#include #include #include #include #include #include #include #include #include #include #include #include #define TAG "FuriHalBt" #define FURI_HAL_BT_DEFAULT_MAC_ADDR \ { 0x6c, 0x7a, 0xd8, 0xac, 0x57, 0x72 } /* Time, in ms, to wait for mode transition before crashing */ #define C2_MODE_SWITCH_TIMEOUT 10000 #define FURI_HAL_BT_HARDFAULT_INFO_MAGIC 0x1170FD0F typedef struct { FuriMutex* core2_mtx; FuriTimer* hardfault_check_timer; FuriHalBtStack stack; } FuriHalBt; static FuriHalBt furi_hal_bt = { .core2_mtx = NULL, .hardfault_check_timer = NULL, .stack = FuriHalBtStackUnknown, }; typedef void (*FuriHalBtProfileStart)(void); typedef void (*FuriHalBtProfileStop)(void); typedef struct { FuriHalBtProfileStart start; FuriHalBtProfileStart stop; GapConfig config; uint16_t appearance_char; uint16_t advertise_service_uuid; } FuriHalBtProfileConfig; FuriHalBtProfileConfig profile_config[FuriHalBtProfileNumber] = { [FuriHalBtProfileSerial] = { .start = furi_hal_bt_serial_start, .stop = furi_hal_bt_serial_stop, .config = { .adv_service_uuid = 0x3080, .appearance_char = 0x8600, .bonding_mode = true, .pairing_method = GapPairingPinCodeShow, .mac_address = FURI_HAL_BT_DEFAULT_MAC_ADDR, .conn_param = { .conn_int_min = 0x18, // 30 ms .conn_int_max = 0x24, // 45 ms .slave_latency = 0, .supervisor_timeout = 0, }, }, }, [FuriHalBtProfileHidKeyboard] = { .start = furi_hal_bt_hid_start, .stop = furi_hal_bt_hid_stop, .config = { .adv_service_uuid = HUMAN_INTERFACE_DEVICE_SERVICE_UUID, .appearance_char = GAP_APPEARANCE_KEYBOARD, .bonding_mode = true, .pairing_method = GapPairingPinCodeVerifyYesNo, .mac_address = FURI_HAL_BT_DEFAULT_MAC_ADDR, .conn_param = { .conn_int_min = 0x18, // 30 ms .conn_int_max = 0x24, // 45 ms .slave_latency = 0, .supervisor_timeout = 0, }, }, }, }; FuriHalBtProfileConfig* current_profile = NULL; static void furi_hal_bt_hardfault_check(void* context) { UNUSED(context); if(furi_hal_bt_get_hardfault_info()) { furi_crash("ST(R) Copro(R) HardFault"); } } void furi_hal_bt_init() { furi_hal_bus_enable(FuriHalBusHSEM); furi_hal_bus_enable(FuriHalBusIPCC); furi_hal_bus_enable(FuriHalBusAES2); furi_hal_bus_enable(FuriHalBusPKA); furi_hal_bus_enable(FuriHalBusCRC); if(!furi_hal_bt.core2_mtx) { furi_hal_bt.core2_mtx = furi_mutex_alloc(FuriMutexTypeNormal); furi_assert(furi_hal_bt.core2_mtx); } if(!furi_hal_bt.hardfault_check_timer) { furi_hal_bt.hardfault_check_timer = furi_timer_alloc(furi_hal_bt_hardfault_check, FuriTimerTypePeriodic, NULL); furi_timer_start(furi_hal_bt.hardfault_check_timer, 5000); } // Explicitly tell that we are in charge of CLK48 domain furi_check(LL_HSEM_1StepLock(HSEM, CFG_HW_CLK48_CONFIG_SEMID) == 0); // Start Core2 ble_glue_init(); } void furi_hal_bt_lock_core2() { furi_assert(furi_hal_bt.core2_mtx); furi_check(furi_mutex_acquire(furi_hal_bt.core2_mtx, FuriWaitForever) == FuriStatusOk); } void furi_hal_bt_unlock_core2() { furi_assert(furi_hal_bt.core2_mtx); furi_check(furi_mutex_release(furi_hal_bt.core2_mtx) == FuriStatusOk); } static bool furi_hal_bt_radio_stack_is_supported(const BleGlueC2Info* info) { bool supported = false; if(info->StackType == INFO_STACK_TYPE_BLE_LIGHT) { if(info->VersionMajor >= FURI_HAL_BT_STACK_VERSION_MAJOR && info->VersionMinor >= FURI_HAL_BT_STACK_VERSION_MINOR) { furi_hal_bt.stack = FuriHalBtStackLight; supported = true; } } else if(info->StackType == INFO_STACK_TYPE_BLE_FULL) { if(info->VersionMajor >= FURI_HAL_BT_STACK_VERSION_MAJOR && info->VersionMinor >= FURI_HAL_BT_STACK_VERSION_MINOR) { furi_hal_bt.stack = FuriHalBtStackFull; supported = true; } } else { furi_hal_bt.stack = FuriHalBtStackUnknown; } return supported; } bool furi_hal_bt_start_radio_stack() { bool res = false; furi_assert(furi_hal_bt.core2_mtx); furi_mutex_acquire(furi_hal_bt.core2_mtx, FuriWaitForever); // Explicitly tell that we are in charge of CLK48 domain furi_check(LL_HSEM_1StepLock(HSEM, CFG_HW_CLK48_CONFIG_SEMID) == 0); do { // Wait until C2 is started or timeout if(!ble_glue_wait_for_c2_start(FURI_HAL_BT_C2_START_TIMEOUT)) { FURI_LOG_E(TAG, "Core2 start failed"); ble_glue_thread_stop(); break; } // If C2 is running, start radio stack fw if(!furi_hal_bt_ensure_c2_mode(BleGlueC2ModeStack)) { break; } // Check whether we support radio stack const BleGlueC2Info* c2_info = ble_glue_get_c2_info(); if(!furi_hal_bt_radio_stack_is_supported(c2_info)) { FURI_LOG_E(TAG, "Unsupported radio stack"); // Don't stop SHCI for crypto enclave support break; } // Starting radio stack if(!ble_glue_start()) { FURI_LOG_E(TAG, "Failed to start radio stack"); ble_glue_thread_stop(); ble_app_thread_stop(); break; } res = true; } while(false); furi_mutex_release(furi_hal_bt.core2_mtx); return res; } FuriHalBtStack furi_hal_bt_get_radio_stack() { return furi_hal_bt.stack; } bool furi_hal_bt_is_ble_gatt_gap_supported() { if(furi_hal_bt.stack == FuriHalBtStackLight || furi_hal_bt.stack == FuriHalBtStackFull) { return true; } else { return false; } } bool furi_hal_bt_is_testing_supported() { if(furi_hal_bt.stack == FuriHalBtStackFull) { return true; } else { return false; } } bool furi_hal_bt_start_app(FuriHalBtProfile profile, GapEventCallback event_cb, void* context) { furi_assert(event_cb); furi_assert(profile < FuriHalBtProfileNumber); bool ret = false; do { if(!ble_glue_is_radio_stack_ready()) { FURI_LOG_E(TAG, "Can't start BLE App - radio stack did not start"); break; } if(!furi_hal_bt_is_ble_gatt_gap_supported()) { FURI_LOG_E(TAG, "Can't start Ble App - unsupported radio stack"); break; } // Set mac address memcpy( profile_config[profile].config.mac_address, furi_hal_version_get_ble_mac(), sizeof(profile_config[profile].config.mac_address)); // Set advertise name strlcpy( profile_config[profile].config.adv_name, furi_hal_version_get_ble_local_device_name_ptr(), FURI_HAL_VERSION_DEVICE_NAME_LENGTH); // Configure GAP GapConfig* config = &profile_config[profile].config; if(profile == FuriHalBtProfileSerial) { config->adv_service_uuid |= furi_hal_version_get_hw_color(); } else if(profile == FuriHalBtProfileHidKeyboard) { // Change MAC address for HID profile config->mac_address[2]++; // Change name Flipper -> Control const char* clicker_str = "Control"; memcpy(&config->adv_name[1], clicker_str, strlen(clicker_str)); } if(!gap_init(config, event_cb, context)) { gap_thread_stop(); FURI_LOG_E(TAG, "Failed to init GAP"); break; } // Start selected profile services if(furi_hal_bt_is_ble_gatt_gap_supported()) { profile_config[profile].start(); } ret = true; } while(false); current_profile = &profile_config[profile]; return ret; } void furi_hal_bt_reinit() { FURI_LOG_I(TAG, "Disconnect and stop advertising"); furi_hal_bt_stop_advertising(); FURI_LOG_I(TAG, "Stop current profile services"); current_profile->stop(); // Magic happens here hci_reset(); FURI_LOG_I(TAG, "Stop BLE related RTOS threads"); ble_app_thread_stop(); gap_thread_stop(); FURI_LOG_I(TAG, "Reset SHCI"); furi_check(ble_glue_reinit_c2()); furi_delay_ms(100); ble_glue_thread_stop(); furi_hal_bus_disable(FuriHalBusHSEM); furi_hal_bus_disable(FuriHalBusIPCC); furi_hal_bus_disable(FuriHalBusAES2); furi_hal_bus_disable(FuriHalBusPKA); furi_hal_bus_disable(FuriHalBusCRC); FURI_LOG_I(TAG, "Start BT initialization"); furi_hal_bt_init(); furi_hal_bt_start_radio_stack(); } bool furi_hal_bt_change_app(FuriHalBtProfile profile, GapEventCallback event_cb, void* context) { furi_assert(event_cb); furi_assert(profile < FuriHalBtProfileNumber); bool ret = true; furi_hal_bt_reinit(); ret = furi_hal_bt_start_app(profile, event_cb, context); if(ret) { current_profile = &profile_config[profile]; } return ret; } bool furi_hal_bt_is_active() { return gap_get_state() > GapStateIdle; } void furi_hal_bt_start_advertising() { if(gap_get_state() == GapStateIdle) { gap_start_advertising(); } } void furi_hal_bt_stop_advertising() { if(furi_hal_bt_is_active()) { gap_stop_advertising(); while(furi_hal_bt_is_active()) { furi_delay_tick(1); } } } void furi_hal_bt_update_battery_level(uint8_t battery_level) { if(battery_svc_is_started()) { battery_svc_update_level(battery_level); } } void furi_hal_bt_update_power_state() { if(battery_svc_is_started()) { battery_svc_update_power_state(); } } void furi_hal_bt_get_key_storage_buff(uint8_t** key_buff_addr, uint16_t* key_buff_size) { ble_app_get_key_storage_buff(key_buff_addr, key_buff_size); } void furi_hal_bt_set_key_storage_change_callback( BleGlueKeyStorageChangedCallback callback, void* context) { furi_assert(callback); ble_glue_set_key_storage_changed_callback(callback, context); } void furi_hal_bt_nvm_sram_sem_acquire() { while(LL_HSEM_1StepLock(HSEM, CFG_HW_BLE_NVM_SRAM_SEMID)) { furi_thread_yield(); } } void furi_hal_bt_nvm_sram_sem_release() { LL_HSEM_ReleaseLock(HSEM, CFG_HW_BLE_NVM_SRAM_SEMID, 0); } bool furi_hal_bt_clear_white_list() { furi_hal_bt_nvm_sram_sem_acquire(); tBleStatus status = aci_gap_clear_security_db(); if(status) { FURI_LOG_E(TAG, "Clear while list failed with status %d", status); } furi_hal_bt_nvm_sram_sem_release(); return status != BLE_STATUS_SUCCESS; } void furi_hal_bt_dump_state(FuriString* buffer) { if(furi_hal_bt_is_alive()) { uint8_t HCI_Version; uint16_t HCI_Revision; uint8_t LMP_PAL_Version; uint16_t Manufacturer_Name; uint16_t LMP_PAL_Subversion; tBleStatus ret = hci_read_local_version_information( &HCI_Version, &HCI_Revision, &LMP_PAL_Version, &Manufacturer_Name, &LMP_PAL_Subversion); furi_string_cat_printf( buffer, "Ret: %d, HCI_Version: %d, HCI_Revision: %d, LMP_PAL_Version: %d, Manufacturer_Name: %d, LMP_PAL_Subversion: %d", ret, HCI_Version, HCI_Revision, LMP_PAL_Version, Manufacturer_Name, LMP_PAL_Subversion); } else { furi_string_cat_printf(buffer, "BLE not ready"); } } bool furi_hal_bt_is_alive() { return ble_glue_is_alive(); } void furi_hal_bt_start_tone_tx(uint8_t channel, uint8_t power) { aci_hal_set_tx_power_level(0, power); aci_hal_tone_start(channel, 0); } void furi_hal_bt_stop_tone_tx() { aci_hal_tone_stop(); } void furi_hal_bt_start_packet_tx(uint8_t channel, uint8_t pattern, uint8_t datarate) { hci_le_enhanced_transmitter_test(channel, 0x25, pattern, datarate); } void furi_hal_bt_start_packet_rx(uint8_t channel, uint8_t datarate) { hci_le_enhanced_receiver_test(channel, datarate, 0); } uint16_t furi_hal_bt_stop_packet_test() { uint16_t num_of_packets = 0; hci_le_test_end(&num_of_packets); return num_of_packets; } void furi_hal_bt_start_rx(uint8_t channel) { aci_hal_rx_start(channel); } float furi_hal_bt_get_rssi() { float val; uint8_t rssi_raw[3]; if(aci_hal_read_raw_rssi(rssi_raw) != BLE_STATUS_SUCCESS) { return 0.0f; } // Some ST magic with rssi uint8_t agc = rssi_raw[2] & 0xFF; int rssi = (((int)rssi_raw[1] << 8) & 0xFF00) + (rssi_raw[0] & 0xFF); if(rssi == 0 || agc > 11) { val = -127.0; } else { val = agc * 6.0f - 127.0f; while(rssi > 30) { val += 6.0; rssi >>= 1; } val += (float)((417 * rssi + 18080) >> 10); } return val; } uint32_t furi_hal_bt_get_transmitted_packets() { uint32_t packets = 0; aci_hal_le_tx_test_packet_number(&packets); return packets; } void furi_hal_bt_stop_rx() { aci_hal_rx_stop(); } bool furi_hal_bt_ensure_c2_mode(BleGlueC2Mode mode) { BleGlueCommandResult fw_start_res = ble_glue_force_c2_mode(mode); if(fw_start_res == BleGlueCommandResultOK) { return true; } else if(fw_start_res == BleGlueCommandResultRestartPending) { // Do nothing and wait for system reset furi_delay_ms(C2_MODE_SWITCH_TIMEOUT); furi_crash("Waiting for FUS->radio stack transition"); return true; } FURI_LOG_E(TAG, "Failed to switch C2 mode: %d", fw_start_res); return false; } const FuriHalBtHardfaultInfo* furi_hal_bt_get_hardfault_info() { /* AN5289, 4.8.2 */ const FuriHalBtHardfaultInfo* info = (FuriHalBtHardfaultInfo*)(SRAM2A_BASE); if(info->magic != FURI_HAL_BT_HARDFAULT_INFO_MAGIC) { return NULL; } return info; }