/* * Copyright (C) 2014 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. Any redistribution, use, or modification is done solely for * personal benefit and not for any commercial purpose or for * monetary gain. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Please inquire about commercial licensing options at * contact@bluekitchen-gmbh.com * */ #define BTSTACK_FILE__ "le_device_db_fs.c" #include #include #include "btstack_config.h" #include "btstack_debug.h" #include "ble/le_device_db.h" #include "ble/core.h" // Central Device db implemenation using static memory typedef struct le_device_memory_db { // Identification int addr_type; bd_addr_t addr; sm_key_t irk; // Stored pairing information allows to re-establish an enncrypted connection // with a peripheral that doesn't have any persistent memory sm_key_t ltk; uint16_t ediv; uint8_t rand[8]; uint8_t key_size; uint8_t authenticated; uint8_t authorized; uint8_t secure_connection; #ifdef ENABLE_LE_SIGNED_WRITE // Signed Writes by remote sm_key_t remote_csrk; uint32_t remote_counter; // Signed Writes by us sm_key_t local_csrk; uint32_t local_counter; #endif } le_device_memory_db_t; #define LE_DEVICE_MEMORY_SIZE 20 #ifndef LE_DEVICE_DB_PATH #ifdef _WIN32 #define LE_DEVICE_DB_PATH "" #else #define LE_DEVICE_DB_PATH "/tmp/" #endif #endif #define DB_PATH_TEMPLATE (LE_DEVICE_DB_PATH "btstack_at_%s_le_device_db.txt") #ifdef ENABLE_LE_SIGNED_WRITE const char * csv_header = "# addr_type, addr, irk, ltk, ediv, rand[8], key_size, authenticated, authorized, remote_csrk, remote_counter, local_csrk, local_counter, secure_connection"; #else const char * csv_header = "# addr_type, addr, irk, ltk, ediv, rand[8], key_size, authenticated, authorized, secure_connection"; #endif static char db_path[sizeof(DB_PATH_TEMPLATE) - 2 + 17 + 1]; static le_device_memory_db_t le_devices[LE_DEVICE_MEMORY_SIZE]; static char bd_addr_to_dash_str_buffer[6*3]; // 12-45-78-01-34-67\0 static char * bd_addr_to_dash_str(bd_addr_t addr){ char * p = bd_addr_to_dash_str_buffer; int i; for (i = 0; i < 6 ; i++) { *p++ = char_for_nibble((addr[i] >> 4) & 0x0F); *p++ = char_for_nibble((addr[i] >> 0) & 0x0F); *p++ = '-'; } *--p = 0; return (char *) bd_addr_to_dash_str_buffer; } static inline void write_delimiter(FILE * wFile){ fwrite(",", 1, 1, wFile); } static inline void write_hex_byte(FILE * wFile, uint8_t value){ char buffer[2]; buffer[0] = char_for_nibble(value >> 4); buffer[1] = char_for_nibble(value & 0x0f); fwrite(buffer, 2, 1, wFile); } static inline void write_str(FILE * wFile, const char * str){ fwrite(str, strlen(str), 1, wFile); write_delimiter(wFile); } static void write_hex(FILE * wFile, const uint8_t * value, int len){ int i; for (i = 0; i < len; i++){ write_hex_byte(wFile, value[i]); } write_delimiter(wFile); } static void write_value(FILE * wFile, uint32_t value, int len){ switch (len){ case 4: write_hex_byte(wFile, value >> 24); case 3: write_hex_byte(wFile, value >> 16); case 2: write_hex_byte(wFile, value >> 8); case 1: default: write_hex_byte(wFile, value); } write_delimiter(wFile); } static void le_device_db_store(void) { int i; // open file FILE * wFile = fopen(db_path,"w+"); if (wFile == NULL) return; fwrite(csv_header, strlen(csv_header), 1, wFile); fwrite("\n", 1, 1, wFile); for (i=0;i= 0){ int d = fgetc(wFile); le_devices[i].secure_connection = nibble_for_char(c) << 4 | nibble_for_char(d); // read delimiter read_delimiter(wFile); // read newline fgetc(wFile); } } exit: fclose(wFile); } void le_device_db_init(void){ int i; for (i=0;iediv = ediv; if (rand) memcpy(device->rand, rand, 8); if (ltk) memcpy(device->ltk, ltk, 16); device->key_size = key_size; device->authenticated = authenticated; device->authorized = authorized; device->secure_connection = secure_connection; le_device_db_store(); } 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){ le_device_memory_db_t * device = &le_devices[index]; log_info("LE Device DB encryption for %u, ediv x%04x, keysize %u, authenticated %u, authorized %u, secure connection %u", index, device->ediv, device->key_size, device->authenticated, device->authorized, device->secure_connection); if (ediv) *ediv = device->ediv; if (rand) memcpy(rand, device->rand, 8); if (ltk) memcpy(ltk, device->ltk, 16); if (key_size) *key_size = device->key_size; if (authenticated) *authenticated = device->authenticated; if (authorized) *authorized = device->authorized; if (secure_connection) *secure_connection = device->secure_connection; } #ifdef ENABLE_LE_SIGNED_WRITE // get signature key void le_device_db_remote_csrk_get(int index, sm_key_t csrk){ if (index < 0 || index >= LE_DEVICE_MEMORY_SIZE){ log_error("le_device_db_remote_csrk_get called with invalid index %d", index); return; } if (csrk) memcpy(csrk, le_devices[index].remote_csrk, 16); } void le_device_db_remote_csrk_set(int index, sm_key_t csrk){ if (index < 0 || index >= LE_DEVICE_MEMORY_SIZE){ log_error("le_device_db_remote_csrk_set called with invalid index %d", index); return; } if (csrk) memcpy(le_devices[index].remote_csrk, csrk, 16); le_device_db_store(); } void le_device_db_local_csrk_get(int index, sm_key_t csrk){ if (index < 0 || index >= LE_DEVICE_MEMORY_SIZE){ log_error("le_device_db_local_csrk_get called with invalid index %d", index); return; } if (csrk) memcpy(csrk, le_devices[index].local_csrk, 16); } void le_device_db_local_csrk_set(int index, sm_key_t csrk){ if (index < 0 || index >= LE_DEVICE_MEMORY_SIZE){ log_error("le_device_db_local_csrk_set called with invalid index %d", index); return; } if (csrk) memcpy(le_devices[index].local_csrk, csrk, 16); le_device_db_store(); } // query last used/seen signing counter uint32_t le_device_db_remote_counter_get(int index){ return le_devices[index].remote_counter; } // update signing counter void le_device_db_remote_counter_set(int index, uint32_t counter){ le_devices[index].remote_counter = counter; le_device_db_store(); } // query last used/seen signing counter uint32_t le_device_db_local_counter_get(int index){ return le_devices[index].local_counter; } // update signing counter void le_device_db_local_counter_set(int index, uint32_t counter){ le_devices[index].local_counter = counter; le_device_db_store(); } #endif void le_device_db_dump(void){ log_info("Central Device DB dump, devices: %d", le_device_db_count()); int i; for (i=0;i