summaryrefslogtreecommitdiff
path: root/src/leap/mail/imap/fetch.py
diff options
context:
space:
mode:
Diffstat (limited to 'src/leap/mail/imap/fetch.py')
-rw-r--r--src/leap/mail/imap/fetch.py268
1 files changed, 188 insertions, 80 deletions
diff --git a/src/leap/mail/imap/fetch.py b/src/leap/mail/imap/fetch.py
index 3422ed5..38612e1 100644
--- a/src/leap/mail/imap/fetch.py
+++ b/src/leap/mail/imap/fetch.py
@@ -22,8 +22,12 @@ import json
import ssl
import threading
import time
+import copy
+from StringIO import StringIO
from email.parser import Parser
+from email.generator import Generator
+from email.utils import parseaddr
from twisted.python import log
from twisted.internet.task import LoopingCall
@@ -65,6 +69,16 @@ class LeapIncomingMail(object):
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,
@@ -260,11 +274,9 @@ class LeapIncomingMail(object):
if self._is_msg(keys):
# Ok, this looks like a legit msg.
# Let's process it!
- encdata = doc.content[ENC_JSON_KEY]
-
# Deferred chain for individual messages
- d = deferToThread(self._decrypt_msg, doc, encdata)
- d.addCallback(self._process_decrypted)
+ d = deferToThread(self._decrypt_doc, doc)
+ d.addCallback(self._process_decrypted_doc)
d.addErrback(self._log_err)
d.addCallback(self._add_message_locally)
d.addErrback(self._log_err)
@@ -293,32 +305,40 @@ class LeapIncomingMail(object):
"""
return ENC_SCHEME_KEY in keys and ENC_JSON_KEY in keys
- def _decrypt_msg(self, doc, encdata):
+ 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')
- key = self._pkey
+ success = False
try:
- decrdata = (self._keymanager.decrypt(
- encdata, key,
- passphrase=self._soledad.passphrase))
- ok = True
+ decrdata = self._keymanager.decrypt(
+ doc.content[ENC_JSON_KEY],
+ self._pkey)
+ success = True
except Exception as exc:
# XXX move this to errback !!!
logger.warning("Error while decrypting msg: %r" % (exc,))
decrdata = ""
- ok = False
- leap_events.signal(IMAP_MSG_DECRYPTED, "1" if ok else "0")
+ leap_events.signal(IMAP_MSG_DECRYPTED, "1" if success else "0")
return doc, decrdata
- def _process_decrypted(self, msgtuple):
+ def _process_decrypted_doc(self, msgtuple):
"""
- Process a successfully decrypted message.
+ 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)
- :returns: a SoledadDocument and the processed data.
+ :return: a SoledadDocument and the processed data.
:rtype: (doc, data)
"""
doc, data = msgtuple
@@ -333,13 +353,13 @@ class LeapIncomingMail(object):
if not rawmsg:
return False
try:
- data = self._maybe_decrypt_gpg_msg(rawmsg)
+ data = self._maybe_decrypt_msg(rawmsg)
return doc, data
except keymanager_errors.EncryptionDecryptionFailed as exc:
logger.error(exc)
raise
- def _maybe_decrypt_gpg_msg(self, data):
+ def _maybe_decrypt_msg(self, data):
"""
Tries to decrypt a gpg message if data looks like one.
@@ -348,80 +368,168 @@ class LeapIncomingMail(object):
:return: data, possibly descrypted.
:rtype: str
"""
- # TODO split this method
leap_assert_type(data, unicode)
+ # parse the original message
parser = Parser()
encoding = get_email_charset(data)
data = data.encode(encoding)
- origmsg = parser.parsestr(data)
-
- # handle multipart/encrypted messages
- if origmsg.get_content_type() == 'multipart/encrypted':
- # sanity check
- payload = origmsg.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())
-
- # parse message and get encrypted content
- pgpencmsg = origmsg.get_payload()[1]
- encdata = pgpencmsg.get_payload()
-
- # decrypt and parse decrypted message
- decrdata = self._keymanager.decrypt(
- encdata, self._pkey,
- passphrase=self._soledad.passphrase)
+ msg = parser.parsestr(data)
+
+ # try to obtain sender public key
+ senderPubkey = None
+ fromHeader = msg.get('from', None)
+ if fromHeader is not None:
+ _, senderAddress = parseaddr(fromHeader)
try:
- decrdata = decrdata.encode(encoding)
- except (UnicodeEncodeError, UnicodeDecodeError) as e:
- logger.error("Unicode error {0}".format(e))
- decrdata = decrdata.encode(encoding, 'replace')
-
- decrmsg = parser.parsestr(decrdata)
- # remove original message's multipart/encrypted content-type
- del(origmsg['content-type'])
- # replace headers back in original message
- for hkey, hval in decrmsg.items():
- try:
- # this will raise KeyError if header is not present
- origmsg.replace_header(hkey, hval)
- except KeyError:
- origmsg[hkey] = hval
-
- # replace payload by unencrypted payload
- origmsg.set_payload(decrmsg.get_payload())
- return origmsg.as_string(unixfrom=False)
+ senderPubkey = self._keymanager.get_key(
+ senderAddress, OpenPGPKey)
+ except keymanager_errors.KeyNotFound:
+ pass
+
+ valid_sig = False # we will add a header saying if sig is valid
+ decrdata = ''
+ if msg.get_content_type() == 'multipart/encrypted':
+ decrmsg, valid_sig = self._decrypt_multipart_encrypted_msg(
+ msg, encoding, senderPubkey)
+ else:
+ decrmsg, valid_sig = self._maybe_decrypt_inline_encrypted_msg(
+ 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:
- PGP_BEGIN = "-----BEGIN PGP MESSAGE-----"
- PGP_END = "-----END PGP MESSAGE-----"
- # handle inline PGP messages
- if PGP_BEGIN in data:
- begin = data.find(PGP_BEGIN)
- end = data.rfind(PGP_END)
- pgp_message = data[begin:begin+end]
- decrdata = (self._keymanager.decrypt(
- pgp_message, self._pkey,
- passphrase=self._soledad.passphrase))
- # replace encrypted by decrypted content
- data = data.replace(pgp_message, decrdata)
+ decrmsg.add_header(
+ self.LEAP_SIGNATURE_HEADER,
+ self.LEAP_SIGNATURE_VALID if valid_sig else \
+ self.LEAP_SIGNATURE_INVALID,
+ pubkey=senderPubkey.key_id)
+
+ return 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)
+ """
+ msg = copy.deepcopy(msg)
+ # 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())
+ # parse message and get encrypted content
+ pgpencmsg = msg.get_payload()[1]
+ encdata = pgpencmsg.get_payload()
+ # decrypt and parse decrypted message
+ decrdata, valid_sig = self._decrypt_and_verify_data(
+ encdata, senderPubkey)
+ try:
+ decrdata = decrdata.encode(encoding)
+ except (UnicodeEncodeError, UnicodeDecodeError) as e:
+ logger.error("Unicode error {0}".format(e))
+ decrdata = decrdata.encode(encoding, 'replace')
+ parser = Parser()
+ decrmsg = 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
+ # replace payload by unencrypted payload
+ msg.set_payload(decrmsg.get_payload())
+ return 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.
+ :rtype: (Message)
+ """
+ # serialize the original message
+ buf = StringIO()
+ g = Generator(buf)
+ g.flatten(origmsg)
+ data = buf.getvalue()
+ # handle exactly one inline PGP message
+ PGP_BEGIN = "-----BEGIN PGP MESSAGE-----"
+ PGP_END = "-----END 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)]
+ decrdata, valid_sig = self._decrypt_and_verify_data(
+ pgp_message, senderPubkey)
+ # replace encrypted by decrypted content
+ data = data.replace(pgp_message, decrdata)
# if message is not encrypted, return raw data
-
if isinstance(data, unicode):
data = data.encode(encoding, 'replace')
+ parser = Parser()
+ return 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}.
- return data
+ :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)
+ """
+ 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):
"""