/* * This file is part of the MicroPython project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2019 Dan Halbert for Adafruit Industries * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include #include #include "ble.h" #include "ble_drv.h" #include "shared-bindings/_bleio/__init__.h" #include "shared-bindings/_bleio/Adapter.h" #include "shared-bindings/nvm/ByteArray.h" #include "supervisor/shared/tick.h" #include "nrf_soc.h" #include "bonding.h" // Internal flash area reserved for bonding storage. #define BONDING_PAGES_START_ADDR CIRCUITPY_BLE_CONFIG_START_ADDR #define BONDING_PAGES_END_ADDR (CIRCUITPY_BLE_CONFIG_START_ADDR + CIRCUITPY_BLE_CONFIG_SIZE) // First and last four bytes are magic bytes for id and version. Data is in between. // 'BD01' const uint32_t BONDING_FLAG = ('1' | '0' << 8 | 'D' << 16 | 'B' << 24); #define BONDING_DATA_START_ADDR (BONDING_PAGES_START_ADDR + sizeof(BONDING_FLAG)) #define BONDING_DATA_END_ADDR (BONDING_PAGES_END_ADDR - sizeof(BONDING_FLAG)) #define BONDING_START_FLAG_ADDR BONDING_PAGES_START_ADDR #define BONDING_END_FLAG_ADDR BONDING_DATA_END_ADDR // Save both system and user service info. #define SYS_ATTR_FLAGS (BLE_GATTS_SYS_ATTR_FLAG_SYS_SRVCS | BLE_GATTS_SYS_ATTR_FLAG_USR_SRVCS) #if BONDING_DEBUG void bonding_print_block(bonding_block_t *block) { printf("at 0x%08lx: is_central: %1d, type: 0x%x, ediv: 0x%04x, data_length: %d\n", (uint32_t) block, block->is_central, block->type, block->ediv, block->data_length); } void bonding_print_keys(bonding_keys_t *keys) { for (size_t i = 0; i < sizeof(bonding_keys_t); i ++) { printf("%x", ((uint8_t*) keys)[i]); } printf("\n"); } #endif STATIC size_t compute_block_size(uint16_t data_length) { // Round data size up to the nearest 32-bit address. return sizeof(bonding_block_t) + ((data_length + 3) & ~0x3); } void bonding_erase_storage(void) { // Erase all pages in the bonding area. for(uint32_t page_address = BONDING_PAGES_START_ADDR; page_address < BONDING_PAGES_END_ADDR; page_address += FLASH_PAGE_SIZE) { // Argument is page number, not address. sd_flash_page_erase_sync(page_address / FLASH_PAGE_SIZE); } // Write marker words at the beginning and the end of the bonding area. uint32_t flag = BONDING_FLAG; sd_flash_write_sync((uint32_t *) BONDING_START_FLAG_ADDR, &flag, 1); sd_flash_write_sync((uint32_t *) BONDING_END_FLAG_ADDR, &flag, 1); } // Given NULL to start or block address, return the address of the next valid block. // The last block returned is the unused block at the end. // Return NULL if we have run off the end of the bonding space. STATIC bonding_block_t *next_block(bonding_block_t *block) { while (1) { // Advance to next block. if (block == NULL) { return (bonding_block_t *) BONDING_DATA_START_ADDR; } else if (block->type == BLOCK_UNUSED) { // Already at last block (the unused block). return NULL; } // Advance to next block. block = (bonding_block_t *) ((uint8_t *) block + compute_block_size(block->data_length)); if (block >= (bonding_block_t *) BONDING_DATA_END_ADDR) { // Went past end of bonding space. return NULL; } if (block->type != BLOCK_INVALID) { // Found an empty or a valid block. return block; } // Invalid block (was erased); try again. } } // Find the block with given is_central, type and ediv value. // If type == BLOCK_UNUSED, ediv is ignored and the the sole unused block at the end is returned. // If not found, return NULL. STATIC bonding_block_t *find_existing_block(bool is_central, bonding_block_type_t type, uint16_t ediv) { bonding_block_t *block = NULL; while (1) { block = next_block(block); if (block == NULL) { return NULL; } // If types match, and block is unused, just return it. // Otherwise check that is_central and ediv match. if (type == block->type) { if (type == BLOCK_UNUSED || (is_central == block->is_central && ediv == block->ediv)) { return block; } } } } // Get an empty block large enough to store data_length data. STATIC bonding_block_t* find_unused_block(uint16_t data_length) { bonding_block_t *unused_block = find_existing_block(true, BLOCK_UNUSED, EDIV_INVALID); // If no more room, erase all existing blocks and start over. if (!unused_block || (uint8_t *) unused_block + compute_block_size(data_length) >= (uint8_t *) BONDING_DATA_END_ADDR) { bonding_erase_storage(); unused_block = (bonding_block_t *) BONDING_DATA_START_ADDR; } return unused_block; } // Set the header word to all 0's, to mark the block as invalid. // We don't change data_length, so we can still skip over this block. STATIC void invalidate_block(bonding_block_t *block) { uint32_t zero = 0; sd_flash_write_sync((uint32_t *) block, &zero, 1); } // Write bonding block header. STATIC void write_block_header(bonding_block_t *dest_block, bonding_block_t *source_block_header) { sd_flash_write_sync((uint32_t *) dest_block, (uint32_t *) source_block_header, sizeof(bonding_block_t) / 4); } // Write variable-length data at end of bonding block. STATIC void write_block_data(bonding_block_t *dest_block, uint8_t *data, uint16_t data_length) { // Minimize the number of writes. Datasheet says no more than two writes per word before erasing again. // Start writing after the current header. uint32_t *flash_word_p = (uint32_t *) ((uint8_t *) dest_block + sizeof(bonding_block_t)); while (1) { uint32_t word = 0xffffffff; memcpy(&word, data, data_length >= 4 ? 4 : data_length); sd_flash_write_sync(flash_word_p, &word, 1); if (data_length <= 4) { break; } data_length -= 4; data += 4; // Increment by word size. flash_word_p++; } } STATIC void write_sys_attr_block(bleio_connection_internal_t *connection) { uint16_t length = 0; // First find out how big a buffer we need, then fetch the data. if(sd_ble_gatts_sys_attr_get(connection->conn_handle, NULL, &length, SYS_ATTR_FLAGS) != NRF_SUCCESS) { return; } uint8_t sys_attr[length]; if(sd_ble_gatts_sys_attr_get(connection->conn_handle, sys_attr, &length, SYS_ATTR_FLAGS) != NRF_SUCCESS) { return; } // Is there an existing sys_attr block that matches the current sys_attr data? bonding_block_t *existing_block = find_existing_block(connection->is_central, BLOCK_SYS_ATTR, connection->ediv); if (existing_block) { if (length == existing_block->data_length && memcmp(sys_attr, existing_block->data, length) == 0) { // Identical block found. No need to store again. return; } // Data doesn't match. Invalidate block and store a new one. invalidate_block(existing_block); } bonding_block_t block_header = { .is_central = connection->is_central, .type = BLOCK_SYS_ATTR, .ediv = connection->ediv, .conn_handle = connection->conn_handle, .data_length = length, }; bonding_block_t *new_block = find_unused_block(length); write_block_header(new_block, &block_header); write_block_data(new_block, sys_attr, length); return; } STATIC void write_keys_block(bleio_connection_internal_t *connection) { uint16_t const ediv = connection->is_central ? connection->bonding_keys.peer_enc.master_id.ediv : connection->bonding_keys.own_enc.master_id.ediv; // Is there an existing keys block that matches? bonding_block_t *existing_block = find_existing_block(connection->is_central, BLOCK_KEYS, ediv); if (existing_block) { if (existing_block->data_length == sizeof(bonding_keys_t) && memcmp(existing_block->data, &connection->bonding_keys, sizeof(bonding_keys_t)) == 0) { // Identical block found. No need to store again. return; } // Data doesn't match. Invalidate block and store a new one. invalidate_block(existing_block); } bonding_block_t block_header = { .is_central = connection->is_central, .type = BLOCK_KEYS, .ediv = ediv, .conn_handle = connection->conn_handle, .data_length = sizeof(bonding_keys_t), }; bonding_block_t *new_block = find_unused_block(sizeof(bonding_keys_t)); write_block_header(new_block, &block_header); write_block_data(new_block, (uint8_t *) &connection->bonding_keys, sizeof(bonding_keys_t)); } void bonding_clear_keys(bonding_keys_t *bonding_keys) { memset((uint8_t*) bonding_keys, 0, sizeof(bonding_keys_t)); } void bonding_reset(void) { if (BONDING_FLAG != *((uint32_t *) BONDING_START_FLAG_ADDR) || BONDING_FLAG != *((uint32_t *) BONDING_END_FLAG_ADDR)) { bonding_erase_storage(); } } // Write bonding blocks to flash. Requests have been queued during evt handlers. void bonding_background(void) { // A paired connection will request that its keys and CCCD values be stored. // The CCCD store whenever a CCCD value is written. for (size_t i = 0; i < BLEIO_TOTAL_CONNECTION_COUNT; i++) { bleio_connection_internal_t *connection = &bleio_connections[i]; // Wait at least one second before saving CCCD, to consolidate // writes that involve multiple CCCDs. For instance, for HID, // three CCCD's are set in short succession by the HID client. if (connection->do_bond_cccds) { uint64_t current_ticks_ms = supervisor_ticks_ms64(); if (current_ticks_ms - connection->do_bond_cccds_request_time >= 1000) { write_sys_attr_block(connection); connection->do_bond_cccds = false; } } if (connection->do_bond_keys) { write_keys_block(connection); connection->do_bond_keys = false; } } } bool bonding_load_cccd_info(bool is_central, uint16_t conn_handle, uint16_t ediv) { bonding_block_t *block = find_existing_block(is_central, BLOCK_SYS_ATTR, ediv); if (block == NULL) { return false; } return NRF_SUCCESS == sd_ble_gatts_sys_attr_set(conn_handle, block->data, block->data_length, SYS_ATTR_FLAGS); } bool bonding_load_keys(bool is_central, uint16_t ediv, bonding_keys_t *bonding_keys) { bonding_block_t *block = find_existing_block(is_central, BLOCK_KEYS, ediv); if (block == NULL) { return false; } if (sizeof(bonding_keys_t) != block->data_length) { // bonding_keys_t is a fixed length, so lengths should match. return false; } memcpy(bonding_keys, block->data, block->data_length); return true; }