/* Copyright (c) 2012 Nordic Semiconductor. All Rights Reserved. * * The information contained herein is property of Nordic Semiconductor ASA. * Terms and conditions of usage are described in detail in NORDIC * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. * * Licensees are granted free, non-transferable use of the information. NO * WARRANTY of ANY KIND is provided. This heading must NOT be removed from * the file. * */ #include "softdevice_handler.h" #include #include #include #include #include "nordic_common.h" #include "app_error.h" #include "nrf_assert.h" #include "nrf_nvic.h" #include "nrf.h" #include "nrf_log.h" #include "sdk_common.h" #include "nrf_drv_config.h" #if CLOCK_ENABLED #include "nrf_drv_clock.h" #endif #if defined(ANT_STACK_SUPPORT_REQD) && defined(BLE_STACK_SUPPORT_REQD) #include "ant_interface.h" #elif defined(ANT_STACK_SUPPORT_REQD) #include "ant_interface.h" #elif defined(BLE_STACK_SUPPORT_REQD) #include "ble.h" #endif #if defined(NRF_LOG_USES_RTT) && NRF_LOG_USES_RTT == 1 #define SD_HANDLER_LOG(...) NRF_LOG_PRINTF(__VA_ARGS__) #else #define SD_HANDLER_LOG(...) #endif #if defined(NRF_LOG_USES_RTT) && NRF_LOG_USES_RTT == 1 #define SD_HANDLER_LOG_INIT() NRF_LOG_INIT() #else #define SD_HANDLER_LOG_INIT() #endif #define RAM_START_ADDRESS 0x20000000 #define SOFTDEVICE_EVT_IRQ SD_EVT_IRQn /**< SoftDevice Event IRQ number. Used for both protocol events and SoC events. */ #define SOFTDEVICE_EVT_IRQHandler SD_EVT_IRQHandler #define RAM_TOTAL_SIZE ((NRF_FICR->INFO.RAM)*1024) #define RAM_END_ADDRESS (RAM_START_ADDRESS + RAM_TOTAL_SIZE) #define SOFTDEVICE_VS_UUID_COUNT 0 #define SOFTDEVICE_GATTS_ATTR_TAB_SIZE BLE_GATTS_ATTR_TAB_SIZE_DEFAULT #define SOFTDEVICE_GATTS_SRV_CHANGED 0 #define SOFTDEVICE_PERIPH_CONN_COUNT 1 #define SOFTDEVICE_CENTRAL_CONN_COUNT 4 #define SOFTDEVICE_CENTRAL_SEC_COUNT 1 /* Global nvic state instance, required by nrf_nvic.h */ nrf_nvic_state_t nrf_nvic_state; static softdevice_evt_schedule_func_t m_evt_schedule_func; /**< Pointer to function for propagating SoftDevice events to the scheduler. */ static volatile bool m_softdevice_enabled = false; /**< Variable to indicate whether the SoftDevice is enabled. */ #ifdef BLE_STACK_SUPPORT_REQD // The following three definitions is needed only if BLE events are needed to be pulled from the stack. static uint8_t * mp_ble_evt_buffer; /**< Buffer for receiving BLE events from the SoftDevice. */ static uint16_t m_ble_evt_buffer_size; /**< Size of BLE event buffer. */ static ble_evt_handler_t m_ble_evt_handler; /**< Application event handler for handling BLE events. */ #endif #ifdef ANT_STACK_SUPPORT_REQD // The following two definition is needed only if ANT events are needed to be pulled from the stack. static ant_evt_t m_ant_evt_buffer; /**< Buffer for receiving ANT events from the SoftDevice. */ static ant_evt_handler_t m_ant_evt_handler; /**< Application event handler for handling ANT events. */ #endif static sys_evt_handler_t m_sys_evt_handler; /**< Application event handler for handling System (SOC) events. */ /**@brief Callback function for asserts in the SoftDevice. * * @details A pointer to this function will be passed to the SoftDevice. This function will be * called by the SoftDevice if certain unrecoverable errors occur within the * application or SoftDevice. * * See @ref nrf_fault_handler_t for more details. * * @param[in] id Fault identifier. See @ref NRF_FAULT_IDS. * @param[in] pc The program counter of the instruction that triggered the fault. * @param[in] info Optional additional information regarding the fault. Refer to each fault * identifier for details. */ void softdevice_fault_handler(uint32_t id, uint32_t pc, uint32_t info) { app_error_fault_handler(id, pc, info); } void intern_softdevice_events_execute(void) { if (!m_softdevice_enabled) { // SoftDevice not enabled. This can be possible if the SoftDevice was enabled by the // application without using this module's API (i.e softdevice_handler_init) return; } #if CLOCK_ENABLED bool no_more_soc_evts = false; #else bool no_more_soc_evts = (m_sys_evt_handler == NULL); #endif #ifdef BLE_STACK_SUPPORT_REQD bool no_more_ble_evts = (m_ble_evt_handler == NULL); #endif #ifdef ANT_STACK_SUPPORT_REQD bool no_more_ant_evts = (m_ant_evt_handler == NULL); #endif for (;;) { uint32_t err_code; if (!no_more_soc_evts) { uint32_t evt_id; // Pull event from SOC. err_code = sd_evt_get(&evt_id); if (err_code == NRF_ERROR_NOT_FOUND) { no_more_soc_evts = true; } else if (err_code != NRF_SUCCESS) { APP_ERROR_HANDLER(err_code); } else { // Call application's SOC event handler. #if CLOCK_ENABLED nrf_drv_clock_on_soc_event(evt_id); if (m_sys_evt_handler) { m_sys_evt_handler(evt_id); } #else m_sys_evt_handler(evt_id); #endif } } #ifdef BLE_STACK_SUPPORT_REQD // Fetch BLE Events. if (!no_more_ble_evts) { // Pull event from stack uint16_t evt_len = m_ble_evt_buffer_size; err_code = sd_ble_evt_get(mp_ble_evt_buffer, &evt_len); if (err_code == NRF_ERROR_NOT_FOUND) { no_more_ble_evts = true; } else if (err_code != NRF_SUCCESS) { APP_ERROR_HANDLER(err_code); } else { // Call application's BLE stack event handler. m_ble_evt_handler((ble_evt_t *)mp_ble_evt_buffer); } } #endif #ifdef ANT_STACK_SUPPORT_REQD // Fetch ANT Events. if (!no_more_ant_evts) { // Pull event from stack err_code = sd_ant_event_get(&m_ant_evt_buffer.channel, &m_ant_evt_buffer.event, m_ant_evt_buffer.msg.evt_buffer); if (err_code == NRF_ERROR_NOT_FOUND) { no_more_ant_evts = true; } else if (err_code != NRF_SUCCESS) { APP_ERROR_HANDLER(err_code); } else { // Call application's ANT stack event handler. m_ant_evt_handler(&m_ant_evt_buffer); } } #endif if (no_more_soc_evts) { // There are no remaining System (SOC) events to be fetched from the SoftDevice. #if defined(ANT_STACK_SUPPORT_REQD) && defined(BLE_STACK_SUPPORT_REQD) // Check if there are any remaining BLE and ANT events. if (no_more_ble_evts && no_more_ant_evts) { break; } #elif defined(BLE_STACK_SUPPORT_REQD) // Check if there are any remaining BLE events. if (no_more_ble_evts) { break; } #elif defined(ANT_STACK_SUPPORT_REQD) // Check if there are any remaining ANT events. if (no_more_ant_evts) { break; } #else // No need to check for BLE or ANT events since there is no support for BLE and ANT // required. break; #endif } } } bool softdevice_handler_isEnabled(void) { return m_softdevice_enabled; } uint32_t softdevice_handler_init(nrf_clock_lf_cfg_t * p_clock_lf_cfg, void * p_ble_evt_buffer, uint16_t ble_evt_buffer_size, softdevice_evt_schedule_func_t evt_schedule_func) { uint32_t err_code; SD_HANDLER_LOG_INIT(); // Save configuration. #if defined (BLE_STACK_SUPPORT_REQD) // Check that buffer is not NULL. if (p_ble_evt_buffer == NULL) { return NRF_ERROR_INVALID_PARAM; } // Check that buffer is correctly aligned. if (!is_word_aligned(p_ble_evt_buffer)) { return NRF_ERROR_INVALID_PARAM; } mp_ble_evt_buffer = (uint8_t *)p_ble_evt_buffer; m_ble_evt_buffer_size = ble_evt_buffer_size; #else // The variables p_ble_evt_buffer and ble_evt_buffer_size is not needed if BLE Stack support // is not required. UNUSED_PARAMETER(p_ble_evt_buffer); UNUSED_PARAMETER(ble_evt_buffer_size); #endif m_evt_schedule_func = evt_schedule_func; // Initialize SoftDevice. #if defined(S212) || defined(S332) err_code = sd_softdevice_enable(p_clock_lf_cfg, softdevice_fault_handler, ANT_LICENSE_KEY); #else err_code = sd_softdevice_enable(p_clock_lf_cfg, softdevice_fault_handler); #endif if (err_code != NRF_SUCCESS) { return err_code; } m_softdevice_enabled = true; // Enable BLE event interrupt (interrupt priority has already been set by the stack). #ifdef SOFTDEVICE_PRESENT return sd_nvic_EnableIRQ((IRQn_Type)SOFTDEVICE_EVT_IRQ); #else //In case of Serialization NVIC must be accessed directly. NVIC_EnableIRQ(SOFTDEVICE_EVT_IRQ); return NRF_SUCCESS; #endif } uint32_t softdevice_handler_sd_disable(void) { uint32_t err_code = sd_softdevice_disable(); m_softdevice_enabled = !(err_code == NRF_SUCCESS); return err_code; } #ifdef BLE_STACK_SUPPORT_REQD uint32_t softdevice_ble_evt_handler_set(ble_evt_handler_t ble_evt_handler) { VERIFY_PARAM_NOT_NULL(ble_evt_handler); m_ble_evt_handler = ble_evt_handler; return NRF_SUCCESS; } #endif #ifdef ANT_STACK_SUPPORT_REQD uint32_t softdevice_ant_evt_handler_set(ant_evt_handler_t ant_evt_handler) { VERIFY_PARAM_NOT_NULL(ant_evt_handler); m_ant_evt_handler = ant_evt_handler; return NRF_SUCCESS; } #endif uint32_t softdevice_sys_evt_handler_set(sys_evt_handler_t sys_evt_handler) { VERIFY_PARAM_NOT_NULL(sys_evt_handler); m_sys_evt_handler = sys_evt_handler; return NRF_SUCCESS; } /**@brief Function for handling the Application's BLE Stack events interrupt. * * @details This function is called whenever an event is ready to be pulled. */ void SOFTDEVICE_EVT_IRQHandler(void) { if (m_evt_schedule_func != NULL) { uint32_t err_code = m_evt_schedule_func(); APP_ERROR_CHECK(err_code); } else { intern_softdevice_events_execute(); } } #if 0 // S132 v500 change API #if defined(BLE_STACK_SUPPORT_REQD) uint32_t softdevice_enable_get_default_config(uint8_t central_links_count, uint8_t periph_links_count, ble_enable_params_t * p_ble_enable_params) { memset(p_ble_enable_params, 0, sizeof(ble_enable_params_t)); p_ble_enable_params->common_enable_params.vs_uuid_count = 1; p_ble_enable_params->gatts_enable_params.attr_tab_size = SOFTDEVICE_GATTS_ATTR_TAB_SIZE; p_ble_enable_params->gatts_enable_params.service_changed = SOFTDEVICE_GATTS_SRV_CHANGED; p_ble_enable_params->gap_enable_params.periph_conn_count = periph_links_count; p_ble_enable_params->gap_enable_params.central_conn_count = central_links_count; if (p_ble_enable_params->gap_enable_params.central_conn_count != 0) { p_ble_enable_params->gap_enable_params.central_sec_count = SOFTDEVICE_CENTRAL_SEC_COUNT; } return NRF_SUCCESS; } #if defined(NRF_LOG_USES_RTT) && NRF_LOG_USES_RTT == 1 static inline uint32_t ram_total_size_get(void) { #ifdef NRF51 uint32_t size_ram_blocks = (uint32_t)NRF_FICR->SIZERAMBLOCKS; uint32_t total_ram_size = size_ram_blocks; total_ram_size = total_ram_size*(NRF_FICR->NUMRAMBLOCK); return total_ram_size; #elif defined (NRF52) return RAM_TOTAL_SIZE; #endif /* NRF51 */ } /*lint --e{528} -save suppress 528: symbol not referenced */ /**@brief Function for finding the end address of the RAM. * * @retval ram_end_address Address of the end of the RAM. */ static inline uint32_t ram_end_address_get(void) { uint32_t ram_end_address = (uint32_t)RAM_START_ADDRESS; ram_end_address+= ram_total_size_get(); return ram_end_address; } /*lint -restore*/ #endif //ENABLE_DEBUG_LOG_SUPPORT /*lint --e{10} --e{19} --e{27} --e{40} --e{529} -save suppress Error 27: Illegal character */ uint32_t sd_check_ram_start(uint32_t sd_req_ram_start) { #if (defined(S130) || defined(S132) || defined(S332)) #if defined ( __CC_ARM ) extern uint32_t Image$$RW_IRAM1$$Base; const volatile uint32_t ram_start = (uint32_t) &Image$$RW_IRAM1$$Base; #elif defined ( __ICCARM__ ) extern uint32_t __ICFEDIT_region_RAM_start__; volatile uint32_t ram_start = (uint32_t) &__ICFEDIT_region_RAM_start__; #elif defined ( __GNUC__ ) extern uint32_t __data_start__; volatile uint32_t ram_start = (uint32_t) &__data_start__; #endif//__CC_ARM if (ram_start != sd_req_ram_start) { #if defined(NRF_LOG_USES_RTT) && NRF_LOG_USES_RTT == 1 uint32_t app_ram_size= ram_end_address_get(); SD_HANDLER_LOG("RAM START ADDR 0x%x should be adjusted to 0x%x\r\n", ram_start, sd_req_ram_start); app_ram_size -= sd_req_ram_start; SD_HANDLER_LOG("RAM SIZE should be adjusted to 0x%x \r\n", app_ram_size); #endif //NRF_LOG_USES_RTT return NRF_SUCCESS; } #endif//defined(S130) || defined(S132) || defined(S332) return NRF_SUCCESS; } uint32_t softdevice_enable(ble_enable_params_t * p_ble_enable_params) { #if (defined(S130) || defined(S132) || defined(S332)) uint32_t err_code; uint32_t app_ram_base; #if defined ( __CC_ARM ) extern uint32_t Image$$RW_IRAM1$$Base; const volatile uint32_t ram_start = (uint32_t) &Image$$RW_IRAM1$$Base; #elif defined ( __ICCARM__ ) extern uint32_t __ICFEDIT_region_RAM_start__; volatile uint32_t ram_start = (uint32_t) &__ICFEDIT_region_RAM_start__; #elif defined ( __GNUC__ ) extern uint32_t __data_start__; volatile uint32_t ram_start = (uint32_t) &__data_start__; #endif app_ram_base = ram_start; SD_HANDLER_LOG("sd_ble_enable: RAM START at 0x%x\r\n", app_ram_base); err_code = sd_ble_enable(p_ble_enable_params, &app_ram_base); #if defined(NRF_LOG_USES_RTT) && NRF_LOG_USES_RTT == 1 if (app_ram_base != ram_start) { uint32_t app_ram_size= ram_end_address_get(); SD_HANDLER_LOG("sd_ble_enable: app_ram_base should be adjusted to 0x%x\r\n", app_ram_base); app_ram_size -= app_ram_base; SD_HANDLER_LOG("ram size should be adjusted to 0x%x \r\n", app_ram_size); } else if (err_code != NRF_SUCCESS) { SD_HANDLER_LOG("sd_ble_enable: error 0x%x\r\n", err_code); while(1); } #endif // NRF_LOG_USES_RTT return err_code; #else return NRF_SUCCESS; #endif //defined(S130) || defined(S132) || defined(S332) } /*lint -restore*/ #endif #endif //BLE_STACK_SUPPORT_REQD