/*++ Copyright (C) Microsoft Corporation, 1996 - 1999 Module Name: smcnt.c Abstract: This module handles all IOCTL requests to the smart card reader. Environment: Kernel mode only. Notes: Revision History: - Created December 1996 by Klaus Schutz --*/ #include #include #include #include #define SMARTCARD_POOL_TAG 'bLCS' #define _ISO_TABLES_ #include "smclib.h" typedef struct _TAG_LIST_ENTRY { ULONG Tag; LIST_ENTRY List; } TAG_LIST_ENTRY, *PTAG_LIST_ENTRY; NTSTATUS DriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING RegistryPath ); void SmartcardDeleteLink( IN PUNICODE_STRING LinkName ); #pragma alloc_text(PAGEABLE,DriverEntry) #pragma alloc_text(PAGEABLE,SmartcardCreateLink) #pragma alloc_text(PAGEABLE,SmartcardDeleteLink) #pragma alloc_text(PAGEABLE,SmartcardInitialize) #pragma alloc_text(PAGEABLE,SmartcardExit) NTSTATUS SmartcardDeviceIoControl( PSMARTCARD_EXTENSION SmartcardExtension ); PUCHAR MapIoControlCodeToString( ULONG IoControlCode ); #if DEBUG_INTERFACE #include "smcdbg.c" #else NTSTATUS DriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING RegistryPath ) { return STATUS_SUCCESS; } #endif NTSTATUS SmartcardCreateLink( IN OUT PUNICODE_STRING LinkName, IN PUNICODE_STRING DeviceName ) /*++ Routine Description: This routine creates a symbolic link name for the given device name. NOTE: The buffer for the link name will be allocated here. The caller is responsible for freeing the buffer. If the function fails no buffer is allocated. Arguments: LinkName - receives the created link name DeviceName - the device name for which the link should be created Return Value: None --*/ { NTSTATUS status; ULONG i; PWCHAR buffer; ASSERT(LinkName != NULL); ASSERT(DeviceName != NULL); if (LinkName == NULL) { return STATUS_INVALID_PARAMETER_1; } if (DeviceName == NULL) { return STATUS_INVALID_PARAMETER_2; } buffer = ExAllocatePool( NonPagedPool, 32 * sizeof(WCHAR) ); ASSERT(buffer != NULL); if (buffer == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } for (i = 0; i < MAXIMUM_SMARTCARD_READERS; i++) { swprintf(buffer, L"\\DosDevices\\SCReader%d", i); RtlInitUnicodeString( LinkName, buffer ); status = IoCreateSymbolicLink( LinkName, DeviceName ); if (NT_SUCCESS(status)) { SmartcardDebug( DEBUG_INFO, ("%s!SmartcardCreateLink: %ws linked to %ws\n", DRIVER_NAME, DeviceName->Buffer, LinkName->Buffer) ); return status; } } ExFreePool(LinkName->Buffer); return status; } void SmartcardDeleteLink( IN PUNICODE_STRING LinkName ) { // // Delete the symbolic link of the smart card reader // IoDeleteSymbolicLink( LinkName ); // // Free allocated buffer // ExFreePool( LinkName->Buffer ); } NTSTATUS SmartcardInitialize( IN PSMARTCARD_EXTENSION SmartcardExtension ) /*++ Routine Description: This function allocated the send and receive buffers for smart card data. It also sets the pointer to 2 ISO tables to make them accessible to the driver Arguments: SmartcardExtension Return Value: NTSTATUS --*/ { NTSTATUS status = STATUS_SUCCESS; SmartcardDebug( DEBUG_INFO, ("%s!SmartcardInitialize: Enter. Version %lx, %s %s\n", DRIVER_NAME, SMCLIB_VERSION, __DATE__, __TIME__) ); ASSERT(SmartcardExtension != NULL); ASSERT(SmartcardExtension->OsData == NULL); if (SmartcardExtension == NULL) { return STATUS_INVALID_PARAMETER_1; } if (SmartcardExtension->Version > SMCLIB_VERSION || SmartcardExtension->Version < SMCLIB_VERSION_REQUIRED) { SmartcardDebug( DEBUG_ERROR, ("%s!SmartcardInitialize: Incompatible version in SMARTCARD_EXTENSION.\n", DRIVER_NAME) ); return STATUS_UNSUCCESSFUL; } if (SmartcardExtension->SmartcardRequest.BufferSize < MIN_BUFFER_SIZE) { SmartcardDebug( DEBUG_ERROR, ("%s!SmartcardInitialize: WARNING: SmartcardRequest.BufferSize (%ld) < MIN_BUFFER_SIZE (%ld)\n", DRIVER_NAME, SmartcardExtension->SmartcardRequest.BufferSize, MIN_BUFFER_SIZE) ); SmartcardExtension->SmartcardRequest.BufferSize = MIN_BUFFER_SIZE; } if (SmartcardExtension->SmartcardReply.BufferSize < MIN_BUFFER_SIZE) { SmartcardDebug( DEBUG_ERROR, ("%s!SmartcardInitialize: WARNING: SmartcardReply.BufferSize (%ld) < MIN_BUFFER_SIZE (%ld)\n", DRIVER_NAME, SmartcardExtension->SmartcardReply.BufferSize, MIN_BUFFER_SIZE) ); SmartcardExtension->SmartcardReply.BufferSize = MIN_BUFFER_SIZE; } SmartcardExtension->SmartcardRequest.Buffer = ExAllocatePool( NonPagedPool, SmartcardExtension->SmartcardRequest.BufferSize ); SmartcardExtension->SmartcardReply.Buffer = ExAllocatePool( NonPagedPool, SmartcardExtension->SmartcardReply.BufferSize ); SmartcardExtension->OsData = ExAllocatePool( NonPagedPool, sizeof(OS_DEP_DATA) ); #if defined(DEBUG) && defined(SMCLIB_NT) SmartcardExtension->PerfInfo = ExAllocatePool( NonPagedPool, sizeof(PERF_INFO) ); #endif // // Check if one of the above allocations failed // if (SmartcardExtension->SmartcardRequest.Buffer == NULL || SmartcardExtension->SmartcardReply.Buffer == NULL || SmartcardExtension->OsData == NULL #if defined(DEBUG) && defined(SMCLIB_NT) || SmartcardExtension->PerfInfo == NULL #endif ) { status = STATUS_INSUFFICIENT_RESOURCES; if (SmartcardExtension->SmartcardRequest.Buffer) { ExFreePool(SmartcardExtension->SmartcardRequest.Buffer); } if (SmartcardExtension->SmartcardReply.Buffer) { ExFreePool(SmartcardExtension->SmartcardReply.Buffer); } if (SmartcardExtension->OsData) { ExFreePool(SmartcardExtension->OsData); } #if defined(DEBUG) && defined(SMCLIB_NT) if (SmartcardExtension->PerfInfo) { ExFreePool(SmartcardExtension->PerfInfo); } #endif } if (status != STATUS_SUCCESS) { return status; } RtlZeroMemory( SmartcardExtension->OsData, sizeof(OS_DEP_DATA) ); #if defined(DEBUG) && defined(SMCLIB_NT) RtlZeroMemory( SmartcardExtension->PerfInfo, sizeof(PERF_INFO) ); #endif // Initialize the mutex that is used to synch. access to the driver KeInitializeMutex( &(SmartcardExtension->OsData->Mutex), 0 ); KeInitializeSpinLock( &(SmartcardExtension->OsData->SpinLock) ); // initialize the remove lock SmartcardExtension->OsData->RemoveLock.Removed = FALSE; SmartcardExtension->OsData->RemoveLock.RefCount = 1; KeInitializeEvent( &SmartcardExtension->OsData->RemoveLock.RemoveEvent, SynchronizationEvent, FALSE ); InitializeListHead(&SmartcardExtension->OsData->RemoveLock.TagList); // Make the 2 ISO tables accessible to the driver SmartcardExtension->CardCapabilities.ClockRateConversion = &ClockRateConversion[0]; SmartcardExtension->CardCapabilities.BitRateAdjustment = &BitRateAdjustment[0]; #ifdef DEBUG_INTERFACE SmclibCreateDebugInterface(SmartcardExtension); #endif SmartcardDebug( DEBUG_TRACE, ("%s!SmartcardInitialize: Exit\n", DRIVER_NAME) ); return status; } VOID SmartcardExit( IN PSMARTCARD_EXTENSION SmartcardExtension ) /*++ Routine Description: This routine frees the send and receive buffer. It is usually called when the driver unloads. Arguments: SmartcardExtension --*/ { SmartcardDebug( DEBUG_TRACE, ("%s!SmartcardExit: Enter\n", DRIVER_NAME) ); #ifdef DEBUG_INTERFACE SmclibDeleteDebugInterface(SmartcardExtension); #endif // // Free all allocated buffers // if (SmartcardExtension->SmartcardRequest.Buffer) { ExFreePool(SmartcardExtension->SmartcardRequest.Buffer); SmartcardExtension->SmartcardRequest.Buffer = NULL; } if (SmartcardExtension->SmartcardReply.Buffer) { ExFreePool(SmartcardExtension->SmartcardReply.Buffer); SmartcardExtension->SmartcardReply.Buffer = NULL; } if (SmartcardExtension->OsData) { ExFreePool(SmartcardExtension->OsData); SmartcardExtension->OsData = NULL; } #if defined(DEBUG) && defined(SMCLIB_NT) if (SmartcardExtension->PerfInfo) { ExFreePool(SmartcardExtension->PerfInfo); SmartcardExtension->OsData = NULL; } #endif if (SmartcardExtension->T1.ReplyData) { // free the reply data buffer for T=1 transmissions ExFreePool(SmartcardExtension->T1.ReplyData); SmartcardExtension->T1.ReplyData = NULL; } SmartcardDebug( DEBUG_INFO, ("%s!SmartcardExit: Exit - Device %.*s\n", DRIVER_NAME, SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer) ); } NTSTATUS SmartcardAcquireRemoveLockWithTag( IN PSMARTCARD_EXTENSION SmartcardExtension, ULONG Tag ) { NTSTATUS status = STATUS_SUCCESS; LONG refCount; #ifdef DEBUG PTAG_LIST_ENTRY tagListEntry; #endif refCount = InterlockedIncrement( &SmartcardExtension->OsData->RemoveLock.RefCount ); ASSERT(refCount > 0); if (SmartcardExtension->OsData->RemoveLock.Removed == TRUE) { if (InterlockedDecrement ( &SmartcardExtension->OsData->RemoveLock.RefCount ) == 0) { KeSetEvent( &SmartcardExtension->OsData->RemoveLock.RemoveEvent, 0, FALSE ); } status = STATUS_DELETE_PENDING; } #ifdef DEBUG tagListEntry = (PTAG_LIST_ENTRY) ExAllocatePoolWithTag( NonPagedPool, sizeof(TAG_LIST_ENTRY), SMARTCARD_POOL_TAG ); ASSERT(tagListEntry); if (tagListEntry == NULL) { return status; } tagListEntry->Tag = Tag; InsertHeadList( &SmartcardExtension->OsData->RemoveLock.TagList, &tagListEntry->List ); #endif return status; } NTSTATUS SmartcardAcquireRemoveLock( IN PSMARTCARD_EXTENSION SmartcardExtension ) { return SmartcardAcquireRemoveLockWithTag( SmartcardExtension, 0 ); } VOID SmartcardReleaseRemoveLockWithTag( IN PSMARTCARD_EXTENSION SmartcardExtension, IN ULONG Tag ) { LONG refCount; #ifdef DEBUG PLIST_ENTRY entry; BOOLEAN tagFound = FALSE; #endif refCount = InterlockedDecrement( &SmartcardExtension->OsData->RemoveLock.RefCount ); ASSERT(refCount >= 0); #ifdef DEBUG for (entry = SmartcardExtension->OsData->RemoveLock.TagList.Flink; entry->Flink != SmartcardExtension->OsData->RemoveLock.TagList.Flink; entry = entry->Flink) { PTAG_LIST_ENTRY tagListEntry = CONTAINING_RECORD(entry, TAG_LIST_ENTRY, List); if (Tag == tagListEntry->Tag) { tagFound = TRUE; RemoveEntryList(entry); ExFreePool(tagListEntry); break; } } ASSERTMSG("SmartcardReleaseRemoveLock() called with unknown tag", tagFound == TRUE); #endif if (refCount == 0) { ASSERT (SmartcardExtension->OsData->RemoveLock.Removed); // // The device needs to be removed. Signal the remove event // that it's safe to go ahead. // KeSetEvent( &SmartcardExtension->OsData->RemoveLock.RemoveEvent, IO_NO_INCREMENT, FALSE ); } } VOID SmartcardReleaseRemoveLock( IN PSMARTCARD_EXTENSION SmartcardExtension ) { SmartcardReleaseRemoveLockWithTag(SmartcardExtension, 0); } VOID SmartcardReleaseRemoveLockAndWait( IN PSMARTCARD_EXTENSION SmartcardExtension ) { LONG refCount; PAGED_CODE (); ASSERT(SmartcardExtension->OsData->RemoveLock.Removed == FALSE); SmartcardExtension->OsData->RemoveLock.Removed = TRUE; refCount = InterlockedDecrement ( &SmartcardExtension->OsData->RemoveLock.RefCount ); ASSERT (refCount > 0); if (InterlockedDecrement ( &SmartcardExtension->OsData->RemoveLock.RefCount ) > 0) { #ifdef DEBUG // walk the tag list and print all currently held locks PLIST_ENTRY entry; for (entry = SmartcardExtension->OsData->RemoveLock.TagList.Flink; entry->Flink != SmartcardExtension->OsData->RemoveLock.TagList.Flink; entry = entry->Flink) { PTAG_LIST_ENTRY tagListEntry = CONTAINING_RECORD(entry, TAG_LIST_ENTRY, List); SmartcardDebug( DEBUG_ERROR, ("%s!SmartcardReleaseRemoveLockAndWait: Device %.*s holds lock '%.4s'\n", DRIVER_NAME, SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer, &(tagListEntry->Tag)) ); } #endif KeWaitForSingleObject ( &SmartcardExtension->OsData->RemoveLock.RemoveEvent, Executive, KernelMode, FALSE, NULL ); #ifdef DEBUG // free all locks. entry = SmartcardExtension->OsData->RemoveLock.TagList.Flink; while (entry->Flink != SmartcardExtension->OsData->RemoveLock.TagList.Flink) { PTAG_LIST_ENTRY tagListEntry = CONTAINING_RECORD(entry, TAG_LIST_ENTRY, List); RemoveEntryList(entry); ExFreePool(tagListEntry); entry = SmartcardExtension->OsData->RemoveLock.TagList.Flink; } #endif } SmartcardDebug( DEBUG_INFO, ("%s!SmartcardReleaseRemoveLockAndWait: Exit - Device %.*s\n", DRIVER_NAME, SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer) ); } VOID SmartcardLogError( IN PVOID Object, IN NTSTATUS ErrorCode, IN PUNICODE_STRING Insertion, IN ULONG DumpData ) /*++ Routine Description: This routine allocates an error log entry, copies the supplied data to it, and requests that it be written to the error log file. Arguments: DeviceObject - Supplies a pointer to the device object associated with the device that had the error, early in initialization, one may not yet exist. Insertion - An insertion string that can be used to log additional data. Note that the message file needs %2 for this insertion, since %1 is the name of the driver ErrorCode - Supplies the IO status for this particular error. DumpData - One word to dump Return Value: None. --*/ { PIO_ERROR_LOG_PACKET errorLogEntry; errorLogEntry = IoAllocateErrorLogEntry( Object, (UCHAR) ( sizeof(IO_ERROR_LOG_PACKET) + (Insertion ? Insertion->Length + sizeof(WCHAR) : 0) ) ); ASSERT(errorLogEntry != NULL); if (errorLogEntry == NULL) { return; } errorLogEntry->ErrorCode = ErrorCode; errorLogEntry->SequenceNumber = 0; errorLogEntry->MajorFunctionCode = 0; errorLogEntry->RetryCount = 0; errorLogEntry->UniqueErrorValue = 0; errorLogEntry->FinalStatus = STATUS_SUCCESS; errorLogEntry->DumpDataSize = (DumpData ? sizeof(ULONG) : 0); errorLogEntry->DumpData[0] = DumpData; if (Insertion) { errorLogEntry->StringOffset = sizeof(IO_ERROR_LOG_PACKET); errorLogEntry->NumberOfStrings = 1; RtlCopyMemory( ((PCHAR)(errorLogEntry) + errorLogEntry->StringOffset), Insertion->Buffer, Insertion->Length ); } IoWriteErrorLogEntry(errorLogEntry); } NTSTATUS SmartcardDeviceControl( PSMARTCARD_EXTENSION SmartcardExtension, PIRP Irp ) /*++ Routine Description: The routine is the general device control dispatch function. Arguments: SmartcardExtension - The pointer to the smart card datae Irp - Supplies the Irp making the request. Return Value: NTSTATUS --*/ { PIO_STACK_LOCATION ioStackLocation = IoGetCurrentIrpStackLocation(Irp); NTSTATUS status = STATUS_SUCCESS; BOOLEAN ClearCurrentIrp = TRUE; UNICODE_STRING Message; static BOOLEAN logged = FALSE; ULONG ioControlCode = ioStackLocation->Parameters.DeviceIoControl.IoControlCode; // Check the pointer to the smart card extension ASSERT(SmartcardExtension != NULL); if (SmartcardExtension == NULL) { return STATUS_INVALID_PARAMETER_1; } // Check the version that the driver requires ASSERT(SmartcardExtension->Version >= SMCLIB_VERSION_REQUIRED); if (SmartcardExtension->Version < SMCLIB_VERSION_REQUIRED) { return STATUS_INVALID_PARAMETER; } // // Check the OsData pointer. This can be NULL if SmartcardInit // has not been called or SmartcardExit has already been called // ASSERT(SmartcardExtension->OsData != NULL); // Check that the driver has set the DeviceObject ASSERT(SmartcardExtension->OsData->DeviceObject != NULL); if (SmartcardExtension->OsData == NULL || SmartcardExtension->OsData->DeviceObject == NULL) { return STATUS_INVALID_PARAMETER; } // We must run at passive level otherwise IoCompleteRequest won't work properly ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL); // check that no one wants us to do unbuffered io if (ioControlCode & (METHOD_IN_DIRECT | METHOD_OUT_DIRECT)) { return STATUS_INVALID_PARAMETER; } // // This resource acts as a mutex. We can't use a 'real' mutex here, // since a mutex rises the Irql to APC_LEVEL. This leads to some // side effects we don't want. // E.g. IoCompleteRequest() will not copy requested data at APC_LEVEL // KeWaitForMutexObject( &(SmartcardExtension->OsData->Mutex), UserRequest, KernelMode, FALSE, NULL ); ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL); // Check if this is really an IOCTL for a smart card driver ASSERT((ioControlCode >> 16) == FILE_DEVICE_SMARTCARD); #ifdef developerversion #if DEBUG if(!logged) { RtlInitUnicodeString( &Message, L"Developer version of smclib.sys installed" ); SmartcardLogError( SmartcardExtension->OsData->DeviceObject, STATUS_LICENSE_VIOLATION, &Message, 0 ); logged = TRUE; } #endif #endif SmartcardDebug( DEBUG_IOCTL, ("SMCLIB!SmartcardDeviceControl: Enter <%.*s:%1d>, IOCTL = %s, IRP = %lx\n", SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer, SmartcardExtension->VendorAttr.UnitNo, MapIoControlCodeToString(ioControlCode), Irp) ); // Return if device is busy if (SmartcardExtension->OsData->CurrentIrp != NULL) { SmartcardDebug( DEBUG_ERROR, ("%s!SmartcardDeviceControl: Device %.*s is busy\n", DRIVER_NAME, SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer) ); // This flag is used to signal that we can't set the current irp to NULL ClearCurrentIrp = FALSE; status = STATUS_DEVICE_BUSY; } if (status == STATUS_SUCCESS) { PIRP notificationIrp; ULONG currentState; KIRQL irql; AccessUnsafeData(&irql); notificationIrp = SmartcardExtension->OsData->NotificationIrp; currentState = SmartcardExtension->ReaderCapabilities.CurrentState; EndAccessUnsafeData(irql); switch (ioControlCode) { // // We have to check for _IS_ABSENT and _IS_PRESENT first, // since these are (the only allowed) asynchronous requests // case IOCTL_SMARTCARD_IS_ABSENT: ClearCurrentIrp = FALSE; if (SmartcardExtension->ReaderFunction[RDF_CARD_TRACKING] == NULL) { status = STATUS_NOT_SUPPORTED; break; } // Now check if the driver is already processing a notification irp if (notificationIrp != NULL) { status = STATUS_DEVICE_BUSY; break; } // // if the current state is not known, it doesn't make sense // to process this call // if (currentState == SCARD_UNKNOWN) { status = STATUS_INVALID_DEVICE_STATE; break; } // // If the card is already (or still) absent, we can return immediatly. // Otherwise we must statrt event tracking. // if (currentState > SCARD_ABSENT) { AccessUnsafeData(&irql); SmartcardExtension->OsData->NotificationIrp = Irp; SmartcardExtension->MajorIoControlCode = IOCTL_SMARTCARD_IS_ABSENT; EndAccessUnsafeData(irql); status = SmartcardExtension->ReaderFunction[RDF_CARD_TRACKING]( SmartcardExtension ); } break; case IOCTL_SMARTCARD_IS_PRESENT: ClearCurrentIrp = FALSE; if (SmartcardExtension->ReaderFunction[RDF_CARD_TRACKING] == NULL) { status = STATUS_NOT_SUPPORTED; break; } // Now check if the driver is already processing a notification irp if (notificationIrp != NULL) { status = STATUS_DEVICE_BUSY; break; } // // if the current state is not known, it doesn't make sense // to process this call // if (currentState == SCARD_UNKNOWN) { status = STATUS_INVALID_DEVICE_STATE; break; } // // If the card is already (or still) present, we can return immediatly. // Otherwise we must statrt event tracking. // if (currentState <= SCARD_ABSENT) { #if defined(DEBUG) && defined(SMCLIB_NT) ULONG timeInMilliSec = (ULONG) SmartcardExtension->PerfInfo->IoTickCount.QuadPart * KeQueryTimeIncrement() / 10000; ULONG bytesTransferred = SmartcardExtension->PerfInfo->BytesSent + SmartcardExtension->PerfInfo->BytesReceived; // to avoid div. errors and to display only useful information // we check for a valid time. if (timeInMilliSec > 0) { SmartcardDebug( DEBUG_PERF, ("%s!SmartcardDeviceControl: I/O statistics for device %.*s:\n Transferrate: %5ld bps\n Total bytes: %5ld\n I/O time: %5ld ms\n Transmissions: %5ld\n", DRIVER_NAME, SmartcardExtension->VendorAttr.VendorName.Length, SmartcardExtension->VendorAttr.VendorName.Buffer, bytesTransferred * 1000 / timeInMilliSec, bytesTransferred, timeInMilliSec, SmartcardExtension->PerfInfo->NumTransmissions) ); } // reset performance info RtlZeroMemory( SmartcardExtension->PerfInfo, sizeof(PERF_INFO) ); #endif AccessUnsafeData(&irql); SmartcardExtension->OsData->NotificationIrp = Irp; SmartcardExtension->MajorIoControlCode = IOCTL_SMARTCARD_IS_PRESENT; EndAccessUnsafeData(irql); status = SmartcardExtension->ReaderFunction[RDF_CARD_TRACKING]( SmartcardExtension ); } break; default: // Get major io control code SmartcardExtension->MajorIoControlCode = ioControlCode; // Check if buffers are properly allocated ASSERT(SmartcardExtension->SmartcardRequest.Buffer); ASSERT(SmartcardExtension->SmartcardReply.Buffer); if (Irp->AssociatedIrp.SystemBuffer && ioStackLocation->Parameters.DeviceIoControl.InputBufferLength >= sizeof(ULONG)) { // // Transfer minor io control code, even if it doesn't make sense for // this particular major code // SmartcardExtension->MinorIoControlCode = *(PULONG) (Irp->AssociatedIrp.SystemBuffer); } SmartcardExtension->OsData->CurrentIrp = Irp; // Save pointer to and length of request buffer SmartcardExtension->IoRequest.RequestBuffer = Irp->AssociatedIrp.SystemBuffer; SmartcardExtension->IoRequest.RequestBufferLength = ioStackLocation->Parameters.DeviceIoControl.InputBufferLength, // Save pointer to and length of reply buffer SmartcardExtension->IoRequest.ReplyBuffer = Irp->AssociatedIrp.SystemBuffer; SmartcardExtension->IoRequest.ReplyBufferLength = ioStackLocation->Parameters.DeviceIoControl.OutputBufferLength; // // Pointer to variable that receives the actual number // of bytes returned // SmartcardExtension->IoRequest.Information = (PULONG) &Irp->IoStatus.Information; // Default number of bytes returned Irp->IoStatus.Information = 0; // Irp->IoStatus.Status = STATUS_PENDING; // IoMarkIrpPending(Irp); // Process the device io-control-request status = SmartcardDeviceIoControl(SmartcardExtension); if (status == STATUS_PENDING) { IoMarkIrpPending(Irp); } #ifndef NO_LOG if (!NT_SUCCESS(status) && status != STATUS_NOT_SUPPORTED) { UNICODE_STRING error; WCHAR buffer[128]; swprintf( buffer, L"IOCTL %S failed with status 0x%lx", MapIoControlCodeToString(ioControlCode), status ); RtlInitUnicodeString( &error, buffer ); SmartcardLogError( SmartcardExtension->OsData->DeviceObject, 0, &error, 0 ); } #endif break; } } if (status == STATUS_PENDING) { KIRQL irql; BOOLEAN pending = FALSE; // // Send command to smartcard. The ISR receives the result and queues a dpc function // that handles the completion of the call; // SmartcardDebug( DEBUG_IOCTL, ("%s!SmartcardDeviceControl: IoMarkIrpPending. IRP = %x\n", DRIVER_NAME, Irp) ); // // When the driver completes an Irp (Notification or Current) it has // to set either the Irp back to 0 in order to show that it completed // the Irp. // AccessUnsafeData(&irql); if (Irp == SmartcardExtension->OsData->NotificationIrp || Irp == SmartcardExtension->OsData->CurrentIrp) { pending = TRUE; } EndAccessUnsafeData(irql); if (pending && SmartcardExtension->OsData->DeviceObject->DriverObject->DriverStartIo) { SmartcardDebug( DEBUG_IOCTL, ("%s!SmartcardDeviceControl: IoStartPacket. IRP = %x\n", DRIVER_NAME, Irp) ); // Start io-processing of a lowest level driver IoStartPacket( SmartcardExtension->OsData->DeviceObject, Irp, NULL, NULL ); } } else { SmartcardDebug( DEBUG_IOCTL, ("%s!SmartcardDeviceControl: IoCompleteRequest. IRP = %x (%lxh)\n", DRIVER_NAME, Irp, status) ); Irp->IoStatus.Status = status; IoCompleteRequest( Irp, IO_NO_INCREMENT ); if (ClearCurrentIrp) { // // If the devcie is not busy, we can set the current irp back to NULL // SmartcardExtension->OsData->CurrentIrp = NULL; RtlZeroMemory( &(SmartcardExtension->IoRequest), sizeof(SmartcardExtension->IoRequest) ); } } SmartcardDebug( (NT_SUCCESS(status) ? DEBUG_IOCTL : DEBUG_ERROR), ("SMCLIB!SmartcardDeviceControl: Exit. IOCTL = %s, IRP = %x (%lxh)\n", MapIoControlCodeToString(ioControlCode), Irp, status) ); // // Release our 'mutex' // KeReleaseMutex( &(SmartcardExtension->OsData->Mutex), FALSE ); return status; }