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|
# -*- coding: utf-8 -*-
# libolm python bindings
# Copyright © 2015-2017 OpenMarket Ltd
# Copyright © 2018 Damir Jelić <poljar@termina.org.uk>
"""libolm Session module.
This module contains the Olm Session part of the Olm library.
It is used to establish a peer-to-peer encrypted communication channel between
two Olm accounts.
Examples:
>>> alice = Account()
>>> bob = Account()
>>> bob.generate_one_time_keys(1)
>>> id_key = bob.identity_keys['curve25519']
>>> one_time = list(bob.one_time_keys["curve25519"].values())[0]
>>> session = OutboundSession(alice, id_key, one_time)
"""
# pylint: disable=redefined-builtin,unused-import
from builtins import bytes, super
from typing import AnyStr, Optional, Type
from future.utils import bytes_to_native_str
# pylint: disable=no-name-in-module
from _libolm import ffi, lib # type: ignore
from ._compat import URANDOM, to_bytes
from ._finalize import track_for_finalization
# This is imported only for type checking purposes
if False:
from .account import Account # pragma: no cover
class OlmSessionError(Exception):
"""libolm Session exception."""
class _OlmMessage(object):
def __init__(self, ciphertext, message_type):
# type: (AnyStr, ffi.cdata) -> None
if not ciphertext:
raise ValueError("Ciphertext can't be empty")
# I don't know why mypy wants a type annotation here nor why AnyStr
# doesn't work
self.ciphertext = ciphertext # type: ignore
self.message_type = message_type
def __str__(self):
# type: () -> str
type_to_prefix = {
lib.OLM_MESSAGE_TYPE_PRE_KEY: "PRE_KEY",
lib.OLM_MESSAGE_TYPE_MESSAGE: "MESSAGE"
}
prefix = type_to_prefix[self.message_type]
return "{} {}".format(prefix, self.ciphertext)
class OlmPreKeyMessage(_OlmMessage):
"""Olm prekey message class
Prekey messages are used to establish an Olm session. After the first
message exchange the session switches to normal messages
"""
def __init__(self, ciphertext):
# type: (AnyStr) -> None
"""Create a new Olm prekey message with the supplied ciphertext
Args:
ciphertext(str): The ciphertext of the prekey message.
"""
_OlmMessage.__init__(self, ciphertext, lib.OLM_MESSAGE_TYPE_PRE_KEY)
def __repr__(self):
# type: () -> str
return "OlmPreKeyMessage({})".format(self.ciphertext)
class OlmMessage(_OlmMessage):
"""Olm message class"""
def __init__(self, ciphertext):
# type: (AnyStr) -> None
"""Create a new Olm message with the supplied ciphertext
Args:
ciphertext(str): The ciphertext of the message.
"""
_OlmMessage.__init__(self, ciphertext, lib.OLM_MESSAGE_TYPE_MESSAGE)
def __repr__(self):
# type: () -> str
return "OlmMessage({})".format(self.ciphertext)
def _clear_session(session):
# type: (ffi.cdata) -> None
lib.olm_clear_session(session)
class Session(object):
"""libolm Session class.
This is an abstract class that can't be instantiated except when unpickling
a previously pickled InboundSession or OutboundSession object with
from_pickle.
"""
def __new__(cls):
# type: (Type[Session]) -> Session
obj = super().__new__(cls)
obj._buf = ffi.new("char[]", lib.olm_session_size())
obj._session = lib.olm_session(obj._buf)
track_for_finalization(obj, obj._session, _clear_session)
return obj
def __init__(self):
# type: () -> None
if type(self) is Session:
raise TypeError("Session class may not be instantiated.")
if False:
self._session = self._session # type: ffi.cdata
def _check_error(self, ret):
# type: (int) -> None
if ret != lib.olm_error():
return
last_error = bytes_to_native_str(
ffi.string(lib.olm_session_last_error(self._session)))
raise OlmSessionError(last_error)
def pickle(self, passphrase=""):
# type: (Optional[str]) -> bytes
"""Store an Olm session.
Stores a session as a base64 string. Encrypts the session using the
supplied passphrase. Returns a byte object containing the base64
encoded string of the pickled session. Raises OlmSessionError on
failure.
Args:
passphrase(str, optional): The passphrase to be used to encrypt
the session.
"""
byte_key = bytes(passphrase, "utf-8") if passphrase else b""
key_buffer = ffi.new("char[]", byte_key)
pickle_length = lib.olm_pickle_session_length(self._session)
pickle_buffer = ffi.new("char[]", pickle_length)
self._check_error(
lib.olm_pickle_session(self._session, key_buffer, len(byte_key),
pickle_buffer, pickle_length))
return ffi.unpack(pickle_buffer, pickle_length)
@classmethod
def from_pickle(cls, pickle, passphrase=""):
# type: (bytes, Optional[str]) -> Session
"""Load a previously stored Olm session.
Loads a session from a pickled base64 string and returns a Session
object. Decrypts the session using the supplied passphrase. Raises
OlmSessionError on failure. If the passphrase doesn't match the one
used to encrypt the session then the error message for the
exception will be "BAD_ACCOUNT_KEY". If the base64 couldn't be decoded
then the error message will be "INVALID_BASE64".
Args:
pickle(bytes): Base64 encoded byte string containing the pickled
session
passphrase(str, optional): The passphrase used to encrypt the
session.
"""
if not pickle:
raise ValueError("Pickle can't be empty")
byte_key = bytes(passphrase, "utf-8") if passphrase else b""
key_buffer = ffi.new("char[]", byte_key)
pickle_buffer = ffi.new("char[]", pickle)
session = cls.__new__(cls)
ret = lib.olm_unpickle_session(session._session, key_buffer,
len(byte_key), pickle_buffer,
len(pickle))
session._check_error(ret)
return session
def encrypt(self, plaintext):
# type: (AnyStr) -> _OlmMessage
"""Encrypts a message using the session. Returns the ciphertext as a
base64 encoded string on success. Raises OlmSessionError on failure. If
there weren't enough random bytes to encrypt the message the error
message for the exception will be NOT_ENOUGH_RANDOM.
Args:
plaintext(str): The plaintext message that will be encrypted.
"""
byte_plaintext = to_bytes(plaintext)
r_length = lib.olm_encrypt_random_length(self._session)
random = URANDOM(r_length)
random_buffer = ffi.new("char[]", random)
message_type = lib.olm_encrypt_message_type(self._session)
self._check_error(message_type)
ciphertext_length = lib.olm_encrypt_message_length(
self._session, len(plaintext)
)
ciphertext_buffer = ffi.new("char[]", ciphertext_length)
plaintext_buffer = ffi.new("char[]", byte_plaintext)
self._check_error(lib.olm_encrypt(
self._session,
plaintext_buffer, len(byte_plaintext),
random_buffer, r_length,
ciphertext_buffer, ciphertext_length,
))
if message_type == lib.OLM_MESSAGE_TYPE_PRE_KEY:
return OlmPreKeyMessage(
bytes_to_native_str(ffi.unpack(
ciphertext_buffer,
ciphertext_length
)))
elif message_type == lib.OLM_MESSAGE_TYPE_MESSAGE:
return OlmMessage(
bytes_to_native_str(ffi.unpack(
ciphertext_buffer,
ciphertext_length
)))
else: # pragma: no cover
raise ValueError("Unknown message type")
def decrypt(self, message):
# type: (_OlmMessage) -> str
"""Decrypts a message using the session. Returns the plaintext string
on success. Raises OlmSessionError on failure. If the base64 couldn't
be decoded then the error message will be "INVALID_BASE64". If the
message is for an unsupported version of the protocol the error message
will be "BAD_MESSAGE_VERSION". If the message couldn't be decoded then
the error message will be "BAD_MESSAGE_FORMAT". If the MAC on the
message was invalid then the error message will be "BAD_MESSAGE_MAC".
Args:
message(OlmMessage): The Olm message that will be decrypted. It can
be either an OlmPreKeyMessage or an OlmMessage.
"""
if not message.ciphertext:
raise ValueError("Ciphertext can't be empty")
byte_ciphertext = to_bytes(message.ciphertext)
ciphertext_buffer = ffi.new("char[]", byte_ciphertext)
max_plaintext_length = lib.olm_decrypt_max_plaintext_length(
self._session, message.message_type, ciphertext_buffer,
len(byte_ciphertext)
)
plaintext_buffer = ffi.new("char[]", max_plaintext_length)
ciphertext_buffer = ffi.new("char[]", byte_ciphertext)
plaintext_length = lib.olm_decrypt(
self._session, message.message_type, ciphertext_buffer,
len(byte_ciphertext), plaintext_buffer, max_plaintext_length
)
self._check_error(plaintext_length)
return bytes_to_native_str(
ffi.unpack(plaintext_buffer, plaintext_length))
@property
def id(self):
# type: () -> str
"""str: An identifier for this session. Will be the same for both
ends of the conversation.
"""
id_length = lib.olm_session_id_length(self._session)
id_buffer = ffi.new("char[]", id_length)
self._check_error(
lib.olm_session_id(self._session, id_buffer, id_length)
)
return bytes_to_native_str(ffi.unpack(id_buffer, id_length))
def matches(self, message, identity_key=None):
# type: (OlmPreKeyMessage, Optional[AnyStr]) -> bool
"""Checks if the PRE_KEY message is for this in-bound session.
This can happen if multiple messages are sent to this session before
this session sends a message in reply. Returns True if the session
matches. Returns False if the session does not match. Raises
OlmSessionError on failure. If the base64 couldn't be decoded then the
error message will be "INVALID_BASE64". If the message was for an
unsupported protocol version then the error message will be
"BAD_MESSAGE_VERSION". If the message couldn't be decoded then then the
error message will be * "BAD_MESSAGE_FORMAT".
Args:
message(OlmPreKeyMessage): The Olm prekey message that will checked
if it is intended for this session.
identity_key(str, optional): The identity key of the sender. To
check if the message was also sent using this identity key.
"""
if not isinstance(message, OlmPreKeyMessage):
raise TypeError("Matches can only be called with prekey messages.")
if not message.ciphertext:
raise ValueError("Ciphertext can't be empty")
ret = None
byte_ciphertext = to_bytes(message.ciphertext)
message_buffer = ffi.new("char[]", byte_ciphertext)
if identity_key:
byte_id_key = to_bytes(identity_key)
identity_key_buffer = ffi.new("char[]", byte_id_key)
ret = lib.olm_matches_inbound_session_from(
self._session,
identity_key_buffer, len(byte_id_key),
message_buffer, len(byte_ciphertext)
)
else:
ret = lib.olm_matches_inbound_session(
self._session,
message_buffer, len(byte_ciphertext))
self._check_error(ret)
return bool(ret)
class InboundSession(Session):
"""Inbound Olm session for p2p encrypted communication.
"""
def __new__(cls, account, message, identity_key=None):
# type: (Account, OlmPreKeyMessage, Optional[AnyStr]) -> Session
return super().__new__(cls)
def __init__(self, account, message, identity_key=None):
# type: (Account, OlmPreKeyMessage, Optional[AnyStr]) -> None
"""Create a new inbound Olm session.
Create a new in-bound session for sending/receiving messages from an
incoming prekey message. Raises OlmSessionError on failure. If the
base64 couldn't be decoded then error message will be "INVALID_BASE64".
If the message was for an unsupported protocol version then
the errror message will be "BAD_MESSAGE_VERSION". If the message
couldn't be decoded then then the error message will be
"BAD_MESSAGE_FORMAT". If the message refers to an unknown one-time
key then the error message will be "BAD_MESSAGE_KEY_ID".
Args:
account(Account): The Olm Account that will be used to create this
session.
message(OlmPreKeyMessage): The Olm prekey message that will checked
that will be used to create this session.
identity_key(str, optional): The identity key of the sender. To
check if the message was also sent using this identity key.
"""
if not message.ciphertext:
raise ValueError("Ciphertext can't be empty")
super().__init__()
byte_ciphertext = to_bytes(message.ciphertext)
message_buffer = ffi.new("char[]", byte_ciphertext)
if identity_key:
byte_id_key = to_bytes(identity_key)
identity_key_buffer = ffi.new("char[]", byte_id_key)
self._check_error(lib.olm_create_inbound_session_from(
self._session,
account._account,
identity_key_buffer, len(byte_id_key),
message_buffer, len(byte_ciphertext)
))
else:
self._check_error(lib.olm_create_inbound_session(
self._session,
account._account,
message_buffer, len(byte_ciphertext)
))
class OutboundSession(Session):
"""Outbound Olm session for p2p encrypted communication."""
def __new__(cls, account, identity_key, one_time_key):
# type: (Account, AnyStr, AnyStr) -> Session
return super().__new__(cls)
def __init__(self, account, identity_key, one_time_key):
# type: (Account, AnyStr, AnyStr) -> None
"""Create a new outbound Olm session.
Creates a new outbound session for sending messages to a given
identity key and one-time key.
Raises OlmSessionError on failure. If the keys couldn't be decoded as
base64 then the error message will be "INVALID_BASE64". If there
weren't enough random bytes for the session creation the error message
for the exception will be NOT_ENOUGH_RANDOM.
Args:
account(Account): The Olm Account that will be used to create this
session.
identity_key(str): The identity key of the person with whom we want
to start the session.
one_time_key(str): A one-time key from the person with whom we want
to start the session.
"""
if not identity_key:
raise ValueError("Identity key can't be empty")
if not one_time_key:
raise ValueError("One-time key can't be empty")
super().__init__()
byte_id_key = to_bytes(identity_key)
byte_one_time = to_bytes(one_time_key)
session_random_length = lib.olm_create_outbound_session_random_length(
self._session)
random = URANDOM(session_random_length)
random_buffer = ffi.new("char[]", random)
identity_key_buffer = ffi.new("char[]", byte_id_key)
one_time_key_buffer = ffi.new("char[]", byte_one_time)
self._check_error(lib.olm_create_outbound_session(
self._session,
account._account,
identity_key_buffer, len(byte_id_key),
one_time_key_buffer, len(byte_one_time),
random_buffer, session_random_length
))
|