[Mailman-Users] Can we use an external mail server with mailman ?

game lover gamelover9001 at yahoo.com
Sat Oct 15 00:50:00 CEST 2005


This is a topic I am interested in.  But can someone summarize these codes to make them simple so most people can following them easily?
 
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"Lloyd F. Tennison" <lists at viplist.us> wrote:Actually, I found a mod someone had written to do exactly that. 

In mm_cfg.py need to set these values:

SMTPHOST = 'mail.newserver'
#SMTP_USERNAME = 'username'
#SMTP_PASSWORD = 'password'
#DELIVERY_MODULE = 'SMTPDirect'
DELIVERY_MODULE = 'ASMTPDirect'
# Needs to be 1 for ASMTPDirect to work
SMTP_AUTH = 1

and use the attached ASMTPDirect file.

I no longer use this, so this has not been updated to 2.16, so you mau want 
to check it all out.

The was orginally received from someone else on this list, so I do not take 
credit for it.






From: John Dennis 
To: julien grosjean 
Date sent: Fri, 23 Sep 2005 10:53:12 -0400
Copies to: mailman-users at python.org
Subject: Re: [Mailman-Users] Can we use an external mail server with mailman
?

> On Fri, 2005-09-23 at 16:27 +0200, julien grosjean wrote:
> > MAIL SERVER DETAILS
> > 
> > My Mail Server is NOT on the same server than my mailman server...
> > My mail server is proxiad.com (217.109.179.10) with smtp.proxiad.com and 
> > pop.proxiad.com (This server requiert an authentification... )
> > 
> > My mailman server is extranet-proxiad.com (193.252.219.206)
> > 
> > All emails are create on the mail server.
> > The mail server receive the mail correctly.
> > With my mail client, test at proxiad.com receive the mail, but not 
> > suscribers...
> 
> > THE PROBLEM :
> > 
> > I create a test list via web interface.
> > 
> > We can suscribe to the list, but the problem is than when we sent an
> > email to the list email, such as test at proxiad.com,
> > just this email receive the mail...
> > Only test at proxiad.com receive the mail from the sender...
> > Is there a configuration to make ?
> > 
> > 
> > 
> > Perhaps there is an aliases problem ?
> > 
> > Should aliases be on the mail server or on the mailman server ?
> 
> Part of the problem is the term mail server can be confusing because
> there are two mail servers in the picture, a receiving mail server and a
> sending mail server. Mailman needs run on the same machine the receiving
> mail server is on otherwise your aliases will not work. The reason is
> because when the receving mail server receives an email destined for a
> mailman list the mail server will via its aliases determine the
> destination for that list email is a program called mailman, thats what
> all those aliases are all about. The receiving mail server then hands
> the incoming list email to the program mailman. It can only give it to
> the program mailman if mailman is running on the same machine.
> 
> Mailman in turn takes the email it received and looks up all the members
> of the list and forwards the email to each of them. To do this mailman
> invokes a sending mail server. Often the sending and receiving mail
> servers (SMTP) are the same and run on the same box. But you can direct
> mailman to use a different sending SMTP server via the SMTPHOST
> variable.
> 
> Summary: mailman and the receiving SMTP server must be on the same
> machine.
> 
> You description is a bit confusing because the way I read it mailman has
> in fact received the list email (your previous post shows mailman
> sending smtp posts). It could only have done that if it the its running
> on the same machine as the receiving SMTP server and the aliaes are
> correct. I suspect what actually occurred is those are examples from
> mail sent on the machine mailman is running on where everything will
> resolve correctly.
> -- 
> John Dennis 
> 
> ------------------------------------------------------
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> 
> 



# Copyright (C) 1998-2003 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.

"""Local SMTP direct drop-off w/Authtenication.

This module delivers messages via SMTP to a locally specified daemon. This
should be compatible with any modern SMTP server. It is expected that the MTA
handles all final delivery. We have to play tricks so that the list object
isn't locked while delivery occurs synchronously.

Note: This file only handles single threaded delivery. See SMTPThreaded.py
for a threaded implementation.
"""

import copy
import time
import socket
import smtplib
from types import UnicodeType

from Mailman import mm_cfg
from Mailman import Utils
from Mailman import Errors
from Mailman.Handlers import Decorate
from Mailman.Logging.Syslog import syslog
from Mailman.SafeDict import MsgSafeDict

import email
from email.Utils import formataddr
from email.Header import Header
from email.Charset import Charset

DOT = '.'



# Manage a connection to the SMTP server
class Connection:
def __init__(self):
self.__connect()

def __connect(self):
self.__conn = smtplib.SMTP()
self.__conn.connect(mm_cfg.SMTPHOST, mm_cfg.SMTPPORT)
if mm_cfg.SMTP_AUTH:
self.__conn.login(mm_cfg.SMTP_USERNAME, mm_cfg.SMTP_PASSWORD)
self.__numsessions = mm_cfg.SMTP_MAX_SESSIONS_PER_CONNECTION

def sendmail(self, envsender, recips, msgtext):
try:
results = self.__conn.sendmail(envsender, recips, msgtext)
except smtplib.SMTPException:
# For safety, reconnect
self.__conn.quit()
self.__connect()
# Let exceptions percolate up
raise
# Decrement the session counter, reconnecting if necessary
self.__numsessions -= 1
# By testing exactly for equality to 0, we automatically handle the
# case for SMTP_MAX_SESSIONS_PER_CONNECTION <= 0 meaning never close
# the connection. We won't worry about wraparound .
if self.__numsessions == 0:
self.__conn.quit()
self.__connect()
return results

def quit(self):
self.__conn.quit()



def process(mlist, msg, msgdata):
recips = msgdata.get('recips')
if not recips:
# Nobody to deliver to!
return
# Calculate the non-VERP envelope sender.
envsender = msgdata.get('envsender')
if envsender is None:
if mlist:
envsender = mlist.GetBouncesEmail()
else:
envsender = Utils.get_site_email(extra='bounces')
# Time to split up the recipient list. If we're personalizing or VERPing
# then each chunk will have exactly one recipient. We'll then hand craft
# an envelope sender and stitch a message together in memory for each one
# separately. If we're not VERPing, then we'll chunkify based on
# SMTP_MAX_RCPTS. Note that most MTAs have a limit on the number of
# recipients they'll swallow in a single transaction.
deliveryfunc = None
if (not msgdata.has_key('personalize') or msgdata['personalize']) and (
msgdata.get('verp') or mlist.personalize):
chunks = [[recip] for recip in recips]
msgdata['personalize'] = 1
deliveryfunc = verpdeliver
elif mm_cfg.SMTP_MAX_RCPTS <= 0:
chunks = [recips]
else:
chunks = chunkify(recips, mm_cfg.SMTP_MAX_RCPTS)
# See if this is an unshunted message for which some were undelivered
if msgdata.has_key('undelivered'):
chunks = msgdata['undelivered']
# If we're doing bulk delivery, then we can stitch up the message now.
if deliveryfunc is None:
# Be sure never to decorate the message more than once!
if not msgdata.get('decorated'):
Decorate.process(mlist, msg, msgdata)
msgdata['decorated'] = 1
deliveryfunc = bulkdeliver
refused = {}
t0 = time.time()
# Open the initial connection
origrecips = msgdata['recips']
# `undelivered' is a copy of chunks that we pop from to do deliveries.
# This seems like a good tradeoff between robustness and resource
# utilization. If delivery really fails (i.e. qfiles/shunt type
# failures), then we'll pick up where we left off with `undelivered'.
# This means at worst, the last chunk for which delivery was attempted
# could get duplicates but not every one, and no recips should miss the
# message.
conn = Connection()
try:
msgdata['undelivered'] = chunks
while chunks:
chunk = chunks.pop()
msgdata['recips'] = chunk
try:
deliveryfunc(mlist, msg, msgdata, envsender, refused, conn)
except Exception:
# If /anything/ goes wrong, push the last chunk back on the
# undelivered list and re-raise the exception. We don't know
# how many of the last chunk might receive the message, so at
# worst, everyone in this chunk will get a duplicate. Sigh.
chunks.append(chunk)
raise
del msgdata['undelivered']
finally:
conn.quit()
msgdata['recips'] = origrecips
# Log the successful post
t1 = time.time()
d = MsgSafeDict(msg, {'time' : t1-t0,
# BAW: Urg. This seems inefficient.
'size' : len(msg.as_string()),
'#recips' : len(recips),
'#refused': len(refused),
'listname': mlist.internal_name(),
'sender' : msg.get_sender(),
})
# We have to use the copy() method because extended call syntax requires a
# concrete dictionary object; it does not allow a generic mapping. It's
# still worthwhile doing the interpolation in syslog() because it'll catch
# any catastrophic exceptions due to bogus format strings.
if mm_cfg.SMTP_LOG_EVERY_MESSAGE:
syslog.write_ex(mm_cfg.SMTP_LOG_EVERY_MESSAGE[0],
mm_cfg.SMTP_LOG_EVERY_MESSAGE[1], kws=d)

if refused:
if mm_cfg.SMTP_LOG_REFUSED:
syslog.write_ex(mm_cfg.SMTP_LOG_REFUSED[0],
mm_cfg.SMTP_LOG_REFUSED[1], kws=d)

elif msgdata.get('tolist'):
# Log the successful post, but only if it really was a post to the
# mailing list. Don't log sends to the -owner, or -admin addrs.
# -request addrs should never get here. BAW: it may be useful to log
# the other messages, but in that case, we should probably have a
# separate configuration variable to control that.
if mm_cfg.SMTP_LOG_SUCCESS:
syslog.write_ex(mm_cfg.SMTP_LOG_SUCCESS[0],
mm_cfg.SMTP_LOG_SUCCESS[1], kws=d)

# Process any failed deliveries.
tempfailures = []
permfailures = []
for recip, (code, smtpmsg) in refused.items():
# DRUMS is an internet draft, but it says:
#
# [RFC-821] incorrectly listed the error where an SMTP server
# exhausts its implementation limit on the number of RCPT commands
# ("too many recipients") as having reply code 552. The correct
# reply code for this condition is 452. Clients SHOULD treat a 552
# code in this case as a temporary, rather than permanent failure
# so the logic below works.
#
if code >= 500 and code <> 552:
# A permanent failure
permfailures.append(recip)
else:
# Deal with persistent transient failures by queuing them up for
# future delivery. TBD: this could generate lots of log entries!
tempfailures.append(recip)
if mm_cfg.SMTP_LOG_EACH_FAILURE:
d.update({'recipient': recip,
'failcode' : code,
'failmsg' : smtpmsg})
syslog.write_ex(mm_cfg.SMTP_LOG_EACH_FAILURE[0],
mm_cfg.SMTP_LOG_EACH_FAILURE[1], kws=d)
# Return the results
if tempfailures or permfailures:
raise Errors.SomeRecipientsFailed(tempfailures, permfailures)



def chunkify(recips, chunksize):
# First do a simple sort on top level domain. It probably doesn't buy us
# much to try to sort on MX record -- that's the MTA's job. We're just
# trying to avoid getting a max recips error. Split the chunks along
# these lines (as suggested originally by Chuq Von Rospach and slightly
# elaborated by BAW).
chunkmap = {'com': 1,
'net': 2,
'org': 2,
'edu': 3,
'us' : 3,
'ca' : 3,
}
buckets = {}
for r in recips:
tld = None
i = r.rfind('.')
if i >= 0:
tld = r[i+1:]
bin = chunkmap.get(tld, 0)
bucket = buckets.get(bin, [])
bucket.append(r)
buckets[bin] = bucket
# Now start filling the chunks
chunks = []
currentchunk = []
chunklen = 0
for bin in buckets.values():
for r in bin:
currentchunk.append(r)
chunklen = chunklen + 1
if chunklen >= chunksize:
chunks.append(currentchunk)
currentchunk = []
chunklen = 0
if currentchunk:
chunks.append(currentchunk)
currentchunk = []
chunklen = 0
return chunks



def verpdeliver(mlist, msg, msgdata, envsender, failures, conn):
for recip in msgdata['recips']:
# We now need to stitch together the message with its header and
# footer. If we're VERPIng, we have to calculate the envelope sender
# for each recipient. Note that the list of recipients must be of
# length 1.
#
# BAW: ezmlm includes the message number in the envelope, used when
# sending a notification to the user telling her how many messages
# they missed due to bouncing. Neat idea.
msgdata['recips'] = [recip]
# Make a copy of the message and decorate + delivery that
msgcopy = copy.deepcopy(msg)
Decorate.process(mlist, msgcopy, msgdata)
# Calculate the envelope sender, which we may be VERPing
if msgdata.get('verp'):
bmailbox, bdomain = Utils.ParseEmail(envsender)
rmailbox, rdomain = Utils.ParseEmail(recip)
if rdomain is None:
# The recipient address is not fully-qualified. We can't
# deliver it to this person, nor can we craft a valid verp
# header. I don't think there's much we can do except ignore
# this recipient.
syslog('smtp', 'Skipping VERP delivery to unqual recip: %s',
recip)
continue
d = {'bounces': bmailbox,
'mailbox': rmailbox,
'host' : DOT.join(rdomain),
}
envsender = '%s@%s' % ((mm_cfg.VERP_FORMAT % d), DOT.join(bdomain))
if mlist.personalize == 2:
# When fully personalizing, we want the To address to point to the
# recipient, not to the mailing list
del msgcopy['to']
name = None
if mlist.isMember(recip):
name = mlist.getMemberName(recip)
if name:
# Convert the name to an email-safe representation. If the
# name is a byte string, convert it first to Unicode, given
# the character set of the member's language, replacing bad
# characters for which we can do nothing about. Once we have
# the name as Unicode, we can create a Header instance for it
# so that it's properly encoded for email transport.
charset = Utils.GetCharSet(mlist.getMemberLanguage(recip))
if charset == 'us-ascii':
# Since Header already tries both us-ascii and utf-8,
# let's add something a bit more useful.
charset = 'iso-8859-1'
charset = Charset(charset)
codec = charset.input_codec or 'ascii'
if not isinstance(name, UnicodeType):
name = unicode(name, codec, 'replace')
name = Header(name, charset).encode()
msgcopy['To'] = formataddr((name, recip))
else:
msgcopy['To'] = recip
# We can flag the mail as a duplicate for each member, if they've
# already received this message, as calculated by Message-ID. See
# AvoidDuplicates.py for details.
del msgcopy['x-mailman-copy']
if msgdata.get('add-dup-header', {}).has_key(recip):
msgcopy['X-Mailman-Copy'] = 'yes'
# For the final delivery stage, we can just bulk deliver to a party of
# one. ;)
bulkdeliver(mlist, msgcopy, msgdata, envsender, failures, conn)



def bulkdeliver(mlist, msg, msgdata, envsender, failures, conn):
# Do some final cleanup of the message header. Start by blowing away
# any the Sender: and Errors-To: headers so remote MTAs won't be
# tempted to delivery bounces there instead of our envelope sender
del msg['sender']
del msg['errors-to']
msg['Sender'] = envsender
msg['Errors-To'] = envsender
# Get the plain, flattened text of the message, sans unixfrom
msgtext = msg.as_string()
refused = {}
recips = msgdata['recips']
try:
# Send the message
refused = conn.sendmail(envsender, recips, msgtext)
except smtplib.SMTPRecipientsRefused, e:
refused = e.recipients
# MTA not responding, or other socket problems, or any other kind of
# SMTPException. In that case, nothing got delivered
except (socket.error, smtplib.SMTPException, IOError), e:
# BAW: should this be configurable?
syslog('smtp', 'All recipients refused: %s', e)
# If the exception had an associated error code, use it, otherwise,
# fake it with a non-triggering exception code
errcode = getattr(e, 'smtp_code', -1)
errmsg = getattr(e, 'smtp_error', 'ignore')
for r in recips:
refused[r] = (errcode, errmsg)
failures.update(refused)
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