/* 溫度傳感器設(shè)備HCS配置 */
device_sensor_temperature :: device {
    device0 :: deviceNode {
        policy = 1; /* policy字段是驅(qū)動(dòng)服務(wù)發(fā)布的策略 */
        priority = 130; /* 溫度傳感器驅(qū)動(dòng)啟動(dòng)優(yōu)先級（0-200），值越大優(yōu)先級越低，建議默認(rèn)配100，優(yōu)先級相同則不保證device的加載順序 */
        preload = 0; /* 驅(qū)動(dòng)按需加載字段，0表示加載，2表示不加載 */
        permission = 0664; /* 驅(qū)動(dòng)創(chuàng)建設(shè)備節(jié)點(diǎn)權(quán)限 */
        moduleName = "HDF_SENSOR_TEMPERATURE"; /* 溫度傳感器驅(qū)動(dòng)名稱，該字段的值必須和驅(qū)動(dòng)入口結(jié)構(gòu)的moduleName值一致 */
        serviceName = "hdf_sensor_temperature"; /* 溫度傳感器驅(qū)動(dòng)對外發(fā)布服務(wù)的名稱，必須唯一 */
        deviceMatchAttr = "hdf_sensor_temperature_driver"; /* 驅(qū)動(dòng)私有數(shù)據(jù)匹配的關(guān)鍵字，必須和驅(qū)動(dòng)私有數(shù)據(jù)配置表中的match_attr值相等 */
    }
}

/*注冊溫度傳感器入口數(shù)據(jù)結(jié)構(gòu)體對象*/
struct HdfDriverEntry g_sensorTemperatureDevEntry = {
    .moduleVersion = 1, /*溫度傳感器模塊版本號(hào)*/
    .moduleName = "HDF_SENSOR_TEMPERATURE", /*溫度傳感器模塊名，要與device_info.hcs文件里溫度傳感器moduleName字段值一樣*/
    .Bind = TemperatureBindDriver, /*溫度傳感器綁定函數(shù)*/
    .Init = TemperatureInitDriver, /*溫度傳感器初始化函數(shù)*/
    .Release = TemperatureReleaseDriver, /*溫度傳感器資源釋放函數(shù)*/
};

/* 調(diào)用HDF_INIT將驅(qū)動(dòng)入口注冊到HDF框架中，在加載驅(qū)動(dòng)時(shí)HDF框架會(huì)先調(diào)用Bind函數(shù),再調(diào)用Init函數(shù)加載該驅(qū)動(dòng)，當(dāng)Init調(diào)用異常時(shí)，HDF框架會(huì)調(diào)用Release釋放驅(qū)動(dòng)資源并退出 */
HDF_INIT(g_sensorTemperatureDevEntry);

int32_t TemperatureBindDriver(struct HdfDeviceObject *device)
{
    CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);

    struct TemperatureDrvData *drvData = (struct TemperatureDrvData *)OsalMemCalloc(sizeof(*drvData));
    if (drvData == NULL) {
        HDF_LOGE("%s: Malloc Temperature drv data fail!", __func__);
        return HDF_ERR_MALLOC_FAIL;
    }

    drvData->ioService.Dispatch = DispatchTemperature;
    drvData->device = device;
    device->service = &drvData->ioService;
    g_TemperatureDrvData = drvData;

    return HDF_SUCCESS;
}

int32_t TemperatureInitDriver(struct HdfDeviceObject *device)
{
    CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);
    struct TemperatureDrvData *drvData = (struct TemperatureDrvData *)device->service;
    CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM);

    if (InitTemperatureData(drvData) != HDF_SUCCESS) {
        HDF_LOGE("%s: Init Temperature config failed", __func__);
        return HDF_FAILURE;
    }

    drvData->TemperatureCfg = (struct SensorCfgData *)OsalMemCalloc(sizeof(*drvData->TemperatureCfg));
    if (drvData->TemperatureCfg == NULL) {
        HDF_LOGE("%s: Malloc Temperature config data failed", __func__);
        return HDF_FAILURE;
    }

    drvData->TemperatureCfg->regCfgGroup = &g_regCfgGroup[0];

    HDF_LOGI("%s: Init Temperature driver success", __func__);
    return HDF_SUCCESS;
}

void TemperatureReleaseDriver(struct HdfDeviceObject *device)
{
    CHECK_NULL_PTR_RETURN(device);

    struct TemperatureDrvData *drvData = (struct TemperatureDrvData *)device->service;
    CHECK_NULL_PTR_RETURN(drvData);

    //器件在位，釋放已分配資源
    if (drvData->detectFlag && drvData->TemperatureCfg != NULL) {
        TemperatureReleaseCfgData(drvData->TemperatureCfg);
    }

    OsalMemFree(drvData->TemperatureCfg);
    drvData->TemperatureCfg = NULL;

    //器件在位，銷毀工作隊(duì)列資源
    HdfWorkDestroy(&drvData->TemperatureWork);
    HdfWorkQueueDestroy(&drvData->TemperatureWorkQueue);
    OsalMemFree(drvData);
}

static int32_t InitTemperatureAfterDetected(struct SensorCfgData *config)
{
    struct SensorDeviceInfo deviceInfo;
    CHECK_NULL_PTR_RETURN_VALUE(config, HDF_ERR_INVALID_PARAM);

    //初始化溫度傳感器接口函數(shù)
    if (InitTemperatureOps(config, &deviceInfo) != HDF_SUCCESS) {
        HDF_LOGE("%s: Init Temperature ops failed", __func__);
        return HDF_FAILURE;
    }

    //注冊溫度傳感器設(shè)備到設(shè)備管理模塊
    if (AddSensorDevice(&deviceInfo) != HDF_SUCCESS) {
        HDF_LOGE("%s: Add Temperature device failed", __func__);
        return HDF_FAILURE;
    }

    //器件寄存器解析
    if (ParseSensorRegConfig(config) != HDF_SUCCESS) {
        HDF_LOGE("%s: Parse sensor register failed", __func__);
        (void)DeleteSensorDevice(&config->sensorInfo);
        ReleaseSensorAllRegConfig(config);
        ReleaseSensorDirectionConfig(config);
        return HDF_FAILURE;
    }

    return HDF_SUCCESS;
}

struct SensorCfgData *TemperatureCreateCfgData(const struct DeviceResourceNode *node)
{
    struct TemperatureDrvData *drvData = TemperatureGetDrvData();

    if (drvData == NULL || node == NULL) {
        HDF_LOGE("%s: Temperature node pointer NULL", __func__);
        return NULL;
    }

    //如果器件不在位，返回進(jìn)行下個(gè)器件探測
    if (drvData->detectFlag) {
        HDF_LOGE("%s: Temperature sensor have detected", __func__);
        return NULL;
    }

    if (drvData->TemperatureCfg == NULL) {
        HDF_LOGE("%s: Temperature TemperatureCfg pointer NULL", __func__);
        return NULL;
    }

    //設(shè)備基本配置信息解析
    if (GetSensorBaseConfigData(node, drvData->TemperatureCfg) != HDF_SUCCESS) {
        HDF_LOGE("%s: Get sensor base config failed", __func__);
        goto BASE_CONFIG_EXIT;
    }

    //如果器件不在位，返回進(jìn)行下個(gè)器件探測
    if (DetectSensorDevice(drvData->TemperatureCfg) != HDF_SUCCESS) {
        HDF_LOGI("%s: Temperature sensor detect device no exist", __func__);
        drvData->detectFlag = false;
        goto BASE_CONFIG_EXIT;
    }

    drvData->detectFlag = true;
    
    //器件寄存器解析
    if (InitTemperatureAfterDetected(drvData->TemperatureCfg) != HDF_SUCCESS) {
        HDF_LOGI("%s: Temperature sensor detect device no exist", __func__);
        goto INIT_EXIT;
    }

    return drvData->TemperatureCfg;

INIT_EXIT:
    (void)ReleaseSensorBusHandle(&drvData->TemperatureCfg->busCfg);
BASE_CONFIG_EXIT:
    drvData->TemperatureCfg->root = NULL;
    (void)memset_s(&drvData->TemperatureCfg->sensorInfo,
        sizeof(struct SensorBasicInfo), 0, sizeof(struct SensorBasicInfo));
    (void)memset_s(&drvData->TemperatureCfg->busCfg, sizeof(struct SensorBusCfg), 0, sizeof(struct SensorBusCfg));
    (void)memset_s(&drvData->TemperatureCfg->sensorAttr, sizeof(struct SensorAttr), 0, sizeof(struct SensorAttr));

    return drvData->TemperatureCfg;
}

/* 溫度傳感器SHT30設(shè)備HCS配置 */
device_temperature_sht30 :: device {
    device0 :: deviceNode {
        policy = 1; /* policy字段是驅(qū)動(dòng)服務(wù)發(fā)布的策略 */
        priority = 140; /* 溫度傳感器SHT30驅(qū)動(dòng)啟動(dòng)優(yōu)先級（0-200），值越大優(yōu)先級越低，建議默認(rèn)配100，優(yōu)先級相同則不保證device的加載順序 */
        preload = 0; /* 驅(qū)動(dòng)按需加載字段，0表示加載，2表示不加載 */
        permission = 0664; /* 驅(qū)動(dòng)創(chuàng)建設(shè)備節(jié)點(diǎn)權(quán)限 */
        moduleName = "HDF_SENSOR_TEMPERATURE_SHT30"; /* 溫度傳感器結(jié)構(gòu)的moduleName值一致 */
        serviceName = "hdf_temperature_sht30"; /* 溫度傳感器SHT30驅(qū)動(dòng)對外發(fā)布服務(wù)的名稱，必須唯一 */
        deviceMatchAttr = "hdf_sensor_temperature_sht30_driver"; /* 溫度傳感器SHT30驅(qū)動(dòng)私有數(shù)據(jù)匹配的關(guān)鍵字，必須和驅(qū)動(dòng)私有數(shù)據(jù)配置表中的match_attr值相等 */
    }
}

#include "../sensor_common.hcs"

root {
    temperature_sht30_chip_config : sensorConfig {
        match_attr = "hdf_sensor_temperature_sht30_driver";
        sensorInfo :: sensorDeviceInfo {
            sensorName = "temperature_sht30";
            vendorName = "sensirion"; // max string length is 16 bytes
            sensorTypeId = 9; // enum SensorTypeTag
            sensorId = 2; // user define sensor id
            power = 230;
            minDelay = 0;
            maxDelay = 0;
        }
        sensorBusConfig :: sensorBusInfo {
            busType = 0; // 0:i2c 1:spi
            busNum = 3;
            busAddr = 0x44;
            regWidth = 2; // 2 byte
        }
        sensorIdAttr :: sensorIdInfo {
            chipName = "sht30";
            chipIdRegister = 0xf32d;
            chipIdValue = 0x80;
        }
        sensorRegConfig {
            /*  regAddr: register address
                value: config register value
                len: size of value
                mask: mask of value
                delay: config register delay time (ms)
                opsType: enum SensorOpsType 0-none 1-read 2-write 3-read_check 4-update_bit
                calType: enum SensorBitCalType 0-none 1-set 2-revert 3-xor 4-left shift 5-right shift
                shiftNum: shift bits
                debug: 0-no debug 1-debug
                save: 0-no save 1-save
            */
            /* regAddr, value, mask, len, delay, opsType, calType, shiftNum, debug, save */
            initSeqConfig = [
                0x30a2,   0x0,  0x0,   0,     5,       2,       0,        0,     0,    0
            ];
            enableSeqConfig = [
                0x2c06,   0x0,  0x0,   0,     5,       2,       0,        0,     0,    0
            ];
            disableSeqConfig = [
                0x2400,   0x0,  0x0,   0,     5,       2,       0,        0,     0,    0
            ];
        }
    }
}

/*注冊溫度傳感器SHT30入口數(shù)據(jù)結(jié)構(gòu)體對象*/
struct HdfDriverEntry g_temperatureSht30DevEntry = {
    .moduleVersion = 1, /*溫度傳感器模塊版本號(hào)*/
    .moduleName = "HDF_SENSOR_TEMPERATURE_SHT30", /*溫度傳感器SHT30模塊名，要與device_info.hcs文件里溫度傳感器SHT30 moduleName字段值一樣*/
    .Bind = Sht30BindDriver, /*溫度傳感器SHT30綁定函數(shù)*/
    .Init = Sht30InitDriver, /*溫度傳感器SHT30初始化函數(shù)*/
    .Release = Sht30ReleaseDriver, /*溫度傳感器SHT30資源釋放函數(shù)*/
};

/* 調(diào)用HDF_INIT將驅(qū)動(dòng)入口注冊到HDF框架中，在加載驅(qū)動(dòng)時(shí)HDF框架會(huì)先調(diào)用Bind函數(shù),再調(diào)用Init函數(shù)加載該驅(qū)動(dòng)，當(dāng)Init調(diào)用異常時(shí)，HDF框架會(huì)調(diào)用Release釋放驅(qū)動(dòng)資源并退出 */
HDF_INIT(g_temperatureSht30DevEntry);

static int32_t Sht30BindDriver(struct HdfDeviceObject *device)
{
    CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);

    struct Sht30DrvData *drvData = (struct Sht30DrvData *)OsalMemCalloc(sizeof(*drvData));
    if (drvData == NULL) {
        HDF_LOGE("%s: malloc drv data fail", __func__);
        return HDF_ERR_MALLOC_FAIL;
    }

    drvData->ioService.Dispatch = DispatchSht30;
    drvData->device = device;
    device->service = &drvData->ioService;
    g_sht30DrvData = drvData;

    return HDF_SUCCESS;
}

static int32_t Sht30InitDriver(struct HdfDeviceObject *device)
{
    int32_t ret;
    struct TemperatureOpsCall ops;

    CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);
    struct Sht30DrvData *drvData = (struct Sht30DrvData *)device->service;
    CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM);

    //創(chuàng)建傳感器配置數(shù)據(jù)接口，完成器件探測，私有數(shù)據(jù)配置解析
    drvData->sensorCfg = TemperatureCreateCfgData(device->property);
    if (drvData->sensorCfg == NULL || drvData->sensorCfg->root == NULL) {
        HDF_LOGD("%s: Creating temperature cfg failed because detection failed", __func__);
        return HDF_ERR_NOT_SUPPORT;
    }

    //注冊差異化接口
    ops.Init = NULL;
    ops.ReadData = ReadSht30Data;
    ret = TemperatureRegisterChipOps(&ops);
    if (ret != HDF_SUCCESS) {
        HDF_LOGE("%s: Register temperature failed", __func__);
        return HDF_FAILURE;
    }

    //初始化器件配置
    ret = InitSht30(drvData->sensorCfg);
    if (ret != HDF_SUCCESS) {
        HDF_LOGE("%s: Init SHT30 temperature sensor failed", __func__);
        return HDF_FAILURE;
    }

    return HDF_SUCCESS;
}

static void Sht30ReleaseDriver(struct HdfDeviceObject *device)
{
    CHECK_NULL_PTR_RETURN(device);

    struct Sht30DrvData *drvData = (struct Sht30DrvData *)device->service;
    CHECK_NULL_PTR_RETURN(drvData);

    if (drvData->sensorCfg != NULL) {
        TemperatureReleaseCf gData(drvData->sensorCfg);
        drvData->sensorCfg = NULL;
    }
    OsalMemFree(drvData);
}

int32_t ReadSht30Data(struct SensorCfgData *data)
{
    int32_t ret;
    static int32_t temperature;
    struct TemperatureData rawData = { 0 };
    OsalTimespec time;
    struct SensorReportEvent event;

    (void)memset_s(&time, sizeof(time), 0, sizeof(time));
    (void)memset_s(&event, sizeof(event), 0, sizeof(event));

    if (OsalGetTime(&time) != HDF_SUCCESS) {
        HDF_LOGE("%s: Get time failed", __func__);
        return HDF_FAILURE;
    }

    event.timestamp = time.sec * SENSOR_SECOND_CONVERT_NANOSECOND + time.usec * SENSOR_CONVERT_UNIT;

    ret = ReadSht30RawData(data, &rawData, &event.timestamp);
    if (ret != HDF_SUCCESS) {
        HDF_LOGE("%s: SHT30 read raw data failed", __func__);
        return HDF_FAILURE;
    }

    temperature = rawData.temperature;

    event.sensorId = data->sensorInfo.sensorId;
    event.mode = SENSOR_WORK_MODE_REALTIME;
    event.dataLen = sizeof(temperature);
    event.data = (uint8_t *)&temperature;
    ret = ReportSensorEvent(&event);
    if (ret != HDF_SUCCESS) {
        HDF_LOGE("%s: report data failed", __func__);
    }

    return ret;
}

device_sensor_temperature :: device {
                device0 :: deviceNode {
                    policy = 1;
                    priority = 130;
                    preload = 0; /* 驅(qū)動(dòng)按需加載字段，0表示加載，2表示不加載 */
                    permission = 0664;
                    moduleName = "HDF_SENSOR_TEMPERATURE";
                    serviceName = "hdf_sensor_temperature";
                    deviceMatchAttr = "hdf_sensor_temperature_driver";
                }
            }
            device_temperature_sht30 :: device {
                device0 :: deviceNode {
                    policy = 1;
                    priority = 140;
                    preload = 0; /* 驅(qū)動(dòng)按需加載字段，0表示加載，2表示不加載 */
                    permission = 0664;
                    moduleName = "HDF_SENSOR_TEMPERATURE_SHT30";
                    serviceName = "hdf_temperature_sht30";
                    deviceMatchAttr = "hdf_sensor_temperature_sht30_driver";
                }
            }

......
obj-$(CONFIG_DRIVERS_HDF_SENSOR_TEMPERATURE) += $(SENSOR_ROOT_DIR)/temperature/sensor_temperature_driver.o

obj-$(CONFIG_DRIVERS_HDF_SENSOR_TEMPERATURE_SHT30) += $(SENSOR_ROOT_DIR)/chipset/temperature/temperature_sht30.o
.....
-Idrivers/peripheral/sensor/driver/temperature \
-Idrivers/peripheral/sensor/driver/chipset/temperature \
......

......
# CONFIG_DRIVERS_HDF_INPUT_INFRARED is not set
# CONFIG_DRIVERS_HDF_WIFI is not set
# CONFIG_DRIVERS_HDF_BT is not set
CONFIG_DRIVERS_HDF_SENSOR=y
CONFIG_DRIVERS_HDF_SENSOR_ACCEL=y
CONFIG_DRIVERS_HDF_SENSOR_ACCEL_MXC6655XA=y
CONFIG_DRIVERS_HDF_SENSOR_TEMPERATURE=y
CONFIG_DRIVERS_HDF_SENSOR_TEMPERATURE_SHT30=y
.....

#include <stdio.h>
#include <unistd.h>
#include "hdf_base.h"
#include "hdf_log.h"
#include "hdf_sbuf.h"
#include "hdf_io_service_if.h"
#include "sensor_if.h"
#include "sensor_type.h"

/* 創(chuàng)建回調(diào)函數(shù) */
static int32_t SensorDataCallback(const struct SensorEvents *event)
{
    if (event == NULL) {
        return HDF_FAILURE;
    }

    float sensorData =*((float *)event->data);
    printf("sensor id [%d], data : %.2f\n", event->sensorId, sensorData);

    return HDF_SUCCESS;
}

void SensorSample(void)
{
    int ret;
    struct SensorInformation *sensorInfo = NULL;
    int32_t count = 0;
    int32_t sensorInterval = 200000000; /* 數(shù)據(jù)采樣率設(shè)置200毫秒，單位納秒 */
    int32_t reportInterval = 400000000;

    /* 1.創(chuàng)建傳感器接口實(shí)例 */
    const struct SensorInterface *sensorDev = NewSensorInterfaceInstance();
    if (sensorDev == NULL) {
        return;
    }
    printf("NewSensorInterfaceInstance success\n");

    /* 2.訂閱者注冊傳感器數(shù)據(jù)回調(diào)處理函數(shù) */
    ret = sensorDev->Register(TRADITIONAL_SENSOR_TYPE, SensorDataCallback);
    if (ret != 0) {
        return;
    }
    printf("Register success\n");

    /* 3.獲取設(shè)備支持的Sensor列表 */
    ret = sensorDev->GetAllSensors(&sensorInfo, &count);
    if (ret != 0) {
        return;
    }

    printf("GetAllSensors count: %d\n", count);

    for (int i = 0; i < count; i++)
    {
        printf("sensor [%d] : sensorName:%s, vendorName:%s, sensorTypeId:%d, sensorId:%d\n", i,
               sensorInfo[i].sensorName, sensorInfo[i].vendorName, sensorInfo[i].sensorTypeId, sensorInfo[i].sensorId);
    }

    for (int i = 0; i < count; i++)
    {
        /* 4.設(shè)置傳感器采樣率 */
        ret = sensorDev->SetBatch(sensorInfo[i].sensorId, sensorInterval, reportInterval);
        if (ret != 0) {
            printf("SetBatch failed\n ,ret: %d",ret);
            continue;
        }
        printf("SetBatch success\n");

        /* 5.使能傳感器 */
        ret = sensorDev->Enable(sensorInfo[i].sensorId);
        if (ret != 0) {
            continue;
        }
        printf("Enable success\n");

        usleep(1000 * 1000);

        /* 6.去使能傳感器 */
        ret = sensorDev->Disable(sensorInfo[i].sensorId);
        if (ret != 0) {
            continue;
        }
        printf("Disable success\n");
    }

    /* 7.取消傳感器數(shù)據(jù)訂閱函數(shù) */
    ret = sensorDev->Unregister(TRADITIONAL_SENSOR_TYPE, SensorDataCallback);
    if (ret != 0) {
        return;
    }
    printf("Unregister success\n");

    /* 8.釋放傳感器接口實(shí)例 */
    ret = FreeSensorInterfaceInstance();
    if (ret != 0) {
        return;
    }
    printf("FreeSensorInterfaceInstance success\n");
}

int main(int argc, char *argv[])
{
    SensorSample();
    return HDF_SUCCESS;
}