/* * PKCS #5 PBES2 * (C) 1999-2008 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Botan { /* * Encrypt some bytes using PBES2 */ void PBE_PKCS5v20::write(const byte input[], size_t length) { while(length) { size_t put = std::min(DEFAULT_BUFFERSIZE, length); pipe.write(input, length); flush_pipe(true); length -= put; } } /* * Start encrypting with PBES2 */ void PBE_PKCS5v20::start_msg() { if(direction == ENCRYPTION) pipe.append(new CBC_Encryption(block_cipher->clone(), new PKCS7_Padding, key, iv)); else pipe.append(new CBC_Decryption(block_cipher->clone(), new PKCS7_Padding, key, iv)); pipe.start_msg(); if(pipe.message_count() > 1) pipe.set_default_msg(pipe.default_msg() + 1); } /* * Finish encrypting with PBES2 */ void PBE_PKCS5v20::end_msg() { pipe.end_msg(); flush_pipe(false); pipe.reset(); } /* * Flush the pipe */ void PBE_PKCS5v20::flush_pipe(bool safe_to_skip) { if(safe_to_skip && pipe.remaining() < 64) return; SecureVector buffer(DEFAULT_BUFFERSIZE); while(pipe.remaining()) { size_t got = pipe.read(&buffer[0], buffer.size()); send(buffer, got); } } /* * Set the passphrase to use */ void PBE_PKCS5v20::set_key(const std::string& passphrase) { PKCS5_PBKDF2 pbkdf(new HMAC(hash_function->clone())); key = pbkdf.derive_key(key_length, passphrase, &salt[0], salt.size(), iterations).bits_of(); } /* * Create a new set of PBES2 parameters */ void PBE_PKCS5v20::new_params(RandomNumberGenerator& rng) { iterations = 10000; key_length = block_cipher->MAXIMUM_KEYLENGTH; salt = rng.random_vec(12); iv = rng.random_vec(block_cipher->BLOCK_SIZE); } /* * Encode PKCS#5 PBES2 parameters */ MemoryVector PBE_PKCS5v20::encode_params() const { return DER_Encoder() .start_cons(SEQUENCE) .encode( AlgorithmIdentifier("PKCS5.PBKDF2", DER_Encoder() .start_cons(SEQUENCE) .encode(salt, OCTET_STRING) .encode(iterations) .encode(key_length) .end_cons() .get_contents() ) ) .encode( AlgorithmIdentifier(block_cipher->name() + "/CBC", DER_Encoder() .encode(iv, OCTET_STRING) .get_contents() ) ) .end_cons() .get_contents(); } /* * Decode PKCS#5 PBES2 parameters */ void PBE_PKCS5v20::decode_params(DataSource& source) { AlgorithmIdentifier kdf_algo, enc_algo; BER_Decoder(source) .start_cons(SEQUENCE) .decode(kdf_algo) .decode(enc_algo) .verify_end() .end_cons(); if(kdf_algo.oid == OIDS::lookup("PKCS5.PBKDF2")) { BER_Decoder(kdf_algo.parameters) .start_cons(SEQUENCE) .decode(salt, OCTET_STRING) .decode(iterations) .decode_optional(key_length, INTEGER, UNIVERSAL) .verify_end() .end_cons(); } else throw Decoding_Error("PBE-PKCS5 v2.0: Unknown KDF algorithm " + kdf_algo.oid.as_string()); Algorithm_Factory& af = global_state().algorithm_factory(); std::string cipher = OIDS::lookup(enc_algo.oid); std::vector cipher_spec = split_on(cipher, '/'); if(cipher_spec.size() != 2) throw Decoding_Error("PBE-PKCS5 v2.0: Invalid cipher spec " + cipher); if(!known_cipher(cipher_spec[0]) || cipher_spec[1] != "CBC") throw Decoding_Error("PBE-PKCS5 v2.0: Don't know param format for " + cipher); BER_Decoder(enc_algo.parameters).decode(iv, OCTET_STRING).verify_end(); block_cipher = af.make_block_cipher(cipher_spec[0]); hash_function = af.make_hash_function("SHA-160"); if(key_length == 0) key_length = block_cipher->MAXIMUM_KEYLENGTH; if(salt.size() < 8) throw Decoding_Error("PBE-PKCS5 v2.0: Encoded salt is too small"); } /* * Return an OID for PBES2 */ OID PBE_PKCS5v20::get_oid() const { return OIDS::lookup("PBE-PKCS5v20"); } /* * Check if this is a known PBES2 cipher */ bool PBE_PKCS5v20::known_cipher(const std::string& algo) { if(algo == "AES-128" || algo == "AES-192" || algo == "AES-256") return true; if(algo == "DES" || algo == "TripleDES") return true; return false; } std::string PBE_PKCS5v20::name() const { return "PBE-PKCS5v20(" + block_cipher->name() + "," + hash_function->name() + ")"; } /* * PKCS#5 v2.0 PBE Constructor */ PBE_PKCS5v20::PBE_PKCS5v20(BlockCipher* cipher, HashFunction* digest) : direction(ENCRYPTION), block_cipher(cipher), hash_function(digest) { if(!known_cipher(block_cipher->name())) throw Invalid_Argument("PBE-PKCS5 v2.0: Invalid cipher " + cipher->name()); if(hash_function->name() != "SHA-160") throw Invalid_Argument("PBE-PKCS5 v2.0: Invalid digest " + digest->name()); } /* * PKCS#5 v2.0 PBE Constructor */ PBE_PKCS5v20::PBE_PKCS5v20(DataSource& params) : direction(DECRYPTION) { hash_function = 0; block_cipher = 0; decode_params(params); } PBE_PKCS5v20::~PBE_PKCS5v20() { delete hash_function; delete block_cipher; } }