flipperzero-firmware/applications/services/bt/bt_service/bt_keys_storage.c

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#include "bt_keys_storage.h"
#include <furi.h>
#include <furi_hal_bt.h>
#include <lib/toolbox/saved_struct.h>
#include <storage/storage.h>
#define BT_KEYS_STORAGE_VERSION (0)
#define BT_KEYS_STORAGE_MAGIC (0x18)
#define TAG "BtKeyStorage"
struct BtKeysStorage {
uint8_t* nvm_sram_buff;
uint16_t nvm_sram_buff_size;
FuriString* file_path;
};
bool bt_keys_storage_delete(BtKeysStorage* instance) {
furi_assert(instance);
bool delete_succeed = false;
bool bt_is_active = furi_hal_bt_is_active();
furi_hal_bt_stop_advertising();
delete_succeed = furi_hal_bt_clear_white_list();
if(bt_is_active) {
furi_hal_bt_start_advertising();
}
return delete_succeed;
}
BtKeysStorage* bt_keys_storage_alloc(const char* keys_storage_path) {
furi_assert(keys_storage_path);
BtKeysStorage* instance = malloc(sizeof(BtKeysStorage));
// Set default nvm ram parameters
furi_hal_bt_get_key_storage_buff(&instance->nvm_sram_buff, &instance->nvm_sram_buff_size);
// Set key storage file
instance->file_path = furi_string_alloc();
furi_string_set_str(instance->file_path, keys_storage_path);
return instance;
}
void bt_keys_storage_free(BtKeysStorage* instance) {
furi_assert(instance);
furi_string_free(instance->file_path);
free(instance);
}
void bt_keys_storage_set_file_path(BtKeysStorage* instance, const char* path) {
furi_assert(instance);
furi_assert(path);
furi_string_set_str(instance->file_path, path);
}
void bt_keys_storage_set_ram_params(BtKeysStorage* instance, uint8_t* buff, uint16_t size) {
furi_assert(instance);
furi_assert(buff);
instance->nvm_sram_buff = buff;
instance->nvm_sram_buff_size = size;
}
bool bt_keys_storage_load(BtKeysStorage* instance) {
furi_assert(instance);
bool loaded = false;
do {
// Get payload size
size_t payload_size = 0;
if(!saved_struct_get_payload_size(
furi_string_get_cstr(instance->file_path),
BT_KEYS_STORAGE_MAGIC,
BT_KEYS_STORAGE_VERSION,
&payload_size)) {
FURI_LOG_E(TAG, "Failed to read payload size");
break;
}
if(payload_size > instance->nvm_sram_buff_size) {
FURI_LOG_E(TAG, "Saved data doesn't fit ram buffer");
break;
}
// Load saved data to ram
furi_hal_bt_nvm_sram_sem_acquire();
bool data_loaded = saved_struct_load(
furi_string_get_cstr(instance->file_path),
instance->nvm_sram_buff,
payload_size,
BT_KEYS_STORAGE_MAGIC,
BT_KEYS_STORAGE_VERSION);
furi_hal_bt_nvm_sram_sem_release();
if(!data_loaded) {
FURI_LOG_E(TAG, "Failed to load struct");
break;
}
loaded = true;
} while(false);
return loaded;
}
bool bt_keys_storage_update(BtKeysStorage* instance, uint8_t* start_addr, uint32_t size) {
furi_assert(instance);
furi_assert(start_addr);
bool updated = false;
FURI_LOG_I(
TAG,
"Base address: %p. Start update address: %p. Size changed: %lu",
(void*)instance->nvm_sram_buff,
start_addr,
size);
do {
size_t new_size = start_addr - instance->nvm_sram_buff + size;
if(new_size > instance->nvm_sram_buff_size) {
FURI_LOG_E(TAG, "NVM RAM buffer overflow");
break;
}
furi_hal_bt_nvm_sram_sem_acquire();
bool data_updated = saved_struct_save(
furi_string_get_cstr(instance->file_path),
instance->nvm_sram_buff,
new_size,
BT_KEYS_STORAGE_MAGIC,
BT_KEYS_STORAGE_VERSION);
furi_hal_bt_nvm_sram_sem_release();
if(!data_updated) {
FURI_LOG_E(TAG, "Failed to update key storage");
break;
}
updated = true;
} while(false);
return updated;
}