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|
#![cfg(feature = "wba")]
// /* USER CODE BEGIN Header */
// /**
// ******************************************************************************
// * @file ll_sys_if.c
// * @author MCD Application Team
// * @brief Source file for initiating system
// ******************************************************************************
// * @attention
// *
// * Copyright (c) 2022 STMicroelectronics.
// * All rights reserved.
// *
// * This software is licensed under terms that can be found in the LICENSE file
// * in the root directory of this software component.
// * If no LICENSE file comes with this software, it is provided AS-IS.
// *
// ******************************************************************************
// */
// /* USER CODE END Header */
//
// #include "main.h"
// #include "app_common.h"
// #include "app_conf.h"
// #include "log_module.h"
// #include "ll_intf_cmn.h"
// #include "ll_sys.h"
// #include "ll_sys_if.h"
// #include "stm32_rtos.h"
// #include "utilities_common.h"
// #if (USE_TEMPERATURE_BASED_RADIO_CALIBRATION == 1)
// #include "temp_measurement.h"
// #endif /* (USE_TEMPERATURE_BASED_RADIO_CALIBRATION == 1) */
// #if (CFG_LPM_STANDBY_SUPPORTED == 0)
// extern void profile_reset(void);
// #endif
// /* Private defines -----------------------------------------------------------*/
// /* Radio event scheduling method - must be set at 1 */
// #define USE_RADIO_LOW_ISR (1)
// #define NEXT_EVENT_SCHEDULING_FROM_ISR (1)
//
// /* USER CODE BEGIN PD */
//
// /* USER CODE END PD */
//
// /* Private macros ------------------------------------------------------------*/
// /* USER CODE BEGIN PM */
//
// /* USER CODE END PM */
//
// /* Private constants ---------------------------------------------------------*/
// /* USER CODE BEGIN PC */
//
// /* USER CODE END PC */
//
// /* Private variables ---------------------------------------------------------*/
// /* USER CODE BEGIN PV */
//
// /* USER CODE END PV */
//
// /* Global variables ----------------------------------------------------------*/
//
// /* USER CODE BEGIN GV */
//
// /* USER CODE END GV */
//
// /* Private functions prototypes-----------------------------------------------*/
// #if (USE_TEMPERATURE_BASED_RADIO_CALIBRATION == 1)
// static void ll_sys_bg_temperature_measurement_init(void);
// #endif /* USE_TEMPERATURE_BASED_RADIO_CALIBRATION */
// static void ll_sys_sleep_clock_source_selection(void);
// static uint8_t ll_sys_BLE_sleep_clock_accuracy_selection(void);
// void ll_sys_reset(void);
//
// /* USER CODE BEGIN PFP */
//
// /* USER CODE END PFP */
//
// /* External variables --------------------------------------------------------*/
//
// /* USER CODE BEGIN EV */
//
// /* USER CODE END EV */
//
// /* Functions Definition ------------------------------------------------------*/
//
// /**
// * @brief Link Layer background process initialization
// * @param None
// * @retval None
// */
// void ll_sys_bg_process_init(void)
// {
// /* Register Link Layer task */
// UTIL_SEQ_RegTask(1U << CFG_TASK_LINK_LAYER, UTIL_SEQ_RFU, ll_sys_bg_process);
// }
//
// /**
// * @brief Link Layer background process next iteration scheduling
// * @param None
// * @retval None
// */
// void ll_sys_schedule_bg_process(void)
// {
// UTIL_SEQ_SetTask(1U << CFG_TASK_LINK_LAYER, TASK_PRIO_LINK_LAYER);
// }
//
// /**
// * @brief Link Layer background process next iteration scheduling from ISR
// * @param None
// * @retval None
// */
// void ll_sys_schedule_bg_process_isr(void)
// {
// UTIL_SEQ_SetTask(1U << CFG_TASK_LINK_LAYER, TASK_PRIO_LINK_LAYER);
// }
//
// /**
// * @brief Link Layer configuration phase before application startup.
// * @param None
// * @retval None
// */
// void ll_sys_config_params(void)
// {
// /* USER CODE BEGIN ll_sys_config_params_0 */
//
// /* USER CODE END ll_sys_config_params_0 */
//
// /* Configure link layer behavior for low ISR use and next event scheduling method:
// * - SW low ISR is used.
// * - Next event is scheduled from ISR.
// */
// ll_intf_cmn_config_ll_ctx_params(USE_RADIO_LOW_ISR, NEXT_EVENT_SCHEDULING_FROM_ISR);
// /* Apply the selected link layer sleep timer source */
// ll_sys_sleep_clock_source_selection();
//
// /* USER CODE BEGIN ll_sys_config_params_1 */
//
// /* USER CODE END ll_sys_config_params_1 */
//
// #if (USE_TEMPERATURE_BASED_RADIO_CALIBRATION == 1)
// /* Initialize link layer temperature measurement background task */
// ll_sys_bg_temperature_measurement_init();
//
// /* Link layer IP uses temperature based calibration instead of periodic one */
// ll_intf_cmn_set_temperature_sensor_state();
// #endif /* USE_TEMPERATURE_BASED_RADIO_CALIBRATION */
//
// /* Link Layer power table */
// ll_intf_cmn_select_tx_power_table(CFG_RF_TX_POWER_TABLE_ID);
//
// #if (USE_CTE_DEGRADATION == 1u)
// /* Apply CTE degradation */
// ll_sys_apply_cte_settings ();
// #endif /* (USE_CTE_DEGRADATION == 1u) */
//
// /* USER CODE BEGIN ll_sys_config_params_2 */
//
// /* USER CODE END ll_sys_config_params_2 */
// }
//
// #if (USE_TEMPERATURE_BASED_RADIO_CALIBRATION == 1)
//
// /**
// * @brief Link Layer temperature request background process initialization
// * @param None
// * @retval None
// */
// void ll_sys_bg_temperature_measurement_init(void)
// {
// /* Register Temperature Measurement task */
// UTIL_SEQ_RegTask(1U << CFG_TASK_TEMP_MEAS, UTIL_SEQ_RFU, TEMPMEAS_RequestTemperatureMeasurement);
// }
//
// /**
// * @brief Request backroud task processing for temperature measurement
// * @param None
// * @retval None
// */
// void ll_sys_bg_temperature_measurement(void)
// {
// static uint8_t initial_temperature_acquisition = 0;
//
// if(initial_temperature_acquisition == 0)
// {
// TEMPMEAS_RequestTemperatureMeasurement();
// initial_temperature_acquisition = 1;
// }
// else
// {
// UTIL_SEQ_SetTask(1U << CFG_TASK_TEMP_MEAS, CFG_SEQ_PRIO_0);
// }
// }
//
// #endif /* USE_TEMPERATURE_BASED_RADIO_CALIBRATION */
//
// uint8_t ll_sys_BLE_sleep_clock_accuracy_selection(void)
// {
// uint8_t BLE_sleep_clock_accuracy = 0;
// #if (CFG_RADIO_LSE_SLEEP_TIMER_CUSTOM_SCA_RANGE == 0)
// uint32_t RevID = LL_DBGMCU_GetRevisionID();
// #endif
// uint32_t linklayer_slp_clk_src = LL_RCC_RADIO_GetSleepTimerClockSource();
//
// if(linklayer_slp_clk_src == LL_RCC_RADIOSLEEPSOURCE_LSE)
// {
// /* LSE selected as Link Layer sleep clock source.
// Sleep clock accuracy is different regarding the WBA device ID and revision
// */
// #if (CFG_RADIO_LSE_SLEEP_TIMER_CUSTOM_SCA_RANGE == 0)
// #if defined(STM32WBA52xx) || defined(STM32WBA54xx) || defined(STM32WBA55xx)
// if(RevID == REV_ID_A)
// {
// BLE_sleep_clock_accuracy = STM32WBA5x_REV_ID_A_SCA_RANGE;
// }
// else if(RevID == REV_ID_B)
// {
// BLE_sleep_clock_accuracy = STM32WBA5x_REV_ID_B_SCA_RANGE;
// }
// else
// {
// /* Revision ID not supported, default value of 500ppm applied */
// BLE_sleep_clock_accuracy = STM32WBA5x_DEFAULT_SCA_RANGE;
// }
// #elif defined(STM32WBA65xx)
// BLE_sleep_clock_accuracy = STM32WBA6x_SCA_RANGE;
// UNUSED(RevID);
// #else
// UNUSED(RevID);
// #endif /* defined(STM32WBA52xx) || defined(STM32WBA54xx) || defined(STM32WBA55xx) */
// #else /* CFG_RADIO_LSE_SLEEP_TIMER_CUSTOM_SCA_RANGE */
// BLE_sleep_clock_accuracy = CFG_RADIO_LSE_SLEEP_TIMER_CUSTOM_SCA_RANGE;
// #endif /* CFG_RADIO_LSE_SLEEP_TIMER_CUSTOM_SCA_RANGE */
// }
// else
// {
// /* LSE is not the Link Layer sleep clock source, sleep clock accurcay default value is 500 ppm */
// BLE_sleep_clock_accuracy = STM32WBA5x_DEFAULT_SCA_RANGE;
// }
//
// return BLE_sleep_clock_accuracy;
// }
//
// void ll_sys_sleep_clock_source_selection(void)
// {
// uint16_t freq_value = 0;
// uint32_t linklayer_slp_clk_src = LL_RCC_RADIOSLEEPSOURCE_NONE;
//
// linklayer_slp_clk_src = LL_RCC_RADIO_GetSleepTimerClockSource();
// switch(linklayer_slp_clk_src)
// {
// case LL_RCC_RADIOSLEEPSOURCE_LSE:
// linklayer_slp_clk_src = RTC_SLPTMR;
// break;
//
// case LL_RCC_RADIOSLEEPSOURCE_LSI:
// linklayer_slp_clk_src = RCO_SLPTMR;
// break;
//
// case LL_RCC_RADIOSLEEPSOURCE_HSE_DIV1000:
// linklayer_slp_clk_src = CRYSTAL_OSCILLATOR_SLPTMR;
// break;
//
// case LL_RCC_RADIOSLEEPSOURCE_NONE:
// /* No Link Layer sleep clock source selected */
// assert_param(0);
// break;
// }
// ll_intf_cmn_le_select_slp_clk_src((uint8_t)linklayer_slp_clk_src, &freq_value);
// }
//
// void ll_sys_reset(void)
// {
// uint8_t bsca = 0;
// /* Link layer timings */
// uint8_t drift_time = DRIFT_TIME_DEFAULT;
// uint8_t exec_time = EXEC_TIME_DEFAULT;
//
// /* USER CODE BEGIN ll_sys_reset_0 */
//
// /* USER CODE END ll_sys_reset_0 */
//
// /* Apply the selected link layer sleep timer source */
// ll_sys_sleep_clock_source_selection();
//
// /* Configure the link layer sleep clock accuracy */
// bsca = ll_sys_BLE_sleep_clock_accuracy_selection();
// ll_intf_le_set_sleep_clock_accuracy(bsca);
//
// /* Update link layer timings depending on selected configuration */
// if(LL_RCC_RADIO_GetSleepTimerClockSource() == LL_RCC_RADIOSLEEPSOURCE_LSI)
// {
// drift_time += DRIFT_TIME_EXTRA_LSI2;
// exec_time += EXEC_TIME_EXTRA_LSI2;
// }
// else
// {
// #if defined(__GNUC__) && defined(DEBUG)
// drift_time += DRIFT_TIME_EXTRA_GCC_DEBUG;
// exec_time += EXEC_TIME_EXTRA_GCC_DEBUG;
// #endif
// }
//
// /* USER CODE BEGIN ll_sys_reset_1 */
//
// /* USER CODE END ll_sys_reset_1 */
//
// if((drift_time != DRIFT_TIME_DEFAULT) || (exec_time != EXEC_TIME_DEFAULT))
// {
// ll_sys_config_BLE_schldr_timings(drift_time, exec_time);
// }
// /* USER CODE BEGIN ll_sys_reset_2 */
//
// /* USER CODE END ll_sys_reset_2 */
// }
// #if defined(STM32WBA52xx) || defined(STM32WBA54xx) || defined(STM32WBA55xx) || defined(STM32WBA65xx)
// void ll_sys_apply_cte_settings(void)
// {
// ll_intf_apply_cte_degrad_change();
// }
// #endif /* defined(STM32WBA52xx) || defined(STM32WBA54xx) || defined(STM32WBA55xx) || defined(STM32WBA65xx) */
//
// #if (CFG_LPM_STANDBY_SUPPORTED == 0)
// void ll_sys_get_ble_profile_statistics(uint32_t* exec_time, uint32_t* drift_time, uint32_t* average_drift_time, uint8_t reset)
// {
// if (reset != 0U)
// {
// profile_reset();
// }
// ll_intf_get_profile_statistics(exec_time, drift_time, average_drift_time);
// }
// #endif
//
use super::bindings::{link_layer, mac};
use super::util_seq;
const UTIL_SEQ_RFU: u32 = 0;
const TASK_LINK_LAYER_MASK: u32 = 1 << mac::CFG_TASK_ID_T_CFG_TASK_LINK_LAYER;
const TASK_PRIO_LINK_LAYER: u32 = mac::CFG_SEQ_PRIO_ID_T_CFG_SEQ_PRIO_0 as u32;
/**
* @brief Link Layer background process initialization
* @param None
* @retval None
*/
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_bg_process_init() {
util_seq::UTIL_SEQ_RegTask(TASK_LINK_LAYER_MASK, UTIL_SEQ_RFU, Some(link_layer::ll_sys_bg_process));
}
/**
* @brief Link Layer background process next iteration scheduling
* @param None
* @retval None
*/
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_schedule_bg_process() {
util_seq::UTIL_SEQ_SetTask(TASK_LINK_LAYER_MASK, TASK_PRIO_LINK_LAYER);
}
/**
* @brief Link Layer background process next iteration scheduling from ISR
* @param None
* @retval None
*/
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_schedule_bg_process_isr() {
util_seq::UTIL_SEQ_SetTask(TASK_LINK_LAYER_MASK, TASK_PRIO_LINK_LAYER);
}
/**
* @brief Link Layer configuration phase before application startup.
* @param None
* @retval None
*/
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_config_params() {
let allow_low_isr = mac::USE_RADIO_LOW_ISR as u8;
let run_from_isr = mac::NEXT_EVENT_SCHEDULING_FROM_ISR as u8;
let _ = link_layer::ll_intf_cmn_config_ll_ctx_params(allow_low_isr, run_from_isr);
ll_sys_sleep_clock_source_selection();
let _ = link_layer::ll_intf_cmn_select_tx_power_table(mac::CFG_RF_TX_POWER_TABLE_ID as u8);
}
/**
* @brief Reset Link Layer timing parameters to their default configuration.
* @param None
* @retval None
*/
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_reset() {
ll_sys_sleep_clock_source_selection();
let sleep_accuracy = ll_sys_BLE_sleep_clock_accuracy_selection();
let _ = link_layer::ll_intf_le_set_sleep_clock_accuracy(sleep_accuracy);
}
/// Select the sleep-clock source used by the Link Layer.
/// Defaults to the crystal oscillator when no explicit configuration is available.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_sleep_clock_source_selection() {
let mut frequency: u16 = 0;
let _ = link_layer::ll_intf_cmn_le_select_slp_clk_src(
link_layer::_SLPTMR_SRC_TYPE_E_CRYSTAL_OSCILLATOR_SLPTMR as u8,
&mut frequency as *mut u16,
);
}
/// Determine the BLE sleep-clock accuracy used by the stack.
/// Returns zero when board-specific calibration data is unavailable.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn ll_sys_BLE_sleep_clock_accuracy_selection() -> u8 {
// TODO: derive the board-specific sleep clock accuracy once calibration data is available.
0
}
|
