# -*- test-case-name: twisted.mail.test.test_smtp -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. # # pylint: disable=I0011,C0103,C9302 """ Simple Mail Transfer Protocol implementation. """ import base64 import binascii import os import random import re import socket import time import warnings from email.utils import parseaddr from io import BytesIO from typing import Type from zope.interface import implementer from twisted import cred from twisted.copyright import longversion from twisted.internet import defer, error, protocol, reactor from twisted.internet._idna import _idnaText from twisted.internet.interfaces import ISSLTransport, ITLSTransport from twisted.mail._cred import ( CramMD5ClientAuthenticator, LOGINAuthenticator, LOGINCredentials as _lcredentials, ) from twisted.mail._except import ( AddressError, AUTHDeclinedError, AuthenticationError, AUTHRequiredError, EHLORequiredError, ESMTPClientError, SMTPAddressError, SMTPBadRcpt, SMTPBadSender, SMTPClientError, SMTPConnectError, SMTPDeliveryError, SMTPError, SMTPProtocolError, SMTPServerError, SMTPTimeoutError, SMTPTLSError as TLSError, TLSRequiredError, ) from twisted.mail.interfaces import ( IClientAuthentication, IMessageDelivery, IMessageDeliveryFactory, IMessageSMTP as IMessage, ) from twisted.protocols import basic, policies from twisted.python import log, util from twisted.python.compat import iterbytes, nativeString, networkString from twisted.python.runtime import platform __all__ = [ "AUTHDeclinedError", "AUTHRequiredError", "AddressError", "AuthenticationError", "EHLORequiredError", "ESMTPClientError", "SMTPAddressError", "SMTPBadRcpt", "SMTPBadSender", "SMTPClientError", "SMTPConnectError", "SMTPDeliveryError", "SMTPError", "SMTPServerError", "SMTPTimeoutError", "TLSError", "TLSRequiredError", "SMTPProtocolError", "IClientAuthentication", "IMessage", "IMessageDelivery", "IMessageDeliveryFactory", "CramMD5ClientAuthenticator", "LOGINAuthenticator", "LOGINCredentials", "PLAINAuthenticator", "Address", "User", "sendmail", "SenderMixin", "ESMTP", "ESMTPClient", "ESMTPSender", "ESMTPSenderFactory", "SMTP", "SMTPClient", "SMTPFactory", "SMTPSender", "SMTPSenderFactory", "idGenerator", "messageid", "quoteaddr", "rfc822date", "xtextStreamReader", "xtextStreamWriter", "xtext_codec", "xtext_decode", "xtext_encode", ] # Cache the hostname (XXX Yes - this is broken) # Encode the DNS name into something we can send over the wire if platform.isMacOSX(): # On macOS, getfqdn() is ridiculously slow - use the # probably-identical-but-sometimes-not gethostname() there. DNSNAME = socket.gethostname().encode("ascii") else: DNSNAME = socket.getfqdn().encode("ascii") # Used for fast success code lookup SUCCESS = dict.fromkeys(range(200, 300)) def rfc822date(timeinfo=None, local=1): """ Format an RFC-2822 compliant date string. @param timeinfo: (optional) A sequence as returned by C{time.localtime()} or C{time.gmtime()}. Default is now. @param local: (optional) Indicates if the supplied time is local or universal time, or if no time is given, whether now should be local or universal time. Default is local, as suggested (SHOULD) by rfc-2822. @returns: A L{bytes} representing the time and date in RFC-2822 format. """ if not timeinfo: if local: timeinfo = time.localtime() else: timeinfo = time.gmtime() if local: if timeinfo[8]: # DST tz = -time.altzone else: tz = -time.timezone (tzhr, tzmin) = divmod(abs(tz), 3600) if tz: tzhr *= int(abs(tz) // tz) (tzmin, tzsec) = divmod(tzmin, 60) else: (tzhr, tzmin) = (0, 0) return networkString( "%s, %02d %s %04d %02d:%02d:%02d %+03d%02d" % ( ["Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"][timeinfo[6]], timeinfo[2], [ "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec", ][timeinfo[1] - 1], timeinfo[0], timeinfo[3], timeinfo[4], timeinfo[5], tzhr, tzmin, ) ) def idGenerator(): i = 0 while True: yield i i += 1 _gen = idGenerator() def messageid(uniq=None, N=lambda: next(_gen)): """ Return a globally unique random string in RFC 2822 Message-ID format Optional uniq string will be added to strengthen uniqueness if given. """ datetime = time.strftime("%Y%m%d%H%M%S", time.gmtime()) pid = os.getpid() rand = random.randrange(2 ** 31 - 1) if uniq is None: uniq = "" else: uniq = "." + uniq return "<{}.{}.{}{}.{}@{}>".format( datetime, pid, rand, uniq, N(), DNSNAME.decode() ).encode() def quoteaddr(addr): """ Turn an email address, possibly with realname part etc, into a form suitable for and SMTP envelope. """ if isinstance(addr, Address): return b"<" + bytes(addr) + b">" if isinstance(addr, bytes): addr = addr.decode("ascii") res = parseaddr(addr) if res == (None, None): # It didn't parse, use it as-is return b"<" + bytes(addr) + b">" else: return b"<" + res[1].encode("ascii") + b">" COMMAND, DATA, AUTH = "COMMAND", "DATA", "AUTH" # Character classes for parsing addresses atom = br"[-A-Za-z0-9!\#$%&'*+/=?^_`{|}~]" class Address: """Parse and hold an RFC 2821 address. Source routes are stipped and ignored, UUCP-style bang-paths and %-style routing are not parsed. @type domain: C{bytes} @ivar domain: The domain within which this address resides. @type local: C{bytes} @ivar local: The local (\"user\") portion of this address. """ tstring = re.compile( br"""( # A string of (?:"[^"]*" # quoted string |\\. # backslash-escaped characted |""" + atom + br""" # atom character )+|.) # or any single character""", re.X, ) atomre = re.compile(atom) # match any one atom character def __init__(self, addr, defaultDomain=None): if isinstance(addr, User): addr = addr.dest if isinstance(addr, Address): self.__dict__ = addr.__dict__.copy() return elif not isinstance(addr, bytes): addr = str(addr).encode("ascii") self.addrstr = addr # Tokenize atl = list(filter(None, self.tstring.split(addr))) local = [] domain = [] while atl: if atl[0] == b"<": if atl[-1] != b">": raise AddressError("Unbalanced <>") atl = atl[1:-1] elif atl[0] == b"@": atl = atl[1:] if not local: # Source route while atl and atl[0] != b":": # remove it atl = atl[1:] if not atl: raise AddressError("Malformed source route") atl = atl[1:] # remove : elif domain: raise AddressError("Too many @") else: # Now in domain domain = [b""] elif len(atl[0]) == 1 and not self.atomre.match(atl[0]) and atl[0] != b".": raise AddressError(f"Parse error at {atl[0]!r} of {(addr, atl)!r}") else: if not domain: local.append(atl[0]) else: domain.append(atl[0]) atl = atl[1:] self.local = b"".join(local) self.domain = b"".join(domain) if self.local != b"" and self.domain == b"": if defaultDomain is None: defaultDomain = DNSNAME self.domain = defaultDomain dequotebs = re.compile(br"\\(.)") def dequote(self, addr): """ Remove RFC-2821 quotes from address. """ res = [] if not isinstance(addr, bytes): addr = str(addr).encode("ascii") atl = filter(None, self.tstring.split(addr)) for t in atl: if t[0] == b'"' and t[-1] == b'"': res.append(t[1:-1]) elif "\\" in t: res.append(self.dequotebs.sub(br"\1", t)) else: res.append(t) return b"".join(res) def __str__(self) -> str: return self.__bytes__().decode("ascii") def __bytes__(self) -> bytes: if self.local or self.domain: return b"@".join((self.local, self.domain)) else: return b"" def __repr__(self) -> str: return "{}.{}({})".format( self.__module__, self.__class__.__name__, repr(str(self)) ) class User: """ Hold information about and SMTP message recipient, including information on where the message came from """ def __init__(self, destination, helo, protocol, orig): try: host = protocol.host except AttributeError: host = None self.dest = Address(destination, host) self.helo = helo self.protocol = protocol if isinstance(orig, Address): self.orig = orig else: self.orig = Address(orig, host) def __getstate__(self): """ Helper for pickle. protocol isn't picklabe, but we want User to be, so skip it in the pickle. """ return { "dest": self.dest, "helo": self.helo, "protocol": None, "orig": self.orig, } def __str__(self) -> str: return self.__bytes__().decode("ascii") def __bytes__(self) -> bytes: return bytes(self.dest) class SMTP(basic.LineOnlyReceiver, policies.TimeoutMixin): """ SMTP server-side protocol. @ivar host: The hostname of this mail server. @type host: L{bytes} """ timeout = 600 portal = None # Control whether we log SMTP events noisy = True # A factory for IMessageDelivery objects. If an # avatar implementing IMessageDeliveryFactory can # be acquired from the portal, it will be used to # create a new IMessageDelivery object for each # message which is received. deliveryFactory = None # An IMessageDelivery object. A new instance is # used for each message received if we can get an # IMessageDeliveryFactory from the portal. Otherwise, # a single instance is used throughout the lifetime # of the connection. delivery = None # Cred cleanup function. _onLogout = None def __init__(self, delivery=None, deliveryFactory=None): self.mode = COMMAND self._from = None self._helo = None self._to = [] self.delivery = delivery self.deliveryFactory = deliveryFactory self.host = DNSNAME @property def host(self): return self._host @host.setter def host(self, toSet): if not isinstance(toSet, bytes): toSet = str(toSet).encode("ascii") self._host = toSet def timeoutConnection(self): msg = self.host + b" Timeout. Try talking faster next time!" self.sendCode(421, msg) self.transport.loseConnection() def greeting(self): return self.host + b" NO UCE NO UBE NO RELAY PROBES" def connectionMade(self): # Ensure user-code always gets something sane for _helo peer = self.transport.getPeer() try: host = peer.host except AttributeError: # not an IPv4Address host = str(peer) self._helo = (None, host) self.sendCode(220, self.greeting()) self.setTimeout(self.timeout) def sendCode(self, code, message=b""): """ Send an SMTP code with a message. """ lines = message.splitlines() lastline = lines[-1:] for line in lines[:-1]: self.sendLine(networkString("%3.3d-" % (code,)) + line) self.sendLine( networkString("%3.3d " % (code,)) + (lastline and lastline[0] or b"") ) def lineReceived(self, line): self.resetTimeout() return getattr(self, "state_" + self.mode)(line) def state_COMMAND(self, line): # Ignore leading and trailing whitespace, as well as an arbitrary # amount of whitespace between the command and its argument, though # it is not required by the protocol, for it is a nice thing to do. line = line.strip() parts = line.split(None, 1) if parts: method = self.lookupMethod(parts[0]) or self.do_UNKNOWN if len(parts) == 2: method(parts[1]) else: method(b"") else: self.sendSyntaxError() def sendSyntaxError(self): self.sendCode(500, b"Error: bad syntax") def lookupMethod(self, command): """ @param command: The command to get from this class. @type command: L{str} @return: The function which executes this command. """ if not isinstance(command, str): command = nativeString(command) return getattr(self, "do_" + command.upper(), None) def lineLengthExceeded(self, line): if self.mode is DATA: for message in self.__messages: message.connectionLost() self.mode = COMMAND del self.__messages self.sendCode(500, b"Line too long") def do_UNKNOWN(self, rest): self.sendCode(500, b"Command not implemented") def do_HELO(self, rest): peer = self.transport.getPeer() try: host = peer.host except AttributeError: host = str(peer) if not isinstance(host, bytes): host = host.encode("idna") self._helo = (rest, host) self._from = None self._to = [] self.sendCode(250, self.host + b" Hello " + host + b", nice to meet you") def do_QUIT(self, rest): self.sendCode(221, b"See you later") self.transport.loseConnection() # A string of quoted strings, backslash-escaped character or # atom characters + '@.,:' qstring = br'("[^"]*"|\\.|' + atom + br"|[@.,:])+" mail_re = re.compile( br"""\s*FROM:\s*(?P<> # Empty <> |<""" + qstring + br"""> # |""" + qstring + br""" # addr )\s*(\s(?P.*))? # Optional WS + ESMTP options $""", re.I | re.X, ) rcpt_re = re.compile( br"\s*TO:\s*(?P<" + qstring + br"""> # |""" + qstring + br""" # addr )\s*(\s(?P.*))? # Optional WS + ESMTP options $""", re.I | re.X, ) def do_MAIL(self, rest): if self._from: self.sendCode(503, b"Only one sender per message, please") return # Clear old recipient list self._to = [] m = self.mail_re.match(rest) if not m: self.sendCode(501, b"Syntax error") return try: addr = Address(m.group("path"), self.host) except AddressError as e: self.sendCode(553, networkString(str(e))) return validated = defer.maybeDeferred(self.validateFrom, self._helo, addr) validated.addCallbacks(self._cbFromValidate, self._ebFromValidate) def _cbFromValidate(self, fromEmail, code=250, msg=b"Sender address accepted"): self._from = fromEmail self.sendCode(code, msg) def _ebFromValidate(self, failure): if failure.check(SMTPBadSender): self.sendCode( failure.value.code, ( b"Cannot receive from specified address " + quoteaddr(failure.value.addr) + b": " + networkString(failure.value.resp) ), ) elif failure.check(SMTPServerError): self.sendCode(failure.value.code, networkString(failure.value.resp)) else: log.err(failure, "SMTP sender validation failure") self.sendCode(451, b"Requested action aborted: local error in processing") def do_RCPT(self, rest): if not self._from: self.sendCode(503, b"Must have sender before recipient") return m = self.rcpt_re.match(rest) if not m: self.sendCode(501, b"Syntax error") return try: user = User(m.group("path"), self._helo, self, self._from) except AddressError as e: self.sendCode(553, networkString(str(e))) return d = defer.maybeDeferred(self.validateTo, user) d.addCallbacks(self._cbToValidate, self._ebToValidate, callbackArgs=(user,)) def _cbToValidate(self, to, user=None, code=250, msg=b"Recipient address accepted"): if user is None: user = to self._to.append((user, to)) self.sendCode(code, msg) def _ebToValidate(self, failure): if failure.check(SMTPBadRcpt, SMTPServerError): self.sendCode(failure.value.code, networkString(failure.value.resp)) else: log.err(failure) self.sendCode(451, b"Requested action aborted: local error in processing") def _disconnect(self, msgs): for msg in msgs: try: msg.connectionLost() except BaseException: log.msg("msg raised exception from connectionLost") log.err() def do_DATA(self, rest): if self._from is None or (not self._to): self.sendCode(503, b"Must have valid receiver and originator") return self.mode = DATA helo, origin = self._helo, self._from recipients = self._to self._from = None self._to = [] self.datafailed = None msgs = [] for (user, msgFunc) in recipients: try: msg = msgFunc() rcvdhdr = self.receivedHeader(helo, origin, [user]) if rcvdhdr: msg.lineReceived(rcvdhdr) msgs.append(msg) except SMTPServerError as e: self.sendCode(e.code, e.resp) self.mode = COMMAND self._disconnect(msgs) return except BaseException: log.err() self.sendCode(550, b"Internal server error") self.mode = COMMAND self._disconnect(msgs) return self.__messages = msgs self.__inheader = self.__inbody = 0 self.sendCode(354, b"Continue") if self.noisy: fmt = "Receiving message for delivery: from=%s to=%s" log.msg(fmt % (origin, [str(u) for (u, f) in recipients])) def connectionLost(self, reason): # self.sendCode(421, 'Dropping connection.') # This does nothing... # Ideally, if we (rather than the other side) lose the connection, # we should be able to tell the other side that we are going away. # RFC-2821 requires that we try. if self.mode is DATA: try: for message in self.__messages: try: message.connectionLost() except BaseException: log.err() del self.__messages except AttributeError: pass if self._onLogout: self._onLogout() self._onLogout = None self.setTimeout(None) def do_RSET(self, rest): self._from = None self._to = [] self.sendCode(250, b"I remember nothing.") def dataLineReceived(self, line): if line[:1] == b".": if line == b".": self.mode = COMMAND if self.datafailed: self.sendCode(self.datafailed.code, self.datafailed.resp) return if not self.__messages: self._messageHandled("thrown away") return defer.DeferredList( [m.eomReceived() for m in self.__messages], consumeErrors=True ).addCallback(self._messageHandled) del self.__messages return line = line[1:] if self.datafailed: return try: # Add a blank line between the generated Received:-header # and the message body if the message comes in without any # headers if not self.__inheader and not self.__inbody: if b":" in line: self.__inheader = 1 elif line: for message in self.__messages: message.lineReceived(b"") self.__inbody = 1 if not line: self.__inbody = 1 for message in self.__messages: message.lineReceived(line) except SMTPServerError as e: self.datafailed = e for message in self.__messages: message.connectionLost() state_DATA = dataLineReceived def _messageHandled(self, resultList): failures = 0 for (success, result) in resultList: if not success: failures += 1 log.err(result) if failures: msg = "Could not send e-mail" resultLen = len(resultList) if resultLen > 1: msg += f" ({failures} failures out of {resultLen} recipients)" self.sendCode(550, networkString(msg)) else: self.sendCode(250, b"Delivery in progress") def _cbAnonymousAuthentication(self, result): """ Save the state resulting from a successful anonymous cred login. """ (iface, avatar, logout) = result if issubclass(iface, IMessageDeliveryFactory): self.deliveryFactory = avatar self.delivery = None elif issubclass(iface, IMessageDelivery): self.deliveryFactory = None self.delivery = avatar else: raise RuntimeError(f"{iface.__name__} is not a supported interface") self._onLogout = logout self.challenger = None # overridable methods: def validateFrom(self, helo, origin): """ Validate the address from which the message originates. @type helo: C{(bytes, bytes)} @param helo: The argument to the HELO command and the client's IP address. @type origin: C{Address} @param origin: The address the message is from @rtype: C{Deferred} or C{Address} @return: C{origin} or a C{Deferred} whose callback will be passed C{origin}. @raise SMTPBadSender: Raised of messages from this address are not to be accepted. """ if self.deliveryFactory is not None: self.delivery = self.deliveryFactory.getMessageDelivery() if self.delivery is not None: return defer.maybeDeferred(self.delivery.validateFrom, helo, origin) # No login has been performed, no default delivery object has been # provided: try to perform an anonymous login and then invoke this # method again. if self.portal: result = self.portal.login( cred.credentials.Anonymous(), None, IMessageDeliveryFactory, IMessageDelivery, ) def ebAuthentication(err): """ Translate cred exceptions into SMTP exceptions so that the protocol code which invokes C{validateFrom} can properly report the failure. """ if err.check(cred.error.UnauthorizedLogin): exc = SMTPBadSender(origin) elif err.check(cred.error.UnhandledCredentials): exc = SMTPBadSender( origin, resp="Unauthenticated senders not allowed" ) else: return err return defer.fail(exc) result.addCallbacks(self._cbAnonymousAuthentication, ebAuthentication) def continueValidation(ignored): """ Re-attempt from address validation. """ return self.validateFrom(helo, origin) result.addCallback(continueValidation) return result raise SMTPBadSender(origin) def validateTo(self, user): """ Validate the address for which the message is destined. @type user: L{User} @param user: The address to validate. @rtype: no-argument callable @return: A C{Deferred} which becomes, or a callable which takes no arguments and returns an object implementing C{IMessage}. This will be called and the returned object used to deliver the message when it arrives. @raise SMTPBadRcpt: Raised if messages to the address are not to be accepted. """ if self.delivery is not None: return self.delivery.validateTo(user) raise SMTPBadRcpt(user) def receivedHeader(self, helo, origin, recipients): if self.delivery is not None: return self.delivery.receivedHeader(helo, origin, recipients) heloStr = b"" if helo[0]: heloStr = b" helo=" + helo[0] domain = networkString(self.transport.getHost().host) from_ = b"from " + helo[0] + b" ([" + helo[1] + b"]" + heloStr + b")" by = b"by %s with %s (%s)" % (domain, self.__class__.__name__, longversion) for_ = b"for %s; %s" % (" ".join(map(str, recipients)), rfc822date()) return b"Received: " + from_ + b"\n\t" + by + b"\n\t" + for_ class SMTPFactory(protocol.ServerFactory): """ Factory for SMTP. """ # override in instances or subclasses domain = DNSNAME timeout = 600 protocol = SMTP portal = None def __init__(self, portal=None): self.portal = portal def buildProtocol(self, addr): p = protocol.ServerFactory.buildProtocol(self, addr) p.portal = self.portal p.host = self.domain return p class SMTPClient(basic.LineReceiver, policies.TimeoutMixin): """ SMTP client for sending emails. After the client has connected to the SMTP server, it repeatedly calls L{SMTPClient.getMailFrom}, L{SMTPClient.getMailTo} and L{SMTPClient.getMailData} and uses this information to send an email. It then calls L{SMTPClient.getMailFrom} again; if it returns L{None}, the client will disconnect, otherwise it will continue as normal i.e. call L{SMTPClient.getMailTo} and L{SMTPClient.getMailData} and send a new email. """ # If enabled then log SMTP client server communication debug = True # Number of seconds to wait before timing out a connection. If # None, perform no timeout checking. timeout = None def __init__(self, identity, logsize=10): if isinstance(identity, str): identity = identity.encode("ascii") self.identity = identity or b"" self.toAddressesResult = [] self.successAddresses = [] self._from = None self.resp = [] self.code = -1 self.log = util.LineLog(logsize) def sendLine(self, line): # Log sendLine only if you are in debug mode for performance if self.debug: self.log.append(b">>> " + line) basic.LineReceiver.sendLine(self, line) def connectionMade(self): self.setTimeout(self.timeout) self._expected = [220] self._okresponse = self.smtpState_helo self._failresponse = self.smtpConnectionFailed def connectionLost(self, reason=protocol.connectionDone): """ We are no longer connected """ self.setTimeout(None) self.mailFile = None def timeoutConnection(self): self.sendError( SMTPTimeoutError( -1, b"Timeout waiting for SMTP server response", self.log.str() ) ) def lineReceived(self, line): self.resetTimeout() # Log lineReceived only if you are in debug mode for performance if self.debug: self.log.append(b"<<< " + line) why = None try: self.code = int(line[:3]) except ValueError: # This is a fatal error and will disconnect the transport # lineReceived will not be called again. self.sendError( SMTPProtocolError( -1, f"Invalid response from SMTP server: {line}", self.log.str(), ) ) return if line[0:1] == b"0": # Verbose informational message, ignore it return self.resp.append(line[4:]) if line[3:4] == b"-": # Continuation return if self.code in self._expected: why = self._okresponse(self.code, b"\n".join(self.resp)) else: why = self._failresponse(self.code, b"\n".join(self.resp)) self.code = -1 self.resp = [] return why def smtpConnectionFailed(self, code, resp): self.sendError(SMTPConnectError(code, resp, self.log.str())) def smtpTransferFailed(self, code, resp): if code < 0: self.sendError(SMTPProtocolError(code, resp, self.log.str())) else: self.smtpState_msgSent(code, resp) def smtpState_helo(self, code, resp): self.sendLine(b"HELO " + self.identity) self._expected = SUCCESS self._okresponse = self.smtpState_from def smtpState_from(self, code, resp): self._from = self.getMailFrom() self._failresponse = self.smtpTransferFailed if self._from is not None: self.sendLine(b"MAIL FROM:" + quoteaddr(self._from)) self._expected = [250] self._okresponse = self.smtpState_to else: # All messages have been sent, disconnect self._disconnectFromServer() def smtpState_disconnect(self, code, resp): self.transport.loseConnection() def smtpState_to(self, code, resp): self.toAddresses = iter(self.getMailTo()) self.toAddressesResult = [] self.successAddresses = [] self._okresponse = self.smtpState_toOrData self._expected = range(0, 1000) self.lastAddress = None return self.smtpState_toOrData(0, b"") def smtpState_toOrData(self, code, resp): if self.lastAddress is not None: self.toAddressesResult.append((self.lastAddress, code, resp)) if code in SUCCESS: self.successAddresses.append(self.lastAddress) try: self.lastAddress = next(self.toAddresses) except StopIteration: if self.successAddresses: self.sendLine(b"DATA") self._expected = [354] self._okresponse = self.smtpState_data else: return self.smtpState_msgSent(code, "No recipients accepted") else: self.sendLine(b"RCPT TO:" + quoteaddr(self.lastAddress)) def smtpState_data(self, code, resp): s = basic.FileSender() d = s.beginFileTransfer(self.getMailData(), self.transport, self.transformChunk) def ebTransfer(err): self.sendError(err.value) d.addCallbacks(self.finishedFileTransfer, ebTransfer) self._expected = SUCCESS self._okresponse = self.smtpState_msgSent def smtpState_msgSent(self, code, resp): if self._from is not None: self.sentMail( code, resp, len(self.successAddresses), self.toAddressesResult, self.log ) self.toAddressesResult = [] self._from = None self.sendLine(b"RSET") self._expected = SUCCESS self._okresponse = self.smtpState_from ## ## Helpers for FileSender ## def transformChunk(self, chunk): """ Perform the necessary local to network newline conversion and escape leading periods. This method also resets the idle timeout so that as long as process is being made sending the message body, the client will not time out. """ self.resetTimeout() return chunk.replace(b"\n", b"\r\n").replace(b"\r\n.", b"\r\n..") def finishedFileTransfer(self, lastsent): if lastsent != b"\n": line = b"\r\n." else: line = b"." self.sendLine(line) ## # these methods should be overridden in subclasses def getMailFrom(self): """ Return the email address the mail is from. """ raise NotImplementedError def getMailTo(self): """ Return a list of emails to send to. """ raise NotImplementedError def getMailData(self): """ Return file-like object containing data of message to be sent. Lines in the file should be delimited by '\\n'. """ raise NotImplementedError def sendError(self, exc): """ If an error occurs before a mail message is sent sendError will be called. This base class method sends a QUIT if the error is non-fatal and disconnects the connection. @param exc: The SMTPClientError (or child class) raised @type exc: C{SMTPClientError} """ if isinstance(exc, SMTPClientError) and not exc.isFatal: self._disconnectFromServer() else: # If the error was fatal then the communication channel with the # SMTP Server is broken so just close the transport connection self.smtpState_disconnect(-1, None) def sentMail(self, code, resp, numOk, addresses, log): """ Called when an attempt to send an email is completed. If some addresses were accepted, code and resp are the response to the DATA command. If no addresses were accepted, code is -1 and resp is an informative message. @param code: the code returned by the SMTP Server @param resp: The string response returned from the SMTP Server @param numOk: the number of addresses accepted by the remote host. @param addresses: is a list of tuples (address, code, resp) listing the response to each RCPT command. @param log: is the SMTP session log """ raise NotImplementedError def _disconnectFromServer(self): self._expected = range(0, 1000) self._okresponse = self.smtpState_disconnect self.sendLine(b"QUIT") class ESMTPClient(SMTPClient): """ A client for sending emails over ESMTP. @ivar heloFallback: Whether or not to fall back to plain SMTP if the C{EHLO} command is not recognised by the server. If L{requireAuthentication} is C{True}, or L{requireTransportSecurity} is C{True} and the connection is not over TLS, this fallback flag will not be honored. @type heloFallback: L{bool} @ivar requireAuthentication: If C{True}, refuse to proceed if authentication cannot be performed. Overrides L{heloFallback}. @type requireAuthentication: L{bool} @ivar requireTransportSecurity: If C{True}, refuse to proceed if the transport cannot be secured. If the transport layer is not already secured via TLS, this will override L{heloFallback}. @type requireAuthentication: L{bool} @ivar context: The context factory to use for STARTTLS, if desired. @type context: L{IOpenSSLClientConnectionCreator} @ivar _tlsMode: Whether or not the connection is over TLS. @type _tlsMode: L{bool} """ heloFallback = True requireAuthentication = False requireTransportSecurity = False context = None _tlsMode = False def __init__(self, secret, contextFactory=None, *args, **kw): SMTPClient.__init__(self, *args, **kw) self.authenticators = [] self.secret = secret self.context = contextFactory def __getattr__(self, name): if name == "tlsMode": warnings.warn( "tlsMode attribute of twisted.mail.smtp.ESMTPClient " "is deprecated since Twisted 13.0", category=DeprecationWarning, stacklevel=2, ) return self._tlsMode else: raise AttributeError( "%s instance has no attribute %r" % ( self.__class__.__name__, name, ) ) def __setattr__(self, name, value): if name == "tlsMode": warnings.warn( "tlsMode attribute of twisted.mail.smtp.ESMTPClient " "is deprecated since Twisted 13.0", category=DeprecationWarning, stacklevel=2, ) self._tlsMode = value else: self.__dict__[name] = value def esmtpEHLORequired(self, code=-1, resp=None): """ Fail because authentication is required, but the server does not support ESMTP, which is required for authentication. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError( EHLORequiredError( 502, b"Server does not support ESMTP " b"Authentication", self.log.str() ) ) def esmtpAUTHRequired(self, code=-1, resp=None): """ Fail because authentication is required, but the server does not support any schemes we support. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ tmp = [] for a in self.authenticators: tmp.append(a.getName().upper()) auth = b"[%s]" % b", ".join(tmp) self.sendError( AUTHRequiredError( 502, b"Server does not support Client " b"Authentication schemes %s" % auth, self.log.str(), ) ) def esmtpTLSRequired(self, code=-1, resp=None): """ Fail because TLS is required and the server does not support it. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError( TLSRequiredError( 502, b"Server does not support secure " b"communication via TLS / SSL", self.log.str(), ) ) def esmtpTLSFailed(self, code=-1, resp=None): """ Fail because the TLS handshake wasn't able to be completed. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError( TLSError( code, b"Could not complete the SSL/TLS " b"handshake", self.log.str() ) ) def esmtpAUTHDeclined(self, code=-1, resp=None): """ Fail because the authentication was rejected. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError(AUTHDeclinedError(code, resp, self.log.str())) def esmtpAUTHMalformedChallenge(self, code=-1, resp=None): """ Fail because the server sent a malformed authentication challenge. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError( AuthenticationError( 501, b"Login failed because the " b"SMTP Server returned a malformed Authentication Challenge", self.log.str(), ) ) def esmtpAUTHServerError(self, code=-1, resp=None): """ Fail because of some other authentication error. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} """ self.sendError(AuthenticationError(code, resp, self.log.str())) def registerAuthenticator(self, auth): """ Registers an Authenticator with the ESMTPClient. The ESMTPClient will attempt to login to the SMTP Server in the order the Authenticators are registered. The most secure Authentication mechanism should be registered first. @param auth: The Authentication mechanism to register @type auth: L{IClientAuthentication} implementor @return: L{None} """ self.authenticators.append(auth) def connectionMade(self): """ Called when a connection has been made, and triggers sending an C{EHLO} to the server. """ self._tlsMode = ISSLTransport.providedBy(self.transport) SMTPClient.connectionMade(self) self._okresponse = self.esmtpState_ehlo def esmtpState_ehlo(self, code, resp): """ Send an C{EHLO} to the server. If L{heloFallback} is C{True}, and there is no requirement for TLS or authentication, the client will fall back to basic SMTP. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} @return: L{None} """ self._expected = SUCCESS self._okresponse = self.esmtpState_serverConfig self._failresponse = self.esmtpEHLORequired if self._tlsMode: needTLS = False else: needTLS = self.requireTransportSecurity if self.heloFallback and not self.requireAuthentication and not needTLS: self._failresponse = self.smtpState_helo self.sendLine(b"EHLO " + self.identity) def esmtpState_serverConfig(self, code, resp): """ Handle a positive response to the I{EHLO} command by parsing the capabilities in the server's response and then taking the most appropriate next step towards entering a mail transaction. """ items = {} for line in resp.splitlines(): e = line.split(None, 1) if len(e) > 1: items[e[0]] = e[1] else: items[e[0]] = None self.tryTLS(code, resp, items) def tryTLS(self, code, resp, items): """ Take a necessary step towards being able to begin a mail transaction. The step may be to ask the server to being a TLS session. If TLS is already in use or not necessary and not available then the step may be to authenticate with the server. If TLS is necessary and not available, fail the mail transmission attempt. This is an internal helper method. @param code: The server status code from the most recently received server message. @type code: L{int} @param resp: The server status response from the most recently received server message. @type resp: L{bytes} @param items: A mapping of ESMTP extensions offered by the server. Keys are extension identifiers and values are the associated values. @type items: L{dict} mapping L{bytes} to L{bytes} @return: L{None} """ # has tls can tls must tls result # t t t authenticate # t t f authenticate # t f t authenticate # t f f authenticate # f t t STARTTLS # f t f STARTTLS # f f t esmtpTLSRequired # f f f authenticate hasTLS = self._tlsMode canTLS = self.context and b"STARTTLS" in items mustTLS = self.requireTransportSecurity if hasTLS or not (canTLS or mustTLS): self.authenticate(code, resp, items) elif canTLS: self._expected = [220] self._okresponse = self.esmtpState_starttls self._failresponse = self.esmtpTLSFailed self.sendLine(b"STARTTLS") else: self.esmtpTLSRequired() def esmtpState_starttls(self, code, resp): """ Handle a positive response to the I{STARTTLS} command by starting a new TLS session on C{self.transport}. Upon success, re-handshake with the server to discover what capabilities it has when TLS is in use. """ try: self.transport.startTLS(self.context) self._tlsMode = True except BaseException: log.err() self.esmtpTLSFailed(451) # Send another EHLO once TLS has been started to # get the TLS / AUTH schemes. Some servers only allow AUTH in TLS mode. self.esmtpState_ehlo(code, resp) def authenticate(self, code, resp, items): if self.secret and items.get(b"AUTH"): schemes = items[b"AUTH"].split() tmpSchemes = {} # XXX: May want to come up with a more efficient way to do this for s in schemes: tmpSchemes[s.upper()] = 1 for a in self.authenticators: auth = a.getName().upper() if auth in tmpSchemes: self._authinfo = a # Special condition handled if auth == b"PLAIN": self._okresponse = self.smtpState_from self._failresponse = self._esmtpState_plainAuth self._expected = [235] challenge = base64.b64encode( self._authinfo.challengeResponse(self.secret, 1) ) self.sendLine(b"AUTH %s %s" % (auth, challenge)) else: self._expected = [334] self._okresponse = self.esmtpState_challenge # If some error occurs here, the server declined the # AUTH before the user / password phase. This would be # a very rare case self._failresponse = self.esmtpAUTHServerError self.sendLine(b"AUTH " + auth) return if self.requireAuthentication: self.esmtpAUTHRequired() else: self.smtpState_from(code, resp) def _esmtpState_plainAuth(self, code, resp): self._okresponse = self.smtpState_from self._failresponse = self.esmtpAUTHDeclined self._expected = [235] challenge = base64.b64encode(self._authinfo.challengeResponse(self.secret, 2)) self.sendLine(b"AUTH PLAIN " + challenge) def esmtpState_challenge(self, code, resp): self._authResponse(self._authinfo, resp) def _authResponse(self, auth, challenge): self._failresponse = self.esmtpAUTHDeclined try: challenge = base64.b64decode(challenge) except binascii.Error: # Illegal challenge, give up, then quit self.sendLine(b"*") self._okresponse = self.esmtpAUTHMalformedChallenge self._failresponse = self.esmtpAUTHMalformedChallenge else: resp = auth.challengeResponse(self.secret, challenge) self._expected = [235, 334] self._okresponse = self.smtpState_maybeAuthenticated self.sendLine(base64.b64encode(resp)) def smtpState_maybeAuthenticated(self, code, resp): """ Called to handle the next message from the server after sending a response to a SASL challenge. The server response might be another challenge or it might indicate authentication has succeeded. """ if code == 235: # Yes, authenticated! del self._authinfo self.smtpState_from(code, resp) else: # No, not authenticated yet. Keep trying. self._authResponse(self._authinfo, resp) class ESMTP(SMTP): ctx = None canStartTLS = False startedTLS = False authenticated = False def __init__(self, chal=None, contextFactory=None): SMTP.__init__(self) if chal is None: chal = {} self.challengers = chal self.authenticated = False self.ctx = contextFactory def connectionMade(self): SMTP.connectionMade(self) self.canStartTLS = ITLSTransport.providedBy(self.transport) self.canStartTLS = self.canStartTLS and (self.ctx is not None) def greeting(self): return SMTP.greeting(self) + b" ESMTP" def extensions(self): """ SMTP service extensions @return: the SMTP service extensions that are supported. @rtype: L{dict} with L{bytes} keys and a value of either L{None} or a L{list} of L{bytes}. """ ext = {b"AUTH": list(self.challengers.keys())} if self.canStartTLS and not self.startedTLS: ext[b"STARTTLS"] = None return ext def lookupMethod(self, command): command = nativeString(command) m = SMTP.lookupMethod(self, command) if m is None: m = getattr(self, "ext_" + command.upper(), None) return m def listExtensions(self): r = [] for c, v in self.extensions().items(): if v is not None: if v: # Intentionally omit extensions with empty argument lists r.append(c + b" " + b" ".join(v)) else: r.append(c) return b"\n".join(r) def do_EHLO(self, rest): peer = self.transport.getPeer().host if not isinstance(peer, bytes): peer = peer.encode("idna") self._helo = (rest, peer) self._from = None self._to = [] self.sendCode( 250, ( self.host + b" Hello " + peer + b", nice to meet you\n" + self.listExtensions() ), ) def ext_STARTTLS(self, rest): if self.startedTLS: self.sendCode(503, b"TLS already negotiated") elif self.ctx and self.canStartTLS: self.sendCode(220, b"Begin TLS negotiation now") self.transport.startTLS(self.ctx) self.startedTLS = True else: self.sendCode(454, b"TLS not available") def ext_AUTH(self, rest): if self.authenticated: self.sendCode(503, b"Already authenticated") return parts = rest.split(None, 1) chal = self.challengers.get(parts[0].upper(), lambda: None)() if not chal: self.sendCode(504, b"Unrecognized authentication type") return self.mode = AUTH self.challenger = chal if len(parts) > 1: chal.getChallenge() # Discard it, apparently the client does not # care about it. rest = parts[1] else: rest = None self.state_AUTH(rest) def _cbAuthenticated(self, loginInfo): """ Save the state resulting from a successful cred login and mark this connection as authenticated. """ result = SMTP._cbAnonymousAuthentication(self, loginInfo) self.authenticated = True return result def _ebAuthenticated(self, reason): """ Handle cred login errors by translating them to the SMTP authenticate failed. Translate all other errors into a generic SMTP error code and log the failure for inspection. Stop all errors from propagating. @param reason: Reason for failure. """ self.challenge = None if reason.check(cred.error.UnauthorizedLogin): self.sendCode(535, b"Authentication failed") else: log.err(reason, "SMTP authentication failure") self.sendCode(451, b"Requested action aborted: local error in processing") def state_AUTH(self, response): """ Handle one step of challenge/response authentication. @param response: The text of a response. If None, this function has been called as a result of an AUTH command with no initial response. A response of '*' aborts authentication, as per RFC 2554. """ if self.portal is None: self.sendCode(454, b"Temporary authentication failure") self.mode = COMMAND return if response is None: challenge = self.challenger.getChallenge() encoded = base64.b64encode(challenge) self.sendCode(334, encoded) return if response == b"*": self.sendCode(501, b"Authentication aborted") self.challenger = None self.mode = COMMAND return try: uncoded = base64.b64decode(response) except (TypeError, binascii.Error): self.sendCode(501, b"Syntax error in parameters or arguments") self.challenger = None self.mode = COMMAND return self.challenger.setResponse(uncoded) if self.challenger.moreChallenges(): challenge = self.challenger.getChallenge() coded = base64.b64encode(challenge) self.sendCode(334, coded) return self.mode = COMMAND result = self.portal.login( self.challenger, None, IMessageDeliveryFactory, IMessageDelivery ) result.addCallback(self._cbAuthenticated) result.addCallback( lambda ign: self.sendCode(235, b"Authentication successful.") ) result.addErrback(self._ebAuthenticated) class SenderMixin: """ Utility class for sending emails easily. Use with SMTPSenderFactory or ESMTPSenderFactory. """ done = 0 def getMailFrom(self): if not self.done: self.done = 1 return str(self.factory.fromEmail) else: return None def getMailTo(self): return self.factory.toEmail def getMailData(self): return self.factory.file def sendError(self, exc): # Call the base class to close the connection with the SMTP server SMTPClient.sendError(self, exc) # Do not retry to connect to SMTP Server if: # 1. No more retries left (This allows the correct error to be returned to the errorback) # 2. retry is false # 3. The error code is not in the 4xx range (Communication Errors) if self.factory.retries >= 0 or ( not exc.retry and not (exc.code >= 400 and exc.code < 500) ): self.factory.sendFinished = True self.factory.result.errback(exc) def sentMail(self, code, resp, numOk, addresses, log): # Do not retry, the SMTP server acknowledged the request self.factory.sendFinished = True if code not in SUCCESS: errlog = [] for addr, acode, aresp in addresses: if acode not in SUCCESS: errlog.append( addr + b": " + networkString("%03d" % (acode,)) + b" " + aresp ) errlog.append(log.str()) exc = SMTPDeliveryError(code, resp, b"\n".join(errlog), addresses) self.factory.result.errback(exc) else: self.factory.result.callback((numOk, addresses)) class SMTPSender(SenderMixin, SMTPClient): """ SMTP protocol that sends a single email based on information it gets from its factory, a L{SMTPSenderFactory}. """ class SMTPSenderFactory(protocol.ClientFactory): """ Utility factory for sending emails easily. @type currentProtocol: L{SMTPSender} @ivar currentProtocol: The current running protocol returned by L{buildProtocol}. @type sendFinished: C{bool} @ivar sendFinished: When the value is set to True, it means the message has been sent or there has been an unrecoverable error or the sending has been cancelled. The default value is False. """ domain = DNSNAME protocol: Type[SMTPClient] = SMTPSender def __init__(self, fromEmail, toEmail, file, deferred, retries=5, timeout=None): """ @param fromEmail: The RFC 2821 address from which to send this message. @param toEmail: A sequence of RFC 2821 addresses to which to send this message. @param file: A file-like object containing the message to send. @param deferred: A Deferred to callback or errback when sending of this message completes. @type deferred: L{defer.Deferred} @param retries: The number of times to retry delivery of this message. @param timeout: Period, in seconds, for which to wait for server responses, or None to wait forever. """ assert isinstance(retries, int) if isinstance(toEmail, str): toEmail = [toEmail.encode("ascii")] elif isinstance(toEmail, bytes): toEmail = [toEmail] else: toEmailFinal = [] for _email in toEmail: if not isinstance(_email, bytes): _email = _email.encode("ascii") toEmailFinal.append(_email) toEmail = toEmailFinal self.fromEmail = Address(fromEmail) self.nEmails = len(toEmail) self.toEmail = toEmail self.file = file self.result = deferred self.result.addBoth(self._removeDeferred) self.sendFinished = False self.currentProtocol = None self.retries = -retries self.timeout = timeout def _removeDeferred(self, result): del self.result return result def clientConnectionFailed(self, connector, err): self._processConnectionError(connector, err) def clientConnectionLost(self, connector, err): self._processConnectionError(connector, err) def _processConnectionError(self, connector, err): self.currentProtocol = None if (self.retries < 0) and (not self.sendFinished): log.msg("SMTP Client retrying server. Retry: %s" % -self.retries) # Rewind the file in case part of it was read while attempting to # send the message. self.file.seek(0, 0) connector.connect() self.retries += 1 elif not self.sendFinished: # If we were unable to communicate with the SMTP server a ConnectionDone will be # returned. We want a more clear error message for debugging if err.check(error.ConnectionDone): err.value = SMTPConnectError(-1, "Unable to connect to server.") self.result.errback(err.value) def buildProtocol(self, addr): p = self.protocol(self.domain, self.nEmails * 2 + 2) p.factory = self p.timeout = self.timeout self.currentProtocol = p self.result.addBoth(self._removeProtocol) return p def _removeProtocol(self, result): """ Remove the protocol created in C{buildProtocol}. @param result: The result/error passed to the callback/errback of L{defer.Deferred}. @return: The C{result} untouched. """ if self.currentProtocol: self.currentProtocol = None return result class LOGINCredentials(_lcredentials): """ L{LOGINCredentials} generates challenges for I{LOGIN} authentication. For interoperability with Outlook, the challenge generated does not exactly match the one defined in the U{draft specification}. """ def __init__(self): _lcredentials.__init__(self) self.challenges = [b"Password:", b"Username:"] @implementer(IClientAuthentication) class PLAINAuthenticator: def __init__(self, user): self.user = user def getName(self): return b"PLAIN" def challengeResponse(self, secret, chal=1): if chal == 1: return self.user + b"\0" + self.user + b"\0" + secret else: return b"\0" + self.user + b"\0" + secret class ESMTPSender(SenderMixin, ESMTPClient): requireAuthentication = True requireTransportSecurity = True def __init__(self, username, secret, contextFactory=None, *args, **kw): self.heloFallback = 0 self.username = username self._hostname = kw.pop("hostname", None) if contextFactory is None: contextFactory = self._getContextFactory() ESMTPClient.__init__(self, secret, contextFactory, *args, **kw) self._registerAuthenticators() def _registerAuthenticators(self): # Register Authenticator in order from most secure to least secure self.registerAuthenticator(CramMD5ClientAuthenticator(self.username)) self.registerAuthenticator(LOGINAuthenticator(self.username)) self.registerAuthenticator(PLAINAuthenticator(self.username)) def _getContextFactory(self): if self.context is not None: return self.context if self._hostname is None: return None try: from twisted.internet.ssl import optionsForClientTLS except ImportError: return None else: context = optionsForClientTLS(self._hostname) return context class ESMTPSenderFactory(SMTPSenderFactory): """ Utility factory for sending emails easily. @type currentProtocol: L{ESMTPSender} @ivar currentProtocol: The current running protocol as made by L{buildProtocol}. """ protocol = ESMTPSender def __init__( self, username, password, fromEmail, toEmail, file, deferred, retries=5, timeout=None, contextFactory=None, heloFallback=False, requireAuthentication=True, requireTransportSecurity=True, hostname=None, ): SMTPSenderFactory.__init__( self, fromEmail, toEmail, file, deferred, retries, timeout ) self.username = username self.password = password self._contextFactory = contextFactory self._heloFallback = heloFallback self._requireAuthentication = requireAuthentication self._requireTransportSecurity = requireTransportSecurity self._hostname = hostname def buildProtocol(self, addr): """ Build an L{ESMTPSender} protocol configured with C{heloFallback}, C{requireAuthentication}, and C{requireTransportSecurity} as specified in L{__init__}. This sets L{currentProtocol} on the factory, as well as returning it. @rtype: L{ESMTPSender} """ p = self.protocol( self.username, self.password, self._contextFactory, self.domain, self.nEmails * 2 + 2, hostname=self._hostname, ) p.heloFallback = self._heloFallback p.requireAuthentication = self._requireAuthentication p.requireTransportSecurity = self._requireTransportSecurity p.factory = self p.timeout = self.timeout self.currentProtocol = p self.result.addBoth(self._removeProtocol) return p def sendmail( smtphost, from_addr, to_addrs, msg, senderDomainName=None, port=25, reactor=reactor, username=None, password=None, requireAuthentication=False, requireTransportSecurity=False, ): """ Send an email. This interface is intended to be a replacement for L{smtplib.SMTP.sendmail} and related methods. To maintain backwards compatibility, it will fall back to plain SMTP, if ESMTP support is not available. If ESMTP support is available, it will attempt to provide encryption via STARTTLS and authentication if a secret is provided. @param smtphost: The host the message should be sent to. @type smtphost: L{bytes} @param from_addr: The (envelope) address sending this mail. @type from_addr: L{bytes} @param to_addrs: A list of addresses to send this mail to. A string will be treated as a list of one address. @type to_addrs: L{list} of L{bytes} or L{bytes} @param msg: The message, including headers, either as a file or a string. File-like objects need to support read() and close(). Lines must be delimited by '\\n'. If you pass something that doesn't look like a file, we try to convert it to a string (so you should be able to pass an L{email.message} directly, but doing the conversion with L{email.generator} manually will give you more control over the process). @param senderDomainName: Name by which to identify. If None, try to pick something sane (but this depends on external configuration and may not succeed). @type senderDomainName: L{bytes} @param port: Remote port to which to connect. @type port: L{int} @param username: The username to use, if wanting to authenticate. @type username: L{bytes} or L{unicode} @param password: The secret to use, if wanting to authenticate. If you do not specify this, SMTP authentication will not occur. @type password: L{bytes} or L{unicode} @param requireTransportSecurity: Whether or not STARTTLS is required. @type requireTransportSecurity: L{bool} @param requireAuthentication: Whether or not authentication is required. @type requireAuthentication: L{bool} @param reactor: The L{reactor} used to make the TCP connection. @rtype: L{Deferred} @returns: A cancellable L{Deferred}, its callback will be called if a message is sent to ANY address, the errback if no message is sent. When the C{cancel} method is called, it will stop retrying and disconnect the connection immediately. The callback will be called with a tuple (numOk, addresses) where numOk is the number of successful recipient addresses and addresses is a list of tuples (address, code, resp) giving the response to the RCPT command for each address. """ if not hasattr(msg, "read"): # It's not a file msg = BytesIO(bytes(msg)) def cancel(d): """ Cancel the L{twisted.mail.smtp.sendmail} call, tell the factory not to retry and disconnect the connection. @param d: The L{defer.Deferred} to be cancelled. """ factory.sendFinished = True if factory.currentProtocol: factory.currentProtocol.transport.abortConnection() else: # Connection hasn't been made yet connector.disconnect() d = defer.Deferred(cancel) if isinstance(username, str): username = username.encode("utf-8") if isinstance(password, str): password = password.encode("utf-8") tlsHostname = smtphost if not isinstance(tlsHostname, str): tlsHostname = _idnaText(tlsHostname) factory = ESMTPSenderFactory( username, password, from_addr, to_addrs, msg, d, heloFallback=True, requireAuthentication=requireAuthentication, requireTransportSecurity=requireTransportSecurity, hostname=tlsHostname, ) if senderDomainName is not None: factory.domain = networkString(senderDomainName) connector = reactor.connectTCP(smtphost, port, factory) return d import codecs def xtext_encode(s, errors=None): r = [] for ch in iterbytes(s): o = ord(ch) if ch == "+" or ch == "=" or o < 33 or o > 126: r.append(networkString(f"+{o:02X}")) else: r.append(bytes((o,))) return (b"".join(r), len(s)) def xtext_decode(s, errors=None): """ Decode the xtext-encoded string C{s}. @param s: String to decode. @param errors: codec error handling scheme. @return: The decoded string. """ r = [] i = 0 while i < len(s): if s[i : i + 1] == b"+": try: r.append(chr(int(bytes(s[i + 1 : i + 3]), 16))) except ValueError: r.append(ord(s[i : i + 3])) i += 3 else: r.append(bytes(s[i : i + 1]).decode("ascii")) i += 1 return ("".join(r), len(s)) class xtextStreamReader(codecs.StreamReader): def decode(self, s, errors="strict"): return xtext_decode(s) class xtextStreamWriter(codecs.StreamWriter): def decode(self, s, errors="strict"): return xtext_encode(s) def xtext_codec(name): if name == "xtext": return (xtext_encode, xtext_decode, xtextStreamReader, xtextStreamWriter) codecs.register(xtext_codec)