1 /* 2 * Copyright (C) 2017 BlueKitchen GmbH 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions 6 * are met: 7 * 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. Neither the name of the copyright holders nor the names of 14 * contributors may be used to endorse or promote products derived 15 * from this software without specific prior written permission. 16 * 4. Any redistribution, use, or modification is done solely for 17 * personal benefit and not for any commercial purpose or for 18 * monetary gain. 19 * 20 * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS 21 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 23 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN 24 * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 29 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 30 * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 * 33 * Please inquire about commercial licensing options at 34 * [email protected] 35 * 36 */ 37 38 #define BTSTACK_FILE__ "le_device_db_tlv.c" 39 40 #include "ble/le_device_db.h" 41 #include "ble/le_device_db_tlv.h" 42 43 #include "ble/core.h" 44 45 #include <string.h> 46 #include "btstack_debug.h" 47 48 // LE Device DB Implementation storing entries in btstack_tlv 49 50 // Local cache is used to keep track of deleted entries in TLV 51 52 #define INVALID_ENTRY_ADDR_TYPE 0xff 53 54 // Single stored entry 55 typedef struct le_device_db_entry_t { 56 57 uint32_t seq_nr; // used for "least recently stored" eviction strategy 58 59 // Identification 60 int addr_type; 61 bd_addr_t addr; 62 sm_key_t irk; 63 64 // Stored pairing information allows to re-establish an enncrypted connection 65 // with a peripheral that doesn't have any persistent memory 66 sm_key_t ltk; 67 uint16_t ediv; 68 uint8_t rand[8]; 69 70 uint8_t key_size; 71 uint8_t authenticated; 72 uint8_t authorized; 73 uint8_t secure_connection; 74 75 #ifdef ENABLE_LE_SIGNED_WRITE 76 // Signed Writes by remote 77 sm_key_t remote_csrk; 78 uint32_t remote_counter; 79 80 // Signed Writes by us 81 sm_key_t local_csrk; 82 uint32_t local_counter; 83 #endif 84 85 } le_device_db_entry_t; 86 87 88 #ifndef NVM_NUM_DEVICE_DB_ENTRIES 89 #error "NVM_NUM_DEVICE_DB_ENTRIES not defined, please define in btstack_config.h" 90 #endif 91 92 #if NVM_NUM_DEVICE_DB_ENTRIES == 0 93 #error "NVM_NUM_DEVICE_DB_ENTRIES must not be 0, please update in btstack_config.h" 94 #endif 95 96 // only stores if entry present 97 static uint8_t entry_map[NVM_NUM_DEVICE_DB_ENTRIES]; 98 static uint32_t num_valid_entries; 99 100 static const btstack_tlv_t * le_device_db_tlv_btstack_tlv_impl; 101 static void * le_device_db_tlv_btstack_tlv_context; 102 103 104 static uint32_t le_device_db_tlv_tag_for_index(uint8_t index){ 105 static const char tag_0 = 'B'; 106 static const char tag_1 = 'T'; 107 static const char tag_2 = 'D'; 108 109 return (tag_0 << 24u) | (tag_1 << 16u) | (tag_2 << 8u) | index; 110 } 111 112 // @return success 113 // @param index = entry_pos 114 static bool le_device_db_tlv_fetch(int index, le_device_db_entry_t * entry){ 115 btstack_assert(le_device_db_tlv_btstack_tlv_impl != NULL); 116 btstack_assert(index >= 0); 117 btstack_assert(index < NVM_NUM_DEVICE_DB_ENTRIES); 118 119 uint32_t tag = le_device_db_tlv_tag_for_index(index); 120 int size = le_device_db_tlv_btstack_tlv_impl->get_tag(le_device_db_tlv_btstack_tlv_context, tag, (uint8_t*) entry, sizeof(le_device_db_entry_t)); 121 return size == sizeof(le_device_db_entry_t); 122 } 123 124 // @return success 125 // @param index = entry_pos 126 static bool le_device_db_tlv_store(int index, le_device_db_entry_t * entry){ 127 btstack_assert(le_device_db_tlv_btstack_tlv_impl != NULL); 128 btstack_assert(index >= 0); 129 btstack_assert(index < NVM_NUM_DEVICE_DB_ENTRIES); 130 131 uint32_t tag = le_device_db_tlv_tag_for_index(index); 132 int result = le_device_db_tlv_btstack_tlv_impl->store_tag(le_device_db_tlv_btstack_tlv_context, tag, (uint8_t*) entry, sizeof(le_device_db_entry_t)); 133 return result == 0; 134 } 135 136 // @param index = entry_pos 137 static bool le_device_db_tlv_delete(int index){ 138 btstack_assert(le_device_db_tlv_btstack_tlv_impl != NULL); 139 btstack_assert(index >= 0); 140 btstack_assert(index < NVM_NUM_DEVICE_DB_ENTRIES); 141 142 uint32_t tag = le_device_db_tlv_tag_for_index(index); 143 le_device_db_tlv_btstack_tlv_impl->delete_tag(le_device_db_tlv_btstack_tlv_context, tag); 144 return true; 145 } 146 147 static void le_device_db_tlv_scan(void){ 148 int i; 149 num_valid_entries = 0; 150 memset(entry_map, 0, sizeof(entry_map)); 151 for (i=0;i<NVM_NUM_DEVICE_DB_ENTRIES;i++){ 152 // lookup entry 153 le_device_db_entry_t entry; 154 if (!le_device_db_tlv_fetch(i, &entry)) continue; 155 156 entry_map[i] = 1; 157 num_valid_entries++; 158 } 159 log_info("num valid le device entries %u", (unsigned int) num_valid_entries); 160 } 161 162 void le_device_db_init(void){ 163 if (!le_device_db_tlv_btstack_tlv_impl) { 164 log_error("btstack_tlv not initialized"); 165 } 166 } 167 168 // not used 169 void le_device_db_set_local_bd_addr(bd_addr_t bd_addr){ 170 (void)bd_addr; 171 } 172 173 // @return number of device in db 174 int le_device_db_count(void){ 175 return num_valid_entries; 176 } 177 178 int le_device_db_max_count(void){ 179 return NVM_NUM_DEVICE_DB_ENTRIES; 180 } 181 182 void le_device_db_remove(int index){ 183 btstack_assert(index >= 0); 184 btstack_assert(index < le_device_db_max_count()); 185 186 // check if entry exists 187 if (entry_map[index] == 0u) return; 188 189 // delete entry in TLV 190 le_device_db_tlv_delete(index); 191 192 // mark as unused 193 entry_map[index] = 0; 194 195 // keep track 196 num_valid_entries--; 197 } 198 199 int le_device_db_add(int addr_type, bd_addr_t addr, sm_key_t irk){ 200 201 uint32_t highest_seq_nr = 0; 202 uint32_t lowest_seq_nr = 0xFFFFFFFFU; 203 int index_for_lowest_seq_nr = -1; 204 int index_for_addr = -1; 205 int index_for_empty = -1; 206 bool new_entry = false; 207 208 // find unused entry in the used list 209 int i; 210 for (i=0;i<NVM_NUM_DEVICE_DB_ENTRIES;i++){ 211 if (entry_map[i] != 0u) { 212 le_device_db_entry_t entry; 213 le_device_db_tlv_fetch(i, &entry); 214 // found addr? 215 if ((memcmp(addr, entry.addr, 6) == 0) && (addr_type == entry.addr_type)){ 216 index_for_addr = i; 217 } 218 // update highest seq nr 219 if (entry.seq_nr > highest_seq_nr){ 220 highest_seq_nr = entry.seq_nr; 221 } 222 // find entry with lowest seq nr 223 if ((index_for_lowest_seq_nr == -1) || (entry.seq_nr < lowest_seq_nr)){ 224 index_for_lowest_seq_nr = i; 225 lowest_seq_nr = entry.seq_nr; 226 } 227 } else { 228 index_for_empty = i; 229 } 230 } 231 232 log_info("index_for_addr %x, index_for_empy %x, index_for_lowest_seq_nr %x", index_for_addr, index_for_empty, index_for_lowest_seq_nr); 233 234 uint32_t index_to_use = 0; 235 if (index_for_addr >= 0){ 236 index_to_use = index_for_addr; 237 } else if (index_for_empty >= 0){ 238 new_entry = true; 239 index_to_use = index_for_empty; 240 } else if (index_for_lowest_seq_nr >= 0){ 241 index_to_use = index_for_lowest_seq_nr; 242 } else { 243 // should not happen 244 return -1; 245 } 246 247 log_info("new entry for index %u", (unsigned int) index_to_use); 248 249 // store entry at index 250 le_device_db_entry_t entry; 251 log_info("LE Device DB adding type %u - %s", addr_type, bd_addr_to_str(addr)); 252 log_info_key("irk", irk); 253 254 memset(&entry, 0, sizeof(le_device_db_entry_t)); 255 256 entry.addr_type = addr_type; 257 (void)memcpy(entry.addr, addr, 6); 258 (void)memcpy(entry.irk, irk, 16); 259 entry.seq_nr = highest_seq_nr + 1u; 260 #ifdef ENABLE_LE_SIGNED_WRITE 261 entry.remote_counter = 0; 262 #endif 263 264 // store 265 bool ok = le_device_db_tlv_store(index_to_use, &entry); 266 if (!ok){ 267 log_error("tag store failed"); 268 return -1; 269 } 270 // set in entry_mape 271 entry_map[index_to_use] = 1; 272 273 // keep track - don't increase if old entry found or replaced 274 if (new_entry){ 275 num_valid_entries++; 276 } 277 278 return index_to_use; 279 } 280 281 282 // get device information: addr type and address 283 void le_device_db_info(int index, int * addr_type, bd_addr_t addr, sm_key_t irk){ 284 285 // fetch entry 286 le_device_db_entry_t entry; 287 int ok = le_device_db_tlv_fetch(index, &entry); 288 289 // set defaults if not found 290 if (!ok) { 291 memset(&entry, 0, sizeof(le_device_db_entry_t)); 292 entry.addr_type = BD_ADDR_TYPE_UNKNOWN; 293 } 294 295 // setup return values 296 if (addr_type != NULL) *addr_type = entry.addr_type; 297 if (addr != NULL) (void)memcpy(addr, entry.addr, 6); 298 if (irk != NULL) (void)memcpy(irk, entry.irk, 16); 299 } 300 301 void le_device_db_encryption_set(int index, uint16_t ediv, uint8_t rand[8], sm_key_t ltk, int key_size, int authenticated, int authorized, int secure_connection){ 302 303 // fetch entry 304 le_device_db_entry_t entry; 305 int ok = le_device_db_tlv_fetch(index, &entry); 306 if (!ok) return; 307 308 // update 309 log_info("LE Device DB set encryption for %u, ediv x%04x, key size %u, authenticated %u, authorized %u, secure connection %u", 310 index, ediv, key_size, authenticated, authorized, secure_connection); 311 entry.ediv = ediv; 312 if (rand != NULL){ 313 (void)memcpy(entry.rand, rand, 8); 314 } 315 if (ltk != 0) { 316 (void)memcpy(entry.ltk, ltk, 16); 317 } 318 entry.key_size = key_size; 319 entry.authenticated = authenticated; 320 entry.authorized = authorized; 321 entry.secure_connection = secure_connection; 322 323 // store 324 ok = le_device_db_tlv_store(index, &entry); 325 if (!ok){ 326 log_error("Set encryption data failed"); 327 } 328 } 329 330 void le_device_db_encryption_get(int index, uint16_t * ediv, uint8_t rand[8], sm_key_t ltk, int * key_size, int * authenticated, int * authorized, int * secure_connection){ 331 332 // fetch entry 333 le_device_db_entry_t entry; 334 int ok = le_device_db_tlv_fetch(index, &entry); 335 if (!ok) return; 336 337 // update user fields 338 log_info("LE Device DB encryption for %u, ediv x%04x, keysize %u, authenticated %u, authorized %u, secure connection %u", 339 index, entry.ediv, entry.key_size, entry.authenticated, entry.authorized, entry.secure_connection); 340 if (ediv != NULL) *ediv = entry.ediv; 341 if (rand != NULL) (void)memcpy(rand, entry.rand, 8); 342 if (ltk != NULL) (void)memcpy(ltk, entry.ltk, 16); 343 if (key_size != NULL) *key_size = entry.key_size; 344 if (authenticated != NULL) *authenticated = entry.authenticated; 345 if (authorized != NULL) *authorized = entry.authorized; 346 if (secure_connection != NULL) *secure_connection = entry.secure_connection; 347 } 348 349 #ifdef ENABLE_LE_SIGNED_WRITE 350 351 // get signature key 352 void le_device_db_remote_csrk_get(int index, sm_key_t csrk){ 353 354 // fetch entry 355 le_device_db_entry_t entry; 356 int ok = le_device_db_tlv_fetch(index, &entry); 357 if (!ok) return; 358 359 if (csrk) (void)memcpy(csrk, entry.remote_csrk, 16); 360 } 361 362 void le_device_db_remote_csrk_set(int index, sm_key_t csrk){ 363 364 // fetch entry 365 le_device_db_entry_t entry; 366 int ok = le_device_db_tlv_fetch(index, &entry); 367 if (!ok) return; 368 369 if (!csrk) return; 370 371 // update 372 (void)memcpy(entry.remote_csrk, csrk, 16); 373 374 // store 375 le_device_db_tlv_store(index, &entry); 376 } 377 378 void le_device_db_local_csrk_get(int index, sm_key_t csrk){ 379 380 // fetch entry 381 le_device_db_entry_t entry; 382 int ok = le_device_db_tlv_fetch(index, &entry); 383 if (!ok) return; 384 385 if (!csrk) return; 386 387 // fill 388 (void)memcpy(csrk, entry.local_csrk, 16); 389 } 390 391 void le_device_db_local_csrk_set(int index, sm_key_t csrk){ 392 393 // fetch entry 394 le_device_db_entry_t entry; 395 int ok = le_device_db_tlv_fetch(index, &entry); 396 if (!ok) return; 397 398 if (!csrk) return; 399 400 // update 401 (void)memcpy(entry.local_csrk, csrk, 16); 402 403 // store 404 le_device_db_tlv_store(index, &entry); 405 } 406 407 // query last used/seen signing counter 408 uint32_t le_device_db_remote_counter_get(int index){ 409 410 // fetch entry 411 le_device_db_entry_t entry; 412 int ok = le_device_db_tlv_fetch(index, &entry); 413 if (!ok) return 0; 414 415 return entry.remote_counter; 416 } 417 418 // update signing counter 419 void le_device_db_remote_counter_set(int index, uint32_t counter){ 420 421 // fetch entry 422 le_device_db_entry_t entry; 423 int ok = le_device_db_tlv_fetch(index, &entry); 424 if (!ok) return; 425 426 entry.remote_counter = counter; 427 428 // store 429 le_device_db_tlv_store(index, &entry); 430 } 431 432 // query last used/seen signing counter 433 uint32_t le_device_db_local_counter_get(int index){ 434 435 // fetch entry 436 le_device_db_entry_t entry; 437 int ok = le_device_db_tlv_fetch(index, &entry); 438 if (!ok) return 0; 439 440 return entry.local_counter; 441 } 442 443 // update signing counter 444 void le_device_db_local_counter_set(int index, uint32_t counter){ 445 446 // fetch entry 447 le_device_db_entry_t entry; 448 int ok = le_device_db_tlv_fetch(index, &entry); 449 if (!ok) return; 450 451 // update 452 entry.local_counter = counter; 453 454 // store 455 le_device_db_tlv_store(index, &entry); 456 } 457 458 #endif 459 460 void le_device_db_dump(void){ 461 log_info("LE Device DB dump, devices: %d", le_device_db_count()); 462 uint32_t i; 463 464 for (i=0;i<NVM_NUM_DEVICE_DB_ENTRIES;i++){ 465 if (!entry_map[i]) continue; 466 // fetch entry 467 le_device_db_entry_t entry; 468 le_device_db_tlv_fetch(i, &entry); 469 log_info("%u: %u %s", (unsigned int) i, entry.addr_type, bd_addr_to_str(entry.addr)); 470 log_info_key("ltk", entry.ltk); 471 log_info_key("irk", entry.irk); 472 #ifdef ENABLE_LE_SIGNED_WRITE 473 log_info_key("local csrk", entry.local_csrk); 474 log_info_key("remote csrk", entry.remote_csrk); 475 #endif 476 } 477 } 478 479 void le_device_db_tlv_configure(const btstack_tlv_t * btstack_tlv_impl, void * btstack_tlv_context){ 480 le_device_db_tlv_btstack_tlv_impl = btstack_tlv_impl; 481 le_device_db_tlv_btstack_tlv_context = btstack_tlv_context; 482 le_device_db_tlv_scan(); 483 } 484