# Twisted, the Framework of Your Internet # Copyright (C) 2001-2002 Matthew W. Lefkowitz # # This library is free software; you can redistribute it and/or # modify it under the terms of version 2.1 of the GNU Lesser General Public # License as published by the Free Software Foundation. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # """ MSNP8 Protocol (client only) - semi-experimental Stability: unstable. This module provides support for clients using the MSN Protocol (MSNP8). There are basically 3 servers involved in any MSN session: I{Dispatch server} The DispatchClient class handles connections to the dispatch server, which basically delegates users to a suitable notification server. You will want to subclass this and handle the gotNotificationReferral method appropriately. I{Notification Server} The NotificationClient class handles connections to the notification server, which acts as a session server (state updates, message negotiation etc...) I{Switcboard Server} The SwitchboardClient handles connections to switchboard servers which are used to conduct conversations with other users. There are also two classes (FileSend and FileReceive) used for file transfers. Clients handle events in two ways. - each client request requiring a response will return a Deferred, the callback for same will be fired when the server sends the required response - Events which are not in response to any client request have respective methods which should be overridden and handled in an adequate manner Most client request callbacks require more than one argument, and since Deferreds can only pass the callback one result, most of the time the callback argument will be a tuple of values (documented in the respective request method). To make reading/writing code easier, callbacks can be defined in a number of ways to handle this 'cleanly'. One way would be to define methods like: def callBack(self, (arg1, arg2, arg)): ... another way would be to do something like: d.addCallback(lambda result: myCallback(*result)). If the server sends an error response to a client request, the errback of the corresponding Deferred will be called, the argument being the corresponding error code. B{NOTE}: Due to the lack of an official spec for MSNP8, extra checking than may be deemed necessary often takes place considering the server is never 'wrong'. Thus, if gotBadLine (in any of the 3 main clients) is called, or an MSNProtocolError is raised, it's probably a good idea to submit a bug report. ;) Use of this module requires that PyOpenSSL is installed. TODO ==== - check message hooks with invalid x-msgsinvite messages. - font handling - switchboard factory @author: U{Sam Jordan} """ from __future__ import nested_scopes # Sibling imports from basic import LineReceiver from http import HTTPClient # Twisted imports from twisted.internet import reactor from twisted.internet.defer import Deferred from twisted.internet.protocol import ClientFactory from twisted.internet.ssl import ClientContextFactory from twisted.python import failure, log # System imports import types, operator, os, md5 from random import randint from urllib import quote, unquote MSN_PROTOCOL_VERSION = "MSNP8 CVR0" # protocol version MSN_PORT = 1863 # default dispatch server port MSN_MAX_MESSAGE = 1664 # max message length MSN_CHALLENGE_STR = "Q1P7W2E4J9R8U3S5" # used for server challenges MSN_CVR_STR = "0x0409 win 4.10 i386 MSNMSGR 5.0.0544 MSMSGS" # :( # auth constants LOGIN_SUCCESS = 1 LOGIN_FAILURE = 2 LOGIN_REDIRECT = 3 # list constants FORWARD_LIST = 1 ALLOW_LIST = 2 BLOCK_LIST = 4 REVERSE_LIST = 8 # phone constants HOME_PHONE = "PHH" WORK_PHONE = "PHW" MOBILE_PHONE = "PHM" HAS_PAGER = "MOB" # status constants STATUS_ONLINE = 'NLN' STATUS_OFFLINE = 'FLN' STATUS_HIDDEN = 'HDN' STATUS_IDLE = 'IDL' STATUS_AWAY = 'AWY' STATUS_BUSY = 'BSY' STATUS_BRB = 'BRB' STATUS_PHONE = 'PHN' STATUS_LUNCH = 'LUN' CR = "\r" LF = "\n" def checkParamLen(num, expected, cmd, error=None): if error == None: error = "Invalid Number of Parameters for %s" % cmd if num != expected: raise MSNProtocolError, error def _parseHeader(h, v): """ Split a certin number of known header values with the format: field1=val,field2=val,field3=val into a dict mapping fields to values. @param h: the header's key @param v: the header's value as a string """ if h in ('passporturls','authentication-info','www-authenticate'): v = v.replace('Passport1.4','').lstrip() fields = {} for fieldPair in v.split(','): try: field,value = fieldPair.split('=',1) fields[field.lower()] = value except ValueError: fields[field.lower()] = '' return fields else: return v def _parsePrimitiveHost(host): # Ho Ho Ho h,p = host.replace('https://','').split('/',1) p = '/' + p return h,p def _login(userHandle, passwd, nexusServer, cached=0, authData=''): """ This function is used internally and should not ever be called directly. """ cb = Deferred() def _cb(server, auth): loginFac = ClientFactory() loginFac.protocol = lambda : PassportLogin(cb, userHandle, passwd, server, auth) reactor.connectSSL(_parsePrimitiveHost(server)[0], 443, loginFac, ClientContextFactory()) if cached: _cb(nexusServer, authData) else: fac = ClientFactory() d = Deferred() d.addCallbacks(_cb, callbackArgs=(authData,)) d.addErrback(lambda f: cb.errback(f)) fac.protocol = lambda : PassportNexus(d, nexusServer) reactor.connectSSL(_parsePrimitiveHost(nexusServer)[0], 443, fac, ClientContextFactory()) return cb class PassportNexus(HTTPClient): """ Used to obtain the URL of a valid passport login HTTPS server. This class is used internally and should not be instantiated directly -- that is, The passport logging in process is handled transparantly by NotificationClient. """ def __init__(self, deferred, host): self.deferred = deferred self.host, self.path = _parsePrimitiveHost(host) def connectionMade(self): HTTPClient.connectionMade(self) self.sendCommand('GET', self.path) self.sendHeader('Host', self.host) self.endHeaders() self.headers = {} def handleHeader(self, header, value): h = header.lower() self.headers[h] = _parseHeader(h, value) def handleEndHeaders(self): if self.connected: self.transport.loseConnection() if not self.headers.has_key('passporturls') or not self.headers['passporturls'].has_key('dalogin'): self.deferred.errback(failure.Failure(failure.DefaultException("Invalid Nexus Reply"))) self.deferred.callback('https://' + self.headers['passporturls']['dalogin']) def handleResponse(self, r): pass class PassportLogin(HTTPClient): """ This class is used internally to obtain a login ticket from a passport HTTPS server -- it should not be used directly. """ _finished = 0 def __init__(self, deferred, userHandle, passwd, host, authData): self.deferred = deferred self.userHandle = userHandle self.passwd = passwd self.authData = authData self.host, self.path = _parsePrimitiveHost(host) def connectionMade(self): self.sendCommand('GET', self.path) self.sendHeader('Authorization', 'Passport1.4 OrgVerb=GET,OrgURL=http://messenger.msn.com,' + 'sign-in=%s,pwd=%s,%s' % (quote(self.userHandle), self.passwd,self.authData)) self.sendHeader('Host', self.host) self.endHeaders() self.headers = {} def handleHeader(self, header, value): h = header.lower() self.headers[h] = _parseHeader(h, value) def handleEndHeaders(self): if self._finished: return self._finished = 1 # I think we need this because of HTTPClient if self.connected: self.transport.loseConnection() authHeader = 'authentication-info' _interHeader = 'www-authenticate' if self.headers.has_key(_interHeader): authHeader = _interHeader try: info = self.headers[authHeader] status = info['da-status'] handler = getattr(self, 'login_%s' % (status,), None) if handler: handler(info) else: raise Exception() except Exception, e: self.deferred.errback(failure.Failure(e)) def handleResponse(self, r): pass def login_success(self, info): ticket = info['from-pp'] ticket = ticket[1:len(ticket)-1] self.deferred.callback((LOGIN_SUCCESS, ticket)) def login_failed(self, info): self.deferred.callback((LOGIN_FAILURE, unquote(info['cbtxt']))) def login_redir(self, info): self.deferred.callback((LOGIN_REDIRECT, self.headers['location'], self.authData)) class MSNProtocolError(Exception): """ This Exception is basically used for debugging purposes, as the official MSN server should never send anything _wrong_ and nobody in their right mind would run their B{own} MSN server. If it is raised by default command handlers (handle_BLAH) the error will be logged. """ pass class MSNMessage: """ I am the class used to represent an 'instant' message. @ivar userHandle: The user handle (passport) of the sender (this is only used when receiving a message) @ivar screenName: The screen name of the sender (this is only used when receiving a message) @ivar message: The message @ivar headers: The message headers @type headers: dict @ivar length: The message length (including headers and line endings) @ivar ack: This variable is used to tell the server how to respond once the message has been sent. If set to MESSAGE_ACK (default) the server will respond with an ACK upon receiving the message, if set to MESSAGE_NACK the server will respond with a NACK upon failure to receive the message. If set to MESSAGE_ACK_NONE the server will do nothing. This is relevant for the return value of SwitchboardClient.sendMessage (which will return a Deferred if ack is set to either MESSAGE_ACK or MESSAGE_NACK and will fire when the respective ACK or NACK is received). If set to MESSAGE_ACK_NONE sendMessage will return None. """ MESSAGE_ACK = 'A' MESSAGE_NACK = 'N' MESSAGE_ACK_NONE = 'U' ack = MESSAGE_ACK def __init__(self, length=0, userHandle="", screenName="", message=""): self.userHandle = userHandle self.screenName = screenName self.message = message self.headers = {'MIME-Version' : '1.0', 'Content-Type' : 'text/plain'} self.length = length self.readPos = 0 def _calcMessageLen(self): """ used to calculte the number to send as the message length when sending a message. """ return reduce(operator.add, [len(x[0]) + len(x[1]) + 4 for x in self.headers.items()]) + len(self.message) + 2 def setHeader(self, header, value): """ set the desired header """ self.headers[header] = value def getHeader(self, header): """ get the desired header value @raise KeyError: if no such header exists. """ return self.headers[header] def hasHeader(self, header): """ check to see if the desired header exists """ return self.headers.has_key(header) def getMessage(self): """ return the message - not including headers """ return self.message def setMessage(self, message): """ set the message text """ self.message = message class MSNContact: """ This class represents a contact (user). @ivar userHandle: The contact's user handle (passport). @ivar screenName: The contact's screen name. @ivar groups: A list of all the group IDs which this contact belongs to. @ivar lists: An integer representing the sum of all lists that this contact belongs to. @ivar status: The contact's status code. @type status: str if contact's status is known, None otherwise. @ivar homePhone: The contact's home phone number. @type homePhone: str if known, otherwise None. @ivar workPhone: The contact's work phone number. @type workPhone: str if known, otherwise None. @ivar mobilePhone: The contact's mobile phone number. @type mobilePhone: str if known, otherwise None. @ivar hasPager: Whether or not this user has a mobile pager (true=yes, false=no) """ def __init__(self, userHandle="", screenName="", lists=0, groups=[], status=None): self.userHandle = userHandle self.screenName = screenName self.lists = lists self.groups = [] # if applicable self.status = status # current status # phone details self.homePhone = None self.workPhone = None self.mobilePhone = None self.hasPager = None def setPhone(self, phoneType, value): """ set phone numbers/values for this specific user. for phoneType check the *_PHONE constants and HAS_PAGER """ t = phoneType.upper() if t == HOME_PHONE: self.homePhone = value elif t == WORK_PHONE: self.workPhone = value elif t == MOBILE_PHONE: self.mobilePhone = value elif t == HAS_PAGER: self.hasPager = value else: raise ValueError, "Invalid Phone Type" def addToList(self, listType): """ Update the lists attribute to reflect being part of the given list. """ self.lists |= listType def removeFromList(self, listType): """ Update the lists attribute to reflect being removed from the given list. """ self.lists ^= listType class MSNContactList: """ This class represents a basic MSN contact list. @ivar contacts: All contacts on my various lists @type contacts: dict (mapping user handles to MSNContact objects) @ivar version: The current contact list version (used for list syncing) @ivar groups: a mapping of group ids to group names (groups can only exist on the forward list) @type groups: dict B{Note}: This is used only for storage and doesn't effect the server's contact list. """ def __init__(self): self.contacts = {} self.version = 0 self.groups = {} self.autoAdd = 0 self.privacy = 0 def _getContactsFromList(self, listType): """ Obtain all contacts which belong to the given list type. """ return dict([(uH,obj) for uH,obj in self.contacts.items() if obj.lists & listType]) def addContact(self, contact): """ Add a contact """ self.contacts[contact.userHandle] = contact def remContact(self, userHandle): """ Remove a contact """ try: del self.contacts[userHandle] except KeyError: pass def getContact(self, userHandle): """ Obtain the MSNContact object associated with the given userHandle. @return: the MSNContact object if the user exists, or None. """ try: return self.contacts[userHandle] except KeyError: return None def getBlockedContacts(self): """ Obtain all the contacts on my block list """ return self._getContactsFromList(BLOCK_LIST) def getAuthorizedContacts(self): """ Obtain all the contacts on my auth list. (These are contacts which I have verified can view my state changes). """ return self._getContactsFromList(ALLOW_LIST) def getReverseContacts(self): """ Get all contacts on my reverse list. (These are contacts which have added me to their forward list). """ return self._getContactsFromList(REVERSE_LIST) def getContacts(self): """ Get all contacts on my forward list. (These are the contacts which I have added to my list). """ return self._getContactsFromList(FORWARD_LIST) def setGroup(self, id, name): """ Keep a mapping from the given id to the given name. """ self.groups[id] = name def remGroup(self, id): """ Removed the stored group mapping for the given id. """ try: del self.groups[id] except KeyError: pass for c in self.contacts: if id in c.groups: c.groups.remove(id) class MSNEventBase(LineReceiver): """ This class provides support for handling / dispatching events and is the base class of the three main client protocols (DispatchClient, NotificationClient, SwitchboardClient) """ def __init__(self): self.ids = {} # mapping of ids to Deferreds self.currentID = 0 self.connected = 0 self.setLineMode() self.currentMessage = None def connectionLost(self, reason): self.ids = {} self.connected = 0 def connectionMade(self): self.connected = 1 def _fireCallback(self, id, *args): """ Fire the callback for the given id if one exists and return 1, else return false """ if self.ids.has_key(id): self.ids[id][0].callback(args) del self.ids[id] return 1 return 0 def _nextTransactionID(self): """ return a usable transaction ID """ self.currentID += 1 if self.currentID > 1000: self.currentID = 1 return self.currentID def _createIDMapping(self, data=None): """ return a unique transaction ID that is mapped internally to a deferred .. also store arbitrary data if it is needed """ id = self._nextTransactionID() d = Deferred() self.ids[id] = (d, data) return (id, d) def checkMessage(self, message): """ process received messages to check for file invitations and typing notifications and other control type messages """ raise NotImplementedError def lineReceived(self, line): if self.currentMessage: self.currentMessage.readPos += len(line+CR+LF) if line == "": self.setRawMode() if self.currentMessage.readPos == self.currentMessage.length: self.rawDataReceived("") # :( return try: header, value = line.split(':') except ValueError: raise MSNProtocolError, "Invalid Message Header" self.currentMessage.setHeader(header, unquote(value).lstrip()) return try: cmd, params = line.split(' ', 1) except ValueError: raise MSNProtocolError, "Invalid Message, %s" % repr(line) if len(cmd) != 3: raise MSNProtocolError, "Invalid Command, %s" % repr(cmd) if cmd.isdigit(): if self.ids.has_key(params.split()[0]): self.ids[id].errback(int(cmd)) del self.ids[id] return else: # we received an error which doesn't map to a sent command self.gotError(int(cmd)) return handler = getattr(self, "handle_%s" % cmd.upper(), None) if handler: try: handler(params.split()) except MSNProtocolError, why: self.gotBadLine(line, why) else: self.handle_UNKNOWN(cmd, params.split()) def rawDataReceived(self, data): extra = "" self.currentMessage.readPos += len(data) diff = self.currentMessage.readPos - self.currentMessage.length if diff > 0: self.currentMessage.message += data[:-diff] extra = data[-diff:] elif diff == 0: self.currentMessage.message += data else: self.currentMessage += data return del self.currentMessage.readPos m = self.currentMessage self.currentMessage = None self.setLineMode(extra) if not self.checkMessage(m): return self.gotMessage(m) ### protocol command handlers - no need to override these. def handle_MSG(self, params): checkParamLen(len(params), 3, 'MSG') try: messageLen = int(params[2]) except ValueError: raise MSNProtocolError, "Invalid Parameter for MSG length argument" self.currentMessage = MSNMessage(length=messageLen, userHandle=params[0], screenName=unquote(params[1])) def handle_UNKNOWN(self, cmd, params): """ implement me in subclasses if you want to handle unknown events """ log.msg("Received unknown command (%s), params: %s" % (cmd, params)) ### callbacks def gotMessage(self, message): """ called when we receive a message - override in notification and switchboard clients """ raise NotImplementedError def gotBadLine(self, line, why): """ called when a handler notifies me that this line is broken """ log.msg('Error in line: %s (%s)' % (line, why)) def gotError(self, errorCode): """ called when the server sends an error which is not in response to a sent command (ie. it has no matching transaction ID) """ log.msg('Error %s' % (errorCodes[errorCode])) class DispatchClient(MSNEventBase): """ This class provides support for clients connecting to the dispatch server @ivar userHandle: your user handle (passport) needed before connecting. """ # eventually this may become an attribute of the # factory. userHandle = "" def connectionMade(self): MSNEventBase.connectionMade(self) self.sendLine('VER %s %s' % (self._nextTransactionID(), MSN_PROTOCOL_VERSION)) ### protocol command handlers ( there is no need to override these ) def handle_VER(self, params): versions = params[1:] if versions is None or ' '.join(versions) != MSN_PROTOCOL_VERSION: self.transport.loseConnection() raise MSNProtocolError, "Invalid version response" id = self._nextTransactionID() self.sendLine("CVR %s %s %s" % (id, MSN_CVR_STR, self.userHandle)) def handle_CVR(self, params): self.sendLine("USR %s TWN I %s" % (self._nextTransactionID(), self.userHandle)) def handle_XFR(self, params): if len(params) < 4: raise MSNProtocolError, "Invalid number of parameters for XFR" id, refType, addr = params[:3] # was addr a host:port pair? try: host, port = addr.split(':') except ValueError: host = addr port = MSN_PORT if refType == "NS": self.gotNotificationReferral(host, int(port)) ### callbacks def gotNotificationReferral(self, host, port): """ called when we get a referral to the notification server. @param host: the notification server's hostname @param port: the port to connect to """ pass class NotificationClient(MSNEventBase): """ This class provides support for clients connecting to the notification server. """ factory = None # sssh pychecker def __init__(self, currentID=0): MSNEventBase.__init__(self) self.currentID = currentID self._state = ['DISCONNECTED', {}] def _setState(self, state): self._state[0] = state def _getState(self): return self._state[0] def _getStateData(self, key): return self._state[1][key] def _setStateData(self, key, value): self._state[1][key] = value def _remStateData(self, *args): for key in args: del self._state[1][key] def connectionMade(self): MSNEventBase.connectionMade(self) self._setState('CONNECTED') self.sendLine("VER %s %s" % (self._nextTransactionID(), MSN_PROTOCOL_VERSION)) def connectionLost(self, reason): self._setState('DISCONNECTED') self._state[1] = {} MSNEventBase.connectionLost(self, reason) def checkMessage(self, message): """ hook used for detecting specific notification messages """ cTypes = [s.lstrip() for s in message.getHeader('Content-Type').split(';')] if 'text/x-msmsgsprofile' in cTypes: self.gotProfile(message) return 0 return 1 ### protocol command handlers - no need to override these def handle_VER(self, params): versions = params[1:] if versions is None or ' '.join(versions) != MSN_PROTOCOL_VERSION: self.transport.loseConnection() raise MSNProtocolError, "Invalid version response" self.sendLine("CVR %s %s %s" % (self._nextTransactionID(), MSN_CVR_STR, self.factory.userHandle)) def handle_CVR(self, params): self.sendLine("USR %s TWN I %s" % (self._nextTransactionID(), self.factory.userHandle)) def handle_USR(self, params): if len(params) != 4 and len(params) != 6: raise MSNProtocolError, "Invalid Number of Parameters for USR" mechanism = params[1] if mechanism == "OK": self.loggedIn(params[2], unquote(params[3]), int(params[4])) elif params[2].upper() == "S": # we need to obtain auth from a passport server f = self.factory d = _login(f.userHandle, f.password, f.passportServer, authData=params[3]) d.addCallback(self._passportLogin) d.addErrback(self._passportError) def _passportLogin(self, result): if result[0] == LOGIN_REDIRECT: d = _login(self.factory.userHandle, self.factory.password, result[1], cached=1, authData=result[2]) d.addCallback(self._passportLogin) d.addErrback(self._passportError) elif result[0] == LOGIN_SUCCESS: self.sendLine("USR %s TWN S %s" % (self._nextTransactionID(), result[1])) elif result[0] == LOGIN_FAILURE: self.loginFailure(result[1]) def _passportError(self, failure): self.loginFailure("Exception while authenticating: %s" % failure) def handle_CHG(self, params): checkParamLen(len(params), 3, 'CHG') id = int(params[0]) if not self._fireCallback(id, params[1]): self.statusChanged(params[1]) def handle_ILN(self, params): checkParamLen(len(params), 5, 'ILN') self.gotContactStatus(params[1], params[2], unquote(params[3])) def handle_CHL(self, params): checkParamLen(len(params), 2, 'CHL') self.sendLine("QRY %s msmsgs@msnmsgr.com 32" % self._nextTransactionID()) self.transport.write(md5.md5(params[1] + MSN_CHALLENGE_STR).hexdigest()) def handle_QRY(self, params): pass def handle_NLN(self, params): checkParamLen(len(params), 4, 'NLN') self.contactStatusChanged(params[0], params[1], unquote(params[2])) def handle_FLN(self, params): checkParamLen(len(params), 1, 'FLN') self.contactOffline(params[0]) def handle_LST(self, params): # support no longer exists for manually # requesting lists - why do I feel cleaner now? if self._getState() != 'SYNC': return contact = MSNContact(userHandle=params[0], screenName=unquote(params[1]), lists=int(params[2])) if contact.lists & FORWARD_LIST: contact.groups.extend(map(int, params[3].split(','))) self._getStateData('list').addContact(contact) self._setStateData('last_contact', contact) sofar = self._getStateData('lst_sofar') + 1 if sofar == self._getStateData('lst_reply'): # this is the best place to determine that # a syn realy has finished - msn _may_ send # BPR information for the last contact # which is unfortunate because it means # that the real end of a syn is non-deterministic. # to handle this we'll keep 'last_contact' hanging # around in the state data and update it if we need # to later. self._setState('SESSION') contacts = self._getStateData('list') phone = self._getStateData('phone') id = self._getStateData('synid') self._remStateData('lst_reply', 'lsg_reply', 'lst_sofar', 'phone', 'synid', 'list') self._fireCallback(id, contacts, phone) else: self._setStateData('lst_sofar',sofar) def handle_BLP(self, params): # check to see if this is in response to a SYN if self._getState() == 'SYNC': self._getStateData('list').privacy = listCodeToID[params[0].lower()] else: id = int(params[0]) self._fireCallback(id, int(params[1]), listCodeToID[params[2].lower()]) def handle_GTC(self, params): # check to see if this is in response to a SYN if self._getState() == 'SYNC': if params[0].lower() == "a": self._getStateData('list').autoAdd = 0 elif params[0].lower() == "n": self._getStateData('list').autoAdd = 1 else: raise MSNProtocolError, "Invalid Paramater for GTC" # debug else: id = int(params[0]) if params[1].lower() == "a": self._fireCallback(id, 0) elif params[1].lower() == "n": self._fireCallback(id, 1) else: raise MSNProtocolError, "Invalid Paramater for GTC" # debug def handle_SYN(self, params): id = int(params[0]) if len(params) == 2: self._setState('SESSION') self._fireCallback(id, None, None) else: contacts = MSNContactList() contacts.version = int(params[1]) self._setStateData('list', contacts) self._setStateData('lst_reply', int(params[2])) self._setStateData('lsg_reply', int(params[3])) self._setStateData('lst_sofar', 0) self._setStateData('phone', []) def handle_LSG(self, params): if self._getState() == 'SYNC': self._getStateData('list').groups[int(params[0])] = unquote(params[1]) # Please see the comment above the requestListGroups / requestList methods # regarding support for this # #else: # self._getStateData('groups').append((int(params[4]), unquote(params[5]))) # if params[3] == params[4]: # this was the last group # self._fireCallback(int(params[0]), self._getStateData('groups'), int(params[1])) # self._remStateData('groups') def handle_PRP(self, params): if self._getState() == 'SYNC': self._getStateData('phone').append((params[0], unquote(params[1]))) else: self._fireCallback(int(params[0]), int(params[1]), unquote(params[3])) def handle_BPR(self, params): numParams = len(params) if numParams == 2: # part of a syn self._getStateData('last_contact').setPhone(params[0], unquote(params[1])) elif numParams == 4: self.gotPhoneNumber(int(params[0]), params[1], params[2], unquote(params[3])) def handle_ADG(self, params): checkParamLen(len(params), 5, 'ADG') id = int(params[0]) if not self._fireCallback(id, int(params[1]), unquote(params[2]), int(params[3])): raise MSNProtocolError, "ADG response does not match up to a request" # debug def handle_RMG(self, params): checkParamLen(len(params), 3, 'RMG') id = int(params[0]) if not self._fireCallback(id, int(params[1]), int(params[2])): raise MSNProtocolError, "RMG response does not match up to a request" # debug def handle_REG(self, params): checkParamLen(len(params), 5, 'REG') id = int(params[0]) if not self._fireCallback(id, int(params[1]), int(params[2]), unquote(params[3])): raise MSNProtocolError, "REG response does not match up to a request" # debug def handle_ADD(self, params): numParams = len(params) if numParams < 5 or params[1].upper() not in ('AL','BL','RL','FL'): raise MSNProtocolError, "Invalid Paramaters for ADD" # debug id = int(params[0]) listType = params[1].lower() listVer = int(params[2]) userHandle = params[3] groupID = None if numParams == 6: # they sent a group id if params[1].upper() != "FL": raise MSNProtocolError, "Only forward list can contain groups" # debug groupID = int(params[5]) if not self._fireCallback(id, listCodeToID[listType], userHandle, listVer, groupID): self.userAddedMe(userHandle, unquote(params[4]), listVer) def handle_REM(self, params): numParams = len(params) if numParams < 4 or params[1].upper() not in ('AL','BL','FL','RL'): raise MSNProtocolError, "Invalid Paramaters for REM" # debug id = int(params[0]) listType = params[1].lower() listVer = int(params[2]) userHandle = params[3] groupID = None if numParams == 5: if params[1] != "FL": raise MSNProtocolError, "Only forward list can contain groups" # debug groupID = int(params[4]) if not self._fireCallback(id, listCodeToID[listType], userHandle, listVer, groupID): if listType.upper() == "RL": self.userRemovedMe(userHandle, listVer) def handle_REA(self, params): checkParamLen(len(params), 4, 'REA') id = int(params[0]) self._fireCallback(id, int(params[1]), unquote(params[3])) def handle_XFR(self, params): checkParamLen(len(params), 5, 'XFR') id = int(params[0]) # check to see if they sent a host/port pair try: host, port = params[2].split(':') except ValueError: host = params[2] port = MSN_PORT if not self._fireCallback(id, host, int(port), params[4]): raise MSNProtocolError, "Got XFR (referral) that I didn't ask for .. should this happen?" # debug def handle_RNG(self, params): checkParamLen(len(params), 6, 'RNG') # check for host:port pair try: host, port = params[1].split(":") port = int(port) except ValueError: host = params[1] port = MSN_PORT self.gotSwitchboardInvitation(int(params[0]), host, port, params[3], params[4], unquote(params[5])) def handle_OUT(self, params): checkParamLen(len(params), 1, 'OUT') if params[0] == "OTH": self.multipleLogin() elif params[0] == "SSD": self.serverGoingDown() else: raise MSNProtocolError, "Invalid Parameters received for OUT" # debug # callbacks def loggedIn(self, userHandle, screenName, verified): """ Called when the client has logged in. The default behaviour of this method is to update the factory with our screenName and to sync the contact list (factory.contacts). When this is complete self.listSynchronized will be called. @param userHandle: our userHandle @param screenName: our screenName @param verified: 1 if our passport has been (verified), 0 if not. (i'm not sure of the significace of this) @type verified: int """ self.factory.screenName = screenName if not self.factory.contacts: listVersion = 0 else: listVersion = self.factory.contacts.version self.syncList(listVersion).addCallback(self.listSynchronized) def loginFailure(self, message): """ Called when the client fails to login. @param message: a message indicating the problem that was encountered """ pass def gotProfile(self, message): """ Called after logging in when the server sends an initial message with MSN/passport specific profile information such as country, number of kids, etc. Check the message headers for the specific values. @param message: The profile message """ pass def listSynchronized(self, *args): """ Lists are now synchronized by default upon logging in, this method is called after the synchronization has finished and the factory now has the up-to-date contacts. """ pass def statusChanged(self, statusCode): """ Called when our status changes and it isn't in response to a client command. By default we will update the status attribute of the factory. @param statusCode: 3-letter status code """ self.factory.status = statusCode def gotContactStatus(self, statusCode, userHandle, screenName): """ Called after loggin in when the server sends status of online contacts. By default we will update the status attribute of the contact stored on the factory. @param statusCode: 3-letter status code @param userHandle: the contact's user handle (passport) @param screenName: the contact's screen name """ self.factory.contacts.getContact(userHandle).status = statusCode def contactStatusChanged(self, statusCode, userHandle, screenName): """ Called when we're notified that a contact's status has changed. By default we will update the status attribute of the contact stored on the factory. @param statusCode: 3-letter status code @param userHandle: the contact's user handle (passport) @param screenName: the contact's screen name """ self.factory.contacts.getContact(userHandle).status = statusCode def contactOffline(self, userHandle): """ Called when a contact goes offline. By default this method will update the status attribute of the contact stored on the factory. @param userHandle: the contact's user handle """ self.factory.contacts.getContact(userHandle).status = STATUS_OFFLINE def gotPhoneNumber(self, listVersion, userHandle, phoneType, number): """ Called when the server sends us phone details about a specific user (for example after a user is added the server will send their status, phone details etc. By default we will update the list version for the factory's contact list and update the phone details for the specific user. @param listVersion: the new list version @param userHandle: the contact's user handle (passport) @param phoneType: the specific phoneType (*_PHONE constants or HAS_PAGER) @param number: the value/phone number. """ self.factory.contacts.version = listVersion self.factory.contacts.getContact(userHandle).setPhone(phoneType, number) def userAddedMe(self, userHandle, screenName, listVersion): """ Called when a user adds me to their list. (ie. they have been added to the reverse list. By default this method will update the version of the factory's contact list -- that is, if the contact already exists it will update the associated lists attribute, otherwise it will create a new MSNContact object and store it. @param userHandle: the userHandle of the user @param screenName: the screen name of the user @param listVersion: the new list version @type listVersion: int """ self.factory.contacts.version = listVersion c = self.factory.contacts.getContact(userHandle) if not c: c = MSNContact(userHandle=userHandle, screenName=screenName) self.factory.contacts.addContact(c) c.addToList(REVERSE_LIST) def userRemovedMe(self, userHandle, listVersion): """ Called when a user removes us from their contact list (they are no longer on our reverseContacts list. By default this method will update the version of the factory's contact list -- that is, the user will be removed from the reverse list and if they are no longer part of any lists they will be removed from the contact list entirely. @param userHandle: the contact's user handle (passport) @param listVersion: the new list version """ self.factory.contacts.version = listVersion c = self.factory.contacts.getContact(userHandle) c.removeFromList(REVERSE_LIST) if c.lists == 0: self.factory.contacts.remContact(c.userHandle) def gotSwitchboardInvitation(self, sessionID, host, port, key, userHandle, screenName): """ Called when we get an invitation to a switchboard server. This happens when a user requests a chat session with us. @param sessionID: session ID number, must be remembered for logging in @param host: the hostname of the switchboard server @param port: the port to connect to @param key: used for authorization when connecting @param userHandle: the user handle of the person who invited us @param screenName: the screen name of the person who invited us """ pass def multipleLogin(self): """ Called when the server says there has been another login under our account, the server should disconnect us right away. """ pass def serverGoingDown(self): """ Called when the server has notified us that it is going down for maintenance. """ pass # api calls def changeStatus(self, status): """ Change my current status. This method will add a default callback to the returned Deferred which will update the status attribute of the factory. @param status: 3-letter status code (as defined by the STATUS_* constants) @return: A Deferred, the callback of which will be fired when the server confirms the change of status. The callback argument will be a tuple with the new status code as the only element. """ id, d = self._createIDMapping() self.sendLine("CHG %s %s" % (id, status)) def _cb(r): self.factory.status = r[0] return r return d.addCallback(_cb) # I am no longer supporting the process of manually requesting # lists or list groups -- as far as I can see this has no use # if lists are synchronized and updated correctly, which they # should be. If someone has a specific justified need for this # then please contact me and i'll re-enable/fix support for it. #def requestList(self, listType): # """ # request the desired list type # # @param listType: (as defined by the *_LIST constants) # @return: A Deferred, the callback of which will be # fired when the list has been retrieved. # The callback argument will be a tuple with # the only element being a list of MSNContact # objects. # """ # # this doesn't need to ever be used if syncing of the lists takes place # # i.e. please don't use it! # warnings.warn("Please do not use this method - use the list syncing process instead") # id, d = self._createIDMapping() # self.sendLine("LST %s %s" % (id, listIDToCode[listType].upper())) # self._setStateData('list',[]) # return d def setPrivacyMode(self, privLevel): """ Set my privacy mode on the server. B{Note}: This only keeps the current privacy setting on the server for later retrieval, it does not effect the way the server works at all. @param privLevel: This parameter can be true, in which case the server will keep the state as 'al' which the official client interprets as -> allow messages from only users on the allow list. Alternatively it can be false, in which case the server will keep the state as 'bl' which the official client interprets as -> allow messages from all users except those on the block list. @return: A Deferred, the callback of which will be fired when the server replies with the new privacy setting. The callback argument will be a tuple, the 2 elements of which being the list version and either 'al' or 'bl' (the new privacy setting). """ id, d = self._createIDMapping() if privLevel: self.sendLine("BLP %s AL" % id) else: self.sendLine("BLP %s BL" % id) return d def syncList(self, version): """ Used for keeping an up-to-date contact list. A callback is added to the returned Deferred that updates the contact list on the factory and also sets my state to STATUS_ONLINE. B{Note}: This is called automatically upon signing in using the version attribute of factory.contacts, so you may want to persist this object accordingly. Because of this there is no real need to ever call this method directly. @param version: The current known list version @return: A Deferred, the callback of which will be fired when the server sends an adequate reply. The callback argument will be a tuple with two elements, the new list (MSNContactList) and your current state (a dictionary). If the version you sent _was_ the latest list version, both elements will be None. To just request the list send a version of 0. """ self._setState('SYNC') id, d = self._createIDMapping(data=str(version)) self._setStateData('synid',id) self.sendLine("SYN %s %s" % (id, version)) def _cb(r): self.changeStatus(STATUS_ONLINE) if r[0] is not None: self.factory.contacts = r[0] return r return d.addCallback(_cb) # I am no longer supporting the process of manually requesting # lists or list groups -- as far as I can see this has no use # if lists are synchronized and updated correctly, which they # should be. If someone has a specific justified need for this # then please contact me and i'll re-enable/fix support for it. #def requestListGroups(self): # """ # Request (forward) list groups. # # @return: A Deferred, the callback for which will be called # when the server responds with the list groups. # The callback argument will be a tuple with two elements, # a dictionary mapping group IDs to group names and the # current list version. # """ # # # this doesn't need to be used if syncing of the lists takes place (which it SHOULD!) # # i.e. please don't use it! # warnings.warn("Please do not use this method - use the list syncing process instead") # id, d = self._createIDMapping() # self.sendLine("LSG %s" % id) # self._setStateData('groups',{}) # return d def setPhoneDetails(self, phoneType, value): """ Set/change my phone numbers stored on the server. @param phoneType: phoneType can be one of the following constants - HOME_PHONE, WORK_PHONE, MOBILE_PHONE, HAS_PAGER. These are pretty self-explanatory, except maybe HAS_PAGER which refers to whether or not you have a pager. @param value: for all of the *_PHONE constants the value is a phone number (str), for HAS_PAGER accepted values are 'Y' (for yes) and 'N' (for no). @return: A Deferred, the callback for which will be fired when the server confirms the change has been made. The callback argument will be a tuple with 2 elements, the first being the new list version (int) and the second being the new phone number value (str). """ # XXX: Add a default callback which updates # factory.contacts.version and the relevant phone # number id, d = self._createIDMapping() self.sendLine("PRP %s %s %s" % (id, phoneType, quote(value))) return d def addListGroup(self, name): """ Used to create a new list group. A default callback is added to the returned Deferred which updates the contacts attribute of the factory. @param name: The desired name of the new group. @return: A Deferred, the callbacck for which will be called when the server clarifies that the new group has been created. The callback argument will be a tuple with 3 elements: the new list version (int), the new group name (str) and the new group ID (int). """ id, d = self._createIDMapping() self.sendLine("ADG %s %s 0" % (id, quote(name))) def _cb(r): self.factory.contacts.version = r[0] self.factory.contacts.setGroup(r[1], r[2]) return r return d.addCallback(_cb) def remListGroup(self, groupID): """ Used to remove a list group. A default callback is added to the returned Deferred which updates the contacts attribute of the factory. @param groupID: the ID of the desired group to be removed. @return: A Deferred, the callback for which will be called when the server clarifies the deletion of the group. The callback argument will be a tuple with 2 elements: the new list version (int) and the group ID (int) of the removed group. """ id, d = self._createIDMapping() self.sendLine("RMG %s %s" % (id, groupID)) def _cb(r): self.factory.contacts.version = r[0] self.factory.contacts.remGroup(r[1]) return r return d.addCallback(_cb) def renameListGroup(self, groupID, newName): """ Used to rename an existing list group. A default callback is added to the returned Deferred which updates the contacts attribute of the factory. @param groupID: the ID of the desired group to rename. @param newName: the desired new name for the group. @return: A Deferred, the callback for which will be called when the server clarifies the renaming. The callback argument will be a tuple of 3 elements, the new list version (int), the group id (int) and the new group name (str). """ id, d = self._createIDMapping() self.sendLine("REG %s %s %s 0" % (id, groupID, quote(newName))) def _cb(r): self.factory.contacts.version = r[0] self.factory.contacts.setGroup(r[1], r[2]) return r return d.addCallback(_cb) def addContact(self, listType, userHandle, groupID=0): """ Used to add a contact to the desired list. A default callback is added to the returned Deferred which updates the contacts attribute of the factory with the new contact information. If you are adding a contact to the forward list and you want to associate this contact with multiple groups then you will need to call this method for each group you would like to add them to, changing the groupID parameter. The default callback will take care of updating the group information on the factory's contact list. @param listType: (as defined by the *_LIST constants) @param userHandle: the user handle (passport) of the contact that is being added @param groupID: the group ID for which to associate this contact with. (default 0 - default group). Groups are only valid for FORWARD_LIST. @return: A Deferred, the callback for which will be called when the server has clarified that the user has been added. The callback argument will be a tuple with 4 elements: the list type, the contact's user handle, the new list version, and the group id (if relevant, otherwise it will be None) """ id, d = self._createIDMapping() listType = listIDToCode[listType].upper() if listType == "FL": self.sendLine("ADD %s FL %s %s %s" % (id, userHandle, userHandle, groupID)) else: self.sendLine("ADD %s %s %s %s" % (id, listType, userHandle, userHandle)) def _cb(r): self.factory.contacts.version = r[2] c = self.factory.contacts.getContact(r[1]) if not c: c = MSNContact(userHandle=r[1]) if r[3]: c.groups.append(r[3]) c.addToList(r[0]) return r return d.addCallback(_cb) def remContact(self, listType, userHandle, groupID=0): """ Used to remove a contact from the desired list. A default callback is added to the returned deferred which updates the contacts attribute of the factory to reflect the new contact information. If you are removing from the forward list then you will need to supply a groupID, if the contact is in more than one group then they will only be removed from this group and not the entire forward list, but if this is their only group they will be removed from the whole list. @param listType: (as defined by the *_LIST constants) @param userHandle: the user handle (passport) of the contact being removed @param groupID: the ID of the group to which this contact belongs (only relevant for FORWARD_LIST, default is 0) @return: A Deferred, the callback for which will be called when the server has clarified that the user has been removed. The callback argument will be a tuple of 4 elements: the list type, the contact's user handle, the new list version, and the group id (if relevant, otherwise it will be None) """ id, d = self._createIDMapping() listType = listIDToCode[listType].upper() if listType == "FL": self.sendLine("REM %s FL %s %s" % (id, userHandle, groupID)) else: self.sendLine("REM %s %s %s" % (id, listType, userHandle)) def _cb(r): l = self.factory.contacts l.version = r[2] c = l.getContact(r[1]) group = r[3] shouldRemove = 1 if group: # they may not have been removed from the list c.groups.remove(group) if c.groups: shouldRemove = 0 if shouldRemove: c.removeFromList(r[0]) if c.lists == 0: l.remContact(c.userHandle) return r return d.addCallback(_cb) def changeScreenName(self, newName): """ Used to change your current screen name. A default callback is added to the returned Deferred which updates the screenName attribute of the factory and also updates the contact list version. @param newName: the new screen name @return: A Deferred, the callback for which will be called when the server sends an adequate reply. The callback argument will be a tuple of 2 elements: the new list version and the new screen name. """ id, d = self._createIDMapping() self.sendLine("REA %s %s %s" % (id, self.factory.userHandle, quote(newName))) def _cb(r): self.factory.contacts.version = r[0] self.factory.screenName = r[1] return r return d.addCallback(_cb) def requestSwitchboardServer(self): """ Used to request a switchboard server to use for conversations. @return: A Deferred, the callback for which will be called when the server responds with the switchboard information. The callback argument will be a tuple with 3 elements: the host of the switchboard server, the port and a key used for logging in. """ id, d = self._createIDMapping() self.sendLine("XFR %s SB" % id) return d def logOut(self): """ Used to log out of the notification server. After running the method the server is expected to close the connection. """ self.sendLine("OUT") class NotificationFactory(ClientFactory): """ Factory for the NotificationClient protocol. This is basically responsible for keeping the state of the client and thus should be used in a 1:1 situation with clients. @ivar contacts: An MSNContactList instance reflecting the current contact list -- this is generally kept up to date by the default command handlers. @ivar userHandle: The client's userHandle, this is expected to be set by the client and is used by the protocol (for logging in etc). @ivar screenName: The client's current screen-name -- this is generally kept up to date by the default command handlers. @ivar password: The client's password -- this is (obviously) expected to be set by the client. @ivar passportServer: This must point to an msn passport server (the whole URL is required) @ivar status: The status of the client -- this is generally kept up to date by the default command handlers """ contacts = None userHandle = '' screenName = '' password = '' passportServer = 'https://nexus.passport.com/rdr/pprdr.asp' status = 'FLN' protocol = NotificationClient # XXX: A lot of the state currently kept in # instances of SwitchboardClient is likely to # be moved into a factory at some stage in the # future class SwitchboardClient(MSNEventBase): """ This class provides support for clients connecting to a switchboard server. Switchboard servers are used for conversations with other people on the MSN network. This means that the number of conversations at any given time will be directly proportional to the number of connections to varioius switchboard servers. MSN makes no distinction between single and group conversations, so any number of users may be invited to join a specific conversation taking place on a switchboard server. @ivar key: authorization key, obtained when receiving invitation / requesting switchboard server. @ivar userHandle: your user handle (passport) @ivar sessionID: unique session ID, used if you are replying to a switchboard invitation @ivar reply: set this to 1 in connectionMade or before to signifiy that you are replying to a switchboard invitation. """ key = 0 userHandle = "" sessionID = "" reply = 0 _iCookie = 0 def __init__(self): MSNEventBase.__init__(self) self.pendingUsers = {} self.cookies = {'iCookies' : {}, 'external' : {}} # will maybe be moved to a factory in the future def connectionMade(self): MSNEventBase.connectionMade(self) print 'sending initial stuff' self._sendInit() def connectionLost(self, reason): self.cookies['iCookies'] = {} self.cookies['external'] = {} MSNEventBase.connectionLost(self, reason) def _sendInit(self): """ send initial data based on whether we are replying to an invitation or starting one. """ id = self._nextTransactionID() if not self.reply: self.sendLine("USR %s %s %s" % (id, self.userHandle, self.key)) else: self.sendLine("ANS %s %s %s %s" % (id, self.userHandle, self.key, self.sessionID)) def _newInvitationCookie(self): self._iCookie += 1 if self._iCookie > 1000: self._iCookie = 1 return self._iCookie def _checkTyping(self, message, cTypes): """ helper method for checkMessage """ if 'text/x-msmsgscontrol' in cTypes and message.hasHeader('TypingUser'): self.userTyping(message) return 1 def _checkFileInvitation(self, message, info): """ helper method for checkMessage """ if not info.get('Application-Name', '').lower() == 'file transfer': return 0 try: cookie = int(info['Invitation-Cookie']) fileName = info['Application-File'] fileSize = int(info['Application-FileSize']) except KeyError: log.msg('Received munged file transfer request ... ignoring.') return 0 self.gotSendRequest(fileName, fileSize, cookie, message) return 1 def _checkFileResponse(self, message, info): """ helper method for checkMessage """ try: cmd = info['Invitation-Command'].upper() cookie = int(info['Invitation-Cookie']) except KeyError: return 0 accept = (cmd == 'ACCEPT') and 1 or 0 requested = self.cookies['iCookies'].get(cookie) if not requested: return 1 requested[0].callback((accept, cookie, info)) del self.cookies['iCookies'][cookie] return 1 def _checkFileInfo(self, message, info): """ helper method for checkMessage """ try: ip = info['IP-Address'] iCookie = int(info['Invitation-Cookie']) aCookie = int(info['AuthCookie']) cmd = info['Invitation-Command'].upper() port = int(info['Port']) except KeyError: return 0 accept = (cmd == 'ACCEPT') and 1 or 0 requested = self.cookies['external'].get(iCookie) if not requested: return 1 # we didn't ask for this requested[0].callback((accept, ip, port, aCookie, info)) del self.cookies['external'][iCookie] return 1 def checkMessage(self, message): """ hook for detecting any notification type messages (e.g. file transfer) """ cTypes = [s.lstrip() for s in message.getHeader('Content-Type').split(';')] if self._checkTyping(message, cTypes): return 0 if 'text/x-msmsgsinvite' in cTypes: # header like info is sent as part of the message body. info = {} for line in message.message.split('\r\n'): try: key, val = line.split(':') info[key] = val.lstrip() except ValueError: continue if self._checkFileInvitation(message, info) or self._checkFileInfo(message, info) or self._checkFileResponse(message, info): return 0 return 1 # negotiation def handle_USR(self, params): checkParamLen(len(params), 4, 'USR') if params[1] == "OK": self.loggedIn() # invite a user def handle_CAL(self, params): checkParamLen(len(params), 3, 'CAL') id = int(params[0]) if params[1].upper() == "RINGING": self._fireCallback(id, int(params[2])) # session ID as parameter # user joined def handle_JOI(self, params): checkParamLen(len(params), 2, 'JOI') self.userJoined(params[0], unquote(params[1])) # users participating in the current chat def handle_IRO(self, params): checkParamLen(len(params), 5, 'IRO') self.pendingUsers[params[3]] = unquote(params[4]) if params[1] == params[2]: self.gotChattingUsers(self.pendingUsers) self.pendingUsers = {} # finished listing users def handle_ANS(self, params): checkParamLen(len(params), 2, 'ANS') if params[1] == "OK": self.loggedIn() def handle_ACK(self, params): checkParamLen(len(params), 1, 'ACK') self._fireCallback(int(params[0]), None) def handle_NAK(self, params): checkParamLen(len(params), 1, 'NAK') self._fireCallback(int(params[0]), None) def handle_BYE(self, params): #checkParamLen(len(params), 1, 'BYE') # i've seen more than 1 param passed to this self.userLeft(params[0]) # callbacks def loggedIn(self): """ called when all login details have been negotiated. Messages can now be sent, or new users invited. """ pass def gotChattingUsers(self, users): """ called after connecting to an existing chat session. @param users: A dict mapping user handles to screen names (current users taking part in the conversation) """ pass def userJoined(self, userHandle, screenName): """ called when a user has joined the conversation. @param userHandle: the user handle (passport) of the user @param screenName: the screen name of the user """ pass def userLeft(self, userHandle): """ called when a user has left the conversation. @param userHandle: the user handle (passport) of the user. """ pass def gotMessage(self, message): """ called when we receive a message. @param message: the associated MSNMessage object """ pass def userTyping(self, message): """ called when we receive the special type of message notifying us that a user is typing a message. @param message: the associated MSNMessage object """ pass def gotSendRequest(self, fileName, fileSize, iCookie, message): """ called when a contact is trying to send us a file. To accept or reject this transfer see the fileInvitationReply method. @param fileName: the name of the file @param fileSize: the size of the file @param iCookie: the invitation cookie, used so the client can match up your reply with this request. @param message: the MSNMessage object which brought about this invitation (it may contain more information) """ pass # api calls def inviteUser(self, userHandle): """ used to invite a user to the current switchboard server. @param userHandle: the user handle (passport) of the desired user. @return: A Deferred, the callback for which will be called when the server notifies us that the user has indeed been invited. The callback argument will be a tuple with 1 element, the sessionID given to the invited user. I'm not sure if this is useful or not. """ id, d = self._createIDMapping() self.sendLine("CAL %s %s" % (id, userHandle)) return d def sendMessage(self, message): """ used to send a message. @param message: the corresponding MSNMessage object. @return: Depending on the value of message.ack. If set to MSNMessage.MESSAGE_ACK or MSNMessage.MESSAGE_NACK a Deferred will be returned, the callback for which will be fired when an ACK or NACK is received - the callback argument will be (None,). If set to MSNMessage.MESSAGE_ACK_NONE then the return value is None. """ if message.ack not in ('A','N'): id, d = self._nextTransactionID(), None else: id, d = self._createIDMapping() if message.length == 0: message.length = message._calcMessageLen() self.sendLine("MSG %s %s %s" % (id, message.ack, message.length)) # apparently order matters with at least MIME-Version and Content-Type self.sendLine('MIME-Version: %s' % message.getHeader('MIME-Version')) self.sendLine('Content-Type: %s' % message.getHeader('Content-Type')) # send the rest of the headers for header in [h for h in message.headers.items() if h[0].lower() not in ('mime-version','content-type')]: self.sendLine("%s: %s" % (header[0], header[1])) self.transport.write(CR+LF) self.transport.write(message.message) return d def sendTypingNotification(self): """ used to send a typing notification. Upon receiving this message the official client will display a 'user is typing' message to all other users in the chat session for 10 seconds. The official client sends one of these every 5 seconds (I think) as long as you continue to type. """ m = MSNMessage() m.ack = m.MESSAGE_ACK_NONE m.setHeader('Content-Type', 'text/x-msmsgscontrol') m.setHeader('TypingUser', self.userHandle) m.message = "\r\n" self.sendMessage(m) def sendFileInvitation(self, fileName, fileSize): """ send an notification that we want to send a file. @param fileName: the file name @param fileSize: the file size @return: A Deferred, the callback of which will be fired when the user responds to this invitation with an appropriate message. The callback argument will be a tuple with 3 elements, the first being 1 or 0 depending on whether they accepted the transfer (1=yes, 0=no), the second being an invitation cookie to identify your follow-up responses and the third being the message 'info' which is a dict of information they sent in their reply (this doesn't really need to be used). If you wish to proceed with the transfer see the sendTransferInfo method. """ cookie = self._newInvitationCookie() d = Deferred() m = MSNMessage() m.setHeader('Content-Type', 'text/x-msmsgsinvite; charset=UTF-8') m.message += 'Application-Name: File Transfer\r\n' m.message += 'Application-GUID: {5D3E02AB-6190-11d3-BBBB-00C04F795683}\r\n' m.message += 'Invitation-Command: INVITE\r\n' m.message += 'Invitation-Cookie: %s\r\n' % str(cookie) m.message += 'Application-File: %s\r\n' % fileName m.message += 'Application-FileSize: %s\r\n\r\n' % str(fileSize) m.ack = m.MESSAGE_ACK_NONE self.sendMessage(m) self.cookies['iCookies'][cookie] = (d, m) return d def fileInvitationReply(self, iCookie, accept=1): """ used to reply to a file transfer invitation. @param iCookie: the invitation cookie of the initial invitation @param accept: whether or not you accept this transfer, 1 = yes, 0 = no, default = 1. @return: A Deferred, the callback for which will be fired when the user responds with the transfer information. The callback argument will be a tuple with 5 elements, whether or not they wish to proceed with the transfer (1=yes, 0=no), their ip, the port, the authentication cookie (see FileReceive/FileSend) and the message info (dict) (in case they send extra header-like info like Internal-IP, this doesn't necessarily need to be used). If you wish to proceed with the transfer see FileReceive. """ d = Deferred() m = MSNMessage() m.setHeader('Content-Type', 'text/x-msmsgsinvite; charset=UTF-8') m.message += 'Invitation-Command: %s\r\n' % (accept and 'ACCEPT' or 'CANCEL') m.message += 'Invitation-Cookie: %s\r\n' % str(iCookie) if not accept: m.message += 'Cancel-Code: REJECT\r\n' m.message += 'Launch-Application: FALSE\r\n' m.message += 'Request-Data: IP-Address:\r\n' m.message += '\r\n' m.ack = m.MESSAGE_ACK_NONE self.sendMessage(m) self.cookies['external'][iCookie] = (d, m) return d def sendTransferInfo(self, accept, iCookie, authCookie, ip, port): """ send information relating to a file transfer session. @param accept: whether or not to go ahead with the transfer (1=yes, 0=no) @param iCookie: the invitation cookie of previous replies relating to this transfer @param authCookie: the authentication cookie obtained from an FileSend instance @param ip: your ip @param port: the port on which an FileSend protocol is listening. """ m = MSNMessage() m.setHeader('Content-Type', 'text/x-msmsgsinvite; charset=UTF-8') m.message += 'Invitation-Command: %s\r\n' % (accept and 'ACCEPT' or 'CANCEL') m.message += 'Invitation-Cookie: %s\r\n' % iCookie m.message += 'IP-Address: %s\r\n' % ip m.message += 'Port: %s\r\n' % port m.message += 'AuthCookie: %s\r\n' % authCookie m.message += '\r\n' m.ack = m.MESSAGE_NACK self.sendMessage(m) class FileReceive(LineReceiver): """ This class provides support for receiving files from contacts. @ivar fileSize: the size of the receiving file. (you will have to set this) @ivar connected: true if a connection has been established. @ivar completed: true if the transfer is complete. @ivar bytesReceived: number of bytes (of the file) received. This does not include header data. """ def __init__(self, auth, myUserHandle, file, directory="", overwrite=0): """ @param auth: auth string received in the file invitation. @param myUserHandle: your userhandle. @param file: A string or file object represnting the file to save data to. @param directory: optional parameter specifiying the directory. Defaults to the current directory. @param overwrite: if true and a file of the same name exists on your system, it will be overwritten. (0 by default) """ self.auth = auth self.myUserHandle = myUserHandle self.fileSize = 0 self.connected = 0 self.completed = 0 self.directory = directory self.bytesReceived = 0 self.overwrite = overwrite # used for handling current received state self.state = 'CONNECTING' self.segmentLength = 0 self.buffer = '' if isinstance(file, types.StringType): path = os.path.join(directory, file) if os.path.exists(path) and not self.overwrite: log.msg('File already exists...') raise IOError, "File Exists" # is this all we should do here? self.file = open(os.path.join(directory, file), 'wb') else: self.file = file def connectionMade(self): self.connected = 1 self.state = 'INHEADER' self.sendLine('VER MSNFTP') def connectionLost(self, reason): self.connected = 0 self.file.close() def parseHeader(self, header): """ parse the header of each 'message' to obtain the segment length """ if ord(header[0]) != 0: # they requested that we close the connection self.transport.loseConnection() return try: extra, factor = header[1:] except ValueError: # munged header, ending transfer self.transport.loseConnection() raise extra = ord(extra) factor = ord(factor) return factor * 256 + extra def lineReceived(self, line): temp = line.split() if len(temp) == 1: params = [] else: params = temp[1:] cmd = temp[0] handler = getattr(self, "handle_%s" % cmd.upper(), None) if handler: handler(params) # try/except else: self.handle_UNKNOWN(cmd, params) def rawDataReceived(self, data): bufferLen = len(self.buffer) if self.state == 'INHEADER': delim = 3-bufferLen self.buffer += data[:delim] if len(self.buffer) == 3: self.segmentLength = self.parseHeader(self.buffer) if not self.segmentLength: return # hrm self.buffer = "" self.state = 'INSEGMENT' extra = data[delim:] if len(extra) > 0: self.rawDataReceived(extra) return elif self.state == 'INSEGMENT': dataSeg = data[:(self.segmentLength-bufferLen)] self.buffer += dataSeg self.bytesReceived += len(dataSeg) if len(self.buffer) == self.segmentLength: self.gotSegment(self.buffer) self.buffer = "" if self.bytesReceived == self.fileSize: self.completed = 1 self.buffer = "" self.file.close() self.sendLine("BYE 16777989") return self.state = 'INHEADER' extra = data[(self.segmentLength-bufferLen):] if len(extra) > 0: self.rawDataReceived(extra) return def handle_VER(self, params): checkParamLen(len(params), 1, 'VER') if params[0].upper() == "MSNFTP": self.sendLine("USR %s %s" % (self.myUserHandle, self.auth)) else: log.msg('they sent the wrong version, time to quit this transfer') self.transport.loseConnection() def handle_FIL(self, params): checkParamLen(len(params), 1, 'FIL') try: self.fileSize = int(params[0]) except ValueError: # they sent the wrong file size - probably want to log this self.transport.loseConnection() return self.setRawMode() self.sendLine("TFR") def handle_UNKNOWN(self, cmd, params): log.msg('received unknown command (%s), params: %s' % (cmd, params)) def gotSegment(self, data): """ called when a segment (block) of data arrives. """ self.file.write(data) class FileSend(LineReceiver): """ This class provides support for sending files to other contacts. @ivar bytesSent: the number of bytes that have currently been sent. @ivar completed: true if the send has completed. @ivar connected: true if a connection has been established. @ivar targetUser: the target user (contact). @ivar segmentSize: the segment (block) size. @ivar auth: the auth cookie (number) to use when sending the transfer invitation """ def __init__(self, file): """ @param file: A string or file object represnting the file to send. """ if isinstance(file, types.StringType): self.file = open(file, 'rb') else: self.file = file self.fileSize = 0 self.bytesSent = 0 self.completed = 0 self.connected = 0 self.targetUser = None self.segmentSize = 2045 self.auth = randint(0, 2**30) self._pendingSend = None # :( def connectionMade(self): self.connected = 1 def connectionLost(self, reason): if self._pendingSend: self._pendingSend.cancel() self._pendingSend = None self.connected = 0 self.file.close() def lineReceived(self, line): temp = line.split() if len(temp) == 1: params = [] else: params = temp[1:] cmd = temp[0] handler = getattr(self, "handle_%s" % cmd.upper(), None) if handler: handler(params) else: self.handle_UNKNOWN(cmd, params) def handle_VER(self, params): checkParamLen(len(params), 1, 'VER') if params[0].upper() == "MSNFTP": self.sendLine("VER MSNFTP") else: # they sent some weird version during negotiation, i'm quitting. self.transport.loseConnection() def handle_USR(self, params): checkParamLen(len(params), 2, 'USR') self.targetUser = params[0] if self.auth == int(params[1]): self.sendLine("FIL %s" % (self.fileSize)) else: # they failed the auth test, disconnecting. self.transport.loseConnection() def handle_TFR(self, params): checkParamLen(len(params), 0, 'TFR') # they are ready for me to start sending self.sendPart() def handle_BYE(self, params): self.completed = (self.bytesSent == self.fileSize) self.transport.loseConnection() def handle_CCL(self, params): self.completed = (self.bytesSent == self.fileSize) self.transport.loseConnection() def handle_UNKNOWN(self, cmd, params): log.msg('received unknown command (%s), params: %s' % (cmd, params)) def makeHeader(self, size): """ make the appropriate header given a specific segment size. """ quotient, remainder = divmod(size, 256) return chr(0) + chr(remainder) + chr(quotient) def sendPart(self): """ send a segment of data """ if not self.connected: self._pendingSend = None return # may be buggy (if handle_CCL/BYE is called but self.connected is still 1) data = self.file.read(self.segmentSize) if data: dataSize = len(data) header = self.makeHeader(dataSize) self.transport.write(header + data) self.bytesSent += dataSize self._pendingSend = reactor.callLater(0, self.sendPart) else: self._pendingSend = None self.completed = 1 # mapping of error codes to error messages errorCodes = { 200 : "Syntax error", 201 : "Invalid parameter", 205 : "Invalid user", 206 : "Domain name missing", 207 : "Already logged in", 208 : "Invalid username", 209 : "Invalid screen name", 210 : "User list full", 215 : "User already there", 216 : "User already on list", 217 : "User not online", 218 : "Already in mode", 219 : "User is in the opposite list", 223 : "Too many groups", 224 : "Invalid group", 225 : "User not in group", 229 : "Group name too long", 230 : "Cannot remove group 0", 231 : "Invalid group", 280 : "Switchboard failed", 281 : "Transfer to switchboard failed", 300 : "Required field missing", 301 : "Too many FND responses", 302 : "Not logged in", 500 : "Internal server error", 501 : "Database server error", 502 : "Command disabled", 510 : "File operation failed", 520 : "Memory allocation failed", 540 : "Wrong CHL value sent to server", 600 : "Server is busy", 601 : "Server is unavaliable", 602 : "Peer nameserver is down", 603 : "Database connection failed", 604 : "Server is going down", 605 : "Server unavailable", 707 : "Could not create connection", 710 : "Invalid CVR parameters", 711 : "Write is blocking", 712 : "Session is overloaded", 713 : "Too many active users", 714 : "Too many sessions", 715 : "Not expected", 717 : "Bad friend file", 731 : "Not expected", 800 : "Requests too rapid", 910 : "Server too busy", 911 : "Authentication failed", 912 : "Server too busy", 913 : "Not allowed when offline", 914 : "Server too busy", 915 : "Server too busy", 916 : "Server too busy", 917 : "Server too busy", 918 : "Server too busy", 919 : "Server too busy", 920 : "Not accepting new users", 921 : "Server too busy", 922 : "Server too busy", 923 : "No parent consent", 924 : "Passport account not yet verified" } # mapping of status codes to readable status format statusCodes = { STATUS_ONLINE : "Online", STATUS_OFFLINE : "Offline", STATUS_HIDDEN : "Appear Offline", STATUS_IDLE : "Idle", STATUS_AWAY : "Away", STATUS_BUSY : "Busy", STATUS_BRB : "Be Right Back", STATUS_PHONE : "On the Phone", STATUS_LUNCH : "Out to Lunch" } # mapping of list ids to list codes listIDToCode = { FORWARD_LIST : 'fl', BLOCK_LIST : 'bl', ALLOW_LIST : 'al', REVERSE_LIST : 'rl' } # mapping of list codes to list ids listCodeToID = {} for id,code in listIDToCode.items(): listCodeToID[code] = id del id, code