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author | Hubert Chathi <hubert@uhoreg.ca> | 2019-04-08 15:08:17 -0400 |
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committer | GitHub <noreply@github.com> | 2019-04-08 15:08:17 -0400 |
commit | 2a6400716c1e17b65507cd2a433192f81cd402df (patch) | |
tree | eb034ad74fab1e337b422d387e8e9a8b62bfb098 /python/olm/pk.py | |
parent | fcfa5f12a4cd482973fdf03000af4a26a360dc2e (diff) | |
parent | 709687a7b56d6768831766459940b6f0bb078d85 (diff) |
Merge branch 'master' into poljar/python-sas
Diffstat (limited to 'python/olm/pk.py')
-rw-r--r-- | python/olm/pk.py | 346 |
1 files changed, 346 insertions, 0 deletions
diff --git a/python/olm/pk.py b/python/olm/pk.py new file mode 100644 index 0000000..b67d5a4 --- /dev/null +++ b/python/olm/pk.py @@ -0,0 +1,346 @@ +# -*- coding: utf-8 -*- +# libolm python bindings +# Copyright © 2018 Damir Jelić <poljar@termina.org.uk> +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. +"""libolm PK module. + +This module contains bindings to the PK part of the Olm library. +It contains two classes PkDecryption and PkEncryption that are used to +establish an encrypted communication channel using public key encryption. + +Examples: + >>> decryption = PkDecryption() + >>> encryption = PkEncryption(decryption.public_key) + >>> plaintext = "It's a secret to everybody." + >>> message = encryption.encrypt(plaintext) + >>> decrypted_plaintext = decryption.decrypt(message) + +""" + +from builtins import super +from typing import AnyStr, Type +from future.utils import bytes_to_native_str + +from _libolm import ffi, lib # type: ignore +from ._finalize import track_for_finalization +from ._compat import URANDOM, to_bytearray + + +class PkEncryptionError(Exception): + """libolm Pk encryption exception.""" + + +class PkDecryptionError(Exception): + """libolm Pk decryption exception.""" + + +def _clear_pk_encryption(pk_struct): + lib.olm_clear_pk_encryption(pk_struct) + + +class PkMessage(object): + """A PK encrypted message.""" + + def __init__(self, ephemeral_key, mac, ciphertext): + # type: (str, str, str) -> None + """Create a new PK encrypted message. + + Args: + ephemeral_key(str): the public part of the ephemeral key + used (together with the recipient's key) to generate a symmetric + encryption key. + mac(str): Message Authentication Code of the encrypted message + ciphertext(str): The cipher text of the encrypted message + """ + self.ephemeral_key = ephemeral_key + self.mac = mac + self.ciphertext = ciphertext + + +class PkEncryption(object): + """PkEncryption class. + + Represents the decryption part of a PK encrypted channel. + """ + + def __init__(self, recipient_key): + # type: (AnyStr) -> None + """Create a new PK encryption object. + + Args: + recipient_key(str): a public key that will be used for encryption + """ + if not recipient_key: + raise ValueError("Recipient key can't be empty") + + self._buf = ffi.new("char[]", lib.olm_pk_encryption_size()) + self._pk_encryption = lib.olm_pk_encryption(self._buf) + track_for_finalization(self, self._pk_encryption, _clear_pk_encryption) + + byte_key = to_bytearray(recipient_key) + lib.olm_pk_encryption_set_recipient_key( + self._pk_encryption, + ffi.from_buffer(byte_key), + len(byte_key) + ) + + # clear out copies of the key + if byte_key is not recipient_key: # pragma: no cover + for i in range(0, len(byte_key)): + byte_key[i] = 0 + + def _check_error(self, ret): # pragma: no cover + # type: (int) -> None + if ret != lib.olm_error(): + return + + last_error = bytes_to_native_str( + ffi.string(lib.olm_pk_encryption_last_error(self._pk_encryption))) + + raise PkEncryptionError(last_error) + + def encrypt(self, plaintext): + # type: (AnyStr) -> PkMessage + """Encrypt a message. + + Returns the encrypted PkMessage. + + Args: + plaintext(str): A string that will be encrypted using the + PkEncryption object. + """ + byte_plaintext = to_bytearray(plaintext) + + r_length = lib.olm_pk_encrypt_random_length(self._pk_encryption) + random = URANDOM(r_length) + random_buffer = ffi.new("char[]", random) + + ciphertext_length = lib.olm_pk_ciphertext_length( + self._pk_encryption, len(byte_plaintext) + ) + ciphertext = ffi.new("char[]", ciphertext_length) + + mac_length = lib.olm_pk_mac_length(self._pk_encryption) + mac = ffi.new("char[]", mac_length) + + ephemeral_key_size = lib.olm_pk_key_length() + ephemeral_key = ffi.new("char[]", ephemeral_key_size) + + ret = lib.olm_pk_encrypt( + self._pk_encryption, + ffi.from_buffer(byte_plaintext), len(byte_plaintext), + ciphertext, ciphertext_length, + mac, mac_length, + ephemeral_key, ephemeral_key_size, + random_buffer, r_length + ) + + try: + self._check_error(ret) + finally: # pragma: no cover + # clear out copies of plaintext + if byte_plaintext is not plaintext: + for i in range(0, len(byte_plaintext)): + byte_plaintext[i] = 0 + + message = PkMessage( + bytes_to_native_str( + ffi.unpack(ephemeral_key, ephemeral_key_size)), + bytes_to_native_str( + ffi.unpack(mac, mac_length)), + bytes_to_native_str( + ffi.unpack(ciphertext, ciphertext_length)) + ) + return message + + +def _clear_pk_decryption(pk_struct): + lib.olm_clear_pk_decryption(pk_struct) + + +class PkDecryption(object): + """PkDecryption class. + + Represents the decryption part of a PK encrypted channel. + + Attributes: + public_key (str): The public key of the PkDecryption object, can be + shared and used to create a PkEncryption object. + + """ + + def __new__(cls): + # type: (Type[PkDecryption]) -> PkDecryption + obj = super().__new__(cls) + obj._buf = ffi.new("char[]", lib.olm_pk_decryption_size()) + obj._pk_decryption = lib.olm_pk_decryption(obj._buf) + obj.public_key = None + track_for_finalization(obj, obj._pk_decryption, _clear_pk_decryption) + return obj + + def __init__(self): + if False: # pragma: no cover + self._pk_decryption = self._pk_decryption # type: ffi.cdata + + random_length = lib.olm_pk_private_key_length() + random = URANDOM(random_length) + random_buffer = ffi.new("char[]", random) + + key_length = lib.olm_pk_key_length() + key_buffer = ffi.new("char[]", key_length) + + ret = lib.olm_pk_key_from_private( + self._pk_decryption, + key_buffer, key_length, + random_buffer, random_length + ) + self._check_error(ret) + self.public_key = bytes_to_native_str(ffi.unpack( + key_buffer, + key_length + )) + + def _check_error(self, ret): + # type: (int) -> None + if ret != lib.olm_error(): + return + + last_error = bytes_to_native_str( + ffi.string(lib.olm_pk_decryption_last_error(self._pk_decryption))) + + raise PkDecryptionError(last_error) + + def pickle(self, passphrase=""): + # type: (str) -> bytes + """Store a PkDecryption object. + + Stores a PkDecryption object as a base64 string. Encrypts the object + using the supplied passphrase. Returns a byte object containing the + base64 encoded string of the pickled session. + + Args: + passphrase(str, optional): The passphrase to be used to encrypt + the object. + """ + byte_key = to_bytearray(passphrase) + + pickle_length = lib.olm_pickle_pk_decryption_length( + self._pk_decryption + ) + pickle_buffer = ffi.new("char[]", pickle_length) + + ret = lib.olm_pickle_pk_decryption( + self._pk_decryption, + ffi.from_buffer(byte_key), len(byte_key), + pickle_buffer, pickle_length + ) + try: + self._check_error(ret) + finally: + # zero out copies of the passphrase + for i in range(0, len(byte_key)): + byte_key[i] = 0 + + return ffi.unpack(pickle_buffer, pickle_length) + + @classmethod + def from_pickle(cls, pickle, passphrase=""): + # types: (bytes, str) -> PkDecryption + """Restore a previously stored PkDecryption object. + + Creates a PkDecryption object from a pickled base64 string. Decrypts + the pickled object using the supplied passphrase. + Raises PkDecryptionError 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 + PkDecryption object + passphrase(str, optional): The passphrase used to encrypt the + object + """ + if not pickle: + raise ValueError("Pickle can't be empty") + + byte_key = to_bytearray(passphrase) + pickle_buffer = ffi.new("char[]", pickle) + + pubkey_length = lib.olm_pk_key_length() + pubkey_buffer = ffi.new("char[]", pubkey_length) + + obj = cls.__new__(cls) + + ret = lib.olm_unpickle_pk_decryption( + obj._pk_decryption, + ffi.from_buffer(byte_key), len(byte_key), + pickle_buffer, len(pickle), + pubkey_buffer, pubkey_length) + + try: + obj._check_error(ret) + finally: + for i in range(0, len(byte_key)): + byte_key[i] = 0 + + obj.public_key = bytes_to_native_str(ffi.unpack( + pubkey_buffer, + pubkey_length + )) + + return obj + + def decrypt(self, message): + # type (PkMessage) -> str + """Decrypt a previously encrypted Pk message. + + Returns the decrypted plaintext. + Raises PkDecryptionError on failure. + + Args: + message(PkMessage): the pk message to decrypt. + """ + ephemeral_key = to_bytearray(message.ephemeral_key) + ephemeral_key_size = len(ephemeral_key) + + mac = to_bytearray(message.mac) + mac_length = len(mac) + + ciphertext = to_bytearray(message.ciphertext) + ciphertext_length = len(ciphertext) + + max_plaintext_length = lib.olm_pk_max_plaintext_length( + self._pk_decryption, + ciphertext_length + ) + plaintext_buffer = ffi.new("char[]", max_plaintext_length) + + ret = lib.olm_pk_decrypt( + self._pk_decryption, + ffi.from_buffer(ephemeral_key), ephemeral_key_size, + ffi.from_buffer(mac), mac_length, + ffi.from_buffer(ciphertext), ciphertext_length, + plaintext_buffer, max_plaintext_length) + self._check_error(ret) + + plaintext = (ffi.unpack( + plaintext_buffer, + ret + )) + + # clear out copies of the plaintext + lib.memset(plaintext_buffer, 0, max_plaintext_length) + + return bytes_to_native_str(plaintext) |