diag_cbs_afe.c

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/**
 * @file    diag_cbs_afe.c
 * @author  foxBMS Team
 * @date    2021-02-17 (date of creation)
 * @updated 2023-10-12 (date of last update)
 * @version v1.6.0
 * @ingroup ENGINE
 * @prefix  DIAG
 *
 * @brief   Diagnosis driver implementation
 * @details TODO
 */
 
/*========== Includes =======================================================*/
#include "diag_cbs.h"
#include "fstd_types.h"
 
#include <stdint.h>
 
/*========== Macros and Definitions =========================================*/
 
/*========== Static Constant and Variable Definitions =======================*/
 
/*========== Extern Constant and Variable Definitions =======================*/
 
/*========== Static Function Prototypes =====================================*/
 
/*========== Static Function Implementations ================================*/
 
/*========== Extern Function Implementations ================================*/
extern void DIAG_ErrorAfe(
    DIAG_ID_e diagId,
    DIAG_EVENT_e event,
    const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
    uint32_t stringNumber) {
    FAS_ASSERT(diagId < DIAG_ID_MAX);
    FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
    FAS_ASSERT(kpkDiagShim != NULL_PTR);
    FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
 
    if (diagId == DIAG_ID_AFE_CELL_VOLTAGE_MEAS_ERROR) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeCellVoltageInvalidError[stringNumber] = 0;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeCellVoltageInvalidError[stringNumber] = 1;
        }
    } else if (diagId == DIAG_ID_AFE_CELL_TEMPERATURE_MEAS_ERROR) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeCellTemperatureInvalidError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeCellTemperatureInvalidError[stringNumber] = true;
        }
    } else if (diagId == DIAG_ID_BASE_CELL_VOLTAGE_MEASUREMENT_TIMEOUT) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->baseCellVoltageMeasurementTimeoutError = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->baseCellVoltageMeasurementTimeoutError = true;
        }
    } else if (diagId == DIAG_ID_REDUNDANCY0_CELL_VOLTAGE_MEASUREMENT_TIMEOUT) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->redundancy0CellVoltageMeasurementTimeoutError = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->redundancy0CellVoltageMeasurementTimeoutError = true;
        }
    } else if (diagId == DIAG_ID_BASE_CELL_TEMPERATURE_MEASUREMENT_TIMEOUT) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->baseCellTemperatureMeasurementTimeoutError = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->baseCellTemperatureMeasurementTimeoutError = true;
        }
    } else if (diagId == DIAG_ID_REDUNDANCY0_CELL_TEMPERATURE_MEASUREMENT_TIMEOUT) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->redundancy0CellTemperatureMeasurementTimeoutError = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->redundancy0CellTemperatureMeasurementTimeoutError = true;
        }
    }
}
 
extern void DIAG_ErrorAfeDriver(
    DIAG_ID_e diagId,
    DIAG_EVENT_e event,
    const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
    uint32_t stringNumber) {
    FAS_ASSERT(diagId < DIAG_ID_MAX);
    FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
    FAS_ASSERT(kpkDiagShim != NULL_PTR);
    FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
 
    if (diagId == DIAG_ID_AFE_SPI) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeCommunicationSpiError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeCommunicationSpiError[stringNumber] = true;
        }
    } else if (diagId == DIAG_ID_AFE_COM_INTEGRITY) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeCommunicationCrcError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeCommunicationCrcError[stringNumber] = true;
        }
    } else if (diagId == DIAG_ID_AFE_MUX) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeSlaveMultiplexerError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeSlaveMultiplexerError[stringNumber] = true;
        }
    } else if (diagId == DIAG_ID_AFE_CONFIG) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->afeConfigurationError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->afeConfigurationError[stringNumber] = true;
        }
    } else if (diagId == DIAG_ID_AFE_OPEN_WIRE) {
        if (event == DIAG_EVENT_RESET) {
            kpkDiagShim->pTableError->openWireDetectedError[stringNumber] = false;
        }
        if (event == DIAG_EVENT_NOT_OK) {
            kpkDiagShim->pTableError->openWireDetectedError[stringNumber] = true;
        }
    } else { /* unknown DIAG_ID, assert */
        FAS_ASSERT(FAS_TRAP);
    }
}
 
/*========== Externalized Static Function Implementations (Unit Test) =======*/
#ifdef UNITY_UNIT_TEST
#endif