diff options
Diffstat (limited to 'src/leap/mail/imap/fetch.py')
-rw-r--r-- | src/leap/mail/imap/fetch.py | 268 |
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): """ |