/* * Copyright (C) 2014 Martin Willi * Copyright (C) 2014 revosec AG * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include "tls_aead.h" #include typedef struct private_tls_aead_t private_tls_aead_t; /** * Private data of an tls_aead_t object. */ struct private_tls_aead_t { /** * Public tls_aead_t interface. */ tls_aead_t public; /** * AEAD transform */ aead_t *aead; /** * Size of salt, the implicit nonce */ size_t salt; }; /** * Associated header data to create signature over */ typedef struct __attribute__((__packed__)) { u_int64_t seq; u_int8_t type; u_int16_t version; u_int16_t length; } sigheader_t; METHOD(tls_aead_t, encrypt, bool, private_tls_aead_t *this, tls_version_t version, tls_content_type_t type, u_int64_t seq, chunk_t *data) { chunk_t assoc, encrypted, iv, plain; u_int8_t icvlen; sigheader_t hdr; iv_gen_t *gen; gen = this->aead->get_iv_gen(this->aead); iv.len = this->aead->get_iv_size(this->aead); icvlen = this->aead->get_icv_size(this->aead); encrypted = chunk_alloc(iv.len + data->len + icvlen); iv.ptr = encrypted.ptr; if (!gen->get_iv(gen, seq, iv.len, iv.ptr)) { chunk_free(&encrypted); return FALSE; } memcpy(encrypted.ptr + iv.len, data->ptr, data->len); plain = chunk_skip(encrypted, iv.len); plain.len -= icvlen; hdr.type = type; htoun64(&hdr.seq, seq); htoun16(&hdr.version, version); htoun16(&hdr.length, plain.len); assoc = chunk_from_thing(hdr); if (!this->aead->encrypt(this->aead, plain, assoc, iv, NULL)) { chunk_free(&encrypted); return FALSE; } chunk_free(data); *data = encrypted; return TRUE; } METHOD(tls_aead_t, decrypt, bool, private_tls_aead_t *this, tls_version_t version, tls_content_type_t type, u_int64_t seq, chunk_t *data) { chunk_t assoc, iv; u_int8_t icvlen; sigheader_t hdr; iv.len = this->aead->get_iv_size(this->aead); if (data->len < iv.len) { return FALSE; } iv.ptr = data->ptr; *data = chunk_skip(*data, iv.len); icvlen = this->aead->get_icv_size(this->aead); if (data->len < icvlen) { return FALSE; } hdr.type = type; htoun64(&hdr.seq, seq); htoun16(&hdr.version, version); htoun16(&hdr.length, data->len - icvlen); assoc = chunk_from_thing(hdr); if (!this->aead->decrypt(this->aead, *data, assoc, iv, NULL)) { return FALSE; } data->len -= icvlen; return TRUE; } METHOD(tls_aead_t, get_mac_key_size, size_t, private_tls_aead_t *this) { return 0; } METHOD(tls_aead_t, get_encr_key_size, size_t, private_tls_aead_t *this) { return this->aead->get_key_size(this->aead) - this->salt; } METHOD(tls_aead_t, get_iv_size, size_t, private_tls_aead_t *this) { return this->salt; } METHOD(tls_aead_t, set_keys, bool, private_tls_aead_t *this, chunk_t mac, chunk_t encr, chunk_t iv) { chunk_t key; if (mac.len) { return FALSE; } key = chunk_cata("cc", encr, iv); return this->aead->set_key(this->aead, key); } METHOD(tls_aead_t, destroy, void, private_tls_aead_t *this) { this->aead->destroy(this->aead); free(this); } /** * See header */ tls_aead_t *tls_aead_create_aead(encryption_algorithm_t encr, size_t encr_size) { private_tls_aead_t *this; size_t salt; switch (encr) { case ENCR_AES_GCM_ICV8: case ENCR_AES_GCM_ICV12: case ENCR_AES_GCM_ICV16: case ENCR_AES_CCM_ICV8: case ENCR_AES_CCM_ICV12: case ENCR_AES_CCM_ICV16: case ENCR_CAMELLIA_CCM_ICV8: case ENCR_CAMELLIA_CCM_ICV12: case ENCR_CAMELLIA_CCM_ICV16: salt = 4; break; default: return NULL; } INIT(this, .public = { .encrypt = _encrypt, .decrypt = _decrypt, .get_mac_key_size = _get_mac_key_size, .get_encr_key_size = _get_encr_key_size, .get_iv_size = _get_iv_size, .set_keys = _set_keys, .destroy = _destroy, }, .aead = lib->crypto->create_aead(lib->crypto, encr, encr_size, salt), .salt = salt, ); if (!this->aead) { free(this); return NULL; } if (this->aead->get_block_size(this->aead) != 1) { /* TLS does not define any padding scheme for AEAD */ destroy(this); return NULL; } return &this->public; }