/*++ Copyright (c) 1997-2000 Microsoft Corporation Module Name: utils.c Abstract: This module contains utility functions for the pcmcia driver Authors: Bob Rinne (BobRi) 3-Aug-1994 Jeff McLeman 12-Apr-1994 Ravisankar Pudipeddi (ravisp) 1-Nov-96 Neil Sandlin (neilsa) June 1 1999 Environment: Kernel mode Revision History : 6-Apr-95 Modified for databook support - John Keys Databook 1-Nov-96 Total overhaul to make this a bus enumerator - Ravisankar Pudipeddi (ravisp) 30-Mar-99 Turn this module into really just utility routines --*/ #include "pch.h" #pragma alloc_text(PAGE, PcmciaReportControllerError) // // Internal References // NTSTATUS PcmciaAdapterIoCompletion( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PKEVENT pdoIoCompletedEvent ); VOID PcmciaPlayTone( IN ULONG Frequency, IN ULONG Duration ); // // // NTSTATUS PcmciaIoCallDriverSynchronous( PDEVICE_OBJECT deviceObject, PIRP Irp ) /*++ Routine Description Arguments Return Value --*/ { NTSTATUS status; KEVENT event; KeInitializeEvent(&event, NotificationEvent, FALSE); IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine( Irp, PcmciaAdapterIoCompletion, &event, TRUE, TRUE, TRUE ); status = IoCallDriver(deviceObject, Irp); if (status == STATUS_PENDING) { KeWaitForSingleObject(&event, Executive, KernelMode, FALSE, NULL); status = Irp->IoStatus.Status; } return status; } NTSTATUS PcmciaAdapterIoCompletion( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PKEVENT pdoIoCompletedEvent ) /*++ Routine Description: Generic completion routine used by the driver Arguments: DeviceObject Irp pdoIoCompletedEvent - this event will be signalled before return of this routine Return value: Status --*/ { KeSetEvent(pdoIoCompletedEvent, IO_NO_INCREMENT, FALSE); return STATUS_MORE_PROCESSING_REQUIRED; } VOID PcmciaWait( IN ULONG MicroSeconds ) /*++ Routine Description Waits for the specified interval before returning, by yielding execution. Arguments MicroSeconds - Amount of time to delay in microseconds Return Value None. Must succeed. --*/ { LARGE_INTEGER dueTime; NTSTATUS status; if ((KeGetCurrentIrql() < DISPATCH_LEVEL) && (MicroSeconds > 50)) { // // Convert delay to 100-nanosecond intervals // dueTime.QuadPart = -((LONG) MicroSeconds*10); // // We wait for an event that'll never be set. // status = KeWaitForSingleObject(&PcmciaDelayTimerEvent, Executive, KernelMode, FALSE, &dueTime); ASSERT(status == STATUS_TIMEOUT); } else { KeStallExecutionProcessor(MicroSeconds); } } ULONG PcmciaCountOnes( IN ULONG Data ) /*++ Routine Description: Counts the number of 1's in the binary representation of the supplied argument Arguments: Data - supplied argument for which 1's need to be counted Return value: Number of 1's in binary rep. of Data --*/ { ULONG count=0; while (Data) { Data &= (Data-1); count++; } return count; } VOID PcmciaLogError( IN PFDO_EXTENSION DeviceExtension, IN ULONG ErrorCode, IN ULONG UniqueId, IN ULONG Argument ) /*++ Routine Description: This function logs an error. Arguments: DeviceExtension - Supplies a pointer to the port device extension. ErrorCode - Supplies the error code for this error. UniqueId - Supplies the UniqueId for this error. Return Value: None. --*/ { PIO_ERROR_LOG_PACKET packet; packet = (PIO_ERROR_LOG_PACKET) IoAllocateErrorLogEntry(DeviceExtension->DeviceObject, sizeof(IO_ERROR_LOG_PACKET) + sizeof(ULONG)); if (packet) { packet->ErrorCode = ErrorCode; packet->SequenceNumber = DeviceExtension->SequenceNumber++; packet->MajorFunctionCode = 0; packet->RetryCount = (UCHAR) 0; packet->UniqueErrorValue = UniqueId; packet->FinalStatus = STATUS_SUCCESS; packet->DumpDataSize = sizeof(ULONG); packet->DumpData[0] = Argument; IoWriteErrorLogEntry(packet); } } VOID PcmciaLogErrorWithStrings( IN PFDO_EXTENSION DeviceExtension, IN ULONG ErrorCode, IN ULONG UniqueId, IN PUNICODE_STRING String1, IN PUNICODE_STRING String2 ) /*++ Routine Description This function logs an error and includes the strings provided. Arguments: DeviceExtension - Supplies a pointer to the port device extension. ErrorCode - Supplies the error code for this error. UniqueId - Supplies the UniqueId for this error. String1 - The first string to be inserted. String2 - The second string to be inserted. Return Value: None. --*/ { ULONG length; PCHAR dumpData; PIO_ERROR_LOG_PACKET packet; length = String1->Length + sizeof(IO_ERROR_LOG_PACKET) + 4; if (String2) { length += String2->Length; } if (length > ERROR_LOG_MAXIMUM_SIZE) { // // Don't have code to truncate strings so don't log this. // return; } packet = (PIO_ERROR_LOG_PACKET) IoAllocateErrorLogEntry(DeviceExtension->DeviceObject, (UCHAR) length); if (packet) { packet->ErrorCode = ErrorCode; packet->SequenceNumber = DeviceExtension->SequenceNumber++; packet->MajorFunctionCode = 0; packet->RetryCount = (UCHAR) 0; packet->UniqueErrorValue = UniqueId; packet->FinalStatus = STATUS_SUCCESS; packet->NumberOfStrings = 1; packet->StringOffset = (USHORT) ((PUCHAR)&packet->DumpData[0] - (PUCHAR)packet); packet->DumpDataSize = (USHORT) (length - sizeof(IO_ERROR_LOG_PACKET)); packet->DumpDataSize /= sizeof(ULONG); dumpData = (PUCHAR) &packet->DumpData[0]; RtlCopyMemory(dumpData, String1->Buffer, String1->Length); dumpData += String1->Length; if (String2) { *dumpData++ = '\\'; *dumpData++ = '\0'; RtlCopyMemory(dumpData, String2->Buffer, String2->Length); dumpData += String2->Length; } *dumpData++ = '\0'; *dumpData++ = '\0'; IoWriteErrorLogEntry(packet); } return; } BOOLEAN PcmciaReportControllerError( IN PFDO_EXTENSION FdoExtension, NTSTATUS ErrorCode ) /*++ Routine Description Causes a pop-up dialog to appear indicating an error that we should tell the user about. The device description of the controller is also included in the text of the pop-up. Arguments FdoExtension - Pointer to device extension for pcmcia controller ErrorCode - the ntstatus code for the error Return Value TRUE - If a an error was queued FALSE - If it failed for some reason --*/ { UNICODE_STRING unicodeString; PWSTR deviceDesc = NULL; NTSTATUS status; ULONG length = 0; BOOLEAN retVal; PAGED_CODE(); // // Obtain the device description for the PCMCIA controller // that is used in the error pop-up. If one cannot be obtained, // still pop-up the error dialog, indicating the controller as unknown // // First, find out the length of the buffer required to obtain // device description for this pcmcia controller // status = IoGetDeviceProperty(FdoExtension->Pdo, DevicePropertyDeviceDescription, 0, NULL, &length ); ASSERT(!NT_SUCCESS(status)); if (status == STATUS_BUFFER_TOO_SMALL) { deviceDesc = ExAllocatePool(PagedPool, length); if (deviceDesc != NULL) { status = IoGetDeviceProperty(FdoExtension->Pdo, DevicePropertyDeviceDescription, length, deviceDesc, &length); if (!NT_SUCCESS(status)) { ExFreePool(deviceDesc); } } else { status = STATUS_INSUFFICIENT_RESOURCES; } } if (!NT_SUCCESS(status)) { deviceDesc = L"[unknown]"; } RtlInitUnicodeString(&unicodeString, deviceDesc); retVal = IoRaiseInformationalHardError( ErrorCode, &unicodeString, NULL); // // Note: successful status here indicates success of // IoGetDeviceProperty above. This would mean we still have an // allocated buffer. // if (NT_SUCCESS(status)) { ExFreePool(deviceDesc); } return retVal; } VOID PcmciaPlaySound( IN PCMCIA_SOUND_TYPE SoundType ) /*++ Routine Description: Plays the sound corresponding the supplied event, if sounds are enabled Arguments: SoundType - specifies the event the sound denotes Return Value: None --*/ { if (!(PcmciaGlobalFlags & PCMCIA_GLOBAL_SOUNDS_ENABLED)) { return; } switch (SoundType) { case CARD_INSERTED_SOUND: { PcmciaPlayTone(660, 150); PcmciaPlayTone(880, 150); break; } case CARD_REMOVED_SOUND: { PcmciaPlayTone(880, 150); PcmciaPlayTone(660, 150); break; } case ERROR_SOUND: { PcmciaPlayTone(220, 350); break; } } } VOID PcmciaPlayTone( IN ULONG Frequency, IN ULONG Duration ) /*++ Routine Description: Plays the note of the specified frequency & duration on the computer's internal speaker. Arguments: Frequency - frequency of the note Duration - duration, in milliseconds, of the note Return Value: None --*/ { KIRQL OldIrql; PPCMCIA_SOUND_EVENT soundEvent = ExAllocatePool(NonPagedPool, sizeof(PCMCIA_SOUND_EVENT)); if (!soundEvent) { return; } soundEvent->NextEvent = NULL; soundEvent->Frequency = Frequency; soundEvent->Duration = Duration; // // Synchronize access to prevent two beeps from starting at once // KeAcquireSpinLock(&PcmciaToneLock, &OldIrql); if (PcmciaToneList != NULL) { PPCMCIA_SOUND_EVENT curEvent, prevEvent; // // List isn't empty, tack this new event on the end of the list // curEvent = PcmciaToneList; while(curEvent) { prevEvent = curEvent; curEvent = curEvent->NextEvent; } prevEvent->NextEvent = soundEvent; } else { LARGE_INTEGER dueTime; // // Nothing playing right now, start it up // PcmciaToneList = soundEvent; #if !defined(_WIN64) HalMakeBeep(soundEvent->Frequency); #endif dueTime.QuadPart = -((LONG) soundEvent->Duration*1000*10); KeSetTimer(&PcmciaToneTimer, dueTime, &PcmciaToneDpc); } KeReleaseSpinLock(&PcmciaToneLock, OldIrql); } VOID PcmciaPlayToneCompletion( IN PKDPC Dpc, IN PVOID Context, IN PVOID SystemArgument1, IN PVOID SystemArgument2 ) /*++ Routine Description This routine turns off the beep at the end of the duration, and starts a new one, if one is queued. Arguments Return Value none --*/ { KIRQL OldIrql; PPCMCIA_SOUND_EVENT oldEvent, soundEvent; // // turn off previous sound // #if !defined(_WIN64) HalMakeBeep(0); #endif KeAcquireSpinLock(&PcmciaToneLock, &OldIrql); // // dequeue the previous sound // oldEvent = PcmciaToneList; ASSERT(oldEvent != NULL); PcmciaToneList = soundEvent = oldEvent->NextEvent; KeReleaseSpinLock(&PcmciaToneLock, OldIrql); ExFreePool(oldEvent); if (soundEvent) { LARGE_INTEGER dueTime; // // turn on next sound, and reschedule timer // #if !defined(_WIN64) HalMakeBeep(soundEvent->Frequency); #endif dueTime.QuadPart = -((LONG) soundEvent->Duration*1000*10); KeSetTimer(&PcmciaToneTimer, dueTime, &PcmciaToneDpc); } }