// This routine initializes the sensor to its default properties NTSTATUS CustomSensorDevice::Initialize( _In_ WDFDEVICE Device, // WDFDEVICE object _In_ SENSOROBJECT SensorInstance // SENSOROBJECT for each sensor instance ) { ULONG Size = 0; WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; FILETIME Time = {}; WDF_OBJECT_ATTRIBUTES TimerAttributes; WDF_TIMER_CONFIG TimerConfig; NTSTATUS Status = STATUS_SUCCESS; SENSOR_FunctionEnter(); // Store device and instance m_FxDevice = Device; m_SensorInstance = SensorInstance; m_Started = FALSE; // Initialize the CO2 simulator HardwareSimulator::Initialize(Device, &m_SimulatorInstance); // Create Lock Status = WdfWaitLockCreate(WDF_NO_OBJECT_ATTRIBUTES, &m_Lock); if (!NT_SUCCESS(Status)) { TraceError("CSTM %!FUNC! WdfWaitLockCreate failed %!STATUS!", Status); goto Exit; } // Create timer object for polling sensor samples WDF_TIMER_CONFIG_INIT(&TimerConfig, CustomSensorDevice::OnTimerExpire); WDF_OBJECT_ATTRIBUTES_INIT(&TimerAttributes); TimerAttributes.ParentObject = SensorInstance; TimerAttributes.ExecutionLevel = WdfExecutionLevelPassive; Status = WdfTimerCreate(&TimerConfig, &TimerAttributes, &m_Timer); if (!NT_SUCCESS(Status)) { TraceError("CSTM %!FUNC! WdfTimerCreate failed %!STATUS!", Status); goto Exit; } // Sensor Enumeration Properties Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_ENUMERATION_PROPERTIES_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_CUSTOM_SENSOR, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pEnumerationProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pEnumerationProperties) { TraceError("CSTM %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pEnumerationProperties, Size); m_pEnumerationProperties->Count = SENSOR_ENUMERATION_PROPERTIES_COUNT; // The sensor type must be GUID_SensorType_Custom, the driver must also define and "vendor defined subtype" m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Key = DEVPKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Custom, &(m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Value)); m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Key = DEVPKEY_Sensor_Manufacturer; InitPropVariantFromString(L"Microsoft", &(m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Value)); m_pEnumerationProperties->List[SENSOR_MODEL].Key = DEVPKEY_Sensor_Model; InitPropVariantFromString(L"CO2 based sample Custom sensor V2", &(m_pEnumerationProperties->List[SENSOR_MODEL].Value)); m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Key = DEVPKEY_Sensor_PersistentUniqueId; InitPropVariantFromCLSID(GUID_CustomSensorDevice_UniqueID, &(m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Value)); m_pEnumerationProperties->List[SENSOR_CATEGORY].Key = DEVPKEY_Sensor_Category; InitPropVariantFromCLSID(GUID_SensorCategory_Other, &(m_pEnumerationProperties->List[SENSOR_CATEGORY].Value)); m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Key = DEVPKEY_Sensor_IsPrimary; InitPropVariantFromBoolean(FALSE, &(m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Value)); // This value should be set to TRUE if multiple custom sensors // with the same vendor defined type exist on the system and // this sensor is the primary sensor m_pEnumerationProperties->List[SENSOR_VENDOR_DEFINED_TYPE].Key = DEVPKEY_Sensor_VendorDefinedSubType; InitPropVariantFromCLSID(GUID_CustomSensorDevice_VendorDefinedSubTypeID, &(m_pEnumerationProperties->List[SENSOR_VENDOR_DEFINED_TYPE].Value)); // Supported Data-Fields Size = SENSOR_PROPERTY_LIST_SIZE(CSTM_DATA_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_CUSTOM_SENSOR, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pSupportedDataFields)); if (!NT_SUCCESS(Status) || nullptr == m_pSupportedDataFields) { TraceError("CSTM %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_PROPERTY_LIST_INIT(m_pSupportedDataFields, Size); m_pSupportedDataFields->Count = CSTM_DATA_COUNT; m_pSupportedDataFields->List[CSTM_DATA_TIMESTAMP] = PKEY_SensorData_Timestamp; m_pSupportedDataFields->List[CSTM_DATA_CO2_LEVEL_PERCENT] = PKEY_CustomSensorSampleData_CO2Level; // Data Size = SENSOR_COLLECTION_LIST_SIZE(CSTM_DATA_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_CUSTOM_SENSOR, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pData)); if (!NT_SUCCESS(Status) || nullptr == m_pData) { TraceError("CSTM %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pData, Size); m_pData->Count = CSTM_DATA_COUNT; m_pData->List[CSTM_DATA_TIMESTAMP].Key = PKEY_SensorData_Timestamp; GetSystemTimePreciseAsFileTime(&Time); InitPropVariantFromFileTime(&Time, &(m_pData->List[CSTM_DATA_TIMESTAMP].Value)); // Initialize the sample, at this point of time the sensor is not started yet, // So, initialize the sample to a default value m_pData->List[CSTM_DATA_CO2_LEVEL_PERCENT].Key = PKEY_CustomSensorSampleData_CO2Level; InitPropVariantFromFloat(CustomSensorDevice_Minimum_CO2Level, &(m_pData->List[CSTM_DATA_CO2_LEVEL_PERCENT].Value)); // Sensor Properties m_Interval = Cstm_Default_MinDataInterval_Ms; Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_COMMON_PROPERTIES_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_CUSTOM_SENSOR, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pProperties) { TraceError("CSTM %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pProperties, Size); m_pProperties->Count = SENSOR_COMMON_PROPERTIES_COUNT; m_pProperties->List[SENSOR_PROPERTY_STATE].Key = PKEY_Sensor_State; InitPropVariantFromUInt32(SensorState_Initializing, &(m_pProperties->List[SENSOR_PROPERTY_STATE].Value)); m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Key = PKEY_Sensor_MinimumDataInterval_Ms; InitPropVariantFromUInt32(Cstm_Default_MinDataInterval_Ms, &(m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Key = PKEY_Sensor_MaximumDataFieldSize_Bytes; InitPropVariantFromUInt32(CollectionsListGetMarshalledSize(m_pData), &(m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Value)); m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Key = PKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Custom, &(m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Value)); // Data filed properties Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_DATA_FIELD_PROPERTY_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_CUSTOM_SENSOR, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pDataFieldProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pDataFieldProperties) { TraceError("CSTM %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pDataFieldProperties, Size); m_pDataFieldProperties->Count = SENSOR_DATA_FIELD_PROPERTY_COUNT; m_pDataFieldProperties->List[SENSOR_RESOLUTION].Key = PKEY_SensorDataField_Resolution; InitPropVariantFromFloat((float)CustomSensorDevice_Resolution, &(m_pDataFieldProperties->List[SENSOR_RESOLUTION].Value)); m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Key = PKEY_SensorDataField_RangeMinimum; InitPropVariantFromFloat(CustomSensorDevice_Minimum_CO2Level, &(m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Value)); m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Key = PKEY_SensorDataField_RangeMaximum; InitPropVariantFromFloat(CustomSensorDevice_Maximum_CO2Level, &(m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Value)); // Reset the FirstSample flag m_FirstSample = TRUE; Exit: SENSOR_FunctionExit(Status); return Status; }
//------------------------------------------------------------------------------ // Function: Initialize // // This routine initializes the sensor to its default properties // // Arguments: // Device: IN: WDFDEVICE object // SensorInstance: IN: SENSOROBJECT for each sensor instance // // Return Value: // NTSTATUS code //------------------------------------------------------------------------------ NTSTATUS PrxDevice::Initialize( _In_ WDFDEVICE Device, _In_ SENSOROBJECT SensorInstance ) { NTSTATUS Status = STATUS_SUCCESS; SENSOR_FunctionEnter(); // // Store device and instance // m_Device = Device; m_SensorInstance = SensorInstance; m_Started = FALSE; // // Create Lock // Status = WdfWaitLockCreate(WDF_NO_OBJECT_ATTRIBUTES, &m_Lock); if (!NT_SUCCESS(Status)) { TraceError("COMBO %!FUNC! PRX WdfWaitLockCreate failed %!STATUS!", Status); goto Exit; } // // Create timer object for polling sensor samples // { WDF_OBJECT_ATTRIBUTES TimerAttributes; WDF_TIMER_CONFIG TimerConfig; WDF_TIMER_CONFIG_INIT(&TimerConfig, OnTimerExpire); WDF_OBJECT_ATTRIBUTES_INIT(&TimerAttributes); TimerAttributes.ParentObject = SensorInstance; TimerAttributes.ExecutionLevel = WdfExecutionLevelPassive; Status = WdfTimerCreate(&TimerConfig, &TimerAttributes, &m_Timer); if (!NT_SUCCESS(Status)) { TraceError("COMBO %!FUNC! PRX WdfTimerCreate failed %!STATUS!", Status); goto Exit; } } // // Sensor Enumeration Properties // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_PRX_ENUMERATION_PROPERTY_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pEnumerationProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pEnumerationProperties) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pEnumerationProperties, Size); m_pEnumerationProperties->Count = SENSOR_ENUMERATION_PROPERTIES_COUNT; m_pEnumerationProperties->Count = SENSOR_PRX_ENUMERATION_PROPERTY_COUNT; m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Key = DEVPKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Proximity, &(m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Value)); m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Key = DEVPKEY_Sensor_Manufacturer; InitPropVariantFromString(L"Manufacturer name", &(m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Value)); m_pEnumerationProperties->List[SENSOR_MODEL].Key = DEVPKEY_Sensor_Model; InitPropVariantFromString(L"PRX", &(m_pEnumerationProperties->List[SENSOR_MODEL].Value)); m_pEnumerationProperties->List[SENSOR_CONNECTION_TYPE].Key = DEVPKEY_Sensor_ConnectionType; // The DEVPKEY_Sensor_ConnectionType values match the SensorConnectionType enumeration InitPropVariantFromUInt32(static_cast<ULONG>(SensorConnectionType::Integrated), &(m_pEnumerationProperties->List[SENSOR_CONNECTION_TYPE].Value)); m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Key = DEVPKEY_Sensor_PersistentUniqueId; InitPropVariantFromCLSID(GUID_PrxDevice_UniqueID, &(m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Value)); m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Key = DEVPKEY_Sensor_IsPrimary; InitPropVariantFromBoolean(FALSE, &(m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Value)); m_pEnumerationProperties->List[SENSOR_PROPERTY_PRX_TYPE].Key = DEVPKEY_Sensor_ProximityType; InitPropVariantFromUInt32(PROXIMITY_TYPE::ProximityType_HumanProximity, &(m_pEnumerationProperties->List[SENSOR_PROPERTY_PRX_TYPE].Value)); m_pEnumerationProperties->List[SENSOR_ISWAKECAPABLE].Key = PKEY_Sensor_WakeCapable; InitPropVariantFromBoolean(FALSE, &(m_pEnumerationProperties->List[SENSOR_ISWAKECAPABLE].Value)); } // // Supported Data-Fields // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_PROPERTY_LIST_SIZE(PRX_DATA_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, (PVOID*)&m_pSupportedDataFields); if (!NT_SUCCESS(Status) || m_pSupportedDataFields == nullptr) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_PROPERTY_LIST_INIT(m_pSupportedDataFields, Size); m_pSupportedDataFields->Count = PRX_DATA_COUNT; m_pSupportedDataFields->List[PRX_DATA_TIMESTAMP] = PKEY_SensorData_Timestamp; m_pSupportedDataFields->List[PRX_DATA_DETECT] = PKEY_SensorData_ProximityDetection; m_pSupportedDataFields->List[PRX_DATA_DISTANCE] = PKEY_SensorData_ProximityDistanceMillimeters; } // // Data // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_COLLECTION_LIST_SIZE(PRX_DATA_COUNT); FILETIME Time = {}; MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pData)); if (!NT_SUCCESS(Status) || nullptr == m_pData) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pData, Size); m_pData->Count = PRX_DATA_COUNT; m_pData->List[PRX_DATA_TIMESTAMP].Key = PKEY_SensorData_Timestamp; GetSystemTimePreciseAsFileTime(&Time); InitPropVariantFromFileTime(&Time, &(m_pData->List[PRX_DATA_TIMESTAMP].Value)); m_pData->List[PRX_DATA_DETECT].Key = PKEY_SensorData_ProximityDetection; InitPropVariantFromBoolean(FALSE, &(m_pData->List[PRX_DATA_DETECT].Value)); m_pData->List[PRX_DATA_DISTANCE].Key = PKEY_SensorData_ProximityDistanceMillimeters; InitPropVariantFromUInt32(FALSE, &(m_pData->List[PRX_DATA_DISTANCE].Value)); m_CachedData.Detected = FALSE; m_CachedData.DistanceMillimeters = PrxDevice_Maximum_Millimeters; m_LastSample.Detected = FALSE; m_LastSample.DistanceMillimeters = PrxDevice_Maximum_Millimeters; } // // Sensor Properties // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_COMMON_PROPERTY_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pProperties) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pProperties, Size); m_pProperties->Count = SENSOR_COMMON_PROPERTY_COUNT; m_pProperties->List[SENSOR_COMMON_PROPERTY_STATE].Key = PKEY_Sensor_State; InitPropVariantFromUInt32(SensorState_Initializing, &(m_pProperties->List[SENSOR_COMMON_PROPERTY_STATE].Value)); m_pProperties->List[SENSOR_COMMON_PROPERTY_MIN_INTERVAL].Key = PKEY_Sensor_MinimumDataInterval_Ms; InitPropVariantFromUInt32(Prx_MinDataInterval_Ms, &(m_pProperties->List[SENSOR_COMMON_PROPERTY_MIN_INTERVAL].Value)); m_IntervalMs = Prx_MinDataInterval_Ms; m_MinimumIntervalMs = Prx_MinDataInterval_Ms; m_pProperties->List[SENSOR_COMMON_PROPERTY_MAX_DATAFIELDSIZE].Key = PKEY_Sensor_MaximumDataFieldSize_Bytes; InitPropVariantFromUInt32(CollectionsListGetMarshalledSize(m_pData), &(m_pProperties->List[SENSOR_COMMON_PROPERTY_MAX_DATAFIELDSIZE].Value)); m_pProperties->List[SENSOR_COMMON_PROPERTY_TYPE].Key = PKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Proximity, &(m_pProperties->List[SENSOR_COMMON_PROPERTY_TYPE].Value)); } // // Data field properties // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_DATA_FIELD_PROPERTY_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pDataFieldProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pDataFieldProperties) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pDataFieldProperties, Size); m_pDataFieldProperties->Count = SENSOR_DATA_FIELD_PROPERTY_COUNT; m_pDataFieldProperties->List[SENSOR_RESOLUTION].Key = PKEY_SensorDataField_Resolution; InitPropVariantFromUInt32(PrxDevice_Resolution_Millimeters, &(m_pDataFieldProperties->List[SENSOR_RESOLUTION].Value)); m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Key = PKEY_SensorDataField_RangeMinimum; InitPropVariantFromUInt32(PrxDevice_Minimum_Millimeters, &(m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Value)); m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Key = PKEY_SensorDataField_RangeMaximum; InitPropVariantFromUInt32(PrxDevice_Maximum_Millimeters, &(m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Value)); } // // Set default threshold // { WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; ULONG Size = SENSOR_COLLECTION_LIST_SIZE(PRX_THRESHOLD_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSORV2_POOL_TAG_PROXIMITY, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pThresholds)); if (!NT_SUCCESS(Status) || nullptr == m_pThresholds) { TraceError("COMBO %!FUNC! PRX WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pThresholds, Size); m_FirstSample = TRUE; } Exit: SENSOR_FunctionExit(Status); return Status; }
// This routine initializes the sensor's enumeration properties NTSTATUS ActivityDevice::InitializeEnumerationProperties() { WDF_OBJECT_ATTRIBUTES memoryAttributes = {}; WDFMEMORY memoryHandle = NULL; const ULONG size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_ENUMERATION_PROPERTIES_COUNT); NTSTATUS status = STATUS_SUCCESS; SENSOR_FunctionEnter(); WDF_OBJECT_ATTRIBUTES_INIT(&memoryAttributes); memoryAttributes.ParentObject = m_SensorInstance; status = WdfMemoryCreate(&memoryAttributes, PagedPool, SENSOR_POOL_TAG_ACTIVITY, size, &memoryHandle, reinterpret_cast<PVOID*>(&m_pEnumerationProperties)); if (!NT_SUCCESS(status) || nullptr == m_pEnumerationProperties) { TraceError("ACT %!FUNC! WdfMemoryCreate failed %!STATUS!", status); } else { SENSOR_COLLECTION_LIST_INIT(m_pEnumerationProperties, size); m_pEnumerationProperties->Count = SENSOR_ENUMERATION_PROPERTIES_COUNT; m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Key = DEVPKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_ActivityDetection, &(m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Value)); m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Key = DEVPKEY_Sensor_Manufacturer; InitPropVariantFromString(L"Microsoft", &(m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Value)); m_pEnumerationProperties->List[SENSOR_MODEL].Key = DEVPKEY_Sensor_Model; InitPropVariantFromString(L"Fake ACTIVITY V2", &(m_pEnumerationProperties->List[SENSOR_MODEL].Value)); m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Key = DEVPKEY_Sensor_PersistentUniqueId; InitPropVariantFromCLSID(GUID_ActivityDevice_UniqueID, &(m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Value)); m_pEnumerationProperties->List[SENSOR_CATEGORY].Key = DEVPKEY_Sensor_Category; InitPropVariantFromCLSID(GUID_SensorCategory_Motion, &(m_pEnumerationProperties->List[SENSOR_CATEGORY].Value)); m_pEnumerationProperties->List[SENSOR_MIN_INTERVAL].Key = PKEY_Sensor_MinimumDataInterval_Ms; InitPropVariantFromUInt32(Act_Default_MinDataInterval_Ms, &(m_pEnumerationProperties->List[SENSOR_MIN_INTERVAL].Value)); m_pEnumerationProperties->List[SENSOR_POWER].Key = PKEY_Sensor_Power_Milliwatts; InitPropVariantFromFloat((m_HistoryPowerInuW / 1000.0f), &(m_pEnumerationProperties->List[SENSOR_POWER].Value)); m_pEnumerationProperties->List[SENSOR_SUPPORTEDACTIVITIES].Key = PKEY_SensorData_SupportedActivityStates; InitPropVariantFromUInt32(Act_Default_SubscribedStates, &(m_pEnumerationProperties->List[SENSOR_SUPPORTEDACTIVITIES].Value)); m_pEnumerationProperties->List[SENSOR_MAX_HISTORYSIZE].Key = PKEY_SensorHistory_MaxSize_Bytes; InitPropVariantFromUInt32(SENSOR_COLLECTION_LIST_HEADER_SIZE + ((m_HistoryMarshalledRecordSize - SENSOR_COLLECTION_LIST_HEADER_SIZE) * m_HistorySizeInRecords), &(m_pEnumerationProperties->List[SENSOR_MAX_HISTORYSIZE].Value)); // History only logs one most probable state } SENSOR_FunctionExit(status); return status; }
// This routine initializes the sensor's properties NTSTATUS ActivityDevice::InitializeSensorProperties() { WDF_OBJECT_ATTRIBUTES memoryAttributes = {}; WDFMEMORY memoryHandle = NULL; const ULONG size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_COMMON_PROPERTIES_COUNT); NTSTATUS status = STATUS_SUCCESS; SENSOR_FunctionEnter(); WDF_OBJECT_ATTRIBUTES_INIT(&memoryAttributes); memoryAttributes.ParentObject = m_SensorInstance; status = WdfMemoryCreate(&memoryAttributes, PagedPool, SENSOR_POOL_TAG_ACTIVITY, size, &memoryHandle, reinterpret_cast<PVOID*>(&m_pProperties)); if (!NT_SUCCESS(status) || nullptr == m_pProperties) { TraceError("ACT %!FUNC! WdfMemoryCreate failed %!STATUS!", status); } else { SENSOR_COLLECTION_LIST_INIT(m_pProperties, size); m_pProperties->Count = SENSOR_COMMON_PROPERTIES_COUNT; m_pProperties->List[SENSOR_PROPERTY_STATE].Key = PKEY_Sensor_State; InitPropVariantFromUInt32(SensorState_Initializing, &(m_pProperties->List[SENSOR_PROPERTY_STATE].Value)); m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Key = PKEY_Sensor_MinimumDataInterval_Ms; InitPropVariantFromUInt32(Act_Default_MinDataInterval_Ms, &(m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Key = PKEY_Sensor_MaximumDataFieldSize_Bytes; InitPropVariantFromUInt32(CollectionsListGetMarshalledSize(m_pLastSample), &(m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Value)); m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Key = PKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_ActivityDetection, &(m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Value)); m_pProperties->List[SENSOR_PROPERTY_SENSOR_POWER].Key = PKEY_Sensor_Power_Milliwatts; InitPropVariantFromFloat((m_HistoryPowerInuW / 1000.0f), &(m_pProperties->List[SENSOR_PROPERTY_SENSOR_POWER].Value)); m_pProperties->List[SENSOR_PROPERTY_SUPPORTEDACTIVITIES].Key = PKEY_SensorData_SupportedActivityStates; InitPropVariantFromUInt32(Act_Default_SubscribedStates, &(m_pProperties->List[SENSOR_PROPERTY_SUPPORTEDACTIVITIES].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_HISTORYSIZE].Key = PKEY_SensorHistory_MaxSize_Bytes; InitPropVariantFromUInt32(SENSOR_COLLECTION_LIST_HEADER_SIZE + ((m_HistoryMarshalledRecordSize - SENSOR_COLLECTION_LIST_HEADER_SIZE) * m_HistorySizeInRecords), &(m_pProperties->List[SENSOR_PROPERTY_MAX_HISTORYSIZE].Value)); // History only logs one most probable state m_pProperties->List[SENSOR_PROPERTY_HISTORY_INTERVAL].Key = PKEY_SensorHistory_Interval_Ms; InitPropVariantFromUInt32(m_HistoryIntervalInMs, &(m_pProperties->List[SENSOR_PROPERTY_HISTORY_INTERVAL].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_HISTROYRECORDSIZE].Key = PKEY_SensorHistory_MaximumRecordSize_Bytes; InitPropVariantFromUInt32(m_HistoryMarshalledRecordSize, &(m_pProperties->List[SENSOR_PROPERTY_MAX_HISTROYRECORDSIZE].Value)); } SENSOR_FunctionExit(status); return status; }
// This routine initializes the sensor to its default properties NTSTATUS PedometerDevice::Initialize( _In_ WDFDEVICE Device, // WDFDEVICE object _In_ SENSOROBJECT SensorInstance // SENSOROBJECT for each sensor instance ) { ULONG Size = 0; WDF_OBJECT_ATTRIBUTES MemoryAttributes; WDFMEMORY MemoryHandle = NULL; FILETIME Time = {}; WDF_OBJECT_ATTRIBUTES TimerAttributes; WDF_TIMER_CONFIG TimerConfig; NTSTATUS Status = STATUS_SUCCESS; PHardwareSimulator pSimulator = nullptr; ULONG HistorySizeInRecords = 0; SENSOR_FunctionEnter(); // Store device and instance m_FxDevice = Device; m_SensorInstance = SensorInstance; m_Started = FALSE; m_HistoryRetrievalStarted = FALSE; // Initialize the pedometer simulator Status = HardwareSimulator::Initialize(Device, &m_SimulatorInstance); if (!NT_SUCCESS(Status)) { TraceError("PED %!FUNC! HardwareSimulator::Initialize failed %!STATUS!", Status); goto Exit; } pSimulator = GetHardwareSimulatorContextFromInstance(m_SimulatorInstance); if (nullptr == pSimulator) { Status = STATUS_INSUFFICIENT_RESOURCES; TraceError("PED %!FUNC! GetHardwareSimulatorContextFromInstance failed %!STATUS!", Status); goto Exit; } // Create Lock Status = WdfWaitLockCreate(WDF_NO_OBJECT_ATTRIBUTES, &m_Lock); if (!NT_SUCCESS(Status)) { TraceError("PED %!FUNC! WdfWaitLockCreate failed %!STATUS!", Status); goto Exit; } // Create timer object for polling sensor samples WDF_TIMER_CONFIG_INIT(&TimerConfig, PedometerDevice::OnTimerExpire); WDF_OBJECT_ATTRIBUTES_INIT(&TimerAttributes); TimerAttributes.ParentObject = SensorInstance; TimerAttributes.ExecutionLevel = WdfExecutionLevelPassive; Status = WdfTimerCreate(&TimerConfig, &TimerAttributes, &m_Timer); if (!NT_SUCCESS(Status)) { TraceError("PED %!FUNC! WdfTimerCreate failed %!STATUS!", Status); goto Exit; } // Supported Data-Fields Size = SENSOR_PROPERTY_LIST_SIZE(PEDOMETER_DATAFIELD_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pSupportedDataFields)); if (!NT_SUCCESS(Status) || nullptr == m_pSupportedDataFields) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_PROPERTY_LIST_INIT(m_pSupportedDataFields, Size); m_pSupportedDataFields->Count = PEDOMETER_DATAFIELD_COUNT; m_pSupportedDataFields->List[PEDOMETER_DATAFIELD_TIMESTAMP] = PKEY_SensorData_Timestamp; m_pSupportedDataFields->List[PEDOMETER_DATAFIELD_FIRST_AFTER_RESET] = PKEY_SensorData_PedometerReset; m_pSupportedDataFields->List[PEDOMETER_DATAFIELD_STEP_TYPE] = PKEY_SensorData_PedometerStepType; m_pSupportedDataFields->List[PEDOMETER_DATAFIELD_STEP_COUNT] = PKEY_SensorData_PedometerStepCount; m_pSupportedDataFields->List[PEDOMETER_DATAFIELD_STEP_DURATION] = PKEY_SensorData_PedometerStepDuration_Ms; // Data Size = SENSOR_COLLECTION_LIST_SIZE(PEDOMETER_DATA_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pData)); if (!NT_SUCCESS(Status) || nullptr == m_pData) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pData, Size); m_pData->Count = PEDOMETER_DATA_COUNT; m_pData->List[PEDOMETER_DATA_TIMESTAMP].Key = PKEY_SensorData_Timestamp; GetSystemTimePreciseAsFileTime(&Time); InitPropVariantFromFileTime(&Time, &(m_pData->List[PEDOMETER_DATA_TIMESTAMP].Value)); m_pData->List[PEDOMETER_DATA_FIRST_AFTER_RESET].Key = PKEY_SensorData_PedometerReset; InitPropVariantFromBoolean(FALSE, &(m_pData->List[PEDOMETER_DATA_FIRST_AFTER_RESET].Value)); m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_TYPE].Key = PKEY_SensorData_PedometerStepType; InitPropVariantFromUInt32(static_cast<ULONG>(PedometerStepType_Unknown), &(m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_TYPE].Value)); m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_COUNT].Key = PKEY_SensorData_PedometerStepCount; InitPropVariantFromUInt32(600, &(m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_COUNT].Value)); m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_DURATION].Key = PKEY_SensorData_PedometerStepDuration_Ms; InitPropVariantFromInt64(123, &(m_pData->List[PEDOMETER_DATA_UNKNOWN_STEP_DURATION].Value)); m_pData->List[PEDOMETER_DATA_WALKING_STEP_TYPE].Key = PKEY_SensorData_PedometerStepType; InitPropVariantFromUInt32(static_cast<ULONG>(PedometerStepType_Walking), &(m_pData->List[PEDOMETER_DATA_WALKING_STEP_TYPE].Value)); m_pData->List[PEDOMETER_DATA_WALKING_STEP_COUNT].Key = PKEY_SensorData_PedometerStepCount; InitPropVariantFromUInt32(700, &(m_pData->List[PEDOMETER_DATA_WALKING_STEP_COUNT].Value)); m_pData->List[PEDOMETER_DATA_WALKING_STEP_DURATION].Key = PKEY_SensorData_PedometerStepDuration_Ms; InitPropVariantFromInt64(456, &(m_pData->List[PEDOMETER_DATA_WALKING_STEP_DURATION].Value)); m_pData->List[PEDOMETER_DATA_RUNNING_STEP_TYPE].Key = PKEY_SensorData_PedometerStepType; InitPropVariantFromUInt32(static_cast<ULONG>(PedometerStepType_Running), &(m_pData->List[PEDOMETER_DATA_RUNNING_STEP_TYPE].Value)); m_pData->List[PEDOMETER_DATA_RUNNING_STEP_COUNT].Key = PKEY_SensorData_PedometerStepCount; InitPropVariantFromUInt32(800, &(m_pData->List[PEDOMETER_DATA_RUNNING_STEP_COUNT].Value)); m_pData->List[PEDOMETER_DATA_RUNNING_STEP_DURATION].Key = PKEY_SensorData_PedometerStepDuration_Ms; InitPropVariantFromInt64(789, &(m_pData->List[PEDOMETER_DATA_RUNNING_STEP_DURATION].Value)); m_LastSample.Timestamp = Time; m_LastSample.UnknownStepCount = 0; m_LastSample.UnknownStepDurationMs = 0; m_LastSample.WalkingStepCount = 0; m_LastSample.WalkingStepDurationMs = 0; m_LastSample.RunningStepCount = 0; m_LastSample.RunningStepDurationMs = 0; m_LastSample.IsFirstAfterReset = FALSE; // Get the History Size to populate 'PKEY_SensorHistory_MaxSize_Bytes' // Typically the size needed to store a history record on the hardware is // smaller than the size needed to represent a history record as a // SENSOR_COLLECTION_LIST (collection of SENSOR_VALUE_PAIRs) // To be able to accurately represent the size of the history on the // hardware (simulator in this case), get the number of records that the HW // can store and multiply it with the marshalled size of // SENSOR_COLLECTION_LIST needed to represent a single record. HistorySizeInRecords = pSimulator->GetHistorySizeInRecords(); m_HistorySupported = (HistorySizeInRecords > 0) ? TRUE : FALSE; // Pedometer History format is exactly same as it's data sample. // so, we can simply reuse the 'm_pData' to compute the marshalled size // History Retrieval is not WOW64 compatible and hence will not involve // serializing the collections list. Should Use // CollectionsListGetMarshalledSizeWithoutSerialization instead of // CollectionsListGetMarshalledSize when dealing with History Collection list. m_HistoryMarshalledRecordSize = CollectionsListGetMarshalledSizeWithoutSerialization(m_pData); // Sensor Enumeration Properties Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_ENUMERATION_PROPERTIES_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pEnumerationProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pEnumerationProperties) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pEnumerationProperties, Size); m_pEnumerationProperties->Count = SENSOR_ENUMERATION_PROPERTIES_COUNT; m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Key = DEVPKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Pedometer, &(m_pEnumerationProperties->List[SENSOR_TYPE_GUID].Value)); m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Key = DEVPKEY_Sensor_Manufacturer; InitPropVariantFromString(L"Microsoft", &(m_pEnumerationProperties->List[SENSOR_MANUFACTURER].Value)); m_pEnumerationProperties->List[SENSOR_MODEL].Key = DEVPKEY_Sensor_Model; InitPropVariantFromString(L"PEDOMETER", &(m_pEnumerationProperties->List[SENSOR_MODEL].Value)); m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Key = DEVPKEY_Sensor_PersistentUniqueId; InitPropVariantFromCLSID(GUID_PedometerDevice_UniqueID, &(m_pEnumerationProperties->List[SENSOR_PERSISTENT_UNIQUEID].Value)); m_pEnumerationProperties->List[SENSOR_CATEGORY].Key = DEVPKEY_Sensor_Category; InitPropVariantFromCLSID(GUID_SensorCategory_Motion, &(m_pEnumerationProperties->List[SENSOR_CATEGORY].Value)); m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Key = DEVPKEY_Sensor_IsPrimary; InitPropVariantFromBoolean(FALSE, &(m_pEnumerationProperties->List[SENSOR_ISPRIMARY].Value)); // This value should be set to TRUE if multiple pedometers // exist on the system and this sensor is the primary sensor m_pEnumerationProperties->List[SENSOR_POWER].Key = PKEY_Sensor_Power_Milliwatts; InitPropVariantFromFloat(Pedometer_Default_Power_Milliwatts, &(m_pEnumerationProperties->List[SENSOR_POWER].Value)); m_pEnumerationProperties->List[SENSOR_MAX_HISTORYSIZE].Key = PKEY_SensorHistory_MaxSize_Bytes; InitPropVariantFromUInt32(((FALSE != m_HistorySupported) ? (SENSOR_COLLECTION_LIST_HEADER_SIZE + ((m_HistoryMarshalledRecordSize - SENSOR_COLLECTION_LIST_HEADER_SIZE) * HistorySizeInRecords)) : 0), &(m_pEnumerationProperties->List[SENSOR_MAX_HISTORYSIZE].Value)); m_pEnumerationProperties->List[SENSOR_SUPPORTED_STEPTYPES].Key = PKEY_SensorData_SupportedStepTypes; InitPropVariantFromUInt32(PedometerStepType_Unknown | PedometerStepType_Walking | PedometerStepType_Running, &(m_pEnumerationProperties->List[SENSOR_SUPPORTED_STEPTYPES].Value)); // Sensor Properties m_Interval = Pedometer_Default_MinDataInterval_Ms; Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_COMMON_PROPERTIES_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pProperties) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pProperties, Size); m_pProperties->Count = SENSOR_COMMON_PROPERTIES_COUNT; m_pProperties->List[SENSOR_PROPERTY_STATE].Key = PKEY_Sensor_State; InitPropVariantFromUInt32(SensorState_Initializing, &(m_pProperties->List[SENSOR_PROPERTY_STATE].Value)); m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Key = PKEY_Sensor_MinimumDataInterval_Ms; InitPropVariantFromUInt32(Pedometer_Default_MinDataInterval_Ms, &(m_pProperties->List[SENSOR_PROPERTY_MIN_INTERVAL].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Key = PKEY_Sensor_MaximumDataFieldSize_Bytes; InitPropVariantFromUInt32(CollectionsListGetMarshalledSize(m_pData), &(m_pProperties->List[SENSOR_PROPERTY_MAX_DATAFIELDSIZE].Value)); m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Key = PKEY_Sensor_Type; InitPropVariantFromCLSID(GUID_SensorType_Pedometer, &(m_pProperties->List[SENSOR_PROPERTY_SENSOR_TYPE].Value)); m_pProperties->List[SENSOR_PROPERTY_SENSOR_POWER].Key = PKEY_Sensor_Power_Milliwatts; InitPropVariantFromFloat(Pedometer_Default_Power_Milliwatts, &(m_pProperties->List[SENSOR_PROPERTY_SENSOR_POWER].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_HISTORYSIZE].Key = PKEY_SensorHistory_MaxSize_Bytes; InitPropVariantFromUInt32(((FALSE != m_HistorySupported) ? (SENSOR_COLLECTION_LIST_HEADER_SIZE + ((m_HistoryMarshalledRecordSize - SENSOR_COLLECTION_LIST_HEADER_SIZE) * HistorySizeInRecords)) : 0), &(m_pProperties->List[SENSOR_PROPERTY_MAX_HISTORYSIZE].Value)); m_pProperties->List[SENSOR_PROPERTY_HISTORY_INTERVAL].Key = PKEY_SensorHistory_Interval_Ms; InitPropVariantFromUInt32(pSimulator->GetHistoryIntervalInMs(), &(m_pProperties->List[SENSOR_PROPERTY_HISTORY_INTERVAL].Value)); m_pProperties->List[SENSOR_PROPERTY_MAX_HISTROYRECORDSIZE].Key = PKEY_SensorHistory_MaximumRecordSize_Bytes; InitPropVariantFromUInt32(m_HistoryMarshalledRecordSize, &(m_pProperties->List[SENSOR_PROPERTY_MAX_HISTROYRECORDSIZE].Value)); m_pProperties->List[SENSOR_PROPERTY_SUPPORTED_STEPTYPES].Key = PKEY_SensorData_SupportedStepTypes; InitPropVariantFromUInt32(PedometerStepType_Unknown | PedometerStepType_Walking | PedometerStepType_Running, &(m_pProperties->List[SENSOR_PROPERTY_SUPPORTED_STEPTYPES].Value)); // Data field properties Size = SENSOR_COLLECTION_LIST_SIZE(SENSOR_DATA_FIELD_PROPERTY_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pDataFieldProperties)); if (!NT_SUCCESS(Status) || nullptr == m_pDataFieldProperties) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pDataFieldProperties, Size); m_pDataFieldProperties->Count = SENSOR_DATA_FIELD_PROPERTY_COUNT; m_pDataFieldProperties->List[SENSOR_RESOLUTION].Key = PKEY_SensorDataField_Resolution; InitPropVariantFromInt64(PedometerDevice_StepCount_Resolution, &(m_pDataFieldProperties->List[SENSOR_RESOLUTION].Value)); m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Key = PKEY_SensorDataField_RangeMinimum; InitPropVariantFromUInt32(PedometerDevice_StepCount_Minimum, &(m_pDataFieldProperties->List[SENSOR_MIN_RANGE].Value)); m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Key = PKEY_SensorDataField_RangeMaximum; InitPropVariantFromUInt32(PedometerDevice_StepCount_Maximum, &(m_pDataFieldProperties->List[SENSOR_MAX_RANGE].Value)); // Set default threshold m_FirstSample = TRUE; Size = SENSOR_COLLECTION_LIST_SIZE(PEDOMETER_THRESHOLD_COUNT); MemoryHandle = NULL; WDF_OBJECT_ATTRIBUTES_INIT(&MemoryAttributes); MemoryAttributes.ParentObject = SensorInstance; Status = WdfMemoryCreate(&MemoryAttributes, PagedPool, SENSOR_POOL_TAG_PEDOMETER, Size, &MemoryHandle, reinterpret_cast<PVOID*>(&m_pThresholds)); if (!NT_SUCCESS(Status) || nullptr == m_pThresholds) { TraceError("PED %!FUNC! WdfMemoryCreate failed %!STATUS!", Status); goto Exit; } SENSOR_COLLECTION_LIST_INIT(m_pThresholds, Size); m_pThresholds->Count = PEDOMETER_THRESHOLD_COUNT; m_pThresholds->List[PEDOMETER_THRESHOLD_STEP_COUNT].Key = PKEY_SensorData_PedometerStepCount; InitPropVariantFromUInt32(Pedometer_Default_Threshold_StepCount, &(m_pThresholds->List[PEDOMETER_THRESHOLD_STEP_COUNT].Value)); m_CachedThreshold = Pedometer_Default_Threshold_StepCount; Exit: SENSOR_FunctionExit(Status); return Status; }