/* * Passhash9 Password Hashing * (C) 2010 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include namespace Botan { namespace { const std::string MAGIC_PREFIX = "$9$"; const size_t WORKFACTOR_BYTES = 2; const size_t ALGID_BYTES = 1; const size_t SALT_BYTES = 12; // 96 bits of salt const size_t PASSHASH9_PBKDF_OUTPUT_LEN = 24; // 192 bits output const size_t WORK_FACTOR_SCALE = 10000; MessageAuthenticationCode* get_pbkdf_prf(byte alg_id) { Algorithm_Factory& af = global_state().algorithm_factory(); try { if(alg_id == 0) return af.make_mac("HMAC(SHA-1)"); else if(alg_id == 1) return af.make_mac("HMAC(SHA-256)"); else if(alg_id == 2) return af.make_mac("CMAC(Blowfish)"); } catch(Algorithm_Not_Found) {} return nullptr; } } std::string generate_passhash9(const std::string& pass, RandomNumberGenerator& rng, u16bit work_factor, byte alg_id) { MessageAuthenticationCode* prf = get_pbkdf_prf(alg_id); if(!prf) throw Invalid_Argument("Passhash9: Algorithm id " + std::to_string(alg_id) + " is not defined"); PKCS5_PBKDF2 kdf(prf); // takes ownership of pointer secure_vector salt(SALT_BYTES); rng.randomize(&salt[0], salt.size()); const size_t kdf_iterations = WORK_FACTOR_SCALE * work_factor; secure_vector pbkdf2_output = kdf.derive_key(PASSHASH9_PBKDF_OUTPUT_LEN, pass, &salt[0], salt.size(), kdf_iterations).bits_of(); Pipe pipe(new Base64_Encoder); pipe.start_msg(); pipe.write(alg_id); pipe.write(get_byte(0, work_factor)); pipe.write(get_byte(1, work_factor)); pipe.write(salt); pipe.write(pbkdf2_output); pipe.end_msg(); return MAGIC_PREFIX + pipe.read_all_as_string(); } bool check_passhash9(const std::string& pass, const std::string& hash) { const size_t BINARY_LENGTH = ALGID_BYTES + WORKFACTOR_BYTES + PASSHASH9_PBKDF_OUTPUT_LEN + SALT_BYTES; const size_t BASE64_LENGTH = MAGIC_PREFIX.size() + (BINARY_LENGTH * 8) / 6; if(hash.size() != BASE64_LENGTH) return false; for(size_t i = 0; i != MAGIC_PREFIX.size(); ++i) if(hash[i] != MAGIC_PREFIX[i]) return false; Pipe pipe(new Base64_Decoder); pipe.start_msg(); pipe.write(hash.c_str() + MAGIC_PREFIX.size()); pipe.end_msg(); secure_vector bin = pipe.read_all(); if(bin.size() != BINARY_LENGTH) return false; byte alg_id = bin[0]; const size_t kdf_iterations = WORK_FACTOR_SCALE * load_be(&bin[ALGID_BYTES], 0); if(kdf_iterations == 0) return false; MessageAuthenticationCode* pbkdf_prf = get_pbkdf_prf(alg_id); if(!pbkdf_prf) return false; // unknown algorithm, reject PKCS5_PBKDF2 kdf(pbkdf_prf); // takes ownership of pointer secure_vector cmp = kdf.derive_key( PASSHASH9_PBKDF_OUTPUT_LEN, pass, &bin[ALGID_BYTES + WORKFACTOR_BYTES], SALT_BYTES, kdf_iterations).bits_of(); return same_mem(&cmp[0], &bin[ALGID_BYTES + WORKFACTOR_BYTES + SALT_BYTES], PASSHASH9_PBKDF_OUTPUT_LEN); } }