Example #1
0
    def processUnixMailbox(self, input, articleClass = Article):
	mbox = Mailbox(input)
	while 1:
	    m = mbox.next()
	    if not m:
                break
	    a = articleClass(m, self.sequence)
	    self.sequence = self.sequence + 1
	    self.add_article(a)
Example #2
0
def process(mlist, msg, msgdata):
    # Short circuit non-digestable lists.
    if not mlist.digestable or msgdata.get('isdigest'):
        return
    mboxfile = os.path.join(mlist.fullpath(), 'digest.mbox')
    omask = os.umask(007)
    try:
        mboxfp = open(mboxfile, 'a+')
    finally:
        os.umask(omask)
    mbox = Mailbox(mboxfp)
    mbox.AppendMessage(msg)
    # Calculate the current size of the accumulation file.  This will not tell
    # us exactly how big the MIME, rfc1153, or any other generated digest
    # message will be, but it's the most easily available metric to decide
    # whether the size threshold has been reached.
    mboxfp.flush()
    size = os.path.getsize(mboxfile)
    if (mlist.digest_size_threshhold > 0
            and size / 1024.0 >= mlist.digest_size_threshhold):
        # This is a bit of a kludge to get the mbox file moved to the digest
        # queue directory.
        try:
            # Enclose in try/except here because a error in send_digest() can
            # silently stop regular delivery.  Unsuccessful digest delivery
            # should be tried again by cron and the site administrator will be
            # notified of any error explicitly by the cron error message.
            mboxfp.seek(0)
            send_digests(mlist, mboxfp)
            os.unlink(mboxfile)
        except Exception, errmsg:
            # Bare except is generally prohibited in Mailman, but we can't
            # forecast what exceptions can occur here.
            syslog('error', 'send_digests() failed: %s', errmsg)
            s = StringIO()
            traceback.print_exc(file=s)
            syslog('error', s.getvalue())
def send_i18n_digests(mlist, mboxfp):
    mbox = Mailbox(mboxfp)
    # Prepare common information (first lang/charset)
    lang = mlist.preferred_language
    lcset = Utils.GetCharSet(lang)
    lcset_out = Charset(lcset).output_charset or lcset
    # Common Information (contd)
    realname = mlist.real_name
    volume = mlist.volume
    issue = mlist.next_digest_number
    digestid = _('%(realname)s Digest, Vol %(volume)d, Issue %(issue)d')
    digestsubj = Header(digestid, lcset, header_name='Subject')
    # Set things up for the MIME digest.  Only headers not added by
    # CookHeaders need be added here.
    # Date/Message-ID should be added here also.
    mimemsg = Message.Message()
    mimemsg['Content-Type'] = 'multipart/mixed'
    mimemsg['MIME-Version'] = '1.0'
    mimemsg['From'] = mlist.GetRequestEmail()
    mimemsg['Subject'] = digestsubj
    mimemsg['To'] = mlist.GetListEmail()
    mimemsg['Reply-To'] = mlist.GetListEmail()
    mimemsg['Date'] = formatdate(localtime=1)
    mimemsg['Message-ID'] = Utils.unique_message_id(mlist)
    # Set things up for the rfc1153 digest
    plainmsg = StringIO()
    rfc1153msg = Message.Message()
    rfc1153msg['From'] = mlist.GetRequestEmail()
    rfc1153msg['Subject'] = digestsubj
    rfc1153msg['To'] = mlist.GetListEmail()
    rfc1153msg['Reply-To'] = mlist.GetListEmail()
    rfc1153msg['Date'] = formatdate(localtime=1)
    rfc1153msg['Message-ID'] = Utils.unique_message_id(mlist)
    separator70 = '-' * 70
    separator30 = '-' * 30
    # In the rfc1153 digest, the masthead contains the digest boilerplate plus
    # any digest header.  In the MIME digests, the masthead and digest header
    # are separate MIME subobjects.  In either case, it's the first thing in
    # the digest, and we can calculate it now, so go ahead and add it now.
    mastheadtxt = Utils.maketext(
        'masthead.txt',
        {'real_name' :        mlist.real_name,
         'got_list_email':    mlist.GetListEmail(),
         'got_listinfo_url':  mlist.GetScriptURL('listinfo', absolute=1),
         'got_request_email': mlist.GetRequestEmail(),
         'got_owner_email':   mlist.GetOwnerEmail(),
         }, mlist=mlist)
    # MIME
    masthead = MIMEText(mastheadtxt, _charset=lcset)
    masthead['Content-Description'] = digestid
    mimemsg.attach(masthead)
    # RFC 1153
    print >> plainmsg, mastheadtxt
    print >> plainmsg
    # Now add the optional digest header but only if more than whitespace.
    if re.sub('\s', '', mlist.digest_header):
        headertxt = decorate(mlist, mlist.digest_header, _('digest header'))
        # MIME
        header = MIMEText(headertxt, _charset=lcset)
        header['Content-Description'] = _('Digest Header')
        mimemsg.attach(header)
        # RFC 1153
        print >> plainmsg, headertxt
        print >> plainmsg
    # Now we have to cruise through all the messages accumulated in the
    # mailbox file.  We can't add these messages to the plainmsg and mimemsg
    # yet, because we first have to calculate the table of contents
    # (i.e. grok out all the Subjects).  Store the messages in a list until
    # we're ready for them.
    #
    # Meanwhile prepare things for the table of contents
    toc = StringIO()
    print >> toc, _("Today's Topics:\n")
    # Now cruise through all the messages in the mailbox of digest messages,
    # building the MIME payload and core of the RFC 1153 digest.  We'll also
    # accumulate Subject: headers and authors for the table-of-contents.
    messages = []
    msgcount = 0
    msg = mbox.next()
    while msg is not None:
        if msg == '':
            # It was an unparseable message
            msg = mbox.next()
            continue
        msgcount += 1
        messages.append(msg)
        # Get the Subject header
        msgsubj = msg.get('subject', _('(no subject)'))
        subject = Utils.oneline(msgsubj, lcset)
        # Don't include the redundant subject prefix in the toc
        mo = re.match('(re:? *)?(%s)' % re.escape(mlist.subject_prefix),
                      subject, re.IGNORECASE)
        if mo:
            subject = subject[:mo.start(2)] + subject[mo.end(2):]
        username = ''
        addresses = getaddresses([Utils.oneline(msg.get('from', ''), lcset)])
        # Take only the first author we find
        if isinstance(addresses, ListType) and addresses:
            username = addresses[0][0]
            if not username:
                username = addresses[0][1]
        if username:
            username = '******' % username
        # Put count and Wrap the toc subject line
        wrapped = Utils.wrap('%2d. %s' % (msgcount, subject), 65)
        slines = wrapped.split('\n')
        # See if the user's name can fit on the last line
        if len(slines[-1]) + len(username) > 70:
            slines.append(username)
        else:
            slines[-1] += username
        # Add this subject to the accumulating topics
        first = True
        for line in slines:
            if first:
                print >> toc, ' ', line
                first = False
            else:
                print >> toc, '     ', line.lstrip()
        # We do not want all the headers of the original message to leak
        # through in the digest messages.  For this phase, we'll leave the
        # same set of headers in both digests, i.e. those required in RFC 1153
        # plus a couple of other useful ones.  We also need to reorder the
        # headers according to RFC 1153.  Later, we'll strip out headers for
        # for the specific MIME or plain digests.
        keeper = {}
        all_keepers = {}
        for header in (mm_cfg.MIME_DIGEST_KEEP_HEADERS +
                       mm_cfg.PLAIN_DIGEST_KEEP_HEADERS):
            all_keepers[header] = True
        all_keepers = all_keepers.keys()
        for keep in all_keepers:
            keeper[keep] = msg.get_all(keep, [])
        # Now remove all unkempt headers :)
        for header in msg.keys():
            del msg[header]
        # And add back the kept header in the RFC 1153 designated order
        for keep in all_keepers:
            for field in keeper[keep]:
                msg[keep] = field
        # And a bit of extra stuff
        msg['Message'] = `msgcount`
        # Get the next message in the digest mailbox
        msg = mbox.next()
    # Now we're finished with all the messages in the digest.  First do some
    # sanity checking and then on to adding the toc.
    if msgcount == 0:
        # Why did we even get here?
        return
    toctext = to_cset_out(toc.getvalue(), lcset)
    # MIME
    tocpart = MIMEText(toctext, _charset=lcset)
    tocpart['Content-Description']= _("Today's Topics (%(msgcount)d messages)")
    mimemsg.attach(tocpart)
    # RFC 1153
    print >> plainmsg, toctext
    print >> plainmsg
    # For RFC 1153 digests, we now need the standard separator
    print >> plainmsg, separator70
    print >> plainmsg
    # Now go through and add each message
    mimedigest = MIMEBase('multipart', 'digest')
    mimemsg.attach(mimedigest)
    first = True
    for msg in messages:
        # MIME.  Make a copy of the message object since the rfc1153
        # processing scrubs out attachments.
        mimedigest.attach(MIMEMessage(copy.deepcopy(msg)))
        # rfc1153
        if first:
            first = False
        else:
            print >> plainmsg, separator30
            print >> plainmsg
        # Use Mailman.Handlers.Scrubber.process() to get plain text
        try:
            msg = scrubber(mlist, msg)
        except Errors.DiscardMessage:
            print >> plainmsg, _('[Message discarded by content filter]')
            continue
        # Honor the default setting
        for h in mm_cfg.PLAIN_DIGEST_KEEP_HEADERS:
            if msg[h]:
                uh = Utils.wrap('%s: %s' % (h, Utils.oneline(msg[h], lcset)))
                uh = '\n\t'.join(uh.split('\n'))
                print >> plainmsg, uh
        print >> plainmsg
        # If decoded payload is empty, this may be multipart message.
        # -- just stringfy it.
        payload = msg.get_payload(decode=True) \
                  or msg.as_string().split('\n\n',1)[1]
        mcset = msg.get_content_charset('')
        if mcset and mcset <> lcset and mcset <> lcset_out:
            try:
                payload = unicode(payload, mcset, 'replace'
                          ).encode(lcset, 'replace')
            except (UnicodeError, LookupError):
                # TK: Message has something unknown charset.
                #     _out means charset in 'outer world'.
                payload = unicode(payload, lcset_out, 'replace'
                          ).encode(lcset, 'replace')
        print >> plainmsg, payload
        if not payload.endswith('\n'):
            print >> plainmsg
    # Now add the footer but only if more than whitespace.
    if re.sub('\s', '', mlist.digest_footer):
        footertxt = decorate(mlist, mlist.digest_footer, _('digest footer'))
        # MIME
        footer = MIMEText(footertxt, _charset=lcset)
        footer['Content-Description'] = _('Digest Footer')
        mimemsg.attach(footer)
        # RFC 1153
        # MAS: There is no real place for the digest_footer in an RFC 1153
        # compliant digest, so add it as an additional message with
        # Subject: Digest Footer
        print >> plainmsg, separator30
        print >> plainmsg
        print >> plainmsg, 'Subject: ' + _('Digest Footer')
        print >> plainmsg
        print >> plainmsg, footertxt
        print >> plainmsg
        print >> plainmsg, separator30
        print >> plainmsg
    # Do the last bit of stuff for each digest type
    signoff = _('End of ') + digestid
    # MIME
    # BAW: This stuff is outside the normal MIME goo, and it's what the old
    # MIME digester did.  No one seemed to complain, probably because you
    # won't see it in an MUA that can't display the raw message.  We've never
    # got complaints before, but if we do, just wax this.  It's primarily
    # included for (marginally useful) backwards compatibility.
    mimemsg.postamble = signoff
    # rfc1153
    print >> plainmsg, signoff
    print >> plainmsg, '*' * len(signoff)
    # Do our final bit of housekeeping, and then send each message to the
    # outgoing queue for delivery.
    mlist.next_digest_number += 1
    virginq = get_switchboard(mm_cfg.VIRGINQUEUE_DIR)
    # Calculate the recipients lists
    plainrecips = []
    mimerecips = []
    drecips = mlist.getDigestMemberKeys() + mlist.one_last_digest.keys()
    for user in mlist.getMemberCPAddresses(drecips):
        # user might be None if someone who toggled off digest delivery
        # subsequently unsubscribed from the mailing list.  Also, filter out
        # folks who have disabled delivery.
        if user is None or mlist.getDeliveryStatus(user) <> ENABLED:
            continue
        # Otherwise, decide whether they get MIME or RFC 1153 digests
        if mlist.getMemberOption(user, mm_cfg.DisableMime):
            plainrecips.append(user)
        else:
            mimerecips.append(user)
    # Zap this since we're now delivering the last digest to these folks.
    mlist.one_last_digest.clear()
    # MIME
    virginq.enqueue(mimemsg,
                    recips=mimerecips,
                    listname=mlist.internal_name(),
                    isdigest=True)
    # RFC 1153
    rfc1153msg.set_payload(to_cset_out(plainmsg.getvalue(), lcset), lcset)
    virginq.enqueue(rfc1153msg,
                    recips=plainrecips,
                    listname=mlist.internal_name(),
                    isdigest=True)
Example #4
0
def send_i18n_digests(mlist, mboxfp):
    mbox = Mailbox(mboxfp)
    # Prepare common information (first lang/charset)
    lang = mlist.preferred_language
    lcset = Utils.GetCharSet(lang)
    lcset_out = Charset(lcset).output_charset or lcset
    # Common Information (contd)
    realname = mlist.real_name
    volume = mlist.volume
    issue = mlist.next_digest_number
    digestid = _('%(realname)s Digest, Vol %(volume)d, Issue %(issue)d')
    digestsubj = Header(digestid, lcset, header_name='Subject')
    # Set things up for the MIME digest.  Only headers not added by
    # CookHeaders need be added here.
    # Date/Message-ID should be added here also.
    mimemsg = Message.Message()
    mimemsg['Content-Type'] = 'multipart/mixed'
    mimemsg['MIME-Version'] = '1.0'
    mimemsg['From'] = mlist.GetRequestEmail()
    mimemsg['Subject'] = digestsubj
    mimemsg['To'] = mlist.GetListEmail()
    mimemsg['Reply-To'] = mlist.GetListEmail()
    mimemsg['Date'] = formatdate(localtime=1)
    mimemsg['Message-ID'] = Utils.unique_message_id(mlist)
    # Set things up for the rfc1153 digest
    plainmsg = StringIO()
    rfc1153msg = Message.Message()
    rfc1153msg['From'] = mlist.GetRequestEmail()
    rfc1153msg['Subject'] = digestsubj
    rfc1153msg['To'] = mlist.GetListEmail()
    rfc1153msg['Reply-To'] = mlist.GetListEmail()
    rfc1153msg['Date'] = formatdate(localtime=1)
    rfc1153msg['Message-ID'] = Utils.unique_message_id(mlist)
    separator70 = '-' * 70
    separator30 = '-' * 30
    # In the rfc1153 digest, the masthead contains the digest boilerplate plus
    # any digest header.  In the MIME digests, the masthead and digest header
    # are separate MIME subobjects.  In either case, it's the first thing in
    # the digest, and we can calculate it now, so go ahead and add it now.
    mastheadtxt = Utils.maketext(
        'masthead.txt', {
            'real_name': mlist.real_name,
            'got_list_email': mlist.GetListEmail(),
            'got_listinfo_url': mlist.GetScriptURL('listinfo', absolute=1),
            'got_request_email': mlist.GetRequestEmail(),
            'got_owner_email': mlist.GetOwnerEmail(),
        },
        mlist=mlist)
    # MIME
    masthead = MIMEText(mastheadtxt, _charset=lcset)
    masthead['Content-Description'] = digestid
    mimemsg.attach(masthead)
    # RFC 1153
    print >> plainmsg, mastheadtxt
    print >> plainmsg
    # Now add the optional digest header but only if more than whitespace.
    if re.sub('\s', '', mlist.digest_header):
        headertxt = decorate(mlist, mlist.digest_header, _('digest header'))
        # MIME
        header = MIMEText(headertxt, _charset=lcset)
        header['Content-Description'] = _('Digest Header')
        mimemsg.attach(header)
        # RFC 1153
        print >> plainmsg, headertxt
        print >> plainmsg
    # Now we have to cruise through all the messages accumulated in the
    # mailbox file.  We can't add these messages to the plainmsg and mimemsg
    # yet, because we first have to calculate the table of contents
    # (i.e. grok out all the Subjects).  Store the messages in a list until
    # we're ready for them.
    #
    # Meanwhile prepare things for the table of contents
    toc = StringIO()
    print >> toc, _("Today's Topics:\n")
    # Now cruise through all the messages in the mailbox of digest messages,
    # building the MIME payload and core of the RFC 1153 digest.  We'll also
    # accumulate Subject: headers and authors for the table-of-contents.
    messages = []
    msgcount = 0
    msg = mbox.next()
    while msg is not None:
        if msg == '':
            # It was an unparseable message
            msg = mbox.next()
            continue
        msgcount += 1
        messages.append(msg)
        # Get the Subject header
        msgsubj = msg.get('subject', _('(no subject)'))
        subject = Utils.oneline(msgsubj, lcset)
        # Don't include the redundant subject prefix in the toc
        mo = re.match('(re:? *)?(%s)' % re.escape(mlist.subject_prefix),
                      subject, re.IGNORECASE)
        if mo:
            subject = subject[:mo.start(2)] + subject[mo.end(2):]
        username = ''
        addresses = getaddresses([Utils.oneline(msg.get('from', ''), lcset)])
        # Take only the first author we find
        if isinstance(addresses, ListType) and addresses:
            username = addresses[0][0]
            if not username:
                username = addresses[0][1]
        if username:
            username = '******' % username
        # Put count and Wrap the toc subject line
        wrapped = Utils.wrap('%2d. %s' % (msgcount, subject), 65)
        slines = wrapped.split('\n')
        # See if the user's name can fit on the last line
        if len(slines[-1]) + len(username) > 70:
            slines.append(username)
        else:
            slines[-1] += username
        # Add this subject to the accumulating topics
        first = True
        for line in slines:
            if first:
                print >> toc, ' ', line
                first = False
            else:
                print >> toc, '     ', line.lstrip()
        # We do not want all the headers of the original message to leak
        # through in the digest messages.  For this phase, we'll leave the
        # same set of headers in both digests, i.e. those required in RFC 1153
        # plus a couple of other useful ones.  We also need to reorder the
        # headers according to RFC 1153.  Later, we'll strip out headers for
        # for the specific MIME or plain digests.
        keeper = {}
        all_keepers = {}
        for header in (mm_cfg.MIME_DIGEST_KEEP_HEADERS +
                       mm_cfg.PLAIN_DIGEST_KEEP_HEADERS):
            all_keepers[header] = True
        all_keepers = all_keepers.keys()
        for keep in all_keepers:
            keeper[keep] = msg.get_all(keep, [])
        # Now remove all unkempt headers :)
        for header in msg.keys():
            del msg[header]
        # And add back the kept header in the RFC 1153 designated order
        for keep in all_keepers:
            for field in keeper[keep]:
                msg[keep] = field
        # And a bit of extra stuff
        msg['Message'] = ` msgcount `
        # Get the next message in the digest mailbox
        msg = mbox.next()
    # Now we're finished with all the messages in the digest.  First do some
    # sanity checking and then on to adding the toc.
    if msgcount == 0:
        # Why did we even get here?
        return
    toctext = to_cset_out(toc.getvalue(), lcset)
    # MIME
    tocpart = MIMEText(toctext, _charset=lcset)
    tocpart['Content-Description'] = _(
        "Today's Topics (%(msgcount)d messages)")
    mimemsg.attach(tocpart)
    # RFC 1153
    print >> plainmsg, toctext
    print >> plainmsg
    # For RFC 1153 digests, we now need the standard separator
    print >> plainmsg, separator70
    print >> plainmsg
    # Now go through and add each message
    mimedigest = MIMEBase('multipart', 'digest')
    mimemsg.attach(mimedigest)
    first = True
    for msg in messages:
        # MIME.  Make a copy of the message object since the rfc1153
        # processing scrubs out attachments.
        mimedigest.attach(MIMEMessage(copy.deepcopy(msg)))
        # rfc1153
        if first:
            first = False
        else:
            print >> plainmsg, separator30
            print >> plainmsg
        # Use Mailman.Handlers.Scrubber.process() to get plain text
        try:
            msg = scrubber(mlist, msg)
        except Errors.DiscardMessage:
            print >> plainmsg, _('[Message discarded by content filter]')
            continue
        # Honor the default setting
        for h in mm_cfg.PLAIN_DIGEST_KEEP_HEADERS:
            if msg[h]:
                uh = Utils.wrap('%s: %s' % (h, Utils.oneline(msg[h], lcset)))
                uh = '\n\t'.join(uh.split('\n'))
                print >> plainmsg, uh
        print >> plainmsg
        # If decoded payload is empty, this may be multipart message.
        # -- just stringfy it.
        payload = msg.get_payload(decode=True) \
                  or msg.as_string().split('\n\n',1)[1]
        mcset = msg.get_content_charset('')
        if mcset and mcset <> lcset and mcset <> lcset_out:
            try:
                payload = unicode(payload, mcset,
                                  'replace').encode(lcset, 'replace')
            except (UnicodeError, LookupError):
                # TK: Message has something unknown charset.
                #     _out means charset in 'outer world'.
                payload = unicode(payload, lcset_out,
                                  'replace').encode(lcset, 'replace')
        print >> plainmsg, payload
        if not payload.endswith('\n'):
            print >> plainmsg
    # Now add the footer but only if more than whitespace.
    if re.sub('\s', '', mlist.digest_footer):
        footertxt = decorate(mlist, mlist.digest_footer, _('digest footer'))
        # MIME
        footer = MIMEText(footertxt, _charset=lcset)
        footer['Content-Description'] = _('Digest Footer')
        mimemsg.attach(footer)
        # RFC 1153
        # MAS: There is no real place for the digest_footer in an RFC 1153
        # compliant digest, so add it as an additional message with
        # Subject: Digest Footer
        print >> plainmsg, separator30
        print >> plainmsg
        print >> plainmsg, 'Subject: ' + _('Digest Footer')
        print >> plainmsg
        print >> plainmsg, footertxt
        print >> plainmsg
        print >> plainmsg, separator30
        print >> plainmsg
    # Do the last bit of stuff for each digest type
    signoff = _('End of ') + digestid
    # MIME
    # BAW: This stuff is outside the normal MIME goo, and it's what the old
    # MIME digester did.  No one seemed to complain, probably because you
    # won't see it in an MUA that can't display the raw message.  We've never
    # got complaints before, but if we do, just wax this.  It's primarily
    # included for (marginally useful) backwards compatibility.
    mimemsg.postamble = signoff
    # rfc1153
    print >> plainmsg, signoff
    print >> plainmsg, '*' * len(signoff)
    # Do our final bit of housekeeping, and then send each message to the
    # outgoing queue for delivery.
    mlist.next_digest_number += 1
    virginq = get_switchboard(mm_cfg.VIRGINQUEUE_DIR)
    # Calculate the recipients lists
    plainrecips = []
    mimerecips = []
    drecips = mlist.getDigestMemberKeys() + mlist.one_last_digest.keys()
    for user in mlist.getMemberCPAddresses(drecips):
        # user might be None if someone who toggled off digest delivery
        # subsequently unsubscribed from the mailing list.  Also, filter out
        # folks who have disabled delivery.
        if user is None or mlist.getDeliveryStatus(user) <> ENABLED:
            continue
        # Otherwise, decide whether they get MIME or RFC 1153 digests
        if mlist.getMemberOption(user, mm_cfg.DisableMime):
            plainrecips.append(user)
        else:
            mimerecips.append(user)
    # Zap this since we're now delivering the last digest to these folks.
    mlist.one_last_digest.clear()
    # MIME
    virginq.enqueue(mimemsg,
                    recips=mimerecips,
                    listname=mlist.internal_name(),
                    isdigest=True)
    # RFC 1153
    rfc1153msg.set_payload(to_cset_out(plainmsg.getvalue(), lcset), lcset)
    virginq.enqueue(rfc1153msg,
                    recips=plainrecips,
                    listname=mlist.internal_name(),
                    isdigest=True)