# Copyright (C) 2001-2009 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, # USA. """Cleanse a message for archiving.""" from __future__ import nested_scopes import os import re import time import errno import binascii import tempfile from cStringIO import StringIO from types import IntType, StringType from email.Utils import parsedate from email.Parser import HeaderParser from email.Generator import Generator from email.Charset import Charset from Mailman import mm_cfg from Mailman import Utils from Mailman import LockFile from Mailman import Message from Mailman.Errors import DiscardMessage from Mailman.i18n import _ from Mailman.Logging.Syslog import syslog from Mailman.Utils import sha_new # Path characters for common platforms pre = re.compile(r'[/\\:]') # All other characters to strip out of Content-Disposition: filenames # (essentially anything that isn't an alphanum, dot, dash, or underscore). sre = re.compile(r'[^-\w.]') # Regexp to strip out leading dots dre = re.compile(r'^\.*') BR = '
\n' SPACE = ' ' try: True, False except NameError: True = 1 False = 0 try: from mimetypes import guess_all_extensions except ImportError: import mimetypes def guess_all_extensions(ctype, strict=True): # BAW: sigh, guess_all_extensions() is new in Python 2.3 all = [] def check(map): for e, t in map.items(): if t == ctype: all.append(e) check(mimetypes.types_map) # Python 2.1 doesn't have common_types. Sigh, sigh. if not strict and hasattr(mimetypes, 'common_types'): check(mimetypes.common_types) return all def guess_extension(ctype, ext): # mimetypes maps multiple extensions to the same type, e.g. .doc, .dot, # and .wiz are all mapped to application/msword. This sucks for finding # the best reverse mapping. If the extension is one of the giving # mappings, we'll trust that, otherwise we'll just guess. :/ all = guess_all_extensions(ctype, strict=False) if ext in all: return ext return all and all[0] def safe_strftime(fmt, t): try: return time.strftime(fmt, t) except (TypeError, ValueError, OverflowError): return None def calculate_attachments_dir(mlist, msg, msgdata): # Calculate the directory that attachments for this message will go # under. To avoid inode limitations, the scheme will be: # archives/private//attachments/YYYYMMDD// # Start by calculating the date-based and msgid-hash components. fmt = '%Y%m%d' datestr = msg.get('Date') if datestr: now = parsedate(datestr) else: now = time.gmtime(msgdata.get('received_time', time.time())) datedir = safe_strftime(fmt, now) if not datedir: datestr = msgdata.get('X-List-Received-Date') if datestr: datedir = safe_strftime(fmt, datestr) if not datedir: # What next? Unixfrom, I guess. parts = msg.get_unixfrom().split() try: month = {'Jan':1, 'Feb':2, 'Mar':3, 'Apr':4, 'May':5, 'Jun':6, 'Jul':7, 'Aug':8, 'Sep':9, 'Oct':10, 'Nov':11, 'Dec':12, }.get(parts[3], 0) day = int(parts[4]) year = int(parts[6]) except (IndexError, ValueError): # Best we can do I think month = day = year = 0 datedir = '%04d%02d%02d' % (year, month, day) assert datedir # As for the msgid hash, we'll base this part on the Message-ID: so that # all attachments for the same message end up in the same directory (we'll # uniquify the filenames in that directory as needed). We use the first 2 # and last 2 bytes of the SHA1 hash of the message id as the basis of the # directory name. Clashes here don't really matter too much, and that # still gives us a 32-bit space to work with. msgid = msg['message-id'] if msgid is None: msgid = msg['Message-ID'] = Utils.unique_message_id(mlist) # We assume that the message id actually /is/ unique! digest = sha_new(msgid).hexdigest() return os.path.join('attachments', datedir, digest[:4] + digest[-4:]) def replace_payload_by_text(msg, text, charset): # TK: This is a common function in replacing the attachment and the main # message by a text (scrubbing). del msg['content-type'] del msg['content-transfer-encoding'] if isinstance(charset, unicode): # email 3.0.1 (python 2.4) doesn't like unicode charset = charset.encode('us-ascii') msg.set_payload(text, charset) def process(mlist, msg, msgdata=None): sanitize = mm_cfg.ARCHIVE_HTML_SANITIZER outer = True if msgdata is None: msgdata = {} if msgdata: # msgdata is available if it is in GLOBAL_PIPELINE # ie. not in digest or archiver # check if the list owner want to scrub regular delivery if not mlist.scrub_nondigest: return dir = calculate_attachments_dir(mlist, msg, msgdata) charset = None lcset = Utils.GetCharSet(mlist.preferred_language) lcset_out = Charset(lcset).output_charset or lcset # Now walk over all subparts of this message and scrub out various types format = delsp = None for part in msg.walk(): ctype = part.get_content_type() # If the part is text/plain, we leave it alone if ctype == 'text/plain': # We need to choose a charset for the scrubbed message, so we'll # arbitrarily pick the charset of the first text/plain part in the # message. # MAS: Also get the RFC 3676 stuff from this part. This seems to # work OK for scrub_nondigest. It will also work as far as # scrubbing messages for the archive is concerned, but pipermail # doesn't pay any attention to the RFC 3676 parameters. The plain # format digest is going to be a disaster in any case as some of # messages will be format="flowed" and some not. ToDigest creates # its own Content-Type: header for the plain digest which won't # have RFC 3676 parameters. If the message Content-Type: headers # are retained for display in the digest, the parameters will be # there for information, but not for the MUA. This is the best we # can do without having get_payload() process the parameters. if charset is None: charset = part.get_content_charset(lcset) format = part.get_param('format') delsp = part.get_param('delsp') # TK: if part is attached then check charset and scrub if none if part.get('content-disposition') and \ not part.get_content_charset(): omask = os.umask(002) try: url = save_attachment(mlist, part, dir) finally: os.umask(omask) filename = part.get_filename(_('not available')) filename = Utils.oneline(filename, lcset) replace_payload_by_text(part, _("""\ An embedded and charset-unspecified text was scrubbed... Name: %(filename)s URL: %(url)s """), lcset) elif ctype == 'text/html' and isinstance(sanitize, IntType): if sanitize == 0: if outer: raise DiscardMessage replace_payload_by_text(part, _('HTML attachment scrubbed and removed'), # Adding charset arg and removing content-type # sets content-type to text/plain lcset) elif sanitize == 2: # By leaving it alone, Pipermail will automatically escape it pass elif sanitize == 3: # Pull it out as an attachment but leave it unescaped. This # is dangerous, but perhaps useful for heavily moderated # lists. omask = os.umask(002) try: url = save_attachment(mlist, part, dir, filter_html=False) finally: os.umask(omask) replace_payload_by_text(part, _("""\ An HTML attachment was scrubbed... URL: %(url)s """), lcset) else: # HTML-escape it and store it as an attachment, but make it # look a /little/ bit prettier. :( payload = Utils.websafe(part.get_payload(decode=True)) # For whitespace in the margin, change spaces into # non-breaking spaces, and tabs into 8 of those. Then use a # mono-space font. Still looks hideous to me, but then I'd # just as soon discard them. def doreplace(s): return s.expandtabs(8).replace(' ', ' ') lines = [doreplace(s) for s in payload.split('\n')] payload = '\n' + BR.join(lines) + '\n\n' part.set_payload(payload) # We're replacing the payload with the decoded payload so this # will just get in the way. del part['content-transfer-encoding'] omask = os.umask(002) try: url = save_attachment(mlist, part, dir, filter_html=False) finally: os.umask(omask) replace_payload_by_text(part, _("""\ An HTML attachment was scrubbed... URL: %(url)s """), lcset) elif ctype == 'message/rfc822': # This part contains a submessage, so it too needs scrubbing submsg = part.get_payload(0) omask = os.umask(002) try: url = save_attachment(mlist, part, dir) finally: os.umask(omask) subject = submsg.get('subject', _('no subject')) date = submsg.get('date', _('no date')) who = submsg.get('from', _('unknown sender')) size = len(str(submsg)) replace_payload_by_text(part, _("""\ An embedded message was scrubbed... From: %(who)s Subject: %(subject)s Date: %(date)s Size: %(size)s URL: %(url)s """), lcset) # If the message isn't a multipart, then we'll strip it out as an # attachment that would have to be separately downloaded. Pipermail # will transform the url into a hyperlink. elif part.get_payload() and not part.is_multipart(): payload = part.get_payload(decode=True) ctype = part.get_content_type() # XXX Under email 2.5, it is possible that payload will be None. # This can happen when you have a Content-Type: multipart/* with # only one part and that part has two blank lines between the # first boundary and the end boundary. In email 3.0 you end up # with a string in the payload. I think in this case it's safe to # ignore the part. if payload is None: continue size = len(payload) omask = os.umask(002) try: url = save_attachment(mlist, part, dir) finally: os.umask(omask) desc = part.get('content-description', _('not available')) desc = Utils.oneline(desc, lcset) filename = part.get_filename(_('not available')) filename = Utils.oneline(filename, lcset) replace_payload_by_text(part, _("""\ A non-text attachment was scrubbed... Name: %(filename)s Type: %(ctype)s Size: %(size)d bytes Desc: %(desc)s URL: %(url)s """), lcset) outer = False # We still have to sanitize multipart messages to flat text because # Pipermail can't handle messages with list payloads. This is a kludge; # def (n) clever hack ;). if msg.is_multipart() and sanitize <> 2: # By default we take the charset of the first text/plain part in the # message, but if there was none, we'll use the list's preferred # language's charset. if not charset or charset == 'us-ascii': charset = lcset_out else: # normalize to the output charset if input/output are different charset = Charset(charset).output_charset or charset # We now want to concatenate all the parts which have been scrubbed to # text/plain, into a single text/plain payload. We need to make sure # all the characters in the concatenated string are in the same # encoding, so we'll use the 'replace' key in the coercion call. # BAW: Martin's original patch suggested we might want to try # generalizing to utf-8, and that's probably a good idea (eventually). text = [] for part in msg.walk(): # TK: bug-id 1099138 and multipart # MAS test payload - if part may fail if there are no headers. if not part.get_payload() or part.is_multipart(): continue # All parts should be scrubbed to text/plain by now. partctype = part.get_content_type() if partctype <> 'text/plain': text.append(_('Skipped content of type %(partctype)s\n')) continue try: t = part.get_payload(decode=True) or '' # MAS: TypeError exception can occur if payload is None. This # was observed with a message that contained an attached # message/delivery-status part. Because of the special parsing # of this type, this resulted in a text/plain sub-part with a # null body. See bug 1430236. except (binascii.Error, TypeError): t = part.get_payload() or '' # TK: get_content_charset() returns 'iso-2022-jp' for internally # crafted (scrubbed) 'euc-jp' text part. So, first try # get_charset(), then get_content_charset() for the parts # which are already embeded in the incoming message. partcharset = part.get_charset() if partcharset: partcharset = str(partcharset) else: partcharset = part.get_content_charset() if partcharset and partcharset <> charset: try: t = unicode(t, partcharset, 'replace') except (UnicodeError, LookupError, ValueError, AssertionError): # We can get here if partcharset is bogus in come way. # Replace funny characters. We use errors='replace' t = unicode(t, 'ascii', 'replace') try: # Should use HTML-Escape, or try generalizing to UTF-8 t = t.encode(charset, 'replace') except (UnicodeError, LookupError, ValueError, AssertionError): # if the message charset is bogus, use the list's. t = t.encode(lcset, 'replace') # Separation is useful if isinstance(t, StringType): if not t.endswith('\n'): t += '\n' text.append(t) # Now join the text and set the payload sep = _('-------------- next part --------------\n') # The i18n separator is in the list's charset. Coerce it to the # message charset. try: s = unicode(sep, lcset, 'replace') sep = s.encode(charset, 'replace') except (UnicodeError, LookupError, ValueError, AssertionError): pass replace_payload_by_text(msg, sep.join(text), charset) if format: msg.set_param('Format', format) if delsp: msg.set_param('DelSp', delsp) return msg def makedirs(dir): # Create all the directories to store this attachment in try: os.makedirs(dir, 02775) # Unfortunately, FreeBSD seems to be broken in that it doesn't honor # the mode arg of mkdir(). def twiddle(arg, dirname, names): os.chmod(dirname, 02775) os.path.walk(dir, twiddle, None) except OSError, e: if e.errno <> errno.EEXIST: raise def save_attachment(mlist, msg, dir, filter_html=True): fsdir = os.path.join(mlist.archive_dir(), dir) makedirs(fsdir) # Figure out the attachment type and get the decoded data decodedpayload = msg.get_payload(decode=True) # BAW: mimetypes ought to handle non-standard, but commonly found types, # e.g. image/jpg (should be image/jpeg). For now we just store such # things as application/octet-streams since that seems the safest. ctype = msg.get_content_type() # i18n file name is encoded lcset = Utils.GetCharSet(mlist.preferred_language) filename = Utils.oneline(msg.get_filename(''), lcset) filename, fnext = os.path.splitext(filename) # For safety, we should confirm this is valid ext for content-type # but we can use fnext if we introduce fnext filtering if mm_cfg.SCRUBBER_USE_ATTACHMENT_FILENAME_EXTENSION: # HTML message doesn't have filename :-( ext = fnext or guess_extension(ctype, fnext) else: ext = guess_extension(ctype, fnext) if not ext: # We don't know what it is, so assume it's just a shapeless # application/octet-stream, unless the Content-Type: is # message/rfc822, in which case we know we'll coerce the type to # text/plain below. if ctype == 'message/rfc822': ext = '.txt' else: ext = '.bin' # Allow only alphanumerics, dash, underscore, and dot ext = sre.sub('', ext) path = None # We need a lock to calculate the next attachment number lockfile = os.path.join(fsdir, 'attachments.lock') lock = LockFile.LockFile(lockfile) lock.lock() try: # Now base the filename on what's in the attachment, uniquifying it if # necessary. if not filename or mm_cfg.SCRUBBER_DONT_USE_ATTACHMENT_FILENAME: filebase = 'attachment' else: # Sanitize the filename given in the message headers parts = pre.split(filename) filename = parts[-1] # Strip off leading dots filename = dre.sub('', filename) # Allow only alphanumerics, dash, underscore, and dot filename = sre.sub('', filename) # If the filename's extension doesn't match the type we guessed, # which one should we go with? For now, let's go with the one we # guessed so attachments can't lie about their type. Also, if the # filename /has/ no extension, then tack on the one we guessed. # The extension was removed from the name above. filebase = filename # Now we're looking for a unique name for this file on the file # system. If msgdir/filebase.ext isn't unique, we'll add a counter # after filebase, e.g. msgdir/filebase-cnt.ext counter = 0 extra = '' while True: path = os.path.join(fsdir, filebase + extra + ext) # Generally it is not a good idea to test for file existance # before just trying to create it, but the alternatives aren't # wonderful (i.e. os.open(..., O_CREAT | O_EXCL) isn't # NFS-safe). Besides, we have an exclusive lock now, so we're # guaranteed that no other process will be racing with us. if os.path.exists(path): counter += 1 extra = '-%04d' % counter else: break finally: lock.unlock() # `path' now contains the unique filename for the attachment. There's # just one more step we need to do. If the part is text/html and # ARCHIVE_HTML_SANITIZER is a string (which it must be or we wouldn't be # here), then send the attachment through the filter program for # sanitization if filter_html and ctype == 'text/html': base, ext = os.path.splitext(path) tmppath = base + '-tmp' + ext fp = open(tmppath, 'w') try: fp.write(decodedpayload) fp.close() cmd = mm_cfg.ARCHIVE_HTML_SANITIZER % {'filename' : tmppath} progfp = os.popen(cmd, 'r') decodedpayload = progfp.read() status = progfp.close() if status: syslog('error', 'HTML sanitizer exited with non-zero status: %s', status) finally: os.unlink(tmppath) # BAW: Since we've now sanitized the document, it should be plain # text. Blarg, we really want the sanitizer to tell us what the type # if the return data is. :( ext = '.txt' path = base + '.txt' # Is it a message/rfc822 attachment? elif ctype == 'message/rfc822': submsg = msg.get_payload() # BAW: I'm sure we can eventually do better than this. :( decodedpayload = Utils.websafe(str(submsg)) fp = open(path, 'w') fp.write(decodedpayload) fp.close() # Now calculate the url baseurl = mlist.GetBaseArchiveURL() # Private archives will likely have a trailing slash. Normalize. if baseurl[-1] <> '/': baseurl += '/' # A trailing space in url string may save users who are using # RFC-1738 compliant MUA (Not Mozilla). # Trailing space will definitely be a problem with format=flowed. # Bracket the URL instead. url = '<' + baseurl + '%s/%s%s%s>' % (dir, filebase, extra, ext) return url