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|
/*
* Copyright (c) 2004-2005 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Nathan Binkert
*/
#include <deque>
#include <limits>
#include <string>
#include "arch/vtophys.hh"
#include "base/compiler.hh"
#include "base/debug.hh"
#include "base/inet.hh"
#include "base/types.hh"
#include "config/the_isa.hh"
#include "cpu/intr_control.hh"
#include "cpu/thread_context.hh"
#include "debug/EthernetAll.hh"
#include "dev/etherlink.hh"
#include "dev/sinic.hh"
#include "mem/packet.hh"
#include "mem/packet_access.hh"
#include "sim/eventq.hh"
#include "sim/stats.hh"
using namespace std;
using namespace Net;
using namespace TheISA;
namespace Sinic {
const char *RxStateStrings[] =
{
"rxIdle",
"rxFifoBlock",
"rxBeginCopy",
"rxCopy",
"rxCopyDone"
};
const char *TxStateStrings[] =
{
"txIdle",
"txFifoBlock",
"txBeginCopy",
"txCopy",
"txCopyDone"
};
///////////////////////////////////////////////////////////////////////
//
// Sinic PCI Device
//
Base::Base(const Params *p)
: PciDev(p), rxEnable(false), txEnable(false), clock(p->clock),
intrDelay(p->intr_delay), intrTick(0), cpuIntrEnable(false),
cpuPendingIntr(false), intrEvent(0), interface(NULL)
{
}
Device::Device(const Params *p)
: Base(p), rxUnique(0), txUnique(0),
virtualRegs(p->virtual_count < 1 ? 1 : p->virtual_count),
rxFifo(p->rx_fifo_size), txFifo(p->tx_fifo_size),
rxKickTick(0), txKickTick(0),
txEvent(this), rxDmaEvent(this), txDmaEvent(this),
dmaReadDelay(p->dma_read_delay), dmaReadFactor(p->dma_read_factor),
dmaWriteDelay(p->dma_write_delay), dmaWriteFactor(p->dma_write_factor)
{
interface = new Interface(name() + ".int0", this);
reset();
}
Device::~Device()
{}
void
Device::regStats()
{
rxBytes
.name(name() + ".rxBytes")
.desc("Bytes Received")
.prereq(rxBytes)
;
rxBandwidth
.name(name() + ".rxBandwidth")
.desc("Receive Bandwidth (bits/s)")
.precision(0)
.prereq(rxBytes)
;
rxPackets
.name(name() + ".rxPackets")
.desc("Number of Packets Received")
.prereq(rxBytes)
;
rxPacketRate
.name(name() + ".rxPPS")
.desc("Packet Reception Rate (packets/s)")
.precision(0)
.prereq(rxBytes)
;
rxIpPackets
.name(name() + ".rxIpPackets")
.desc("Number of IP Packets Received")
.prereq(rxBytes)
;
rxTcpPackets
.name(name() + ".rxTcpPackets")
.desc("Number of Packets Received")
.prereq(rxBytes)
;
rxUdpPackets
.name(name() + ".rxUdpPackets")
.desc("Number of UDP Packets Received")
.prereq(rxBytes)
;
rxIpChecksums
.name(name() + ".rxIpChecksums")
.desc("Number of rx IP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
rxTcpChecksums
.name(name() + ".rxTcpChecksums")
.desc("Number of rx TCP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
rxUdpChecksums
.name(name() + ".rxUdpChecksums")
.desc("Number of rx UDP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
totBandwidth
.name(name() + ".totBandwidth")
.desc("Total Bandwidth (bits/s)")
.precision(0)
.prereq(totBytes)
;
totPackets
.name(name() + ".totPackets")
.desc("Total Packets")
.precision(0)
.prereq(totBytes)
;
totBytes
.name(name() + ".totBytes")
.desc("Total Bytes")
.precision(0)
.prereq(totBytes)
;
totPacketRate
.name(name() + ".totPPS")
.desc("Total Tranmission Rate (packets/s)")
.precision(0)
.prereq(totBytes)
;
txBytes
.name(name() + ".txBytes")
.desc("Bytes Transmitted")
.prereq(txBytes)
;
txBandwidth
.name(name() + ".txBandwidth")
.desc("Transmit Bandwidth (bits/s)")
.precision(0)
.prereq(txBytes)
;
txPackets
.name(name() + ".txPackets")
.desc("Number of Packets Transmitted")
.prereq(txBytes)
;
txPacketRate
.name(name() + ".txPPS")
.desc("Packet Tranmission Rate (packets/s)")
.precision(0)
.prereq(txBytes)
;
txIpPackets
.name(name() + ".txIpPackets")
.desc("Number of IP Packets Transmitted")
.prereq(txBytes)
;
txTcpPackets
.name(name() + ".txTcpPackets")
.desc("Number of TCP Packets Transmitted")
.prereq(txBytes)
;
txUdpPackets
.name(name() + ".txUdpPackets")
.desc("Number of Packets Transmitted")
.prereq(txBytes)
;
txIpChecksums
.name(name() + ".txIpChecksums")
.desc("Number of tx IP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
txTcpChecksums
.name(name() + ".txTcpChecksums")
.desc("Number of tx TCP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
txUdpChecksums
.name(name() + ".txUdpChecksums")
.desc("Number of tx UDP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
txBandwidth = txBytes * Stats::constant(8) / simSeconds;
rxBandwidth = rxBytes * Stats::constant(8) / simSeconds;
totBandwidth = txBandwidth + rxBandwidth;
totBytes = txBytes + rxBytes;
totPackets = txPackets + rxPackets;
txPacketRate = txPackets / simSeconds;
rxPacketRate = rxPackets / simSeconds;
_maxVnicDistance = 0;
maxVnicDistance
.name(name() + ".maxVnicDistance")
.desc("maximum vnic distance")
;
totalVnicDistance
.name(name() + ".totalVnicDistance")
.desc("total vnic distance")
;
numVnicDistance
.name(name() + ".numVnicDistance")
.desc("number of vnic distance measurements")
;
avgVnicDistance
.name(name() + ".avgVnicDistance")
.desc("average vnic distance")
;
avgVnicDistance = totalVnicDistance / numVnicDistance;
}
void
Device::resetStats()
{
_maxVnicDistance = 0;
}
EtherInt*
Device::getEthPort(const std::string &if_name, int idx)
{
if (if_name == "interface") {
if (interface->getPeer())
panic("interface already connected to\n");
return interface;
}
return NULL;
}
void
Device::prepareIO(int cpu, int index)
{
int size = virtualRegs.size();
if (index > size)
panic("Trying to access a vnic that doesn't exist %d > %d\n",
index, size);
}
//add stats for head of line blocking
//add stats for average fifo length
//add stats for average number of vnics busy
void
Device::prepareRead(int cpu, int index)
{
using namespace Regs;
prepareIO(cpu, index);
VirtualReg &vnic = virtualRegs[index];
// update rx registers
uint64_t rxdone = vnic.RxDone;
rxdone = set_RxDone_Packets(rxdone, rxFifo.countPacketsAfter(rxFifoPtr));
rxdone = set_RxDone_Empty(rxdone, rxFifo.empty());
rxdone = set_RxDone_High(rxdone, rxFifo.size() > regs.RxFifoHigh);
rxdone = set_RxDone_NotHigh(rxdone, rxLow);
regs.RxData = vnic.RxData;
regs.RxDone = rxdone;
regs.RxWait = rxdone;
// update tx regsiters
uint64_t txdone = vnic.TxDone;
txdone = set_TxDone_Packets(txdone, txFifo.packets());
txdone = set_TxDone_Full(txdone, txFifo.avail() < regs.TxMaxCopy);
txdone = set_TxDone_Low(txdone, txFifo.size() < regs.TxFifoLow);
regs.TxData = vnic.TxData;
regs.TxDone = txdone;
regs.TxWait = txdone;
int head = 0xffff;
if (!rxFifo.empty()) {
int vnic = rxFifo.begin()->priv;
if (vnic != -1 && virtualRegs[vnic].rxPacketOffset > 0)
head = vnic;
}
regs.RxStatus = set_RxStatus_Head(regs.RxStatus, head);
regs.RxStatus = set_RxStatus_Busy(regs.RxStatus, rxBusyCount);
regs.RxStatus = set_RxStatus_Mapped(regs.RxStatus, rxMappedCount);
regs.RxStatus = set_RxStatus_Dirty(regs.RxStatus, rxDirtyCount);
}
void
Device::prepareWrite(int cpu, int index)
{
prepareIO(cpu, index);
}
/**
* I/O read of device register
*/
Tick
Device::read(PacketPtr pkt)
{
assert(config.command & PCI_CMD_MSE);
assert(pkt->getAddr() >= BARAddrs[0] && pkt->getSize() < BARSize[0]);
int cpu = pkt->req->contextId();
Addr daddr = pkt->getAddr() - BARAddrs[0];
Addr index = daddr >> Regs::VirtualShift;
Addr raddr = daddr & Regs::VirtualMask;
pkt->allocate();
if (!regValid(raddr))
panic("invalid register: cpu=%d vnic=%d da=%#x pa=%#x size=%d",
cpu, index, daddr, pkt->getAddr(), pkt->getSize());
const Regs::Info &info = regInfo(raddr);
if (!info.read)
panic("read %s (write only): "
"cpu=%d vnic=%d da=%#x pa=%#x size=%d",
info.name, cpu, index, daddr, pkt->getAddr(), pkt->getSize());
panic("read %s (invalid size): "
"cpu=%d vnic=%d da=%#x pa=%#x size=%d",
info.name, cpu, index, daddr, pkt->getAddr(), pkt->getSize());
prepareRead(cpu, index);
uint64_t value M5_VAR_USED = 0;
if (pkt->getSize() == 4) {
uint32_t reg = regData32(raddr);
pkt->set(reg);
value = reg;
}
if (pkt->getSize() == 8) {
uint64_t reg = regData64(raddr);
pkt->set(reg);
value = reg;
}
DPRINTF(EthernetPIO,
"read %s: cpu=%d vnic=%d da=%#x pa=%#x size=%d val=%#x\n",
info.name, cpu, index, daddr, pkt->getAddr(), pkt->getSize(), value);
// reading the interrupt status register has the side effect of
// clearing it
if (raddr == Regs::IntrStatus)
devIntrClear();
return pioDelay;
}
/**
* IPR read of device register
Fault
Device::iprRead(Addr daddr, int cpu, uint64_t &result)
{
if (!regValid(daddr))
panic("invalid address: da=%#x", daddr);
const Regs::Info &info = regInfo(daddr);
if (!info.read)
panic("reading %s (write only): cpu=%d da=%#x", info.name, cpu, daddr);
DPRINTF(EthernetPIO, "IPR read %s: cpu=%d da=%#x\n",
info.name, cpu, daddr);
prepareRead(cpu, 0);
if (info.size == 4)
result = regData32(daddr);
if (info.size == 8)
result = regData64(daddr);
DPRINTF(EthernetPIO, "IPR read %s: cpu=%s da=%#x val=%#x\n",
info.name, cpu, result);
return NoFault;
}
*/
/**
* I/O write of device register
*/
Tick
Device::write(PacketPtr pkt)
{
assert(config.command & PCI_CMD_MSE);
assert(pkt->getAddr() >= BARAddrs[0] && pkt->getSize() < BARSize[0]);
int cpu = pkt->req->contextId();
Addr daddr = pkt->getAddr() - BARAddrs[0];
Addr index = daddr >> Regs::VirtualShift;
Addr raddr = daddr & Regs::VirtualMask;
if (!regValid(raddr))
panic("invalid register: cpu=%d, da=%#x pa=%#x size=%d",
cpu, daddr, pkt->getAddr(), pkt->getSize());
const Regs::Info &info = regInfo(raddr);
if (!info.write)
panic("write %s (read only): "
"cpu=%d vnic=%d da=%#x pa=%#x size=%d",
info.name, cpu, index, daddr, pkt->getAddr(), pkt->getSize());
if (pkt->getSize() != info.size)
panic("write %s (invalid size): "
"cpu=%d vnic=%d da=%#x pa=%#x size=%d",
info.name, cpu, index, daddr, pkt->getAddr(), pkt->getSize());
VirtualReg &vnic = virtualRegs[index];
DPRINTF(EthernetPIO,
"write %s vnic %d: cpu=%d val=%#x da=%#x pa=%#x size=%d\n",
info.name, index, cpu, info.size == 4 ? pkt->get<uint32_t>() :
pkt->get<uint64_t>(), daddr, pkt->getAddr(), pkt->getSize());
prepareWrite(cpu, index);
switch (raddr) {
case Regs::Config:
changeConfig(pkt->get<uint32_t>());
break;
case Regs::Command:
command(pkt->get<uint32_t>());
break;
case Regs::IntrStatus:
devIntrClear(regs.IntrStatus & pkt->get<uint32_t>());
break;
case Regs::IntrMask:
devIntrChangeMask(pkt->get<uint32_t>());
break;
case Regs::RxData:
if (Regs::get_RxDone_Busy(vnic.RxDone))
panic("receive machine busy with another request! rxState=%s",
RxStateStrings[rxState]);
vnic.rxUnique = rxUnique++;
vnic.RxDone = Regs::RxDone_Busy;
vnic.RxData = pkt->get<uint64_t>();
rxBusyCount++;
if (Regs::get_RxData_Vaddr(pkt->get<uint64_t>())) {
panic("vtophys not implemented in newmem");
#ifdef SINIC_VTOPHYS
Addr vaddr = Regs::get_RxData_Addr(reg64);
Addr paddr = vtophys(req->xc, vaddr);
DPRINTF(EthernetPIO, "write RxData vnic %d (rxunique %d): "
"vaddr=%#x, paddr=%#x\n",
index, vnic.rxUnique, vaddr, paddr);
vnic.RxData = Regs::set_RxData_Addr(vnic.RxData, paddr);
#endif
} else {
DPRINTF(EthernetPIO, "write RxData vnic %d (rxunique %d)\n",
index, vnic.rxUnique);
}
if (vnic.rxIndex == rxFifo.end()) {
DPRINTF(EthernetPIO, "request new packet...appending to rxList\n");
rxList.push_back(index);
} else {
DPRINTF(EthernetPIO, "packet exists...appending to rxBusy\n");
rxBusy.push_back(index);
}
if (rxEnable && (rxState == rxIdle || rxState == rxFifoBlock)) {
rxState = rxFifoBlock;
rxKick();
}
break;
case Regs::TxData:
if (Regs::get_TxDone_Busy(vnic.TxDone))
panic("transmit machine busy with another request! txState=%s",
TxStateStrings[txState]);
vnic.txUnique = txUnique++;
vnic.TxDone = Regs::TxDone_Busy;
if (Regs::get_TxData_Vaddr(pkt->get<uint64_t>())) {
panic("vtophys won't work here in newmem.\n");
#ifdef SINIC_VTOPHYS
Addr vaddr = Regs::get_TxData_Addr(reg64);
Addr paddr = vtophys(req->xc, vaddr);
DPRINTF(EthernetPIO, "write TxData vnic %d (txunique %d): "
"vaddr=%#x, paddr=%#x\n",
index, vnic.txUnique, vaddr, paddr);
vnic.TxData = Regs::set_TxData_Addr(vnic.TxData, paddr);
#endif
} else {
DPRINTF(EthernetPIO, "write TxData vnic %d (txunique %d)\n",
index, vnic.txUnique);
}
if (txList.empty() || txList.front() != index)
txList.push_back(index);
if (txEnable && txState == txIdle && txList.front() == index) {
txState = txFifoBlock;
txKick();
}
break;
}
return pioDelay;
}
void
Device::devIntrPost(uint32_t interrupts)
{
if ((interrupts & Regs::Intr_Res))
panic("Cannot set a reserved interrupt");
regs.IntrStatus |= interrupts;
DPRINTF(EthernetIntr,
"interrupt written to intStatus: intr=%#x status=%#x mask=%#x\n",
interrupts, regs.IntrStatus, regs.IntrMask);
interrupts = regs.IntrStatus & regs.IntrMask;
// Intr_RxHigh is special, we only signal it if we've emptied the fifo
// and then filled it above the high watermark
if (rxEmpty)
rxEmpty = false;
else
interrupts &= ~Regs::Intr_RxHigh;
// Intr_TxLow is special, we only signal it if we've filled up the fifo
// and then dropped below the low watermark
if (txFull)
txFull = false;
else
interrupts &= ~Regs::Intr_TxLow;
if (interrupts) {
Tick when = curTick();
if ((interrupts & Regs::Intr_NoDelay) == 0)
when += intrDelay;
cpuIntrPost(when);
}
}
void
Device::devIntrClear(uint32_t interrupts)
{
if ((interrupts & Regs::Intr_Res))
panic("Cannot clear a reserved interrupt");
regs.IntrStatus &= ~interrupts;
DPRINTF(EthernetIntr,
"interrupt cleared from intStatus: intr=%x status=%x mask=%x\n",
interrupts, regs.IntrStatus, regs.IntrMask);
if (!(regs.IntrStatus & regs.IntrMask))
cpuIntrClear();
}
void
Device::devIntrChangeMask(uint32_t newmask)
{
if (regs.IntrMask == newmask)
return;
regs.IntrMask = newmask;
DPRINTF(EthernetIntr,
"interrupt mask changed: intStatus=%x intMask=%x masked=%x\n",
regs.IntrStatus, regs.IntrMask, regs.IntrStatus & regs.IntrMask);
if (regs.IntrStatus & regs.IntrMask)
cpuIntrPost(curTick());
else
cpuIntrClear();
}
void
Base::cpuIntrPost(Tick when)
{
// If the interrupt you want to post is later than an interrupt
// already scheduled, just let it post in the coming one and don't
// schedule another.
// HOWEVER, must be sure that the scheduled intrTick is in the
// future (this was formerly the source of a bug)
/**
* @todo this warning should be removed and the intrTick code should
* be fixed.
*/
assert(when >= curTick());
assert(intrTick >= curTick() || intrTick == 0);
if (!cpuIntrEnable) {
DPRINTF(EthernetIntr, "interrupts not enabled.\n",
intrTick);
return;
}
if (when > intrTick && intrTick != 0) {
DPRINTF(EthernetIntr, "don't need to schedule event...intrTick=%d\n",
intrTick);
return;
}
intrTick = when;
if (intrTick < curTick()) {
Debug::breakpoint();
intrTick = curTick();
}
DPRINTF(EthernetIntr, "going to schedule an interrupt for intrTick=%d\n",
intrTick);
if (intrEvent)
intrEvent->squash();
intrEvent = new IntrEvent(this, true);
schedule(intrEvent, intrTick);
}
void
Base::cpuInterrupt()
{
assert(intrTick == curTick());
// Whether or not there's a pending interrupt, we don't care about
// it anymore
intrEvent = 0;
intrTick = 0;
// Don't send an interrupt if there's already one
if (cpuPendingIntr) {
DPRINTF(EthernetIntr,
"would send an interrupt now, but there's already pending\n");
} else {
// Send interrupt
cpuPendingIntr = true;
DPRINTF(EthernetIntr, "posting interrupt\n");
intrPost();
}
}
void
Base::cpuIntrClear()
{
if (!cpuPendingIntr)
return;
if (intrEvent) {
intrEvent->squash();
intrEvent = 0;
}
intrTick = 0;
cpuPendingIntr = false;
DPRINTF(EthernetIntr, "clearing cchip interrupt\n");
intrClear();
}
bool
Base::cpuIntrPending() const
{ return cpuPendingIntr; }
void
Device::changeConfig(uint32_t newconf)
{
uint32_t changed = regs.Config ^ newconf;
if (!changed)
return;
regs.Config = newconf;
if ((changed & Regs::Config_IntEn)) {
cpuIntrEnable = regs.Config & Regs::Config_IntEn;
if (cpuIntrEnable) {
if (regs.IntrStatus & regs.IntrMask)
cpuIntrPost(curTick());
} else {
cpuIntrClear();
}
}
if ((changed & Regs::Config_TxEn)) {
txEnable = regs.Config & Regs::Config_TxEn;
if (txEnable)
txKick();
}
if ((changed & Regs::Config_RxEn)) {
rxEnable = regs.Config & Regs::Config_RxEn;
if (rxEnable)
rxKick();
}
}
void
Device::command(uint32_t command)
{
if (command & Regs::Command_Intr)
devIntrPost(Regs::Intr_Soft);
if (command & Regs::Command_Reset)
reset();
}
void
Device::reset()
{
using namespace Regs;
memset(®s, 0, sizeof(regs));
regs.Config = 0;
if (params()->rx_thread)
regs.Config |= Config_RxThread;
if (params()->tx_thread)
regs.Config |= Config_TxThread;
if (params()->rss)
regs.Config |= Config_RSS;
if (params()->zero_copy)
regs.Config |= Config_ZeroCopy;
if (params()->delay_copy)
regs.Config |= Config_DelayCopy;
if (params()->virtual_addr)
regs.Config |= Config_Vaddr;
if (params()->delay_copy && params()->zero_copy)
panic("Can't delay copy and zero copy");
regs.IntrMask = Intr_Soft | Intr_RxHigh | Intr_RxPacket | Intr_TxLow;
regs.RxMaxCopy = params()->rx_max_copy;
regs.TxMaxCopy = params()->tx_max_copy;
regs.ZeroCopySize = params()->zero_copy_size;
regs.ZeroCopyMark = params()->zero_copy_threshold;
regs.VirtualCount = params()->virtual_count;
regs.RxMaxIntr = params()->rx_max_intr;
regs.RxFifoSize = params()->rx_fifo_size;
regs.TxFifoSize = params()->tx_fifo_size;
regs.RxFifoLow = params()->rx_fifo_low_mark;
regs.TxFifoLow = params()->tx_fifo_threshold;
regs.RxFifoHigh = params()->rx_fifo_threshold;
regs.TxFifoHigh = params()->tx_fifo_high_mark;
regs.HwAddr = params()->hardware_address;
if (regs.RxMaxCopy < regs.ZeroCopyMark)
panic("Must be able to copy at least as many bytes as the threshold");
if (regs.ZeroCopySize >= regs.ZeroCopyMark)
panic("The number of bytes to copy must be less than the threshold");
rxList.clear();
rxBusy.clear();
rxActive = -1;
txList.clear();
rxBusyCount = 0;
rxDirtyCount = 0;
rxMappedCount = 0;
rxState = rxIdle;
txState = txIdle;
rxFifo.clear();
rxFifoPtr = rxFifo.end();
txFifo.clear();
rxEmpty = false;
rxLow = true;
txFull = false;
int size = virtualRegs.size();
virtualRegs.clear();
virtualRegs.resize(size);
for (int i = 0; i < size; ++i)
virtualRegs[i].rxIndex = rxFifo.end();
}
void
Device::rxDmaDone()
{
assert(rxState == rxCopy);
rxState = rxCopyDone;
DPRINTF(EthernetDMA, "end rx dma write paddr=%#x len=%d\n",
rxDmaAddr, rxDmaLen);
DDUMP(EthernetData, rxDmaData, rxDmaLen);
// If the transmit state machine has a pending DMA, let it go first
if (txState == txBeginCopy)
txKick();
rxKick();
}
void
Device::rxKick()
{
VirtualReg *vnic = NULL;
DPRINTF(EthernetSM, "rxKick: rxState=%s (rxFifo.size=%d)\n",
RxStateStrings[rxState], rxFifo.size());
if (rxKickTick > curTick()) {
DPRINTF(EthernetSM, "rxKick: exiting, can't run till %d\n",
rxKickTick);
return;
}
next:
rxFifo.check();
if (rxState == rxIdle)
goto exit;
if (rxActive == -1) {
if (rxState != rxFifoBlock)
panic("no active vnic while in state %s", RxStateStrings[rxState]);
DPRINTF(EthernetSM, "processing rxState=%s\n",
RxStateStrings[rxState]);
} else {
vnic = &virtualRegs[rxActive];
DPRINTF(EthernetSM,
"processing rxState=%s for vnic %d (rxunique %d)\n",
RxStateStrings[rxState], rxActive, vnic->rxUnique);
}
switch (rxState) {
case rxFifoBlock:
if (DTRACE(EthernetSM)) {
PacketFifo::iterator end = rxFifo.end();
int size = virtualRegs.size();
for (int i = 0; i < size; ++i) {
VirtualReg *vn = &virtualRegs[i];
bool busy = Regs::get_RxDone_Busy(vn->RxDone);
if (vn->rxIndex != end) {
#ifndef NDEBUG
bool dirty = vn->rxPacketOffset > 0;
const char *status;
if (busy && dirty)
status = "busy,dirty";
else if (busy)
status = "busy";
else if (dirty)
status = "dirty";
else
status = "mapped";
DPRINTF(EthernetSM,
"vnic %d %s (rxunique %d), packet %d, slack %d\n",
i, status, vn->rxUnique,
rxFifo.countPacketsBefore(vn->rxIndex),
vn->rxIndex->slack);
#endif
} else if (busy) {
DPRINTF(EthernetSM, "vnic %d unmapped (rxunique %d)\n",
i, vn->rxUnique);
}
}
}
if (!rxBusy.empty()) {
rxActive = rxBusy.front();
rxBusy.pop_front();
vnic = &virtualRegs[rxActive];
if (vnic->rxIndex == rxFifo.end())
panic("continuing vnic without packet\n");
DPRINTF(EthernetSM,
"continue processing for vnic %d (rxunique %d)\n",
rxActive, vnic->rxUnique);
rxState = rxBeginCopy;
int vnic_distance = rxFifo.countPacketsBefore(vnic->rxIndex);
totalVnicDistance += vnic_distance;
numVnicDistance += 1;
if (vnic_distance > _maxVnicDistance) {
maxVnicDistance = vnic_distance;
_maxVnicDistance = vnic_distance;
}
break;
}
if (rxFifoPtr == rxFifo.end()) {
DPRINTF(EthernetSM, "receive waiting for data. Nothing to do.\n");
goto exit;
}
if (rxList.empty())
panic("Not idle, but nothing to do!");
assert(!rxFifo.empty());
rxActive = rxList.front();
rxList.pop_front();
vnic = &virtualRegs[rxActive];
DPRINTF(EthernetSM,
"processing new packet for vnic %d (rxunique %d)\n",
rxActive, vnic->rxUnique);
// Grab a new packet from the fifo.
vnic->rxIndex = rxFifoPtr++;
vnic->rxIndex->priv = rxActive;
vnic->rxPacketOffset = 0;
vnic->rxPacketBytes = vnic->rxIndex->packet->length;
assert(vnic->rxPacketBytes);
rxMappedCount++;
vnic->rxDoneData = 0;
/* scope for variables */ {
IpPtr ip(vnic->rxIndex->packet);
if (ip) {
DPRINTF(Ethernet, "ID is %d\n", ip->id());
vnic->rxDoneData |= Regs::RxDone_IpPacket;
rxIpChecksums++;
if (cksum(ip) != 0) {
DPRINTF(EthernetCksum, "Rx IP Checksum Error\n");
vnic->rxDoneData |= Regs::RxDone_IpError;
}
TcpPtr tcp(ip);
UdpPtr udp(ip);
if (tcp) {
DPRINTF(Ethernet,
"Src Port=%d, Dest Port=%d, Seq=%d, Ack=%d\n",
tcp->sport(), tcp->dport(), tcp->seq(),
tcp->ack());
vnic->rxDoneData |= Regs::RxDone_TcpPacket;
rxTcpChecksums++;
if (cksum(tcp) != 0) {
DPRINTF(EthernetCksum, "Rx TCP Checksum Error\n");
vnic->rxDoneData |= Regs::RxDone_TcpError;
}
} else if (udp) {
vnic->rxDoneData |= Regs::RxDone_UdpPacket;
rxUdpChecksums++;
if (cksum(udp) != 0) {
DPRINTF(EthernetCksum, "Rx UDP Checksum Error\n");
vnic->rxDoneData |= Regs::RxDone_UdpError;
}
}
}
}
rxState = rxBeginCopy;
break;
case rxBeginCopy:
if (dmaPending() || getState() != Running)
goto exit;
rxDmaAddr = params()->platform->pciToDma(
Regs::get_RxData_Addr(vnic->RxData));
rxDmaLen = min<unsigned>(Regs::get_RxData_Len(vnic->RxData),
vnic->rxPacketBytes);
/*
* if we're doing zero/delay copy and we're below the fifo
* threshold, see if we should try to do the zero/defer copy
*/
if ((Regs::get_Config_ZeroCopy(regs.Config) ||
Regs::get_Config_DelayCopy(regs.Config)) &&
!Regs::get_RxData_NoDelay(vnic->RxData) && rxLow) {
if (rxDmaLen > regs.ZeroCopyMark)
rxDmaLen = regs.ZeroCopySize;
}
rxDmaData = vnic->rxIndex->packet->data + vnic->rxPacketOffset;
rxState = rxCopy;
if (rxDmaAddr == 1LL) {
rxState = rxCopyDone;
break;
}
dmaWrite(rxDmaAddr, rxDmaLen, &rxDmaEvent, rxDmaData);
break;
case rxCopy:
DPRINTF(EthernetSM, "receive machine still copying\n");
goto exit;
case rxCopyDone:
vnic->RxDone = vnic->rxDoneData;
vnic->RxDone |= Regs::RxDone_Complete;
rxBusyCount--;
if (vnic->rxPacketBytes == rxDmaLen) {
if (vnic->rxPacketOffset)
rxDirtyCount--;
// Packet is complete. Indicate how many bytes were copied
vnic->RxDone = Regs::set_RxDone_CopyLen(vnic->RxDone, rxDmaLen);
DPRINTF(EthernetSM,
"rxKick: packet complete on vnic %d (rxunique %d)\n",
rxActive, vnic->rxUnique);
rxFifo.remove(vnic->rxIndex);
vnic->rxIndex = rxFifo.end();
rxMappedCount--;
} else {
if (!vnic->rxPacketOffset)
rxDirtyCount++;
vnic->rxPacketBytes -= rxDmaLen;
vnic->rxPacketOffset += rxDmaLen;
vnic->RxDone |= Regs::RxDone_More;
vnic->RxDone = Regs::set_RxDone_CopyLen(vnic->RxDone,
vnic->rxPacketBytes);
DPRINTF(EthernetSM,
"rxKick: packet not complete on vnic %d (rxunique %d): "
"%d bytes left\n",
rxActive, vnic->rxUnique, vnic->rxPacketBytes);
}
rxActive = -1;
rxState = rxBusy.empty() && rxList.empty() ? rxIdle : rxFifoBlock;
if (rxFifo.empty()) {
devIntrPost(Regs::Intr_RxEmpty);
rxEmpty = true;
}
if (rxFifo.size() < regs.RxFifoLow)
rxLow = true;
if (rxFifo.size() > regs.RxFifoHigh)
rxLow = false;
devIntrPost(Regs::Intr_RxDMA);
break;
default:
panic("Invalid rxState!");
}
DPRINTF(EthernetSM, "entering next rxState=%s\n",
RxStateStrings[rxState]);
goto next;
exit:
/**
* @todo do we want to schedule a future kick?
*/
DPRINTF(EthernetSM, "rx state machine exited rxState=%s\n",
RxStateStrings[rxState]);
}
void
Device::txDmaDone()
{
assert(txState == txCopy);
txState = txCopyDone;
DPRINTF(EthernetDMA, "tx dma read paddr=%#x len=%d\n",
txDmaAddr, txDmaLen);
DDUMP(EthernetData, txDmaData, txDmaLen);
// If the receive state machine has a pending DMA, let it go first
if (rxState == rxBeginCopy)
rxKick();
txKick();
}
void
Device::transmit()
{
if (txFifo.empty()) {
DPRINTF(Ethernet, "nothing to transmit\n");
return;
}
uint32_t interrupts;
EthPacketPtr packet = txFifo.front();
if (!interface->sendPacket(packet)) {
DPRINTF(Ethernet, "Packet Transmit: failed txFifo available %d\n",
txFifo.avail());
return;
}
txFifo.pop();
#if TRACING_ON
if (DTRACE(Ethernet)) {
IpPtr ip(packet);
if (ip) {
DPRINTF(Ethernet, "ID is %d\n", ip->id());
TcpPtr tcp(ip);
if (tcp) {
DPRINTF(Ethernet,
"Src Port=%d, Dest Port=%d, Seq=%d, Ack=%d\n",
tcp->sport(), tcp->dport(), tcp->seq(),
tcp->ack());
}
}
}
#endif
DDUMP(EthernetData, packet->data, packet->length);
txBytes += packet->length;
txPackets++;
DPRINTF(Ethernet, "Packet Transmit: successful txFifo Available %d\n",
txFifo.avail());
interrupts = Regs::Intr_TxPacket;
if (txFifo.size() < regs.TxFifoLow)
interrupts |= Regs::Intr_TxLow;
devIntrPost(interrupts);
}
void
Device::txKick()
{
VirtualReg *vnic;
DPRINTF(EthernetSM, "txKick: txState=%s (txFifo.size=%d)\n",
TxStateStrings[txState], txFifo.size());
if (txKickTick > curTick()) {
DPRINTF(EthernetSM, "txKick: exiting, can't run till %d\n",
txKickTick);
return;
}
next:
if (txState == txIdle)
goto exit;
assert(!txList.empty());
vnic = &virtualRegs[txList.front()];
switch (txState) {
case txFifoBlock:
assert(Regs::get_TxDone_Busy(vnic->TxDone));
if (!txPacket) {
// Grab a new packet from the fifo.
txPacket = new EthPacketData(16384);
txPacketOffset = 0;
}
if (txFifo.avail() - txPacket->length <
Regs::get_TxData_Len(vnic->TxData)) {
DPRINTF(EthernetSM, "transmit fifo full. Nothing to do.\n");
goto exit;
}
txState = txBeginCopy;
break;
case txBeginCopy:
if (dmaPending() || getState() != Running)
goto exit;
txDmaAddr = params()->platform->pciToDma(
Regs::get_TxData_Addr(vnic->TxData));
txDmaLen = Regs::get_TxData_Len(vnic->TxData);
txDmaData = txPacket->data + txPacketOffset;
txState = txCopy;
dmaRead(txDmaAddr, txDmaLen, &txDmaEvent, txDmaData);
break;
case txCopy:
DPRINTF(EthernetSM, "transmit machine still copying\n");
goto exit;
case txCopyDone:
vnic->TxDone = txDmaLen | Regs::TxDone_Complete;
txPacket->length += txDmaLen;
if ((vnic->TxData & Regs::TxData_More)) {
txPacketOffset += txDmaLen;
txState = txIdle;
devIntrPost(Regs::Intr_TxDMA);
break;
}
assert(txPacket->length <= txFifo.avail());
if ((vnic->TxData & Regs::TxData_Checksum)) {
IpPtr ip(txPacket);
if (ip) {
TcpPtr tcp(ip);
if (tcp) {
tcp->sum(0);
tcp->sum(cksum(tcp));
txTcpChecksums++;
}
UdpPtr udp(ip);
if (udp) {
udp->sum(0);
udp->sum(cksum(udp));
txUdpChecksums++;
}
ip->sum(0);
ip->sum(cksum(ip));
txIpChecksums++;
}
}
txFifo.push(txPacket);
if (txFifo.avail() < regs.TxMaxCopy) {
devIntrPost(Regs::Intr_TxFull);
txFull = true;
}
txPacket = 0;
transmit();
txList.pop_front();
txState = txList.empty() ? txIdle : txFifoBlock;
devIntrPost(Regs::Intr_TxDMA);
break;
default:
panic("Invalid txState!");
}
DPRINTF(EthernetSM, "entering next txState=%s\n",
TxStateStrings[txState]);
goto next;
exit:
/**
* @todo do we want to schedule a future kick?
*/
DPRINTF(EthernetSM, "tx state machine exited txState=%s\n",
TxStateStrings[txState]);
}
void
Device::transferDone()
{
if (txFifo.empty()) {
DPRINTF(Ethernet, "transfer complete: txFifo empty...nothing to do\n");
return;
}
DPRINTF(Ethernet, "transfer complete: data in txFifo...schedule xmit\n");
reschedule(txEvent, curTick() + ticks(1), true);
}
bool
Device::rxFilter(const EthPacketPtr &packet)
{
if (!Regs::get_Config_Filter(regs.Config))
return false;
panic("receive filter not implemented\n");
bool drop = true;
#if 0
string type;
EthHdr *eth = packet->eth();
if (eth->unicast()) {
// If we're accepting all unicast addresses
if (acceptUnicast)
drop = false;
// If we make a perfect match
if (acceptPerfect && params->eaddr == eth.dst())
drop = false;
if (acceptArp && eth->type() == ETH_TYPE_ARP)
drop = false;
} else if (eth->broadcast()) {
// if we're accepting broadcasts
if (acceptBroadcast)
drop = false;
} else if (eth->multicast()) {
// if we're accepting all multicasts
if (acceptMulticast)
drop = false;
}
if (drop) {
DPRINTF(Ethernet, "rxFilter drop\n");
DDUMP(EthernetData, packet->data, packet->length);
}
#endif
return drop;
}
bool
Device::recvPacket(EthPacketPtr packet)
{
rxBytes += packet->length;
rxPackets++;
DPRINTF(Ethernet, "Receiving packet from wire, rxFifo Available is %d\n",
rxFifo.avail());
if (!rxEnable) {
DPRINTF(Ethernet, "receive disabled...packet dropped\n");
return true;
}
if (rxFilter(packet)) {
DPRINTF(Ethernet, "packet filtered...dropped\n");
return true;
}
if (rxFifo.size() >= regs.RxFifoHigh)
devIntrPost(Regs::Intr_RxHigh);
if (!rxFifo.push(packet)) {
DPRINTF(Ethernet,
"packet will not fit in receive buffer...packet dropped\n");
return false;
}
// If we were at the last element, back up one ot go to the new
// last element of the list.
if (rxFifoPtr == rxFifo.end())
--rxFifoPtr;
devIntrPost(Regs::Intr_RxPacket);
rxKick();
return true;
}
void
Device::resume()
{
SimObject::resume();
// During drain we could have left the state machines in a waiting state and
// they wouldn't get out until some other event occured to kick them.
// This way they'll get out immediately
txKick();
rxKick();
}
//=====================================================================
//
//
void
Base::serialize(std::ostream &os)
{
// Serialize the PciDev base class
PciDev::serialize(os);
SERIALIZE_SCALAR(rxEnable);
SERIALIZE_SCALAR(txEnable);
SERIALIZE_SCALAR(cpuIntrEnable);
/*
* Keep track of pending interrupt status.
*/
SERIALIZE_SCALAR(intrTick);
SERIALIZE_SCALAR(cpuPendingIntr);
Tick intrEventTick = 0;
if (intrEvent)
intrEventTick = intrEvent->when();
SERIALIZE_SCALAR(intrEventTick);
}
void
Base::unserialize(Checkpoint *cp, const std::string §ion)
{
// Unserialize the PciDev base class
PciDev::unserialize(cp, section);
UNSERIALIZE_SCALAR(rxEnable);
UNSERIALIZE_SCALAR(txEnable);
UNSERIALIZE_SCALAR(cpuIntrEnable);
/*
* Keep track of pending interrupt status.
*/
UNSERIALIZE_SCALAR(intrTick);
UNSERIALIZE_SCALAR(cpuPendingIntr);
Tick intrEventTick;
UNSERIALIZE_SCALAR(intrEventTick);
if (intrEventTick) {
intrEvent = new IntrEvent(this, true);
schedule(intrEvent, intrEventTick);
}
}
void
Device::serialize(std::ostream &os)
{
int count;
// Serialize the PciDev base class
Base::serialize(os);
if (rxState == rxCopy)
panic("can't serialize with an in flight dma request rxState=%s",
RxStateStrings[rxState]);
if (txState == txCopy)
panic("can't serialize with an in flight dma request txState=%s",
TxStateStrings[txState]);
/*
* Serialize the device registers that could be modified by the OS.
*/
SERIALIZE_SCALAR(regs.Config);
SERIALIZE_SCALAR(regs.IntrStatus);
SERIALIZE_SCALAR(regs.IntrMask);
SERIALIZE_SCALAR(regs.RxData);
SERIALIZE_SCALAR(regs.TxData);
/*
* Serialize the virtual nic state
*/
int virtualRegsSize = virtualRegs.size();
SERIALIZE_SCALAR(virtualRegsSize);
for (int i = 0; i < virtualRegsSize; ++i) {
VirtualReg *vnic = &virtualRegs[i];
std::string reg = csprintf("vnic%d", i);
paramOut(os, reg + ".RxData", vnic->RxData);
paramOut(os, reg + ".RxDone", vnic->RxDone);
paramOut(os, reg + ".TxData", vnic->TxData);
paramOut(os, reg + ".TxDone", vnic->TxDone);
bool rxPacketExists = vnic->rxIndex != rxFifo.end();
paramOut(os, reg + ".rxPacketExists", rxPacketExists);
if (rxPacketExists) {
int rxPacket = 0;
PacketFifo::iterator i = rxFifo.begin();
while (i != vnic->rxIndex) {
assert(i != rxFifo.end());
++i;
++rxPacket;
}
paramOut(os, reg + ".rxPacket", rxPacket);
paramOut(os, reg + ".rxPacketOffset", vnic->rxPacketOffset);
paramOut(os, reg + ".rxPacketBytes", vnic->rxPacketBytes);
}
paramOut(os, reg + ".rxDoneData", vnic->rxDoneData);
}
int rxFifoPtr = -1;
if (this->rxFifoPtr != rxFifo.end())
rxFifoPtr = rxFifo.countPacketsBefore(this->rxFifoPtr);
SERIALIZE_SCALAR(rxFifoPtr);
SERIALIZE_SCALAR(rxActive);
SERIALIZE_SCALAR(rxBusyCount);
SERIALIZE_SCALAR(rxDirtyCount);
SERIALIZE_SCALAR(rxMappedCount);
VirtualList::iterator i, end;
for (count = 0, i = rxList.begin(), end = rxList.end(); i != end; ++i)
paramOut(os, csprintf("rxList%d", count++), *i);
int rxListSize = count;
SERIALIZE_SCALAR(rxListSize);
for (count = 0, i = rxBusy.begin(), end = rxBusy.end(); i != end; ++i)
paramOut(os, csprintf("rxBusy%d", count++), *i);
int rxBusySize = count;
SERIALIZE_SCALAR(rxBusySize);
for (count = 0, i = txList.begin(), end = txList.end(); i != end; ++i)
paramOut(os, csprintf("txList%d", count++), *i);
int txListSize = count;
SERIALIZE_SCALAR(txListSize);
/*
* Serialize rx state machine
*/
int rxState = this->rxState;
SERIALIZE_SCALAR(rxState);
SERIALIZE_SCALAR(rxEmpty);
SERIALIZE_SCALAR(rxLow);
rxFifo.serialize("rxFifo", os);
/*
* Serialize tx state machine
*/
int txState = this->txState;
SERIALIZE_SCALAR(txState);
SERIALIZE_SCALAR(txFull);
txFifo.serialize("txFifo", os);
bool txPacketExists = txPacket;
SERIALIZE_SCALAR(txPacketExists);
if (txPacketExists) {
txPacket->serialize("txPacket", os);
SERIALIZE_SCALAR(txPacketOffset);
SERIALIZE_SCALAR(txPacketBytes);
}
/*
* If there's a pending transmit, store the time so we can
* reschedule it later
*/
Tick transmitTick = txEvent.scheduled() ? txEvent.when() - curTick() : 0;
SERIALIZE_SCALAR(transmitTick);
}
void
Device::unserialize(Checkpoint *cp, const std::string §ion)
{
// Unserialize the PciDev base class
Base::unserialize(cp, section);
/*
* Unserialize the device registers that may have been written by the OS.
*/
UNSERIALIZE_SCALAR(regs.Config);
UNSERIALIZE_SCALAR(regs.IntrStatus);
UNSERIALIZE_SCALAR(regs.IntrMask);
UNSERIALIZE_SCALAR(regs.RxData);
UNSERIALIZE_SCALAR(regs.TxData);
UNSERIALIZE_SCALAR(rxActive);
UNSERIALIZE_SCALAR(rxBusyCount);
UNSERIALIZE_SCALAR(rxDirtyCount);
UNSERIALIZE_SCALAR(rxMappedCount);
int rxListSize;
UNSERIALIZE_SCALAR(rxListSize);
rxList.clear();
for (int i = 0; i < rxListSize; ++i) {
int value;
paramIn(cp, section, csprintf("rxList%d", i), value);
rxList.push_back(value);
}
int rxBusySize;
UNSERIALIZE_SCALAR(rxBusySize);
rxBusy.clear();
for (int i = 0; i < rxBusySize; ++i) {
int value;
paramIn(cp, section, csprintf("rxBusy%d", i), value);
rxBusy.push_back(value);
}
int txListSize;
UNSERIALIZE_SCALAR(txListSize);
txList.clear();
for (int i = 0; i < txListSize; ++i) {
int value;
paramIn(cp, section, csprintf("txList%d", i), value);
txList.push_back(value);
}
/*
* Unserialize rx state machine
*/
int rxState;
UNSERIALIZE_SCALAR(rxState);
UNSERIALIZE_SCALAR(rxEmpty);
UNSERIALIZE_SCALAR(rxLow);
this->rxState = (RxState) rxState;
rxFifo.unserialize("rxFifo", cp, section);
int rxFifoPtr;
UNSERIALIZE_SCALAR(rxFifoPtr);
if (rxFifoPtr >= 0) {
this->rxFifoPtr = rxFifo.begin();
for (int i = 0; i < rxFifoPtr; ++i)
++this->rxFifoPtr;
} else {
this->rxFifoPtr = rxFifo.end();
}
/*
* Unserialize tx state machine
*/
int txState;
UNSERIALIZE_SCALAR(txState);
UNSERIALIZE_SCALAR(txFull);
this->txState = (TxState) txState;
txFifo.unserialize("txFifo", cp, section);
bool txPacketExists;
UNSERIALIZE_SCALAR(txPacketExists);
txPacket = 0;
if (txPacketExists) {
txPacket = new EthPacketData(16384);
txPacket->unserialize("txPacket", cp, section);
UNSERIALIZE_SCALAR(txPacketOffset);
UNSERIALIZE_SCALAR(txPacketBytes);
}
/*
* unserialize the virtual nic registers/state
*
* this must be done after the unserialization of the rxFifo
* because the packet iterators depend on the fifo being populated
*/
int virtualRegsSize;
UNSERIALIZE_SCALAR(virtualRegsSize);
virtualRegs.clear();
virtualRegs.resize(virtualRegsSize);
for (int i = 0; i < virtualRegsSize; ++i) {
VirtualReg *vnic = &virtualRegs[i];
std::string reg = csprintf("vnic%d", i);
paramIn(cp, section, reg + ".RxData", vnic->RxData);
paramIn(cp, section, reg + ".RxDone", vnic->RxDone);
paramIn(cp, section, reg + ".TxData", vnic->TxData);
paramIn(cp, section, reg + ".TxDone", vnic->TxDone);
vnic->rxUnique = rxUnique++;
vnic->txUnique = txUnique++;
bool rxPacketExists;
paramIn(cp, section, reg + ".rxPacketExists", rxPacketExists);
if (rxPacketExists) {
int rxPacket;
paramIn(cp, section, reg + ".rxPacket", rxPacket);
vnic->rxIndex = rxFifo.begin();
while (rxPacket--)
++vnic->rxIndex;
paramIn(cp, section, reg + ".rxPacketOffset",
vnic->rxPacketOffset);
paramIn(cp, section, reg + ".rxPacketBytes", vnic->rxPacketBytes);
} else {
vnic->rxIndex = rxFifo.end();
}
paramIn(cp, section, reg + ".rxDoneData", vnic->rxDoneData);
}
/*
* If there's a pending transmit, reschedule it now
*/
Tick transmitTick;
UNSERIALIZE_SCALAR(transmitTick);
if (transmitTick)
schedule(txEvent, curTick() + transmitTick);
pioPort->sendStatusChange(Port::RangeChange);
}
} // namespace Sinic
Sinic::Device *
SinicParams::create()
{
return new Sinic::Device(this);
}
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