reactos/drivers/usb/usbport/trfsplit.c
2018-01-21 19:35:46 +01:00

336 lines
10 KiB
C

/*
* PROJECT: ReactOS USB Port Driver
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: USBPort split transfer functions
* COPYRIGHT: Copyright 2017 Vadim Galyant <vgal@rambler.ru>
*/
#include "usbport.h"
#define NDEBUG
#include <debug.h>
ULONG
NTAPI
USBPORT_MakeSplitTransfer(IN PDEVICE_OBJECT FdoDevice,
IN PUSBPORT_TRANSFER Transfer,
IN PUSBPORT_TRANSFER SplitTransfer,
IN ULONG MaxTransferSize,
IN PULONG SgIdx,
IN PULONG SgOffset,
IN ULONG TransferRemainLen,
IN ULONG TransferOffset)
{
PUSBPORT_SCATTER_GATHER_LIST SplitSgList;
PUSBPORT_SCATTER_GATHER_ELEMENT Element0;
PUSBPORT_SCATTER_GATHER_ELEMENT Element1;
SIZE_T SgLength;
SIZE_T SgRemainLen;
DPRINT("USBPORT_MakeSplitTransfer: ... \n");
SplitSgList = &SplitTransfer->SgList;
Element0 = &SplitSgList->SgElement[0];
SgLength = Transfer->SgList.SgElement[*SgIdx].SgTransferLength - *SgOffset;
if (SgLength > MaxTransferSize)
{
/* SgLength > MaxTransferSize */
SplitTransfer->SgList.SgElementCount = 1;
Element0->SgOffset = 0;
Element0->SgTransferLength = MaxTransferSize;
Element0->SgPhysicalAddress.LowPart = Transfer->SgList.SgElement[*SgIdx].SgPhysicalAddress.LowPart + *SgOffset;
SplitTransfer->TransferParameters.IsTransferSplited = TRUE;
SplitTransfer->TransferParameters.TransferBufferLength = MaxTransferSize;
SplitTransfer->SgList.CurrentVa = Transfer->SgList.CurrentVa + TransferOffset;
SplitTransfer->SgList.MappedSystemVa = (PVOID)((ULONG_PTR)Transfer->SgList.MappedSystemVa + TransferOffset);
SplitTransfer->Flags |= TRANSFER_FLAG_SPLITED;
*SgOffset += MaxTransferSize;
TransferRemainLen -= MaxTransferSize;
return TransferRemainLen;
}
/* SgLength <= MaxTransferSize */
SplitTransfer->SgList.SgElementCount = 1;
TransferRemainLen -= SgLength;
Element0->SgOffset = 0;
Element0->SgTransferLength = SgLength;
Element0->SgPhysicalAddress.LowPart = Transfer->SgList.SgElement[*SgIdx].SgPhysicalAddress.LowPart + *SgOffset;
SplitTransfer->TransferParameters.TransferBufferLength = SgLength;
SplitTransfer->TransferParameters.IsTransferSplited = TRUE;
SplitTransfer->SgList.CurrentVa = Transfer->SgList.CurrentVa + TransferOffset;
SplitTransfer->SgList.MappedSystemVa = (PVOID)((ULONG_PTR)Transfer->SgList.MappedSystemVa + TransferOffset);
SplitTransfer->Flags |= TRANSFER_FLAG_SPLITED;
*SgOffset += SgLength;
SgRemainLen = MaxTransferSize - SgLength;
if (SgRemainLen > TransferRemainLen)
{
SgRemainLen = TransferRemainLen;
}
if (!SgRemainLen)
{
/* SgLength == MaxTransferSize */
++*SgIdx;
*SgOffset = 0;
return TransferRemainLen;
}
/* SgLength < MaxTransferSize */
DPRINT1("MakeSplitTransfer: SgRemainLen - %x\n", SgRemainLen);
DPRINT1("MakeSplitTransfer: SgIdx - %x\n", *SgIdx);
++*SgIdx;
*SgOffset = 0;
SplitTransfer->SgList.SgElementCount++;
Element1 = &SplitSgList->SgElement[1];
Element1->SgOffset = SgRemainLen;
Element1->SgTransferLength = Element0->SgTransferLength;
Element1->SgPhysicalAddress.LowPart = Transfer->SgList.SgElement[*SgIdx].SgPhysicalAddress.LowPart + *SgOffset;
SplitTransfer->TransferParameters.TransferBufferLength += SgRemainLen;
*SgOffset += SgRemainLen;
TransferRemainLen -= SgRemainLen;
return TransferRemainLen;
}
VOID
NTAPI
USBPORT_SplitBulkInterruptTransfer(IN PDEVICE_OBJECT FdoDevice,
IN PUSBPORT_ENDPOINT Endpoint,
IN PUSBPORT_TRANSFER Transfer,
IN PLIST_ENTRY List)
{
PUSBPORT_TRANSFER SplitTransfer;
LIST_ENTRY tmplist;
ULONG NeedSplits;
SIZE_T TransferBufferLength;
SIZE_T MaxTransferSize;
SIZE_T TransferOffset = 0;
SIZE_T RemainLength;
ULONG ix;
ULONG SgIdx = 0;
ULONG SgOffset = 0;
DPRINT("USBPORT_SplitBulkInterruptTransfer: ... \n");
MaxTransferSize = Endpoint->EndpointProperties.TotalMaxPacketSize *
(Endpoint->EndpointProperties.MaxTransferSize /
Endpoint->EndpointProperties.TotalMaxPacketSize);
if (Endpoint->EndpointProperties.MaxTransferSize > PAGE_SIZE)
{
KeBugCheckEx(BUGCODE_USB_DRIVER, 1, 0, 0, 0);
}
TransferBufferLength = Transfer->TransferParameters.TransferBufferLength;
Transfer->Flags |= TRANSFER_FLAG_PARENT;
NeedSplits = TransferBufferLength / MaxTransferSize + 1;
InitializeListHead(&tmplist);
DPRINT("USBPORT_SplitBulkInterruptTransfer: TransferBufferLength - %x, NeedSplits - %x\n",
TransferBufferLength, NeedSplits);
if (!NeedSplits)
{
DPRINT1("USBPORT_SplitBulkInterruptTransfer: DbgBreakPoint \n");
DbgBreakPoint();
goto Exit;
}
for (ix = 0; ix < NeedSplits; ++ix)
{
SplitTransfer = ExAllocatePoolWithTag(NonPagedPool,
Transfer->FullTransferLength,
USB_PORT_TAG);
if (!SplitTransfer)
{
DPRINT1("USBPORT_SplitBulkInterruptTransfer: DbgBreakPoint \n");
DbgBreakPoint();
goto Exit;
}
RtlCopyMemory(SplitTransfer, Transfer, Transfer->FullTransferLength);
SplitTransfer->MiniportTransfer = (PVOID)((ULONG_PTR)SplitTransfer +
SplitTransfer->PortTransferLength);
InsertTailList(&tmplist, &SplitTransfer->TransferLink);
}
if (Transfer->TransferParameters.TransferBufferLength == 0)
{
goto Exit;
}
RemainLength = Transfer->TransferParameters.TransferBufferLength;
do
{
SplitTransfer = CONTAINING_RECORD(tmplist.Flink,
USBPORT_TRANSFER,
TransferLink);
RemoveHeadList(&tmplist);
RemainLength = USBPORT_MakeSplitTransfer(FdoDevice,
Transfer,
SplitTransfer,
MaxTransferSize,
&SgIdx,
&SgOffset,
RemainLength,
TransferOffset);
TransferOffset += SplitTransfer->TransferParameters.TransferBufferLength;
InsertTailList(List, &SplitTransfer->TransferLink);
InsertTailList(&Transfer->SplitTransfersList,&SplitTransfer->SplitLink);
}
while (RemainLength != 0);
Exit:
while (!IsListEmpty(&tmplist))
{
DPRINT("USBPORT_SplitBulkInterruptTransfer: ... \n");
SplitTransfer = CONTAINING_RECORD(tmplist.Flink,
USBPORT_TRANSFER,
TransferLink);
RemoveHeadList(&tmplist);
ExFreePoolWithTag(SplitTransfer, USB_PORT_TAG);
}
return;
}
VOID
NTAPI
USBPORT_SplitTransfer(IN PDEVICE_OBJECT FdoDevice,
IN PUSBPORT_ENDPOINT Endpoint,
IN PUSBPORT_TRANSFER Transfer,
IN PLIST_ENTRY List)
{
ULONG TransferType;
DPRINT("USBPORT_SplitTransfer ... \n");
InitializeListHead(List);
InitializeListHead(&Transfer->SplitTransfersList);
Transfer->USBDStatus = USBD_STATUS_SUCCESS;
if (Transfer->TransferParameters.TransferBufferLength >
Endpoint->EndpointProperties.MaxTransferSize)
{
TransferType = Endpoint->EndpointProperties.TransferType;
if (TransferType == USBPORT_TRANSFER_TYPE_BULK ||
TransferType == USBPORT_TRANSFER_TYPE_INTERRUPT)
{
USBPORT_SplitBulkInterruptTransfer(FdoDevice,
Endpoint,
Transfer,
List);
}
else if (TransferType == USBPORT_TRANSFER_TYPE_ISOCHRONOUS ||
TransferType == USBPORT_TRANSFER_TYPE_CONTROL)
{
KeBugCheckEx(BUGCODE_USB_DRIVER, 1, 0, 0, 0);
}
else
{
DPRINT1("USBPORT_SplitTransfer: Unknown TransferType - %x\n",
TransferType);
}
}
else
{
InsertTailList(List, &Transfer->TransferLink);
}
}
VOID
NTAPI
USBPORT_DoneSplitTransfer(IN PUSBPORT_TRANSFER SplitTransfer)
{
PUSBPORT_TRANSFER ParentTransfer;
KIRQL OldIrql;
DPRINT("USBPORT_DoneSplitTransfer: ... \n");
ParentTransfer = SplitTransfer->ParentTransfer;
ParentTransfer->CompletedTransferLen += SplitTransfer->CompletedTransferLen;
if (SplitTransfer->USBDStatus != USBD_STATUS_SUCCESS)
{
DPRINT1("USBPORT_DoneSplitTransfer: SplitTransfer->USBDStatus - %X\n",
SplitTransfer->USBDStatus);
ParentTransfer->USBDStatus = SplitTransfer->USBDStatus;
}
KeAcquireSpinLock(&ParentTransfer->TransferSpinLock, &OldIrql);
RemoveEntryList(&SplitTransfer->SplitLink);
ExFreePoolWithTag(SplitTransfer, USB_PORT_TAG);
if (IsListEmpty(&ParentTransfer->SplitTransfersList))
{
KeReleaseSpinLock(&ParentTransfer->TransferSpinLock, OldIrql);
USBPORT_DoneTransfer(ParentTransfer);
}
else
{
KeReleaseSpinLock(&ParentTransfer->TransferSpinLock, OldIrql);
}
}
VOID
NTAPI
USBPORT_CancelSplitTransfer(IN PUSBPORT_TRANSFER SplitTransfer)
{
PUSBPORT_TRANSFER ParentTransfer;
PUSBPORT_ENDPOINT Endpoint;
KIRQL OldIrql;
DPRINT("USBPORT_CancelSplitTransfer \n");
Endpoint = SplitTransfer->Endpoint;
ParentTransfer = SplitTransfer->ParentTransfer;
ParentTransfer->CompletedTransferLen += SplitTransfer->CompletedTransferLen;
KeAcquireSpinLock(&ParentTransfer->TransferSpinLock, &OldIrql);
RemoveEntryList(&SplitTransfer->SplitLink);
KeReleaseSpinLock(&ParentTransfer->TransferSpinLock, OldIrql);
ExFreePool(SplitTransfer);
if (IsListEmpty(&ParentTransfer->SplitTransfersList))
{
InsertTailList(&Endpoint->CancelList, &ParentTransfer->TransferLink);
}
}