//------------------------------------------------------------------- // This is implementation of WDM device // Author: Sergey Ivanov // Log: // 10/01/99 - implemented //------------------------------------------------------------------- #ifndef __WDM_ADAPTER__ #define __WDM_ADAPTER__ #include "kernel.h" #pragma LOCKEDCODE class CPendingIRP; class CLinkedList; #pragma PAGEDCODE // This is adapter class // It defines default device methods specific for any WDM. class CWDMDevice : public CDevice { public: NTSTATUS m_Status; SAFE_DESTRUCTORS(); protected: NTSTATUS device_Default(PIRP Irp) { // Default functions to handle requests... // By default we do not handle any requests if // they are not reimplimented. Irp->IoStatus.Status = STATUS_IO_DEVICE_ERROR; Irp->IoStatus.Information = 0; irp->completeRequest(Irp,IO_NO_INCREMENT); return STATUS_IO_DEVICE_ERROR; }; NTSTATUS PnP_Default(IN PIRP Irp) { // Default device does not do anything. // So let's just transfer request to low level driver... irp->skipCurrentStackLocation(Irp); return system->callDriver(m_pLowerDeviceObject, Irp); }; NTSTATUS power_Default(IN PIRP Irp) { // Default device does not do anything. // So let's just transfer request to low level driver... power->startNextPowerIrp(Irp); // must be done while we own the IRP irp->skipCurrentStackLocation(Irp); return power->callPowerDriver(m_pLowerDeviceObject, Irp); } NTSTATUS completeDeviceRequest(PIRP Irp, NTSTATUS status, ULONG_PTR info) { // Complete current request with given information if (Irp->PendingReturned) { irp->getCurrentStackLocation(Irp)->Control &= ~SL_PENDING_RETURNED; } Irp->IoStatus.Status = status; Irp->IoStatus.Information = info; irp->completeRequest(Irp,IO_NO_INCREMENT); return status; } public: // Redefine base class methods.. CWDMDevice() { m_Status = STATUS_INSUFFICIENT_RESOURCES; Signature[0]=L'I'; Signature[1]=L'S'; Signature[2]=L'V'; initialized = FALSE; if(createDeviceObjects()) { //Default our interface memory->copy(&InterfaceClassGuid,&GUID_CLASS_GRCLASS,sizeof(GUID)); // It is reqired to initialize our object directly // through createDeviceObjects() function. event->initialize(&IdleState,SynchronizationEvent, TRUE); // This event will signal if device is ready to process requests... event->initialize(&m_evEnabled,NotificationEvent,TRUE); initializeRemoveLock(); m_Status = STATUS_SUCCESS; } Idle_conservation = 0; Idle_performance = 0; m_VendorNameLength = 0; m_DeviceTypeLength = 0; TRACE("WDM device created...\n"); }; ~CWDMDevice() { TRACE(" Destroing WDM device %8.8lX ...\n", this); if(!m_RemoveLock.removing) { TRACE("######## ERROR: surprize destroing...\n"); remove(); } unregisterDeviceInterface(getDeviceInterfaceName()); Signature[0]++; Signature[1]++; removeDeviceObjects(); }; BOOL checkValid(VOID) { if(!initialized) return FALSE; return (Signature[0]==L'I' && Signature[1]==L'S' && Signature[2]==L'V'); }; // It is alright to create device directly or // to call the function virtual CDevice* create(VOID) { CDevice* obj = new (NonPagedPool) CWDMDevice; RETURN_VERIFIED_OBJECT(obj); }; virtual VOID dispose() { TRACE("Destroing WDM device...\n"); if(!m_RemoveLock.removing) { TRACE("######## ERROR: surprize destroing...\n"); remove(); } Signature[0]++; Signature[1]++; removeDeviceObjects(); // The device is link to the system. // So let system to remove device first and // after this we will remove device object... //self_delete(); }; BOOL createDeviceObjects() { debug = kernel->createDebug(); system = kernel->createSystem(); lock = kernel->createLock(); irp = kernel->createIrp(); event = kernel->createEvent(); power = kernel->createPower(); memory = kernel->createMemory(); m_IoRequests = new (NonPagedPool) CLinkedList; if(!system || !irp || !event || !power || !lock || !memory || !m_IoRequests) { removeDeviceObjects(); return FALSE; } TRACE("WDM device objects created...\n"); initialized = TRUE; return TRUE; }; VOID removeDeviceObjects() { TRACE("Destroing WDM device objects...\n"); if(m_IoRequests) delete m_IoRequests; if(lock) lock->dispose(); if(irp) irp->dispose(); if(event) event->dispose(); if(power) power->dispose(); if(memory) memory->dispose(); if(system) system->dispose(); if(debug) debug->dispose(); initialized = FALSE; }; // This part contains device synchronization functions. // They should be used to synchronize device removal. // So basically any access to device should be started with acquireRemoveLock() // and finished with releaseRemoveLock()... #pragma PAGEDCODE VOID initializeRemoveLock() { // InitializeRemoveLock PAGED_CODE(); event->initialize(&m_RemoveLock.evRemove, NotificationEvent, FALSE); m_RemoveLock.usage = 1; m_RemoveLock.removing = FALSE; } // InitializeRemoveLock #pragma LOCKEDCODE NTSTATUS acquireRemoveLock() { LONG usage = lock->interlockedIncrement(&m_RemoveLock.usage); if (m_RemoveLock.removing) { // removal in progress if (lock->interlockedDecrement(&m_RemoveLock.usage) == 0) event->set(&m_RemoveLock.evRemove,IO_NO_INCREMENT,FALSE); TRACE("LOCK: m_RemoveLock.usage %d\n",m_RemoveLock.usage); TRACE("****** FAILED TO LOCK WDM DEVICE! REMOVE REQUEST IS ACTIVE! *******\n"); return STATUS_DELETE_PENDING; } //TRACE("LOCK: m_RemoveLock.usage %d\n",m_RemoveLock.usage); return STATUS_SUCCESS; }; #pragma PAGEDCODE VOID releaseRemoveLock() { ULONG usage; if(m_Type==BUS_DEVICE) { //???????????????????????- BIG BIG BUG!!! // It is connected only to BUS device! // At some conditions not all remove locks was released properly. // For other devices it is not appeared at all. if(m_RemoveLock.usage<0) m_RemoveLock.usage = 0; if (!m_RemoveLock.removing) { if(m_RemoveLock.usage<2) m_RemoveLock.usage = 2; } } if (usage = lock->interlockedDecrement(&m_RemoveLock.usage) == 0) event->set(&m_RemoveLock.evRemove,IO_NO_INCREMENT,FALSE); //TRACE("UNLOCK: m_RemoveLock.usage %d\n",m_RemoveLock.usage); }; #pragma PAGEDCODE VOID releaseRemoveLockAndWait() { PAGED_CODE(); TRACE("REMOVING DEVICE...\n"); m_RemoveLock.removing = TRUE; // We are going to remove device. // So if somebody is waiting for the active device, // first allow them to fail request and complete Irp event->set(&m_evEnabled,IO_NO_INCREMENT,FALSE); releaseRemoveLock(); releaseRemoveLock(); // Child device at bus could be removed by the Bus itself // In this case it will not have second AquireRemoveLock from PnP system! if(m_Type == CHILD_DEVICE) if(m_RemoveLock.usage<0) m_RemoveLock.usage = 0; TRACE("LOCK COUNT ON REMOVING %x\n",m_RemoveLock.usage); //ASSERT(m_RemoveLock.usage==0); event->waitForSingleObject(&m_RemoveLock.evRemove, Executive, KernelMode, FALSE, NULL); } BOOL isDeviceLocked() { lock->interlockedIncrement(&m_RemoveLock.usage); // Add device will increment Usage! // Current request will add more... if(lock->interlockedDecrement(&m_RemoveLock.usage)<=2) { return FALSE; } TRACE("Current lock count %d\n",m_RemoveLock.usage); return TRUE; }; // Contrary to RemoveLock disableDevice() stops and blocks any active request // INSIDE driver. It will not fail the request but will synchronize its // execution. VOID disableDevice() { TRACE("********** DISABLING DEVICE...***********\n"); event->clear(&m_evEnabled); } VOID enableDevice() { TRACE("********** ENABLING DEVICE...***********\n"); event->set(&m_evEnabled,IO_NO_INCREMENT,FALSE); } BOOL synchronizeDeviceExecution() { // If device is not ready to process requests, block waiting for the device ASSERT(system->getCurrentIrql()<=DISPATCH_LEVEL); NTSTATUS status = event->waitForSingleObject(&m_evEnabled, Executive,KernelMode, FALSE, NULL); if(!NT_SUCCESS(status) || m_RemoveLock.removing) return FALSE; return TRUE; } // Functions to synchronize device execution VOID setBusy() { event->clear(&IdleState); //TRACE("\n DEVICE BUSY\n"); }; VOID setIdle() { event->set(&IdleState,IO_NO_INCREMENT,FALSE); //TRACE("\n DEVICE IDLE\n"); }; NTSTATUS waitForIdle() { ASSERT(system->getCurrentIrql()<=DISPATCH_LEVEL); NTSTATUS status = event->waitForSingleObject(&IdleState, Executive,KernelMode, FALSE, NULL); if(!NT_SUCCESS(status)) return STATUS_IO_TIMEOUT; return STATUS_SUCCESS; }; NTSTATUS waitForIdleAndBlock() { if(NT_SUCCESS(waitForIdle())) { setBusy(); return STATUS_SUCCESS; } else return STATUS_IO_TIMEOUT; }; BOOL registerDeviceInterface(const GUID* Guid) { if(isDeviceInterfaceRegistered()) { TRACE("Device interface already active...\n"); return TRUE; } if(memory) memory->copy(&InterfaceClassGuid, Guid,sizeof(GUID)); TRACE("Registering device interface at system...\n"); NTSTATUS Status = system->registerDeviceInterface(getPhysicalObject(), &InterfaceClassGuid, NULL, getDeviceInterfaceName()); if(!NT_SUCCESS(Status)) { TRACE("#### Failed to register device interface...\n"); return FALSE; } system->setDeviceInterfaceState(getDeviceInterfaceName(),TRUE); m_DeviceInterfaceRegistered = TRUE; return TRUE; }; VOID unregisterDeviceInterface(UNICODE_STRING* InterfaceName) { if(isDeviceInterfaceRegistered()) { TRACE("Unregistering device interface...\n"); system->setDeviceInterfaceState(InterfaceName,FALSE); } m_DeviceInterfaceRegistered = FALSE; }; virtual NTSTATUS setVendorName(const PCHAR Name,USHORT Length) { m_VendorNameLength = Lengthcopy(m_VendorName, Name, m_VendorNameLength); return STATUS_SUCCESS; }; virtual NTSTATUS getVendorName(PUCHAR Name,PUSHORT pLength) { USHORT Len = m_VendorNameLength<*pLength? m_VendorNameLength:*pLength; *pLength = Len; if(!Len) return STATUS_INVALID_PARAMETER; memory->copy(Name, m_VendorName, Len); return STATUS_SUCCESS; }; virtual NTSTATUS setDeviceType(const PCHAR Type,USHORT Length) { m_DeviceTypeLength = Lengthcopy(m_DeviceType, Type, m_DeviceTypeLength); return STATUS_SUCCESS; }; virtual NTSTATUS getDeviceType(PUCHAR Type,PUSHORT pLength) { USHORT Len = m_DeviceTypeLength<*pLength? m_DeviceTypeLength:*pLength; *pLength = Len; if(!Len) return STATUS_INVALID_PARAMETER; memory->copy(Type, m_DeviceType, Len); return STATUS_SUCCESS; }; // This is basic PnP part of driver. // It allows to add and remove device. // Specific PnP request should be reimplemented by clients... virtual NTSTATUS createDeviceObjectByName(PDEVICE_OBJECT* ppFdo) { if(!ALLOCATED_OK(system)) return STATUS_INSUFFICIENT_RESOURCES; // By default we will create autogenerated name... // Specific implementations can overwrite the function to // change the functionality. return system->createDevice(m_DriverObject,sizeof(CWDMDevice*),NULL, FILE_DEVICE_UNKNOWN,FILE_AUTOGENERATED_DEVICE_NAME,FALSE,ppFdo); }; virtual NTSTATUS registerDevicePowerPolicy() { // By default all devices at startup are ON if(!ALLOCATED_OK(power)) return STATUS_INSUFFICIENT_RESOURCES; POWER_STATE state; state.DeviceState = PowerDeviceD0; power->declarePowerState(m_DeviceObject, DevicePowerState, state); if(m_PhysicalDeviceObject) { m_CurrentDevicePowerState = PowerDeviceD0; m_Idle = power->registerDeviceForIdleDetection(m_PhysicalDeviceObject,Idle_conservation,Idle_performance, PowerDeviceD3); } return STATUS_SUCCESS; }; virtual NTSTATUS initializeInterruptSupport() { // Here is where we can initialize our DPC (Deferred Procedure Call) object // that allows our interrupt service routine to request a DPC to finish handling // a device interrupt. // At default WDM device we do not do this. //interrupt->initializeDpcRequest(m_DeviceObject,&CALLBACK_FUNCTION(DpcForIsr)); return STATUS_SUCCESS; }; NTSTATUS add(PDRIVER_OBJECT DriverObject, PDEVICE_OBJECT pPdo) { NTSTATUS status; PDEVICE_OBJECT pFdo; if(!ALLOCATED_OK(system)) return STATUS_INSUFFICIENT_RESOURCES; TRACE("Add with Driver %8.8lX, pPDO %8.8lX\n",DriverObject, pPdo); // Init first our objects... m_DriverObject = DriverObject; m_PhysicalDeviceObject = pPdo; // create Fdo for the registered objects. // Clients can overwrite device object name and it's visibility. status = createDeviceObjectByName(&pFdo); if(!NT_SUCCESS(status)) { TRACE("#### Failed to create physical device! Status %x\n",status); DISPOSE_OBJECT(m_DeviceObjectName); return status; } TRACE(" Device object was created %8.8lX\n",pFdo); m_DeviceObject = pFdo; m_Added = TRUE; CLogger* logger = kernel->getLogger(); if(pPdo) { m_pLowerDeviceObject = system->attachDevice(pFdo, pPdo); if(!m_pLowerDeviceObject) { TRACE("#### Failed to get lower device object...\n"); if(ALLOCATED_OK(logger)) logger->logEvent(GRCLASS_FAILED_TO_ADD_DEVICE,getSystemObject()); system->deleteDevice(pFdo); return STATUS_NO_SUCH_DEVICE; } } else m_pLowerDeviceObject = NULL; initializeInterruptSupport(); pFdo->Flags |= DO_BUFFERED_IO; pFdo->Flags |= DO_POWER_PAGABLE; pFdo->Flags &= ~DO_DEVICE_INITIALIZING; registerDevicePowerPolicy(); TRACE("WDM device added...\n"); return STATUS_SUCCESS; }; VOID remove() { if(!m_Added) return; TRACE("Removing WDM device...\n"); // Wait untill we finished all activity at device releaseRemoveLockAndWait(); // Remove device from our system TRACE("Unregistering device from kernel...\n"); kernel->unregisterObject(getSystemObject()); TRACE("Removing device object name...\n"); if(m_DeviceObjectName) delete m_DeviceObjectName; m_DeviceObjectName = NULL; if(m_pLowerDeviceObject) { TRACE("Detaching device from system...\n"); system->detachDevice(m_pLowerDeviceObject); } TRACE("WDM device removed...\n"); // Tell our system - device removed... m_Added = FALSE; // Removing device from system could result in // requesting Unload() from system if the device was last registered device. // So, this call should be last call AFTER disposing the device. }; virtual VOID onDeviceStop() { return; }; NTSTATUS forward(PIRP Irp, PIO_COMPLETION_ROUTINE Routine) { CIoPacket* IoPacket; // This function sends the current request // If completion routine is not set it will complete // the request by default(it means without doing anything special). TRACE("WDM forward()...\n"); IoPacket = new (NonPagedPool) CIoPacket(Irp); if(!ALLOCATED_OK(IoPacket)) { DISPOSE_OBJECT(IoPacket); return STATUS_INSUFFICIENT_RESOURCES; } IoPacket->copyCurrentStackToNext(); if(Routine) IoPacket->setCompletion(Routine); else IoPacket->setDefaultCompletionFunction(); NTSTATUS status = system->callDriver(getLowerDriver(),IoPacket->getIrpHandle()); DISPOSE_OBJECT(IoPacket); return status; }; // Send the current request to low level driver and wait for reply // Current IRP will not be completed, so we can process it and // complete later. // See also description of send() function. NTSTATUS forwardAndWait(PIRP Irp) { // Send request to low level and wait for a reply CIoPacket* IoPacket; TRACE("WDM forwardAndWait()...\n"); IoPacket = new (NonPagedPool) CIoPacket(Irp); if(!ALLOCATED_OK(IoPacket)) { DISPOSE_OBJECT(IoPacket); return STATUS_INSUFFICIENT_RESOURCES; } IoPacket->setCurrentStack(); IoPacket->setStackDefaults(); NTSTATUS status = system->callDriver(getLowerDriver(),IoPacket->getIrpHandle()); if(status == STATUS_PENDING) { TRACE("Waiting for the bus driver to complete...\n"); ASSERT(system->getCurrentIrql()<=DISPATCH_LEVEL); status = IoPacket->waitForCompletion(); TRACE("Request completed with status %x\n",status); } DISPOSE_OBJECT(IoPacket); return status; }; // WDM by default just forwards requests... virtual NTSTATUS send(CIoPacket* Irp) { TRACE("WDM sendRequestToDevice()\n"); if(Irp) return forward(Irp->getIrpHandle(),NULL); else return STATUS_INVALID_PARAMETER; }; virtual NTSTATUS sendAndWait(CIoPacket* Irp) { TRACE("WDM sendRequestToDeviceAndWait()\n"); if(Irp) return forwardAndWait(Irp->getIrpHandle()); else return STATUS_INVALID_PARAMETER; }; // Define device interface functions virtual NTSTATUS write(PUCHAR pRequest,ULONG RequestLength) { CIoPacket* IoPacket; if(!pRequest || !RequestLength) return STATUS_INVALID_PARAMETER; IoPacket = new (NonPagedPool) CIoPacket(getLowerDriver()->StackSize); if(!ALLOCATED_OK(IoPacket)) { DISPOSE_OBJECT(IoPacket); return STATUS_INSUFFICIENT_RESOURCES; } TRACE("IoPacket with device %x\n",getSystemObject()); IoPacket->setTimeout(getCommandTimeout()); IoPacket->buildStack(getSystemObject(),IRP_MJ_WRITE); IoPacket->setWriteLength(RequestLength); IoPacket->copyBuffer(pRequest,RequestLength); TRACE("WDM write()...\n"); NTSTATUS status = send(IoPacket); TRACE("WDM write finished: %x\n", status); DISPOSE_OBJECT(IoPacket); return status; }; virtual NTSTATUS writeAndWait(PUCHAR pRequest,ULONG RequestLength,PUCHAR pReply,ULONG* pReplyLength) { CIoPacket* IoPacket; if(!pRequest || !RequestLength || !pReply || !pReplyLength) return STATUS_INVALID_PARAMETER; IoPacket = new (NonPagedPool) CIoPacket(getLowerDriver()->StackSize); if(!ALLOCATED_OK(IoPacket)) { DISPOSE_OBJECT(IoPacket); return STATUS_INSUFFICIENT_RESOURCES; } TRACE("IoPacket with device %x\n",getSystemObject()); IoPacket->setTimeout(getCommandTimeout()); IoPacket->buildStack(getSystemObject(),IRP_MJ_WRITE); IoPacket->setWriteLength(RequestLength); IoPacket->copyBuffer(pRequest,RequestLength); TRACE("WDM sendAndWait()...\n"); NTSTATUS status = sendAndWait(IoPacket); TRACE("WDM writeAndWait finished: %x\n",status); if(!NT_SUCCESS(status)) { *pReplyLength = 0; DISPOSE_OBJECT(IoPacket); return status; } *pReplyLength = (ULONG)IoPacket->getInformation(); IoPacket->getSystemReply(pReply,*pReplyLength); //TRACE_BUFFER(pReply,*pReplyLength); DISPOSE_OBJECT(IoPacket); return status; }; virtual NTSTATUS readAndWait(PUCHAR pRequest,ULONG RequestLength,PUCHAR pReply,ULONG* pReplyLength) { CIoPacket* IoPacket; if(!pRequest || !RequestLength || !pReply || !pReplyLength) return STATUS_INVALID_PARAMETER; IoPacket = new (NonPagedPool) CIoPacket(getLowerDriver()->StackSize); if(!ALLOCATED_OK(IoPacket)) { DISPOSE_OBJECT(IoPacket); return STATUS_INSUFFICIENT_RESOURCES; } IoPacket->setTimeout(getCommandTimeout()); IoPacket->buildStack(getSystemObject(),IRP_MJ_READ); IoPacket->setReadLength(RequestLength); IoPacket->copyBuffer(pRequest,RequestLength); TRACE("WDM sendAndWait()...\n"); NTSTATUS status = sendAndWait(IoPacket); TRACE("WDM sendAndWait finished: %x\n",status); if(!NT_SUCCESS(status)) { *pReplyLength = 0; DISPOSE_OBJECT(IoPacket); return status; } *pReplyLength = (ULONG)IoPacket->getInformation(); IoPacket->getSystemReply(pReply,*pReplyLength); TRACE_BUFFER(pReply,*pReplyLength); DISPOSE_OBJECT(IoPacket); return status; }; NTSTATUS synchronizeDevicePowerState() { if (m_CurrentDevicePowerState!=PowerDeviceD0) { NTSTATUS status; TRACE("RESTORING DEVICE POWER ON from state %d!\n",m_CurrentDevicePowerState); status = sendDeviceSetPower(PowerDeviceD0,TRUE); if(!NT_SUCCESS(status)) { TRACE("FAILED TO SET POWER ON DEVICE STATE!\n"); return status; } } return STATUS_SUCCESS; } NTSTATUS sendDeviceSetPower(DEVICE_POWER_STATE devicePower, BOOLEAN wait) {// SendDeviceSetPower POWER_STATE state; NTSTATUS status; state.DeviceState = devicePower; if (wait) {// synchronous operation KEVENT Event; event->initialize(&Event, NotificationEvent, FALSE); POWER_CONTEXT context = {&Event}; status = power->requestPowerIrp(getPhysicalObject(), IRP_MN_SET_POWER, state, (PREQUEST_POWER_COMPLETE) onSendDeviceSetPowerComplete, &context, NULL); if (status == STATUS_PENDING) { event->waitForSingleObject(&Event, Executive, KernelMode, FALSE, NULL); status = context.status; } }// synchronous operation else status = power->requestPowerIrp(getPhysicalObject(), IRP_MN_SET_POWER, state, NULL, NULL, NULL); return status; }// SendDeviceSetPower // These functions define default interface with system. // Clients should redefine them if they would like to have // specific functionality. virtual NTSTATUS pnpRequest(IN PIRP irp){return PnP_Default(irp);}; virtual NTSTATUS powerRequest(PIRP irp) {return power_Default(irp);}; // By default we allow user to get connection with device virtual NTSTATUS open(PIRP irp) {return completeDeviceRequest(irp, STATUS_SUCCESS, 0); };//Create virtual NTSTATUS close(PIRP irp){return completeDeviceRequest(irp, STATUS_SUCCESS, 0); }; virtual NTSTATUS read(PIRP irp) { return device_Default(irp); }; virtual NTSTATUS write(PIRP irp) { return device_Default(irp); }; virtual NTSTATUS deviceControl(PIRP irp) { return device_Default(irp);}; virtual NTSTATUS cleanup(PIRP irp) { return device_Default(irp); }; virtual NTSTATUS flush(PIRP irp) { return device_Default(irp); }; // Standard system startIo // Actually we do not use it for now. // Instead we have our own synchronization facilities. virtual VOID startIo(PIRP irp){}; //---------------------------------------------------------------------------// // SYNCHRONIZATION FACILITIES // //---------------------------------------------------------------------------// // To make synchronization at the driver we have to store and make pending // all our requests. // Specific devices should set specific thread which will start all pending Irp. //---------------------------------------------------------------------------// // CALLBACK FUNCTION: // This function will not only complete current Irp but also will dispose // corresponding IoRequest if any was pending at driver. #pragma LOCKEDCODE virtual VOID cancelPendingIrp(PIRP Irp) { KIRQL ioIrql; // 1. // We keep pending Irp inside list of IoRequests. // So we do not need to warry about removing Irp from a queue... // 2. // As soon as IoRequest started, we do not allow to cancel it. // So, in this case this function will not be called and it is responsibility // of the driver to finish (or cancel) active IoRequest. // It means this function should not warry about active (and removed from our queue) // IoRequests. But it has to warry about not yet started requests... TRACE(" CANCELLING IRP %8.8lX...\n", Irp); // Release cancel spin lock if somebody own it... lock->releaseCancelSpinLock(Irp->CancelIrql); // Get our own spin lock in case somebody desided to cancel this Irp lock->acquireCancelSpinLock(&ioIrql); // Reset our cancel routine to prevent it being called... irp->setCancelRoutine(Irp, NULL); // If Irp was on the queue - remove IoRequest from queue... if(m_IoRequests) { CPendingIRP* IrpReq = m_IoRequests->getFirst(); while (IrpReq) { if(IrpReq->Irp == Irp) { // We found our Irp. m_IoRequests->remove(IrpReq); TRACE(" IO REQUEST WAS DISPOSED...\n"); IrpReq->dispose(); break; } IrpReq = m_IoRequests->getNext(IrpReq); } } if(m_OpenSessionIrp == Irp) { TRACE(" OPEN SESSION IRP WAS CANCELLED...\n"); m_OpenSessionIrp = NULL; } // Complete Irp as canceled... Irp->IoStatus.Status = STATUS_CANCELLED; Irp->IoStatus.Information = 0; // Release our spin lock... lock->releaseCancelSpinLock(ioIrql); TRACE(" IRP %8.8lX WAS CANCELLED...\n", Irp); irp->completeRequest(Irp, IO_NO_INCREMENT); }; #pragma PAGEDCODE virtual CLinkedList* getIoRequestsQueue() { return m_IoRequests; }; virtual NTSTATUS makeRequestPending(PIRP Irp_request,PDEVICE_OBJECT toDeviceObject,PENDING_REQUEST_TYPE Type) { KIRQL OldIrql; lock->acquireCancelSpinLock(&OldIrql); if (Irp_request->Cancel) { TRACE(" <<<<<< IO REQUEST CANCELLED... %8.8lX>>>>>>\n",Irp_request); lock->releaseCancelSpinLock(OldIrql); return STATUS_CANCELLED; } else { TRACE(" <<<<<< IO REQUEST PENDING %8.8lX>>>>>>\n",Irp_request); CPendingIRP* IrpReq = new (NonPagedPool) CPendingIRP(Irp_request,Type,toDeviceObject); if(!IrpReq) { lock->releaseCancelSpinLock(OldIrql); TRACE("ERROR! FAILED TO ALLOCATE IoRequest. LOW ON MEMORY!\n"); return completeDeviceRequest(Irp_request,STATUS_INSUFFICIENT_RESOURCES,0); } Irp_request->IoStatus.Information=0; Irp_request->IoStatus.Status=STATUS_PENDING; irp->setCancelRoutine(Irp_request, CALLBACK_FUNCTION(cancelPendingIrp)); lock->releaseCancelSpinLock(OldIrql); irp->markPending(Irp_request); m_IoRequests->New(IrpReq); return STATUS_PENDING; } }; // Cancel current pending IO request virtual NTSTATUS cancelPendingRequest(CPendingIRP* IrpReq) { // Next function will remove and dispose our request... cancelPendingIrp(IrpReq->Irp); return STATUS_CANCELLED; }; // Cancel all pending IO requests virtual NTSTATUS cancelAllPendingRequests() { // Next function will remove and dispose our request... if(m_IoRequests) { CPendingIRP* IrpReqNext; CPendingIRP* IrpReq = m_IoRequests->getFirst(); while (IrpReq) { IrpReqNext = m_IoRequests->getNext(IrpReq); cancelPendingRequest(IrpReq);// This call will dispose request... IrpReq = IrpReqNext; } } if(m_OpenSessionIrp) cancelPendingIrp(m_OpenSessionIrp); return STATUS_CANCELLED; }; // Checks if request queue is empty and if it is NOT - starts next request... // This function will be called by the Irp processing thread. virtual NTSTATUS startNextPendingRequest() { TRACE(" startNextPendingRequest() was called...\n"); if (!m_IoRequests->IsEmpty()) { KIRQL OldIrql; CDevice* device; NTSTATUS status; CPendingIRP* IrpReq = m_IoRequests->removeHead(); if(!IrpReq) return STATUS_INVALID_PARAMETER; lock->acquireCancelSpinLock(&OldIrql); // Now Irp can not be canceled! irp->setCancelRoutine(IrpReq->Irp, NULL); if (IrpReq->Irp->Cancel) { lock->releaseCancelSpinLock(OldIrql); // Current Irp was already canceled, // Cancel function will be called shortly. // So just forget about current Irp. return STATUS_SUCCESS;; } lock->releaseCancelSpinLock(OldIrql); device = (CDevice*)IrpReq->DeviceObject->DeviceExtension; // Call device specific startIo function... TRACE(" Device startIoRequest() was called...\n"); if(device) status = device->startIoRequest(IrpReq); else status = STATUS_INVALID_DEVICE_STATE; return status; } return STATUS_SUCCESS; }; virtual NTSTATUS ThreadRoutine() { //NTSTATUS status; //if(!NT_SUCCESS(status = waitForIdleAndBlock())) return status; // If somebody inserted pending request - dispatch it... // It will call specific child device startIoRequest(). // It is up to that device how to handle it. // If child device is busy - it can insert this request into // child device request queue again and process it later... startNextPendingRequest(); //setIdle(); return STATUS_SUCCESS; }; // Device specific function which processes pending requests... // It will be redefined by specific devices. // This function always should be virtual because // we expect specific device behaviour... virtual NTSTATUS startIoRequest(CPendingIRP* IoReq) { // Default startIo just cancel current request. // IoReq will be disposed... if(IoReq) { cancelPendingRequest(IoReq); } return STATUS_SUCCESS; }; }; #endif //If not defined