""" Multicast DNS Service Discovery for Python, v0.14-wmcbrine Copyright 2003 Paul Scott-Murphy, 2014 William McBrine This module provides a framework for the use of DNS Service Discovery using IP multicast. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA """ import asyncio import random import sys from ipaddress import IPv4Address, IPv6Address, _BaseAddress from typing import TYPE_CHECKING, Dict, List, Optional, Set, Union, cast from .._cache import DNSCache from .._dns import ( DNSAddress, DNSNsec, DNSPointer, DNSQuestion, DNSQuestionType, DNSRecord, DNSService, DNSText, ) from .._exceptions import BadTypeInNameException from .._history import QuestionHistory from .._logger import log from .._protocol.outgoing import DNSOutgoing from .._record_update import RecordUpdate from .._updates import RecordUpdateListener from .._utils.asyncio import ( _resolve_all_futures_to_none, get_running_loop, run_coro_with_timeout, wait_for_future_set_or_timeout, ) from .._utils.ipaddress import ( cached_ip_addresses, get_ip_address_object_from_record, ip_bytes_and_scope_to_address, str_without_scope_id, ) from .._utils.name import service_type_name from .._utils.net import IPVersion, _encode_address from .._utils.time import current_time_millis from ..const import ( _ADDRESS_RECORD_TYPES, _CLASS_IN, _CLASS_IN_UNIQUE, _DNS_HOST_TTL, _DNS_OTHER_TTL, _DUPLICATE_QUESTION_INTERVAL, _FLAGS_QR_QUERY, _LISTENER_TIME, _MDNS_PORT, _TYPE_A, _TYPE_AAAA, _TYPE_NSEC, _TYPE_PTR, _TYPE_SRV, _TYPE_TXT, ) IPADDRESS_SUPPORTS_SCOPE_ID = sys.version_info >= (3, 9, 0) _IPVersion_All_value = IPVersion.All.value _IPVersion_V4Only_value = IPVersion.V4Only.value # https://datatracker.ietf.org/doc/html/rfc6762#section-5.2 # The most common case for calling ServiceInfo is from a # ServiceBrowser. After the first request we add a few random # milliseconds to the delay between requests to reduce the chance # that there are multiple ServiceBrowser callbacks running on # the network that are firing at the same time when they # see the same multicast response and decide to refresh # the A/AAAA/SRV records for a host. _AVOID_SYNC_DELAY_RANDOM_INTERVAL = (20, 120) bytes_ = bytes float_ = float int_ = int str_ = str QU_QUESTION = DNSQuestionType.QU QM_QUESTION = DNSQuestionType.QM randint = random.randint if TYPE_CHECKING: from .._core import Zeroconf def instance_name_from_service_info(info: "ServiceInfo", strict: bool = True) -> str: """Calculate the instance name from the ServiceInfo.""" # This is kind of funky because of the subtype based tests # need to make subtypes a first class citizen service_name = service_type_name(info.name, strict=strict) if not info.type.endswith(service_name): raise BadTypeInNameException return info.name[: -len(service_name) - 1] class ServiceInfo(RecordUpdateListener): """Service information. Constructor parameters are as follows: * `type_`: fully qualified service type name * `name`: fully qualified service name * `port`: port that the service runs on * `weight`: weight of the service * `priority`: priority of the service * `properties`: dictionary of properties (or a bytes object holding the contents of the `text` field). converted to str and then encoded to bytes using UTF-8. Keys with `None` values are converted to value-less attributes. * `server`: fully qualified name for service host (defaults to name) * `host_ttl`: ttl used for A/SRV records * `other_ttl`: ttl used for PTR/TXT records * `addresses` and `parsed_addresses`: List of IP addresses (either as bytes, network byte order, or in parsed form as text; at most one of those parameters can be provided) * interface_index: scope_id or zone_id for IPv6 link-local addresses i.e. an identifier of the interface where the peer is connected to """ __slots__ = ( "text", "type", "_name", "key", "_ipv4_addresses", "_ipv6_addresses", "port", "weight", "priority", "server", "server_key", "_properties", "_decoded_properties", "host_ttl", "other_ttl", "interface_index", "_new_records_futures", "_dns_pointer_cache", "_dns_service_cache", "_dns_text_cache", "_dns_address_cache", "_get_address_and_nsec_records_cache", ) def __init__( self, type_: str, name: str, port: Optional[int] = None, weight: int = 0, priority: int = 0, properties: Union[bytes, Dict] = b'', server: Optional[str] = None, host_ttl: int = _DNS_HOST_TTL, other_ttl: int = _DNS_OTHER_TTL, *, addresses: Optional[List[bytes]] = None, parsed_addresses: Optional[List[str]] = None, interface_index: Optional[int] = None, ) -> None: # Accept both none, or one, but not both. if addresses is not None and parsed_addresses is not None: raise TypeError("addresses and parsed_addresses cannot be provided together") if not type_.endswith(service_type_name(name, strict=False)): raise BadTypeInNameException self.interface_index = interface_index self.text = b'' self.type = type_ self._name = name self.key = name.lower() self._ipv4_addresses: List[IPv4Address] = [] self._ipv6_addresses: List[IPv6Address] = [] if addresses is not None: self.addresses = addresses elif parsed_addresses is not None: self.addresses = [_encode_address(a) for a in parsed_addresses] self.port = port self.weight = weight self.priority = priority self.server = server if server else None self.server_key = server.lower() if server else None self._properties: Optional[Dict[bytes, Optional[bytes]]] = None self._decoded_properties: Optional[Dict[str, Optional[str]]] = None if isinstance(properties, bytes): self._set_text(properties) else: self._set_properties(properties) self.host_ttl = host_ttl self.other_ttl = other_ttl self._new_records_futures: Optional[Set[asyncio.Future]] = None self._dns_address_cache: Optional[List[DNSAddress]] = None self._dns_pointer_cache: Optional[DNSPointer] = None self._dns_service_cache: Optional[DNSService] = None self._dns_text_cache: Optional[DNSText] = None self._get_address_and_nsec_records_cache: Optional[Set[DNSRecord]] = None @property def name(self) -> str: """The name of the service.""" return self._name @name.setter def name(self, name: str) -> None: """Replace the the name and reset the key.""" self._name = name self.key = name.lower() self._dns_service_cache = None self._dns_pointer_cache = None self._dns_text_cache = None @property def addresses(self) -> List[bytes]: """IPv4 addresses of this service. Only IPv4 addresses are returned for backward compatibility. Use :meth:`addresses_by_version` or :meth:`parsed_addresses` to include IPv6 addresses as well. """ return self.addresses_by_version(IPVersion.V4Only) @addresses.setter def addresses(self, value: List[bytes]) -> None: """Replace the addresses list. This replaces all currently stored addresses, both IPv4 and IPv6. """ self._ipv4_addresses.clear() self._ipv6_addresses.clear() self._dns_address_cache = None self._get_address_and_nsec_records_cache = None for address in value: if IPADDRESS_SUPPORTS_SCOPE_ID and len(address) == 16 and self.interface_index is not None: addr = ip_bytes_and_scope_to_address(address, self.interface_index) else: addr = cached_ip_addresses(address) if addr is None: raise TypeError( "Addresses must either be IPv4 or IPv6 strings, bytes, or integers;" f" got {address!r}. Hint: convert string addresses with socket.inet_pton" ) if addr.version == 4: if TYPE_CHECKING: assert isinstance(addr, IPv4Address) self._ipv4_addresses.append(addr) else: if TYPE_CHECKING: assert isinstance(addr, IPv6Address) self._ipv6_addresses.append(addr) @property def properties(self) -> Dict[bytes, Optional[bytes]]: """Return properties as bytes.""" if self._properties is None: self._unpack_text_into_properties() if TYPE_CHECKING: assert self._properties is not None return self._properties @property def decoded_properties(self) -> Dict[str, Optional[str]]: """Return properties as strings.""" if self._decoded_properties is None: self._generate_decoded_properties() if TYPE_CHECKING: assert self._decoded_properties is not None return self._decoded_properties def async_clear_cache(self) -> None: """Clear the cache for this service info.""" self._dns_address_cache = None self._dns_pointer_cache = None self._dns_service_cache = None self._dns_text_cache = None self._get_address_and_nsec_records_cache = None async def async_wait(self, timeout: float, loop: Optional[asyncio.AbstractEventLoop] = None) -> None: """Calling task waits for a given number of milliseconds or until notified.""" if not self._new_records_futures: self._new_records_futures = set() await wait_for_future_set_or_timeout( loop or asyncio.get_running_loop(), self._new_records_futures, timeout ) def addresses_by_version(self, version: IPVersion) -> List[bytes]: """List addresses matching IP version. Addresses are guaranteed to be returned in LIFO (last in, first out) order with IPv4 addresses first and IPv6 addresses second. This means the first address will always be the most recently added address of the given IP version. """ version_value = version.value if version_value == _IPVersion_All_value: ip_v4_packed = [addr.packed for addr in self._ipv4_addresses] ip_v6_packed = [addr.packed for addr in self._ipv6_addresses] return [*ip_v4_packed, *ip_v6_packed] if version_value == _IPVersion_V4Only_value: return [addr.packed for addr in self._ipv4_addresses] return [addr.packed for addr in self._ipv6_addresses] def ip_addresses_by_version( self, version: IPVersion ) -> Union[List[IPv4Address], List[IPv6Address], List[_BaseAddress]]: """List ip_address objects matching IP version. Addresses are guaranteed to be returned in LIFO (last in, first out) order with IPv4 addresses first and IPv6 addresses second. This means the first address will always be the most recently added address of the given IP version. """ return self._ip_addresses_by_version_value(version.value) def _ip_addresses_by_version_value( self, version_value: int_ ) -> Union[List[IPv4Address], List[IPv6Address]]: """Backend for addresses_by_version that uses the raw value.""" if version_value == _IPVersion_All_value: return [*self._ipv4_addresses, *self._ipv6_addresses] # type: ignore[return-value] if version_value == _IPVersion_V4Only_value: return self._ipv4_addresses return self._ipv6_addresses def parsed_addresses(self, version: IPVersion = IPVersion.All) -> List[str]: """List addresses in their parsed string form. Addresses are guaranteed to be returned in LIFO (last in, first out) order with IPv4 addresses first and IPv6 addresses second. This means the first address will always be the most recently added address of the given IP version. """ return [str_without_scope_id(addr) for addr in self._ip_addresses_by_version_value(version.value)] def parsed_scoped_addresses(self, version: IPVersion = IPVersion.All) -> List[str]: """Equivalent to parsed_addresses, with the exception that IPv6 Link-Local addresses are qualified with % when available Addresses are guaranteed to be returned in LIFO (last in, first out) order with IPv4 addresses first and IPv6 addresses second. This means the first address will always be the most recently added address of the given IP version. """ return [str(addr) for addr in self._ip_addresses_by_version_value(version.value)] def _set_properties(self, properties: Dict[Union[str, bytes], Optional[Union[str, bytes]]]) -> None: """Sets properties and text of this info from a dictionary""" list_: List[bytes] = [] properties_contain_str = False result = b'' for key, value in properties.items(): if isinstance(key, str): key = key.encode('utf-8') properties_contain_str = True record = key if value is not None: if not isinstance(value, bytes): value = str(value).encode('utf-8') properties_contain_str = True record += b'=' + value list_.append(record) for item in list_: result = b''.join((result, bytes((len(item),)), item)) if not properties_contain_str: # If there are no str keys or values, we can use the properties # as-is, without decoding them, otherwise calling # self.properties will lazy decode them, which is expensive. if TYPE_CHECKING: self._properties = cast("Dict[bytes, Optional[bytes]]", properties) else: self._properties = properties self.text = result def _set_text(self, text: bytes) -> None: """Sets properties and text given a text field""" if text == self.text: return self.text = text # Clear the properties cache self._properties = None self._decoded_properties = None def _generate_decoded_properties(self) -> None: """Generates decoded properties from the properties""" self._decoded_properties = { k.decode("ascii", "replace"): None if v is None else v.decode("utf-8", "replace") for k, v in self.properties.items() } def _unpack_text_into_properties(self) -> None: """Unpacks the text field into properties""" text = self.text end = len(text) if end == 0: # Properties should be set atomically # in case another thread is reading them self._properties = {} return index = 0 properties: Dict[bytes, Optional[bytes]] = {} while index < end: length = text[index] index += 1 key_value = text[index : index + length] key_sep_value = key_value.partition(b'=') key = key_sep_value[0] if key not in properties: properties[key] = key_sep_value[2] or None index += length self._properties = properties def get_name(self) -> str: """Name accessor""" return self._name[: len(self._name) - len(self.type) - 1] def _get_ip_addresses_from_cache_lifo( self, zc: 'Zeroconf', now: float_, type: int_ ) -> List[Union[IPv4Address, IPv6Address]]: """Set IPv6 addresses from the cache.""" address_list: List[Union[IPv4Address, IPv6Address]] = [] for record in self._get_address_records_from_cache_by_type(zc, type): if record.is_expired(now): continue ip_addr = get_ip_address_object_from_record(record) if ip_addr is not None and ip_addr not in address_list: address_list.append(ip_addr) address_list.reverse() # Reverse to get LIFO order return address_list def _set_ipv6_addresses_from_cache(self, zc: 'Zeroconf', now: float_) -> None: """Set IPv6 addresses from the cache.""" if TYPE_CHECKING: self._ipv6_addresses = cast( "List[IPv6Address]", self._get_ip_addresses_from_cache_lifo(zc, now, _TYPE_AAAA) ) else: self._ipv6_addresses = self._get_ip_addresses_from_cache_lifo(zc, now, _TYPE_AAAA) def _set_ipv4_addresses_from_cache(self, zc: 'Zeroconf', now: float_) -> None: """Set IPv4 addresses from the cache.""" if TYPE_CHECKING: self._ipv4_addresses = cast( "List[IPv4Address]", self._get_ip_addresses_from_cache_lifo(zc, now, _TYPE_A) ) else: self._ipv4_addresses = self._get_ip_addresses_from_cache_lifo(zc, now, _TYPE_A) def async_update_records(self, zc: 'Zeroconf', now: float_, records: List[RecordUpdate]) -> None: """Updates service information from a DNS record. This method will be run in the event loop. """ new_records_futures = self._new_records_futures updated: bool = False for record_update in records: updated |= self._process_record_threadsafe(zc, record_update.new, now) if updated and new_records_futures: _resolve_all_futures_to_none(new_records_futures) def _process_record_threadsafe(self, zc: 'Zeroconf', record: DNSRecord, now: float_) -> bool: """Thread safe record updating. Returns True if a new record was added. """ if record.is_expired(now): return False record_key = record.key record_type = type(record) if record_type is DNSAddress and record_key == self.server_key: dns_address_record = record if TYPE_CHECKING: assert isinstance(dns_address_record, DNSAddress) ip_addr = get_ip_address_object_from_record(dns_address_record) if ip_addr is None: log.warning( "Encountered invalid address while processing %s: %s", dns_address_record, dns_address_record.address, ) return False if ip_addr.version == 4: if TYPE_CHECKING: assert isinstance(ip_addr, IPv4Address) ipv4_addresses = self._ipv4_addresses if ip_addr not in ipv4_addresses: ipv4_addresses.insert(0, ip_addr) return True elif ip_addr != ipv4_addresses[0]: ipv4_addresses.remove(ip_addr) ipv4_addresses.insert(0, ip_addr) return False if TYPE_CHECKING: assert isinstance(ip_addr, IPv6Address) ipv6_addresses = self._ipv6_addresses if ip_addr not in self._ipv6_addresses: ipv6_addresses.insert(0, ip_addr) return True elif ip_addr != self._ipv6_addresses[0]: ipv6_addresses.remove(ip_addr) ipv6_addresses.insert(0, ip_addr) return False if record_key != self.key: return False if record_type is DNSText: dns_text_record = record if TYPE_CHECKING: assert isinstance(dns_text_record, DNSText) self._set_text(dns_text_record.text) return True if record_type is DNSService: dns_service_record = record if TYPE_CHECKING: assert isinstance(dns_service_record, DNSService) old_server_key = self.server_key self._name = dns_service_record.name self.key = dns_service_record.key self.server = dns_service_record.server self.server_key = dns_service_record.server_key self.port = dns_service_record.port self.weight = dns_service_record.weight self.priority = dns_service_record.priority if old_server_key != self.server_key: self._set_ipv4_addresses_from_cache(zc, now) self._set_ipv6_addresses_from_cache(zc, now) return True return False def dns_addresses( self, override_ttl: Optional[int] = None, version: IPVersion = IPVersion.All, ) -> List[DNSAddress]: """Return matching DNSAddress from ServiceInfo.""" return self._dns_addresses(override_ttl, version) def _dns_addresses( self, override_ttl: Optional[int], version: IPVersion, ) -> List[DNSAddress]: """Return matching DNSAddress from ServiceInfo.""" cacheable = version is IPVersion.All and override_ttl is None if self._dns_address_cache is not None and cacheable: return self._dns_address_cache name = self.server or self._name ttl = override_ttl if override_ttl is not None else self.host_ttl class_ = _CLASS_IN_UNIQUE version_value = version.value records = [ DNSAddress( name, _TYPE_AAAA if ip_addr.version == 6 else _TYPE_A, class_, ttl, ip_addr.packed, created=0.0, ) for ip_addr in self._ip_addresses_by_version_value(version_value) ] if cacheable: self._dns_address_cache = records return records def dns_pointer(self, override_ttl: Optional[int] = None) -> DNSPointer: """Return DNSPointer from ServiceInfo.""" return self._dns_pointer(override_ttl) def _dns_pointer(self, override_ttl: Optional[int]) -> DNSPointer: """Return DNSPointer from ServiceInfo.""" cacheable = override_ttl is None if self._dns_pointer_cache is not None and cacheable: return self._dns_pointer_cache record = DNSPointer( self.type, _TYPE_PTR, _CLASS_IN, override_ttl if override_ttl is not None else self.other_ttl, self._name, 0.0, ) if cacheable: self._dns_pointer_cache = record return record def dns_service(self, override_ttl: Optional[int] = None) -> DNSService: """Return DNSService from ServiceInfo.""" return self._dns_service(override_ttl) def _dns_service(self, override_ttl: Optional[int]) -> DNSService: """Return DNSService from ServiceInfo.""" cacheable = override_ttl is None if self._dns_service_cache is not None and cacheable: return self._dns_service_cache port = self.port if TYPE_CHECKING: assert isinstance(port, int) record = DNSService( self._name, _TYPE_SRV, _CLASS_IN_UNIQUE, override_ttl if override_ttl is not None else self.host_ttl, self.priority, self.weight, port, self.server or self._name, 0.0, ) if cacheable: self._dns_service_cache = record return record def dns_text(self, override_ttl: Optional[int] = None) -> DNSText: """Return DNSText from ServiceInfo.""" return self._dns_text(override_ttl) def _dns_text(self, override_ttl: Optional[int]) -> DNSText: """Return DNSText from ServiceInfo.""" cacheable = override_ttl is None if self._dns_text_cache is not None and cacheable: return self._dns_text_cache record = DNSText( self._name, _TYPE_TXT, _CLASS_IN_UNIQUE, override_ttl if override_ttl is not None else self.other_ttl, self.text, 0.0, ) if cacheable: self._dns_text_cache = record return record def dns_nsec(self, missing_types: List[int], override_ttl: Optional[int] = None) -> DNSNsec: """Return DNSNsec from ServiceInfo.""" return self._dns_nsec(missing_types, override_ttl) def _dns_nsec(self, missing_types: List[int], override_ttl: Optional[int]) -> DNSNsec: """Return DNSNsec from ServiceInfo.""" return DNSNsec( self._name, _TYPE_NSEC, _CLASS_IN_UNIQUE, override_ttl if override_ttl is not None else self.host_ttl, self._name, missing_types, 0.0, ) def get_address_and_nsec_records(self, override_ttl: Optional[int] = None) -> Set[DNSRecord]: """Build a set of address records and NSEC records for non-present record types.""" return self._get_address_and_nsec_records(override_ttl) def _get_address_and_nsec_records(self, override_ttl: Optional[int]) -> Set[DNSRecord]: """Build a set of address records and NSEC records for non-present record types.""" cacheable = override_ttl is None if self._get_address_and_nsec_records_cache is not None and cacheable: return self._get_address_and_nsec_records_cache missing_types: Set[int] = _ADDRESS_RECORD_TYPES.copy() records: Set[DNSRecord] = set() for dns_address in self._dns_addresses(override_ttl, IPVersion.All): missing_types.discard(dns_address.type) records.add(dns_address) if missing_types: assert self.server is not None, "Service server must be set for NSEC record." records.add(self._dns_nsec(list(missing_types), override_ttl)) if cacheable: self._get_address_and_nsec_records_cache = records return records def _get_address_records_from_cache_by_type(self, zc: 'Zeroconf', _type: int_) -> List[DNSAddress]: """Get the addresses from the cache.""" if self.server_key is None: return [] cache = zc.cache if TYPE_CHECKING: records = cast("List[DNSAddress]", cache.get_all_by_details(self.server_key, _type, _CLASS_IN)) else: records = cache.get_all_by_details(self.server_key, _type, _CLASS_IN) return records def set_server_if_missing(self) -> None: """Set the server if it is missing. This function is for backwards compatibility. """ if self.server is None: self.server = self._name self.server_key = self.key def load_from_cache(self, zc: 'Zeroconf', now: Optional[float_] = None) -> bool: """Populate the service info from the cache. This method is designed to be threadsafe. """ return self._load_from_cache(zc, now or current_time_millis()) def _load_from_cache(self, zc: 'Zeroconf', now: float_) -> bool: """Populate the service info from the cache. This method is designed to be threadsafe. """ cache = zc.cache original_server_key = self.server_key cached_srv_record = cache.get_by_details(self._name, _TYPE_SRV, _CLASS_IN) if cached_srv_record: self._process_record_threadsafe(zc, cached_srv_record, now) cached_txt_record = cache.get_by_details(self._name, _TYPE_TXT, _CLASS_IN) if cached_txt_record: self._process_record_threadsafe(zc, cached_txt_record, now) if original_server_key == self.server_key: # If there is a srv which changes the server_key, # A and AAAA will already be loaded from the cache # and we do not want to do it twice for record in self._get_address_records_from_cache_by_type(zc, _TYPE_A): self._process_record_threadsafe(zc, record, now) for record in self._get_address_records_from_cache_by_type(zc, _TYPE_AAAA): self._process_record_threadsafe(zc, record, now) return self._is_complete @property def _is_complete(self) -> bool: """The ServiceInfo has all expected properties.""" return bool(self.text is not None and (self._ipv4_addresses or self._ipv6_addresses)) def request( self, zc: 'Zeroconf', timeout: float, question_type: Optional[DNSQuestionType] = None, addr: Optional[str] = None, port: int = _MDNS_PORT, ) -> bool: """Returns true if the service could be discovered on the network, and updates this object with details discovered. While it is not expected during normal operation, this function may raise EventLoopBlocked if the underlying call to `async_request` cannot be completed. """ assert zc.loop is not None and zc.loop.is_running() if zc.loop == get_running_loop(): raise RuntimeError("Use AsyncServiceInfo.async_request from the event loop") return bool( run_coro_with_timeout( self.async_request(zc, timeout, question_type, addr, port), zc.loop, timeout ) ) def _get_initial_delay(self) -> float_: return _LISTENER_TIME def _get_random_delay(self) -> int_: return randint(*_AVOID_SYNC_DELAY_RANDOM_INTERVAL) async def async_request( self, zc: 'Zeroconf', timeout: float, question_type: Optional[DNSQuestionType] = None, addr: Optional[str] = None, port: int = _MDNS_PORT, ) -> bool: """Returns true if the service could be discovered on the network, and updates this object with details discovered. This method will be run in the event loop. Passing addr and port is optional, and will default to the mDNS multicast address and port. This is useful for directing requests to a specific host that may be able to respond across subnets. """ if not zc.started: await zc.async_wait_for_start() now = current_time_millis() if self._load_from_cache(zc, now): return True if TYPE_CHECKING: assert zc.loop is not None first_request = True delay = self._get_initial_delay() next_ = now last = now + timeout try: zc.async_add_listener(self, None) while not self._is_complete: if last <= now: return False if next_ <= now: this_question_type = question_type or QU_QUESTION if first_request else QM_QUESTION out = self._generate_request_query(zc, now, this_question_type) first_request = False if out.questions: # All questions may have been suppressed # by the question history, so nothing to send, # but keep waiting for answers in case another # client on the network is asking the same # question or they have not arrived yet. zc.async_send(out, addr, port) next_ = now + delay next_ += self._get_random_delay() if this_question_type is QM_QUESTION and delay < _DUPLICATE_QUESTION_INTERVAL: # If we just asked a QM question, we need to # wait at least the duplicate question interval # before asking another QM question otherwise # its likely to be suppressed by the question # history of the remote responder. delay = _DUPLICATE_QUESTION_INTERVAL await self.async_wait(min(next_, last) - now, zc.loop) now = current_time_millis() finally: zc.async_remove_listener(self) return True def _add_question_with_known_answers( self, out: DNSOutgoing, qu_question: bool, question_history: QuestionHistory, cache: DNSCache, now: float_, name: str_, type_: int_, class_: int_, skip_if_known_answers: bool, ) -> None: """Add a question with known answers if its not suppressed.""" known_answers = { answer for answer in cache.get_all_by_details(name, type_, class_) if not answer.is_stale(now) } if skip_if_known_answers and known_answers: return question = DNSQuestion(name, type_, class_) if qu_question: question.unicast = True elif question_history.suppresses(question, now, known_answers): return else: question_history.add_question_at_time(question, now, known_answers) out.add_question(question) for answer in known_answers: out.add_answer_at_time(answer, now) def _generate_request_query( self, zc: 'Zeroconf', now: float_, question_type: DNSQuestionType ) -> DNSOutgoing: """Generate the request query.""" out = DNSOutgoing(_FLAGS_QR_QUERY) name = self._name server = self.server or name cache = zc.cache history = zc.question_history qu_question = question_type is QU_QUESTION self._add_question_with_known_answers( out, qu_question, history, cache, now, name, _TYPE_SRV, _CLASS_IN, True ) self._add_question_with_known_answers( out, qu_question, history, cache, now, name, _TYPE_TXT, _CLASS_IN, True ) self._add_question_with_known_answers( out, qu_question, history, cache, now, server, _TYPE_A, _CLASS_IN, False ) self._add_question_with_known_answers( out, qu_question, history, cache, now, server, _TYPE_AAAA, _CLASS_IN, False ) return out def __repr__(self) -> str: """String representation""" return '{}({})'.format( type(self).__name__, ', '.join( f'{name}={getattr(self, name)!r}' for name in ( 'type', 'name', 'addresses', 'port', 'weight', 'priority', 'server', 'properties', 'interface_index', ) ), )