#include "pch.h" NTSTATUS PptPdoClose( IN PDEVICE_OBJECT Pdo, IN PIRP Irp ) /*++ Routine Description: This routine is the dispatch for a close requests. Arguments: DeviceObject - Supplies the device object. Irp - Supplies the I/O request packet. Return Value: STATUS_SUCCESS - Success. --*/ { PPDO_EXTENSION pdx = Pdo->DeviceExtension; BOOLEAN haveShadowBuffer; PVOID threadObject; DD((PCE)pdx,DDT,"PptPdoClose\n"); // immediately stop signalling any dot4 event pdx->P12843DL.bEventActive = FALSE; // // Protect against two threads calling us concurrently // ExAcquireFastMutex( &pdx->OpenCloseMutex ); haveShadowBuffer = pdx->bShadowBuffer; pdx->bShadowBuffer = FALSE; threadObject = pdx->ThreadObjectPointer; pdx->ThreadObjectPointer = NULL; ExReleaseFastMutex( &pdx->OpenCloseMutex ); // // clean up Bounded ECP shadow buffer // if( haveShadowBuffer ) { Queue_Delete( &(pdx->ShadowBuffer) ); } // // if we still have a worker thread, kill it // if( threadObject ) { // set the flag for the worker thread to kill itself pdx->TimeToTerminateThread = TRUE; // wake up the thread so it can kill itself KeReleaseSemaphore( &pdx->RequestSemaphore, 0, 1, FALSE ); // allow thread to get past PauseEvent so it can kill self KeSetEvent( &pdx->PauseEvent, 0, TRUE ); // wait for the thread to die KeWaitForSingleObject( threadObject, UserRequest, KernelMode, FALSE, NULL ); // allow the system to release the thread object ObDereferenceObject( threadObject ); } // // update open handle count // { ExAcquireFastMutex( &pdx->OpenCloseMutex ); InterlockedDecrement( &pdx->OpenCloseRefCount ); if( pdx->OpenCloseRefCount < 0) { // catch possible underflow pdx->OpenCloseRefCount = 0; } ExReleaseFastMutex(&pdx->OpenCloseMutex); } return P4CompleteRequest( Irp, STATUS_SUCCESS, 0 ); }