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reactos/drivers/wdm/audio/backpln/portcls/irpstream.cpp

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/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS Kernel Streaming
* FILE: drivers/wdm/audio/backpln/portcls/irpstream.cpp
* PURPOSE: IRP Stream handling
* PROGRAMMER: Johannes Anderwald
*/
#include "private.hpp"
#ifndef YDEBUG
#define NDEBUG
#endif
#include <debug.h>
class CIrpQueue : public IIrpQueue
{
public:
STDMETHODIMP QueryInterface( REFIID InterfaceId, PVOID* Interface);
STDMETHODIMP_(ULONG) AddRef()
{
InterlockedIncrement(&m_Ref);
return m_Ref;
}
STDMETHODIMP_(ULONG) Release()
{
InterlockedDecrement(&m_Ref);
if (!m_Ref)
{
delete this;
return 0;
}
return m_Ref;
}
IMP_IIrpQueue;
CIrpQueue(IUnknown *OuterUnknown){}
virtual ~CIrpQueue(){}
protected:
PKSPIN_CONNECT m_ConnectDetails;
PKSPIN_DESCRIPTOR m_Descriptor;
KSPIN_LOCK m_IrpListLock;
LIST_ENTRY m_IrpList;
LIST_ENTRY m_FreeIrpList;
BOOLEAN m_OutOfMapping;
ULONG m_MaxFrameSize;
ULONG m_Alignment;
ULONG m_TagSupportEnabled;
volatile ULONG m_NumDataAvailable;
volatile ULONG m_CurrentOffset;
volatile PIRP m_Irp;
volatile LONG m_Ref;
};
typedef struct
{
PVOID Tag;
UCHAR Used;
}KSSTREAM_TAG, *PKSSTREAM_TAG;
typedef struct
{
ULONG StreamHeaderCount;
ULONG StreamHeaderIndex;
ULONG TotalStreamData;
PKSSTREAM_HEADER CurStreamHeader;
PVOID * Data;
PKSSTREAM_TAG Tags;
}KSSTREAM_DATA, *PKSSTREAM_DATA;
#define STREAM_DATA_OFFSET (0)
NTSTATUS
NTAPI
CIrpQueue::QueryInterface(
IN REFIID refiid,
OUT PVOID* Output)
{
if (IsEqualGUIDAligned(refiid, IID_IUnknown))
{
*Output = PVOID(PUNKNOWN(this));
PUNKNOWN(*Output)->AddRef();
return STATUS_SUCCESS;
}
return STATUS_UNSUCCESSFUL;
}
NTSTATUS
NTAPI
CIrpQueue::Init(
IN PKSPIN_CONNECT ConnectDetails,
IN PKSPIN_DESCRIPTOR Descriptor,
IN ULONG FrameSize,
IN ULONG Alignment,
IN ULONG TagSupportEnabled)
{
m_ConnectDetails = ConnectDetails;
m_Descriptor = Descriptor;
m_MaxFrameSize = FrameSize;
m_Alignment = Alignment;
m_TagSupportEnabled = TagSupportEnabled;
InitializeListHead(&m_IrpList);
InitializeListHead(&m_FreeIrpList);
KeInitializeSpinLock(&m_IrpListLock);
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
CIrpQueue::AddMapping(
IN PIRP Irp,
OUT PULONG Data)
{
PKSSTREAM_HEADER Header;
NTSTATUS Status = STATUS_UNSUCCESSFUL;
PIO_STACK_LOCATION IoStack;
ULONG Index, Length;
PMDL Mdl;
PKSSTREAM_DATA StreamData;
PC_ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL);
// allocate stream data
StreamData = (PKSSTREAM_DATA)AllocateItem(NonPagedPool, sizeof(KSSTREAM_DATA), TAG_PORTCLASS);
if (!StreamData)
{
// not enough memory
return STATUS_INSUFFICIENT_RESOURCES;
}
// get current irp stack location
IoStack = IoGetCurrentIrpStackLocation(Irp);
// lets probe the irp
if (IoStack->Parameters.DeviceIoControl.IoControlCode == IOCTL_KS_WRITE_STREAM)
{
// probe IOCTL_KS_WRITE_STREAM
Status = KsProbeStreamIrp(Irp, KSSTREAM_WRITE | KSPROBE_ALLOCATEMDL | KSPROBE_PROBEANDLOCK | KSPROBE_SYSTEMADDRESS, 0);
}
else if (IoStack->Parameters.DeviceIoControl.IoControlCode == IOCTL_KS_READ_STREAM)
{
// probe IOCTL_KS_READ_STREAM
Status = KsProbeStreamIrp(Irp, KSSTREAM_READ | KSPROBE_ALLOCATEMDL | KSPROBE_PROBEANDLOCK | KSPROBE_SYSTEMADDRESS, 0);
}
// check for success
if (!NT_SUCCESS(Status))
{
// irp probing failed
FreeItem(StreamData, TAG_PORTCLASS);
return Status;
}
// get first stream header
Header = (PKSSTREAM_HEADER)Irp->AssociatedIrp.SystemBuffer;
// store header
StreamData->CurStreamHeader = Header;
// sanity check
PC_ASSERT(Header);
// first calculate the numbers of stream headers
Length = IoStack->Parameters.DeviceIoControl.OutputBufferLength;
do
{
/* subtract size */
Length -= Header->Size;
/* increment header count */
StreamData->StreamHeaderCount++;
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_IN)
{
// irp sink
StreamData->TotalStreamData += Header->DataUsed;
}
else
{
// irp source
StreamData->TotalStreamData += Header->FrameExtent;
}
/* move to next header */
Header = (PKSSTREAM_HEADER)((ULONG_PTR)Header + Header->Size);
}while(Length);
// sanity check
ASSERT(StreamData->StreamHeaderCount);
// allocate array for storing the pointers of the data */
StreamData->Data = (PVOID*)AllocateItem(NonPagedPool, sizeof(PVOID) * StreamData->StreamHeaderCount, TAG_PORTCLASS);
if (!StreamData->Data)
{
// out of memory
FreeItem(StreamData, TAG_PORTCLASS);
// done
return STATUS_INSUFFICIENT_RESOURCES;
}
if (m_TagSupportEnabled)
{
// allocate array for storing the pointers of the data */
StreamData->Tags = (PKSSTREAM_TAG)AllocateItem(NonPagedPool, sizeof(KSSTREAM_TAG) * StreamData->StreamHeaderCount, TAG_PORTCLASS);
if (!StreamData->Data)
{
// out of memory
FreeItem(StreamData->Data, TAG_PORTCLASS);
FreeItem(StreamData, TAG_PORTCLASS);
// done
return STATUS_INSUFFICIENT_RESOURCES;
}
}
// now get a system address for the user buffers
Header = (PKSSTREAM_HEADER)Irp->AssociatedIrp.SystemBuffer;
Mdl = Irp->MdlAddress;
for(Index = 0; Index < StreamData->StreamHeaderCount; Index++)
{
/* get system address */
StreamData->Data[Index] = MmGetSystemAddressForMdlSafe(Mdl, NormalPagePriority);
/* check for success */
if (!StreamData->Data[Index])
{
// out of resources
FreeItem(StreamData->Data, TAG_PORTCLASS);
if (m_TagSupportEnabled)
{
// free tag array
FreeItem(StreamData->Tags, TAG_PORTCLASS);
}
FreeItem(StreamData, TAG_PORTCLASS);
// done
return STATUS_INSUFFICIENT_RESOURCES;
}
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_IN)
{
// increment available data
InterlockedExchangeAdd((PLONG)&m_NumDataAvailable, Header->DataUsed);
}
else if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_OUT)
{
// increment available data
InterlockedExchangeAdd((PLONG)&m_NumDataAvailable, Header->FrameExtent);
}
// move to next header / mdl
Mdl = Mdl->Next;
Header = (PKSSTREAM_HEADER)((ULONG_PTR)Header + Header->Size);
}
// store stream data
Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET] = (PVOID)StreamData;
*Data = StreamData->TotalStreamData;
// mark irp as pending
IoMarkIrpPending(Irp);
// add irp to cancelable queue
KsAddIrpToCancelableQueue(&m_IrpList, &m_IrpListLock, Irp, KsListEntryTail, NULL);
// disable mapping failed status
m_OutOfMapping = FALSE;
// done
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
CIrpQueue::GetMapping(
OUT PUCHAR * Buffer,
OUT PULONG BufferSize)
{
PIRP Irp;
ULONG Offset;
PKSSTREAM_DATA StreamData;
// check if there is an irp in the partially processed
if (m_Irp)
{
// use last irp
if (m_Irp->Cancel == FALSE)
{
Irp = m_Irp;
Offset = m_CurrentOffset;
}
else
{
// irp has been cancelled
m_Irp->IoStatus.Status = STATUS_CANCELLED;
IoCompleteRequest(m_Irp, IO_NO_INCREMENT);
m_Irp = Irp = NULL;
m_CurrentOffset = 0;
}
}
else
{
// get a fresh new irp from the queue
m_Irp = Irp = KsRemoveIrpFromCancelableQueue(&m_IrpList, &m_IrpListLock, KsListEntryHead, KsAcquireAndRemoveOnlySingleItem);
m_CurrentOffset = Offset = 0;
}
if (!Irp)
{
// no irp buffer available
return STATUS_UNSUCCESSFUL;
}
// get stream data
StreamData = (PKSSTREAM_DATA)Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET];
// sanity check
PC_ASSERT(StreamData);
// get buffer size
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_IN)
{
// sink pin
*BufferSize = StreamData->CurStreamHeader->DataUsed - Offset;
}
else
{
// source pin
*BufferSize = StreamData->CurStreamHeader->FrameExtent - Offset;
}
// sanity check
PC_ASSERT(*BufferSize);
// store buffer
*Buffer = &((PUCHAR)StreamData->Data[StreamData->StreamHeaderIndex])[Offset];
// unset flag that no irps are available
m_OutOfMapping = FALSE;
return STATUS_SUCCESS;
}
VOID
NTAPI
CIrpQueue::UpdateMapping(
IN ULONG BytesWritten)
{
PKSSTREAM_DATA StreamData;
ULONG Size;
PIO_STACK_LOCATION IoStack;
ULONG Index;
PMDL Mdl;
// sanity check
ASSERT(m_Irp);
// get stream data
StreamData = (PKSSTREAM_DATA)m_Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET];
// sanity check
ASSERT(StreamData);
// add to current offset
InterlockedExchangeAdd((PLONG)&m_CurrentOffset, (LONG)BytesWritten);
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_OUT)
{
// store written bytes (source pin)
StreamData->CurStreamHeader->DataUsed += BytesWritten;
}
// decrement available data counter
m_NumDataAvailable -= BytesWritten;
// get audio buffer size
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_OUT)
Size = StreamData->CurStreamHeader->FrameExtent;
else
Size = StreamData->CurStreamHeader->DataUsed;
// sanity check
PC_ASSERT(Size);
if (m_CurrentOffset >= Size)
{
// sanity check
PC_ASSERT(Size == m_CurrentOffset);
if (StreamData->StreamHeaderIndex + 1 < StreamData->StreamHeaderCount)
{
// move to next stream header
StreamData->CurStreamHeader = (PKSSTREAM_HEADER)((ULONG_PTR)StreamData->CurStreamHeader + StreamData->CurStreamHeader->Size);
// increment stream header index
StreamData->StreamHeaderIndex++;
// reset offset
m_CurrentOffset = 0;
// done
return;
}
//
// all stream buffers have been played
// check if this is a looped buffer
//
if (m_ConnectDetails->Interface.Id == KSINTERFACE_STANDARD_LOOPED_STREAMING)
{
// looped streaming repeat the buffers untill
// the caller decides to stop the streams
// reset stream header index
StreamData->StreamHeaderIndex = 0;
// reset stream header
StreamData->CurStreamHeader = (PKSSTREAM_HEADER)m_Irp->AssociatedIrp.SystemBuffer;
// increment available data
InterlockedExchangeAdd((PLONG)&m_NumDataAvailable, StreamData->TotalStreamData);
// re-insert irp
KsAddIrpToCancelableQueue(&m_IrpList, &m_IrpListLock, m_Irp, KsListEntryTail, NULL);
// clear current irp
m_Irp = NULL;
// reset offset
m_CurrentOffset = 0;
// done
return;
}
Mdl = m_Irp->MdlAddress;
for(Index = 0; Index < StreamData->StreamHeaderCount; Index++)
{
MmUnmapLockedPages(StreamData->Data[Index], Mdl);
Mdl = Mdl->Next;
}
// free stream data array
FreeItem(StreamData->Data, TAG_PORTCLASS);
if (m_TagSupportEnabled)
{
// free tag array
FreeItem(StreamData->Tags, TAG_PORTCLASS);
}
// free stream data
FreeItem(StreamData, TAG_PORTCLASS);
// get io stack
IoStack = IoGetCurrentIrpStackLocation(m_Irp);
// store operation status
m_Irp->IoStatus.Status = STATUS_SUCCESS;
// store operation length
m_Irp->IoStatus.Information = IoStack->Parameters.DeviceIoControl.OutputBufferLength;
// complete the request
IoCompleteRequest(m_Irp, IO_SOUND_INCREMENT);
// remove irp as it is complete
m_Irp = NULL;
// reset offset
m_CurrentOffset = 0;
}
}
ULONG
NTAPI
CIrpQueue::NumData()
{
// returns the amount of audio stream data available
return m_NumDataAvailable;
}
BOOL
NTAPI
CIrpQueue::CancelBuffers()
{
//TODO: own cancel routine
// is there an active irp
if (m_Irp)
{
// re-insert it to cancelable queue
KsAddIrpToCancelableQueue(&m_IrpList, &m_IrpListLock, m_Irp, KsListEntryTail, NULL);
//set it to zero
m_Irp = NULL;
}
// cancel all irps
KsCancelIo(&m_IrpList, &m_IrpListLock);
// reset number of data available
m_NumDataAvailable = 0;
// done
return TRUE;
}
NTSTATUS
NTAPI
CIrpQueue::GetMappingWithTag(
IN PVOID Tag,
OUT PPHYSICAL_ADDRESS PhysicalAddress,
OUT PVOID *VirtualAddress,
OUT PULONG ByteCount,
OUT PULONG Flags)
{
PKSSTREAM_DATA StreamData;
/* sanity checks */
PC_ASSERT(PhysicalAddress);
PC_ASSERT(VirtualAddress);
PC_ASSERT(ByteCount);
PC_ASSERT(Flags);
if (!m_Irp)
{
// get an irp from the queue
m_Irp = KsRemoveIrpFromCancelableQueue(&m_IrpList, &m_IrpListLock, KsListEntryHead, KsAcquireAndRemoveOnlySingleItem);
}
// check if there is an irp
if (!m_Irp)
{
// no irp available
m_OutOfMapping = TRUE;
DPRINT("GetMappingWithTag no mapping available\n");
return STATUS_NOT_FOUND;
}
// get stream data
StreamData = (PKSSTREAM_DATA)m_Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET];
// sanity check
PC_ASSERT(StreamData->StreamHeaderIndex < StreamData->StreamHeaderCount);
// setup mapping
*PhysicalAddress = MmGetPhysicalAddress(StreamData->Data[StreamData->StreamHeaderIndex]);
*VirtualAddress = StreamData->Data[StreamData->StreamHeaderIndex];
// store tag in irp
StreamData->Tags[StreamData->StreamHeaderIndex].Tag = Tag;
StreamData->Tags[StreamData->StreamHeaderIndex].Used = TRUE;
// increment header index
StreamData->StreamHeaderIndex++;
// mapping size
if (m_Descriptor->DataFlow == KSPIN_DATAFLOW_IN)
{
// sink pin
*ByteCount = StreamData->CurStreamHeader->DataUsed;
// decrement num data available
m_NumDataAvailable -= StreamData->CurStreamHeader->DataUsed;
}
else
{
// source pin
*ByteCount = StreamData->CurStreamHeader->FrameExtent;
// decrement num data available
m_NumDataAvailable -= StreamData->CurStreamHeader->FrameExtent;
}
if (StreamData->StreamHeaderIndex == StreamData->StreamHeaderCount)
{
// last mapping
*Flags = 1;
// insert mapping into free list
ExInterlockedInsertTailList(&m_FreeIrpList, &m_Irp->Tail.Overlay.ListEntry, &m_IrpListLock);
// clear irp
m_Irp = NULL;
}
else
{
// one more mapping in the irp
*Flags = 0;
// move to next header
StreamData->CurStreamHeader = (PKSSTREAM_HEADER)((ULONG_PTR)StreamData->CurStreamHeader + StreamData->CurStreamHeader->Size);
}
DPRINT("GetMappingWithTag Tag %p Buffer %p Flags %lu ByteCount %lx\n", Tag, VirtualAddress, *Flags, *ByteCount);
// done
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
CIrpQueue::ReleaseMappingWithTag(
IN PVOID Tag)
{
PIRP Irp;
PLIST_ENTRY CurEntry;
PKSSTREAM_DATA StreamData;
PIO_STACK_LOCATION IoStack;
ULONG Index;
// first check if there is an active irp
if (m_Irp)
{
// now check if there are already used mappings
StreamData = (PKSSTREAM_DATA)m_Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET];
if (StreamData->StreamHeaderIndex)
{
// check if the released mapping is one current processed irps
for(Index = 0; Index < StreamData->StreamHeaderIndex; Index++)
{
// check if it is the same tag
if ((StreamData->Tags[Index].Tag == Tag) &&
(StreamData->Tags[Index].Used != FALSE))
{
// mark mapping as released
StreamData->Tags[Index].Tag = NULL;
StreamData->Tags[Index].Used = FALSE;
// done
return STATUS_SUCCESS;
}
}
}
}
// remove irp from used list
CurEntry = ExInterlockedRemoveHeadList(&m_FreeIrpList, &m_IrpListLock);
if (CurEntry == NULL)
{
// this should not happen
DPRINT("ReleaseMappingWithTag Tag %p not found\n", Tag);
return STATUS_NOT_FOUND;
}
// sanity check
PC_ASSERT(CurEntry);
// get irp from list entry
Irp = (PIRP)CONTAINING_RECORD(CurEntry, IRP, Tail.Overlay.ListEntry);
// get stream data
StreamData = (PKSSTREAM_DATA)Irp->Tail.Overlay.DriverContext[STREAM_DATA_OFFSET];
// sanity check
PC_ASSERT(StreamData->StreamHeaderIndex == StreamData->StreamHeaderCount);
// check if the released mapping is one of these
for(Index = 0; Index < StreamData->StreamHeaderCount; Index++)
{
if ((StreamData->Tags[Index].Tag == Tag) &&
(StreamData->Tags[Index].Used != FALSE))
{
// mark mapping as released
StreamData->Tags[Index].Tag = NULL;
StreamData->Tags[Index].Used = FALSE;
// done
break;
}
else
{
//
// we assume that mappings are released in the same order as they have been acquired
// therefore if the current mapping is not the searched one, it must have been already
// released
//
ASSERT(StreamData->Tags[Index].Tag == NULL);
ASSERT(StreamData->Tags[Index].Used == FALSE);
}
}
// check if this is the last one released mapping
if (Index + 1 == StreamData->StreamHeaderCount)
{
// last mapping released
// now check if this is a looped buffer
if (m_ConnectDetails->Interface.Id == KSINTERFACE_STANDARD_LOOPED_STREAMING)
{
// looped buffers are not completed when they have been played
// they are completed when the stream is set to stop
// reset stream header index
StreamData->StreamHeaderIndex = 0;
// reset stream header
StreamData->CurStreamHeader = (PKSSTREAM_HEADER)Irp->AssociatedIrp.SystemBuffer;
// increment available data
InterlockedExchangeAdd((PLONG)&m_NumDataAvailable, StreamData->TotalStreamData);
// re-insert irp
KsAddIrpToCancelableQueue(&m_IrpList, &m_IrpListLock, Irp, KsListEntryTail, NULL);
// done
return STATUS_SUCCESS;
}
//
// time to complete non looped buffer
//
// free stream data array
FreeItem(StreamData->Data, TAG_PORTCLASS);
// free stream tags array
FreeItem(StreamData->Tags, TAG_PORTCLASS);
// free stream data
FreeItem(StreamData, TAG_PORTCLASS);
// get io stack
IoStack = IoGetCurrentIrpStackLocation(Irp);
// store operation status
Irp->IoStatus.Status = STATUS_SUCCESS;
// store operation length
Irp->IoStatus.Information = IoStack->Parameters.DeviceIoControl.OutputBufferLength;
// complete the request
IoCompleteRequest(Irp, IO_SOUND_INCREMENT);
}
else
{
// there are still some headers not consumed
ExInterlockedInsertHeadList(&m_FreeIrpList, &Irp->Tail.Overlay.ListEntry, &m_IrpListLock);
}
return STATUS_SUCCESS;
}
BOOLEAN
NTAPI
CIrpQueue::HasLastMappingFailed()
{
return m_OutOfMapping;
}
ULONG
NTAPI
CIrpQueue::GetCurrentIrpOffset()
{
return m_CurrentOffset;
}
BOOLEAN
NTAPI
CIrpQueue::GetAcquiredTagRange(
IN PVOID * FirstTag,
IN PVOID * LastTag)
{
KIRQL OldLevel;
BOOLEAN Ret = FALSE;
//PIRP Irp;
//PLIST_ENTRY CurEntry;
//PKSSTREAM_DATA StreamData;
// lock list
KeAcquireSpinLock(&m_IrpListLock, &OldLevel);
// initialize to zero
*FirstTag = NULL;
*LastTag = NULL;
UNIMPLEMENTED;
// release lock
KeReleaseSpinLock(&m_IrpListLock, OldLevel);
// done
return Ret;
}
NTSTATUS
NTAPI
NewIrpQueue(
IN IIrpQueue **Queue)
{
CIrpQueue *This = new(NonPagedPool, TAG_PORTCLASS)CIrpQueue(NULL);
if (!This)
return STATUS_INSUFFICIENT_RESOURCES;
This->AddRef();
*Queue = (IIrpQueue*)This;
return STATUS_SUCCESS;
}
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