# -*- test-case-name: twisted.mail.test.test_mail -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Infrastructure for relaying mail through a smart host. Traditional peer-to-peer email has been increasingly replaced by smart host configurations. Instead of sending mail directly to the recipient, a sender sends mail to a smart host. The smart host finds the mail exchange server for the recipient and sends on the message. """ import email.utils import os import pickle import time from typing import Type from twisted.application import internet from twisted.internet import protocol from twisted.internet.defer import Deferred, DeferredList from twisted.internet.error import DNSLookupError from twisted.internet.protocol import connectionDone from twisted.mail import bounce, relay, smtp from twisted.python import log from twisted.python.failure import Failure class ManagedRelayerMixin: """ SMTP Relayer which notifies a manager Notify the manager about successful mail, failed mail and broken connections """ def __init__(self, manager): self.manager = manager @property def factory(self): return self._factory @factory.setter def factory(self, value): self._factory = value def sentMail(self, code, resp, numOk, addresses, log): """ called when e-mail has been sent we will always get 0 or 1 addresses. """ message = self.names[0] if code in smtp.SUCCESS: self.manager.notifySuccess(self.factory, message) else: self.manager.notifyFailure(self.factory, message) del self.messages[0] del self.names[0] def connectionLost(self, reason: Failure = connectionDone): """ called when connection is broken notify manager we will try to send no more e-mail """ self.manager.notifyDone(self.factory) class SMTPManagedRelayer(ManagedRelayerMixin, relay.SMTPRelayer): # type: ignore[misc] """ An SMTP managed relayer. This managed relayer is an SMTP client which is responsible for sending a set of messages and keeping an attempt manager informed about its progress. @type factory: L{SMTPManagedRelayerFactory} @ivar factory: The factory that created this relayer. This must be set by the factory. """ def __init__(self, messages, manager, *args, **kw): """ @type messages: L{list} of L{bytes} @param messages: The base filenames of messages to be relayed. @type manager: L{_AttemptManager} @param manager: An attempt manager. @type args: 1-L{tuple} of (0) L{bytes} or 2-L{tuple} of (0) L{bytes}, (1) L{int} @param args: Positional arguments for L{SMTPClient.__init__} @type kw: L{dict} @param kw: Keyword arguments for L{SMTPClient.__init__} """ ManagedRelayerMixin.__init__(self, manager) relay.SMTPRelayer.__init__(self, messages, *args, **kw) class ESMTPManagedRelayer(ManagedRelayerMixin, relay.ESMTPRelayer): # type: ignore[misc] """ An ESMTP managed relayer. This managed relayer is an ESMTP client which is responsible for sending a set of messages and keeping an attempt manager informed about its progress. """ def __init__(self, messages, manager, *args, **kw): """ @type messages: L{list} of L{bytes} @param messages: The base filenames of messages to be relayed. @type manager: L{_AttemptManager} @param manager: An attempt manager. @type args: 3-L{tuple} of (0) L{bytes}, (1) L{None} or L{ClientContextFactory }, (2) L{bytes} or 4-L{tuple} of (0) L{bytes}, (1) L{None} or L{ClientContextFactory }, (2) L{bytes}, (3) L{int} @param args: Positional arguments for L{ESMTPClient.__init__} @type kw: L{dict} @param kw: Keyword arguments for L{ESMTPClient.__init__} """ ManagedRelayerMixin.__init__(self, manager) relay.ESMTPRelayer.__init__(self, messages, *args, **kw) class SMTPManagedRelayerFactory(protocol.ClientFactory): """ A factory to create an L{SMTPManagedRelayer}. This factory creates a managed relayer which relays a set of messages over SMTP and informs an attempt manager of its progress. @ivar messages: See L{__init__} @ivar manager: See L{__init__} @type protocol: callable which returns L{SMTPManagedRelayer} @ivar protocol: A callable which returns a managed relayer for SMTP. See L{SMTPManagedRelayer.__init__} for parameters to the callable. @type pArgs: 1-L{tuple} of (0) L{bytes} or 2-L{tuple} of (0) L{bytes}, (1), L{int} @ivar pArgs: Positional arguments for L{SMTPClient.__init__} @type pKwArgs: L{dict} @ivar pKwArgs: Keyword arguments for L{SMTPClient.__init__} """ protocol: "Type[protocol.Protocol]" = SMTPManagedRelayer def __init__(self, messages, manager, *args, **kw): """ @type messages: L{list} of L{bytes} @param messages: The base filenames of messages to be relayed. @type manager: L{_AttemptManager} @param manager: An attempt manager. @type args: 1-L{tuple} of (0) L{bytes} or 2-L{tuple} of (0) L{bytes}, (1), L{int} @param args: Positional arguments for L{SMTPClient.__init__} @type kw: L{dict} @param kw: Keyword arguments for L{SMTPClient.__init__} """ self.messages = messages self.manager = manager self.pArgs = args self.pKwArgs = kw def buildProtocol(self, addr): """ Create an L{SMTPManagedRelayer}. @type addr: L{IAddress } provider @param addr: The address of the SMTP server. @rtype: L{SMTPManagedRelayer} @return: A managed relayer for SMTP. """ protocol = self.protocol( self.messages, self.manager, *self.pArgs, **self.pKwArgs ) protocol.factory = self return protocol def clientConnectionFailed(self, connector, reason): """ Notify the attempt manager that a connection could not be established. @type connector: L{IConnector } provider @param connector: A connector. @type reason: L{Failure} @param reason: The reason the connection attempt failed. """ self.manager.notifyNoConnection(self) self.manager.notifyDone(self) class ESMTPManagedRelayerFactory(SMTPManagedRelayerFactory): """ A factory to create an L{ESMTPManagedRelayer}. This factory creates a managed relayer which relays a set of messages over ESMTP and informs an attempt manager of its progress. @type protocol: callable which returns L{ESMTPManagedRelayer} @ivar protocol: A callable which returns a managed relayer for ESMTP. See L{ESMTPManagedRelayer.__init__} for parameters to the callable. @ivar secret: See L{__init__} @ivar contextFactory: See L{__init__} """ protocol = ESMTPManagedRelayer def __init__(self, messages, manager, secret, contextFactory, *args, **kw): """ @type messages: L{list} of L{bytes} @param messages: The base filenames of messages to be relayed. @type manager: L{_AttemptManager} @param manager: An attempt manager. @type secret: L{bytes} @param secret: A string for the authentication challenge response. @type contextFactory: L{None} or L{ClientContextFactory } @param contextFactory: An SSL context factory. @type args: 1-L{tuple} of (0) L{bytes} or 2-L{tuple} of (0) L{bytes}, (1), L{int} @param args: Positional arguments for L{SMTPClient.__init__} @param kw: Keyword arguments for L{SMTPClient.__init__} """ self.secret = secret self.contextFactory = contextFactory SMTPManagedRelayerFactory.__init__(self, messages, manager, *args, **kw) def buildProtocol(self, addr): """ Create an L{ESMTPManagedRelayer}. @type addr: L{IAddress } provider @param addr: The address of the ESMTP server. @rtype: L{ESMTPManagedRelayer} @return: A managed relayer for ESMTP. """ s = self.secret and self.secret(addr) protocol = self.protocol( self.messages, self.manager, s, self.contextFactory, *self.pArgs, **self.pKwArgs, ) protocol.factory = self return protocol class Queue: """ A queue for messages to be relayed. @ivar directory: See L{__init__} @type n: L{int} @ivar n: A number used to form unique filenames. @type waiting: L{dict} of L{bytes} @ivar waiting: The base filenames of messages waiting to be relayed. @type relayed: L{dict} of L{bytes} @ivar relayed: The base filenames of messages in the process of being relayed. @type noisy: L{bool} @ivar noisy: A flag which determines whether informational log messages will be generated (C{True}) or not (C{False}). """ noisy = True def __init__(self, directory): """ Initialize non-volatile state. @type directory: L{bytes} @param directory: The pathname of the directory holding messages in the queue. """ self.directory = directory self._init() def _init(self): """ Initialize volatile state. """ self.n = 0 self.waiting = {} self.relayed = {} self.readDirectory() def __getstate__(self): """ Create a representation of the non-volatile state of the queue. @rtype: L{dict} mapping L{bytes} to L{object} @return: The non-volatile state of the queue. """ return {"directory": self.directory} def __setstate__(self, state): """ Restore the non-volatile state of the queue and recreate the volatile state. @type state: L{dict} mapping L{bytes} to L{object} @param state: The non-volatile state of the queue. """ self.__dict__.update(state) self._init() def readDirectory(self): """ Scan the message directory for new messages. """ for message in os.listdir(self.directory): # Skip non data files if message[-2:] != "-D": continue self.addMessage(message[:-2]) def getWaiting(self): """ Return the base filenames of messages waiting to be relayed. @rtype: L{list} of L{bytes} @return: The base filenames of messages waiting to be relayed. """ return self.waiting.keys() def hasWaiting(self): """ Return an indication of whether the queue has messages waiting to be relayed. @rtype: L{bool} @return: C{True} if messages are waiting to be relayed. C{False} otherwise. """ return len(self.waiting) > 0 def getRelayed(self): """ Return the base filenames of messages in the process of being relayed. @rtype: L{list} of L{bytes} @return: The base filenames of messages in the process of being relayed. """ return self.relayed.keys() def setRelaying(self, message): """ Mark a message as being relayed. @type message: L{bytes} @param message: The base filename of a message. """ del self.waiting[message] self.relayed[message] = 1 def setWaiting(self, message): """ Mark a message as waiting to be relayed. @type message: L{bytes} @param message: The base filename of a message. """ del self.relayed[message] self.waiting[message] = 1 def addMessage(self, message): """ Mark a message as waiting to be relayed unless it is in the process of being relayed. @type message: L{bytes} @param message: The base filename of a message. """ if message not in self.relayed: self.waiting[message] = 1 if self.noisy: log.msg("Set " + message + " waiting") def done(self, message): """ Remove a message from the queue. @type message: L{bytes} @param message: The base filename of a message. """ message = os.path.basename(message) os.remove(self.getPath(message) + "-D") os.remove(self.getPath(message) + "-H") del self.relayed[message] def getPath(self, message): """ Return the full base pathname of a message in the queue. @type message: L{bytes} @param message: The base filename of a message. @rtype: L{bytes} @return: The full base pathname of the message. """ return os.path.join(self.directory, message) def getEnvelope(self, message): """ Get the envelope for a message. @type message: L{bytes} @param message: The base filename of a message. @rtype: L{list} of two L{bytes} @return: A list containing the origination and destination addresses for the message. """ with self.getEnvelopeFile(message) as f: return pickle.load(f) def getEnvelopeFile(self, message): """ Return the envelope file for a message in the queue. @type message: L{bytes} @param message: The base filename of a message. @rtype: file @return: The envelope file for the message. """ return open(os.path.join(self.directory, message + "-H"), "rb") def createNewMessage(self): """ Create a new message in the queue. @rtype: 2-L{tuple} of (0) file, (1) L{FileMessage} @return: The envelope file and a message receiver for a new message in the queue. """ fname = f"{os.getpid()}_{time.time()}_{self.n}_{id(self)}" self.n = self.n + 1 headerFile = open(os.path.join(self.directory, fname + "-H"), "wb") tempFilename = os.path.join(self.directory, fname + "-C") finalFilename = os.path.join(self.directory, fname + "-D") messageFile = open(tempFilename, "wb") from twisted.mail.mail import FileMessage return headerFile, FileMessage(messageFile, tempFilename, finalFilename) class _AttemptManager: """ A manager for an attempt to relay a set of messages to a mail exchange server. @ivar manager: See L{__init__} @type _completionDeferreds: L{list} of L{Deferred} @ivar _completionDeferreds: Deferreds which are to be notified when the attempt to relay is finished. """ def __init__(self, manager, noisy=True, reactor=None): """ @type manager: L{SmartHostSMTPRelayingManager} @param manager: A smart host. @type noisy: L{bool} @param noisy: A flag which determines whether informational log messages will be generated (L{True}) or not (L{False}). @type reactor: L{IReactorTime } provider @param reactor: A reactor which will be used to schedule delayed calls. """ self.manager = manager self._completionDeferreds = [] self.noisy = noisy if not reactor: from twisted.internet import reactor self.reactor = reactor def getCompletionDeferred(self): """ Return a deferred which will fire when the attempt to relay is finished. @rtype: L{Deferred} @return: A deferred which will fire when the attempt to relay is finished. """ self._completionDeferreds.append(Deferred()) return self._completionDeferreds[-1] def _finish(self, relay, message): """ Remove a message from the relay queue and from the smart host's list of messages being relayed. @type relay: L{SMTPManagedRelayerFactory} @param relay: The factory for the relayer which sent the message. @type message: L{bytes} @param message: The path of the file holding the message. """ self.manager.managed[relay].remove(os.path.basename(message)) self.manager.queue.done(message) def notifySuccess(self, relay, message): """ Remove a message from the relay queue after it has been successfully sent. @type relay: L{SMTPManagedRelayerFactory} @param relay: The factory for the relayer which sent the message. @type message: L{bytes} @param message: The path of the file holding the message. """ if self.noisy: log.msg("success sending %s, removing from queue" % message) self._finish(relay, message) def notifyFailure(self, relay, message): """ Generate a bounce message for a message which cannot be relayed. @type relay: L{SMTPManagedRelayerFactory} @param relay: The factory for the relayer responsible for the message. @type message: L{bytes} @param message: The path of the file holding the message. """ if self.noisy: log.msg("could not relay " + message) # Moshe - Bounce E-mail here # Be careful: if it's a bounced bounce, silently # discard it message = os.path.basename(message) with self.manager.queue.getEnvelopeFile(message) as fp: from_, to = pickle.load(fp) from_, to, bounceMessage = bounce.generateBounce( open(self.manager.queue.getPath(message) + "-D"), from_, to ) fp, outgoingMessage = self.manager.queue.createNewMessage() with fp: pickle.dump([from_, to], fp) for line in bounceMessage.splitlines(): outgoingMessage.lineReceived(line) outgoingMessage.eomReceived() self._finish(relay, self.manager.queue.getPath(message)) def notifyDone(self, relay): """ When the connection is lost or cannot be established, prepare to resend unsent messages and fire all deferred which are waiting for the completion of the attempt to relay. @type relay: L{SMTPManagedRelayerFactory} @param relay: The factory for the relayer for the connection. """ for message in self.manager.managed.get(relay, ()): if self.noisy: log.msg("Setting " + message + " waiting") self.manager.queue.setWaiting(message) try: del self.manager.managed[relay] except KeyError: pass notifications = self._completionDeferreds self._completionDeferreds = None for d in notifications: d.callback(None) def notifyNoConnection(self, relay): """ When a connection to the mail exchange server cannot be established, prepare to resend messages later. @type relay: L{SMTPManagedRelayerFactory} @param relay: The factory for the relayer meant to use the connection. """ # Back off a bit try: msgs = self.manager.managed[relay] except KeyError: log.msg("notifyNoConnection passed unknown relay!") return if self.noisy: log.msg("Backing off on delivery of " + str(msgs)) def setWaiting(queue, messages): map(queue.setWaiting, messages) self.reactor.callLater(30, setWaiting, self.manager.queue, msgs) del self.manager.managed[relay] class SmartHostSMTPRelayingManager: """ A smart host which uses SMTP managed relayers to send messages from the relay queue. L{checkState} must be called periodically at which time the state of the relay queue is checked and new relayers are created as needed. In order to relay a set of messages to a mail exchange server, a smart host creates an attempt manager and a managed relayer factory for that set of messages. When a connection is made with the mail exchange server, the managed relayer factory creates a managed relayer to send the messages. The managed relayer reports on its progress to the attempt manager which, in turn, updates the smart host's relay queue and information about its managed relayers. @ivar queue: See L{__init__}. @ivar maxConnections: See L{__init__}. @ivar maxMessagesPerConnection: See L{__init__}. @type fArgs: 3-L{tuple} of (0) L{list} of L{bytes}, (1) L{_AttemptManager}, (2) L{bytes} or 4-L{tuple} of (0) L{list} of L{bytes}, (1) L{_AttemptManager}, (2) L{bytes}, (3) L{int} @ivar fArgs: Positional arguments for L{SMTPManagedRelayerFactory.__init__}. @type fKwArgs: L{dict} @ivar fKwArgs: Keyword arguments for L{SMTPManagedRelayerFactory.__init__}. @type factory: callable which returns L{SMTPManagedRelayerFactory} @ivar factory: A callable which creates a factory for creating a managed relayer. See L{SMTPManagedRelayerFactory.__init__} for parameters to the callable. @type PORT: L{int} @ivar PORT: The port over which to connect to the SMTP server. @type mxcalc: L{None} or L{MXCalculator} @ivar mxcalc: A resource for mail exchange host lookups. @type managed: L{dict} mapping L{SMTPManagedRelayerFactory} to L{list} of L{bytes} @ivar managed: A mapping of factory for a managed relayer to filenames of messages the managed relayer is responsible for. """ factory: Type[protocol.ClientFactory] = SMTPManagedRelayerFactory PORT = 25 mxcalc = None def __init__(self, queue, maxConnections=2, maxMessagesPerConnection=10): """ Initialize a smart host. The default values specify connection limits appropriate for a low-volume smart host. @type queue: L{Queue} @param queue: A relay queue. @type maxConnections: L{int} @param maxConnections: The maximum number of concurrent connections to SMTP servers. @type maxMessagesPerConnection: L{int} @param maxMessagesPerConnection: The maximum number of messages for which a relayer will be given responsibility. """ self.maxConnections = maxConnections self.maxMessagesPerConnection = maxMessagesPerConnection self.managed = {} # SMTP clients we're managing self.queue = queue self.fArgs = () self.fKwArgs = {} def __getstate__(self): """ Create a representation of the non-volatile state of this object. @rtype: L{dict} mapping L{bytes} to L{object} @return: The non-volatile state of the queue. """ dct = self.__dict__.copy() del dct["managed"] return dct def __setstate__(self, state): """ Restore the non-volatile state of this object and recreate the volatile state. @type state: L{dict} mapping L{bytes} to L{object} @param state: The non-volatile state of the queue. """ self.__dict__.update(state) self.managed = {} def checkState(self): """ Check the state of the relay queue and, if possible, launch relayers to handle waiting messages. @rtype: L{None} or L{Deferred} @return: No return value if no further messages can be relayed or a deferred which fires when all of the SMTP connections initiated by this call have disconnected. """ self.queue.readDirectory() if len(self.managed) >= self.maxConnections: return if not self.queue.hasWaiting(): return return self._checkStateMX() def _checkStateMX(self): nextMessages = self.queue.getWaiting() nextMessages.reverse() exchanges = {} for msg in nextMessages: from_, to = self.queue.getEnvelope(msg) name, addr = email.utils.parseaddr(to) parts = addr.split("@", 1) if len(parts) != 2: log.err("Illegal message destination: " + to) continue domain = parts[1] self.queue.setRelaying(msg) exchanges.setdefault(domain, []).append(self.queue.getPath(msg)) if len(exchanges) >= (self.maxConnections - len(self.managed)): break if self.mxcalc is None: self.mxcalc = MXCalculator() relays = [] for (domain, msgs) in exchanges.iteritems(): manager = _AttemptManager(self, self.queue.noisy) factory = self.factory(msgs, manager, *self.fArgs, **self.fKwArgs) self.managed[factory] = map(os.path.basename, msgs) relayAttemptDeferred = manager.getCompletionDeferred() connectSetupDeferred = self.mxcalc.getMX(domain) connectSetupDeferred.addCallback(lambda mx: str(mx.name)) connectSetupDeferred.addCallback(self._cbExchange, self.PORT, factory) connectSetupDeferred.addErrback( lambda err: (relayAttemptDeferred.errback(err), err)[1] ) connectSetupDeferred.addErrback(self._ebExchange, factory, domain) relays.append(relayAttemptDeferred) return DeferredList(relays) def _cbExchange(self, address, port, factory): """ Initiate a connection with a mail exchange server. This callback function runs after mail exchange server for the domain has been looked up. @type address: L{bytes} @param address: The hostname of a mail exchange server. @type port: L{int} @param port: A port number. @type factory: L{SMTPManagedRelayerFactory} @param factory: A factory which can create a relayer for the mail exchange server. """ from twisted.internet import reactor reactor.connectTCP(address, port, factory) def _ebExchange(self, failure, factory, domain): """ Prepare to resend messages later. This errback function runs when no mail exchange server for the domain can be found. @type failure: L{Failure} @param failure: The reason the mail exchange lookup failed. @type factory: L{SMTPManagedRelayerFactory} @param factory: A factory which can create a relayer for the mail exchange server. @type domain: L{bytes} @param domain: A domain. """ log.err("Error setting up managed relay factory for " + domain) log.err(failure) def setWaiting(queue, messages): map(queue.setWaiting, messages) from twisted.internet import reactor reactor.callLater(30, setWaiting, self.queue, self.managed[factory]) del self.managed[factory] class SmartHostESMTPRelayingManager(SmartHostSMTPRelayingManager): """ A smart host which uses ESMTP managed relayers to send messages from the relay queue. @type factory: callable which returns L{ESMTPManagedRelayerFactory} @ivar factory: A callable which creates a factory for creating a managed relayer. See L{ESMTPManagedRelayerFactory.__init__} for parameters to the callable. """ factory = ESMTPManagedRelayerFactory def _checkState(manager): """ Prompt a relaying manager to check state. @type manager: L{SmartHostSMTPRelayingManager} @param manager: A relaying manager. """ manager.checkState() def RelayStateHelper(manager, delay): """ Set up a periodic call to prompt a relaying manager to check state. @type manager: L{SmartHostSMTPRelayingManager} @param manager: A relaying manager. @type delay: L{float} @param delay: The number of seconds between calls. @rtype: L{TimerService } @return: A service which periodically reminds a relaying manager to check state. """ return internet.TimerService(delay, _checkState, manager) class CanonicalNameLoop(Exception): """ An error indicating that when trying to look up a mail exchange host, a set of canonical name records was found which form a cycle and resolution was abandoned. """ class CanonicalNameChainTooLong(Exception): """ An error indicating that when trying to look up a mail exchange host, too many canonical name records which point to other canonical name records were encountered and resolution was abandoned. """ class MXCalculator: """ A utility for looking up mail exchange hosts and tracking whether they are working or not. @type clock: L{IReactorTime } provider @ivar clock: A reactor which will be used to schedule timeouts. @type resolver: L{IResolver } @ivar resolver: A resolver. @type badMXs: L{dict} mapping L{bytes} to L{float} @ivar badMXs: A mapping of non-functioning mail exchange hostname to time at which another attempt at contacting it may be made. @type timeOutBadMX: L{int} @ivar timeOutBadMX: Period in seconds between attempts to contact a non-functioning mail exchange host. @type fallbackToDomain: L{bool} @ivar fallbackToDomain: A flag indicating whether to attempt to use the hostname directly when no mail exchange can be found (C{True}) or not (C{False}). """ timeOutBadMX = 60 * 60 # One hour fallbackToDomain = True def __init__(self, resolver=None, clock=None): """ @type resolver: L{IResolver } provider or L{None} @param resolver: A resolver. @type clock: L{IReactorTime } provider or L{None} @param clock: A reactor which will be used to schedule timeouts. """ self.badMXs = {} if resolver is None: from twisted.names.client import createResolver resolver = createResolver() self.resolver = resolver if clock is None: from twisted.internet import reactor as clock self.clock = clock def markBad(self, mx): """ Record that a mail exchange host is not currently functioning. @type mx: L{bytes} @param mx: The hostname of a mail exchange host. """ self.badMXs[str(mx)] = self.clock.seconds() + self.timeOutBadMX def markGood(self, mx): """ Record that a mail exchange host is functioning. @type mx: L{bytes} @param mx: The hostname of a mail exchange host. """ try: del self.badMXs[mx] except KeyError: pass def getMX(self, domain, maximumCanonicalChainLength=3): """ Find the name of a host that acts as a mail exchange server for a domain. @type domain: L{bytes} @param domain: A domain name. @type maximumCanonicalChainLength: L{int} @param maximumCanonicalChainLength: The maximum number of unique canonical name records to follow while looking up the mail exchange host. @rtype: L{Deferred} which successfully fires with L{Record_MX} @return: A deferred which succeeds with the MX record for the mail exchange server for the domain or fails if none can be found. """ mailExchangeDeferred = self.resolver.lookupMailExchange(domain) mailExchangeDeferred.addCallback(self._filterRecords) mailExchangeDeferred.addCallback( self._cbMX, domain, maximumCanonicalChainLength ) mailExchangeDeferred.addErrback(self._ebMX, domain) return mailExchangeDeferred def _filterRecords(self, records): """ Organize the records of a DNS response by record name. @type records: 3-L{tuple} of (0) L{list} of L{RRHeader }, (1) L{list} of L{RRHeader }, (2) L{list} of L{RRHeader } @param records: Answer resource records, authority resource records and additional resource records. @rtype: L{dict} mapping L{bytes} to L{list} of L{IRecord } provider @return: A mapping of record name to record payload. """ recordBag = {} for answer in records[0]: recordBag.setdefault(str(answer.name), []).append(answer.payload) return recordBag def _cbMX(self, answers, domain, cnamesLeft): """ Try to find the mail exchange host for a domain from the given DNS records. This will attempt to resolve canonical name record results. It can recognize loops and will give up on non-cyclic chains after a specified number of lookups. @type answers: L{dict} mapping L{bytes} to L{list} of L{IRecord } provider @param answers: A mapping of record name to record payload. @type domain: L{bytes} @param domain: A domain name. @type cnamesLeft: L{int} @param cnamesLeft: The number of unique canonical name records left to follow while looking up the mail exchange host. @rtype: L{Record_MX } or L{Failure} @return: An MX record for the mail exchange host or a failure if one cannot be found. """ # Do this import here so that relaymanager.py doesn't depend on # twisted.names, only MXCalculator will. from twisted.names import dns, error seenAliases = set() exchanges = [] # Examine the answers for the domain we asked about pertinentRecords = answers.get(domain, []) while pertinentRecords: record = pertinentRecords.pop() # If it's a CNAME, we'll need to do some more processing if record.TYPE == dns.CNAME: # Remember that this name was an alias. seenAliases.add(domain) canonicalName = str(record.name) # See if we have some local records which might be relevant. if canonicalName in answers: # Make sure it isn't a loop contained entirely within the # results we have here. if canonicalName in seenAliases: return Failure(CanonicalNameLoop(record)) pertinentRecords = answers[canonicalName] exchanges = [] else: if cnamesLeft: # Request more information from the server. return self.getMX(canonicalName, cnamesLeft - 1) else: # Give up. return Failure(CanonicalNameChainTooLong(record)) # If it's an MX, collect it. if record.TYPE == dns.MX: exchanges.append((record.preference, record)) if exchanges: exchanges.sort() for (preference, record) in exchanges: host = str(record.name) if host not in self.badMXs: return record t = self.clock.seconds() - self.badMXs[host] if t >= 0: del self.badMXs[host] return record return exchanges[0][1] else: # Treat no answers the same as an error - jump to the errback to # try to look up an A record. This provides behavior described as # a special case in RFC 974 in the section headed I{Interpreting # the List of MX RRs}. return Failure(error.DNSNameError(f"No MX records for {domain!r}")) def _ebMX(self, failure, domain): """ Attempt to use the name of the domain directly when mail exchange lookup fails. @type failure: L{Failure} @param failure: The reason for the lookup failure. @type domain: L{bytes} @param domain: The domain name. @rtype: L{Record_MX } or L{Failure} @return: An MX record for the domain or a failure if the fallback to domain option is not in effect and an error, other than not finding an MX record, occurred during lookup. @raise IOError: When no MX record could be found and the fallback to domain option is not in effect. @raise DNSLookupError: When no MX record could be found and the fallback to domain option is in effect but no address for the domain could be found. """ from twisted.names import dns, error if self.fallbackToDomain: failure.trap(error.DNSNameError) log.msg( "MX lookup failed; attempting to use hostname ({}) directly".format( domain ) ) # Alright, I admit, this is a bit icky. d = self.resolver.getHostByName(domain) def cbResolved(addr): return dns.Record_MX(name=addr) def ebResolved(err): err.trap(error.DNSNameError) raise DNSLookupError() d.addCallbacks(cbResolved, ebResolved) return d elif failure.check(error.DNSNameError): raise OSError(f"No MX found for {domain!r}") return failure