reactos/drivers/usb/usbaudio/pin.c

1473 lines
44 KiB
C

/*
* PROJECT: ReactOS Universal Audio Class Driver
* LICENSE: GPL - See COPYING in the top level directory
* FILE: drivers/usb/usbaudio/pin.c
* PURPOSE: USB Audio device driver.
* PROGRAMMERS:
* Johannes Anderwald (johannes.anderwald@reactos.org)
*/
#include "usbaudio.h"
#define PACKET_COUNT 10
NTSTATUS
GetMaxPacketSizeForInterface(
IN PUSB_CONFIGURATION_DESCRIPTOR ConfigurationDescriptor,
IN PUSB_INTERFACE_DESCRIPTOR InterfaceDescriptor,
KSPIN_DATAFLOW DataFlow)
{
PUSB_COMMON_DESCRIPTOR CommonDescriptor;
PUSB_ENDPOINT_DESCRIPTOR EndpointDescriptor;
/* loop descriptors */
CommonDescriptor = (PUSB_COMMON_DESCRIPTOR)((ULONG_PTR)InterfaceDescriptor + InterfaceDescriptor->bLength);
ASSERT(InterfaceDescriptor->bNumEndpoints > 0);
while (CommonDescriptor)
{
if (CommonDescriptor->bDescriptorType == USB_ENDPOINT_DESCRIPTOR_TYPE)
{
EndpointDescriptor = (PUSB_ENDPOINT_DESCRIPTOR)CommonDescriptor;
return EndpointDescriptor->wMaxPacketSize;
}
if (CommonDescriptor->bDescriptorType == USB_INTERFACE_DESCRIPTOR_TYPE)
{
/* reached next interface descriptor */
break;
}
if ((ULONG_PTR)CommonDescriptor + CommonDescriptor->bLength >= ((ULONG_PTR)ConfigurationDescriptor + ConfigurationDescriptor->wTotalLength))
break;
CommonDescriptor = (PUSB_COMMON_DESCRIPTOR)((ULONG_PTR)CommonDescriptor + CommonDescriptor->bLength);
}
/* default to 100 */
return 100;
}
NTSTATUS
UsbAudioAllocCaptureUrbIso(
IN USBD_PIPE_HANDLE PipeHandle,
IN ULONG MaxPacketSize,
IN PVOID Buffer,
IN ULONG BufferLength,
OUT PURB * OutUrb)
{
PURB Urb;
ULONG UrbSize;
ULONG Index;
/* calculate urb size*/
UrbSize = GET_ISO_URB_SIZE(PACKET_COUNT);
/* allocate urb */
Urb = AllocFunction(UrbSize);
if (!Urb)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
/* init urb */
Urb->UrbIsochronousTransfer.Hdr.Function = URB_FUNCTION_ISOCH_TRANSFER;
Urb->UrbIsochronousTransfer.Hdr.Length = UrbSize;
Urb->UrbIsochronousTransfer.PipeHandle = PipeHandle;
Urb->UrbIsochronousTransfer.TransferFlags = USBD_TRANSFER_DIRECTION_IN | USBD_START_ISO_TRANSFER_ASAP;
Urb->UrbIsochronousTransfer.TransferBufferLength = BufferLength;
Urb->UrbIsochronousTransfer.TransferBuffer = Buffer;
Urb->UrbIsochronousTransfer.NumberOfPackets = PACKET_COUNT;
for (Index = 0; Index < PACKET_COUNT; Index++)
{
Urb->UrbIsochronousTransfer.IsoPacket[Index].Offset = Index * MaxPacketSize;
}
*OutUrb = Urb;
return STATUS_SUCCESS;
}
NTSTATUS
UsbAudioSetFormat(
IN PKSPIN Pin)
{
PURB Urb;
PUCHAR SampleRateBuffer;
PPIN_CONTEXT PinContext;
NTSTATUS Status;
PKSDATAFORMAT_WAVEFORMATEX WaveFormatEx;
/* allocate sample rate buffer */
SampleRateBuffer = AllocFunction(sizeof(ULONG));
if (!SampleRateBuffer)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
if (IsEqualGUIDAligned(&Pin->ConnectionFormat->MajorFormat, &KSDATAFORMAT_TYPE_AUDIO) &&
IsEqualGUIDAligned(&Pin->ConnectionFormat->SubFormat, &KSDATAFORMAT_SUBTYPE_PCM) &&
IsEqualGUIDAligned(&Pin->ConnectionFormat->Specifier, &KSDATAFORMAT_SPECIFIER_WAVEFORMATEX))
{
WaveFormatEx = (PKSDATAFORMAT_WAVEFORMATEX)Pin->ConnectionFormat;
SampleRateBuffer[2] = (WaveFormatEx->WaveFormatEx.nSamplesPerSec >> 16) & 0xFF;
SampleRateBuffer[1] = (WaveFormatEx->WaveFormatEx.nSamplesPerSec >> 8) & 0xFF;
SampleRateBuffer[0] = (WaveFormatEx->WaveFormatEx.nSamplesPerSec >> 0) & 0xFF;
/* TODO: verify connection format */
}
else
{
/* not supported yet*/
UNIMPLEMENTED;
FreeFunction(SampleRateBuffer);
return STATUS_INVALID_PARAMETER;
}
/* allocate urb */
Urb = AllocFunction(sizeof(struct _URB_CONTROL_VENDOR_OR_CLASS_REQUEST));
if (!Urb)
{
/* no memory */
FreeFunction(SampleRateBuffer);
return STATUS_INSUFFICIENT_RESOURCES;
}
/* get pin context */
PinContext = Pin->Context;
/* FIXME: determine controls and format urb */
UsbBuildVendorRequest(Urb,
URB_FUNCTION_CLASS_ENDPOINT,
sizeof(struct _URB_CONTROL_VENDOR_OR_CLASS_REQUEST),
USBD_TRANSFER_DIRECTION_OUT,
0,
0x01, // SET_CUR
0x100,
PinContext->DeviceExtension->InterfaceInfo->Pipes[0].EndpointAddress,
SampleRateBuffer,
NULL,
3,
NULL);
/* submit urb */
Status = SubmitUrbSync(PinContext->LowerDevice, Urb);
DPRINT1("USBAudioPinSetDataFormat Pin %p Status %x\n", Pin, Status);
FreeFunction(Urb);
FreeFunction(SampleRateBuffer);
return Status;
}
NTSTATUS
USBAudioSelectAudioStreamingInterface(
IN PKSPIN Pin,
IN PPIN_CONTEXT PinContext,
IN PDEVICE_EXTENSION DeviceExtension,
IN PUSB_CONFIGURATION_DESCRIPTOR ConfigurationDescriptor,
IN ULONG FormatDescriptorIndex)
{
PURB Urb;
PUSB_INTERFACE_DESCRIPTOR InterfaceDescriptor;
NTSTATUS Status;
ULONG Found, Index;
PUSB_AUDIO_STREAMING_INTERFACE_DESCRIPTOR StreamingInterfaceDescriptor;
PUSB_AUDIO_CONTROL_INPUT_TERMINAL_DESCRIPTOR TerminalDescriptor = NULL;
/* search for terminal descriptor of that irp sink / irp source */
TerminalDescriptor = UsbAudioGetStreamingTerminalDescriptorByIndex(DeviceExtension->ConfigurationDescriptor, Pin->Id);
ASSERT(TerminalDescriptor != NULL);
/* grab interface descriptor */
InterfaceDescriptor = USBD_ParseConfigurationDescriptorEx(ConfigurationDescriptor, ConfigurationDescriptor, -1, -1, USB_DEVICE_CLASS_AUDIO, -1, -1);
if (!InterfaceDescriptor)
{
/* no such interface */
return STATUS_INVALID_PARAMETER;
}
Found = FALSE;
Index = 0;
/* selects the interface which has an audio streaming interface descriptor associated to the input / output terminal at the given format index */
while (InterfaceDescriptor != NULL)
{
if (InterfaceDescriptor->bInterfaceSubClass == 0x02 /* AUDIO_STREAMING */ && InterfaceDescriptor->bNumEndpoints > 0)
{
StreamingInterfaceDescriptor = (PUSB_AUDIO_STREAMING_INTERFACE_DESCRIPTOR)USBD_ParseDescriptors(ConfigurationDescriptor, ConfigurationDescriptor->wTotalLength, InterfaceDescriptor, USB_AUDIO_CONTROL_TERMINAL_DESCRIPTOR_TYPE);
if (StreamingInterfaceDescriptor != NULL)
{
ASSERT(StreamingInterfaceDescriptor->bDescriptorSubtype == 0x01);
ASSERT(StreamingInterfaceDescriptor->wFormatTag == WAVE_FORMAT_PCM);
if (StreamingInterfaceDescriptor->bTerminalLink == TerminalDescriptor->bTerminalID)
{
if (FormatDescriptorIndex == Index)
{
Found = TRUE;
break;
}
Index++;
}
}
}
InterfaceDescriptor = USBD_ParseConfigurationDescriptorEx(ConfigurationDescriptor, (PVOID)((ULONG_PTR)InterfaceDescriptor + InterfaceDescriptor->bLength), -1, -1, USB_DEVICE_CLASS_AUDIO, -1, -1);
}
if (!Found)
{
/* no such interface */
DPRINT1("No Interface found\n");
return STATUS_INVALID_PARAMETER;
}
Urb = AllocFunction(GET_SELECT_INTERFACE_REQUEST_SIZE(InterfaceDescriptor->bNumEndpoints));
if (!Urb)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
/* now prepare interface urb */
UsbBuildSelectInterfaceRequest(Urb, GET_SELECT_INTERFACE_REQUEST_SIZE(InterfaceDescriptor->bNumEndpoints), DeviceExtension->ConfigurationHandle, InterfaceDescriptor->bInterfaceNumber, InterfaceDescriptor->bAlternateSetting);
/* now select the interface */
Status = SubmitUrbSync(DeviceExtension->LowerDevice, Urb);
DPRINT1("USBAudioSelectAudioStreamingInterface Status %x UrbStatus %x InterfaceNumber %x AlternateSetting %x\n", Status, Urb->UrbSelectInterface.Hdr.Status, InterfaceDescriptor->bInterfaceNumber, InterfaceDescriptor->bAlternateSetting);
/* did it succeeed */
if (NT_SUCCESS(Status))
{
/* free old interface info */
if (DeviceExtension->InterfaceInfo)
{
/* free old info */
FreeFunction(DeviceExtension->InterfaceInfo);
}
/* alloc interface info */
DeviceExtension->InterfaceInfo = AllocFunction(Urb->UrbSelectInterface.Interface.Length);
if (DeviceExtension->InterfaceInfo == NULL)
{
/* no memory */
FreeFunction(Urb);
return STATUS_INSUFFICIENT_RESOURCES;
}
/* copy interface info */
RtlCopyMemory(DeviceExtension->InterfaceInfo, &Urb->UrbSelectInterface.Interface, Urb->UrbSelectInterface.Interface.Length);
PinContext->InterfaceDescriptor = InterfaceDescriptor;
}
/* free urb */
FreeFunction(Urb);
return Status;
}
VOID
NTAPI
CaptureGateOnWorkItem(
_In_ PVOID Context)
{
PKSPIN Pin;
PPIN_CONTEXT PinContext;
PKSGATE Gate;
ULONG Count;
/* get pin */
Pin = Context;
/* get pin context */
PinContext = Pin->Context;
do
{
/* acquire processing mutex */
KsPinAcquireProcessingMutex(Pin);
/* get pin control gate */
Gate = KsPinGetAndGate(Pin);
/* turn input on */
KsGateTurnInputOn(Gate);
/* schedule processing */
KsPinAttemptProcessing(Pin, TRUE);
/* release processing mutex */
KsPinReleaseProcessingMutex(Pin);
/* decrement worker count */
Count = KsDecrementCountedWorker(PinContext->CaptureWorker);
} while (Count);
}
NTSTATUS
RenderInitializeUrbAndIrp(
IN PKSPIN Pin,
IN PPIN_CONTEXT PinContext,
IN OUT PIRP Irp,
IN PVOID TransferBuffer,
IN ULONG TransferBufferSize,
IN ULONG PacketSize)
{
ULONG Index, PacketCount;
PURB Urb;
PIO_STACK_LOCATION IoStack;
/* initialize irp */
IoInitializeIrp(Irp, IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize), PinContext->DeviceExtension->LowerDevice->StackSize);
/* set irp members */
Irp->IoStatus.Status = STATUS_NOT_SUPPORTED;
Irp->IoStatus.Information = 0;
Irp->Flags = 0;
Irp->UserBuffer = NULL;
/* init stack location */
IoStack = IoGetNextIrpStackLocation(Irp);
IoStack->DeviceObject = PinContext->DeviceExtension->LowerDevice;
IoStack->Parameters.Others.Argument2 = NULL;
IoStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
IoStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
/* set completion routine */
IoSetCompletionRoutine(Irp, UsbAudioRenderComplete, Pin, TRUE, TRUE, TRUE);
/* calculate packet count */
PacketCount = TransferBufferSize / PacketSize;
ASSERT(TransferBufferSize % PacketSize == 0);
/* lets allocate urb */
Urb = (PURB)AllocFunction(GET_ISO_URB_SIZE(PacketCount));
if (!Urb)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
/* init urb */
Urb->UrbIsochronousTransfer.Hdr.Function = URB_FUNCTION_ISOCH_TRANSFER;
Urb->UrbIsochronousTransfer.Hdr.Length = GET_ISO_URB_SIZE(PacketCount);
Urb->UrbIsochronousTransfer.PipeHandle = PinContext->DeviceExtension->InterfaceInfo->Pipes[0].PipeHandle;
Urb->UrbIsochronousTransfer.TransferFlags = USBD_TRANSFER_DIRECTION_OUT | USBD_START_ISO_TRANSFER_ASAP;
Urb->UrbIsochronousTransfer.TransferBufferLength = TransferBufferSize;
Urb->UrbIsochronousTransfer.TransferBuffer = TransferBuffer;
Urb->UrbIsochronousTransfer.NumberOfPackets = PacketCount;
Urb->UrbIsochronousTransfer.StartFrame = 0;
for (Index = 0; Index < PacketCount; Index++)
{
Urb->UrbIsochronousTransfer.IsoPacket[Index].Offset = Index * PacketSize;
}
/* store urb */
IoStack->Parameters.Others.Argument1 = Urb;
Irp->Tail.Overlay.DriverContext[0] = Urb;
/* done */
return STATUS_SUCCESS;
}
VOID
CaptureInitializeUrbAndIrp(
IN PKSPIN Pin,
IN PIRP Irp)
{
PIO_STACK_LOCATION IoStack;
PURB Urb;
PUCHAR TransferBuffer;
ULONG Index;
PPIN_CONTEXT PinContext;
/* get pin context */
PinContext = Pin->Context;
/* backup urb and transferbuffer */
Urb = Irp->Tail.Overlay.DriverContext[0];
TransferBuffer = Urb->UrbIsochronousTransfer.TransferBuffer;
/* initialize irp */
IoInitializeIrp(Irp, IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize), PinContext->DeviceExtension->LowerDevice->StackSize);
Irp->IoStatus.Status = STATUS_NOT_SUPPORTED;
Irp->IoStatus.Information = 0;
Irp->Flags = 0;
Irp->UserBuffer = NULL;
Irp->Tail.Overlay.DriverContext[0] = Urb;
Irp->Tail.Overlay.DriverContext[1] = NULL;
/* init stack location */
IoStack = IoGetNextIrpStackLocation(Irp);
IoStack->DeviceObject = PinContext->DeviceExtension->LowerDevice;
IoStack->Parameters.Others.Argument1 = Urb;
IoStack->Parameters.Others.Argument2 = NULL;
IoStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
IoStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
IoSetCompletionRoutine(Irp, UsbAudioCaptureComplete, Pin, TRUE, TRUE, TRUE);
RtlZeroMemory(Urb, GET_ISO_URB_SIZE(PACKET_COUNT));
/* init urb */
Urb->UrbIsochronousTransfer.Hdr.Function = URB_FUNCTION_ISOCH_TRANSFER;
Urb->UrbIsochronousTransfer.Hdr.Length = GET_ISO_URB_SIZE(10);
Urb->UrbIsochronousTransfer.PipeHandle = PinContext->DeviceExtension->InterfaceInfo->Pipes[0].PipeHandle;
Urb->UrbIsochronousTransfer.TransferFlags = USBD_TRANSFER_DIRECTION_IN | USBD_START_ISO_TRANSFER_ASAP;
Urb->UrbIsochronousTransfer.TransferBufferLength = PinContext->DeviceExtension->InterfaceInfo->Pipes[0].MaximumPacketSize * 10;
Urb->UrbIsochronousTransfer.TransferBuffer = TransferBuffer;
Urb->UrbIsochronousTransfer.NumberOfPackets = PACKET_COUNT;
Urb->UrbIsochronousTransfer.StartFrame = 0;
for (Index = 0; Index < PACKET_COUNT; Index++)
{
Urb->UrbIsochronousTransfer.IsoPacket[Index].Offset = Index * PinContext->DeviceExtension->InterfaceInfo->Pipes[0].MaximumPacketSize;
}
}
VOID
NTAPI
CaptureAvoidPipeStarvationWorker(
_In_ PVOID Context)
{
PKSPIN Pin;
PPIN_CONTEXT PinContext;
KIRQL OldLevel;
PLIST_ENTRY CurEntry;
PIRP Irp;
/* get pin */
Pin = Context;
/* get pin context */
PinContext = Pin->Context;
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
if (!IsListEmpty(&PinContext->IrpListHead))
{
/* sanity check */
ASSERT(!IsListEmpty(&PinContext->IrpListHead));
/* remove entry from list */
CurEntry = RemoveHeadList(&PinContext->IrpListHead);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
/* get irp offset */
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
/* reinitialize irp and urb */
CaptureInitializeUrbAndIrp(Pin, Irp);
KsDecrementCountedWorker(PinContext->StarvationWorker);
/* call driver */
IoCallDriver(PinContext->DeviceExtension->LowerDevice, Irp);
}
else
{
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
KsDecrementCountedWorker(PinContext->StarvationWorker);
}
}
NTSTATUS
InitCapturePin(
IN PKSPIN Pin)
{
NTSTATUS Status;
ULONG Index;
ULONG BufferSize;
ULONG MaximumPacketSize;
PIRP Irp;
PURB Urb;
PPIN_CONTEXT PinContext;
PIO_STACK_LOCATION IoStack;
PKSALLOCATOR_FRAMING_EX Framing;
PKSGATE Gate;
/* set sample rate */
Status = UsbAudioSetFormat(Pin);
if (!NT_SUCCESS(Status))
{
/* failed */
return Status;
}
/* get pin context */
PinContext = Pin->Context;
/* lets get maximum packet size */
MaximumPacketSize = GetMaxPacketSizeForInterface(PinContext->DeviceExtension->ConfigurationDescriptor, PinContext->InterfaceDescriptor, Pin->DataFlow);
/* initialize work item for capture worker */
ExInitializeWorkItem(&PinContext->CaptureWorkItem, CaptureGateOnWorkItem, (PVOID)Pin);
/* register worker */
Status = KsRegisterCountedWorker(CriticalWorkQueue, &PinContext->CaptureWorkItem, &PinContext->CaptureWorker);
if (!NT_SUCCESS(Status))
{
/* failed */
return Status;
}
/* initialize work item */
ExInitializeWorkItem(&PinContext->StarvationWorkItem, CaptureAvoidPipeStarvationWorker, (PVOID)Pin);
/* register worker */
Status = KsRegisterCountedWorker(CriticalWorkQueue, &PinContext->StarvationWorkItem, &PinContext->StarvationWorker);
if (!NT_SUCCESS(Status))
{
/* failed */
KsUnregisterWorker(PinContext->CaptureWorker);
}
/* lets edit framing struct */
Framing = (PKSALLOCATOR_FRAMING_EX)Pin->Descriptor->AllocatorFraming;
Framing->FramingItem[0].PhysicalRange.MinFrameSize =
Framing->FramingItem[0].PhysicalRange.MaxFrameSize =
Framing->FramingItem[0].FramingRange.Range.MinFrameSize =
Framing->FramingItem[0].FramingRange.Range.MaxFrameSize =
MaximumPacketSize;
/* calculate buffer size 8 irps * 10 iso packets * max packet size */
BufferSize = 8 * PACKET_COUNT * MaximumPacketSize;
/* allocate pin capture buffer */
PinContext->BufferSize = BufferSize;
PinContext->Buffer = AllocFunction(BufferSize);
if (!PinContext->Buffer)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
KsAddItemToObjectBag(Pin->Bag, PinContext->Buffer, ExFreePool);
/* init irps */
for (Index = 0; Index < 8; Index++)
{
/* allocate irp */
Irp = AllocFunction(IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize));
if (!Irp)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
/* initialize irp */
IoInitializeIrp(Irp, IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize), PinContext->DeviceExtension->LowerDevice->StackSize);
Irp->IoStatus.Status = STATUS_NOT_SUPPORTED;
Irp->IoStatus.Information = 0;
Irp->Flags = 0;
Irp->UserBuffer = NULL;
IoStack = IoGetNextIrpStackLocation(Irp);
IoStack->DeviceObject = PinContext->DeviceExtension->LowerDevice;
IoStack->Parameters.Others.Argument2 = NULL;
IoStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
IoStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
IoSetCompletionRoutine(Irp, UsbAudioCaptureComplete, Pin, TRUE, TRUE, TRUE);
/* insert into irp list */
InsertTailList(&PinContext->IrpListHead, &Irp->Tail.Overlay.ListEntry);
/* add to object bag*/
KsAddItemToObjectBag(Pin->Bag, Irp, ExFreePool);
/* FIXME select correct pipe handle */
Status = UsbAudioAllocCaptureUrbIso(PinContext->DeviceExtension->InterfaceInfo->Pipes[0].PipeHandle,
MaximumPacketSize,
&PinContext->Buffer[MaximumPacketSize * PACKET_COUNT * Index],
MaximumPacketSize * PACKET_COUNT,
&Urb);
DPRINT1("InitCapturePin Irp %p Urb %p\n", Irp, Urb);
if (NT_SUCCESS(Status))
{
/* get next stack location */
IoStack = IoGetNextIrpStackLocation(Irp);
/* store urb */
IoStack->Parameters.Others.Argument1 = Urb;
Irp->Tail.Overlay.DriverContext[0] = Urb;
}
else
{
/* failed */
return Status;
}
}
/* get process control gate */
Gate = KsPinGetAndGate(Pin);
/* turn input off */
KsGateTurnInputOff(Gate);
return Status;
}
NTSTATUS
InitStreamPin(
IN PKSPIN Pin)
{
ULONG Index;
PIRP Irp;
PPIN_CONTEXT PinContext;
PKSDATAFORMAT_WAVEFORMATEX WaveFormatEx;
PIO_STACK_LOCATION IoStack;
DPRINT1("InitStreamPin\n");
/* get pin context */
PinContext = Pin->Context;
/* allocate 1 sec buffer */
WaveFormatEx = (PKSDATAFORMAT_WAVEFORMATEX)Pin->ConnectionFormat;
PinContext->Buffer = AllocFunction(WaveFormatEx->WaveFormatEx.nAvgBytesPerSec);
if (!PinContext->Buffer)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
/* init buffer size*/
PinContext->BufferSize = WaveFormatEx->WaveFormatEx.nAvgBytesPerSec;
PinContext->BufferOffset = 0;
PinContext->BufferLength = 0;
/* init irps */
for (Index = 0; Index < 12; Index++)
{
/* allocate irp */
Irp = AllocFunction(IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize));
if (!Irp)
{
/* no memory */
return STATUS_INSUFFICIENT_RESOURCES;
}
DPRINT1("InitStreamPin Irp %p\n", Irp);
/* initialize irp */
IoInitializeIrp(Irp, IoSizeOfIrp(PinContext->DeviceExtension->LowerDevice->StackSize), PinContext->DeviceExtension->LowerDevice->StackSize);
Irp->IoStatus.Status = STATUS_NOT_SUPPORTED;
Irp->IoStatus.Information = 0;
Irp->Flags = 0;
Irp->UserBuffer = NULL;
IoStack = IoGetNextIrpStackLocation(Irp);
IoStack->DeviceObject = PinContext->DeviceExtension->LowerDevice;
IoStack->Parameters.Others.Argument2 = NULL;
IoStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL;
IoStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB;
IoSetCompletionRoutine(Irp, UsbAudioRenderComplete, Pin, TRUE, TRUE, TRUE);
/* insert into irp list */
InsertTailList(&PinContext->IrpListHead, &Irp->Tail.Overlay.ListEntry);
/* add to object bag*/
KsAddItemToObjectBag(Pin->Bag, Irp, ExFreePool);
}
return STATUS_SUCCESS;
}
ULONG
GetDataRangeIndexForFormat(
IN PKSDATARANGE ConnectionFormat,
IN PKSDATARANGE * DataRanges,
IN ULONG DataRangesCount)
{
ULONG Index;
PKSDATARANGE CurrentDataRange;
PKSDATARANGE_AUDIO CurrentAudioDataRange;
PKSDATAFORMAT_WAVEFORMATEX ConnectionDataFormat;
if (ConnectionFormat->FormatSize != sizeof(KSDATAFORMAT) + sizeof(WAVEFORMATEX))
{
/* unsupported connection format */
DPRINT1("GetDataRangeIndexForFormat expected KSDATARANGE_AUDIO\n");
return MAXULONG;
}
/* cast to right type */
ConnectionDataFormat = (PKSDATAFORMAT_WAVEFORMATEX)ConnectionFormat;
for (Index = 0; Index < DataRangesCount; Index++)
{
/* get current data range */
CurrentDataRange = DataRanges[Index];
/* compare guids */
if (!IsEqualGUIDAligned(&CurrentDataRange->MajorFormat, &ConnectionFormat->MajorFormat) ||
!IsEqualGUIDAligned(&CurrentDataRange->SubFormat, &ConnectionFormat->SubFormat) ||
!IsEqualGUIDAligned(&CurrentDataRange->Specifier, &ConnectionFormat->Specifier))
{
/* no match */
continue;
}
/* all pin data ranges are KSDATARANGE_AUDIO */
CurrentAudioDataRange = (PKSDATARANGE_AUDIO)CurrentDataRange;
/* check if number of channel match */
if (CurrentAudioDataRange->MaximumChannels != ConnectionDataFormat->WaveFormatEx.nChannels)
{
/* number of channels mismatch */
continue;
}
if (CurrentAudioDataRange->MinimumSampleFrequency > ConnectionDataFormat->WaveFormatEx.nSamplesPerSec)
{
/* channel frequency too low */
continue;
}
if (CurrentAudioDataRange->MaximumSampleFrequency < ConnectionDataFormat->WaveFormatEx.nSamplesPerSec)
{
/* channel frequency too high */
continue;
}
/* FIXME add checks for bitrate / sample size etc */
return Index;
}
/* no datarange found */
return MAXULONG;
}
NTSTATUS
NTAPI
USBAudioPinCreate(
_In_ PKSPIN Pin,
_In_ PIRP Irp)
{
PKSFILTER Filter;
PFILTER_CONTEXT FilterContext;
PPIN_CONTEXT PinContext;
NTSTATUS Status;
ULONG FormatIndex;
Filter = KsPinGetParentFilter(Pin);
if (Filter == NULL)
{
/* invalid parameter */
return STATUS_INVALID_PARAMETER;
}
/* get filter context */
FilterContext = Filter->Context;
/* allocate pin context */
PinContext = AllocFunction(sizeof(PIN_CONTEXT));
if (!PinContext)
{
/* no memory*/
return STATUS_INSUFFICIENT_RESOURCES;
}
/* init pin context */
PinContext->DeviceExtension = FilterContext->DeviceExtension;
PinContext->LowerDevice = FilterContext->LowerDevice;
InitializeListHead(&PinContext->IrpListHead);
InitializeListHead(&PinContext->DoneIrpListHead);
KeInitializeSpinLock(&PinContext->IrpListLock);
/* store pin context*/
Pin->Context = PinContext;
/* lets edit allocator framing struct */
Status = _KsEdit(Pin->Bag, (PVOID*)&Pin->Descriptor, sizeof(KSPIN_DESCRIPTOR_EX), sizeof(KSPIN_DESCRIPTOR_EX), USBAUDIO_TAG);
if (NT_SUCCESS(Status))
{
Status = _KsEdit(Pin->Bag, (PVOID*)&Pin->Descriptor->AllocatorFraming, sizeof(KSALLOCATOR_FRAMING_EX), sizeof(KSALLOCATOR_FRAMING_EX), USBAUDIO_TAG);
ASSERT(Status == STATUS_SUCCESS);
}
/* choose correct dataformat */
FormatIndex = GetDataRangeIndexForFormat(Pin->ConnectionFormat, Pin->Descriptor->PinDescriptor.DataRanges, Pin->Descriptor->PinDescriptor.DataRangesCount);
if (FormatIndex == MAXULONG)
{
/* no format match */
return STATUS_NO_MATCH;
}
/* select streaming interface */
Status = USBAudioSelectAudioStreamingInterface(Pin, PinContext, PinContext->DeviceExtension, PinContext->DeviceExtension->ConfigurationDescriptor, FormatIndex);
if (!NT_SUCCESS(Status))
{
/* failed */
DPRINT1("USBAudioSelectAudioStreamingInterface failed with %x\n", Status);
return Status;
}
if (Pin->DataFlow == KSPIN_DATAFLOW_OUT)
{
/* init capture pin */
Status = InitCapturePin(Pin);
}
else
{
/* audio streaming pin*/
Status = InitStreamPin(Pin);
}
return Status;
}
NTSTATUS
NTAPI
USBAudioPinClose(
_In_ PKSPIN Pin,
_In_ PIRP Irp)
{
UNIMPLEMENTED;
return STATUS_NOT_IMPLEMENTED;
}
NTSTATUS
NTAPI
UsbAudioRenderComplete(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context)
{
PKSPIN Pin;
PPIN_CONTEXT PinContext;
KIRQL OldLevel;
PKSSTREAM_POINTER StreamPointerClone;
NTSTATUS Status;
PURB Urb;
/* get pin context */
Pin = Context;
PinContext = Pin->Context;
/* get status */
Status = Irp->IoStatus.Status;
/* get streampointer */
StreamPointerClone = Irp->Tail.Overlay.DriverContext[1];
/* get urb */
Urb = Irp->Tail.Overlay.DriverContext[0];
/* and free it */
FreeFunction(Urb);
/* acquire lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
/* insert entry into ready list */
InsertTailList(&PinContext->IrpListHead, &Irp->Tail.Overlay.ListEntry);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
if (!NT_SUCCESS(Status) && StreamPointerClone)
{
/* set status code because it failed */
KsStreamPointerSetStatusCode(StreamPointerClone, STATUS_DEVICE_DATA_ERROR);
DPRINT1("UsbAudioRenderComplete failed with %x\n", Status);
}
if (StreamPointerClone)
{
/* lets delete the stream pointer clone */
KsStreamPointerDelete(StreamPointerClone);
}
/* done */
return STATUS_MORE_PROCESSING_REQUIRED;
}
NTSTATUS
NTAPI
UsbAudioCaptureComplete(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PVOID Context)
{
PKSPIN Pin;
PPIN_CONTEXT PinContext;
KIRQL OldLevel;
PURB Urb;
/* get pin context */
Pin = Context;
PinContext = Pin->Context;
/* get urb */
Urb = Irp->Tail.Overlay.DriverContext[0];
/* acquire lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
if (!NT_SUCCESS(Urb->UrbIsochronousTransfer.Hdr.Status))
{
//DPRINT("UsbAudioCaptureComplete Irp %p Urb %p Status %x Packet Status %x\n", Irp, Urb, Urb->UrbIsochronousTransfer.Hdr.Status, Urb->UrbIsochronousTransfer.IsoPacket[0].Status);
/* insert entry into ready list */
InsertTailList(&PinContext->IrpListHead, &Irp->Tail.Overlay.ListEntry);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
KsIncrementCountedWorker(PinContext->StarvationWorker);
}
else
{
/* insert entry into done list */
InsertTailList(&PinContext->DoneIrpListHead, &Irp->Tail.Overlay.ListEntry);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
KsIncrementCountedWorker(PinContext->CaptureWorker);
}
/* done */
return STATUS_MORE_PROCESSING_REQUIRED;
}
PIRP
PinGetIrpFromReadyList(
IN PKSPIN Pin)
{
PPIN_CONTEXT PinContext;
PLIST_ENTRY CurEntry;
KIRQL OldLevel;
PIRP Irp = NULL;
/* get pin context */
PinContext = Pin->Context;
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
if (!IsListEmpty(&PinContext->IrpListHead))
{
/* remove entry from list */
CurEntry = RemoveHeadList(&PinContext->IrpListHead);
/* get irp offset */
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
}
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
return Irp;
}
NTSTATUS
PinRenderProcess(
IN PKSPIN Pin)
{
PKSSTREAM_POINTER LeadingStreamPointer;
PKSSTREAM_POINTER CloneStreamPointer;
NTSTATUS Status;
PPIN_CONTEXT PinContext;
ULONG PacketCount, TotalPacketSize, Offset;
PKSDATAFORMAT_WAVEFORMATEX WaveFormatEx;
PUCHAR TransferBuffer;
PIRP Irp = NULL;
//DPRINT1("PinRenderProcess\n");
LeadingStreamPointer = KsPinGetLeadingEdgeStreamPointer(Pin, KSSTREAM_POINTER_STATE_LOCKED);
if (LeadingStreamPointer == NULL)
{
return STATUS_SUCCESS;
}
if (NULL == LeadingStreamPointer->StreamHeader->Data)
{
Status = KsStreamPointerAdvance(LeadingStreamPointer);
DPRINT1("Advancing Streampointer\n");
}
/* get pin context */
PinContext = Pin->Context;
/* get irp from ready list */
Irp = PinGetIrpFromReadyList(Pin);
if (!Irp)
{
/* no irps available */
DPRINT1("No irps available");
KsStreamPointerUnlock(LeadingStreamPointer, TRUE);
return STATUS_SUCCESS;
}
/* clone stream pointer */
Status = KsStreamPointerClone(LeadingStreamPointer, NULL, 0, &CloneStreamPointer);
if (!NT_SUCCESS(Status))
{
/* failed */
KsStreamPointerUnlock(LeadingStreamPointer, TRUE);
DPRINT1("Leaking Irp %p\n", Irp);
return STATUS_SUCCESS;
}
/* calculate packet count */
/* FIXME support various sample rates */
WaveFormatEx = (PKSDATAFORMAT_WAVEFORMATEX)Pin->ConnectionFormat;
TotalPacketSize = WaveFormatEx->WaveFormatEx.nAvgBytesPerSec / 1000;
/* init transfer buffer*/
TransferBuffer = CloneStreamPointer->StreamHeader->Data;
Offset = 0;
/* are there bytes from previous request*/
if (PinContext->BufferLength)
{
ASSERT(PinContext->BufferLength < TotalPacketSize);
/* calculate offset*/
Offset = TotalPacketSize - PinContext->BufferLength;
if (PinContext->BufferOffset + TotalPacketSize >= PinContext->BufferSize)
{
RtlMoveMemory(PinContext->Buffer, &PinContext->Buffer[PinContext->BufferOffset - PinContext->BufferLength], PinContext->BufferLength);
PinContext->BufferOffset = PinContext->BufferLength;
}
/* copy audio bytes */
RtlCopyMemory(&PinContext->Buffer[PinContext->BufferOffset], TransferBuffer, Offset);
/* init irp*/
Status = RenderInitializeUrbAndIrp(Pin, PinContext, Irp, &PinContext->Buffer[PinContext->BufferOffset-PinContext->BufferLength], TotalPacketSize, TotalPacketSize);
if (NT_SUCCESS(Status))
{
/* render audio bytes */
Status = IoCallDriver(PinContext->LowerDevice, Irp);
}
else
{
ASSERT(FALSE);
}
PinContext->BufferLength = 0;
PinContext->BufferOffset += Offset;
/* get new irp from ready list */
Irp = PinGetIrpFromReadyList(Pin);
ASSERT(Irp);
}
/* FIXME correct MaximumPacketSize ? */
PacketCount = (CloneStreamPointer->OffsetIn.Remaining - Offset) / TotalPacketSize;
Status = RenderInitializeUrbAndIrp(Pin, PinContext, Irp, &TransferBuffer[Offset], PacketCount * TotalPacketSize, TotalPacketSize);
if (NT_SUCCESS(Status))
{
/* store in irp context */
Irp->Tail.Overlay.DriverContext[1] = CloneStreamPointer;
if ((PacketCount * TotalPacketSize) + Offset < CloneStreamPointer->OffsetIn.Remaining)
{
/* calculate remaining buffer bytes */
PinContext->BufferLength = CloneStreamPointer->OffsetIn.Remaining - ((PacketCount * TotalPacketSize) + Offset);
/* check for overflow */
if (PinContext->BufferOffset + TotalPacketSize >= PinContext->BufferSize)
{
/* reset buffer offset*/
PinContext->BufferOffset = 0;
}
RtlCopyMemory(&PinContext->Buffer[PinContext->BufferOffset], &TransferBuffer[(PacketCount * TotalPacketSize) + Offset], PinContext->BufferLength);
PinContext->BufferOffset += PinContext->BufferLength;
}
/* render audio bytes */
Status = IoCallDriver(PinContext->LowerDevice, Irp);
}
/* unlock stream pointer and finish*/
KsStreamPointerUnlock(LeadingStreamPointer, TRUE);
return STATUS_PENDING;
}
NTSTATUS
PinCaptureProcess(
IN PKSPIN Pin)
{
PKSSTREAM_POINTER LeadingStreamPointer;
KIRQL OldLevel;
PPIN_CONTEXT PinContext;
PLIST_ENTRY CurEntry;
PIRP Irp;
PURB Urb;
PUCHAR TransferBuffer, OutBuffer;
ULONG Offset, Length;
NTSTATUS Status;
PKSGATE Gate;
//DPRINT1("PinCaptureProcess\n");
LeadingStreamPointer = KsPinGetLeadingEdgeStreamPointer(Pin, KSSTREAM_POINTER_STATE_LOCKED);
if (LeadingStreamPointer == NULL)
{
/* get process control gate */
Gate = KsPinGetAndGate(Pin);
/* shutdown processing */
KsGateTurnInputOff(Gate);
return STATUS_SUCCESS;
}
/* get pin context */
PinContext = Pin->Context;
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
while (!IsListEmpty(&PinContext->DoneIrpListHead))
{
/* remove entry from list */
CurEntry = RemoveHeadList(&PinContext->DoneIrpListHead);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
/* get irp offset */
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
/* get urb from irp */
Urb = (PURB)Irp->Tail.Overlay.DriverContext[0];
ASSERT(Urb);
Offset = PtrToUlong(Irp->Tail.Overlay.DriverContext[1]);
/* get transfer buffer */
TransferBuffer = Urb->UrbIsochronousTransfer.TransferBuffer;
/* get target buffer */
OutBuffer = (PUCHAR)LeadingStreamPointer->StreamHeader->Data;
/* calculate length */
Length = min(LeadingStreamPointer->OffsetOut.Count - LeadingStreamPointer->StreamHeader->DataUsed, Urb->UrbIsochronousTransfer.TransferBufferLength - Offset);
/* FIXME copy each packet extra */
/* copy audio bytes */
RtlCopyMemory((PUCHAR)&OutBuffer[LeadingStreamPointer->StreamHeader->DataUsed], &TransferBuffer[Offset], Length);
//DPRINT1("Irp %p Urb %p OutBuffer %p TransferBuffer %p Offset %lu Remaining %lu TransferBufferLength %lu Length %lu\n", Irp, Urb, OutBuffer, TransferBuffer, Offset, LeadingStreamPointer->OffsetOut.Remaining, Urb->UrbIsochronousTransfer.TransferBufferLength, Length);
/* adjust streampointer */
LeadingStreamPointer->StreamHeader->DataUsed += Length;
if (Length == LeadingStreamPointer->OffsetOut.Remaining)
{
KsStreamPointerAdvanceOffsetsAndUnlock(LeadingStreamPointer, 0, Length, TRUE);
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
/* adjust offset */
Irp->Tail.Overlay.DriverContext[1] = UlongToPtr(Length);
/* reinsert into processed list */
InsertHeadList(&PinContext->DoneIrpListHead, &Irp->Tail.Overlay.ListEntry);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
LeadingStreamPointer = KsPinGetLeadingEdgeStreamPointer(Pin, KSSTREAM_POINTER_STATE_LOCKED);
if (LeadingStreamPointer == NULL)
{
/* no more work to be done*/
return STATUS_PENDING;
}
else
{
/* resume work on this irp */
continue;
}
}
else
{
Status = KsStreamPointerAdvanceOffsets(LeadingStreamPointer, 0, Length, FALSE);
NT_ASSERT(NT_SUCCESS(Status));
ASSERT(Length == Urb->UrbIsochronousTransfer.TransferBufferLength - Offset);
}
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
InsertTailList(&PinContext->IrpListHead, &Irp->Tail.Overlay.ListEntry);
}
while (!IsListEmpty(&PinContext->IrpListHead))
{
/* remove entry from list */
CurEntry = RemoveHeadList(&PinContext->IrpListHead);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
/* get irp offset */
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
/* reinitialize irp and urb */
CaptureInitializeUrbAndIrp(Pin, Irp);
IoCallDriver(PinContext->DeviceExtension->LowerDevice, Irp);
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
}
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
if (LeadingStreamPointer != NULL)
KsStreamPointerUnlock(LeadingStreamPointer, FALSE);
/* get process control gate */
Gate = KsPinGetAndGate(Pin);
/* shutdown processing */
KsGateTurnInputOff(Gate);
return STATUS_PENDING;
}
NTSTATUS
NTAPI
USBAudioPinProcess(
_In_ PKSPIN Pin)
{
NTSTATUS Status;
if (Pin->DataFlow == KSPIN_DATAFLOW_OUT)
{
Status = PinCaptureProcess(Pin);
}
else
{
Status = PinRenderProcess(Pin);
}
return Status;
}
VOID
NTAPI
USBAudioPinReset(
_In_ PKSPIN Pin)
{
UNIMPLEMENTED;
}
NTSTATUS
NTAPI
USBAudioPinSetDataFormat(
_In_ PKSPIN Pin,
_In_opt_ PKSDATAFORMAT OldFormat,
_In_opt_ PKSMULTIPLE_ITEM OldAttributeList,
_In_ const KSDATARANGE* DataRange,
_In_opt_ const KSATTRIBUTE_LIST* AttributeRange)
{
if (OldFormat == NULL)
{
/* TODO: verify connection format */
UNIMPLEMENTED;
return STATUS_SUCCESS;
}
return UsbAudioSetFormat(Pin);
}
NTSTATUS
StartCaptureIsocTransfer(
IN PKSPIN Pin)
{
PPIN_CONTEXT PinContext;
PLIST_ENTRY CurEntry;
PIRP Irp;
KIRQL OldLevel;
/* get pin context */
PinContext = Pin->Context;
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
while(!IsListEmpty(&PinContext->IrpListHead))
{
/* remove entry from list */
CurEntry = RemoveHeadList(&PinContext->IrpListHead);
/* get irp offset */
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
/* reinitialize irp and urb */
CaptureInitializeUrbAndIrp(Pin, Irp);
DPRINT("StartCaptureIsocTransfer Irp %p\n", Irp);
IoCallDriver(PinContext->DeviceExtension->LowerDevice, Irp);
/* acquire spin lock */
KeAcquireSpinLock(&PinContext->IrpListLock, &OldLevel);
}
/* release lock */
KeReleaseSpinLock(&PinContext->IrpListLock, OldLevel);
return STATUS_SUCCESS;
}
NTSTATUS
CapturePinStateChange(
_In_ PKSPIN Pin,
_In_ KSSTATE ToState,
_In_ KSSTATE FromState)
{
NTSTATUS Status = STATUS_SUCCESS;
if (FromState != ToState)
{
if (ToState)
{
if (ToState == KSSTATE_PAUSE)
{
if (FromState == KSSTATE_RUN)
{
/* wait until pin processing is finished*/
}
}
else
{
if (ToState == KSSTATE_RUN)
{
Status = StartCaptureIsocTransfer(Pin);
}
}
}
}
return Status;
}
NTSTATUS
NTAPI
USBAudioPinSetDeviceState(
_In_ PKSPIN Pin,
_In_ KSSTATE ToState,
_In_ KSSTATE FromState)
{
NTSTATUS Status;
if (Pin->DataFlow == KSPIN_DATAFLOW_OUT)
{
/* handle capture state changes */
Status = CapturePinStateChange(Pin, ToState, FromState);
}
else
{
UNIMPLEMENTED;
Status = STATUS_SUCCESS;
}
return Status;
}
NTSTATUS
NTAPI
UsbAudioPinDataIntersect(
_In_ PVOID Context,
_In_ PIRP Irp,
_In_ PKSP_PIN Pin,
_In_ PKSDATARANGE DataRange,
_In_ PKSDATARANGE MatchingDataRange,
_In_ ULONG DataBufferSize,
_Out_ PVOID Data,
_Out_ PULONG DataSize)
{
PKSFILTER Filter;
PKSPIN_DESCRIPTOR_EX PinDescriptor;
PKSDATAFORMAT_WAVEFORMATEX DataFormat;
PKSDATARANGE_AUDIO DataRangeAudio;
/* get filter from irp*/
Filter = KsGetFilterFromIrp(Irp);
if (!Filter)
{
/* no match*/
return STATUS_NO_MATCH;
}
/* get pin descriptor */
PinDescriptor = (PKSPIN_DESCRIPTOR_EX)&Filter->Descriptor->PinDescriptors[Pin->PinId];
*DataSize = sizeof(KSDATAFORMAT_WAVEFORMATEX);
if (DataBufferSize == 0)
{
/* buffer too small */
return STATUS_BUFFER_OVERFLOW;
}
/* sanity checks*/
ASSERT(PinDescriptor->PinDescriptor.DataRangesCount >= 0);
ASSERT(PinDescriptor->PinDescriptor.DataRanges[0]->FormatSize == sizeof(KSDATARANGE_AUDIO));
DataRangeAudio = (PKSDATARANGE_AUDIO)PinDescriptor->PinDescriptor.DataRanges[0];
DataFormat = Data;
DataFormat->WaveFormatEx.wFormatTag = WAVE_FORMAT_PCM;
DataFormat->WaveFormatEx.nChannels = DataRangeAudio->MaximumChannels;
DataFormat->WaveFormatEx.nSamplesPerSec = DataRangeAudio->MaximumSampleFrequency;
DataFormat->WaveFormatEx.nAvgBytesPerSec = DataRangeAudio->MaximumSampleFrequency * (DataRangeAudio->MaximumBitsPerSample / 8) * DataRangeAudio->MaximumChannels;
DataFormat->WaveFormatEx.nBlockAlign = (DataRangeAudio->MaximumBitsPerSample / 8) * DataRangeAudio->MaximumChannels;
DataFormat->WaveFormatEx.wBitsPerSample = DataRangeAudio->MaximumBitsPerSample;
DataFormat->WaveFormatEx.cbSize = 0;
DataFormat->DataFormat.FormatSize = sizeof(KSDATAFORMAT) + sizeof(WAVEFORMATEX);
DataFormat->DataFormat.Flags = 0;
DataFormat->DataFormat.Reserved = 0;
DataFormat->DataFormat.MajorFormat = KSDATAFORMAT_TYPE_AUDIO;
DataFormat->DataFormat.SubFormat = KSDATAFORMAT_SUBTYPE_PCM;
DataFormat->DataFormat.Specifier = KSDATAFORMAT_SPECIFIER_WAVEFORMATEX;
DataFormat->DataFormat.SampleSize = (DataRangeAudio->MaximumBitsPerSample / 8) * DataRangeAudio->MaximumChannels;
return STATUS_SUCCESS;
}