C++ (Cpp) AbortPipe示例

编程语言: C++ (Cpp)

方法/功能: AbortPipe

hotexamples.com的示例: 3

C++ (Cpp) AbortPipe - 已找到3个示例。这些是从开源项目中提取的最受好评的AbortPipe现实C++ (Cpp)示例。您可以评价示例，以帮助我们提高示例质量。

示例#1

显示文件

文件： DeviceIO.cpp 项目： HiXiaoMing/Win_Dev_Driver_Code

// 并行处理
VOID CY001Drv::DeviceIoControlParallel(IN WDFQUEUE  Queue,
						IN WDFREQUEST  Request,
						IN size_t  OutputBufferLength,
						IN size_t  InputBufferLength,
						IN ULONG  IoControlCode)
{
	NTSTATUS status = STATUS_SUCCESS;
	ULONG ulRetLen = 0;

	size_t size = 0;
	void* pBufferInput = NULL;
	void* pBufferOutput = NULL;

	KDBG(DPFLTR_INFO_LEVEL, "[DeviceIoControlParallel] CtlCode:0x%0.8X", IoControlCode);

	// 取得输入缓冲区，判断其有效性
	if(InputBufferLength){
		status = WdfRequestRetrieveInputBuffer(Request, InputBufferLength, &pBufferInput, &size);
		if(status != STATUS_SUCCESS || pBufferInput == NULL || size < InputBufferLength){
			WdfRequestComplete(Request, STATUS_INVALID_PARAMETER);
			return;
		}
	}

	// 取得输出缓冲区，判断其有效性
	if(OutputBufferLength){
		status = WdfRequestRetrieveOutputBuffer(Request, OutputBufferLength, &pBufferOutput, &size);
		if(status != STATUS_SUCCESS || pBufferOutput == NULL || size < OutputBufferLength){
			WdfRequestComplete(Request, STATUS_INVALID_PARAMETER);
			return;
		}
	}

	//
	// 下面是主处理过程。
	//
	switch(IoControlCode)
	{
		// 取得驱动的版本信息
	case IOCTL_GET_DRIVER_VERSION:
		{
			PDRIVER_VERSION pVersion = (PDRIVER_VERSION)pBufferOutput;
			ULONG length;
			char tcsBuffer[120];
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_GET_DRIVER_VERSION");

			if(OutputBufferLength < sizeof(DRIVER_VERSION)){
				status = STATUS_BUFFER_TOO_SMALL;
				break;
			}

			pVersion->DriverType = DR_WDF;
			pVersion->FirmwareType = FW_NOT_CY001;
			ulRetLen = sizeof(DRIVER_VERSION);// 告示返回长度

			// 根据String描述符，判断Firmware代码是否已经被加载。
			GetStringDes(2, 0, tcsBuffer, 120, &length);

			if(length){
				WCHAR* pCyName = L"CY001 V";
				size_t len;
				int nIndex;

				if(length < 8)
					break;

				RtlStringCchLengthW(pCyName, 7, &len);
				for(nIndex = 0; nIndex < len; nIndex++){
					if(pCyName[nIndex] != ((WCHAR*)tcsBuffer)[nIndex])
						break;
				}

				if(nIndex == len)
					pVersion->FirmwareType = FW_CY001; // 完全相符，说明新版Firmware已经加载到开发板。
			}
			break;
		}
		
		// 收到App发送过来的一个同步Request，我们应该把它保存到同步Queue中，等到有同步事件发生的时候再从Queue中取出并完成。
	case IOCTL_USB_SYNC:
		KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_SYNC");
		status = WdfRequestForwardToIoQueue(Request, m_hAppSyncManualQueue);

		// 直接返回，不调用WdfRequestComplete函数。
		// 请求者将不会为此而等待；请求的完成在将来的某个时刻。
		// 这就是所谓的异步处理之要义了。
		if(NT_SUCCESS(status))
			return;
		break;

		// 清空同步队列中的所有请求
	case IOCTL_USB_SYNC_RELEASE:
		KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_SYNC");
		ClearSyncQueue();
		break;

		// 应用程序退出，取消所有被阻塞的请求。
	case IOCTL_APP_EXIT_CANCEL: 
			
		// 取消USB设备的所有IO操作。它将连带取消所有Pipe的IO操作。
		//WdfIoTargetStop(WdfUsbTargetDeviceGetIoTarget(m_hUsbDevice), WdfIoTargetCancelSentIo);
		break;

		// 取得当前的配置号.总是设置为0,因为在WDF框架中,0以外的配置是不被支持的。
	case IOCTL_USB_GET_CURRENT_CONFIG:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_CURRENT_CONFIG");
			if(InputBufferLength < 4){
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			*(PULONG)pBufferInput = 0;// 直接赋值0，即总是选择0号配置。也可以发送URB到总线获取当前配置选项。
			ulRetLen = sizeof(ULONG);
			break;
		}

	case IOCTL_USB_ABORTPIPE:
		{
			ULONG pipenum = *((PULONG) pBufferOutput);
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_ABORTPIPE");

			status = AbortPipe(pipenum);
		}      
		break;

		// 获取Pipe信息
	case IOCTL_USB_GET_PIPE_INFO:
		{
			// 遍历获取Pipe信息，复制到输出缓冲中。
			BYTE byCurSettingIndex = 0;
			BYTE byPipeNum = 0;
			BYTE index;
			USB_INTERFACE_DESCRIPTOR  interfaceDescriptor;
			WDF_USB_PIPE_INFORMATION  pipeInfor;

			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_PIPE_INFO");

			// 取得Pipe数。根据Pipe数计算缓冲区长度
			byCurSettingIndex = WdfUsbInterfaceGetConfiguredSettingIndex(m_hUsbInterface); 
			WdfUsbInterfaceGetDescriptor(m_hUsbInterface, byCurSettingIndex, &interfaceDescriptor);
			byPipeNum = WdfUsbInterfaceGetNumConfiguredPipes(m_hUsbInterface);		

			if(OutputBufferLength < byPipeNum * sizeof(pipeInfor)){
				status = STATUS_BUFFER_TOO_SMALL; // 缓冲区不足
			}else{

				ulRetLen = byPipeNum*sizeof(pipeInfor);

				// 遍历获取全部管道信息，拷贝到输出缓冲中。
				// 应用程序得到输出缓冲的时候，也应该使用WDF_USB_PIPE_INFORMATION结构体解析缓冲区。
				for(index = 0; index < byPipeNum; index++)
				{
					WDF_USB_PIPE_INFORMATION_INIT(&pipeInfor);
					WdfUsbInterfaceGetEndpointInformation(m_hUsbInterface, byCurSettingIndex, index, &pipeInfor);
					RtlCopyMemory((PUCHAR)pBufferOutput + index*pipeInfor.Size, &pipeInfor, sizeof(pipeInfor));
				}
			}
		}

		break;

		// 获取设备描述符
	case IOCTL_USB_GET_DEVICE_DESCRIPTOR:
		{
			USB_DEVICE_DESCRIPTOR  UsbDeviceDescriptor;
			WdfUsbTargetDeviceGetDeviceDescriptor(m_hUsbDevice, &UsbDeviceDescriptor);
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_DEVICE_DESCRIPTOR");

			// 判断输入缓冲区的长度是否足够长
			if(OutputBufferLength < UsbDeviceDescriptor.bLength)
				status = STATUS_BUFFER_TOO_SMALL;
			else{
				RtlCopyMemory(pBufferOutput, &UsbDeviceDescriptor, UsbDeviceDescriptor.bLength);
				ulRetLen = UsbDeviceDescriptor.bLength;
			}

			break;
		}

		// 获取字符串描述符
	case IOCTL_USB_GET_STRING_DESCRIPTOR:
		{
			PGET_STRING_DESCRIPTOR Input = (PGET_STRING_DESCRIPTOR)pBufferInput;
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_STRING_DESCRIPTOR");
			status = GetStringDes(Input->Index, Input->LanguageId, pBufferOutput, OutputBufferLength, &ulRetLen);
			
			// 由字符长度调整为字节长度
			if(NT_SUCCESS(status) && ulRetLen > 0)
				ulRetLen *= (sizeof(WCHAR)/sizeof(char));
			break;
		}

		// 获取配置描述信息。
	case IOCTL_USB_GET_CONFIGURATION_DESCRIPTOR:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_CONFIGURATION_DESCRIPTOR");

			// 首先获得配置描述符的长度。
			status = WdfUsbTargetDeviceRetrieveConfigDescriptor(m_hUsbDevice, NULL, (USHORT*)&size);
			if(!NT_SUCCESS(status) && status != STATUS_BUFFER_TOO_SMALL)
				break;

			// 输出缓冲区不够长
			if(OutputBufferLength < size)
				break;

			// 正式取得配置描述符。
			status = WdfUsbTargetDeviceRetrieveConfigDescriptor(m_hUsbDevice, pBufferOutput, (USHORT*)&size);
			if(!NT_SUCCESS(status))
				break;

			ulRetLen = size;
			break;
		}

		// 根据可选值配置接口
	case IOCTL_USB_SET_INTERFACE:
		{
			BYTE byAlterSetting = *(BYTE*)pBufferInput;
			BYTE byCurSetting = WdfUsbInterfaceGetConfiguredSettingIndex(m_hUsbInterface); // 当前Alternate值

			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_SETINTERFACE");

			if(InputBufferLength < 1 || OutputBufferLength < 1)
			{
				status = STATUS_BUFFER_TOO_SMALL;
				break;
			}
			
			// 如果传入的可选值与当前的不同，则重新配置接口；
			// 否则直接返回。
			if(byCurSetting != byAlterSetting)
			{
				WDF_USB_INTERFACE_SELECT_SETTING_PARAMS par;
				WDF_USB_INTERFACE_SELECT_SETTING_PARAMS_INIT_SETTING(&par, byAlterSetting);
				status = WdfUsbInterfaceSelectSetting(m_hUsbInterface, NULL, &par);
			}

			*(BYTE*)pBufferOutput = byCurSetting;
			break;
		}

		// 固件Rest。自定义命令，与Port Rest是两码事。
	case IOCTL_USB_FIRMWRAE_RESET:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_FIRMWRAE_RESET");
			if(InputBufferLength < 1 || pBufferInput == NULL)
				status = STATUS_INVALID_PARAMETER;
			else
				status = FirmwareReset(*(char*)pBufferInput);

			break;
		}

		// 重置USB总线端口
	case IOCTL_USB_PORT_RESET:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_PORT_RESET");			
			WdfUsbTargetDeviceResetPortSynchronously(m_hUsbDevice);
			break;
		}

		// 管道重置
	case IOCTL_USB_PIPE_RESET:
		{
			UCHAR uchPipe;
			WDFUSBPIPE pipe = NULL;

			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_PIPE_RESET");			

			if(InputBufferLength < 1){
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			// 根据ID找到对应的Pipe
			uchPipe = *(UCHAR*)pBufferInput;
			pipe = WdfUsbInterfaceGetConfiguredPipe(m_hUsbInterface, uchPipe, NULL);
			if(pipe == NULL){ 
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			status = WdfUsbTargetPipeResetSynchronously(pipe, NULL, NULL);
			break;
		}

		// 中断管道，放弃管道当前正在进行的操作
	case IOCTL_USB_PIPE_ABORT:
		{
			UCHAR uchPipe;
			WDFUSBPIPE pipe = NULL;

			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_PIPE_ABORT");

			if(InputBufferLength < 1){
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			// 根据ID找到对应的Pipe
			uchPipe = *(UCHAR*)pBufferInput;
			pipe = WdfUsbInterfaceGetConfiguredPipe(m_hUsbInterface, uchPipe, NULL);
			if(pipe == NULL){ 
				status = STATUS_INVALID_PARAMETER;
				break;
			}
			
			status = WdfUsbTargetPipeAbortSynchronously(pipe, NULL, NULL);
			break;
		}

		// 取得驱动错误信息，驱动总是把最后一次发现的错误保存在设备对象的环境块中。
		// 这个逻辑虽然实现了，但目前的版本中，应用程序并没有利用这个接口。
	case IOCTL_USB_GET_LAST_ERROR:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_GET_LAST_ERROR");

			if (OutputBufferLength >= sizeof(ULONG))
				*((PULONG)pBufferOutput) = m_ulLastUSBErrorStatusValue;
			else
				status = STATUS_BUFFER_TOO_SMALL;

			ulRetLen = sizeof(ULONG);
			break;
		}

		// Clear feature命令
	case IOCTL_USB_SET_CLEAR_FEATURE:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_USB_SET_CLEAR_FEATURE");
			status = UsbSetOrClearFeature(Request);
			break;
		}

		// 为USB设备加载固件程序。带有偏移量参数，用这个分支；不带偏移量，可用下一个分支。
		// 带偏移量的情况下，固件代码是一段一段地加载；
		// 不带偏移量的情况，固件代码作为一整块一次性被加载。
	case IOCTL_FIRMWARE_UPLOAD_OFFSET:
		{
			void* pData = pBufferOutput;
			WORD offset = 0;

			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_FIRMWARE_UPLOAD_OFFSET");

			if(InputBufferLength < sizeof(WORD)){
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			offset = *(WORD*)pBufferInput;
			status = FirmwareUpload((PUCHAR)pData, OutputBufferLength, offset);
			break;
		}

		// 为USB设备加载固件程序。
	case IOCTL_FIRMWARE_UPLOAD:
		{
			void* pData = pBufferOutput;
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_FIRMWARE_UPLOAD");
			status = FirmwareUpload((PUCHAR)pData, InputBufferLength, 0);
			break;
		}

		// 读取开发板设备的RAM内容。RAM也就是内存。
		// 每次从同一地址读取的内容可能不尽相同，开发板中固件程序在不断运行，RAM被用来储数据（包括临时数据）。
	case IOCTL_FIRMWARE_READ_RAM:
		{
			KDBG(DPFLTR_INFO_LEVEL, "IOCTL_FIRMWARE_READ_RAM");
			status = ReadRAM(Request, &ulRetLen);// inforVal中保存读取的长度
			break;
		}

		// 其他的请求
	default:
		{
			// 一律转发到SerialQueue中去。			
			WdfRequestForwardToIoQueue(Request, m_hIoCtlSerialQueue);

			// 命令转发之后，这里必须直接返回，千万不可调用WdfRequestComplete函数。
			// 否则会导致一个Request被完成两次的错误。
			return;
		}
	}

	// 完成请求
	WdfRequestCompleteWithInformation(Request, status, ulRetLen);
}

示例#2

显示文件

文件： PSDrvIOCtls.c 项目： HairyFotr/OpenNI

/*++
Routine Description:

This event is called when the framework receives IRP_MJ_DEVICE_CONTROL
requests from the system.

Arguments:

Queue - Handle to the framework queue object that is associated
with the I/O request.
Request - Handle to a framework request object.

OutputBufferLength - length of the request's output buffer,
if an output buffer is available.
InputBufferLength - length of the request's input buffer,
if an input buffer is available.

IoControlCode - the driver-defined or system-defined I/O control code
(IOCTL) that is associated with the request.
Return Value:

VOID
--*/
VOID PSDrv_EvtIoDeviceControl(IN WDFQUEUE Queue, IN WDFREQUEST Request, IN size_t OutputBufferLength, IN size_t InputBufferLength, IN ULONG IoControlCode)
{
    WDFDEVICE					 device;
    PVOID						 ioBuffer;
    size_t						 bufLength;
    NTSTATUS					 status;
    PDEVICE_CONTEXT				 pDevContext;
    PFILE_CONTEXT				 pFileContext;
    ULONG						 length = 0;
	PSUSBDRV_PIPE_PROPERTY*		 pPipeProp;
	PSUSBDRV_CONTROL_TRANSFER*	 pControlTransfer;
	PSUSBDRV_DRIVER_VERSION*	 pDriverVersion;
	PSUSBDRV_INTERFACE_PROPERTY* pInterfaceProperty;
	unsigned int*				 pnDeviceSpeed;
	WDFMEMORY					 WdfMem = NULL; 
	PUCHAR                       pControlBuffer;
	WDFMEMORY					 WdfMemOut = NULL;

	
	WDF_USB_INTERFACE_SELECT_SETTING_PARAMS  selectSettingParams;

    UNREFERENCED_PARAMETER(InputBufferLength);

    PSDrv_DbgPrint(3, ("PSDrv_EvtIoDeviceControl - begins\n"));

    PAGED_CODE();

    // initialize variables
    device = WdfIoQueueGetDevice(Queue);
    pDevContext = GetDeviceContext(device);

    switch(IoControlCode)
	{
		case IOCTL_PSDRV_RESET_PIPE:
			PSDrv_DbgPrint(3, ("IOControl: ResetPipe\n"));

			pFileContext = GetFileContext(WdfRequestGetFileObject(Request));

			if (pFileContext->Pipe == NULL)
			{
				PSDrv_DbgPrint(3, ("Invalid pipe!\n"));
				status = STATUS_INVALID_PARAMETER;
			}
			else
			{
				status = ResetPipe(pFileContext->Pipe);
			}

			break;

		case IOCTL_PSDRV_ABORT_PIPE:
			PSDrv_DbgPrint(3, ("IOControl: AbortPipe\n"));

			pFileContext = GetFileContext(WdfRequestGetFileObject(Request));

			if (pFileContext->Pipe == NULL)
			{
				PSDrv_DbgPrint(3, ("Invalid pipe!\n"));
				status = STATUS_INVALID_PARAMETER;
			}
			else
			{
				status = AbortPipe(pFileContext->Pipe);
			}

			break;

		case IOCTL_PSDRV_GET_CONFIG_DESCRIPTOR:
			PSDrv_DbgPrint(3, ("IOControl: GetConfigDescriptor\n"));

			if (pDevContext->UsbConfigurationDescriptor)
			{
				length = pDevContext->UsbConfigurationDescriptor->wTotalLength;

				status = WdfRequestRetrieveOutputBuffer(Request, length, &ioBuffer, &bufLength);
				if(!NT_SUCCESS(status))
				{
					PSDrv_DbgPrint(1, ("WdfRequestRetrieveOutputBuffer failed! (Status = %x)\n", status));
					status = STATUS_INVALID_PARAMETER;
					break;
				}

				RtlCopyMemory(ioBuffer, pDevContext->UsbConfigurationDescriptor, length);

				status = STATUS_SUCCESS;
			}
			else
			{
				PSDrv_DbgPrint(3, ("UsbConfigurationDescriptor is NULL!\n"));
				status = STATUS_INVALID_DEVICE_STATE;
			}

			break;

		case IOCTL_PSDRV_RESET_DEVICE:
			PSDrv_DbgPrint(3, ("IOControl: ResetDevice\n"));

			status = ResetDevice(device);

			break;

		case IOCTL_PSDRV_CONTROL_TRANSFER:
			PSDrv_DbgPrint(3, ("IOControl: ControlTransfer\n"));

			//Get a pointer to the input buffer
			status = WdfRequestRetrieveInputMemory(Request, &WdfMem);
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveInputMemory failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			if (WdfMem == NULL)
			{
				PSDrv_DbgPrint(1, ("WdfMem is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pControlTransfer = WdfMemoryGetBuffer(WdfMem, NULL);
			if (pControlTransfer == NULL)
			{
				PSDrv_DbgPrint(1, ("pControlTransfer is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			//Get a pointer to the output buffer
			if (OutputBufferLength != 0)
			{
				status = WdfRequestRetrieveOutputMemory(Request, &WdfMemOut);
				if(!NT_SUCCESS(status))
				{
					PSDrv_DbgPrint(1, ("WdfRequestRetrieveOutputMemory failed! (Status = %x)\n", status));
					status = STATUS_INVALID_PARAMETER;
					break;
				}

				if (WdfMemOut == NULL)
				{
					PSDrv_DbgPrint(1, ("WdfMemOut is NULL!\n"));
					status = STATUS_INVALID_PARAMETER;
					break;
				}

				pControlBuffer = WdfMemoryGetBuffer(WdfMemOut, NULL);
				if (pControlBuffer == NULL)
				{
					PSDrv_DbgPrint(1, ("pControlBuffer is NULL!\n"));
					status = STATUS_INVALID_PARAMETER;
					break;
				}
			}
			else
			{
				PSDrv_DbgPrint(1, ("This control request has no buffer...\n"));
				pControlBuffer = NULL;
			}

			// Call the control transfer function
			status = ControlTransfer(pDevContext, pControlTransfer, pControlBuffer, OutputBufferLength, &length);

			break;

		case IOCTL_PSDRV_SET_PIPE_PROPERTY:
			PSDrv_DbgPrint(3, ("IOControl: SetPipeProperty\n"));

			status = WdfRequestRetrieveInputMemory(Request, &WdfMem); 
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveInputMemory failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			if (WdfMem == NULL)
			{
				PSDrv_DbgPrint(1, ("WdfMem is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pPipeProp = WdfMemoryGetBuffer(WdfMem, NULL);
			if (pPipeProp == NULL)
			{
				PSDrv_DbgPrint(1, ("pPipeProp is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pFileContext = GetFileContext(WdfRequestGetFileObject(Request));
			if (pFileContext->Pipe == NULL)
			{
				PSDrv_DbgPrint(3, ("Invalid pipe!\n"));
				status = STATUS_INVALID_PARAMETER;
			}
			else
			{
				status = SetPipeProperty(pFileContext, pPipeProp);
			}

			break;

		case IOCTL_PSDRV_SET_INTERFACE:
			PSDrv_DbgPrint(3, ("IOControl: SetInterface\n"));

			status = WdfRequestRetrieveInputMemory(Request, &WdfMem); 
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveInputMemory failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			if (WdfMem == NULL)
			{
				PSDrv_DbgPrint(1, ("WdfMem is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pInterfaceProperty = WdfMemoryGetBuffer(WdfMem, NULL);
			if (pInterfaceProperty == NULL)
			{
				PSDrv_DbgPrint(1, ("pInterfaceProperty is NULL!\n"));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			PSDrv_DbgPrint(3, ("SetInterface: Going to change AltIF to %d...\n", pInterfaceProperty->nAltIF));

			WDF_USB_INTERFACE_SELECT_SETTING_PARAMS_INIT_SETTING(&selectSettingParams, pInterfaceProperty->nAltIF);

			status = WdfUsbInterfaceSelectSetting(pDevContext->UsbInterface, WDF_NO_OBJECT_ATTRIBUTES, &selectSettingParams);

			if (status == STATUS_SUCCESS)
			{
				pDevContext->nCurrIf = 0;
				pDevContext->nCurrAltIf = pInterfaceProperty->nAltIF;

				PSDrv_DbgPrint(3, ("SetInterface: AltIF is now %d...\n", pInterfaceProperty->nAltIF));
			}

			break;

		case IOCTL_PSDRV_GET_INTERFACE:
			PSDrv_DbgPrint(3, ("IOControl: GetInterface\n"));

			length = sizeof(PSUSBDRV_INTERFACE_PROPERTY);

			status = WdfRequestRetrieveOutputBuffer(Request, length, &pInterfaceProperty, &bufLength);
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveOutputBuffer failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pInterfaceProperty->nIF = pDevContext->nCurrIf;
			pInterfaceProperty->nAltIF = pDevContext->nCurrAltIf;

			status = STATUS_SUCCESS;

			break;

		case IOCTL_PSDRV_GET_DRIVER_VERSION:
			PSDrv_DbgPrint(3, ("IOControl: GetDriverVersion\n"));

			length = sizeof(PSUSBDRV_DRIVER_VERSION);

			status = WdfRequestRetrieveOutputBuffer(Request, length, &pDriverVersion, &bufLength);
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveOutputBuffer failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			pDriverVersion->nMajor = PSUSBDRV_MAJOR_VERSION;
			pDriverVersion->nMinor = PSUSBDRV_MINOR_VERSION;
			pDriverVersion->nMaintenance = PSUSBDRV_MAINTENANCE_VERSION;
			pDriverVersion->nBuild = PSUSBDRV_BUILD_VERSION;
			
			status = STATUS_SUCCESS;

			break;

		case IOCTL_PSDRV_GET_DEVICE_SPEED:
			PSDrv_DbgPrint(3, ("IOControl: GetDeviceSpeed\n"));

			length = sizeof(unsigned int);

			status = WdfRequestRetrieveOutputBuffer(Request, length, &pnDeviceSpeed, &bufLength);
			if(!NT_SUCCESS(status))
			{
				PSDrv_DbgPrint(1, ("WdfRequestRetrieveOutputBuffer failed! (Status = %x)\n", status));
				status = STATUS_INVALID_PARAMETER;
				break;
			}

			if (pDevContext->IsDeviceHighSpeed == TRUE)
			{
				*pnDeviceSpeed = PSUSBDRV_DEVICE_HIGH_SPEED;
			}
			else
			{
				*pnDeviceSpeed = PSUSBDRV_DEVICE_FULL_SPEED;
			}

			break;

		default:
			PSDrv_DbgPrint(3, ("Unknown IOControl! (ControlCode = %x)\n", IoControlCode));

			status = STATUS_INVALID_DEVICE_REQUEST;

			break;
    }

    WdfRequestCompleteWithInformation(Request, status, length);

	PSDrv_DbgPrint(3, ("PSDrv_EvtIoDeviceControl - ends\n"));

    return;
}

示例#3

显示文件

文件： UsbIoReader.cpp 项目： AndreaCensi/dvs_tracking

void CUsbIoReader::TerminateThread()
{
  // cancel all outstanding io requests
  AbortPipe();
}