reactos/drivers/usb/usbohci/usbohci.c

2586 lines
80 KiB
C
Raw Normal View History

2018-09-08 08:12:39 +00:00
/*
* PROJECT: ReactOS USB OHCI Miniport Driver
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: USBOHCI main driver functions
* COPYRIGHT: Copyright 2017-2018 Vadim Galyant <vgal@rambler.ru>
*/
#include "usbohci.h"
#define NDEBUG
#include <debug.h>
#define NDEBUG_OHCI_TRACE
#include "dbg_ohci.h"
USBPORT_REGISTRATION_PACKET RegPacket;
static const UCHAR Index[8] =
{
ENDPOINT_INTERRUPT_1ms - 1,
ENDPOINT_INTERRUPT_2ms - 1,
ENDPOINT_INTERRUPT_4ms - 1,
ENDPOINT_INTERRUPT_8ms - 1,
ENDPOINT_INTERRUPT_16ms - 1,
ENDPOINT_INTERRUPT_32ms - 1,
ENDPOINT_INTERRUPT_32ms - 1,
ENDPOINT_INTERRUPT_32ms - 1
};
static const UCHAR Balance[OHCI_NUMBER_OF_INTERRUPTS] =
{
0, 16, 8, 24, 4, 20, 12, 28, 2, 18, 10, 26, 6, 22, 14, 30,
1, 17, 9, 25, 5, 21, 13, 29, 3, 19, 11, 27, 7, 23, 15, 31
};
VOID
NTAPI
OHCI_DumpHcdED(POHCI_HCD_ED ED)
{
DPRINT("ED - %p\n", ED);
DPRINT("EndpointControl - %X\n", ED->HwED.EndpointControl.AsULONG);
DPRINT("TailPointer - %08X\n", ED->HwED.TailPointer);
DPRINT("HeadPointer - %08X\n", ED->HwED.HeadPointer);
DPRINT("NextED - %08X\n", ED->HwED.NextED);
}
VOID
NTAPI
OHCI_DumpHcdTD(POHCI_HCD_TD TD)
{
DPRINT("TD - %p\n", TD);
DPRINT("gTD.Control - %08X\n", TD->HwTD.gTD.Control.AsULONG);
if (TD->HwTD.gTD.CurrentBuffer)
DPRINT("gTD.CurrentBuffer - %08X\n", TD->HwTD.gTD.CurrentBuffer);
if (TD->HwTD.gTD.NextTD)
DPRINT("gTD.NextTD - %08X\n", TD->HwTD.gTD.NextTD);
if (TD->HwTD.gTD.BufferEnd)
DPRINT("gTD.BufferEnd - %08X\n", TD->HwTD.gTD.BufferEnd);
if (TD->HwTD.SetupPacket.bmRequestType.B)
DPRINT("bmRequestType - %02X\n", TD->HwTD.SetupPacket.bmRequestType.B);
if (TD->HwTD.SetupPacket.bRequest)
DPRINT("bRequest - %02X\n", TD->HwTD.SetupPacket.bRequest);
if (TD->HwTD.SetupPacket.wValue.W)
DPRINT("wValue - %04X\n", TD->HwTD.SetupPacket.wValue.W);
if (TD->HwTD.SetupPacket.wIndex.W)
DPRINT("wIndex - %04X\n", TD->HwTD.SetupPacket.wIndex.W);
if (TD->HwTD.SetupPacket.wLength)
DPRINT("wLength - %04X\n", TD->HwTD.SetupPacket.wLength);
DPRINT("PhysicalAddress - %p\n", TD->PhysicalAddress);
DPRINT("Flags - %X\n", TD->Flags);
DPRINT("OhciTransfer - %08X\n", TD->OhciTransfer);
DPRINT("NextTDVa - %08X\n", TD->NextTDVa);
if (TD->TransferLen)
DPRINT("TransferLen - %X\n", TD->TransferLen);
}
VOID
NTAPI
OHCI_EnableList(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG CommandStatusReg;
ULONG TransferType;
OHCI_REG_COMMAND_STATUS CommandStatus;
DPRINT_OHCI("OHCI_EnableList: ... \n");
OperationalRegs = OhciExtension->OperationalRegs;
CommandStatusReg = (PULONG)&OperationalRegs->HcCommandStatus;
CommandStatus.AsULONG = 0;
if (READ_REGISTER_ULONG((PULONG)&OperationalRegs->HcControlHeadED))
CommandStatus.ControlListFilled = 1;
if (READ_REGISTER_ULONG((PULONG)&OperationalRegs->HcBulkHeadED))
CommandStatus.BulkListFilled = 1;
TransferType = OhciEndpoint->EndpointProperties.TransferType;
if (TransferType == USBPORT_TRANSFER_TYPE_BULK)
CommandStatus.BulkListFilled = 1;
else if (TransferType == USBPORT_TRANSFER_TYPE_CONTROL)
CommandStatus.ControlListFilled = 1;
WRITE_REGISTER_ULONG(CommandStatusReg, CommandStatus.AsULONG);
}
VOID
NTAPI
OHCI_InsertEndpointInSchedule(IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_STATIC_ED HeadED;
POHCI_HCD_ED ED;
POHCI_HCD_ED PrevED;
PLIST_ENTRY HeadLink;
DPRINT_OHCI("OHCI_InsertEndpointInSchedule: OhciEndpoint - %p\n",
OhciEndpoint);
ED = OhciEndpoint->HcdED;
HeadED = OhciEndpoint->HeadED;
HeadLink = &HeadED->Link;
if (IsListEmpty(HeadLink))
{
InsertHeadList(HeadLink, &ED->HcdEDLink);
if (HeadED->Type == OHCI_STATIC_ED_TYPE_CONTROL ||
HeadED->Type == OHCI_STATIC_ED_TYPE_BULK)
{
ED->HwED.NextED = READ_REGISTER_ULONG(HeadED->pNextED);
WRITE_REGISTER_ULONG(HeadED->pNextED, ED->PhysicalAddress);
}
else if (HeadED->Type == OHCI_STATIC_ED_TYPE_INTERRUPT)
{
ED->HwED.NextED = *HeadED->pNextED;
*HeadED->pNextED = ED->PhysicalAddress;
}
else
{
DPRINT1("OHCI_InsertEndpointInSchedule: Unknown HeadED->Type - %x\n",
HeadED->Type);
DbgBreakPoint();
}
}
else
{
PrevED = CONTAINING_RECORD(HeadLink->Blink,
OHCI_HCD_ED,
HcdEDLink);
InsertTailList(HeadLink, &ED->HcdEDLink);
ED->HwED.NextED = 0;
PrevED->HwED.NextED = ED->PhysicalAddress;
}
}
POHCI_HCD_ED
NTAPI
OHCI_InitializeED(IN POHCI_ENDPOINT OhciEndpoint,
IN POHCI_HCD_ED ED,
IN POHCI_HCD_TD FirstTD,
IN ULONG_PTR EdPA)
{
OHCI_ENDPOINT_CONTROL EndpointControl;
PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties;
DPRINT_OHCI("OHCI_InitializeED: OhciEndpoint - %p, ED - %p, FirstTD - %p, EdPA - %p\n",
OhciEndpoint,
ED,
FirstTD,
EdPA);
RtlZeroMemory(ED, sizeof(OHCI_HCD_ED));
ED->PhysicalAddress = EdPA;
EndpointProperties = &OhciEndpoint->EndpointProperties;
EndpointControl = ED->HwED.EndpointControl;
EndpointControl.FunctionAddress = EndpointProperties->DeviceAddress;
EndpointControl.EndpointNumber = EndpointProperties->EndpointAddress;
EndpointControl.MaximumPacketSize = EndpointProperties->TotalMaxPacketSize;
if (EndpointProperties->TransferType == USBPORT_TRANSFER_TYPE_CONTROL)
{
EndpointControl.Direction = OHCI_ED_DATA_FLOW_DIRECTION_FROM_TD;
}
else if (EndpointProperties->Direction)
{
EndpointControl.Direction = OHCI_ED_DATA_FLOW_DIRECTION_OUT;
}
else
{
EndpointControl.Direction = OHCI_ED_DATA_FLOW_DIRECTION_IN;
}
if (EndpointProperties->DeviceSpeed == UsbLowSpeed)
EndpointControl.Speed = OHCI_ENDPOINT_LOW_SPEED;
if (EndpointProperties->TransferType == USBPORT_TRANSFER_TYPE_ISOCHRONOUS)
EndpointControl.Format = OHCI_ENDPOINT_ISOCHRONOUS_FORMAT;
else
EndpointControl.sKip = 1;
ED->HwED.EndpointControl = EndpointControl;
ED->HwED.TailPointer = FirstTD->PhysicalAddress;
ED->HwED.HeadPointer = FirstTD->PhysicalAddress;
FirstTD->Flags |= OHCI_HCD_TD_FLAG_ALLOCATED;
OhciEndpoint->HcdTailP = FirstTD;
OhciEndpoint->HcdHeadP = FirstTD;
return ED;
}
VOID
NTAPI
OHCI_InitializeTDs(IN POHCI_ENDPOINT OhciEndpoint,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties)
{
POHCI_HCD_TD TdVA;
ULONG TdPA;
ULONG TdCount;
ULONG ix;
ASSERT(EndpointProperties->BufferLength > sizeof(OHCI_HCD_ED));
TdCount = (EndpointProperties->BufferLength - sizeof(OHCI_HCD_ED)) /
sizeof(OHCI_HCD_TD);
OhciEndpoint->MaxTransferDescriptors = TdCount;
DPRINT_OHCI("OHCI_InitializeTDs: TdCount - %x\n", TdCount);
ASSERT(TdCount > 0);
TdVA = OhciEndpoint->FirstTD;
TdPA = EndpointProperties->BufferPA + sizeof(OHCI_HCD_ED);
for (ix = 0; ix < TdCount; ix++)
{
DPRINT_OHCI("OHCI_InitializeTDs: TdVA - %p, TdPA - %08X\n", TdVA, TdPA);
RtlZeroMemory(TdVA, sizeof(OHCI_HCD_TD));
TdVA->PhysicalAddress = TdPA;
TdVA->Flags = 0;
TdVA->OhciTransfer = 0;
TdVA++;
TdPA += sizeof(OHCI_HCD_TD);
}
}
MPSTATUS
NTAPI
OHCI_OpenControlEndpoint(IN POHCI_EXTENSION OhciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_OpenControlEndpoint: ... \n");
ED = (POHCI_HCD_ED)EndpointProperties->BufferVA;
OhciEndpoint->FirstTD = (POHCI_HCD_TD)((ULONG_PTR)ED + sizeof(OHCI_HCD_ED));
OhciEndpoint->HeadED = &OhciExtension->ControlStaticED;
OHCI_InitializeTDs(OhciEndpoint, EndpointProperties);
OhciEndpoint->HcdED = OHCI_InitializeED(OhciEndpoint,
ED,
OhciEndpoint->FirstTD,
EndpointProperties->BufferPA);
OhciEndpoint->HcdED->Flags = OHCI_HCD_ED_FLAG_CONTROL |
OHCI_HCD_ED_FLAG_RESET_ON_HALT;
OHCI_InsertEndpointInSchedule(OhciEndpoint);
return MP_STATUS_SUCCESS;
}
MPSTATUS
NTAPI
OHCI_OpenBulkEndpoint(IN POHCI_EXTENSION OhciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_OpenBulkEndpoint: ... \n");
ED = (POHCI_HCD_ED)EndpointProperties->BufferVA;
OhciEndpoint->FirstTD = (POHCI_HCD_TD)((ULONG_PTR)ED + sizeof(OHCI_HCD_ED));
OhciEndpoint->HeadED = &OhciExtension->BulkStaticED;
OHCI_InitializeTDs(OhciEndpoint, EndpointProperties);
OhciEndpoint->HcdED = OHCI_InitializeED(OhciEndpoint,
ED,
OhciEndpoint->FirstTD,
EndpointProperties->BufferPA);
OHCI_InsertEndpointInSchedule(OhciEndpoint);
return MP_STATUS_SUCCESS;
}
MPSTATUS
NTAPI
OHCI_OpenInterruptEndpoint(IN POHCI_EXTENSION OhciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN POHCI_ENDPOINT OhciEndpoint)
{
UCHAR Period;
ULONG PeriodIdx = 0;
POHCI_HCD_ED ED;
ULONG ScheduleOffset;
DPRINT_OHCI("OHCI_OpenInterruptEndpoint: ... \n");
ED = (POHCI_HCD_ED)EndpointProperties->BufferVA;
OhciEndpoint->FirstTD = (POHCI_HCD_TD)((ULONG_PTR)ED + sizeof(OHCI_HCD_ED));
Period = EndpointProperties->Period;
ASSERT(Period != 0);
while (!(Period & 1))
{
PeriodIdx++;
Period >>= 1;
}
ASSERT(PeriodIdx < ARRAYSIZE(Index));
ScheduleOffset = EndpointProperties->ScheduleOffset;
DPRINT_OHCI("OHCI_OpenInterruptEndpoint: InitTD. Index[PeriodIdx] - %x, ScheduleOffset - %x\n",
Index[PeriodIdx],
ScheduleOffset);
OhciEndpoint->HeadED = &OhciExtension->IntStaticED[Index[PeriodIdx] +
ScheduleOffset];
//OhciEndpoint->HeadED->UsbBandwidth += EndpointProperties->UsbBandwidth;
OHCI_InitializeTDs(OhciEndpoint, EndpointProperties);
OhciEndpoint->HcdED = OHCI_InitializeED(OhciEndpoint,
ED,
OhciEndpoint->FirstTD,
EndpointProperties->BufferPA);
OHCI_InsertEndpointInSchedule(OhciEndpoint);
return MP_STATUS_SUCCESS;
}
MPSTATUS
NTAPI
OHCI_OpenIsoEndpoint(IN POHCI_EXTENSION OhciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN POHCI_ENDPOINT OhciEndpoint)
{
DPRINT1("OHCI_OpenIsoEndpoint: UNIMPLEMENTED. FIXME\n");
return MP_STATUS_NOT_SUPPORTED;
}
MPSTATUS
NTAPI
OHCI_OpenEndpoint(IN PVOID ohciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN PVOID ohciEndpoint)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
ULONG TransferType;
MPSTATUS MPStatus;
DPRINT_OHCI("OHCI_OpenEndpoint: ... \n");
RtlCopyMemory(&OhciEndpoint->EndpointProperties,
EndpointProperties,
sizeof(OhciEndpoint->EndpointProperties));
InitializeListHead(&OhciEndpoint->TDList);
TransferType = EndpointProperties->TransferType;
switch (TransferType)
{
case USBPORT_TRANSFER_TYPE_ISOCHRONOUS:
MPStatus = OHCI_OpenIsoEndpoint(OhciExtension,
EndpointProperties,
OhciEndpoint);
break;
case USBPORT_TRANSFER_TYPE_CONTROL:
MPStatus = OHCI_OpenControlEndpoint(OhciExtension,
EndpointProperties,
OhciEndpoint);
break;
case USBPORT_TRANSFER_TYPE_BULK:
MPStatus = OHCI_OpenBulkEndpoint(OhciExtension,
EndpointProperties,
OhciEndpoint);
break;
case USBPORT_TRANSFER_TYPE_INTERRUPT:
MPStatus = OHCI_OpenInterruptEndpoint(OhciExtension,
EndpointProperties,
OhciEndpoint);
break;
default:
MPStatus = MP_STATUS_NOT_SUPPORTED;
break;
}
return MPStatus;
}
MPSTATUS
NTAPI
OHCI_ReopenEndpoint(IN PVOID ohciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN PVOID ohciEndpoint)
{
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_ReopenEndpoint: ... \n");
ED = OhciEndpoint->HcdED;
RtlCopyMemory(&OhciEndpoint->EndpointProperties,
EndpointProperties,
sizeof(OhciEndpoint->EndpointProperties));
ED->HwED.EndpointControl.FunctionAddress =
OhciEndpoint->EndpointProperties.DeviceAddress;
ED->HwED.EndpointControl.MaximumPacketSize =
OhciEndpoint->EndpointProperties.TotalMaxPacketSize;
return MP_STATUS_SUCCESS;
}
VOID
NTAPI
OHCI_QueryEndpointRequirements(IN PVOID ohciExtension,
IN PUSBPORT_ENDPOINT_PROPERTIES EndpointProperties,
IN PUSBPORT_ENDPOINT_REQUIREMENTS EndpointRequirements)
{
ULONG TransferType;
DPRINT_OHCI("OHCI_QueryEndpointRequirements: ... \n");
TransferType = EndpointProperties->TransferType;
switch (TransferType)
{
case USBPORT_TRANSFER_TYPE_ISOCHRONOUS:
DPRINT_OHCI("OHCI_QueryEndpointRequirements: IsoTransfer\n");
EndpointRequirements->MaxTransferSize = OHCI_MAX_ISO_TRANSFER_SIZE;
EndpointRequirements->HeaderBufferSize =
sizeof(OHCI_HCD_ED) + OHCI_MAX_ISO_TD_COUNT * sizeof(OHCI_HCD_TD);
break;
case USBPORT_TRANSFER_TYPE_CONTROL:
DPRINT_OHCI("OHCI_QueryEndpointRequirements: ControlTransfer\n");
EndpointRequirements->MaxTransferSize = OHCI_MAX_CONTROL_TRANSFER_SIZE;
EndpointRequirements->HeaderBufferSize =
sizeof(OHCI_HCD_ED) + OHCI_MAX_CONTROL_TD_COUNT * sizeof(OHCI_HCD_TD);
break;
case USBPORT_TRANSFER_TYPE_BULK:
DPRINT_OHCI("OHCI_QueryEndpointRequirements: BulkTransfer\n");
EndpointRequirements->MaxTransferSize = OHCI_MAX_BULK_TRANSFER_SIZE;
EndpointRequirements->HeaderBufferSize =
sizeof(OHCI_HCD_ED) + OHCI_MAX_BULK_TD_COUNT * sizeof(OHCI_HCD_TD);
break;
case USBPORT_TRANSFER_TYPE_INTERRUPT:
DPRINT_OHCI("OHCI_QueryEndpointRequirements: InterruptTransfer\n");
EndpointRequirements->MaxTransferSize = OHCI_MAX_INTERRUPT_TRANSFER_SIZE;
EndpointRequirements->HeaderBufferSize =
sizeof(OHCI_HCD_ED) + OHCI_MAX_INTERRUPT_TD_COUNT * sizeof(OHCI_HCD_TD);
break;
default:
DPRINT1("OHCI_QueryEndpointRequirements: Unknown TransferType - %x\n",
TransferType);
DbgBreakPoint();
break;
}
}
VOID
NTAPI
OHCI_CloseEndpoint(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN BOOLEAN IsDoDisablePeriodic)
{
#if DBG
DPRINT1("OHCI_CloseEndpoint: Not supported\n");
#endif
return;
}
MPSTATUS
NTAPI
OHCI_TakeControlHC(IN POHCI_EXTENSION OhciExtension,
IN PUSBPORT_RESOURCES Resources)
{
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG ControlReg;
PULONG InterruptEnableReg;
PULONG InterruptDisableReg;
PULONG CommandStatusReg;
PULONG InterruptStatusReg;
OHCI_REG_CONTROL Control;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntEnable;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntDisable;
OHCI_REG_COMMAND_STATUS CommandStatus;
OHCI_REG_INTERRUPT_STATUS IntStatus;
LARGE_INTEGER StartTicks, CurrentTicks;
UINT32 TicksDiff;
DPRINT("OHCI_TakeControlHC: ...\n");
OperationalRegs = OhciExtension->OperationalRegs;
ControlReg = (PULONG)&OperationalRegs->HcControl;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
InterruptDisableReg = (PULONG)&OperationalRegs->HcInterruptDisable;
CommandStatusReg = (PULONG)&OperationalRegs->HcCommandStatus;
InterruptStatusReg = (PULONG)&OperationalRegs->HcInterruptStatus;
/* 5.1.1.3 Take Control of Host Controller */
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
if (Control.InterruptRouting == 0)
return MP_STATUS_SUCCESS;
DPRINT1("OHCI_TakeControlHC: detected Legacy BIOS\n");
IntEnable.AsULONG = READ_REGISTER_ULONG(InterruptEnableReg);
DPRINT("OHCI_TakeControlHC: Control - %lX, IntEnable - %lX\n",
Control.AsULONG,
IntEnable.AsULONG);
if (Control.HostControllerFunctionalState == OHCI_HC_STATE_RESET &&
IntEnable.AsULONG == 0)
{
Control.AsULONG = 0;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
return MP_STATUS_SUCCESS;
}
/* Enable interrupt generations */
IntEnable.AsULONG = 0;
IntEnable.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, IntEnable.AsULONG);
/* Request a change of control of the HC */
CommandStatus.AsULONG = 0;
CommandStatus.OwnershipChangeRequest = 1;
WRITE_REGISTER_ULONG(CommandStatusReg, CommandStatus.AsULONG);
/* Disable interrupt generation due to Root Hub Status Change */
IntDisable.AsULONG = 0;
IntDisable.RootHubStatusChange = 1;
WRITE_REGISTER_ULONG(InterruptDisableReg, IntDisable.AsULONG);
/* Monitoring the InterruptRouting bit
to determine when the ownership change has taken effect. */
TicksDiff = (500 * 10000) / KeQueryTimeIncrement(); // 500 ms
KeQueryTickCount(&StartTicks);
do
{
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
if (Control.InterruptRouting == 0)
{
/* Clear all bits in register */
IntStatus.AsULONG = 0xFFFFFFFF;
WRITE_REGISTER_ULONG(InterruptStatusReg, IntStatus.AsULONG);
/* Disable interrupt generations */
IntDisable.AsULONG = 0;
IntDisable.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptDisableReg, IntDisable.AsULONG);
return MP_STATUS_SUCCESS;
}
KeQueryTickCount(&CurrentTicks);
}
while (CurrentTicks.QuadPart - StartTicks.QuadPart < TicksDiff);
return MP_STATUS_HW_ERROR;
}
MPSTATUS
NTAPI
OHCI_StartController(IN PVOID ohciExtension,
IN PUSBPORT_RESOURCES Resources)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG CommandStatusReg;
PULONG FmIntervalReg;
PULONG ControlReg;
PULONG InterruptEnableReg;
PULONG RhStatusReg;
OHCI_REG_COMMAND_STATUS CommandStatus;
OHCI_REG_INTERRUPT_ENABLE_DISABLE Interrupts;
OHCI_REG_RH_STATUS RhStatus;
OHCI_REG_FRAME_INTERVAL FrameInterval;
ULONG MaxFrameIntervalAdjusting;
OHCI_REG_CONTROL Control;
UCHAR HeadIndex;
POHCI_ENDPOINT_DESCRIPTOR IntED;
ULONG_PTR IntEdPA;
POHCI_HCCA OhciHCCA;
LARGE_INTEGER StartTicks, CurrentTicks;
UINT32 TicksDiff;
ULONG ix;
ULONG jx;
MPSTATUS MPStatus = MP_STATUS_SUCCESS;
DPRINT_OHCI("OHCI_StartController: ohciExtension - %p, Resources - %p\n",
ohciExtension,
Resources);
/* HC on-chip operational registers */
OperationalRegs = (POHCI_OPERATIONAL_REGISTERS)Resources->ResourceBase;
OhciExtension->OperationalRegs = OperationalRegs;
CommandStatusReg = (PULONG)&OperationalRegs->HcCommandStatus;
FmIntervalReg = (PULONG)&OperationalRegs->HcFmInterval;
ControlReg = (PULONG)&OperationalRegs->HcControl;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
RhStatusReg = (PULONG)&OperationalRegs->HcRhStatus;
/* 5.1.1 Initialization */
MPStatus = OHCI_TakeControlHC(OhciExtension, Resources);
if (MPStatus != MP_STATUS_SUCCESS)
{
DPRINT1("OHCI_StartController: OHCI_TakeControlHC return MPStatus - %x\n",
MPStatus);
return MPStatus;
}
OhciExtension->HcResourcesVA = (POHCI_HC_RESOURCES)Resources->StartVA;
OhciExtension->HcResourcesPA = Resources->StartPA;
DPRINT_OHCI("OHCI_StartController: HcResourcesVA - %p, HcResourcesPA - %lx\n",
OhciExtension->HcResourcesVA,
OhciExtension->HcResourcesPA);
/* 5.2.7.2 Interrupt */
/* Build structure of interrupt static EDs */
for (ix = 0; ix < INTERRUPT_ENDPOINTs; ix++)
{
IntED = &OhciExtension->HcResourcesVA->InterrruptHeadED[ix];
IntEdPA = OhciExtension->HcResourcesPA + FIELD_OFFSET(OHCI_HC_RESOURCES, InterrruptHeadED[ix]);
if (ix == (ENDPOINT_INTERRUPT_1ms - 1))
{
HeadIndex = ED_EOF;
IntED->NextED = 0;
}
else
{
HeadIndex = ((ix - 1) / 2);
ASSERT(HeadIndex >= (ENDPOINT_INTERRUPT_1ms - 1) &&
HeadIndex < (INTERRUPT_ENDPOINTs - ENDPOINT_INTERRUPT_32ms));
IntED->NextED = OhciExtension->IntStaticED[HeadIndex].PhysicalAddress;
}
IntED->EndpointControl.sKip = 1;
IntED->TailPointer = 0;
IntED->HeadPointer = 0;
OhciExtension->IntStaticED[ix].HwED = IntED;
OhciExtension->IntStaticED[ix].PhysicalAddress = IntEdPA;
OhciExtension->IntStaticED[ix].HeadIndex = HeadIndex;
OhciExtension->IntStaticED[ix].pNextED = &IntED->NextED;
OhciExtension->IntStaticED[ix].Type = OHCI_STATIC_ED_TYPE_INTERRUPT;
InitializeListHead(&OhciExtension->IntStaticED[ix].Link);
}
OhciHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
DPRINT_OHCI("OHCI_InitializeSchedule: OhciHCCA - %p\n", OhciHCCA);
/* Set head pointers which start from HCCA */
for (ix = 0, jx = (INTERRUPT_ENDPOINTs - ENDPOINT_INTERRUPT_32ms);
ix < OHCI_NUMBER_OF_INTERRUPTS;
ix++, jx++)
{
OhciHCCA->InterrruptTable[Balance[ix]] =
OhciExtension->IntStaticED[jx].PhysicalAddress;
OhciExtension->IntStaticED[jx].pNextED =
(PULONG)&OhciHCCA->InterrruptTable[Balance[ix]];
OhciExtension->IntStaticED[jx].HccaIndex = Balance[ix];
}
DPRINT_OHCI("OHCI_InitializeSchedule: ix - %x\n", ix);
/* Init static Control and Bulk EDs head pointers which start from HCCA */
InitializeListHead(&OhciExtension->ControlStaticED.Link);
OhciExtension->ControlStaticED.HeadIndex = ED_EOF;
OhciExtension->ControlStaticED.Type = OHCI_STATIC_ED_TYPE_CONTROL;
OhciExtension->ControlStaticED.pNextED = &OperationalRegs->HcControlHeadED;
InitializeListHead(&OhciExtension->BulkStaticED.Link);
OhciExtension->BulkStaticED.HeadIndex = ED_EOF;
OhciExtension->BulkStaticED.Type = OHCI_STATIC_ED_TYPE_BULK;
OhciExtension->BulkStaticED.pNextED = &OperationalRegs->HcBulkHeadED;
/* 6.3.1 Frame Timing */
FrameInterval.AsULONG = READ_REGISTER_ULONG(FmIntervalReg);
MaxFrameIntervalAdjusting = OHCI_DEFAULT_FRAME_INTERVAL / 10; // 10%
if ((FrameInterval.FrameInterval) < (OHCI_DEFAULT_FRAME_INTERVAL - MaxFrameIntervalAdjusting) ||
(FrameInterval.FrameInterval) > (OHCI_DEFAULT_FRAME_INTERVAL + MaxFrameIntervalAdjusting))
{
FrameInterval.FrameInterval = OHCI_DEFAULT_FRAME_INTERVAL;
}
/* 5.4 FrameInterval Counter */
FrameInterval.FrameIntervalToggle = 1;
/* OHCI_MAXIMUM_OVERHEAD is the maximum overhead per frame */
FrameInterval.FSLargestDataPacket =
((FrameInterval.FrameInterval - OHCI_MAXIMUM_OVERHEAD) * 6) / 7;
OhciExtension->FrameInterval = FrameInterval;
DPRINT_OHCI("OHCI_StartController: FrameInterval - %lX\n",
FrameInterval.AsULONG);
/* Reset HostController */
CommandStatus.AsULONG = 0;
CommandStatus.HostControllerReset = 1;
WRITE_REGISTER_ULONG(CommandStatusReg, CommandStatus.AsULONG);
KeStallExecutionProcessor(25);
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
Control.HostControllerFunctionalState = OHCI_HC_STATE_RESET;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
TicksDiff = (500 * 10000) / KeQueryTimeIncrement(); // 500 ms
KeQueryTickCount(&StartTicks);
while (TRUE)
{
WRITE_REGISTER_ULONG(FmIntervalReg, OhciExtension->FrameInterval.AsULONG);
FrameInterval.AsULONG = READ_REGISTER_ULONG(FmIntervalReg);
KeQueryTickCount(&CurrentTicks);
if (CurrentTicks.QuadPart - StartTicks.QuadPart >= TicksDiff)
{
MPStatus = MP_STATUS_HW_ERROR;
break;
}
if (FrameInterval.AsULONG == OhciExtension->FrameInterval.AsULONG)
{
MPStatus = MP_STATUS_SUCCESS;
break;
}
}
if (MPStatus != MP_STATUS_SUCCESS)
{
DPRINT_OHCI("OHCI_StartController: frame interval not set\n");
return MPStatus;
}
/* Setup HcPeriodicStart register */
WRITE_REGISTER_ULONG(&OperationalRegs->HcPeriodicStart,
(OhciExtension->FrameInterval.FrameInterval * 9) / 10); //90%
/* Setup HcHCCA register */
WRITE_REGISTER_ULONG(&OperationalRegs->HcHCCA,
OhciExtension->HcResourcesPA + FIELD_OFFSET(OHCI_HC_RESOURCES, HcHCCA));
/* Setup HcInterruptEnable register */
Interrupts.AsULONG = 0;
Interrupts.SchedulingOverrun = 1;
Interrupts.WritebackDoneHead = 1;
Interrupts.UnrecoverableError = 1;
Interrupts.FrameNumberOverflow = 1;
Interrupts.OwnershipChange = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, Interrupts.AsULONG);
/* Setup HcControl register */
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
Control.ControlBulkServiceRatio = 0; // FIXME (1 : 1)
Control.PeriodicListEnable = 1;
Control.IsochronousEnable = 1;
Control.ControlListEnable = 1;
Control.BulkListEnable = 1;
Control.HostControllerFunctionalState = OHCI_HC_STATE_OPERATIONAL;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
/* Setup HcRhStatus register */
RhStatus.AsULONG = 0;
RhStatus.SetGlobalPower = 1;
WRITE_REGISTER_ULONG(RhStatusReg, RhStatus.AsULONG);
return MP_STATUS_SUCCESS;
}
VOID
NTAPI
OHCI_StopController(IN PVOID ohciExtension,
IN BOOLEAN IsDoDisableInterrupts)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG ControlReg;
PULONG InterruptDisableReg;
PULONG InterruptStatusReg;
OHCI_REG_CONTROL Control;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntDisable;
OHCI_REG_INTERRUPT_STATUS IntStatus;
DPRINT("OHCI_StopController: ... \n");
OperationalRegs = OhciExtension->OperationalRegs;
ControlReg = (PULONG)&OperationalRegs->HcControl;
InterruptDisableReg = (PULONG)&OperationalRegs->HcInterruptDisable;
InterruptStatusReg = (PULONG)&OperationalRegs->HcInterruptStatus;
/* Setup HcControl register */
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
Control.PeriodicListEnable = 0;
Control.IsochronousEnable = 0;
Control.ControlListEnable = 0;
Control.BulkListEnable = 0;
Control.HostControllerFunctionalState = OHCI_HC_STATE_SUSPEND;
Control.RemoteWakeupEnable = 0;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
/* Disable interrupt generations */
IntDisable.AsULONG = 0xFFFFFFFF;
WRITE_REGISTER_ULONG(InterruptDisableReg, IntDisable.AsULONG);
/* Clear all bits in HcInterruptStatus register */
IntStatus.AsULONG = 0xFFFFFFFF;
WRITE_REGISTER_ULONG(InterruptStatusReg, IntStatus.AsULONG);
}
VOID
NTAPI
OHCI_SuspendController(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG ControlReg;
PULONG InterruptEnableReg;
OHCI_REG_CONTROL Control;
OHCI_REG_INTERRUPT_ENABLE_DISABLE InterruptReg;
DPRINT("OHCI_SuspendController: ... \n");
OperationalRegs = OhciExtension->OperationalRegs;
ControlReg = (PULONG)&OperationalRegs->HcControl;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
/* Disable all interrupt generations */
WRITE_REGISTER_ULONG(&OperationalRegs->HcInterruptDisable.AsULONG,
0xFFFFFFFF);
/* Clear all bits in HcInterruptStatus register */
WRITE_REGISTER_ULONG(&OperationalRegs->HcInterruptStatus.AsULONG,
0xFFFFFFFF);
/* Setup HcControl register */
Control.AsULONG = READ_REGISTER_ULONG(ControlReg);
Control.HostControllerFunctionalState = OHCI_HC_STATE_SUSPEND;
Control.RemoteWakeupEnable = 1;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
/* Setup HcInterruptEnable register */
InterruptReg.AsULONG = 0;
InterruptReg.ResumeDetected = 1;
InterruptReg.UnrecoverableError = 1;
InterruptReg.RootHubStatusChange = 1;
InterruptReg.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, InterruptReg.AsULONG);
}
MPSTATUS
NTAPI
OHCI_ResumeController(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG ControlReg;
PULONG InterruptEnableReg;
POHCI_HCCA HcHCCA;
OHCI_REG_CONTROL control;
OHCI_REG_INTERRUPT_ENABLE_DISABLE InterruptReg;
DPRINT("OHCI_ResumeController \n");
OperationalRegs = OhciExtension->OperationalRegs;
ControlReg = (PULONG)&OperationalRegs->HcControl;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
control.AsULONG = READ_REGISTER_ULONG(ControlReg);
if (control.HostControllerFunctionalState != OHCI_HC_STATE_SUSPEND)
return MP_STATUS_HW_ERROR;
HcHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
HcHCCA->Pad1 = 0;
/* Setup HcControl register */
control.HostControllerFunctionalState = OHCI_HC_STATE_OPERATIONAL;
WRITE_REGISTER_ULONG(ControlReg, control.AsULONG);
/* Setup HcInterruptEnable register */
InterruptReg.AsULONG = 0;
InterruptReg.SchedulingOverrun = 1;
InterruptReg.WritebackDoneHead = 1;
InterruptReg.UnrecoverableError = 1;
InterruptReg.FrameNumberOverflow = 1;
InterruptReg.OwnershipChange = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, InterruptReg.AsULONG);
WRITE_REGISTER_ULONG(ControlReg, control.AsULONG);
return MP_STATUS_SUCCESS;
}
BOOLEAN
NTAPI
OHCI_HardwarePresent(IN POHCI_EXTENSION OhciExtension,
IN BOOLEAN IsInvalidateController)
{
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG CommandStatusReg;
OperationalRegs = OhciExtension->OperationalRegs;
CommandStatusReg = (PULONG)&OperationalRegs->HcCommandStatus;
if (READ_REGISTER_ULONG(CommandStatusReg) != 0xFFFFFFFF)
return TRUE;
DPRINT1("OHCI_HardwarePresent: IsInvalidateController - %x\n",
IsInvalidateController);
if (IsInvalidateController)
{
RegPacket.UsbPortInvalidateController(OhciExtension,
USBPORT_INVALIDATE_CONTROLLER_SURPRISE_REMOVE);
}
return FALSE;
}
BOOLEAN
NTAPI
OHCI_InterruptService(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
OHCI_REG_INTERRUPT_STATUS IntStatus;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntEnable;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntDisable;
BOOLEAN HardwarePresent = FALSE;
DPRINT_OHCI("OHCI_Interrupt: Ext %p\n", OhciExtension);
OperationalRegs = OhciExtension->OperationalRegs;
HardwarePresent = OHCI_HardwarePresent(OhciExtension, FALSE);
if (!HardwarePresent)
return FALSE;
IntEnable.AsULONG = READ_REGISTER_ULONG((PULONG)&OperationalRegs->HcInterruptEnable);
IntStatus.AsULONG = READ_REGISTER_ULONG((PULONG)&OperationalRegs->HcInterruptStatus) & IntEnable.AsULONG;
if ((IntStatus.AsULONG == 0) || (IntEnable.MasterInterruptEnable == 0))
return FALSE;
if (IntStatus.UnrecoverableError)
DPRINT1("OHCI_InterruptService: IntStatus.UnrecoverableError\n");
if (IntStatus.FrameNumberOverflow)
{
POHCI_HCCA HcHCCA;
ULONG fm;
ULONG hp;
HcHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
DPRINT("FrameNumberOverflow %lX\n", HcHCCA->FrameNumber);
hp = OhciExtension->FrameHighPart;
fm = HcHCCA->FrameNumber;
/* Increment value of FrameHighPart */
OhciExtension->FrameHighPart += 1 * (1 << 16) - ((hp ^ fm) & 0x8000);
}
/* Disable interrupt generation */
IntDisable.AsULONG = 0;
IntDisable.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG((PULONG)&OperationalRegs->HcInterruptDisable,
IntDisable.AsULONG);
return TRUE;
}
VOID
NTAPI
OHCI_InterruptDpc(IN PVOID ohciExtension,
IN BOOLEAN IsDoEnableInterrupts)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG InterruptDisableReg;
PULONG InterruptEnableReg;
PULONG InterruptStatusReg;
OHCI_REG_INTERRUPT_STATUS IntStatus;
OHCI_REG_INTERRUPT_ENABLE_DISABLE InterruptBits;
POHCI_HCCA HcHCCA;
OperationalRegs = OhciExtension->OperationalRegs;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
InterruptDisableReg = (PULONG)&OperationalRegs->HcInterruptDisable;
InterruptStatusReg = (PULONG)&OperationalRegs->HcInterruptStatus;
DPRINT_OHCI("OHCI_InterruptDpc: OhciExtension - %p, IsDoEnableInterrupts - %x\n",
OhciExtension,
IsDoEnableInterrupts);
IntStatus.AsULONG = READ_REGISTER_ULONG(InterruptStatusReg);
if (IntStatus.RootHubStatusChange)
{
DPRINT_OHCI("OHCI_InterruptDpc: RootHubStatusChange\n");
RegPacket.UsbPortInvalidateRootHub(OhciExtension);
}
if (IntStatus.WritebackDoneHead)
{
DPRINT_OHCI("OHCI_InterruptDpc: WritebackDoneHead\n");
HcHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
HcHCCA->DoneHead = 0;
RegPacket.UsbPortInvalidateEndpoint(OhciExtension, NULL);
}
if (IntStatus.StartofFrame)
{
/* Disable interrupt generation due to Start of Frame */
InterruptBits.AsULONG = 0;
InterruptBits.StartofFrame = 1;
WRITE_REGISTER_ULONG(InterruptDisableReg, InterruptBits.AsULONG);
}
if (IntStatus.ResumeDetected)
DPRINT1("OHCI_IntDpc: ResumeDetected\n");
if (IntStatus.UnrecoverableError)
{
DPRINT1("OHCI_IntDpc: UnrecoverableError\n");
}
WRITE_REGISTER_ULONG(InterruptStatusReg, IntStatus.AsULONG);
if (IsDoEnableInterrupts)
{
/* Enable interrupt generation */
InterruptBits.AsULONG = 0;
InterruptBits.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, InterruptBits.AsULONG);
}
}
/**
* @brief Forms the next General Transfer Descriptor for the current transfer
*
* @param[in] OhciExtension The ohci extension
* @param[in] TransferedLen The consolidated length of all previous descriptors' buffers
* @param[in] OhciTransfer The ohci transfer
* @param[out] TD The transfer descriptor we are forming
* @param[in] SGList The scatter/gather list
*
* @return The length of all previous buffers summed with the length of the current buffer
*/
static
ULONG
OHCI_MapTransferToTD(IN POHCI_EXTENSION OhciExtension,
IN ULONG TransferedLen,
IN POHCI_TRANSFER OhciTransfer,
OUT POHCI_HCD_TD TD,
IN PUSBPORT_SCATTER_GATHER_LIST SGList)
{
PUSBPORT_SCATTER_GATHER_ELEMENT SgElement;
ULONG SgIdx, CurrentTransferLen, BufferEnd, CurrentBuffer;
ULONG TransferDataLeft = OhciTransfer->TransferParameters->TransferBufferLength - TransferedLen;
DPRINT_OHCI("OHCI_MapTransferToTD: TransferedLen - %x\n", TransferedLen);
for (SgIdx = 0; SgIdx < SGList->SgElementCount; SgIdx++)
{
SgElement = &SGList->SgElement[SgIdx];
if (TransferedLen >= SgElement->SgOffset &&
TransferedLen < SgElement->SgOffset + SgElement->SgTransferLength)
{
break;
}
}
DPRINT_OHCI("OHCI_MapTransferToTD: SgIdx - %x, SgCount - %x\n",
SgIdx,
SGList->SgElementCount);
ASSERT(SgIdx < SGList->SgElementCount);
ASSERT(TransferedLen == SgElement->SgOffset);
/* The buffer for a TD can be 0 to 8192 bytes long,
* and can span within mo more than two 4k pages (see OpenHCI spec 3.3.2)
* CurrentBuffer - the (physical) address of the first byte in the buffer
* BufferEnd - the address of the last byte in the buffer. It can be on a different physical 4k page
* when a controller will reach the end of a page from CurrentBuffer, it will take the first 20 bits
* of the BufferEnd as a next address (OpenHCI spec, 4.3.1.3.1)
*/
CurrentBuffer = SgElement->SgPhysicalAddress.LowPart;
if (TransferDataLeft <= SgElement->SgTransferLength)
{
CurrentTransferLen = TransferDataLeft;
BufferEnd = SgElement->SgPhysicalAddress.LowPart + CurrentTransferLen - 1;
}
else
{
PUSBPORT_SCATTER_GATHER_ELEMENT SgNextElement;
ASSERT(SGList->SgElementCount - SgIdx > 1);
SgNextElement = &SGList->SgElement[SgIdx + 1];
TransferDataLeft -= SgElement->SgTransferLength;
CurrentTransferLen = SgElement->SgTransferLength;
if (TransferDataLeft <= SgNextElement->SgTransferLength)
{
CurrentTransferLen += TransferDataLeft;
BufferEnd = SgNextElement->SgPhysicalAddress.LowPart + TransferDataLeft - 1;
}
else
{
CurrentTransferLen += SgNextElement->SgTransferLength;
BufferEnd = SgNextElement->SgPhysicalAddress.LowPart + SgNextElement->SgTransferLength - 1;
}
}
TD->HwTD.gTD.CurrentBuffer = CurrentBuffer;
TD->HwTD.gTD.BufferEnd = BufferEnd;
TD->TransferLen = CurrentTransferLen;
return TransferedLen + CurrentTransferLen;
}
POHCI_HCD_TD
NTAPI
OHCI_AllocateTD(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_HCD_TD TD;
DPRINT_OHCI("OHCI_AllocateTD: ... \n");
TD = OhciEndpoint->FirstTD;
while (TD->Flags & OHCI_HCD_TD_FLAG_ALLOCATED)
{
TD += 1;
}
TD->Flags |= OHCI_HCD_TD_FLAG_ALLOCATED;
RtlSecureZeroMemory(&TD->HwTD, sizeof(TD->HwTD));
return TD;
}
ULONG
NTAPI
OHCI_RemainTDs(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_HCD_TD TD;
ULONG MaxTDs;
ULONG RemainTDs;
ULONG ix;
DPRINT_OHCI("OHCI_RemainTDs: ... \n");
MaxTDs = OhciEndpoint->MaxTransferDescriptors;
TD = OhciEndpoint->FirstTD;
RemainTDs = 0;
for (ix = 0; ix < MaxTDs; ix++)
{
if (!(TD->Flags & OHCI_HCD_TD_FLAG_ALLOCATED))
RemainTDs++;
TD += 1;
}
return RemainTDs;
}
static
MPSTATUS
OHCI_ControlTransfer(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint,
IN PUSBPORT_TRANSFER_PARAMETERS TransferParameters,
IN POHCI_TRANSFER OhciTransfer,
IN PUSBPORT_SCATTER_GATHER_LIST SGList)
{
POHCI_HCD_TD SetupTD;
POHCI_HCD_TD TD;
POHCI_HCD_TD PrevTD;
ULONG MaxTDs;
ULONG TransferedLen;
UCHAR DataToggle;
DPRINT_OHCI("OHCI_ControlTransfer: Ext %p, Endpoint %p\n",
OhciExtension,
OhciEndpoint);
MaxTDs = OHCI_RemainTDs(OhciExtension, OhciEndpoint);
if ((SGList->SgElementCount + OHCI_NON_DATA_CONTROL_TDS) > MaxTDs)
return MP_STATUS_FAILURE;
/* Form a setup packet first */
SetupTD = OhciEndpoint->HcdTailP;
RtlSecureZeroMemory(&SetupTD->HwTD, sizeof(SetupTD->HwTD));
SetupTD->Flags |= OHCI_HCD_TD_FLAG_PROCESSED;
SetupTD->OhciTransfer = OhciTransfer;
OhciTransfer->PendingTDs++;
RtlCopyMemory(&SetupTD->HwTD.SetupPacket,
&TransferParameters->SetupPacket,
sizeof(SetupTD->HwTD.SetupPacket));
SetupTD->HwTD.gTD.CurrentBuffer = SetupTD->PhysicalAddress + FIELD_OFFSET(OHCI_HCD_TD, HwTD.SetupPacket);
SetupTD->HwTD.gTD.BufferEnd = SetupTD->PhysicalAddress + FIELD_OFFSET(OHCI_HCD_TD, HwTD.SetupPacket) +
sizeof(USB_DEFAULT_PIPE_SETUP_PACKET) - 1;
SetupTD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_NONE;
SetupTD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NOT_ACCESSED;
SetupTD->HwTD.gTD.Control.DataToggle = OHCI_TD_DATA_TOGGLE_DATA0;
PrevTD = SetupTD;
/* Data packets follow a setup packet (if any) */
TD = OHCI_AllocateTD(OhciExtension, OhciEndpoint);
TD->Flags |= OHCI_HCD_TD_FLAG_PROCESSED;
TD->OhciTransfer = OhciTransfer;
PrevTD->HwTD.gTD.NextTD = TD->PhysicalAddress;
PrevTD->NextTDVa = TD;
/* The first data packet should use DATA1, subsequent ones use DATA0 (OpenHCI spec, 4.3.1.3.4) */
DataToggle = OHCI_TD_DATA_TOGGLE_DATA1;
TransferedLen = 0;
while (TransferedLen < TransferParameters->TransferBufferLength)
{
OhciTransfer->PendingTDs++;
if (TransferParameters->TransferFlags & USBD_TRANSFER_DIRECTION_IN)
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_IN;
else
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_OUT;
TD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_NONE;
TD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NOT_ACCESSED;
TD->HwTD.gTD.Control.DataToggle = DataToggle;
TransferedLen = OHCI_MapTransferToTD(OhciExtension,
TransferedLen,
OhciTransfer,
TD,
SGList);
PrevTD = TD;
TD = OHCI_AllocateTD(OhciExtension, OhciEndpoint);
TD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_NONE;
TD->Flags |= OHCI_HCD_TD_FLAG_PROCESSED;
TD->OhciTransfer = OhciTransfer;
PrevTD->HwTD.gTD.NextTD = TD->PhysicalAddress;
PrevTD->NextTDVa = TD;
DataToggle = OHCI_TD_DATA_TOGGLE_DATA0;
}
if (TransferParameters->TransferFlags & USBD_SHORT_TRANSFER_OK)
{
PrevTD->HwTD.gTD.Control.BufferRounding = TRUE;
OhciTransfer->Flags |= OHCI_TRANSFER_FLAGS_SHORT_TRANSFER_OK;
}
/* After data packets, goes a status packet */
TD->Flags |= OHCI_HCD_TD_FLAG_CONTROL_STATUS;
TD->TransferLen = 0;
if ((TransferParameters->TransferFlags & USBD_TRANSFER_DIRECTION_IN) != 0)
{
TD->HwTD.gTD.Control.BufferRounding = FALSE;
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_OUT;
}
else
{
TD->HwTD.gTD.Control.BufferRounding = TRUE;
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_IN;
}
/* OpenHCI spec, 4.3.1.3.4 */
TD->HwTD.gTD.Control.DataToggle = OHCI_TD_DATA_TOGGLE_DATA1;
TD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NOT_ACCESSED;
TD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_IMMEDIATE;
OhciTransfer->PendingTDs++;
OhciTransfer->ControlStatusTD = TD;
PrevTD = TD;
/* And the last descriptor, which is not used in the current transfer (OpenHCI spec, 4.6) */
TD = OHCI_AllocateTD(OhciExtension, OhciEndpoint);
PrevTD->HwTD.gTD.NextTD = TD->PhysicalAddress;
PrevTD->NextTDVa = TD;
TD->NextTDVa = NULL;
/* TD->HwTD.gTD.NextTD = 0; */
OhciTransfer->NextTD = TD;
OhciEndpoint->HcdTailP = TD;
OhciEndpoint->HcdED->HwED.TailPointer = TD->PhysicalAddress;
OHCI_EnableList(OhciExtension, OhciEndpoint);
return MP_STATUS_SUCCESS;
}
static
MPSTATUS
OHCI_BulkOrInterruptTransfer(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint,
IN PUSBPORT_TRANSFER_PARAMETERS TransferParameters,
IN POHCI_TRANSFER OhciTransfer,
IN PUSBPORT_SCATTER_GATHER_LIST SGList)
{
POHCI_HCD_TD TD;
POHCI_HCD_TD PrevTD;
ULONG TransferedLen;
ULONG MaxTDs;
DPRINT_OHCI("OHCI_BulkOrInterruptTransfer: ... \n");
MaxTDs = OHCI_RemainTDs(OhciExtension, OhciEndpoint);
if (SGList->SgElementCount > MaxTDs)
return MP_STATUS_FAILURE;
TD = OhciEndpoint->HcdTailP;
TransferedLen = 0;
do
{
TD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_NONE;
TD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NOT_ACCESSED;
if (TransferParameters->TransferFlags & USBD_TRANSFER_DIRECTION_IN)
{
TD->HwTD.gTD.Control.BufferRounding = FALSE;
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_IN;
}
else
{
TD->HwTD.gTD.Control.BufferRounding = TRUE;
TD->HwTD.gTD.Control.DirectionPID = OHCI_TD_DIRECTION_PID_OUT;
}
TD->Flags |= OHCI_HCD_TD_FLAG_PROCESSED;
TD->OhciTransfer = OhciTransfer;
if (TransferParameters->TransferBufferLength)
{
TransferedLen = OHCI_MapTransferToTD(OhciExtension,
TransferedLen,
OhciTransfer,
TD,
SGList);
}
else
{
ASSERT(SGList->SgElementCount == 0);
TD->TransferLen = 0;
}
PrevTD = TD;
TD = OHCI_AllocateTD(OhciExtension, OhciEndpoint);
OhciTransfer->PendingTDs++;
PrevTD->HwTD.gTD.NextTD = TD->PhysicalAddress;
PrevTD->NextTDVa = TD;
}
while (TransferedLen < TransferParameters->TransferBufferLength);
if (TransferParameters->TransferFlags & USBD_SHORT_TRANSFER_OK)
{
PrevTD->HwTD.gTD.Control.BufferRounding = TRUE;
OhciTransfer->Flags |= OHCI_TRANSFER_FLAGS_SHORT_TRANSFER_OK;
}
PrevTD->HwTD.gTD.Control.DelayInterrupt = OHCI_TD_INTERRUPT_IMMEDIATE;
/* The last TD in a chain is not used in a transfer. The controller does not access it
* so it will be used for chaining a next transfer to it (OpenHCI spec, 4.6)
*/
/* TD->HwTD.gTD.NextTD = 0; */
TD->NextTDVa = NULL;
OhciTransfer->NextTD = TD;
OhciEndpoint->HcdTailP = TD;
OhciEndpoint->HcdED->HwED.TailPointer = TD->PhysicalAddress;
OHCI_EnableList(OhciExtension, OhciEndpoint);
return MP_STATUS_SUCCESS;
}
/**
* @brief Creates the transfer descriptor chain for the given transfer's buffer
* and attaches it to a given endpoint (for control, bulk or interrupt transfers)
*
* @param[in] OhciExtension The ohci extension
* @param[in] OhciEndpoint The ohci endpoint
* @param[in] TransferParameters The transfer parameters
* @param[in] OhciTransfer The ohci transfer
* @param[in] SGList The scatter/gather list
*
* @return MP_STATUS_SUCCESS or MP_STATUS_FAILURE if there are not enough TDs left
* or wrong transfer type given
*/
MPSTATUS
NTAPI
OHCI_SubmitTransfer(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN PUSBPORT_TRANSFER_PARAMETERS TransferParameters,
IN PVOID ohciTransfer,
IN PUSBPORT_SCATTER_GATHER_LIST SGList)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_TRANSFER OhciTransfer = ohciTransfer;
ULONG TransferType;
DPRINT_OHCI("OHCI_SubmitTransfer: ... \n");
RtlZeroMemory(OhciTransfer, sizeof(OHCI_TRANSFER));
OhciTransfer->TransferParameters = TransferParameters;
OhciTransfer->OhciEndpoint = OhciEndpoint;
TransferType = OhciEndpoint->EndpointProperties.TransferType;
if (TransferType == USBPORT_TRANSFER_TYPE_CONTROL)
{
return OHCI_ControlTransfer(OhciExtension,
OhciEndpoint,
TransferParameters,
OhciTransfer,
SGList);
}
if (TransferType == USBPORT_TRANSFER_TYPE_BULK ||
TransferType == USBPORT_TRANSFER_TYPE_INTERRUPT)
{
return OHCI_BulkOrInterruptTransfer(OhciExtension,
OhciEndpoint,
TransferParameters,
OhciTransfer,
SGList);
}
return MP_STATUS_FAILURE;
}
MPSTATUS
NTAPI
OHCI_SubmitIsoTransfer(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN PUSBPORT_TRANSFER_PARAMETERS TransferParameters,
IN PVOID ohciTransfer,
IN PVOID isoParameters)
{
DPRINT1("OHCI_SubmitIsoTransfer: UNIMPLEMENTED. FIXME\n");
return MP_STATUS_SUCCESS;
}
VOID
NTAPI
OHCI_ProcessDoneTD(IN POHCI_EXTENSION OhciExtension,
IN POHCI_HCD_TD TD,
IN BOOLEAN IsPortComplete)
{
POHCI_TRANSFER OhciTransfer;
POHCI_ENDPOINT OhciEndpoint;
ULONG Buffer;
ULONG BufferEnd;
ULONG Length;
DPRINT_OHCI("OHCI_ProcessDoneTD: ... \n");
OhciTransfer = TD->OhciTransfer;
OhciEndpoint = OhciTransfer->OhciEndpoint;
OhciTransfer->PendingTDs--;
Buffer = TD->HwTD.gTD.CurrentBuffer;
BufferEnd = TD->HwTD.gTD.BufferEnd;
if (TD->Flags & OHCI_HCD_TD_FLAG_NOT_ACCESSED)
{
TD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NO_ERROR;
}
else
{
if (TD->HwTD.gTD.CurrentBuffer)
{
if (TD->TransferLen)
{
Length = (BufferEnd & (PAGE_SIZE - 1)) -
(Buffer & (PAGE_SIZE - 1));
Length++;
if (Buffer >> PAGE_SHIFT != BufferEnd >> PAGE_SHIFT)
Length += PAGE_SIZE;
TD->TransferLen -= Length;
}
}
if (TD->HwTD.gTD.Control.DirectionPID != OHCI_TD_DIRECTION_PID_SETUP)
OhciTransfer->TransferLen += TD->TransferLen;
if (TD->HwTD.gTD.Control.ConditionCode)
{
OhciTransfer->USBDStatus = USBD_STATUS_HALTED |
TD->HwTD.gTD.Control.ConditionCode;
}
}
TD->Flags = 0;
TD->HwTD.gTD.NextTD = 0;
TD->OhciTransfer = 0;
TD->DoneLink.Flink = NULL;
TD->DoneLink.Blink = NULL;
if (IsPortComplete && (OhciTransfer->PendingTDs == 0))
{
RegPacket.UsbPortCompleteTransfer(OhciExtension,
OhciEndpoint,
OhciTransfer->TransferParameters,
OhciTransfer->USBDStatus,
OhciTransfer->TransferLen);
}
}
VOID
NTAPI
OHCI_ProcessDoneIsoTD(IN POHCI_EXTENSION OhciExtension,
IN POHCI_HCD_TD TD,
IN BOOLEAN IsPortComplete)
{
DPRINT1("OHCI_ProcessDoneIsoTD: UNIMPLEMENTED. FIXME\n");
}
/**
* @brief Aborts the transfer descriptor chain in a given endpoint
*
* @param[in] ohciExtension The ohci extension
* @param[in] ohciEndpoint The ohci endpoint
* @param[in] ohciTransfer The ohci transfer
2019-08-16 17:37:11 +00:00
* @param[out] CompletedLength
*/
VOID
NTAPI
OHCI_AbortTransfer(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN PVOID ohciTransfer,
IN OUT PULONG CompletedLength)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_TRANSFER OhciTransfer = ohciTransfer;
POHCI_HCD_ED ED = OhciEndpoint->HcdED;
POHCI_HCD_TD TD, NextTD, LastTD;
ULONG ix;
BOOLEAN IsIsoEndpoint;
BOOLEAN IsProcessed = FALSE;
DPRINT("OHCI_AbortTransfer: ohciEndpoint - %p, ohciTransfer - %p\n",
OhciEndpoint,
OhciTransfer);
IsIsoEndpoint = (OhciEndpoint->EndpointProperties.TransferType == USBPORT_TRANSFER_TYPE_ISOCHRONOUS);
NextTD = RegPacket.UsbPortGetMappedVirtualAddress(ED->HwED.HeadPointer & OHCI_ED_HEAD_POINTER_MASK,
OhciExtension,
OhciEndpoint);
if (NextTD->OhciTransfer == OhciTransfer)
{
LastTD = OhciTransfer->NextTD;
/* Keeping the carry bit from previous pointer value */
ED->HwED.HeadPointer = LastTD->PhysicalAddress |
(ED->HwED.HeadPointer & OHCI_ED_HEAD_POINTER_CARRY);
OhciEndpoint->HcdHeadP = LastTD;
for (ix = 0; ix < OhciEndpoint->MaxTransferDescriptors; ix++)
{
TD = &OhciEndpoint->FirstTD[ix];
if (TD->OhciTransfer != OhciTransfer)
continue;
if (IsIsoEndpoint)
OHCI_ProcessDoneIsoTD(OhciExtension, TD, FALSE);
else
OHCI_ProcessDoneTD(OhciExtension, TD, FALSE);
}
*CompletedLength = OhciTransfer->TransferLen;
return;
}
if (NextTD == OhciEndpoint->HcdHeadP)
IsProcessed = TRUE;
for (TD = OhciEndpoint->HcdHeadP; TD != NextTD; TD = TD->NextTDVa)
{
if (TD->OhciTransfer != OhciTransfer)
continue;
if (OhciEndpoint->HcdHeadP == TD)
OhciEndpoint->HcdHeadP = TD->NextTDVa;
if (IsIsoEndpoint)
OHCI_ProcessDoneIsoTD(OhciExtension, TD, FALSE);
else
OHCI_ProcessDoneTD(OhciExtension, TD, FALSE);
IsProcessed = TRUE;
}
if (!IsProcessed)
{
for (TD = OhciEndpoint->HcdHeadP; TD->OhciTransfer != OhciTransfer; TD = TD->NextTDVa)
{
if (TD == OhciEndpoint->HcdTailP)
{
TD = NULL;
break;
}
LastTD = TD;
}
for (; TD->OhciTransfer == OhciTransfer; TD = TD->NextTDVa)
{
if (TD == OhciEndpoint->HcdTailP)
break;
if (IsIsoEndpoint)
OHCI_ProcessDoneIsoTD(OhciExtension, TD, FALSE);
else
OHCI_ProcessDoneTD(OhciExtension, TD, FALSE);
}
LastTD->OhciTransfer->NextTD = TD;
LastTD->NextTDVa = TD;
LastTD->HwTD.gTD.NextTD = TD->PhysicalAddress;
}
*CompletedLength = OhciTransfer->TransferLen;
if (OhciTransfer->TransferLen)
{
DPRINT("OHCI_AbortTransfer: *CompletedLength - %x\n", *CompletedLength);
}
}
ULONG
NTAPI
OHCI_GetEndpointState(IN PVOID ohciExtension,
IN PVOID ohciEndpoint)
{
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_GetEndpointState: ... \n");
ED = OhciEndpoint->HcdED;
if (ED->Flags & OHCI_HCD_TD_FLAG_NOT_ACCESSED)
return USBPORT_ENDPOINT_REMOVE;
if (ED->HwED.EndpointControl.sKip)
return USBPORT_ENDPOINT_PAUSED;
return USBPORT_ENDPOINT_ACTIVE;
}
VOID
NTAPI
OHCI_RemoveEndpointFromSchedule(IN POHCI_ENDPOINT OhciEndpoint)
{
POHCI_HCD_ED ED;
POHCI_HCD_ED PreviousED;
POHCI_STATIC_ED HeadED;
DPRINT_OHCI("OHCI_RemoveEndpointFromSchedule \n");
ED = OhciEndpoint->HcdED;
HeadED = OhciEndpoint->HeadED;
if (&HeadED->Link == ED->HcdEDLink.Blink)
{
if (HeadED->Type == OHCI_STATIC_ED_TYPE_CONTROL ||
HeadED->Type == OHCI_STATIC_ED_TYPE_BULK)
{
WRITE_REGISTER_ULONG(HeadED->pNextED, ED->HwED.NextED);
}
else if (HeadED->Type == OHCI_STATIC_ED_TYPE_INTERRUPT)
{
*HeadED->pNextED = ED->HwED.NextED;
}
else
{
DPRINT1("OHCI_RemoveEndpointFromSchedule: Unknown HeadED->Type - %x\n",
HeadED->Type);
DbgBreakPoint();
}
}
else
{
PreviousED = CONTAINING_RECORD(ED->HcdEDLink.Blink,
OHCI_HCD_ED,
HcdEDLink);
PreviousED->HwED.NextED = ED->HwED.NextED;
}
RemoveEntryList(&ED->HcdEDLink);
OhciEndpoint->HeadED = NULL;
}
VOID
NTAPI
OHCI_SetEndpointState(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN ULONG EndpointState)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_SetEndpointState: EndpointState - %x\n",
EndpointState);
ED = OhciEndpoint->HcdED;
switch (EndpointState)
{
case USBPORT_ENDPOINT_PAUSED:
ED->HwED.EndpointControl.sKip = 1;
break;
case USBPORT_ENDPOINT_ACTIVE:
ED->HwED.EndpointControl.sKip = 0;
OHCI_EnableList(OhciExtension, OhciEndpoint);
break;
case USBPORT_ENDPOINT_REMOVE:
ED->HwED.EndpointControl.sKip = 1;
ED->Flags |= OHCI_HCD_ED_FLAG_NOT_ACCESSED;
OHCI_RemoveEndpointFromSchedule(OhciEndpoint);
break;
default:
ASSERT(FALSE);
break;
}
}
VOID
NTAPI
OHCI_PollAsyncEndpoint(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint)
{
PUSBPORT_TRANSFER_PARAMETERS TransferParameters;
POHCI_HCD_ED ED;
ULONG_PTR NextTdPA;
POHCI_HCD_TD NextTD;
POHCI_HCD_TD TD;
PLIST_ENTRY DoneList;
POHCI_TRANSFER OhciTransfer;
POHCI_HCD_TD ControlStatusTD;
ULONG_PTR PhysicalAddress;
ULONG TransferNumber;
POHCI_TRANSFER transfer;
UCHAR ConditionCode;
BOOLEAN IsResetOnHalt = FALSE;
//DPRINT_OHCI("OHCI_PollAsyncEndpoint: Endpoint - %p\n", OhciEndpoint);
ED = OhciEndpoint->HcdED;
NextTdPA = ED->HwED.HeadPointer & OHCI_ED_HEAD_POINTER_MASK;
if (!NextTdPA)
{
OHCI_DumpHcdED(ED);
DbgBreakPoint();
}
NextTD = RegPacket.UsbPortGetMappedVirtualAddress(NextTdPA,
OhciExtension,
OhciEndpoint);
DPRINT_OHCI("NextTD - %p\n", NextTD);
if ((ED->HwED.HeadPointer & OHCI_ED_HEAD_POINTER_HALT) == 0)
goto ProcessListTDs;
OHCI_DumpHcdED(ED);
IsResetOnHalt = (ED->Flags & OHCI_HCD_ED_FLAG_RESET_ON_HALT) != 0;
DPRINT1("PollAsyncEndpoint: IsResetOnHalt %x\n", IsResetOnHalt);
for (TD = OhciEndpoint->HcdHeadP; ; TD = TD->NextTDVa)
{
if (!TD)
{
OHCI_DumpHcdED(ED);
DbgBreakPoint();
}
if (TD == NextTD)
{
DPRINT("TD == NextTD - %p\n", TD);
goto HandleDoneList;
}
OhciTransfer = TD->OhciTransfer;
ConditionCode = TD->HwTD.gTD.Control.ConditionCode;
DPRINT("TD - %p, ConditionCode - %X\n", TD, ConditionCode);
OHCI_DumpHcdTD(TD);
switch (ConditionCode)
{
case OHCI_TD_CONDITION_NO_ERROR:
TD->Flags |= OHCI_HCD_TD_FLAG_DONE;
InsertTailList(&OhciEndpoint->TDList, &TD->DoneLink);
continue;
case OHCI_TD_CONDITION_NOT_ACCESSED:
TD->Flags |= (OHCI_HCD_TD_FLAG_DONE | OHCI_HCD_TD_FLAG_NOT_ACCESSED);
InsertTailList(&OhciEndpoint->TDList, &TD->DoneLink);
continue;
case OHCI_TD_CONDITION_DATA_UNDERRUN:
DPRINT1("DATA_UNDERRUN. Transfer->Flags - %X\n", OhciTransfer->Flags);
if (OhciTransfer->Flags & OHCI_TRANSFER_FLAGS_SHORT_TRANSFER_OK)
{
IsResetOnHalt = TRUE;
TD->HwTD.gTD.Control.ConditionCode = OHCI_TD_CONDITION_NO_ERROR;
ControlStatusTD = OhciTransfer->ControlStatusTD;
if ((TD->Flags & OHCI_HCD_TD_FLAG_CONTROL_STATUS) == 0 &&
ControlStatusTD)
{
PhysicalAddress = ControlStatusTD->PhysicalAddress;
PhysicalAddress |= (ED->HwED.HeadPointer &
OHCI_ED_HEAD_POINTER_FLAGS_MASK);
ED->HwED.HeadPointer = PhysicalAddress;
NextTD = OhciTransfer->ControlStatusTD;
DPRINT("PhysicalAddress - %p, NextTD - %p\n", PhysicalAddress, NextTD);
}
else
{
TransferParameters = OhciTransfer->TransferParameters;
if (TransferParameters->IsTransferSplited)
{
TransferNumber = TransferParameters->TransferCounter;
transfer = OhciTransfer;
do
{
transfer = transfer->NextTD->OhciTransfer;
NextTD = transfer->NextTD;
}
while (transfer && TransferNumber ==
transfer->TransferParameters->TransferCounter);
PhysicalAddress = NextTD->PhysicalAddress;
PhysicalAddress |= (ED->HwED.HeadPointer &
OHCI_ED_HEAD_POINTER_FLAGS_MASK);
ED->HwED.HeadPointer = PhysicalAddress;
DPRINT("PhysicalAddress - %p, NextTD - %p\n", PhysicalAddress, NextTD);
}
else
{
PhysicalAddress = OhciTransfer->NextTD->PhysicalAddress;
PhysicalAddress |= (ED->HwED.HeadPointer &
OHCI_ED_HEAD_POINTER_FLAGS_MASK);
ED->HwED.HeadPointer = PhysicalAddress;
NextTD = OhciTransfer->NextTD;
DPRINT("PhysicalAddress - %p, NextTD - %p\n", PhysicalAddress, NextTD);
}
}
TD->Flags |= OHCI_HCD_TD_FLAG_DONE;
InsertTailList(&OhciEndpoint->TDList, &TD->DoneLink);
continue;
}
/* fall through */
default:
TD->Flags |= OHCI_HCD_TD_FLAG_DONE;
InsertTailList(&OhciEndpoint->TDList, &TD->DoneLink);
ED->HwED.HeadPointer = OhciTransfer->NextTD->PhysicalAddress |
(ED->HwED.HeadPointer &
OHCI_ED_HEAD_POINTER_FLAGS_MASK);
NextTD = OhciTransfer->NextTD;
break;
}
}
ProcessListTDs:
TD = OhciEndpoint->HcdHeadP;
while (TD != NextTD)
{
OHCI_DumpHcdTD(TD);
TD->Flags |= OHCI_HCD_TD_FLAG_DONE;
InsertTailList(&OhciEndpoint->TDList, &TD->DoneLink);
TD = TD->NextTDVa;
}
HandleDoneList:
TD = NextTD;
OhciEndpoint->HcdHeadP = NextTD;
DoneList = &OhciEndpoint->TDList;
while (!IsListEmpty(DoneList))
{
TD = CONTAINING_RECORD(DoneList->Flink,
OHCI_HCD_TD,
DoneLink);
RemoveHeadList(DoneList);
if (TD->Flags & OHCI_HCD_TD_FLAG_DONE &&
TD->Flags & OHCI_HCD_TD_FLAG_PROCESSED)
{
OHCI_ProcessDoneTD(OhciExtension, TD, TRUE);
}
}
if (IsResetOnHalt)
{
ED->HwED.HeadPointer &= ~OHCI_ED_HEAD_POINTER_HALT;
DPRINT("ED->HwED.HeadPointer - %p\n", ED->HwED.HeadPointer);
}
}
VOID
NTAPI
OHCI_PollIsoEndpoint(IN POHCI_EXTENSION OhciExtension,
IN POHCI_ENDPOINT OhciEndpoint)
{
DPRINT1("OHCI_PollAsyncEndpoint: UNIMPLEMENTED. FIXME \n");
ASSERT(FALSE);
}
VOID
NTAPI
OHCI_PollEndpoint(IN PVOID ohciExtension,
IN PVOID ohciEndpoint)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
ULONG TransferType;
DPRINT_OHCI("OHCI_PollEndpoint: OhciExtension - %p, Endpoint - %p\n",
OhciExtension,
OhciEndpoint);
TransferType = OhciEndpoint->EndpointProperties.TransferType;
if (TransferType == USBPORT_TRANSFER_TYPE_ISOCHRONOUS)
{
OHCI_PollIsoEndpoint(OhciExtension, OhciEndpoint);
return;
}
if (TransferType == USBPORT_TRANSFER_TYPE_CONTROL ||
TransferType == USBPORT_TRANSFER_TYPE_BULK ||
TransferType == USBPORT_TRANSFER_TYPE_INTERRUPT)
{
OHCI_PollAsyncEndpoint(OhciExtension, OhciEndpoint);
}
}
VOID
NTAPI
OHCI_CheckController(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG HcControlReg;
OHCI_REG_CONTROL HcControl;
ULONG FmNumber;
USHORT FmDiff;
POHCI_HCCA HcHCCA;
//DPRINT_OHCI("OHCI_CheckController: ...\n");
OperationalRegs = OhciExtension->OperationalRegs;
if (!OHCI_HardwarePresent(OhciExtension, TRUE))
return;
HcControlReg = (PULONG)&OperationalRegs->HcControl;
HcControl.AsULONG = READ_REGISTER_ULONG(HcControlReg);
if (HcControl.HostControllerFunctionalState != OHCI_HC_STATE_OPERATIONAL)
return;
FmNumber = READ_REGISTER_ULONG(&OperationalRegs->HcFmNumber);
FmDiff = (USHORT)(FmNumber - OhciExtension->HcdFmNumber);
if (FmNumber == 0 || FmDiff < 5)
return;
HcHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
OhciExtension->HcdFmNumber = FmNumber;
if (HcHCCA->Pad1 == 0)
{
HcHCCA->Pad1 = 0xBAD1;
return;
}
DPRINT1("OHCI_CheckController: HcHCCA->Pad1 - %x\n", HcHCCA->Pad1);
if (HcHCCA->Pad1 == 0xBAD1)
{
HcHCCA->Pad1 = 0xBAD2;
}
else if (HcHCCA->Pad1 == 0xBAD2)
{
HcHCCA->Pad1 = 0xBAD3;
RegPacket.UsbPortInvalidateController(OhciExtension,
USBPORT_INVALIDATE_CONTROLLER_RESET);
}
}
ULONG
NTAPI
OHCI_Get32BitFrameNumber(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_HCCA HcHCCA;
ULONG fm;
ULONG hp;
HcHCCA = &OhciExtension->HcResourcesVA->HcHCCA;
/* 5.4 FrameInterval Counter: Get32BitFrameNumber() */
hp = OhciExtension->FrameHighPart;
fm = HcHCCA->FrameNumber;
DPRINT_OHCI("OHCI_Get32BitFrameNumber: hp - %lX, fm - %lX\n", hp, fm);
return ((fm & 0x7FFF) | hp) + ((fm ^ hp) & 0x8000);
}
VOID
NTAPI
OHCI_InterruptNextSOF(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG InterruptEnableReg;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntEnable;
DPRINT_OHCI("OHCI_InterruptNextSOF: OhciExtension - %p\n",
OhciExtension);
OperationalRegs = OhciExtension->OperationalRegs;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
/* Enable interrupt generation due to Start of Frame */
IntEnable.AsULONG = 0;
IntEnable.StartofFrame = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, IntEnable.AsULONG);
}
VOID
NTAPI
OHCI_EnableInterrupts(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG InterruptEnableReg;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntEnable;
DPRINT_OHCI("OHCI_EnableInterrupts: OhciExtension - %p\n",
OhciExtension);
OperationalRegs = OhciExtension->OperationalRegs;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
/* Enable interrupt generation */
IntEnable.AsULONG = 0;
IntEnable.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptEnableReg, IntEnable.AsULONG);
}
VOID
NTAPI
OHCI_DisableInterrupts(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
PULONG InterruptDisableReg;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntDisable;
DPRINT_OHCI("OHCI_DisableInterrupts\n");
OperationalRegs = OhciExtension->OperationalRegs;
InterruptDisableReg = (PULONG)&OperationalRegs->HcInterruptDisable;
/* Disable interrupt generation */
IntDisable.AsULONG = 0;
IntDisable.MasterInterruptEnable = 1;
WRITE_REGISTER_ULONG(InterruptDisableReg, IntDisable.AsULONG);
}
VOID
NTAPI
OHCI_PollController(IN PVOID ohciExtension)
{
DPRINT1("OHCI_PollController: UNIMPLEMENTED. FIXME\n");
}
VOID
NTAPI
OHCI_SetEndpointDataToggle(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN ULONG DataToggle)
{
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_SetEndpointDataToggle: Endpoint - %p, DataToggle - %x\n",
OhciEndpoint,
DataToggle);
ED = OhciEndpoint->HcdED;
if (DataToggle)
ED->HwED.HeadPointer |= OHCI_ED_HEAD_POINTER_CARRY;
else
ED->HwED.HeadPointer &= ~OHCI_ED_HEAD_POINTER_CARRY;
}
ULONG
NTAPI
OHCI_GetEndpointStatus(IN PVOID ohciExtension,
IN PVOID ohciEndpoint)
{
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
ULONG EndpointStatus = USBPORT_ENDPOINT_RUN;
DPRINT_OHCI("OHCI_GetEndpointStatus: ... \n");
ED = OhciEndpoint->HcdED;
if ((ED->HwED.HeadPointer & OHCI_ED_HEAD_POINTER_HALT) &&
!(ED->Flags & OHCI_HCD_ED_FLAG_RESET_ON_HALT))
{
EndpointStatus = USBPORT_ENDPOINT_HALT;
}
return EndpointStatus;
}
VOID
NTAPI
OHCI_SetEndpointStatus(IN PVOID ohciExtension,
IN PVOID ohciEndpoint,
IN ULONG EndpointStatus)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_ENDPOINT OhciEndpoint = ohciEndpoint;
POHCI_HCD_ED ED;
DPRINT_OHCI("OHCI_SetEndpointStatus: Endpoint - %p, EndpointStatus - %lX\n",
OhciEndpoint,
EndpointStatus);
if (EndpointStatus == USBPORT_ENDPOINT_RUN)
{
ED = OhciEndpoint->HcdED;
ED->HwED.HeadPointer &= ~OHCI_ED_HEAD_POINTER_HALT;
OHCI_EnableList(OhciExtension, OhciEndpoint);
}
else if (EndpointStatus == USBPORT_ENDPOINT_HALT)
{
ASSERT(FALSE);
}
}
VOID
NTAPI
OHCI_ResetController(IN PVOID ohciExtension)
{
POHCI_EXTENSION OhciExtension = ohciExtension;
POHCI_OPERATIONAL_REGISTERS OperationalRegs;
ULONG FrameNumber;
PULONG ControlReg;
PULONG CommandStatusReg;
PULONG InterruptEnableReg;
PULONG FmIntervalReg;
PULONG RhStatusReg;
PULONG PortStatusReg;
OHCI_REG_CONTROL ControlBak;
OHCI_REG_CONTROL Control;
OHCI_REG_COMMAND_STATUS CommandStatus;
OHCI_REG_INTERRUPT_ENABLE_DISABLE IntEnable;
ULONG_PTR HCCA;
ULONG_PTR ControlHeadED;
ULONG_PTR BulkHeadED;
OHCI_REG_FRAME_INTERVAL FrameInterval;
ULONG_PTR PeriodicStart;
ULONG_PTR LSThreshold;
OHCI_REG_RH_STATUS RhStatus;
OHCI_REG_RH_DESCRIPTORA RhDescriptorA;
OHCI_REG_RH_PORT_STATUS PortStatus;
ULONG NumPorts;
ULONG ix;
DPRINT("OHCI_ResetController: ... \n");
OperationalRegs = OhciExtension->OperationalRegs;
ControlReg = (PULONG)&OperationalRegs->HcControl;
CommandStatusReg = (PULONG)&OperationalRegs->HcCommandStatus;
InterruptEnableReg = (PULONG)&OperationalRegs->HcInterruptEnable;
FmIntervalReg = (PULONG)&OperationalRegs->HcFmInterval;
RhStatusReg = (PULONG)&OperationalRegs->HcRhStatus;
/* Backup FrameNumber from HcHCCA */
FrameNumber = OhciExtension->HcResourcesVA->HcHCCA.FrameNumber;
/* Backup registers */
ControlBak.AsULONG = READ_REGISTER_ULONG(ControlReg);
HCCA = READ_REGISTER_ULONG(&OperationalRegs->HcHCCA);
ControlHeadED = READ_REGISTER_ULONG(&OperationalRegs->HcControlHeadED);
BulkHeadED = READ_REGISTER_ULONG(&OperationalRegs->HcBulkHeadED);
FrameInterval.AsULONG = READ_REGISTER_ULONG(FmIntervalReg);
PeriodicStart = READ_REGISTER_ULONG(&OperationalRegs->HcPeriodicStart);
LSThreshold = READ_REGISTER_ULONG(&OperationalRegs->HcLSThreshold);
/* Reset HostController */
CommandStatus.AsULONG = 0;
CommandStatus.HostControllerReset = 1;
WRITE_REGISTER_ULONG(CommandStatusReg, CommandStatus.AsULONG);
KeStallExecutionProcessor(10);
/* Restore registers */
WRITE_REGISTER_ULONG(&OperationalRegs->HcHCCA, HCCA);
WRITE_REGISTER_ULONG(&OperationalRegs->HcControlHeadED, ControlHeadED);
WRITE_REGISTER_ULONG(&OperationalRegs->HcBulkHeadED, BulkHeadED);
/* Set OPERATIONAL state for HC */
Control.AsULONG = 0;
Control.HostControllerFunctionalState = OHCI_HC_STATE_OPERATIONAL;
WRITE_REGISTER_ULONG(ControlReg, Control.AsULONG);
/* Set Toggle bit for FmInterval register */
FrameInterval.FrameIntervalToggle = 1;
WRITE_REGISTER_ULONG(FmIntervalReg, FrameInterval.AsULONG);
/* Restore registers */
WRITE_REGISTER_ULONG(&OperationalRegs->HcFmNumber, FrameNumber);
WRITE_REGISTER_ULONG(&OperationalRegs->HcPeriodicStart, PeriodicStart);
WRITE_REGISTER_ULONG(&OperationalRegs->HcLSThreshold, LSThreshold);
/* Setup RhStatus register */
RhStatus.AsULONG = 0;
RhStatus.SetRemoteWakeupEnable = 1;
RhStatus.SetGlobalPower = 1;
WRITE_REGISTER_ULONG(RhStatusReg, RhStatus.AsULONG);
/* Setup RH PortStatus registers */
RhDescriptorA = OHCI_ReadRhDescriptorA(OhciExtension);
NumPorts = RhDescriptorA.NumberDownstreamPorts;
PortStatus.AsULONG = 0;
PortStatus.SetPortPower = 1;
for (ix = 0; ix < NumPorts; ix++)
{
PortStatusReg = (PULONG)&OperationalRegs->HcRhPortStatus[ix];
WRITE_REGISTER_ULONG(PortStatusReg, PortStatus.AsULONG);
}
/* Restore HcControl register */
ControlBak.HostControllerFunctionalState = OHCI_HC_STATE_OPERATIONAL;
WRITE_REGISTER_ULONG(ControlReg, ControlBak.AsULONG);
/* Setup HcInterruptEnable register */
IntEnable.AsULONG = 0xFFFFFFFF;
IntEnable.Reserved1 = 0;
WRITE_REGISTER_ULONG(InterruptEnableReg, IntEnable.AsULONG);
}
MPSTATUS
NTAPI
OHCI_StartSendOnePacket(IN PVOID ohciExtension,
IN PVOID PacketParameters,
IN PVOID Data,
IN PULONG pDataLength,
IN PVOID BufferVA,
IN PVOID BufferPA,
IN ULONG BufferLength,
IN USBD_STATUS * pUSBDStatus)
{
DPRINT1("OHCI_StartSendOnePacket: UNIMPLEMENTED. FIXME\n");
return MP_STATUS_SUCCESS;
}
MPSTATUS
NTAPI
OHCI_EndSendOnePacket(IN PVOID ohciExtension,
IN PVOID PacketParameters,
IN PVOID Data,
IN PULONG pDataLength,
IN PVOID BufferVA,
IN PVOID BufferPA,
IN ULONG BufferLength,
IN USBD_STATUS * pUSBDStatus)
{
DPRINT1("OHCI_EndSendOnePacket: UNIMPLEMENTED. FIXME\n");
return MP_STATUS_SUCCESS;
}
MPSTATUS
NTAPI
OHCI_PassThru(IN PVOID ohciExtension,
IN PVOID passThruParameters,
IN ULONG ParameterLength,
IN PVOID pParameters)
{
DPRINT1("OHCI_PassThru: UNIMPLEMENTED. FIXME\n");
return MP_STATUS_SUCCESS;
}
VOID
NTAPI
OHCI_Unload(IN PDRIVER_OBJECT DriverObject)
{
#if DBG
DPRINT1("OHCI_Unload: Not supported\n");
#endif
return;
}
VOID
NTAPI
OHCI_FlushInterrupts(IN PVOID uhciExtension)
{
#if DBG
DPRINT1("OHCI_FlushInterrupts: Not supported\n");
#endif
return;
}
NTSTATUS
NTAPI
DriverEntry(IN PDRIVER_OBJECT DriverObject,
IN PUNICODE_STRING RegistryPath)
{
NTSTATUS Status;
DPRINT_OHCI("DriverEntry: DriverObject - %p, RegistryPath - %wZ\n",
DriverObject,
RegistryPath);
RtlZeroMemory(&RegPacket, sizeof(USBPORT_REGISTRATION_PACKET));
RegPacket.MiniPortVersion = USB_MINIPORT_VERSION_OHCI;
RegPacket.MiniPortFlags = USB_MINIPORT_FLAGS_INTERRUPT |
USB_MINIPORT_FLAGS_MEMORY_IO;
RegPacket.MiniPortBusBandwidth = TOTAL_USB11_BUS_BANDWIDTH;
RegPacket.MiniPortExtensionSize = sizeof(OHCI_EXTENSION);
RegPacket.MiniPortEndpointSize = sizeof(OHCI_ENDPOINT);
RegPacket.MiniPortTransferSize = sizeof(OHCI_TRANSFER);
RegPacket.MiniPortResourcesSize = sizeof(OHCI_HC_RESOURCES);
RegPacket.OpenEndpoint = OHCI_OpenEndpoint;
RegPacket.ReopenEndpoint = OHCI_ReopenEndpoint;
RegPacket.QueryEndpointRequirements = OHCI_QueryEndpointRequirements;
RegPacket.CloseEndpoint = OHCI_CloseEndpoint;
RegPacket.StartController = OHCI_StartController;
RegPacket.StopController = OHCI_StopController;
RegPacket.SuspendController = OHCI_SuspendController;
RegPacket.ResumeController = OHCI_ResumeController;
RegPacket.InterruptService = OHCI_InterruptService;
RegPacket.InterruptDpc = OHCI_InterruptDpc;
RegPacket.SubmitTransfer = OHCI_SubmitTransfer;
RegPacket.SubmitIsoTransfer = OHCI_SubmitIsoTransfer;
RegPacket.AbortTransfer = OHCI_AbortTransfer;
RegPacket.GetEndpointState = OHCI_GetEndpointState;
RegPacket.SetEndpointState = OHCI_SetEndpointState;
RegPacket.PollEndpoint = OHCI_PollEndpoint;
RegPacket.CheckController = OHCI_CheckController;
RegPacket.Get32BitFrameNumber = OHCI_Get32BitFrameNumber;
RegPacket.InterruptNextSOF = OHCI_InterruptNextSOF;
RegPacket.EnableInterrupts = OHCI_EnableInterrupts;
RegPacket.DisableInterrupts = OHCI_DisableInterrupts;
RegPacket.PollController = OHCI_PollController;
RegPacket.SetEndpointDataToggle = OHCI_SetEndpointDataToggle;
RegPacket.GetEndpointStatus = OHCI_GetEndpointStatus;
RegPacket.SetEndpointStatus = OHCI_SetEndpointStatus;
RegPacket.ResetController = OHCI_ResetController;
RegPacket.RH_GetRootHubData = OHCI_RH_GetRootHubData;
RegPacket.RH_GetStatus = OHCI_RH_GetStatus;
RegPacket.RH_GetPortStatus = OHCI_RH_GetPortStatus;
RegPacket.RH_GetHubStatus = OHCI_RH_GetHubStatus;
RegPacket.RH_SetFeaturePortReset = OHCI_RH_SetFeaturePortReset;
RegPacket.RH_SetFeaturePortPower = OHCI_RH_SetFeaturePortPower;
RegPacket.RH_SetFeaturePortEnable = OHCI_RH_SetFeaturePortEnable;
RegPacket.RH_SetFeaturePortSuspend = OHCI_RH_SetFeaturePortSuspend;
RegPacket.RH_ClearFeaturePortEnable = OHCI_RH_ClearFeaturePortEnable;
RegPacket.RH_ClearFeaturePortPower = OHCI_RH_ClearFeaturePortPower;
RegPacket.RH_ClearFeaturePortSuspend = OHCI_RH_ClearFeaturePortSuspend;
RegPacket.RH_ClearFeaturePortEnableChange = OHCI_RH_ClearFeaturePortEnableChange;
RegPacket.RH_ClearFeaturePortConnectChange = OHCI_RH_ClearFeaturePortConnectChange;
RegPacket.RH_ClearFeaturePortResetChange = OHCI_RH_ClearFeaturePortResetChange;
RegPacket.RH_ClearFeaturePortSuspendChange = OHCI_RH_ClearFeaturePortSuspendChange;
RegPacket.RH_ClearFeaturePortOvercurrentChange = OHCI_RH_ClearFeaturePortOvercurrentChange;
RegPacket.RH_DisableIrq = OHCI_RH_DisableIrq;
RegPacket.RH_EnableIrq = OHCI_RH_EnableIrq;
RegPacket.StartSendOnePacket = OHCI_StartSendOnePacket;
RegPacket.EndSendOnePacket = OHCI_EndSendOnePacket;
RegPacket.PassThru = OHCI_PassThru;
RegPacket.FlushInterrupts = OHCI_FlushInterrupts;
DriverObject->DriverUnload = OHCI_Unload;
Status = USBPORT_RegisterUSBPortDriver(DriverObject,
USB10_MINIPORT_INTERFACE_VERSION,
&RegPacket);
DPRINT_OHCI("DriverEntry: USBPORT_RegisterUSBPortDriver return Status - %x\n",
Status);
return Status;
}