKING:
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record = cast(_UniqueRecordsType, record)
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maybe_entry = self._cache.async_get_unique(record)
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return bool(maybe_entry is not None and maybe_entry.is_recent(self._now))
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def _has_mcast_record_in_last_second(self, record: DNSRecord) -> bool:
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"""Check if an answer was seen in the last second.
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Protect the network against excessive packet flooding
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https://datatracker.ietf.org/doc/html/rfc6762#section-14
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"""
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if TYPE_CHECKING:
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record = cast(_UniqueRecordsType, record)
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maybe_entry = self._cache.async_get_unique(record)
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return bool(maybe_entry is not None and self._now - maybe_entry.created < _ONE_SECOND)
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class QueryHandler:
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"""Query the ServiceRegistry."""
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__slots__ = ("zc", "registry", "cache", "question_history", "out_queue", "out_delay_queue")
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def __init__(self, zc: 'Zeroconf') -> None:
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"""Init the query handler."""
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self.zc = zc
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self.registry = zc.registry
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self.cache = zc.cache
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self.question_history = zc.question_history
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self.out_queue = zc.out_queue
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self.out_delay_queue = zc.out_delay_queue
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def _add_service_type_enumeration_query_answers(
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self, types: List[str], answer_set: _AnswerWithAdditionalsType, known_answers: DNSRRSet
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) -> None:
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"""Provide an answer to a service type enumeration query.
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https://datatracker.ietf.org/doc/html/rfc6763#section-9
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"""
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for stype in types:
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dns_pointer = DNSPointer(
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_SERVICE_TYPE_ENUMERATION_NAME, _TYPE_PTR, _CLASS_IN, _DNS_OTHER_TTL, stype, 0.0
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)
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if not known_answers.suppresses(dns_pointer):
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answer_set[dns_pointer] = set()
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def _add_pointer_answers(
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self, services: List[ServiceInfo], answer_set: _AnswerWithAdditionalsType, known_answers: DNSRRSet
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) -> None:
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"""Answer PTR/ANY question."""
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for service in services:
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# Add recommended additional answers according to
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# https://tools.ietf.org/html/rfc6763#section-12.1.
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dns_pointer = service._dns_pointer(None)
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if known_answers.suppresses(dns_pointer):
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continue
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answer_set[dns_pointer] = {
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service._dns_service(None),
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service._dns_text(None),
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*service._get_address_and_nsec_records(None),
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}
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def _add_address_answers(
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self,
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services: List[ServiceInfo],
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answer_set: _AnswerWithAdditionalsType,
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known_answers: DNSRRSet,
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type_: _int,
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) -> None:
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"""Answer A/AAAA/ANY question."""
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for service in services:
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answers: List[DNSAddress] = []
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additionals: Set[DNSRecord] = set()
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seen_types: Set[int] = set()
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for dns_address in service._dns_addresses(None, _IPVersion_ALL):
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seen_types.add(dns_address.type)
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if dns_address.type != type_:
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additionals.add(dns_address)
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elif not known_answers.suppresses(dns_address):
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answers.append(dns_address)
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missing_types: Set[int] = _ADDRESS_RECORD_TYPES - seen_types
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if answers:
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if missing_types:
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assert service.server is not None, "Service server must be set for NSEC record."
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additionals.add(service._dns_nsec(list(missing_types), None))
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for answer in answers:
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answer_set[answer] = additionals
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elif type_ in missing_types:
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assert service.server is not None, "Service server must be set for NSEC record."
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answer_set[service._dns_nsec(list(missing_types), None)] = set()
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def _answer_question(
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self,
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question: DNSQuestion,
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strategy_type: _int,
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types: List[str],
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services: List[ServiceInfo],
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known_answers: DNSRRSet,
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) -> _AnswerWithAdditionalsType:
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"""Answer a question."""
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answer_set: _AnswerWithAdditionalsType = {}
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if strategy_type == _ANSWER_STRATEGY_SERVICE_TYPE_ENUMERATION:
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self._add_service_type_enumeration_query_answers(types, answer_set, known_answers)
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elif strategy_type == _ANSWER_STRATEGY_POINTER:
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self._add_pointer_answers(services, answer_set, known_answers)
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elif strategy_type == _ANSWER_STRATEGY_ADDRESS:
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self._add_address_answers(services, answer_set, known_answers, question.type)
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elif strategy_type == _ANSWER_STRATEGY_SERVICE:
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# Add recommended additional answers according to
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# https://tools.ietf.org/html/rfc6763#section-12.2.
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service = services[0]
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dns_service = service._dns_service(None)
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if not known_answers.suppresses(dns_service):
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answer_set[dns_service] = service._get_address_and_nsec_records(None)
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elif strategy_type == _ANSWER_STRATEGY_TEXT: # pragma: no branch
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service = services[0]
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dns_text = service._dns_text(None)
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if not known_answers.suppresses(dns_text):
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answer_set[dns_text] = set()
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return answer_set
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def async_response( # pylint: disable=unused-argument
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self, msgs: List[DNSIncoming], ucast_source: bool
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) -> Optional[QuestionAnswers]:
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"""Deal with incoming query packets. Provides a response if possible.
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This function must be run in the event loop as it is not
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threadsafe.
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"""
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strategies: List[_AnswerStrategy] = []
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for msg in msgs:
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for question in msg._questions:
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strategies.extend(self._get_answer_strategies(question))
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if not strategies:
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# We have no way to answer the question because we have
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# nothing in the ServiceRegistry that matches or we do not
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# understand the question.
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return None
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is_probe = False
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msg = msgs[0]
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questions = msg._questions
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# Only decode known answers if we are not a probe and we have
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# at least one answer strategy
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answers: List[DNSRecord] = []
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for msg in msgs:
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if msg.is_probe():
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is_probe = True
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else:
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answers.extend(msg.answers())
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query_res = _QueryResponse(self.cache, questions, is_probe, msg.now)
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known_answers = DNSRRSet(answers)
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known_answers_set: Optional[Set[DNSRecord]] = None
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now = msg.now
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for strategy in strategies:
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question = strategy.question
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is_unicast = question.unique # unique and unicast are the same flag
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if not is_unicast:
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if known_answers_set is None: # pragma: no branch
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known_answers_set = known_answers.lookup_set()
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self.question_history.add_question_at_time(question, now, known_answers_set)
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answer_set = self._answer_question(
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question, strategy.strategy_type, strategy.types, strategy.services, known_answers
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)
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if not ucast_source and is_unicast:
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query_res.add_qu_question_response(answer_set)
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continue
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if ucast_source:
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query_res.add_ucast_question_response(answer_set)
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# We always multicast as well even if its a unicast
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# source as long as we haven't done it recently (75% of ttl)
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query_res.add_mcast_question_response(answer_set)
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return query_res.answers()
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def _get_answer_strategies(
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self,
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question: DNSQuestion,
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) -> List[_AnswerStrategy]:
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"""Collect strategies to answer a question."""
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name = question.name
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question_lower_name = name.lower()
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type_ = question.type
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strategies: List[_AnswerStrategy] = []
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if type_ == _TYPE_PTR and question_lower_name == _SERVICE_TYPE_ENUMERATION_NAME:
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types = self.registry.async_get_types()
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if types:
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strategies.append(
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_AnswerStrategy(
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question, _ANSWER_STRATEGY_SERVICE_TYPE_ENUMERATION, types, _EMPTY_SERVICES_LIST
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)
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)
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return strategies
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if type_ in (_TYPE_PTR, _TYPE_ANY):
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services = self.registry.async_get_infos_type(question_lower_name)
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if services:
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strategies.append(
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_AnswerStrategy(question, _ANSWER_STRATEGY_POINTER, _EMPTY_TYPES_LIST, services)
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)
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if type_ in (_TYPE_A, _TYPE_AAAA, _TYPE_ANY):
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services = self.registry.async_get_infos_server(question_lower_name)
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if services:
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strategies.append(
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_AnswerStrategy(question, _ANSWER_STRATEGY_ADDRESS, _EMPTY_TYPES_LIST, services)
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)
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if type_ in (_TYPE_SRV, _TYPE_TXT, _TYPE_ANY):
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service = self.registry.async_get_info_name(question_lower_name)
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if service is not None:
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if type_ in (_TYPE_SRV, _TYPE_ANY):
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strategies.append(
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_AnswerStrategy(question, _ANSWER_STRATEGY_SERVICE, _EMPTY_TYPES_LIST, [service])
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)
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if type_ in (_TYPE_TXT, _TYPE_ANY):
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strategies.append(
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_AnswerStrategy(question, _ANSWER_STRATEGY_TEXT, _EMPTY_TYPES_LIST, [service])
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)
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return strategies
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def handle_assembled_query(
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self,
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|
packets: List[DNSIncoming],
|
||
|
addr: _str,
|
||
|
port: _int,
|
||
|
transport: _WrappedTransport,
|
||
|
v6_flow_scope: Union[Tuple[()], Tuple[int, int]],
|
||
|
) -> None:
|
||
|
"""Respond to a (re)assembled query.
|
||
|
|
||
|
If the protocol recieved packets with the TC bit set, it will
|
||
|
wait a bit for the rest of the packets and only call
|
||
|
handle_assembled_query once it has a complete set of packets
|
||
|
or the timer expires. If the TC bit is not set, a single
|
||
|
packet will be in packets.
|
||
|
"""
|
||
|
first_packet = packets[0]
|
||
|
ucast_source = port != _MDNS_PORT
|
||
|
question_answers = self.async_response(packets, ucast_source)
|
||
|
if question_answers is None:
|
||
|
return
|
||
|
if question_answers.ucast:
|
||
|
questions = first_packet._questions
|
||
|
id_ = first_packet.id
|
||
|
out = construct_outgoing_unicast_answers(question_answers.ucast, ucast_source, questions, id_)
|
||
|
# When sending unicast, only send back the reply
|
||
|
# via the same socket that it was recieved from
|
||
|
# as we know its reachable from that socket
|
||
|
self.zc.async_send(out, addr, port, v6_flow_scope, transport)
|
||
|
if question_answers.mcast_now:
|
||
|
self.zc.async_send(construct_outgoing_multicast_answers(question_answers.mcast_now))
|
||
|
if question_answers.mcast_aggregate:
|
||
|
self.out_queue.async_add(first_packet.now, question_answers.mcast_aggregate)
|
||
|
if question_answers.mcast_aggregate_last_second:
|
||
|
# https://datatracker.ietf.org/doc/html/rfc6762#section-14
|
||
|
# If we broadcast it in the last second, we have to delay
|
||
|
# at least a second before we send it again
|
||
|
self.out_delay_queue.async_add(first_packet.now, question_answers.mcast_aggregate_last_second)
|