1d1a1f6a4SMatthias Ringwald /* 2d1a1f6a4SMatthias Ringwald * Copyright (C) 2017 BlueKitchen GmbH 3d1a1f6a4SMatthias Ringwald * 4d1a1f6a4SMatthias Ringwald * Redistribution and use in source and binary forms, with or without 5d1a1f6a4SMatthias Ringwald * modification, are permitted provided that the following conditions 6d1a1f6a4SMatthias Ringwald * are met: 7d1a1f6a4SMatthias Ringwald * 8d1a1f6a4SMatthias Ringwald * 1. Redistributions of source code must retain the above copyright 9d1a1f6a4SMatthias Ringwald * notice, this list of conditions and the following disclaimer. 10d1a1f6a4SMatthias Ringwald * 2. Redistributions in binary form must reproduce the above copyright 11d1a1f6a4SMatthias Ringwald * notice, this list of conditions and the following disclaimer in the 12d1a1f6a4SMatthias Ringwald * documentation and/or other materials provided with the distribution. 13d1a1f6a4SMatthias Ringwald * 3. Neither the name of the copyright holders nor the names of 14d1a1f6a4SMatthias Ringwald * contributors may be used to endorse or promote products derived 15d1a1f6a4SMatthias Ringwald * from this software without specific prior written permission. 16d1a1f6a4SMatthias Ringwald * 17d1a1f6a4SMatthias Ringwald * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD AND CONTRIBUTORS 18d1a1f6a4SMatthias Ringwald * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 19d1a1f6a4SMatthias Ringwald * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 20d1a1f6a4SMatthias Ringwald * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS 21d1a1f6a4SMatthias Ringwald * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 22d1a1f6a4SMatthias Ringwald * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 23d1a1f6a4SMatthias Ringwald * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 24d1a1f6a4SMatthias Ringwald * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 25d1a1f6a4SMatthias Ringwald * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 26d1a1f6a4SMatthias Ringwald * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 27d1a1f6a4SMatthias Ringwald * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28d1a1f6a4SMatthias Ringwald * SUCH DAMAGE. 29d1a1f6a4SMatthias Ringwald * 30d1a1f6a4SMatthias Ringwald */ 31d1a1f6a4SMatthias Ringwald 32d1a1f6a4SMatthias Ringwald #define __BTSTACK_FILE__ "btstack_crypto.c" 33d1a1f6a4SMatthias Ringwald 34d1a1f6a4SMatthias Ringwald /* 35d1a1f6a4SMatthias Ringwald * btstack_crypto.h 36d1a1f6a4SMatthias Ringwald * 37d1a1f6a4SMatthias Ringwald * Central place for all crypto-related functions with completion callbacks to allow 38d1a1f6a4SMatthias Ringwald * using of MCU crypto peripherals or the Bluetooth controller 39d1a1f6a4SMatthias Ringwald */ 40d1a1f6a4SMatthias Ringwald 41d1a1f6a4SMatthias Ringwald #include "btstack_crypto.h" 42d1a1f6a4SMatthias Ringwald 43d1a1f6a4SMatthias Ringwald #include "btstack_debug.h" 44d1a1f6a4SMatthias Ringwald #include "btstack_event.h" 45d1a1f6a4SMatthias Ringwald #include "btstack_linked_list.h" 46d1a1f6a4SMatthias Ringwald #include "btstack_util.h" 47d1a1f6a4SMatthias Ringwald #include "hci.h" 48d1a1f6a4SMatthias Ringwald 49d1a1f6a4SMatthias Ringwald // backwards-compatitility ENABLE_MICRO_ECC_FOR_LE_SECURE_CONNECTIONS -> ENABLE_MICRO_ECC_P256 50d1a1f6a4SMatthias Ringwald #if defined(ENABLE_MICRO_ECC_FOR_LE_SECURE_CONNECTIONS) && !defined(ENABLE_MICRO_ECC_P256) 51d1a1f6a4SMatthias Ringwald #define ENABLE_MICRO_ECC_P256 52d1a1f6a4SMatthias Ringwald #endif 53d1a1f6a4SMatthias Ringwald 54d1a1f6a4SMatthias Ringwald // configure ECC implementations 55d1a1f6a4SMatthias Ringwald #if defined(ENABLE_MICRO_ECC_P256) && defined(HAVE_MBEDTLS_ECC_P256) 56d1a1f6a4SMatthias Ringwald #error "If you have mbedTLS (HAVE_MBEDTLS_ECC_P256), please disable uECC (ENABLE_MICRO_ECC_P256) in bstack_config.h" 57d1a1f6a4SMatthias Ringwald #endif 58d1a1f6a4SMatthias Ringwald 59d1a1f6a4SMatthias Ringwald // Software ECC-P256 implementation provided by micro-ecc 60d1a1f6a4SMatthias Ringwald #ifdef ENABLE_MICRO_ECC_P256 61d1a1f6a4SMatthias Ringwald #define ENABLE_ECC_P256 62d1a1f6a4SMatthias Ringwald #define USE_MICRO_ECC_P256 63d1a1f6a4SMatthias Ringwald #define USE_SOFTWARE_ECC_P256_IMPLEMENTATION 64d1a1f6a4SMatthias Ringwald #include "uECC.h" 65d1a1f6a4SMatthias Ringwald #endif 66d1a1f6a4SMatthias Ringwald 67d1a1f6a4SMatthias Ringwald // Software ECC-P256 implementation provided by mbedTLS 68d1a1f6a4SMatthias Ringwald #ifdef HAVE_MBEDTLS_ECC_P256 69d1a1f6a4SMatthias Ringwald #define ENABLE_ECC_P256 70d1a1f6a4SMatthias Ringwald #define USE_MBEDTLS_ECC_P256 71d1a1f6a4SMatthias Ringwald #define USE_SOFTWARE_ECC_P256_IMPLEMENTATION 72d1a1f6a4SMatthias Ringwald #include "mbedtls/config.h" 73d1a1f6a4SMatthias Ringwald #include "mbedtls/platform.h" 74d1a1f6a4SMatthias Ringwald #include "mbedtls/ecp.h" 75d1a1f6a4SMatthias Ringwald #endif 76d1a1f6a4SMatthias Ringwald 77d1a1f6a4SMatthias Ringwald #if defined(ENABLE_LE_SECURE_CONNECTIONS) && !defined(ENABLE_ECC_P256) 78d1a1f6a4SMatthias Ringwald #define ENABLE_ECC_P256 79d1a1f6a4SMatthias Ringwald #endif 80d1a1f6a4SMatthias Ringwald 81d1a1f6a4SMatthias Ringwald // Software AES128 82d1a1f6a4SMatthias Ringwald #ifdef HAVE_AES128 83d1a1f6a4SMatthias Ringwald #define USE_BTSTACK_AES128 84d1a1f6a4SMatthias Ringwald void btstack_aes128_calc(const uint8_t * key, const uint8_t * plaintext, uint8_t * result); 85d1a1f6a4SMatthias Ringwald #endif 86d1a1f6a4SMatthias Ringwald 87577fe4dfSMatthias Ringwald // degbugging 88577fe4dfSMatthias Ringwald // #define DEBUG_CCM 89577fe4dfSMatthias Ringwald 90d1a1f6a4SMatthias Ringwald typedef enum { 91d1a1f6a4SMatthias Ringwald CMAC_IDLE, 92d1a1f6a4SMatthias Ringwald CMAC_CALC_SUBKEYS, 93d1a1f6a4SMatthias Ringwald CMAC_W4_SUBKEYS, 94d1a1f6a4SMatthias Ringwald CMAC_CALC_MI, 95d1a1f6a4SMatthias Ringwald CMAC_W4_MI, 96d1a1f6a4SMatthias Ringwald CMAC_CALC_MLAST, 97d1a1f6a4SMatthias Ringwald CMAC_W4_MLAST 98d1a1f6a4SMatthias Ringwald } btstack_crypto_cmac_state_t; 99d1a1f6a4SMatthias Ringwald 100d1a1f6a4SMatthias Ringwald typedef enum { 101d1a1f6a4SMatthias Ringwald ECC_P256_KEY_GENERATION_IDLE, 102d1a1f6a4SMatthias Ringwald ECC_P256_KEY_GENERATION_GENERATING_RANDOM, 103d1a1f6a4SMatthias Ringwald ECC_P256_KEY_GENERATION_ACTIVE, 104d1a1f6a4SMatthias Ringwald ECC_P256_KEY_GENERATION_W4_KEY, 105d1a1f6a4SMatthias Ringwald ECC_P256_KEY_GENERATION_DONE, 106d1a1f6a4SMatthias Ringwald } btstack_crypto_ecc_p256_key_generation_state_t; 107d1a1f6a4SMatthias Ringwald 108d1a1f6a4SMatthias Ringwald static void btstack_crypto_run(void); 109d1a1f6a4SMatthias Ringwald 110d1a1f6a4SMatthias Ringwald const static uint8_t zero[16] = { 0 }; 111d1a1f6a4SMatthias Ringwald 112d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_initialized; 113d1a1f6a4SMatthias Ringwald static btstack_linked_list_t btstack_crypto_operations; 114d1a1f6a4SMatthias Ringwald static btstack_packet_callback_registration_t hci_event_callback_registration; 115d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_wait_for_hci_result; 116d1a1f6a4SMatthias Ringwald 117d1a1f6a4SMatthias Ringwald // state for AES-CMAC 118d1a1f6a4SMatthias Ringwald static btstack_crypto_cmac_state_t btstack_crypto_cmac_state; 119d1a1f6a4SMatthias Ringwald static sm_key_t btstack_crypto_cmac_k; 120d1a1f6a4SMatthias Ringwald static sm_key_t btstack_crypto_cmac_x; 121d1a1f6a4SMatthias Ringwald static sm_key_t btstack_crypto_cmac_m_last; 122d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_cmac_block_current; 123d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_cmac_block_count; 124d1a1f6a4SMatthias Ringwald 125d1a1f6a4SMatthias Ringwald // state for AES-CCM 126ea478a83SMatthias Ringwald #ifndef USE_BTSTACK_AES128 127d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ccm_s[16]; 128ea478a83SMatthias Ringwald #endif 129d1a1f6a4SMatthias Ringwald 130d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 131d1a1f6a4SMatthias Ringwald 132d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ecc_p256_public_key[64]; 133d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ecc_p256_random[64]; 134d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ecc_p256_random_len; 135d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ecc_p256_random_offset; 136d1a1f6a4SMatthias Ringwald static btstack_crypto_ecc_p256_key_generation_state_t btstack_crypto_ecc_p256_key_generation_state; 137d1a1f6a4SMatthias Ringwald 138d1a1f6a4SMatthias Ringwald #ifdef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 139d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_ecc_p256_d[32]; 140d1a1f6a4SMatthias Ringwald #endif 141d1a1f6a4SMatthias Ringwald 1420b672f43SMatthias Ringwald // Software ECDH implementation provided by mbedtls 1430b672f43SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 1440b672f43SMatthias Ringwald static mbedtls_ecp_group mbedtls_ec_group; 1450b672f43SMatthias Ringwald #endif 1460b672f43SMatthias Ringwald 147d1a1f6a4SMatthias Ringwald #endif /* ENABLE_ECC_P256 */ 148d1a1f6a4SMatthias Ringwald 149d1a1f6a4SMatthias Ringwald static void btstack_crypto_done(btstack_crypto_t * btstack_crypto){ 150d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 151d1a1f6a4SMatthias Ringwald (*btstack_crypto->context_callback.callback)(btstack_crypto->context_callback.context); 152d1a1f6a4SMatthias Ringwald } 153d1a1f6a4SMatthias Ringwald 154d1a1f6a4SMatthias Ringwald static inline void btstack_crypto_cmac_next_state(void){ 155d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_state = (btstack_crypto_cmac_state_t) (((int)btstack_crypto_cmac_state) + 1); 156d1a1f6a4SMatthias Ringwald } 157d1a1f6a4SMatthias Ringwald 158d1a1f6a4SMatthias Ringwald static int btstack_crypto_cmac_last_block_complete(btstack_crypto_aes128_cmac_t * btstack_crypto_cmac){ 159d1a1f6a4SMatthias Ringwald uint16_t len = btstack_crypto_cmac->size; 160d1a1f6a4SMatthias Ringwald if (len == 0) return 0; 161d1a1f6a4SMatthias Ringwald return (len & 0x0f) == 0; 162d1a1f6a4SMatthias Ringwald } 163d1a1f6a4SMatthias Ringwald 164d1a1f6a4SMatthias Ringwald static void btstack_crypto_aes128_start(const sm_key_t key, const sm_key_t plaintext){ 165d1a1f6a4SMatthias Ringwald uint8_t key_flipped[16]; 166d1a1f6a4SMatthias Ringwald uint8_t plaintext_flipped[16]; 167d1a1f6a4SMatthias Ringwald reverse_128(key, key_flipped); 168d1a1f6a4SMatthias Ringwald reverse_128(plaintext, plaintext_flipped); 169d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 170d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_encrypt, key_flipped, plaintext_flipped); 171d1a1f6a4SMatthias Ringwald } 172d1a1f6a4SMatthias Ringwald 173d1a1f6a4SMatthias Ringwald static uint8_t btstack_crypto_cmac_get_byte(btstack_crypto_aes128_cmac_t * btstack_crypto_cmac, uint16_t pos){ 174d1a1f6a4SMatthias Ringwald if (btstack_crypto_cmac->btstack_crypto.operation == BTSTACK_CRYPTO_CMAC_GENERATOR){ 17559ab1655SMatthias Ringwald return (*btstack_crypto_cmac->data.get_byte_callback)(pos); 176d1a1f6a4SMatthias Ringwald } else { 17759ab1655SMatthias Ringwald return btstack_crypto_cmac->data.message[pos]; 178d1a1f6a4SMatthias Ringwald } 179d1a1f6a4SMatthias Ringwald } 180d1a1f6a4SMatthias Ringwald 181d1a1f6a4SMatthias Ringwald static void btstack_crypto_cmac_handle_aes_engine_ready(btstack_crypto_aes128_cmac_t * btstack_crypto_cmac){ 182d1a1f6a4SMatthias Ringwald switch (btstack_crypto_cmac_state){ 183d1a1f6a4SMatthias Ringwald case CMAC_CALC_SUBKEYS: { 184d1a1f6a4SMatthias Ringwald sm_key_t const_zero; 185d1a1f6a4SMatthias Ringwald memset(const_zero, 0, 16); 186d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_next_state(); 187d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_cmac_k, const_zero); 188d1a1f6a4SMatthias Ringwald break; 189d1a1f6a4SMatthias Ringwald } 190d1a1f6a4SMatthias Ringwald case CMAC_CALC_MI: { 191d1a1f6a4SMatthias Ringwald int j; 192d1a1f6a4SMatthias Ringwald sm_key_t y; 193d1a1f6a4SMatthias Ringwald for (j=0;j<16;j++){ 194d1a1f6a4SMatthias Ringwald y[j] = btstack_crypto_cmac_x[j] ^ btstack_crypto_cmac_get_byte(btstack_crypto_cmac, btstack_crypto_cmac_block_current*16 + j); 195d1a1f6a4SMatthias Ringwald } 196d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_block_current++; 197d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_next_state(); 198d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_cmac_k, y); 199d1a1f6a4SMatthias Ringwald break; 200d1a1f6a4SMatthias Ringwald } 201d1a1f6a4SMatthias Ringwald case CMAC_CALC_MLAST: { 202d1a1f6a4SMatthias Ringwald int i; 203d1a1f6a4SMatthias Ringwald sm_key_t y; 204d1a1f6a4SMatthias Ringwald for (i=0;i<16;i++){ 205d1a1f6a4SMatthias Ringwald y[i] = btstack_crypto_cmac_x[i] ^ btstack_crypto_cmac_m_last[i]; 206d1a1f6a4SMatthias Ringwald } 207d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_block_current++; 208d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_next_state(); 209d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_cmac_k, y); 210d1a1f6a4SMatthias Ringwald break; 211d1a1f6a4SMatthias Ringwald } 212d1a1f6a4SMatthias Ringwald default: 213d1a1f6a4SMatthias Ringwald log_info("btstack_crypto_cmac_handle_aes_engine_ready called in state %u", btstack_crypto_cmac_state); 214d1a1f6a4SMatthias Ringwald break; 215d1a1f6a4SMatthias Ringwald } 216d1a1f6a4SMatthias Ringwald } 217d1a1f6a4SMatthias Ringwald 218d1a1f6a4SMatthias Ringwald static void btstack_crypto_cmac_shift_left_by_one_bit_inplace(int len, uint8_t * data){ 219d1a1f6a4SMatthias Ringwald int i; 220d1a1f6a4SMatthias Ringwald int carry = 0; 221d1a1f6a4SMatthias Ringwald for (i=len-1; i >= 0 ; i--){ 222d1a1f6a4SMatthias Ringwald int new_carry = data[i] >> 7; 223d1a1f6a4SMatthias Ringwald data[i] = data[i] << 1 | carry; 224d1a1f6a4SMatthias Ringwald carry = new_carry; 225d1a1f6a4SMatthias Ringwald } 226d1a1f6a4SMatthias Ringwald } 227d1a1f6a4SMatthias Ringwald 228d1a1f6a4SMatthias Ringwald static void btstack_crypto_cmac_handle_encryption_result(btstack_crypto_aes128_cmac_t * btstack_crypto_cmac, sm_key_t data){ 229d1a1f6a4SMatthias Ringwald switch (btstack_crypto_cmac_state){ 230d1a1f6a4SMatthias Ringwald case CMAC_W4_SUBKEYS: { 231d1a1f6a4SMatthias Ringwald sm_key_t k1; 232d1a1f6a4SMatthias Ringwald memcpy(k1, data, 16); 233d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_shift_left_by_one_bit_inplace(16, k1); 234d1a1f6a4SMatthias Ringwald if (data[0] & 0x80){ 235d1a1f6a4SMatthias Ringwald k1[15] ^= 0x87; 236d1a1f6a4SMatthias Ringwald } 237d1a1f6a4SMatthias Ringwald sm_key_t k2; 238d1a1f6a4SMatthias Ringwald memcpy(k2, k1, 16); 239d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_shift_left_by_one_bit_inplace(16, k2); 240d1a1f6a4SMatthias Ringwald if (k1[0] & 0x80){ 241d1a1f6a4SMatthias Ringwald k2[15] ^= 0x87; 242d1a1f6a4SMatthias Ringwald } 243d1a1f6a4SMatthias Ringwald 244d1a1f6a4SMatthias Ringwald log_info_key("k", btstack_crypto_cmac_k); 245d1a1f6a4SMatthias Ringwald log_info_key("k1", k1); 246d1a1f6a4SMatthias Ringwald log_info_key("k2", k2); 247d1a1f6a4SMatthias Ringwald 248d1a1f6a4SMatthias Ringwald // step 4: set m_last 249d1a1f6a4SMatthias Ringwald int i; 250d1a1f6a4SMatthias Ringwald if (btstack_crypto_cmac_last_block_complete(btstack_crypto_cmac)){ 251d1a1f6a4SMatthias Ringwald for (i=0;i<16;i++){ 252d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_m_last[i] = btstack_crypto_cmac_get_byte(btstack_crypto_cmac, btstack_crypto_cmac->size - 16 + i) ^ k1[i]; 253d1a1f6a4SMatthias Ringwald } 254d1a1f6a4SMatthias Ringwald } else { 255d1a1f6a4SMatthias Ringwald int valid_octets_in_last_block = btstack_crypto_cmac->size & 0x0f; 256d1a1f6a4SMatthias Ringwald for (i=0;i<16;i++){ 257d1a1f6a4SMatthias Ringwald if (i < valid_octets_in_last_block){ 258d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_m_last[i] = btstack_crypto_cmac_get_byte(btstack_crypto_cmac, (btstack_crypto_cmac->size & 0xfff0) + i) ^ k2[i]; 259d1a1f6a4SMatthias Ringwald continue; 260d1a1f6a4SMatthias Ringwald } 261d1a1f6a4SMatthias Ringwald if (i == valid_octets_in_last_block){ 262d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_m_last[i] = 0x80 ^ k2[i]; 263d1a1f6a4SMatthias Ringwald continue; 264d1a1f6a4SMatthias Ringwald } 265d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_m_last[i] = k2[i]; 266d1a1f6a4SMatthias Ringwald } 267d1a1f6a4SMatthias Ringwald } 268d1a1f6a4SMatthias Ringwald 269d1a1f6a4SMatthias Ringwald // next 270d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_state = btstack_crypto_cmac_block_current < btstack_crypto_cmac_block_count - 1 ? CMAC_CALC_MI : CMAC_CALC_MLAST; 271d1a1f6a4SMatthias Ringwald break; 272d1a1f6a4SMatthias Ringwald } 273d1a1f6a4SMatthias Ringwald case CMAC_W4_MI: 274d1a1f6a4SMatthias Ringwald memcpy(btstack_crypto_cmac_x, data, 16); 275d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_state = btstack_crypto_cmac_block_current < btstack_crypto_cmac_block_count - 1 ? CMAC_CALC_MI : CMAC_CALC_MLAST; 276d1a1f6a4SMatthias Ringwald break; 277d1a1f6a4SMatthias Ringwald case CMAC_W4_MLAST: 278d1a1f6a4SMatthias Ringwald // done 279d1a1f6a4SMatthias Ringwald log_info("Setting CMAC Engine to IDLE"); 280d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_state = CMAC_IDLE; 281d1a1f6a4SMatthias Ringwald log_info_key("CMAC", data); 282d1a1f6a4SMatthias Ringwald memcpy(btstack_crypto_cmac->hash, data, 16); 283d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 284d1a1f6a4SMatthias Ringwald (*btstack_crypto_cmac->btstack_crypto.context_callback.callback)(btstack_crypto_cmac->btstack_crypto.context_callback.context); 285d1a1f6a4SMatthias Ringwald break; 286d1a1f6a4SMatthias Ringwald default: 287d1a1f6a4SMatthias Ringwald log_info("btstack_crypto_cmac_handle_encryption_result called in state %u", btstack_crypto_cmac_state); 288d1a1f6a4SMatthias Ringwald break; 289d1a1f6a4SMatthias Ringwald } 290d1a1f6a4SMatthias Ringwald } 291d1a1f6a4SMatthias Ringwald 292d1a1f6a4SMatthias Ringwald static void btstack_crypto_cmac_start(btstack_crypto_aes128_cmac_t * btstack_crypto_cmac){ 293d1a1f6a4SMatthias Ringwald 294d1a1f6a4SMatthias Ringwald memcpy(btstack_crypto_cmac_k, btstack_crypto_cmac->key, 16); 295d1a1f6a4SMatthias Ringwald memset(btstack_crypto_cmac_x, 0, 16); 296d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_block_current = 0; 297d1a1f6a4SMatthias Ringwald 298d1a1f6a4SMatthias Ringwald // step 2: n := ceil(len/const_Bsize); 299d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_block_count = (btstack_crypto_cmac->size + 15) / 16; 300d1a1f6a4SMatthias Ringwald 301d1a1f6a4SMatthias Ringwald // step 3: .. 302d1a1f6a4SMatthias Ringwald if (btstack_crypto_cmac_block_count==0){ 303d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_block_count = 1; 304d1a1f6a4SMatthias Ringwald } 305d1a1f6a4SMatthias Ringwald log_info("btstack_crypto_cmac_start: len %u, block count %u", btstack_crypto_cmac->size, btstack_crypto_cmac_block_count); 306d1a1f6a4SMatthias Ringwald 307d1a1f6a4SMatthias Ringwald // first, we need to compute l for k1, k2, and m_last 308d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_state = CMAC_CALC_SUBKEYS; 309d1a1f6a4SMatthias Ringwald 310d1a1f6a4SMatthias Ringwald // let's go 311d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_handle_aes_engine_ready(btstack_crypto_cmac); 312d1a1f6a4SMatthias Ringwald } 313d1a1f6a4SMatthias Ringwald 314ea478a83SMatthias Ringwald #ifndef USE_BTSTACK_AES128 315ea478a83SMatthias Ringwald 316d1a1f6a4SMatthias Ringwald /* 317d1a1f6a4SMatthias Ringwald To encrypt the message data we use Counter (CTR) mode. We first 318d1a1f6a4SMatthias Ringwald define the key stream blocks by: 319d1a1f6a4SMatthias Ringwald 320d1a1f6a4SMatthias Ringwald S_i := E( K, A_i ) for i=0, 1, 2, ... 321d1a1f6a4SMatthias Ringwald 322d1a1f6a4SMatthias Ringwald The values A_i are formatted as follows, where the Counter field i is 323d1a1f6a4SMatthias Ringwald encoded in most-significant-byte first order: 324d1a1f6a4SMatthias Ringwald 325d1a1f6a4SMatthias Ringwald Octet Number Contents 326d1a1f6a4SMatthias Ringwald ------------ --------- 327d1a1f6a4SMatthias Ringwald 0 Flags 328d1a1f6a4SMatthias Ringwald 1 ... 15-L Nonce N 329d1a1f6a4SMatthias Ringwald 16-L ... 15 Counter i 330d1a1f6a4SMatthias Ringwald 331d1a1f6a4SMatthias Ringwald Bit Number Contents 332d1a1f6a4SMatthias Ringwald ---------- ---------------------- 333d1a1f6a4SMatthias Ringwald 7 Reserved (always zero) 334d1a1f6a4SMatthias Ringwald 6 Reserved (always zero) 335d1a1f6a4SMatthias Ringwald 5 ... 3 Zero 336d1a1f6a4SMatthias Ringwald 2 ... 0 L' 337d1a1f6a4SMatthias Ringwald */ 338d1a1f6a4SMatthias Ringwald 339d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_setup_a_i(btstack_crypto_ccm_t * btstack_crypto_ccm, uint16_t counter){ 340d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_s[0] = 1; // L' = L - 1 341d1a1f6a4SMatthias Ringwald memcpy(&btstack_crypto_ccm_s[1], btstack_crypto_ccm->nonce, 13); 342d1a1f6a4SMatthias Ringwald big_endian_store_16(btstack_crypto_ccm_s, 14, counter); 343577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 344577fe4dfSMatthias Ringwald printf("tstack_crypto_ccm_setup_a_%u\n", counter); 345577fe4dfSMatthias Ringwald printf("%16s: ", "ai"); 346577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm_s, 16); 347577fe4dfSMatthias Ringwald #endif 348d1a1f6a4SMatthias Ringwald } 349d1a1f6a4SMatthias Ringwald 350d1a1f6a4SMatthias Ringwald /* 351d1a1f6a4SMatthias Ringwald The first step is to compute the authentication field T. This is 352d1a1f6a4SMatthias Ringwald done using CBC-MAC [MAC]. We first define a sequence of blocks B_0, 353d1a1f6a4SMatthias Ringwald B_1, ..., B_n and then apply CBC-MAC to these blocks. 354d1a1f6a4SMatthias Ringwald 355d1a1f6a4SMatthias Ringwald The first block B_0 is formatted as follows, where l(m) is encoded in 356d1a1f6a4SMatthias Ringwald most-significant-byte first order: 357d1a1f6a4SMatthias Ringwald 358d1a1f6a4SMatthias Ringwald Octet Number Contents 359d1a1f6a4SMatthias Ringwald ------------ --------- 360d1a1f6a4SMatthias Ringwald 0 Flags 361d1a1f6a4SMatthias Ringwald 1 ... 15-L Nonce N 362d1a1f6a4SMatthias Ringwald 16-L ... 15 l(m) 363d1a1f6a4SMatthias Ringwald 364d1a1f6a4SMatthias Ringwald Within the first block B_0, the Flags field is formatted as follows: 365d1a1f6a4SMatthias Ringwald 366d1a1f6a4SMatthias Ringwald Bit Number Contents 367d1a1f6a4SMatthias Ringwald ---------- ---------------------- 368d1a1f6a4SMatthias Ringwald 7 Reserved (always zero) 369d1a1f6a4SMatthias Ringwald 6 Adata 370d1a1f6a4SMatthias Ringwald 5 ... 3 M' 371d1a1f6a4SMatthias Ringwald 2 ... 0 L' 372d1a1f6a4SMatthias Ringwald */ 373d1a1f6a4SMatthias Ringwald 374d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_setup_b_0(btstack_crypto_ccm_t * btstack_crypto_ccm, uint8_t * b0){ 3756015e1edSMatthias Ringwald uint8_t m_prime = (btstack_crypto_ccm->auth_len - 2) / 2; 3766015e1edSMatthias Ringwald b0[0] = (m_prime << 3) | 1 ; // Adata = 0, M', L' = L - 1 377d1a1f6a4SMatthias Ringwald memcpy(&b0[1], btstack_crypto_ccm->nonce, 13); 378d1a1f6a4SMatthias Ringwald big_endian_store_16(b0, 14, btstack_crypto_ccm->message_len); 379577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 380577fe4dfSMatthias Ringwald printf("%16s: ", "B0"); 381577fe4dfSMatthias Ringwald printf_hexdump(b0, 16); 382577fe4dfSMatthias Ringwald #endif 383d1a1f6a4SMatthias Ringwald } 384ea478a83SMatthias Ringwald #endif 385d1a1f6a4SMatthias Ringwald 386d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 387d1a1f6a4SMatthias Ringwald 388d1a1f6a4SMatthias Ringwald static void btstack_crypto_log_ec_publickey(const uint8_t * ec_q){ 389d1a1f6a4SMatthias Ringwald log_info("Elliptic curve: X"); 390d1a1f6a4SMatthias Ringwald log_info_hexdump(&ec_q[0],32); 391d1a1f6a4SMatthias Ringwald log_info("Elliptic curve: Y"); 392d1a1f6a4SMatthias Ringwald log_info_hexdump(&ec_q[32],32); 393d1a1f6a4SMatthias Ringwald } 394d1a1f6a4SMatthias Ringwald 395d1a1f6a4SMatthias Ringwald #if (defined(USE_MICRO_ECC_P256) && !defined(WICED_VERSION)) || defined(USE_MBEDTLS_ECC_P256) 396d1a1f6a4SMatthias Ringwald // @return OK 397d1a1f6a4SMatthias Ringwald static int sm_generate_f_rng(unsigned char * buffer, unsigned size){ 398d1a1f6a4SMatthias Ringwald if (btstack_crypto_ecc_p256_key_generation_state != ECC_P256_KEY_GENERATION_ACTIVE) return 0; 399d1a1f6a4SMatthias Ringwald log_info("sm_generate_f_rng: size %u - offset %u", (int) size, btstack_crypto_ecc_p256_random_offset); 400d1a1f6a4SMatthias Ringwald while (size) { 401d1a1f6a4SMatthias Ringwald *buffer++ = btstack_crypto_ecc_p256_random[btstack_crypto_ecc_p256_random_offset++]; 402d1a1f6a4SMatthias Ringwald size--; 403d1a1f6a4SMatthias Ringwald } 404d1a1f6a4SMatthias Ringwald return 1; 405d1a1f6a4SMatthias Ringwald } 406d1a1f6a4SMatthias Ringwald #endif 407d1a1f6a4SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 408d1a1f6a4SMatthias Ringwald // @return error - just wrap sm_generate_f_rng 409d1a1f6a4SMatthias Ringwald static int sm_generate_f_rng_mbedtls(void * context, unsigned char * buffer, size_t size){ 410d1a1f6a4SMatthias Ringwald UNUSED(context); 411d1a1f6a4SMatthias Ringwald return sm_generate_f_rng(buffer, size) == 0; 412d1a1f6a4SMatthias Ringwald } 413d1a1f6a4SMatthias Ringwald #endif /* USE_MBEDTLS_ECC_P256 */ 414d1a1f6a4SMatthias Ringwald 415d1a1f6a4SMatthias Ringwald static void btstack_crypto_ecc_p256_generate_key_software(void){ 416d1a1f6a4SMatthias Ringwald 417d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_random_offset = 0; 418d1a1f6a4SMatthias Ringwald 419d1a1f6a4SMatthias Ringwald // generate EC key 420d1a1f6a4SMatthias Ringwald #ifdef USE_MICRO_ECC_P256 421d1a1f6a4SMatthias Ringwald 422d1a1f6a4SMatthias Ringwald #ifndef WICED_VERSION 423d1a1f6a4SMatthias Ringwald log_info("set uECC RNG for initial key generation with 64 random bytes"); 424d1a1f6a4SMatthias Ringwald // micro-ecc from WICED SDK uses its wiced_crypto_get_random by default - no need to set it 425d1a1f6a4SMatthias Ringwald uECC_set_rng(&sm_generate_f_rng); 426d1a1f6a4SMatthias Ringwald #endif /* WICED_VERSION */ 427d1a1f6a4SMatthias Ringwald 428d1a1f6a4SMatthias Ringwald #if uECC_SUPPORTS_secp256r1 429d1a1f6a4SMatthias Ringwald // standard version 430d1a1f6a4SMatthias Ringwald uECC_make_key(btstack_crypto_ecc_p256_public_key, btstack_crypto_ecc_p256_d, uECC_secp256r1()); 431d1a1f6a4SMatthias Ringwald 432d1a1f6a4SMatthias Ringwald // disable RNG again, as returning no randmon data lets shared key generation fail 433d1a1f6a4SMatthias Ringwald log_info("disable uECC RNG in standard version after key generation"); 434d1a1f6a4SMatthias Ringwald uECC_set_rng(NULL); 435d1a1f6a4SMatthias Ringwald #else 436d1a1f6a4SMatthias Ringwald // static version 437d1a1f6a4SMatthias Ringwald uECC_make_key(btstack_crypto_ecc_p256_public_key, btstack_crypto_ecc_p256_d); 438d1a1f6a4SMatthias Ringwald #endif 439d1a1f6a4SMatthias Ringwald #endif /* USE_MICRO_ECC_P256 */ 440d1a1f6a4SMatthias Ringwald 441d1a1f6a4SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 442d1a1f6a4SMatthias Ringwald mbedtls_mpi d; 443d1a1f6a4SMatthias Ringwald mbedtls_ecp_point P; 444d1a1f6a4SMatthias Ringwald mbedtls_mpi_init(&d); 445d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_init(&P); 446d1a1f6a4SMatthias Ringwald int res = mbedtls_ecp_gen_keypair(&mbedtls_ec_group, &d, &P, &sm_generate_f_rng_mbedtls, NULL); 447d1a1f6a4SMatthias Ringwald log_info("gen keypair %x", res); 448d1a1f6a4SMatthias Ringwald mbedtls_mpi_write_binary(&P.X, &btstack_crypto_ecc_p256_public_key[0], 32); 449d1a1f6a4SMatthias Ringwald mbedtls_mpi_write_binary(&P.Y, &btstack_crypto_ecc_p256_public_key[32], 32); 450d1a1f6a4SMatthias Ringwald mbedtls_mpi_write_binary(&d, btstack_crypto_ecc_p256_d, 32); 451d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_free(&P); 452d1a1f6a4SMatthias Ringwald mbedtls_mpi_free(&d); 453d1a1f6a4SMatthias Ringwald #endif /* USE_MBEDTLS_ECC_P256 */ 454d1a1f6a4SMatthias Ringwald } 455d1a1f6a4SMatthias Ringwald 456d1a1f6a4SMatthias Ringwald #ifdef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 457d1a1f6a4SMatthias Ringwald static void btstack_crypto_ecc_p256_calculate_dhkey_software(btstack_crypto_ecc_p256_t * btstack_crypto_ec_p192){ 458d1a1f6a4SMatthias Ringwald memset(btstack_crypto_ec_p192->dhkey, 0, 32); 459d1a1f6a4SMatthias Ringwald 460d1a1f6a4SMatthias Ringwald #ifdef USE_MICRO_ECC_P256 461d1a1f6a4SMatthias Ringwald #if uECC_SUPPORTS_secp256r1 462d1a1f6a4SMatthias Ringwald // standard version 463d1a1f6a4SMatthias Ringwald uECC_shared_secret(btstack_crypto_ec_p192->public_key, btstack_crypto_ecc_p256_d, btstack_crypto_ec_p192->dhkey, uECC_secp256r1()); 464d1a1f6a4SMatthias Ringwald #else 465d1a1f6a4SMatthias Ringwald // static version 466d1a1f6a4SMatthias Ringwald uECC_shared_secret(btstack_crypto_ec_p192->public_key, btstack_crypto_ecc_p256_d, btstack_crypto_ec_p192->dhkey); 467d1a1f6a4SMatthias Ringwald #endif 468d1a1f6a4SMatthias Ringwald #endif 469d1a1f6a4SMatthias Ringwald 470d1a1f6a4SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 471d1a1f6a4SMatthias Ringwald // da * Pb 472d1a1f6a4SMatthias Ringwald mbedtls_mpi d; 473d1a1f6a4SMatthias Ringwald mbedtls_ecp_point Q; 474d1a1f6a4SMatthias Ringwald mbedtls_ecp_point DH; 475d1a1f6a4SMatthias Ringwald mbedtls_mpi_init(&d); 476d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_init(&Q); 477d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_init(&DH); 478d1a1f6a4SMatthias Ringwald mbedtls_mpi_read_binary(&d, btstack_crypto_ecc_p256_d, 32); 479d1a1f6a4SMatthias Ringwald mbedtls_mpi_read_binary(&Q.X, &btstack_crypto_ec_p192->public_key[0] , 32); 480d1a1f6a4SMatthias Ringwald mbedtls_mpi_read_binary(&Q.Y, &btstack_crypto_ec_p192->public_key[32], 32); 481d1a1f6a4SMatthias Ringwald mbedtls_mpi_lset(&Q.Z, 1); 482d1a1f6a4SMatthias Ringwald mbedtls_ecp_mul(&mbedtls_ec_group, &DH, &d, &Q, NULL, NULL); 483d1a1f6a4SMatthias Ringwald mbedtls_mpi_write_binary(&DH.X, btstack_crypto_ec_p192->dhkey, 32); 484d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_free(&DH); 485d1a1f6a4SMatthias Ringwald mbedtls_mpi_free(&d); 486d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_free(&Q); 487d1a1f6a4SMatthias Ringwald #endif 488d1a1f6a4SMatthias Ringwald 489d1a1f6a4SMatthias Ringwald log_info("dhkey"); 490d1a1f6a4SMatthias Ringwald log_info_hexdump(btstack_crypto_ec_p192->dhkey, 32); 491d1a1f6a4SMatthias Ringwald } 492d1a1f6a4SMatthias Ringwald #endif 493d1a1f6a4SMatthias Ringwald 494d1a1f6a4SMatthias Ringwald #endif 495d1a1f6a4SMatthias Ringwald 496ea478a83SMatthias Ringwald #ifdef USE_BTSTACK_AES128 497ea478a83SMatthias Ringwald // CCM not implemented using software AES128 yet 498ea478a83SMatthias Ringwald #else 499d1a1f6a4SMatthias Ringwald 500d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_calc_s0(btstack_crypto_ccm_t * btstack_crypto_ccm){ 501577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 502577fe4dfSMatthias Ringwald printf("btstack_crypto_ccm_calc_s0\n"); 503577fe4dfSMatthias Ringwald #endif 504d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_W4_S0; 505d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_setup_a_i(btstack_crypto_ccm, 0); 506d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_ccm->key, btstack_crypto_ccm_s); 507d1a1f6a4SMatthias Ringwald } 508d1a1f6a4SMatthias Ringwald 509d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_calc_sn(btstack_crypto_ccm_t * btstack_crypto_ccm){ 510577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 511577fe4dfSMatthias Ringwald printf("btstack_crypto_ccm_calc_s%u\n", btstack_crypto_ccm->counter); 512577fe4dfSMatthias Ringwald #endif 513d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_W4_SN; 514d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_setup_a_i(btstack_crypto_ccm, btstack_crypto_ccm->counter); 515d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_ccm->key, btstack_crypto_ccm_s); 516d1a1f6a4SMatthias Ringwald } 517d1a1f6a4SMatthias Ringwald 518d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_calc_x1(btstack_crypto_ccm_t * btstack_crypto_ccm){ 519d1a1f6a4SMatthias Ringwald uint8_t btstack_crypto_ccm_buffer[16]; 520d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_W4_X1; 521d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_setup_b_0(btstack_crypto_ccm, btstack_crypto_ccm_buffer); 522d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_ccm->key, btstack_crypto_ccm_buffer); 523d1a1f6a4SMatthias Ringwald } 524d1a1f6a4SMatthias Ringwald 525d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_calc_xn(btstack_crypto_ccm_t * btstack_crypto_ccm, const uint8_t * plaintext){ 526d1a1f6a4SMatthias Ringwald int i; 527d1a1f6a4SMatthias Ringwald int bytes_to_decrypt; 528d1a1f6a4SMatthias Ringwald uint8_t btstack_crypto_ccm_buffer[16]; 529d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_W4_XN; 530577fe4dfSMatthias Ringwald 531577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 532577fe4dfSMatthias Ringwald printf("%16s: ", "bn"); 533577fe4dfSMatthias Ringwald printf_hexdump(plaintext, 16); 534577fe4dfSMatthias Ringwald #endif 535d1a1f6a4SMatthias Ringwald bytes_to_decrypt = btstack_min(btstack_crypto_ccm->block_len, 16); 536d1a1f6a4SMatthias Ringwald i = 0; 537d1a1f6a4SMatthias Ringwald while (i < bytes_to_decrypt){ 538d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_buffer[i] = btstack_crypto_ccm->x_i[i] ^ plaintext[i]; 539d1a1f6a4SMatthias Ringwald i++; 540d1a1f6a4SMatthias Ringwald } 541d1a1f6a4SMatthias Ringwald memcpy(&btstack_crypto_ccm_buffer[i], &btstack_crypto_ccm->x_i[i], 16 - bytes_to_decrypt); 542577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 543577fe4dfSMatthias Ringwald printf("%16s: ", "Xn XOR bn"); 544577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm_buffer, 16); 545577fe4dfSMatthias Ringwald #endif 546577fe4dfSMatthias Ringwald 547d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_ccm->key, btstack_crypto_ccm_buffer); 548d1a1f6a4SMatthias Ringwald } 549ea478a83SMatthias Ringwald #endif 550d1a1f6a4SMatthias Ringwald 551d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_handle_s0(btstack_crypto_ccm_t * btstack_crypto_ccm, const uint8_t * data){ 552d1a1f6a4SMatthias Ringwald // data is little-endian, flip on the fly 553d1a1f6a4SMatthias Ringwald int i; 554d1a1f6a4SMatthias Ringwald for (i=0;i<16;i++){ 555d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->x_i[i] = btstack_crypto_ccm->x_i[i] ^ data[15-i]; 556d1a1f6a4SMatthias Ringwald } 557d1a1f6a4SMatthias Ringwald btstack_crypto_done(&btstack_crypto_ccm->btstack_crypto); 558d1a1f6a4SMatthias Ringwald } 559d1a1f6a4SMatthias Ringwald 560d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_handle_sn(btstack_crypto_ccm_t * btstack_crypto_ccm, const uint8_t * data){ 561d1a1f6a4SMatthias Ringwald // data is little-endian, flip on the fly 562d1a1f6a4SMatthias Ringwald int i; 563d1a1f6a4SMatthias Ringwald uint16_t bytes_to_process = btstack_min(btstack_crypto_ccm->block_len, 16); 564d1a1f6a4SMatthias Ringwald for (i=0;i<bytes_to_process;i++){ 565d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->output[i] = btstack_crypto_ccm->input[i] ^ data[15-i]; 566d1a1f6a4SMatthias Ringwald } 567d1a1f6a4SMatthias Ringwald } 568d1a1f6a4SMatthias Ringwald 569d1a1f6a4SMatthias Ringwald static void btstack_crypto_ccm_next_block(btstack_crypto_ccm_t * btstack_crypto_ccm, btstack_crypto_ccm_state_t state_when_done){ 570d1a1f6a4SMatthias Ringwald uint16_t bytes_to_process = btstack_min(btstack_crypto_ccm->block_len, 16); 571d1a1f6a4SMatthias Ringwald // next block 572d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->counter++; 573d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->input += bytes_to_process; 574d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->output += bytes_to_process; 575d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->block_len -= bytes_to_process; 576577fe4dfSMatthias Ringwald btstack_crypto_ccm->message_len -= bytes_to_process; 57789be578cSMatthias Ringwald #ifdef DEBUG_CCM 57889be578cSMatthias Ringwald printf("btstack_crypto_ccm_next_block (message len %u, blockk_len %u)\n", btstack_crypto_ccm->message_len, btstack_crypto_ccm->block_len); 57989be578cSMatthias Ringwald #endif 580577fe4dfSMatthias Ringwald if (btstack_crypto_ccm->message_len == 0){ 581d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_CALCULATE_S0; 582577fe4dfSMatthias Ringwald } else { 583d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = state_when_done; 58489be578cSMatthias Ringwald if (btstack_crypto_ccm->block_len == 0){ 585577fe4dfSMatthias Ringwald btstack_crypto_done(&btstack_crypto_ccm->btstack_crypto); 586d1a1f6a4SMatthias Ringwald } 587d1a1f6a4SMatthias Ringwald } 58889be578cSMatthias Ringwald } 589d1a1f6a4SMatthias Ringwald 590d1a1f6a4SMatthias Ringwald static void btstack_crypto_run(void){ 591d1a1f6a4SMatthias Ringwald 592d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_t * btstack_crypto_aes128; 593d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_t * btstack_crypto_ccm; 594d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_cmac_t * btstack_crypto_cmac; 595d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 596d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_t * btstack_crypto_ec_p192; 597d1a1f6a4SMatthias Ringwald #endif 598d1a1f6a4SMatthias Ringwald 599d1a1f6a4SMatthias Ringwald // stack up and running? 600d1a1f6a4SMatthias Ringwald if (hci_get_state() != HCI_STATE_WORKING) return; 601d1a1f6a4SMatthias Ringwald 602d1a1f6a4SMatthias Ringwald // already active? 603d1a1f6a4SMatthias Ringwald if (btstack_crypto_wait_for_hci_result) return; 604d1a1f6a4SMatthias Ringwald 605d1a1f6a4SMatthias Ringwald // anything to do? 606d1a1f6a4SMatthias Ringwald if (btstack_linked_list_empty(&btstack_crypto_operations)) return; 607d1a1f6a4SMatthias Ringwald 608d1a1f6a4SMatthias Ringwald // can send a command? 609d1a1f6a4SMatthias Ringwald if (!hci_can_send_command_packet_now()) return; 610d1a1f6a4SMatthias Ringwald 611d1a1f6a4SMatthias Ringwald btstack_crypto_t * btstack_crypto = (btstack_crypto_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 612d1a1f6a4SMatthias Ringwald switch (btstack_crypto->operation){ 613d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_RANDOM: 614d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 615d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_rand); 616d1a1f6a4SMatthias Ringwald break; 617d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_AES128: 618d1a1f6a4SMatthias Ringwald btstack_crypto_aes128 = (btstack_crypto_aes128_t *) btstack_crypto; 619d1a1f6a4SMatthias Ringwald #ifdef USE_BTSTACK_AES128 620d1a1f6a4SMatthias Ringwald btstack_aes128_calc(btstack_crypto_aes128->key, btstack_crypto_aes128->plaintext, btstack_crypto_aes128->ciphertext); 6217909a414SMatthias Ringwald btstack_crypto_done(btstack_crypto); 622d1a1f6a4SMatthias Ringwald #else 623d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_start(btstack_crypto_aes128->key, btstack_crypto_aes128->plaintext); 624d1a1f6a4SMatthias Ringwald #endif 625d1a1f6a4SMatthias Ringwald break; 626d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CMAC_MESSAGE: 627d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CMAC_GENERATOR: 628d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 629d1a1f6a4SMatthias Ringwald btstack_crypto_cmac = (btstack_crypto_aes128_cmac_t *) btstack_crypto; 630d1a1f6a4SMatthias Ringwald if (btstack_crypto_cmac_state == CMAC_IDLE){ 631d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_start(btstack_crypto_cmac); 632d1a1f6a4SMatthias Ringwald } else { 633d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_handle_aes_engine_ready(btstack_crypto_cmac); 634d1a1f6a4SMatthias Ringwald } 635d1a1f6a4SMatthias Ringwald break; 636d1a1f6a4SMatthias Ringwald 637d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CCM_ENCRYPT_BLOCK: 638d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CCM_DECRYPT_BLOCK: 639d1a1f6a4SMatthias Ringwald #ifdef USE_BTSTACK_AES128 640ea478a83SMatthias Ringwald UNUSED(btstack_crypto_ccm); 641d1a1f6a4SMatthias Ringwald log_error("ccm not implemented for software aes128 yet"); 642d1a1f6a4SMatthias Ringwald #else 643d1a1f6a4SMatthias Ringwald btstack_crypto_ccm = (btstack_crypto_ccm_t *) btstack_crypto; 644d1a1f6a4SMatthias Ringwald switch (btstack_crypto_ccm->state){ 645d1a1f6a4SMatthias Ringwald case CCM_CALCULATE_X1: 646d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_calc_x1(btstack_crypto_ccm); 647d1a1f6a4SMatthias Ringwald break; 648d1a1f6a4SMatthias Ringwald case CCM_CALCULATE_S0: 649d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_calc_s0(btstack_crypto_ccm); 650d1a1f6a4SMatthias Ringwald break; 651d1a1f6a4SMatthias Ringwald case CCM_CALCULATE_SN: 652d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_calc_sn(btstack_crypto_ccm); 653d1a1f6a4SMatthias Ringwald break; 654d1a1f6a4SMatthias Ringwald case CCM_CALCULATE_XN: 655d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_calc_xn(btstack_crypto_ccm, btstack_crypto->operation == BTSTACK_CRYPTO_CCM_ENCRYPT_BLOCK ? btstack_crypto_ccm->input : btstack_crypto_ccm->output); 656d1a1f6a4SMatthias Ringwald break; 657d1a1f6a4SMatthias Ringwald default: 658d1a1f6a4SMatthias Ringwald break; 659d1a1f6a4SMatthias Ringwald } 660d1a1f6a4SMatthias Ringwald #endif 661d1a1f6a4SMatthias Ringwald break; 662d1a1f6a4SMatthias Ringwald 663d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 664d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_ECC_P256_GENERATE_KEY: 665d1a1f6a4SMatthias Ringwald btstack_crypto_ec_p192 = (btstack_crypto_ecc_p256_t *) btstack_crypto; 666d1a1f6a4SMatthias Ringwald switch (btstack_crypto_ecc_p256_key_generation_state){ 667d1a1f6a4SMatthias Ringwald case ECC_P256_KEY_GENERATION_DONE: 668d1a1f6a4SMatthias Ringwald // done 669d1a1f6a4SMatthias Ringwald btstack_crypto_log_ec_publickey(btstack_crypto_ecc_p256_public_key); 670d1a1f6a4SMatthias Ringwald memcpy(btstack_crypto_ec_p192->public_key, btstack_crypto_ecc_p256_public_key, 64); 671d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 672d1a1f6a4SMatthias Ringwald (*btstack_crypto_ec_p192->btstack_crypto.context_callback.callback)(btstack_crypto_ec_p192->btstack_crypto.context_callback.context); 673d1a1f6a4SMatthias Ringwald break; 674d1a1f6a4SMatthias Ringwald case ECC_P256_KEY_GENERATION_IDLE: 675d1a1f6a4SMatthias Ringwald #ifdef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 676d1a1f6a4SMatthias Ringwald log_info("start ecc random"); 677d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_GENERATING_RANDOM; 678d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_random_offset = 0; 679d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 680d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_rand); 681d1a1f6a4SMatthias Ringwald #else 682d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_W4_KEY; 683d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 684d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_read_local_p256_public_key); 685d1a1f6a4SMatthias Ringwald #endif 686d1a1f6a4SMatthias Ringwald break; 687d1a1f6a4SMatthias Ringwald #ifdef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 688d1a1f6a4SMatthias Ringwald case ECC_P256_KEY_GENERATION_GENERATING_RANDOM: 689d1a1f6a4SMatthias Ringwald log_info("more ecc random"); 690d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 691d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_rand); 692d1a1f6a4SMatthias Ringwald break; 693d1a1f6a4SMatthias Ringwald #endif 694d1a1f6a4SMatthias Ringwald default: 695d1a1f6a4SMatthias Ringwald break; 696d1a1f6a4SMatthias Ringwald } 697d1a1f6a4SMatthias Ringwald break; 698d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_ECC_P256_CALCULATE_DHKEY: 699d1a1f6a4SMatthias Ringwald btstack_crypto_ec_p192 = (btstack_crypto_ecc_p256_t *) btstack_crypto; 700d1a1f6a4SMatthias Ringwald #ifdef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 701d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_calculate_dhkey_software(btstack_crypto_ec_p192); 702d1a1f6a4SMatthias Ringwald // done 703d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 704d1a1f6a4SMatthias Ringwald (*btstack_crypto_ec_p192->btstack_crypto.context_callback.callback)(btstack_crypto_ec_p192->btstack_crypto.context_callback.context); 705d1a1f6a4SMatthias Ringwald #else 706d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 1; 707d1a1f6a4SMatthias Ringwald hci_send_cmd(&hci_le_generate_dhkey, &btstack_crypto_ec_p192->public_key[0], &btstack_crypto_ec_p192->public_key[32]); 708d1a1f6a4SMatthias Ringwald #endif 709d1a1f6a4SMatthias Ringwald break; 7104395a000SMatthias Ringwald 7114395a000SMatthias Ringwald #endif /* ENABLE_ECC_P256 */ 7124395a000SMatthias Ringwald 713d1a1f6a4SMatthias Ringwald default: 714d1a1f6a4SMatthias Ringwald break; 715d1a1f6a4SMatthias Ringwald } 716d1a1f6a4SMatthias Ringwald } 717d1a1f6a4SMatthias Ringwald 718d1a1f6a4SMatthias Ringwald static void btstack_crypto_handle_random_data(const uint8_t * data, uint16_t len){ 719d1a1f6a4SMatthias Ringwald btstack_crypto_random_t * btstack_crypto_random; 720d1a1f6a4SMatthias Ringwald btstack_crypto_t * btstack_crypto = (btstack_crypto_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 721d1a1f6a4SMatthias Ringwald uint16_t bytes_to_copy; 722d1a1f6a4SMatthias Ringwald if (!btstack_crypto) return; 723d1a1f6a4SMatthias Ringwald switch (btstack_crypto->operation){ 724d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_RANDOM: 725d1a1f6a4SMatthias Ringwald btstack_crypto_random = (btstack_crypto_random_t*) btstack_crypto; 726d1a1f6a4SMatthias Ringwald bytes_to_copy = btstack_min(btstack_crypto_random->size, len); 727d1a1f6a4SMatthias Ringwald memcpy(btstack_crypto_random->buffer, data, bytes_to_copy); 728d1a1f6a4SMatthias Ringwald btstack_crypto_random->buffer += bytes_to_copy; 729d1a1f6a4SMatthias Ringwald btstack_crypto_random->size -= bytes_to_copy; 730d1a1f6a4SMatthias Ringwald // data processed, more? 731d1a1f6a4SMatthias Ringwald if (!btstack_crypto_random->size) { 732d1a1f6a4SMatthias Ringwald // done 733d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 734d1a1f6a4SMatthias Ringwald (*btstack_crypto_random->btstack_crypto.context_callback.callback)(btstack_crypto_random->btstack_crypto.context_callback.context); 735d1a1f6a4SMatthias Ringwald } 736d1a1f6a4SMatthias Ringwald break; 737d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 738d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_ECC_P256_GENERATE_KEY: 739d1a1f6a4SMatthias Ringwald memcpy(&btstack_crypto_ecc_p256_random[btstack_crypto_ecc_p256_random_len], data, 8); 740d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_random_len += 8; 741d1a1f6a4SMatthias Ringwald if (btstack_crypto_ecc_p256_random_len >= 64) { 742d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_ACTIVE; 743d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_generate_key_software(); 744d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_DONE; 745d1a1f6a4SMatthias Ringwald } 746d1a1f6a4SMatthias Ringwald break; 747d1a1f6a4SMatthias Ringwald #endif 748d1a1f6a4SMatthias Ringwald default: 749d1a1f6a4SMatthias Ringwald break; 750d1a1f6a4SMatthias Ringwald } 751d1a1f6a4SMatthias Ringwald // more work? 752d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 753d1a1f6a4SMatthias Ringwald } 754d1a1f6a4SMatthias Ringwald 755d1a1f6a4SMatthias Ringwald static void btstack_crypto_handle_encryption_result(const uint8_t * data){ 756d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_t * btstack_crypto_aes128; 757d1a1f6a4SMatthias Ringwald btstack_crypto_aes128_cmac_t * btstack_crypto_cmac; 758d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_t * btstack_crypto_ccm; 759d1a1f6a4SMatthias Ringwald uint8_t result[16]; 760d1a1f6a4SMatthias Ringwald 761d1a1f6a4SMatthias Ringwald btstack_crypto_t * btstack_crypto = (btstack_crypto_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 762d1a1f6a4SMatthias Ringwald if (!btstack_crypto) return; 763d1a1f6a4SMatthias Ringwald switch (btstack_crypto->operation){ 764d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_AES128: 765d1a1f6a4SMatthias Ringwald btstack_crypto_aes128 = (btstack_crypto_aes128_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 766d1a1f6a4SMatthias Ringwald reverse_128(data, btstack_crypto_aes128->ciphertext); 767d1a1f6a4SMatthias Ringwald btstack_crypto_done(btstack_crypto); 768d1a1f6a4SMatthias Ringwald break; 769d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CMAC_GENERATOR: 770d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CMAC_MESSAGE: 771d1a1f6a4SMatthias Ringwald btstack_crypto_cmac = (btstack_crypto_aes128_cmac_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 772d1a1f6a4SMatthias Ringwald reverse_128(data, result); 773d1a1f6a4SMatthias Ringwald btstack_crypto_cmac_handle_encryption_result(btstack_crypto_cmac, result); 774d1a1f6a4SMatthias Ringwald break; 775d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CCM_ENCRYPT_BLOCK: 776d1a1f6a4SMatthias Ringwald btstack_crypto_ccm = (btstack_crypto_ccm_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 777d1a1f6a4SMatthias Ringwald switch (btstack_crypto_ccm->state){ 778d1a1f6a4SMatthias Ringwald case CCM_W4_X1: 779d1a1f6a4SMatthias Ringwald reverse_128(data, btstack_crypto_ccm->x_i); 780577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 781577fe4dfSMatthias Ringwald printf("%16s: ", "X1"); 782577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 783577fe4dfSMatthias Ringwald #endif 784d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_CALCULATE_XN; 785d1a1f6a4SMatthias Ringwald break; 786d1a1f6a4SMatthias Ringwald case CCM_W4_XN: 787d1a1f6a4SMatthias Ringwald reverse_128(data, btstack_crypto_ccm->x_i); 788577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 789577fe4dfSMatthias Ringwald printf("%16s: ", "Xn+1"); 790577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 791577fe4dfSMatthias Ringwald #endif 792d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_CALCULATE_SN; 793d1a1f6a4SMatthias Ringwald break; 794d1a1f6a4SMatthias Ringwald case CCM_W4_S0: 795577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 796577fe4dfSMatthias Ringwald reverse_128(data, result); 797577fe4dfSMatthias Ringwald printf("%16s: ", "X0"); 798577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 799577fe4dfSMatthias Ringwald #endif 800d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_handle_s0(btstack_crypto_ccm, data); 801d1a1f6a4SMatthias Ringwald break; 802d1a1f6a4SMatthias Ringwald case CCM_W4_SN: 803577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 804577fe4dfSMatthias Ringwald reverse_128(data, result); 805577fe4dfSMatthias Ringwald printf("%16s: ", "Sn"); 806577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 807577fe4dfSMatthias Ringwald #endif 808d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_handle_sn(btstack_crypto_ccm, data); 809d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_next_block(btstack_crypto_ccm, CCM_CALCULATE_XN); 810d1a1f6a4SMatthias Ringwald break; 811d1a1f6a4SMatthias Ringwald default: 812d1a1f6a4SMatthias Ringwald break; 813d1a1f6a4SMatthias Ringwald } 814d1a1f6a4SMatthias Ringwald break; 815d1a1f6a4SMatthias Ringwald case BTSTACK_CRYPTO_CCM_DECRYPT_BLOCK: 816d1a1f6a4SMatthias Ringwald btstack_crypto_ccm = (btstack_crypto_ccm_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 817d1a1f6a4SMatthias Ringwald switch (btstack_crypto_ccm->state){ 818d1a1f6a4SMatthias Ringwald case CCM_W4_X1: 819d1a1f6a4SMatthias Ringwald reverse_128(data, btstack_crypto_ccm->x_i); 820577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 821577fe4dfSMatthias Ringwald printf("%16s: ", "X1"); 822577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 823577fe4dfSMatthias Ringwald #endif 824d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_CALCULATE_SN; 825d1a1f6a4SMatthias Ringwald break; 826d1a1f6a4SMatthias Ringwald case CCM_W4_XN: 827d1a1f6a4SMatthias Ringwald reverse_128(data, btstack_crypto_ccm->x_i); 828577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 829577fe4dfSMatthias Ringwald printf("%16s: ", "Xn+1"); 830577fe4dfSMatthias Ringwald printf_hexdump(btstack_crypto_ccm->x_i, 16); 831577fe4dfSMatthias Ringwald #endif 832d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_next_block(btstack_crypto_ccm, CCM_CALCULATE_SN); 833d1a1f6a4SMatthias Ringwald break; 834d1a1f6a4SMatthias Ringwald case CCM_W4_S0: 835d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_handle_s0(btstack_crypto_ccm, data); 836d1a1f6a4SMatthias Ringwald break; 837d1a1f6a4SMatthias Ringwald case CCM_W4_SN: 838d1a1f6a4SMatthias Ringwald btstack_crypto_ccm_handle_sn(btstack_crypto_ccm, data); 839d1a1f6a4SMatthias Ringwald btstack_crypto_ccm->state = CCM_CALCULATE_XN; 840d1a1f6a4SMatthias Ringwald break; 841d1a1f6a4SMatthias Ringwald default: 842d1a1f6a4SMatthias Ringwald break; 843d1a1f6a4SMatthias Ringwald } 844d1a1f6a4SMatthias Ringwald break; 845d1a1f6a4SMatthias Ringwald default: 846d1a1f6a4SMatthias Ringwald break; 847d1a1f6a4SMatthias Ringwald } 848d1a1f6a4SMatthias Ringwald } 849d1a1f6a4SMatthias Ringwald 850d1a1f6a4SMatthias Ringwald static void btstack_crypto_event_handler(uint8_t packet_type, uint16_t cid, uint8_t *packet, uint16_t size){ 851d1a1f6a4SMatthias Ringwald UNUSED(cid); // ok: there is no channel 852d1a1f6a4SMatthias Ringwald UNUSED(size); // ok: fixed format events read from HCI buffer 853d1a1f6a4SMatthias Ringwald 854d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 855d1a1f6a4SMatthias Ringwald #ifndef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 856d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_t * btstack_crypto_ec_p192; 857d1a1f6a4SMatthias Ringwald #endif 858d1a1f6a4SMatthias Ringwald #endif 859d1a1f6a4SMatthias Ringwald 860d1a1f6a4SMatthias Ringwald if (packet_type != HCI_EVENT_PACKET) return; 861d1a1f6a4SMatthias Ringwald 862d1a1f6a4SMatthias Ringwald switch (hci_event_packet_get_type(packet)){ 863d1a1f6a4SMatthias Ringwald case HCI_EVENT_COMMAND_COMPLETE: 864d1a1f6a4SMatthias Ringwald if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_le_encrypt)){ 865d1a1f6a4SMatthias Ringwald if (hci_get_state() != HCI_STATE_WORKING) return; 866d1a1f6a4SMatthias Ringwald if (!btstack_crypto_wait_for_hci_result) return; 867d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 0; 868d1a1f6a4SMatthias Ringwald btstack_crypto_handle_encryption_result(&packet[6]); 869d1a1f6a4SMatthias Ringwald } 870d1a1f6a4SMatthias Ringwald if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_le_rand)){ 871d1a1f6a4SMatthias Ringwald if (hci_get_state() != HCI_STATE_WORKING) return; 872d1a1f6a4SMatthias Ringwald if (!btstack_crypto_wait_for_hci_result) return; 873d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 0; 874d1a1f6a4SMatthias Ringwald btstack_crypto_handle_random_data(&packet[6], 8); 875d1a1f6a4SMatthias Ringwald } 876d1a1f6a4SMatthias Ringwald if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_read_local_supported_commands)){ 877d1a1f6a4SMatthias Ringwald int ecdh_operations_supported = (packet[OFFSET_OF_DATA_IN_COMMAND_COMPLETE+1+34] & 0x06) == 0x06; 878d1a1f6a4SMatthias Ringwald log_info("controller supports ECDH operation: %u", ecdh_operations_supported); 879d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 880d1a1f6a4SMatthias Ringwald #ifndef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 881d1a1f6a4SMatthias Ringwald if (!ecdh_operations_supported){ 882d1a1f6a4SMatthias Ringwald // mbedTLS can also be used if already available (and malloc is supported) 883ddd7eb8cSMatthias Ringwald log_error("ECC-P256 support enabled, but HCI Controller doesn't support it. Please add ENABLE_MICRO_ECC_FOR_LE_SECURE_CONNECTIONS to btstack_config.h"); 884d1a1f6a4SMatthias Ringwald } 885d1a1f6a4SMatthias Ringwald #endif 886d1a1f6a4SMatthias Ringwald #endif 887d1a1f6a4SMatthias Ringwald } 888d1a1f6a4SMatthias Ringwald break; 889d1a1f6a4SMatthias Ringwald 890d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 891d1a1f6a4SMatthias Ringwald #ifndef USE_SOFTWARE_ECC_P256_IMPLEMENTATION 892d1a1f6a4SMatthias Ringwald case HCI_EVENT_LE_META: 893d1a1f6a4SMatthias Ringwald btstack_crypto_ec_p192 = (btstack_crypto_ecc_p256_t*) btstack_linked_list_get_first_item(&btstack_crypto_operations); 894d1a1f6a4SMatthias Ringwald if (!btstack_crypto_ec_p192) break; 895d1a1f6a4SMatthias Ringwald switch (hci_event_le_meta_get_subevent_code(packet)){ 896d1a1f6a4SMatthias Ringwald case HCI_SUBEVENT_LE_READ_LOCAL_P256_PUBLIC_KEY_COMPLETE: 897d1a1f6a4SMatthias Ringwald if (btstack_crypto_ec_p192->btstack_crypto.operation != BTSTACK_CRYPTO_ECC_P256_GENERATE_KEY) break; 898d1a1f6a4SMatthias Ringwald if (!btstack_crypto_wait_for_hci_result) return; 899d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 0; 900d1a1f6a4SMatthias Ringwald if (hci_subevent_le_read_local_p256_public_key_complete_get_status(packet)){ 901d1a1f6a4SMatthias Ringwald log_error("Read Local P256 Public Key failed"); 902d1a1f6a4SMatthias Ringwald } 903d1a1f6a4SMatthias Ringwald hci_subevent_le_read_local_p256_public_key_complete_get_dhkey_x(packet, &btstack_crypto_ecc_p256_public_key[0]); 904d1a1f6a4SMatthias Ringwald hci_subevent_le_read_local_p256_public_key_complete_get_dhkey_y(packet, &btstack_crypto_ecc_p256_public_key[32]); 905d1a1f6a4SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_DONE; 906d1a1f6a4SMatthias Ringwald break; 907d1a1f6a4SMatthias Ringwald case HCI_SUBEVENT_LE_GENERATE_DHKEY_COMPLETE: 908d1a1f6a4SMatthias Ringwald if (btstack_crypto_ec_p192->btstack_crypto.operation != BTSTACK_CRYPTO_ECC_P256_CALCULATE_DHKEY) break; 909d1a1f6a4SMatthias Ringwald if (!btstack_crypto_wait_for_hci_result) return; 910d1a1f6a4SMatthias Ringwald btstack_crypto_wait_for_hci_result = 0; 911d1a1f6a4SMatthias Ringwald if (hci_subevent_le_generate_dhkey_complete_get_status(packet)){ 912d1a1f6a4SMatthias Ringwald log_error("Generate DHKEY failed -> abort"); 913d1a1f6a4SMatthias Ringwald } 914d1a1f6a4SMatthias Ringwald hci_subevent_le_generate_dhkey_complete_get_dhkey(packet, btstack_crypto_ec_p192->dhkey); 915d1a1f6a4SMatthias Ringwald // done 916d1a1f6a4SMatthias Ringwald btstack_linked_list_pop(&btstack_crypto_operations); 917d1a1f6a4SMatthias Ringwald (*btstack_crypto_ec_p192->btstack_crypto.context_callback.callback)(btstack_crypto_ec_p192->btstack_crypto.context_callback.context); 918d1a1f6a4SMatthias Ringwald break; 919d1a1f6a4SMatthias Ringwald default: 920d1a1f6a4SMatthias Ringwald break; 921d1a1f6a4SMatthias Ringwald } 922d1a1f6a4SMatthias Ringwald break; 923d1a1f6a4SMatthias Ringwald #endif 924d1a1f6a4SMatthias Ringwald #endif 925d1a1f6a4SMatthias Ringwald default: 926d1a1f6a4SMatthias Ringwald break; 927d1a1f6a4SMatthias Ringwald } 928d1a1f6a4SMatthias Ringwald 929d1a1f6a4SMatthias Ringwald // try processing 930d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 931d1a1f6a4SMatthias Ringwald } 932d1a1f6a4SMatthias Ringwald 933d1a1f6a4SMatthias Ringwald void btstack_crypto_init(void){ 934d1a1f6a4SMatthias Ringwald if (btstack_crypto_initialized) return; 935d1a1f6a4SMatthias Ringwald btstack_crypto_initialized = 1; 9360b672f43SMatthias Ringwald 937d1a1f6a4SMatthias Ringwald // register with HCI 938d1a1f6a4SMatthias Ringwald hci_event_callback_registration.callback = &btstack_crypto_event_handler; 939d1a1f6a4SMatthias Ringwald hci_add_event_handler(&hci_event_callback_registration); 9400b672f43SMatthias Ringwald 9410b672f43SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 9420b672f43SMatthias Ringwald mbedtls_ecp_group_init(&mbedtls_ec_group); 9430b672f43SMatthias Ringwald mbedtls_ecp_group_load(&mbedtls_ec_group, MBEDTLS_ECP_DP_SECP256R1); 9440b672f43SMatthias Ringwald #endif 945d1a1f6a4SMatthias Ringwald } 946d1a1f6a4SMatthias Ringwald 947d1a1f6a4SMatthias Ringwald void btstack_crypto_random_generate(btstack_crypto_random_t * request, uint8_t * buffer, uint16_t size, void (* callback)(void * arg), void * callback_arg){ 948d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 949d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 950d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_RANDOM; 951d1a1f6a4SMatthias Ringwald request->buffer = buffer; 952d1a1f6a4SMatthias Ringwald request->size = size; 953d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 954d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 955d1a1f6a4SMatthias Ringwald } 956d1a1f6a4SMatthias Ringwald 957d1a1f6a4SMatthias Ringwald void btstack_crypto_aes128_encrypt(btstack_crypto_aes128_t * request, const uint8_t * key, const uint8_t * plaintext, uint8_t * ciphertext, void (* callback)(void * arg), void * callback_arg){ 958d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 959d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 960d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_AES128; 961d1a1f6a4SMatthias Ringwald request->key = key; 962d1a1f6a4SMatthias Ringwald request->plaintext = plaintext; 963d1a1f6a4SMatthias Ringwald request->ciphertext = ciphertext; 964d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 965d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 966d1a1f6a4SMatthias Ringwald } 967d1a1f6a4SMatthias Ringwald 968d1a1f6a4SMatthias Ringwald void btstack_crypto_aes128_cmac_generator(btstack_crypto_aes128_cmac_t * request, const uint8_t * key, uint16_t size, uint8_t (*get_byte_callback)(uint16_t pos), uint8_t * hash, void (* callback)(void * arg), void * callback_arg){ 969d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 970d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 971d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_CMAC_GENERATOR; 972d1a1f6a4SMatthias Ringwald request->key = key; 973d1a1f6a4SMatthias Ringwald request->size = size; 97459ab1655SMatthias Ringwald request->data.get_byte_callback = get_byte_callback; 975d1a1f6a4SMatthias Ringwald request->hash = hash; 976d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 977d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 978d1a1f6a4SMatthias Ringwald } 979d1a1f6a4SMatthias Ringwald 980d1a1f6a4SMatthias Ringwald void btstack_crypto_aes128_cmac_message(btstack_crypto_aes128_cmac_t * request, const uint8_t * key, uint16_t size, const uint8_t * message, uint8_t * hash, void (* callback)(void * arg), void * callback_arg){ 981d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 982d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 983d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_CMAC_MESSAGE; 984d1a1f6a4SMatthias Ringwald request->key = key; 985d1a1f6a4SMatthias Ringwald request->size = size; 98659ab1655SMatthias Ringwald request->data.message = message; 987d1a1f6a4SMatthias Ringwald request->hash = hash; 988d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 989d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 990d1a1f6a4SMatthias Ringwald } 991d1a1f6a4SMatthias Ringwald 992d1a1f6a4SMatthias Ringwald void btstack_crypto_aes128_cmac_zero(btstack_crypto_aes128_cmac_t * request, uint16_t len, const uint8_t * message, uint8_t * hash, void (* callback)(void * arg), void * callback_arg){ 993d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 994d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 995d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_CMAC_MESSAGE; 996d1a1f6a4SMatthias Ringwald request->key = zero; 997d1a1f6a4SMatthias Ringwald request->size = len; 99859ab1655SMatthias Ringwald request->data.message = message; 999d1a1f6a4SMatthias Ringwald request->hash = hash; 1000d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 1001d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 1002d1a1f6a4SMatthias Ringwald } 1003d1a1f6a4SMatthias Ringwald 1004d1a1f6a4SMatthias Ringwald #ifdef ENABLE_ECC_P256 1005d1a1f6a4SMatthias Ringwald void btstack_crypto_ecc_p256_generate_key(btstack_crypto_ecc_p256_t * request, uint8_t * public_key, void (* callback)(void * arg), void * callback_arg){ 1006e0449ce9SMatthias Ringwald // reset key generation 1007e0449ce9SMatthias Ringwald if (btstack_crypto_ecc_p256_key_generation_state == ECC_P256_KEY_GENERATION_DONE){ 1008e0449ce9SMatthias Ringwald btstack_crypto_ecc_p256_random_len = 0; 1009e0449ce9SMatthias Ringwald btstack_crypto_ecc_p256_key_generation_state = ECC_P256_KEY_GENERATION_IDLE; 1010e0449ce9SMatthias Ringwald } 1011d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 1012d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 1013d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_ECC_P256_GENERATE_KEY; 1014d1a1f6a4SMatthias Ringwald request->public_key = public_key; 1015d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 1016d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 1017d1a1f6a4SMatthias Ringwald } 1018d1a1f6a4SMatthias Ringwald 1019d1a1f6a4SMatthias Ringwald void btstack_crypto_ecc_p256_calculate_dhkey(btstack_crypto_ecc_p256_t * request, const uint8_t * public_key, uint8_t * dhkey, void (* callback)(void * arg), void * callback_arg){ 1020d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 1021d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 1022d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_ECC_P256_CALCULATE_DHKEY; 1023d1a1f6a4SMatthias Ringwald request->public_key = (uint8_t *) public_key; 1024d1a1f6a4SMatthias Ringwald request->dhkey = dhkey; 1025d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 1026d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 1027d1a1f6a4SMatthias Ringwald } 1028d1a1f6a4SMatthias Ringwald 1029d1a1f6a4SMatthias Ringwald int btstack_crypto_ecc_p256_validate_public_key(const uint8_t * public_key){ 1030d1a1f6a4SMatthias Ringwald 1031d1a1f6a4SMatthias Ringwald // validate public key using micro-ecc 1032d1a1f6a4SMatthias Ringwald int err = 0; 1033d1a1f6a4SMatthias Ringwald 1034d1a1f6a4SMatthias Ringwald #ifdef USE_MICRO_ECC_P256 1035d1a1f6a4SMatthias Ringwald #if uECC_SUPPORTS_secp256r1 1036d1a1f6a4SMatthias Ringwald // standard version 1037d1a1f6a4SMatthias Ringwald err = uECC_valid_public_key(public_key, uECC_secp256r1()) == 0; 1038d1a1f6a4SMatthias Ringwald #else 1039d1a1f6a4SMatthias Ringwald // static version 1040d1a1f6a4SMatthias Ringwald err = uECC_valid_public_key(public_key) == 0; 1041d1a1f6a4SMatthias Ringwald #endif 1042d1a1f6a4SMatthias Ringwald #endif 1043d1a1f6a4SMatthias Ringwald 1044d1a1f6a4SMatthias Ringwald #ifdef USE_MBEDTLS_ECC_P256 1045d1a1f6a4SMatthias Ringwald mbedtls_ecp_point Q; 1046d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_init( &Q ); 1047d1a1f6a4SMatthias Ringwald mbedtls_mpi_read_binary(&Q.X, &public_key[0], 32); 1048d1a1f6a4SMatthias Ringwald mbedtls_mpi_read_binary(&Q.Y, &public_key[32], 32); 1049d1a1f6a4SMatthias Ringwald mbedtls_mpi_lset(&Q.Z, 1); 1050d1a1f6a4SMatthias Ringwald err = mbedtls_ecp_check_pubkey(&mbedtls_ec_group, &Q); 1051d1a1f6a4SMatthias Ringwald mbedtls_ecp_point_free( & Q); 1052d1a1f6a4SMatthias Ringwald #endif 1053d1a1f6a4SMatthias Ringwald 1054d1a1f6a4SMatthias Ringwald if (err){ 1055d1a1f6a4SMatthias Ringwald log_error("public key invalid %x", err); 1056d1a1f6a4SMatthias Ringwald } 1057d1a1f6a4SMatthias Ringwald return err; 1058d1a1f6a4SMatthias Ringwald } 1059d1a1f6a4SMatthias Ringwald #endif 1060d1a1f6a4SMatthias Ringwald 10616015e1edSMatthias Ringwald void btstack_crypo_ccm_init(btstack_crypto_ccm_t * request, const uint8_t * key, const uint8_t * nonce, uint16_t message_len, uint8_t auth_len){ 1062d1a1f6a4SMatthias Ringwald request->key = key; 1063d1a1f6a4SMatthias Ringwald request->nonce = nonce; 1064d1a1f6a4SMatthias Ringwald request->message_len = message_len; 10656015e1edSMatthias Ringwald request->auth_len = auth_len; 1066d1a1f6a4SMatthias Ringwald request->counter = 1; 1067577fe4dfSMatthias Ringwald request->state = CCM_CALCULATE_X1; 1068d1a1f6a4SMatthias Ringwald } 1069d1a1f6a4SMatthias Ringwald 1070d1a1f6a4SMatthias Ringwald void btstack_crypo_ccm_get_authentication_value(btstack_crypto_ccm_t * request, uint8_t * authentication_value){ 1071*10e0e23cSMatthias Ringwald memcpy(authentication_value, request->x_i, request->auth_len); 1072d1a1f6a4SMatthias Ringwald } 1073d1a1f6a4SMatthias Ringwald 1074d1a1f6a4SMatthias Ringwald void btstack_crypto_ccm_encrypt_block(btstack_crypto_ccm_t * request, uint16_t block_len, const uint8_t * plaintext, uint8_t * ciphertext, void (* callback)(void * arg), void * callback_arg){ 1075577fe4dfSMatthias Ringwald #ifdef DEBUG_CCM 1076577fe4dfSMatthias Ringwald printf("\nbtstack_crypto_ccm_encrypt_block, len %u\n", block_len); 1077577fe4dfSMatthias Ringwald #endif 1078d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 1079d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 1080d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_CCM_ENCRYPT_BLOCK; 1081d1a1f6a4SMatthias Ringwald request->block_len = block_len; 1082d1a1f6a4SMatthias Ringwald request->input = plaintext; 1083d1a1f6a4SMatthias Ringwald request->output = ciphertext; 1084d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 1085d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 1086d1a1f6a4SMatthias Ringwald } 1087d1a1f6a4SMatthias Ringwald 1088d1a1f6a4SMatthias Ringwald void btstack_crypto_ccm_decrypt_block(btstack_crypto_ccm_t * request, uint16_t block_len, const uint8_t * ciphertext, uint8_t * plaintext, void (* callback)(void * arg), void * callback_arg){ 1089d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.callback = callback; 1090d1a1f6a4SMatthias Ringwald request->btstack_crypto.context_callback.context = callback_arg; 1091d1a1f6a4SMatthias Ringwald request->btstack_crypto.operation = BTSTACK_CRYPTO_CCM_DECRYPT_BLOCK; 1092d1a1f6a4SMatthias Ringwald request->block_len = block_len; 1093d1a1f6a4SMatthias Ringwald request->input = ciphertext; 1094d1a1f6a4SMatthias Ringwald request->output = plaintext; 1095d1a1f6a4SMatthias Ringwald btstack_linked_list_add_tail(&btstack_crypto_operations, (btstack_linked_item_t*) request); 1096d1a1f6a4SMatthias Ringwald btstack_crypto_run(); 1097d1a1f6a4SMatthias Ringwald } 1098d1a1f6a4SMatthias Ringwald 1099