#!/usr/bin/env python # -*- encoding: utf-8 -*- ''' alias_resolver.py ================= Classes for resolving postfix aliases. :authors: Isis Agora Lovecruft :version: 0.0.1-beta :license: see included LICENSE file :copyright: (c) 2013 Isis Agora Lovecruft TODO: o Look into using twisted.protocols.postfix.policies classes for controlling concurrent connections and throttling resource consumption. ''' import os import uuid try: from twisted.internet import address, defer, reactor from twisted.mail import maildir, alias from twisted.protocols import postfix except ImportError: print "This software requires Twisted. Please see the README file" print "for instructions on getting required dependencies." from leap.mx import couchdb from leap.mx.util import net, log, config, exceptions def createUUID(alias): """Creates Universal Unique ID by taking the SHA1 HASH of an email alias: >>> uuid.uuid5(uuid.NAMESPACE_URL, "isis@leap.se") UUID('7194878e-4aea-563f-85a4-4f58519f3c4f') TODO: Is there a commonly accepted way to check that an email address is valid? :param str alias: An email address alias. :returns: A :class:`uuid.UUID` containing attributes specifying the UUID. """ return uuid.uuid5(uuid.NAMESPACE_URL, str(alias)) class DatabaseNotConnected(Exception): """Raised when not currently connected to a database.""" class StatusCodes(object): """The Postfix manual states: The request completion status is one of OK, RETRY, NOKEY (lookup failed because the key was not found), BAD (malformed request) or DENY (the table is not approved for proxy read or update access). In brief, Postfix will send ``get SPACE key NEWLINE``, or ``put SPACE key NEWLINE`` where ``key`` is an alias or email address. It expects non-printable ascii characters to be url-encoded, i.e. a get-request would look like: ``get%20isis@leap.se%0A`` and in response, Postfix expects an SMTP-like status code and a string describing the nature of or reason for the response, no longer than 4096 "characters" (which, due to UTF-8 ubiquity, we'll err on the safe side and assume that means 4096 bytes.) From the Postfix manual on its TCP map protocol (http://www.postfix.org/tcp_table.5.html): 500 SPACE text NEWLINE In case of a lookup request, the requested data does not exist. In case of an update request, the request was rejected. The text describes the nature of the problem. 400 SPACE text NEWLINE This indicates an error condition. The text describes the nature of the problem. The client should retry the request later. 200 SPACE text NEWLINE The request was successful. In the case of a lookup request, the text contains an encoded version of the requested data. Other SMTP codes: http://www.greenend.org.uk/rjk/tech/smtpreplies.html >>> statcodes = StatusCodes() >>> if : >>> response_message = statcodes(200) >>> aliasresolver.tellMTA() """ OK = "OK Others might say 'HELLA AWESOME'...but we're not convinced." RETRY = "RETRY Server is busy plotting revolution; requests might take a while." BAD = "BAD bad Leroy Brown, baddest man in the whole...er. Malformed request." NOKEY = "NOKEY Couldn't find your keys, sorry. Did you check in the sofa?" DEFER = "DEFER_IF_LOCAL xxx fill me in" DENY = "DENY no gurlz aloud in teh tree house." FAIL = "FAIL this belongs on the failblog" SMTPCodes = { '200': OK, '400': RETRY, '500': BAD, '550': NOKEY, '552': DEFER, '553': DENY, '554': FAIL, } SMTPStrings = { 'OK' 200, 'RETRY': 400, 'BAD': 500, 'NOKEY': 550, 'DEFER': 552, 'DENY': 553, 'FAIL': 554, } def __init__(self, status_code=None): """Construct an SMTP status code generator. :type status_code: str or int :param status_code: (optional) see :func:`StatusCode.get`. """ if status_code: self.get(status_code) def get(self, status_code=None) """Takes an SMTP-like status code and returns an SMTP-like message. :type status_code: str or int :param status_code: The string or integer for the response we want to give back to the MTA, after looking up an email address in the local user database. Can be one of: * ``OK`` or ``200`` * ``RETRY`` or ``400`` * ``BAD`` or ``500`` * ``NOKEY`` or ``550`` * ``DEFER`` or ``552`` * ``DENY`` or ``553`` * ``FAIL`` or ``554`` """ if status_code: if isinstance(status_code, str): if status_code.upper() in self.SMTPStrings.keys(): return self.SMTPStrings[status_code], getattr( self, status_code.upper(), '') else: return 500, self.FAIL elif isinstance(status_code, int): for k, v in self.SMTPCodes.items(): ## we want to return None if it's 500 if k == str(status_code) and k != '500': return status_code, v log.debug("%s" % self.NOKEY) return None, '' class AliasResolver(postfix.PostfixTCPMapServer): """Resolve postfix aliases, similarly to using "$ postmap -q ". This class starts a simple LineReceiver server which listens for a string specifying an alias ``key`` to look up, which will be used to query the local user database. You can test it with: $ ./alias_resolver.py & $ /usr/bin/postmap -q tcp:localhost:1347 Resources: http://www.postfix.org/proxymap.8.html https://www.iana.org/assignments/smtp-enhanced-status-codes/ """ def __init__(self, *args, **kwargs): """Create a server which listens for Postfix aliases to resolve. :param int timeout: Number of seconds to wait for a response. :param str delimiter: The delimiter to use for the EOL on responses. (Default: '\n') """ super(postfix.PostfixTCPMapServer, self).__init__(*args, **kwargs) self.status_codes = StatusCodes() def sendCode(self, code, message=None): """Send an SMTP-like code with a message.""" if not message: message = self.status_codes.get(code) self.sendLine('%3.3d %s' % (code, message or '')) def do_get(self, key): """Make a query to resolve an alias.""" if key is None: self.sendCode(500) log.warn("Command 'get' takes one parameter.") else: d = defer.maybeDeferred(self.factory.get, key) d.addCallbacks(self._cbGot, self._cbNot) d.addErrback(log.err) @defer.inlineCallbacks def do_put(self, keyAndValue): """Add a key and value to the database, provided it does not exist. :param str keyAndValue: An alias and email address, separated by a space, i.e. ``"isis isis@leap.se"``. """ if keyAndValue is None: self.sendCode(500) log.warn("Command 'put' takes two parameters.") else: try: key, value = keyAndValue.split(None, 1) except ValueError: self.sendCode(500) log.warn("Command 'put' takes two parameters.") else: alreadyThere = yield self.do_query(key) if alreadyThere is None: d = defer.maybeDeferred(self.factory.put, key, value) d.addCallbacks(self._cbPut, self._cbPout) d.addCallbacks(log.err) else: self.sendCode(553) @defer.inlineCallbacks def do_delete(self, key): """Delete an alias from the CouchDB. xxx I'm not sure if implementing this would be a good idea... :param str key: An email address to delete from the CouchDB. """ raise NotImplemented def check_recipient_access(self, key): """Make a query to the CouchDB to resolve an alias. If the ``key`` is an email address which the CouchDB has information for that account, we should respond to Postfix with an '200%20\n". :param str key: An email address to look up in the CouchDB. """ self.do_get(key) def virtual_alias_map(self, key): """Get the Universal Unique ID for the alias address. If virtual_transport is True, then suffix the UUID with a domain. xxx I don't think we actually need couchdb for this, the UUID is an identifier, not an authenticator. And the SHA1 should always be the same, so unless it's considered to expensive to compute (less than querying a database, I would presume), it seems silly to do this. Instead, we should query CouchDB with the UUID to get the GPG keyid. xxx Or are we supposed to query Soledad for this? :param str key: An email address to look up in the CouchDB. :returns: The UUID of the user. """ ## xxx need email address parser client_id = createUUID(key) if self.virtual_transport: return client.get_urn() + '@example.com' else: return client.get_urn() def _cbGot(self, value): """Callback for self.get()""" if value is None: self.sendCode(550) else: self.sendCode(250, quote(value)) def _cbNot(self, fail): """Errback for self.get()""" self.sendCode(554, fail.getErrorMessage()) def _cbPut(self, value): """xxx fill me in""" pass def _cbPout(self, fail): """xxx fill me in""" pass class AliasResolverFactory(postfix.PostfixTCPMapDeferringDictServerFactory): """ A Factory for creating :class:`AliasResolver` servers, which handles inputs and outputs, and keeps an in-memory mapping of Postfix aliases in the form of a dictionary. xxx fill me in """ protocol = AliasResolver def __init__(self, addr='127.0.0.1', port=4242, timeout=120, data=None): """ Create a Factory which returns :class:`AliasResolver` servers. @param addr: A string giving the IP address of this server. Default: '127.0.0.1' @param port: An integer that specifies the port number to listen on. Default: 4242 @param timeout: An integer specifying the number of seconds to wait until we should time out. Default: 120 @param data: A dict to use to initialise or update the alias mapping. """ super(postfix.PostfixTCPMapDeferringDictServerFactory, self).__init__(data=data) self.timeout = timeout self.noisy = True if config.advanced.noisy else False try: assert isinstance(port, int), "Port number must be an integer" assert isinstance(timeout, int), "Timeout must be an integer" except AssertionError, ae: raise SystemExit(ae.message) if net.checkIPaddress(addr): self.addr = address._IPAddress('TCP', addr, int(port)) else: log.msg("Using default address: 127.0.0.1:%s" % port) self.addr = address._IPAddress('TCP', '127.0.0.1', int(port)) log.msg("To configure Postfix to query this alias_resolver,") log.msg("you should do:") log.msg(" $ postconf -e 'check_recipient_access = tcp:%s:%d" % (addr, port)) def buildProtocol(self): """ Create an instance of the :class:`AliasResolver` server. """ proto = self.protocol() proto.timeout = self.timeout proto.factory = self return proto def get(self, *args, **kwargs): """ xxx connect me to the couchdb """ pass def put(self, *args, **kwargs): """ xxx connect me to the couchdb """ pass if __name__ == "__main__": print "To test alias_resolver.py, please use /test/test_alias_resolver.py"