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# -*- coding: utf-8 -*-
# fetch.py
# Copyright (C) 2013 LEAP
#
# 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 3 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, see <http://www.gnu.org/licenses/>.
"""
Incoming mail fetcher.
"""
import copy
import json
import logging
#import ssl
import threading
import time
import sys
import traceback
from email.parser import Parser
from email.generator import Generator
from email.utils import parseaddr
from StringIO import StringIO
from twisted.python import log
from twisted.internet import defer
from twisted.internet.task import LoopingCall
#from twisted.internet.threads import deferToThread
from zope.proxy import sameProxiedObjects
from leap.common import events as leap_events
from leap.common.check import leap_assert, leap_assert_type
from leap.common.events.events_pb2 import IMAP_FETCHED_INCOMING
from leap.common.events.events_pb2 import IMAP_MSG_PROCESSING
from leap.common.events.events_pb2 import IMAP_MSG_DECRYPTED
from leap.common.events.events_pb2 import IMAP_MSG_SAVED_LOCALLY
from leap.common.events.events_pb2 import IMAP_MSG_DELETED_INCOMING
from leap.common.events.events_pb2 import IMAP_UNREAD_MAIL
from leap.common.mail import get_email_charset
from leap.keymanager import errors as keymanager_errors
from leap.keymanager.openpgp import OpenPGPKey
from leap.mail.decorators import deferred
from leap.soledad.client import Soledad
from leap.soledad.common.crypto import ENC_SCHEME_KEY, ENC_JSON_KEY
logger = logging.getLogger(__name__)
MULTIPART_ENCRYPTED = "multipart/encrypted"
MULTIPART_SIGNED = "multipart/signed"
PGP_BEGIN = "-----BEGIN PGP MESSAGE-----"
PGP_END = "-----END PGP MESSAGE-----"
class MalformedMessage(Exception):
"""
Raised when a given message is not well formed.
"""
pass
class LeapIncomingMail(object):
"""
Fetches and process mail from the incoming pool.
This object has public methods start_loop and stop that will
actually initiate a LoopingCall with check_period recurrency.
The LoopingCall itself will invoke the fetch method each time
that the check_period expires.
This loop will sync the soledad db with the remote server and
process all the documents found tagged as incoming mail.
"""
RECENT_FLAG = "\\Recent"
INCOMING_KEY = "incoming"
CONTENT_KEY = "content"
LEAP_SIGNATURE_HEADER = 'X-Leap-Signature'
"""
Header added to messages when they are decrypted by the IMAP fetcher,
which states the validity of an eventual signature that might be included
in the encrypted blob.
"""
LEAP_SIGNATURE_VALID = 'valid'
LEAP_SIGNATURE_INVALID = 'invalid'
LEAP_SIGNATURE_COULD_NOT_VERIFY = 'could not verify'
fetching_lock = threading.Lock()
def __init__(self, keymanager, soledad, imap_account,
check_period, userid):
"""
Initialize LeapIncomingMail..
:param keymanager: a keymanager instance
:type keymanager: keymanager.KeyManager
:param soledad: a soledad instance
:type soledad: Soledad
:param imap_account: the account to fetch periodically
:type imap_account: SoledadBackedAccount
:param check_period: the period to fetch new mail, in seconds.
:type check_period: int
"""
leap_assert(keymanager, "need a keymanager to initialize")
leap_assert_type(soledad, Soledad)
leap_assert(check_period, "need a period to check incoming mail")
leap_assert_type(check_period, int)
leap_assert(userid, "need a userid to initialize")
self._keymanager = keymanager
self._soledad = soledad
self.imapAccount = imap_account
self._inbox = self.imapAccount.getMailbox('inbox')
self._userid = userid
self._loop = None
self._check_period = check_period
self._create_soledad_indexes()
# initialize a mail parser only once
self._parser = Parser()
def _create_soledad_indexes(self):
"""
Create needed indexes on soledad.
"""
self._soledad.create_index("just-mail", "incoming")
@property
def _pkey(self):
if sameProxiedObjects(self._keymanager, None):
logger.warning('tried to get key, but null keymanager found')
return None
return self._keymanager.get_key(self._userid, OpenPGPKey, private=True)
#
# Public API: fetch, start_loop, stop.
#
def fetch(self):
"""
Fetch incoming mail, to be called periodically.
Calls a deferred that will execute the fetch callback
in a separate thread
"""
logger.debug("fetching mail for: %s %s" % (
self._soledad.uuid, self._userid))
if not self.fetching_lock.locked():
d1 = self._sync_soledad()
d = defer.gatherResults([d1], consumeErrors=True)
d.addCallbacks(self._signal_fetch_to_ui, self._errback)
d.addCallbacks(self._signal_unread_to_ui, self._errback)
return d
else:
logger.debug("Already fetching mail.")
def start_loop(self):
"""
Starts a loop to fetch mail.
"""
if self._loop is None:
self._loop = LoopingCall(self.fetch)
self._loop.start(self._check_period)
else:
logger.warning("Tried to start an already running fetching loop.")
def stop(self):
# XXX change the name to stop_loop, for consistency.
"""
Stops the loop that fetches mail.
"""
if self._loop and self._loop.running is True:
self._loop.stop()
self._loop = None
#
# Private methods.
#
# synchronize incoming mail
def _errback(self, failure):
logger.exception(failure.value)
traceback.print_tb(*sys.exc_info())
@deferred
def _sync_soledad(self):
"""
Synchronizes with remote soledad.
:returns: a list of LeapDocuments, or None.
:rtype: iterable or None
"""
with self.fetching_lock:
log.msg('syncing soledad...')
self._soledad.sync()
log.msg('soledad synced.')
doclist = self._soledad.get_from_index("just-mail", "*")
self._process_doclist(doclist)
def _signal_unread_to_ui(self, *args):
"""
Sends unread event to ui.
"""
leap_events.signal(
IMAP_UNREAD_MAIL, str(self._inbox.getUnseenCount()))
def _signal_fetch_to_ui(self, doclist):
"""
Sends leap events to ui.
:param doclist: iterable with msg documents.
:type doclist: iterable.
:returns: doclist
:rtype: iterable
"""
doclist = doclist[0] # gatherResults pass us a list
fetched_ts = time.mktime(time.gmtime())
num_mails = len(doclist) if doclist is not None else 0
if num_mails != 0:
log.msg("there are %s mails" % (num_mails,))
leap_events.signal(
IMAP_FETCHED_INCOMING, str(num_mails), str(fetched_ts))
return doclist
# process incoming mail.
@defer.inlineCallbacks
def _process_doclist(self, doclist):
"""
Iterates through the doclist, checks if each doc
looks like a message, and yields a deferred that will decrypt and
process the message.
:param doclist: iterable with msg documents.
:type doclist: iterable.
:returns: a list of deferreds for individual messages.
"""
log.msg('processing doclist')
if not doclist:
logger.debug("no docs found")
return
num_mails = len(doclist)
for index, doc in enumerate(doclist):
logger.debug("processing doc %d of %d" % (index + 1, num_mails))
leap_events.signal(
IMAP_MSG_PROCESSING, str(index), str(num_mails))
keys = doc.content.keys()
if self._is_msg(keys):
# Ok, this looks like a legit msg.
# Let's process it!
decrypted = list(self._decrypt_doc(doc))[0]
res = self._add_message_locally(decrypted)
yield res
else:
# Ooops, this does not.
logger.debug('This does not look like a proper msg.')
#
# operations on individual messages
#
def _decrypt_doc(self, doc):
"""
Decrypt the contents of a document.
:param doc: A document containing an encrypted message.
:type doc: SoledadDocument
:return: A tuple containing the document and the decrypted message.
:rtype: (SoledadDocument, str)
"""
log.msg('decrypting msg')
success = False
try:
decrdata = self._keymanager.decrypt(
doc.content[ENC_JSON_KEY],
self._pkey)
success = True
except Exception as exc:
# XXX move this to errback !!!
logger.error("Error while decrypting msg: %r" % (exc,))
decrdata = ""
leap_events.signal(IMAP_MSG_DECRYPTED, "1" if success else "0")
data = list(self._process_decrypted_doc((doc, decrdata)))
yield (doc, data)
def _process_decrypted_doc(self, msgtuple):
"""
Process a document containing a succesfully decrypted message.
:param msgtuple: a tuple consisting of a SoledadDocument
instance containing the incoming message
and data, the json-encoded, decrypted content of the
incoming message
:type msgtuple: (SoledadDocument, str)
:return: a SoledadDocument and the processed data.
:rtype: (doc, data)
"""
log.msg('processing decrypted doc')
doc, data = msgtuple
msg = json.loads(data)
if not isinstance(msg, dict):
defer.returnValue(False)
if not msg.get(self.INCOMING_KEY, False):
defer.returnValue(False)
# ok, this is an incoming message
rawmsg = msg.get(self.CONTENT_KEY, None)
if not rawmsg:
return False
return self._maybe_decrypt_msg(rawmsg)
def _maybe_decrypt_msg(self, data):
"""
Tries to decrypt a gpg message if data looks like one.
:param data: the text to be decrypted.
:type data: unicode
:return: data, possibly descrypted.
:rtype: str
"""
log.msg('maybe decrypting doc')
leap_assert_type(data, unicode)
# parse the original message
encoding = get_email_charset(data)
data = data.encode(encoding)
msg = self._parser.parsestr(data)
# try to obtain sender public key
senderPubkey = None
fromHeader = msg.get('from', None)
if (fromHeader is not None
and (msg.get_content_type() == MULTIPART_ENCRYPTED
or msg.get_content_type() == MULTIPART_SIGNED)):
_, senderAddress = parseaddr(fromHeader)
try:
senderPubkey = self._keymanager.get_key_from_cache(
senderAddress, OpenPGPKey)
except keymanager_errors.KeyNotFound:
pass
valid_sig = False # we will add a header saying if sig is valid
decrypt_multi = self._decrypt_multipart_encrypted_msg
decrypt_inline = self._maybe_decrypt_inline_encrypted_msg
if msg.get_content_type() == MULTIPART_ENCRYPTED:
decrmsg, valid_sig = decrypt_multi(
msg, encoding, senderPubkey)
else:
decrmsg, valid_sig = decrypt_inline(
msg, encoding, senderPubkey)
# add x-leap-signature header
if senderPubkey is None:
decrmsg.add_header(
self.LEAP_SIGNATURE_HEADER,
self.LEAP_SIGNATURE_COULD_NOT_VERIFY)
else:
decrmsg.add_header(
self.LEAP_SIGNATURE_HEADER,
self.LEAP_SIGNATURE_VALID if valid_sig else
self.LEAP_SIGNATURE_INVALID,
pubkey=senderPubkey.key_id)
yield decrmsg.as_string()
def _decrypt_multipart_encrypted_msg(self, msg, encoding, senderPubkey):
"""
Decrypt a message with content-type 'multipart/encrypted'.
:param msg: The original encrypted message.
:type msg: Message
:param encoding: The encoding of the email message.
:type encoding: str
:param senderPubkey: The key of the sender of the message.
:type senderPubkey: OpenPGPKey
:return: A unitary tuple containing a decrypted message.
:rtype: (Message)
"""
log.msg('decrypting multipart encrypted msg')
msg = copy.deepcopy(msg)
self._multipart_sanity_check(msg)
# parse message and get encrypted content
pgpencmsg = msg.get_payload()[1]
encdata = pgpencmsg.get_payload()
# decrypt or fail gracefully
try:
decrdata, valid_sig = yield self._decrypt_and_verify_data(
encdata, senderPubkey)
except keymanager_errors.DecryptError as e:
logger.warning('Failed to decrypt encrypted message (%s). '
'Storing message without modifications.' % str(e))
# Bailing out!
yield (msg, False)
# decrypted successully, now fix encoding and parse
try:
decrdata = decrdata.encode(encoding)
except (UnicodeEncodeError, UnicodeDecodeError) as e:
logger.error("Unicode error {0}".format(e))
decrdata = decrdata.encode(encoding, 'replace')
decrmsg = self._parser.parsestr(decrdata)
# remove original message's multipart/encrypted content-type
del(msg['content-type'])
# replace headers back in original message
for hkey, hval in decrmsg.items():
try:
# this will raise KeyError if header is not present
msg.replace_header(hkey, hval)
except KeyError:
msg[hkey] = hval
# all ok, replace payload by unencrypted payload
msg.set_payload(decrmsg.get_payload())
yield (msg, valid_sig)
def _maybe_decrypt_inline_encrypted_msg(self, origmsg, encoding,
senderPubkey):
"""
Possibly decrypt an inline OpenPGP encrypted message.
:param origmsg: The original, possibly encrypted message.
:type origmsg: Message
:param encoding: The encoding of the email message.
:type encoding: str
:param senderPubkey: The key of the sender of the message.
:type senderPubkey: OpenPGPKey
:return: A unitary tuple containing a decrypted message and
a bool indicating wether the signature is valid.
:rtype: (Message, bool)
"""
log.msg('maybe decrypting inline encrypted msg')
# serialize the original message
buf = StringIO()
g = Generator(buf)
g.flatten(origmsg)
data = buf.getvalue()
# handle exactly one inline PGP message
valid_sig = False
if PGP_BEGIN in data:
begin = data.find(PGP_BEGIN)
end = data.find(PGP_END)
pgp_message = data[begin:end + len(PGP_END)]
try:
decrdata, valid_sig = self._decrypt_and_verify_data(
pgp_message, senderPubkey)
# replace encrypted by decrypted content
data = data.replace(pgp_message, decrdata)
except keymanager_errors.DecryptError:
logger.warning('Failed to decrypt potential inline encrypted '
'message. Storing message as is...')
# if message is not encrypted, return raw data
if isinstance(data, unicode):
data = data.encode(encoding, 'replace')
return (self._parser.parsestr(data), valid_sig)
def _decrypt_and_verify_data(self, data, senderPubkey):
"""
Decrypt C{data} using our private key and attempt to verify a
signature using C{senderPubkey}.
:param data: The text to be decrypted.
:type data: unicode
:param senderPubkey: The public key of the sender of the message.
:type senderPubkey: OpenPGPKey
:return: The decrypted data and a boolean stating whether the
signature could be verified.
:rtype: (str, bool)
:raise DecryptError: Raised if failed to decrypt.
"""
log.msg('decrypting and verifying data')
valid_sig = False
try:
decrdata = self._keymanager.decrypt(
data, self._pkey,
verify=senderPubkey)
if senderPubkey is not None:
valid_sig = True
except keymanager_errors.InvalidSignature:
decrdata = self._keymanager.decrypt(
data, self._pkey)
return (decrdata, valid_sig)
def _add_message_locally(self, msgtuple):
"""
Adds a message to local inbox and delete it from the incoming db
in soledad.
:param msgtuple: a tuple consisting of a SoledadDocument
instance containing the incoming message
and data, the json-encoded, decrypted content of the
incoming message
:type msgtuple: (SoledadDocument, str)
"""
log.msg('adding message to local db')
doc, data = msgtuple
if isinstance(data, list):
data = data[0]
self._inbox.addMessage(data, flags=(self.RECENT_FLAG,))
leap_events.signal(IMAP_MSG_SAVED_LOCALLY)
doc_id = doc.doc_id
self._soledad.delete_doc(doc)
log.msg("deleted doc %s from incoming" % doc_id)
leap_events.signal(IMAP_MSG_DELETED_INCOMING)
self._signal_unread_to_ui()
return True
#
# helpers
#
def _msg_multipart_sanity_check(self, msg):
"""
Performs a sanity check against a multipart encrypted msg
:param msg: The original encrypted message.
:type msg: Message
"""
# sanity check
payload = msg.get_payload()
if len(payload) != 2:
raise MalformedMessage(
'Multipart/encrypted messages should have exactly 2 body '
'parts (instead of %d).' % len(payload))
if payload[0].get_content_type() != 'application/pgp-encrypted':
raise MalformedMessage(
"Multipart/encrypted messages' first body part should "
"have content type equal to 'application/pgp-encrypted' "
"(instead of %s)." % payload[0].get_content_type())
if payload[1].get_content_type() != 'application/octet-stream':
raise MalformedMessage(
"Multipart/encrypted messages' second body part should "
"have content type equal to 'octet-stream' (instead of "
"%s)." % payload[1].get_content_type())
def _is_msg(self, keys):
"""
Checks if the keys of a dictionary match the signature
of the document type we use for messages.
:param keys: iterable containing the strings to match.
:type keys: iterable of strings.
:rtype: bool
"""
return ENC_SCHEME_KEY in keys and ENC_JSON_KEY in keys
|