# Copyright (C) 1998,1999,2000,2001,2002 by the Free Software Foundation, Inc. # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. """Incoming queue runner.""" # A typical Mailman list exposes nine aliases which point to seven different # wrapped scripts. E.g. for a list named `mylist', you'd have: # # mylist-bounces -> bounces (-admin is a deprecated alias) # mylist-confirm -> confirm # mylist-join -> join (-subscribe is an alias) # mylist-leave -> leave (-unsubscribe is an alias) # mylist-owner -> owner # mylist -> post # mylist-request -> request # # -request, -join, and -leave are a robot addresses; their sole purpose is to # process emailed commands in a Majordomo-like fashion (although the latter # two are hardcoded to subscription and unsubscription requests). -bounces is # the automated bounce processor, and all messages to list members have their # return address set to -bounces. If the bounce processor fails to extract a # bouncing member address, it can optionally forward the message on to the # list owners. # # -owner is for reaching a human operator with minimal list interaction # (i.e. no bounce processing). -confirm is another robot address which # processes replies to VERP-like confirmation notices. # # So delivery flow of messages look like this: # # joerandom ---> mylist ---> list members # | | # | |[bounces] # | mylist-bounces <---+ <-------------------------------+ # | | | # | +--->[internal bounce processing] | # | ^ | | # | | | [bounce found] | # | [bounces *] +--->[register and discard] | # | | | | | # | | | |[*] | # | [list owners] |[no bounce found] | | # | ^ | | | # | | | | | # +-------> mylist-owner <--------+ | | # | | | # | data/owner-bounces.mbox <--[site list] <---+ | # | | # +-------> mylist-join--+ | # | | | # +------> mylist-leave--+ | # | | | # | v | # +-------> mylist-request | # | | | # | +---> [command processor] | # | | | # +-----> mylist-confirm ----> +---> joerandom | # | | # |[bounces] | # +----------------------+ # # A person can send an email to the list address (for posting), the -owner # address (to reach the human operator), or the -confirm, -join, -leave, and # -request mailbots. Message to the list address are then forwarded on to the # list membership, with bounces directed to the -bounces address. # # [*] Messages sent to the -owner address are forwarded on to the list # owner/moderators. All -owner destined messages have their bounces directed # to the site list -bounces address, regardless of whether a human sent the # message or the message was crafted internally. The intention here is that # the site owners want to be notified when one of their list owners' addresses # starts bouncing (yes, the will be automated in a future release). # # Any messages to site owners has their bounces directed to a special # "loop-killer" address, which just dumps the message into # data/owners-bounces.mbox. # # Finally, message to any of the mailbots causes the requested action to be # performed. Results notifications are sent to the author of the message, # which all bounces pointing back to the -bounces address. import sys import os from cStringIO import StringIO from Mailman import mm_cfg from Mailman import Errors from Mailman import LockFile from Mailman.Queue.Runner import Runner from Mailman.Logging.Syslog import syslog class IncomingRunner(Runner): QDIR = mm_cfg.INQUEUE_DIR def _dispose(self, mlist, msg, msgdata): # Try to get the list lock. try: mlist.Lock(timeout=mm_cfg.LIST_LOCK_TIMEOUT) except LockFile.TimeOutError: # Oh well, try again later return 1 # Process the message through a handler pipeline. The handler # pipeline can actually come from one of three places: the message # metadata, the mlist, or the global pipeline. # # If a message was requeued due to an uncaught exception, its metadata # will contain the retry pipeline. Use this above all else. # Otherwise, if the mlist has a `pipeline' attribute, it should be # used. Final fallback is the global pipeline. try: pipeline = self._get_pipeline(mlist, msg, msgdata) status = self._dopipeline(mlist, msg, msgdata, pipeline) if status: msgdata['pipeline'] = pipeline mlist.Save() return status finally: mlist.Unlock() # Overridable def _get_pipeline(self, mlist, msg, msgdata): # We must return a copy of the list, otherwise, the first message that # flows through the pipeline will empty it out! return msgdata.get('pipeline', getattr(mlist, 'pipeline', mm_cfg.GLOBAL_PIPELINE))[:] def _dopipeline(self, mlist, msg, msgdata, pipeline): while pipeline: handler = pipeline.pop(0) modname = 'Mailman.Handlers.' + handler __import__(modname) try: pid = os.getpid() sys.modules[modname].process(mlist, msg, msgdata) # Failsafe -- a child may have leaked through. if pid <> os.getpid(): syslog('error', 'child process leaked thru: %s', modname) os._exit(1) except Errors.DiscardMessage: # Throw the message away; we need do nothing else with it. syslog('vette', 'Message discarded, msgid: %s', msg.get('message-id', 'n/a')) return 0 except Errors.HoldMessage: # Let the approval process take it from here. The message no # longer needs to be queued. return 0 except Errors.RejectMessage, e: mlist.BounceMessage(msg, msgdata, e) return 0 # We've successfully completed handling of this message return 0