Sample Code
Windows Driver Samples/ Sample UMDF Filter above UMDF Function Driver for OSR USB-FX2 (UMDF Version 1)/ C++/ umdf_driver/ ControlQueue.cpp/
/*++ Copyright (c) Microsoft Corporation, All Rights Reserved Module Name: ControlQueue.cpp Abstract: This file implements the I/O queue interface and performs the ioctl operations. Environment: Windows User-Mode Driver Framework (WUDF) --*/ #include "internal.h" #include "winioctl.h" #include "ControlQueue.tmh" CMyControlQueue::CMyControlQueue( _In_ PCMyDevice Device ) : CMyQueue(Device) { } HRESULT STDMETHODCALLTYPE CMyControlQueue::QueryInterface( _In_ REFIID InterfaceId, _Out_ PVOID *Object ) /*++ Routine Description: Query Interface Aruments: Follows COM specifications Return Value: HRESULT indicatin success or failure --*/ { HRESULT hr; if (IsEqualIID(InterfaceId, __uuidof(IQueueCallbackDeviceIoControl))) { hr = S_OK; *Object = QueryIQueueCallbackDeviceIoControl(); } else { hr = CMyQueue::QueryInterface(InterfaceId, Object); } return hr; } // // Initialize // HRESULT CMyControlQueue::CreateInstance( _In_ PCMyDevice Device, _Out_ PCMyControlQueue *Queue ) /*++ Routine Description: CreateInstance creates an instance of the queue object. Aruments: ppUkwn - OUT parameter is an IUnknown interface to the queue object Return Value: HRESULT indicatin success or failure --*/ { PCMyControlQueue queue = NULL; HRESULT hr = S_OK; queue = new CMyControlQueue(Device); if (NULL == queue) { hr = E_OUTOFMEMORY; } // // Call the queue callback object to initialize itself. This will create // its partner queue framework object. // if (SUCCEEDED(hr)) { hr = queue->Initialize(); } if (SUCCEEDED(hr)) { *Queue = queue; } else { SAFE_RELEASE(queue); } return hr; } HRESULT CMyControlQueue::Initialize( VOID ) { HRESULT hr; // // First initialize the base class. This will create the partner FxIoQueue // object and setup automatic forwarding of I/O controls. // // // The framework (UMDF) will not deliver a // request to the driver that arrives on a power-managed queue, unless // the device is in a powered-up state. If you receive a request on a // power-managed queue after the device has idled out, // the framework will not be able to power-up and present the request // to the driver unless it is the power policy owner (PPO). // Since this driver is the PPO it can use power managed queues // hr = __super::Initialize(WdfIoQueueDispatchSequential, false, true /* use power managed queue */); // // return the status. // return hr; } VOID STDMETHODCALLTYPE CMyControlQueue::OnDeviceIoControl( _In_ IWDFIoQueue *FxQueue, _In_ IWDFIoRequest *FxRequest, _In_ ULONG ControlCode, _In_ SIZE_T InputBufferSizeInBytes, _In_ SIZE_T OutputBufferSizeInBytes ) /*++ Routine Description: DeviceIoControl dispatch routine Aruments: FxQueue - Framework Queue instance FxRequest - Framework Request instance ControlCode - IO Control Code InputBufferSizeInBytes - Lenth of input buffer OutputBufferSizeInBytes - Lenth of output buffer Always succeeds DeviceIoIoctl Return Value: VOID --*/ { UNREFERENCED_PARAMETER(FxQueue); IWDFMemory *memory = NULL; PVOID buffer; SIZE_T bigBufferCb; ULONG information = 0; bool completeRequest = true; HRESULT hr = S_OK; switch (ControlCode) { case IOCTL_OSRUSBFX2_GET_CONFIG_DESCRIPTOR: { // // Get the output buffer. // FxRequest->GetOutputMemory(&memory ); // // request the descriptor. // ULONG bufferCb; // // Get the buffer address then release the memory object. // The memory object remains valid until the request is // completed. // buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); if (bigBufferCb > ULONG_MAX) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); break; } else { bufferCb = (ULONG) bigBufferCb; } hr = m_Device->GetUsbTargetDevice()->RetrieveDescriptor( USB_CONFIGURATION_DESCRIPTOR_TYPE, 0, 0, &bufferCb, (PUCHAR) buffer ); if (SUCCEEDED(hr)) { information = bufferCb; } break; } case IOCTL_OSRUSBFX2_GET_BAR_GRAPH_DISPLAY: { // // Make sure the buffer is big enough to hold the result of the // control transfer. // if (OutputBufferSizeInBytes < sizeof(BAR_GRAPH_STATE)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { FxRequest->GetOutputMemory(&memory ); } if (SUCCEEDED(hr)) { buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); hr = m_Device->GetBarGraphDisplay((PBAR_GRAPH_STATE) buffer); } // // If that worked then record how many bytes of data we're // returning. // if (SUCCEEDED(hr)) { information = sizeof(BAR_GRAPH_STATE); } break; } case IOCTL_OSRUSBFX2_SET_BAR_GRAPH_DISPLAY: { // // Make sure the buffer is big enough to hold the input for the // control transfer. // if (InputBufferSizeInBytes < sizeof(BAR_GRAPH_STATE)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { FxRequest->GetInputMemory(&memory); } // // Get the data buffer and use it to set the bar graph on the // device. // if (SUCCEEDED(hr)) { buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); hr = m_Device->SetBarGraphDisplay((PBAR_GRAPH_STATE) buffer); } break; } case IOCTL_OSRUSBFX2_GET_7_SEGMENT_DISPLAY: { // // Make sure the buffer is big enough to hold the result of the // control transfer. // if (OutputBufferSizeInBytes < sizeof(SEVEN_SEGMENT)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { FxRequest->GetOutputMemory(&memory ); } if (SUCCEEDED(hr)) { buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); hr = m_Device->GetSevenSegmentDisplay((PSEVEN_SEGMENT) buffer); } // // If that worked then record how many bytes of data we're // returning. // if (SUCCEEDED(hr)) { information = sizeof(SEVEN_SEGMENT); } break; } case IOCTL_OSRUSBFX2_SET_7_SEGMENT_DISPLAY: { // // Make sure the buffer is big enough to hold the input for the // control transfer. // if (InputBufferSizeInBytes < sizeof(SEVEN_SEGMENT)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { FxRequest->GetInputMemory(&memory ); } // // Get the data buffer and use it to set the bar graph on the // device. // if (SUCCEEDED(hr)) { buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); hr = m_Device->SetSevenSegmentDisplay((PSEVEN_SEGMENT) buffer); } break; } case IOCTL_OSRUSBFX2_READ_SWITCHES: { // // Make sure the buffer is big enough to hold the input for the // control transfer. // if (OutputBufferSizeInBytes < sizeof(SWITCH_STATE)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { FxRequest->GetOutputMemory(&memory ); } // // Get the data buffer and use it to set the bar graph on the // device. // if (SUCCEEDED(hr)) { buffer = memory->GetDataBuffer(&bigBufferCb); memory->Release(); hr = m_Device->ReadSwitchState((PSWITCH_STATE) buffer); } if (SUCCEEDED(hr)) { information = sizeof(SWITCH_STATE); } break; } case IOCTL_OSRUSBFX2_GET_INTERRUPT_MESSAGE: { // // Make sure the buffer is big enough to hold the switch // state. // if (OutputBufferSizeInBytes < sizeof(SWITCH_STATE)) { hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } else { // // Forward the request to the switch state change queue. // hr = FxRequest->ForwardToIoQueue( m_Device->GetSwitchChangeQueue() ); if (SUCCEEDED(hr)) { completeRequest = false; } } break; } case IOCTL_OSRUSBFX2_RESET_DEVICE: case IOCTL_OSRUSBFX2_REENUMERATE_DEVICE: { // // WinUSB does not allow us to reset or re-enumerate the device. // Return not-supported for the error in both of these cases. // hr = HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED); break; } case IOCTL_OSRUSBFX2_PLAY_FILE: { // // This IOCTL demonstrates how to use impersonation to access // resources using the credentials provided by the client. Note // that for impersonation to work it has to be enabled in the device // INF and the client must allow impersonation when they open the // device. // // This IOCTL opens a file using the path provided by the client // and then plays the characters in that file out to the seven segment // display in a worker thread. // PFILE_PLAYBACK playback; SIZE_T playbackCb; size_t realPlaybackCb; FxRequest->GetInputMemory(&memory); if (memory == NULL) { hr = HRESULT_FROM_WIN32(ERROR_INVALID_PARAMETER); break; } // // Get the playback structure from the input buffer. // playback = (PFILE_PLAYBACK) memory->GetDataBuffer(&playbackCb); memory->Release(); // // Make sure the length is at least as big as the fixed portion // of the input structure. // if (playbackCb < (FIELD_OFFSET(FILE_PLAYBACK, Path))) { hr = HRESULT_FROM_WIN32(ERROR_INVALID_PARAMETER); break; } // // Make sure the file name is at least one character long. // playbackCb -= FIELD_OFFSET(FILE_PLAYBACK, Path); if (playbackCb < sizeof(WCHAR)) { hr = HRESULT_FROM_WIN32(ERROR_INVALID_PARAMETER); break; } // // Verify that the string provided is valid. // hr = StringCbLength(playback->Path, min(playbackCb, (STRSAFE_MAX_CCH * sizeof(WCHAR))), &realPlaybackCb); if (FAILED(hr)) { break; } hr = m_Device->PlaybackFile(playback, FxRequest); break; } default: { hr = HRESULT_FROM_WIN32(ERROR_INVALID_FUNCTION); break; } } if (completeRequest) { FxRequest->CompleteWithInformation(hr, information); } return; }
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