/* * Copyright (c) 2021 Huawei Device Co., Ltd. * * HDF is dual licensed: you can use it either under the terms of * the GPL, or the BSD license, at your option. * See the LICENSE file in the root of this repository for complete details. */ #include "sensor_barometer_driver.h" #include #include "hdf_base.h" #include "hdf_device_desc.h" #include "osal_math.h" #include "osal_mem.h" #include "sensor_config_controller.h" #include "sensor_device_manager.h" #include "sensor_platform_if.h" #define HDF_LOG_TAG hdf_sensor_barometer_driver #define HDF_BAROMETER_WORK_QUEUE_NAME "hdf_barometer_work_queue" static struct BarometerDrvData *g_barometerDrvData = NULL; static struct BarometerDrvData *BarometerGetDrvData(void) { return g_barometerDrvData; } static struct SensorRegCfgGroupNode *g_regCfgGroup[SENSOR_GROUP_MAX] = { NULL }; int32_t BarometerRegisterChipOps(const struct BarometerOpsCall *ops) { struct BarometerDrvData *drvData = BarometerGetDrvData(); CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM); CHECK_NULL_PTR_RETURN_VALUE(ops, HDF_ERR_INVALID_PARAM); drvData->ops.Init = ops->Init; drvData->ops.ReadData = ops->ReadData; return HDF_SUCCESS; } static void BarometerDataWorkEntry(void *arg) { struct BarometerDrvData *drvData = NULL; drvData = (struct BarometerDrvData *)arg; CHECK_NULL_PTR_RETURN(drvData); if (drvData->ops.ReadData == NULL) { HDF_LOGI("%s: Barometer ReadData function NULl", __func__); return; } if (drvData->ops.ReadData(drvData->barometerCfg) != HDF_SUCCESS) { HDF_LOGE("%s: Barometer read data failed", __func__); } } static void BarometerTimerEntry(uintptr_t arg) { int64_t interval; int32_t ret; struct BarometerDrvData *drvData = (struct BarometerDrvData *)arg; CHECK_NULL_PTR_RETURN(drvData); if (!HdfAddWork(&drvData->barometerWorkQueue, &drvData->barometerWork)) { HDF_LOGE("%s: barometer add work queue failed", __func__); } interval = OsalDivS64(drvData->interval, (SENSOR_CONVERT_UNIT * SENSOR_CONVERT_UNIT)); interval = (interval < SENSOR_TIMER_MIN_TIME) ? SENSOR_TIMER_MIN_TIME : interval; ret = OsalTimerSetTimeout(&drvData->barometerTimer, interval); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer modify time failed", __func__); } } static int32_t InitBarometerData(struct BarometerDrvData *drvData) { if (HdfWorkQueueInit(&drvData->barometerWorkQueue, HDF_BAROMETER_WORK_QUEUE_NAME) != HDF_SUCCESS) { HDF_LOGE("%s: barometer init work queue failed", __func__); return HDF_FAILURE; } if (HdfWorkInit(&drvData->barometerWork, BarometerDataWorkEntry, drvData) != HDF_SUCCESS) { HDF_LOGE("%s: barometer create thread failed", __func__); return HDF_FAILURE; } drvData->interval = SENSOR_TIMER_MIN_TIME; drvData->enable = false; drvData->detectFlag = false; return HDF_SUCCESS; } static int32_t SetBarometerEnable(void) { int32_t ret; struct BarometerDrvData *drvData = BarometerGetDrvData(); CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM); CHECK_NULL_PTR_RETURN_VALUE(drvData->barometerCfg, HDF_ERR_INVALID_PARAM); if (drvData->enable) { HDF_LOGE("%s: barometer sensor is enabled", __func__); return HDF_SUCCESS; } ret = SetSensorRegCfgArray(&drvData->barometerCfg->busCfg, drvData->barometerCfg->regCfgGroup[SENSOR_ENABLE_GROUP]); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer sensor enable config failed", __func__); return ret; } ret = OsalTimerCreate(&drvData->barometerTimer, SENSOR_TIMER_MIN_TIME, BarometerTimerEntry, (uintptr_t)drvData); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer create timer failed[%d]", __func__, ret); return ret; } ret = OsalTimerStartLoop(&drvData->barometerTimer); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer start timer failed[%d]", __func__, ret); return ret; } drvData->enable = true; return HDF_SUCCESS; } static int32_t SetBarometerDisable(void) { int32_t ret; struct BarometerDrvData *drvData = BarometerGetDrvData(); CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM); CHECK_NULL_PTR_RETURN_VALUE(drvData->barometerCfg, HDF_ERR_INVALID_PARAM); if (!drvData->enable) { HDF_LOGE("%s: barometer sensor had disable", __func__); return HDF_SUCCESS; } ret = SetSensorRegCfgArray(&drvData->barometerCfg->busCfg, drvData->barometerCfg->regCfgGroup[SENSOR_DISABLE_GROUP]); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer sensor disable config failed", __func__); return ret; } ret = OsalTimerDelete(&drvData->barometerTimer); if (ret != HDF_SUCCESS) { HDF_LOGE("%s: barometer delete timer failed", __func__); return ret; } drvData->enable = false; return HDF_SUCCESS; } static int32_t SetBarometerBatch(int64_t samplingInterval, int64_t interval) { (void)interval; struct BarometerDrvData *drvData = NULL; drvData = BarometerGetDrvData(); CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM); drvData->interval = samplingInterval; return HDF_SUCCESS; } static int32_t SetBarometerMode(int32_t mode) { if (mode <= SENSOR_WORK_MODE_DEFAULT || mode >= SENSOR_WORK_MODE_MAX) { HDF_LOGE("%s: The current mode is not supported", __func__); return HDF_FAILURE; } return HDF_SUCCESS; } static int32_t SetBarometerOption(uint32_t option) { (void)option; return HDF_SUCCESS; } static int32_t DispatchBarometer(struct HdfDeviceIoClient *client, int cmd, struct HdfSBuf *data, struct HdfSBuf *reply) { (void)client; (void)cmd; (void)data; (void)reply; return HDF_SUCCESS; } int32_t BarometerBindDriver(struct HdfDeviceObject *device) { CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM); struct BarometerDrvData *drvData = (struct BarometerDrvData *)OsalMemCalloc(sizeof(*drvData)); if (drvData == NULL) { HDF_LOGE("%s: malloc barometer drv data fail!", __func__); return HDF_ERR_MALLOC_FAIL; } drvData->ioService.Dispatch = DispatchBarometer; drvData->device = device; device->service = &drvData->ioService; g_barometerDrvData = drvData; return HDF_SUCCESS; } static int32_t InitBarometerOps(struct SensorCfgData *config, struct SensorDeviceInfo *deviceInfo) { CHECK_NULL_PTR_RETURN_VALUE(config, HDF_ERR_INVALID_PARAM); deviceInfo->ops.Enable = SetBarometerEnable; deviceInfo->ops.Disable = SetBarometerDisable; deviceInfo->ops.SetBatch = SetBarometerBatch; deviceInfo->ops.SetMode = SetBarometerMode; deviceInfo->ops.SetOption = SetBarometerOption; if (memcpy_s(&deviceInfo->sensorInfo, sizeof(deviceInfo->sensorInfo), &config->sensorInfo, sizeof(config->sensorInfo)) != EOK) { HDF_LOGE("%s: copy sensor info failed", __func__); return HDF_FAILURE; } return HDF_SUCCESS; } static int32_t InitBarometerAfterDetected(struct SensorCfgData *config) { struct SensorDeviceInfo deviceInfo; CHECK_NULL_PTR_RETURN_VALUE(config, HDF_ERR_INVALID_PARAM); if (InitBarometerOps(config, &deviceInfo) != HDF_SUCCESS) { HDF_LOGE("%s: Init barometer ops failed", __func__); return HDF_FAILURE; } if (AddSensorDevice(&deviceInfo) != HDF_SUCCESS) { HDF_LOGE("%s: Add barometer device failed", __func__); return HDF_FAILURE; } if (ParseSensorRegConfig(config) != HDF_SUCCESS) { HDF_LOGE("%s: Parse sensor register failed", __func__); (void)DeleteSensorDevice(&config->sensorInfo); ReleaseSensorAllRegConfig(config); return HDF_FAILURE; } return HDF_SUCCESS; } struct SensorCfgData *BarometerCreateCfgData(const struct DeviceResourceNode *node) { struct BarometerDrvData *drvData = BarometerGetDrvData(); if (drvData == NULL || node == NULL) { HDF_LOGE("%s: Barometer node pointer NULL", __func__); return NULL; } if (drvData->detectFlag) { HDF_LOGE("%s: Barometer sensor have detected", __func__); return NULL; } if (drvData->barometerCfg == NULL) { HDF_LOGE("%s: Barometer barometerCfg pointer NULL", __func__); return NULL; } if (GetSensorBaseConfigData(node, drvData->barometerCfg) != HDF_SUCCESS) { HDF_LOGE("%s: Get sensor base config failed", __func__); goto BASE_CONFIG_EXIT; } if (DetectSensorDevice(drvData->barometerCfg) != HDF_SUCCESS) { HDF_LOGI("%s: Barometer sensor detect device no exist", __func__); drvData->detectFlag = false; goto BASE_CONFIG_EXIT; } drvData->detectFlag = true; if (InitBarometerAfterDetected(drvData->barometerCfg) != HDF_SUCCESS) { HDF_LOGE("%s: Barometer sensor detect device no exist", __func__); goto INIT_EXIT; } return drvData->barometerCfg; INIT_EXIT: (void)ReleaseSensorBusHandle(&drvData->barometerCfg->busCfg); BASE_CONFIG_EXIT: drvData->barometerCfg->root = NULL; (void)memset_s(&drvData->barometerCfg->sensorInfo, sizeof(struct SensorBasicInfo), 0, sizeof(struct SensorBasicInfo)); (void)memset_s(&drvData->barometerCfg->busCfg, sizeof(struct SensorBusCfg), 0, sizeof(struct SensorBusCfg)); (void)memset_s(&drvData->barometerCfg->sensorAttr, sizeof(struct SensorAttr), 0, sizeof(struct SensorAttr)); return drvData->barometerCfg; } void BarometerReleaseCfgData(struct SensorCfgData *barometerCfg) { CHECK_NULL_PTR_RETURN(barometerCfg); (void)DeleteSensorDevice(&barometerCfg->sensorInfo); ReleaseSensorAllRegConfig(barometerCfg); (void)ReleaseSensorBusHandle(&barometerCfg->busCfg); barometerCfg->root = NULL; (void)memset_s(&barometerCfg->sensorInfo, sizeof(struct SensorBasicInfo), 0, sizeof(struct SensorBasicInfo)); (void)memset_s(&barometerCfg->busCfg, sizeof(struct SensorBusCfg), 0, sizeof(struct SensorBusCfg)); (void)memset_s(&barometerCfg->sensorAttr, sizeof(struct SensorAttr), 0, sizeof(struct SensorAttr)); } int32_t BarometerInitDriver(struct HdfDeviceObject *device) { CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM); struct BarometerDrvData *drvData = (struct BarometerDrvData *)device->service; CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM); if (InitBarometerData(drvData) != HDF_SUCCESS) { HDF_LOGE("%s: Init barometer config failed", __func__); return HDF_FAILURE; } drvData->barometerCfg = (struct SensorCfgData *)OsalMemCalloc(sizeof(*drvData->barometerCfg)); if (drvData->barometerCfg == NULL) { HDF_LOGE("%s: Malloc barometer config data failed", __func__); return HDF_FAILURE; } drvData->barometerCfg->regCfgGroup = &g_regCfgGroup[0]; HDF_LOGI("%s: Init barometer driver success", __func__); return HDF_SUCCESS; } void BarometerReleaseDriver(struct HdfDeviceObject *device) { CHECK_NULL_PTR_RETURN(device); struct BarometerDrvData *drvData = (struct BarometerDrvData *)device->service; CHECK_NULL_PTR_RETURN(drvData); if (drvData->detectFlag && drvData->barometerCfg != NULL) { BarometerReleaseCfgData(drvData->barometerCfg); } OsalMemFree(drvData->barometerCfg); drvData->barometerCfg = NULL; HdfWorkDestroy(&drvData->barometerWork); HdfWorkQueueDestroy(&drvData->barometerWorkQueue); OsalMemFree(drvData); } struct HdfDriverEntry g_sensorBarometerDevEntry = { .moduleVersion = 1, .moduleName = "HDF_SENSOR_BAROMETER", .Bind = BarometerBindDriver, .Init = BarometerInitDriver, .Release = BarometerReleaseDriver, }; HDF_INIT(g_sensorBarometerDevEntry);