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reactos/drivers/network/dd/nvnet/interrupt.c

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[NVNET] Add driver for nForce-based NICs The driver supports all nVidia chipset models from 2001 until 2010, starting from nForce. All NICs are compatible with x86 and amd64 devices only. Tested by Daniel Reimer on OG Xbox and by me on MCP board. CORE-15872 CORE-16216
2021-07-24 18:53:39 +00:00
/*
* PROJECT: ReactOS nVidia nForce Ethernet Controller Driver
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* PURPOSE: Interrupt handling
* COPYRIGHT: Copyright 2021-2022 Dmitry Borisov <di.sean@protonmail.com>
*/
/* INCLUDES *******************************************************************/
#include "nvnet.h"
#define NDEBUG
#include "debug.h"
/* FUNCTIONS ******************************************************************/
ULONG
ProcessTransmitDescriptorsLegacy(
_In_ PNVNET_ADAPTER Adapter,
_Inout_ PLIST_ENTRY SendReadyList)
{
PNVNET_TCB Tcb = Adapter->Send.LastTcb;
ULONG TcbProcessed = 0;
while (Tcb != Adapter->Send.CurrentTcb)
{
NVNET_TBD Tbd = Tcb->Tbd;
ULONG Flags = Tbd.x32->FlagsLength;
if (Flags & NV_TX_VALID)
break;
NDIS_DbgPrint(MIN_TRACE, ("Packet transmitted (flags %lx)\n",
Flags & FLAG_MASK_V1));
if (Flags & NV_TX_ERROR)
{
++Adapter->Statistics.TransmitErrors;
if (Flags & NV_TX_UNDERFLOW)
++Adapter->Statistics.TransmitUnderrunErrors;
if (Flags & NV_TX_LATECOLLISION)
++Adapter->Statistics.TransmitLateCollisions;
if (Flags & NV_TX_CARRIERLOST)
++Adapter->Statistics.TransmitLostCarrierSense;
if (Flags & NV_TX_RETRYERROR)
{
++Adapter->Statistics.TransmitExcessiveCollisions;
if (!(Flags & NV_TX_RETRYCOUNT_MASK))
{
NvNetBackoffReseed(Adapter);
}
}
}
else
{
++Adapter->Statistics.TransmitOk;
if (Flags & NV_TX_DEFERRED)
{
++Adapter->Statistics.TransmitDeferred;
}
if (!(Flags & NV_TX_RETRYCOUNT_MASK))
++Adapter->Statistics.TransmitZeroRetry;
else if ((Flags & NV_TX_RETRYCOUNT_MASK) == NV_TX_ONE_RETRY)
++Adapter->Statistics.TransmitOneRetry;
}
InsertTailList(SendReadyList, PACKET_ENTRY(Tcb->Packet));
NV_RELEASE_TCB(Adapter, Tcb);
++TcbProcessed;
Tcb = NV_NEXT_TCB(Adapter, Tcb);
}
Adapter->Send.LastTcb = Tcb;
return TcbProcessed;
}
ULONG
ProcessTransmitDescriptors32(
_In_ PNVNET_ADAPTER Adapter,
_Inout_ PLIST_ENTRY SendReadyList)
{
PNVNET_TCB Tcb = Adapter->Send.LastTcb;
ULONG TcbProcessed = 0;
while (Tcb != Adapter->Send.CurrentTcb)
{
NVNET_TBD Tbd = Tcb->Tbd;
ULONG Flags = Tbd.x32->FlagsLength;
if (Flags & NV_TX_VALID)
break;
NDIS_DbgPrint(MIN_TRACE, ("Packet transmitted (flags %lx)\n",
Flags & FLAG_MASK_V2));
if (Flags & NV_TX2_ERROR)
{
if ((Flags & NV_TX2_RETRYERROR) && !(Flags & NV_TX2_RETRYCOUNT_MASK))
{
if (Adapter->Features & DEV_HAS_GEAR_MODE)
NvNetBackoffReseedEx(Adapter);
else
NvNetBackoffReseed(Adapter);
}
}
InsertTailList(SendReadyList, PACKET_ENTRY(Tcb->Packet));
NV_RELEASE_TCB(Adapter, Tcb);
++TcbProcessed;
Tcb = NV_NEXT_TCB(Adapter, Tcb);
}
Adapter->Send.LastTcb = Tcb;
return TcbProcessed;
}
ULONG
ProcessTransmitDescriptors64(
_In_ PNVNET_ADAPTER Adapter,
_Inout_ PLIST_ENTRY SendReadyList)
{
PNVNET_TCB Tcb = Adapter->Send.LastTcb;
ULONG TcbProcessed = 0;
while (Tcb != Adapter->Send.CurrentTcb)
{
NVNET_TBD Tbd = Tcb->Tbd;
ULONG Flags = Tbd.x64->FlagsLength;
if (Flags & NV_TX_VALID)
break;
if (Adapter->Flags & NV_SEND_ERRATA_PRESENT)
{
PNVNET_TCB DeferredTcb;
--Adapter->Send.PacketsCount;
DeferredTcb = Adapter->Send.DeferredTcb;
if (DeferredTcb)
{
DeferredTcb->DeferredTbd.x64->FlagsLength |= NV_TX2_VALID;
++Adapter->Send.PacketsCount;
Adapter->Send.DeferredTcb = NV_NEXT_TCB(Adapter, DeferredTcb);
if (Adapter->Send.DeferredTcb == Adapter->Send.CurrentTcb)
{
Adapter->Send.DeferredTcb = NULL;
}
NV_WRITE(Adapter, NvRegTxRxControl, Adapter->TxRxControl | NVREG_TXRXCTL_KICK);
}
}
NDIS_DbgPrint(MIN_TRACE, ("Packet transmitted (flags %lx)\n",
Flags & FLAG_MASK_V2));
if (Flags & NV_TX2_ERROR)
{
if ((Flags & NV_TX2_RETRYERROR) && !(Flags & NV_TX2_RETRYCOUNT_MASK))
{
if (Adapter->Features & DEV_HAS_GEAR_MODE)
NvNetBackoffReseedEx(Adapter);
else
NvNetBackoffReseed(Adapter);
}
}
InsertTailList(SendReadyList, PACKET_ENTRY(Tcb->Packet));
NV_RELEASE_TCB(Adapter, Tcb);
++TcbProcessed;
Tcb = NV_NEXT_TCB(Adapter, Tcb);
}
Adapter->Send.LastTcb = Tcb;
return TcbProcessed;
}
static
BOOLEAN
HandleLengthError(
_In_ PVOID EthHeader,
_Inout_ PUSHORT Length)
{
PUCHAR Buffer = EthHeader;
ULONG i;
DBG_UNREFERENCED_LOCAL_VARIABLE(Buffer);
/* TODO */
NDIS_DbgPrint(MAX_TRACE, ("() Length error detected (%u): \n", *Length));
for (i = 0; i < *Length; ++i)
{
NDIS_DbgPrint(MAX_TRACE, ("%02x ", Buffer[i]));
}
NDIS_DbgPrint(MAX_TRACE, ("\n\n*** Please report it to the team! ***\n\n"));
return FALSE;
}
/* TODO: This need to be rewritten. I leave it as-is for now */
static
ULONG
ProcessReceiveDescriptors(
_In_ PNVNET_ADAPTER Adapter,
_In_ ULONG TotalRxProcessed)
{
ULONG i, RxProcessed = 0;
BOOLEAN IndicateComplete = FALSE;
for (i = 0; i < NVNET_RECEIVE_DESCRIPTORS; ++i)
{
ULONG Flags;
USHORT Length;
PUCHAR EthHeader;
NV_RBD NvRbd;
if (Adapter->Features & DEV_HAS_HIGH_DMA)
{
NvRbd.x64 = &Adapter->Receive.NvRbd.x64[Adapter->CurrentRx];
Flags = NvRbd.x64->FlagsLength;
}
else
{
NvRbd.x32 = &Adapter->Receive.NvRbd.x32[Adapter->CurrentRx];
Flags = NvRbd.x32->FlagsLength;
}
if (Flags & NV_RX_AVAIL)
break;
if (TotalRxProcessed + RxProcessed >= NVNET_RECEIVE_PROCESSING_LIMIT)
break;
if (!Adapter->PacketFilter)
goto NextDescriptor;
if (Adapter->Features & (DEV_HAS_HIGH_DMA | DEV_HAS_LARGEDESC))
{
if (!(Flags & NV_RX2_DESCRIPTORVALID))
goto NextDescriptor;
Length = Flags & LEN_MASK_V2;
EthHeader = &Adapter->ReceiveBuffer[Adapter->CurrentRx * NVNET_RECEIVE_BUFFER_SIZE];
if (Flags & NV_RX2_ERROR)
{
if ((Flags & NV_RX2_ERROR_MASK) == NV_RX2_ERROR4)
{
if (!HandleLengthError(EthHeader, &Length))
goto NextDescriptor;
}
else if ((Flags & NV_RX2_ERROR_MASK) == NV_RX2_FRAMINGERR)
{
if (Flags & NV_RX2_SUBTRACT1)
--Length;
}
else
{
goto NextDescriptor;
}
}
NDIS_DbgPrint(MIN_TRACE, ("Packet %d received (length %d, flags %lx)\n",
Adapter->CurrentRx, Length, Flags & FLAG_MASK_V2));
}
else
{
if (!(Flags & NV_RX_DESCRIPTORVALID))
goto NextDescriptor;
Length = Flags & LEN_MASK_V1;
EthHeader = &Adapter->ReceiveBuffer[Adapter->CurrentRx * NVNET_RECEIVE_BUFFER_SIZE];
if (Flags & NV_RX_ERROR)
{
if ((Flags & NV_RX_ERROR_MASK) == NV_RX_ERROR4)
{
if (!HandleLengthError(EthHeader, &Length))
goto NextDescriptor;
}
else if ((Flags & NV_RX_ERROR_MASK) == NV_RX_FRAMINGERR)
{
if (Flags & NV_RX_SUBTRACT1)
--Length;
}
else
{
++Adapter->Statistics.ReceiveErrors;
if (Flags & NV_RX_MISSEDFRAME)
++Adapter->Statistics.ReceiveNoBuffers;
if (Flags & NV_RX_FRAMINGERR)
++Adapter->Statistics.ReceiveAlignmentErrors;
if (Flags & NV_RX_OVERFLOW)
++Adapter->Statistics.ReceiveOverrunErrors;
if (Flags & NV_RX_CRCERR)
++Adapter->Statistics.ReceiveCrcErrors;
goto NextDescriptor;
}
}
++Adapter->Statistics.ReceiveOk;
NDIS_DbgPrint(MIN_TRACE, ("Packet %d received (length %d, flags %lx)\n",
Adapter->CurrentRx, Length, Flags & FLAG_MASK_V1));
}
NdisMEthIndicateReceive(Adapter->AdapterHandle,
NULL,
(PCHAR)EthHeader,
sizeof(ETH_HEADER),
EthHeader + sizeof(ETH_HEADER),
Length - sizeof(ETH_HEADER),
Length - sizeof(ETH_HEADER));
IndicateComplete = TRUE;
NextDescriptor:
/* Invalidate the buffer length and release the descriptor */
if (Adapter->Features & DEV_HAS_HIGH_DMA)
NvRbd.x64->FlagsLength = NV_RX2_AVAIL | NVNET_RECEIVE_BUFFER_SIZE;
else
NvRbd.x32->FlagsLength = NV_RX_AVAIL | NVNET_RECEIVE_BUFFER_SIZE;
Adapter->CurrentRx = (Adapter->CurrentRx + 1) % NVNET_RECEIVE_DESCRIPTORS;
++RxProcessed;
}
if (IndicateComplete)
{
NdisMEthIndicateReceiveComplete(Adapter->AdapterHandle);
}
return RxProcessed;
}
static
inline
VOID
ChangeInterruptMode(
_In_ PNVNET_ADAPTER Adapter,
_In_ ULONG Workload)
{
if (Workload > NVNET_IM_THRESHOLD)
{
Adapter->InterruptIdleCount = 0;
/* High activity, polling based strategy */
Adapter->InterruptMask = NVREG_IRQMASK_CPU;
}
else
{
if (Adapter->InterruptIdleCount < NVNET_IM_MAX_IDLE)
{
++Adapter->InterruptIdleCount;
}
else
{
/* Low activity, 1 interrupt per packet */
Adapter->InterruptMask = NVREG_IRQMASK_THROUGHPUT;
}
}
}
static
VOID
HandleLinkStateChange(
_In_ PNVNET_ADAPTER Adapter)
{
ULONG MiiStatus;
BOOLEAN Connected, Report = FALSE;
NDIS_DbgPrint(MIN_TRACE, ("()\n"));
NdisDprAcquireSpinLock(&Adapter->Lock);
MiiStatus = NV_READ(Adapter, NvRegMIIStatus);
/* Clear the link change interrupt */
NV_WRITE(Adapter, NvRegMIIStatus, NVREG_MIISTAT_LINKCHANGE);
if (MiiStatus & NVREG_MIISTAT_LINKCHANGE)
{
Connected = NvNetUpdateLinkSpeed(Adapter);
if (Adapter->Connected != Connected)
{
Adapter->Connected = Connected;
Report = TRUE;
if (Connected)
{
/* Link up */
NvNetToggleClockPowerGating(Adapter, FALSE);
NdisDprAcquireSpinLock(&Adapter->Receive.Lock);
NvNetStartReceiver(Adapter);
}
else
{
/* Link down */
NvNetToggleClockPowerGating(Adapter, TRUE);
NdisDprAcquireSpinLock(&Adapter->Receive.Lock);
NvNetStopReceiver(Adapter);
}
NdisDprReleaseSpinLock(&Adapter->Receive.Lock);
}
}
NdisDprReleaseSpinLock(&Adapter->Lock);
if (Report)
{
NdisMIndicateStatus(Adapter->AdapterHandle,
Connected ? NDIS_STATUS_MEDIA_CONNECT : NDIS_STATUS_MEDIA_DISCONNECT,
NULL,
0);
NdisMIndicateStatusComplete(Adapter->AdapterHandle);
}
}
static
VOID
HandleRecoverableError(
_In_ PNVNET_ADAPTER Adapter)
{
/* TODO */
NDIS_DbgPrint(MAX_TRACE, ("() Recoverable error detected\n"));
}
VOID
NTAPI
MiniportHandleInterrupt(
_In_ NDIS_HANDLE MiniportAdapterContext)
{
PNVNET_ADAPTER Adapter = (PNVNET_ADAPTER)MiniportAdapterContext;
ULONG InterruptStatus = Adapter->InterruptStatus;
ULONG RxProcessed, TotalTxProcessed = 0, TotalRxProcessed = 0;
LIST_ENTRY SendReadyList;
NDIS_DbgPrint(MIN_TRACE, ("() Events 0x%lx\n", InterruptStatus));
if (!(Adapter->Flags & NV_ACTIVE))
return;
InitializeListHead(&SendReadyList);
/* Process the rings and measure network activity */
while (TotalRxProcessed < NVNET_RECEIVE_PROCESSING_LIMIT)
{
NdisDprAcquireSpinLock(&Adapter->Send.Lock);
TotalTxProcessed += Adapter->ProcessTransmit(Adapter, &SendReadyList);
NdisDprReleaseSpinLock(&Adapter->Send.Lock);
while (!IsListEmpty(&SendReadyList))
{
PLIST_ENTRY Entry = RemoveHeadList(&SendReadyList);
NdisMSendComplete(Adapter->AdapterHandle,
CONTAINING_RECORD(Entry, NDIS_PACKET, MiniportReserved),
NDIS_STATUS_SUCCESS);
}
RxProcessed = ProcessReceiveDescriptors(Adapter, TotalRxProcessed);
if (!RxProcessed)
break;
TotalRxProcessed += RxProcessed;
}
NDIS_DbgPrint(MIN_TRACE, ("Total TX: %d, RX: %d\n", TotalTxProcessed, TotalRxProcessed));
/* Moderate the interrupts */
if (Adapter->OptimizationMode == NV_OPTIMIZATION_MODE_DYNAMIC)
{
ChangeInterruptMode(Adapter, TotalTxProcessed + TotalRxProcessed);
}
if (InterruptStatus & NVREG_IRQ_RX_NOBUF)
{
++Adapter->Statistics.ReceiveIrqNoBuffers;
}
if (InterruptStatus & NVREG_IRQ_LINK)
{
HandleLinkStateChange(Adapter);
}
if (InterruptStatus & NVREG_IRQ_RECOVER_ERROR)
{
HandleRecoverableError(Adapter);
}
/* Enable interrupts on the NIC */
NvNetApplyInterruptMask(Adapter);
}
VOID
NTAPI
MiniportISR(
_Out_ PBOOLEAN InterruptRecognized,
_Out_ PBOOLEAN QueueMiniportHandleInterrupt,
_In_ NDIS_HANDLE MiniportAdapterContext)
{
PNVNET_ADAPTER Adapter = (PNVNET_ADAPTER)MiniportAdapterContext;
ULONG InterruptStatus;
NDIS_DbgPrint(MIN_TRACE, ("()\n"));
InterruptStatus = NV_READ(Adapter, NvRegIrqStatus);
/* Clear any interrupt events */
NV_WRITE(Adapter, NvRegIrqStatus, InterruptStatus);
if (InterruptStatus & Adapter->InterruptMask)
{
/* Disable further interrupts */
NvNetDisableInterrupts(Adapter);
Adapter->InterruptStatus = InterruptStatus;
*InterruptRecognized = TRUE;
*QueueMiniportHandleInterrupt = TRUE;
}
else
{
/* This interrupt is not ours */
*InterruptRecognized = FALSE;
*QueueMiniportHandleInterrupt = FALSE;
}
}
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