gem5/dev/ns_gige.cc

2536 lines
71 KiB
C++
Raw Normal View History

/*
* Copyright (c) 2004 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.
*/
/* @file
* Device module for modelling the National Semiconductor
* DP83820 ethernet controller. Does not support priority queueing
*/
#include <cstdio>
#include <deque>
#include <string>
#include "base/inet.hh"
#include "cpu/exec_context.hh"
#include "cpu/intr_control.hh"
#include "dev/dma.hh"
#include "dev/etherlink.hh"
#include "dev/ns_gige.hh"
#include "dev/pciconfigall.hh"
#include "dev/tsunami_cchip.hh"
#include "mem/bus/bus.hh"
#include "mem/bus/dma_interface.hh"
#include "mem/bus/pio_interface.hh"
#include "mem/bus/pio_interface_impl.hh"
#include "mem/functional_mem/memory_control.hh"
#include "mem/functional_mem/physical_memory.hh"
#include "sim/builder.hh"
#include "sim/debug.hh"
#include "sim/host.hh"
#include "sim/sim_stats.hh"
#include "targetarch/vtophys.hh"
const char *NsRxStateStrings[] =
{
"rxIdle",
"rxDescRefr",
"rxDescRead",
"rxFifoBlock",
"rxFragWrite",
"rxDescWrite",
"rxAdvance"
};
const char *NsTxStateStrings[] =
{
"txIdle",
"txDescRefr",
"txDescRead",
"txFifoBlock",
"txFragRead",
"txDescWrite",
"txAdvance"
};
const char *NsDmaState[] =
{
"dmaIdle",
"dmaReading",
"dmaWriting",
"dmaReadWaiting",
"dmaWriteWaiting"
};
using namespace std;
///////////////////////////////////////////////////////////////////////
//
// NSGigE PCI Device
//
NSGigE::NSGigE(const std::string &name, IntrControl *i, Tick intr_delay,
PhysicalMemory *pmem, Tick tx_delay, Tick rx_delay,
MemoryController *mmu, HierParams *hier, Bus *header_bus,
Bus *payload_bus, Tick pio_latency, bool dma_desc_free,
bool dma_data_free, Tick dma_read_delay, Tick dma_write_delay,
Tick dma_read_factor, Tick dma_write_factor, PciConfigAll *cf,
PciConfigData *cd, Tsunami *t, uint32_t bus, uint32_t dev,
uint32_t func, bool rx_filter, const int eaddr[6],
uint32_t tx_fifo_size, uint32_t rx_fifo_size)
: PciDev(name, mmu, cf, cd, bus, dev, func), tsunami(t), ioEnable(false),
maxTxFifoSize(tx_fifo_size), maxRxFifoSize(rx_fifo_size),
txPacket(0), rxPacket(0), txPacketBufPtr(NULL), rxPacketBufPtr(NULL),
txXferLen(0), rxXferLen(0), txState(txIdle), txEnable(false),
CTDD(false), txFifoAvail(tx_fifo_size),
txFragPtr(0), txDescCnt(0), txDmaState(dmaIdle), rxState(rxIdle),
rxEnable(false), CRDD(false), rxPktBytes(0), rxFifoCnt(0),
rxFragPtr(0), rxDescCnt(0), rxDmaState(dmaIdle), extstsEnable(false),
rxDmaReadEvent(this), rxDmaWriteEvent(this),
txDmaReadEvent(this), txDmaWriteEvent(this),
dmaDescFree(dma_desc_free), dmaDataFree(dma_data_free),
txDelay(tx_delay), rxDelay(rx_delay), rxKickTick(0), txKickTick(0),
txEvent(this), rxFilterEnable(rx_filter), acceptBroadcast(false),
acceptMulticast(false), acceptUnicast(false),
acceptPerfect(false), acceptArp(false),
physmem(pmem), intctrl(i), intrTick(0), cpuPendingIntr(false),
intrEvent(0), interface(0)
{
tsunami->ethernet = this;
if (header_bus) {
pioInterface = newPioInterface(name, hier, header_bus, this,
&NSGigE::cacheAccess);
pioLatency = pio_latency * header_bus->clockRatio;
if (payload_bus)
dmaInterface = new DMAInterface<Bus>(name + ".dma",
header_bus, payload_bus, 1);
else
dmaInterface = new DMAInterface<Bus>(name + ".dma",
header_bus, header_bus, 1);
} else if (payload_bus) {
pioInterface = newPioInterface(name, hier, payload_bus, this,
&NSGigE::cacheAccess);
pioLatency = pio_latency * payload_bus->clockRatio;
dmaInterface = new DMAInterface<Bus>(name + ".dma", payload_bus,
payload_bus, 1);
}
intrDelay = US2Ticks(intr_delay);
dmaReadDelay = dma_read_delay;
dmaWriteDelay = dma_write_delay;
dmaReadFactor = dma_read_factor;
dmaWriteFactor = dma_write_factor;
regsReset();
rom.perfectMatch[0] = eaddr[0];
rom.perfectMatch[1] = eaddr[1];
rom.perfectMatch[2] = eaddr[2];
rom.perfectMatch[3] = eaddr[3];
rom.perfectMatch[4] = eaddr[4];
rom.perfectMatch[5] = eaddr[5];
}
NSGigE::~NSGigE()
{}
void
NSGigE::regStats()
{
txBytes
.name(name() + ".txBytes")
.desc("Bytes Transmitted")
.prereq(txBytes)
;
rxBytes
.name(name() + ".rxBytes")
.desc("Bytes Received")
.prereq(rxBytes)
;
txPackets
.name(name() + ".txPackets")
.desc("Number of Packets Transmitted")
.prereq(txBytes)
;
rxPackets
.name(name() + ".rxPackets")
.desc("Number of Packets Received")
.prereq(rxBytes)
;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
txIpChecksums
.name(name() + ".txIpChecksums")
.desc("Number of tx IP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxIpChecksums
.name(name() + ".rxIpChecksums")
.desc("Number of rx IP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
txTcpChecksums
.name(name() + ".txTcpChecksums")
.desc("Number of tx TCP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxTcpChecksums
.name(name() + ".rxTcpChecksums")
.desc("Number of rx TCP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
txUdpChecksums
.name(name() + ".txUdpChecksums")
.desc("Number of tx UDP Checksums done by device")
.precision(0)
.prereq(txBytes)
;
rxUdpChecksums
.name(name() + ".rxUdpChecksums")
.desc("Number of rx UDP Checksums done by device")
.precision(0)
.prereq(rxBytes)
;
descDmaReads
.name(name() + ".descDMAReads")
.desc("Number of descriptors the device read w/ DMA")
.precision(0)
;
descDmaWrites
.name(name() + ".descDMAWrites")
.desc("Number of descriptors the device wrote w/ DMA")
.precision(0)
;
descDmaRdBytes
.name(name() + ".descDmaReadBytes")
.desc("number of descriptor bytes read w/ DMA")
.precision(0)
;
descDmaWrBytes
.name(name() + ".descDmaWriteBytes")
.desc("number of descriptor bytes write w/ DMA")
.precision(0)
;
txBandwidth
.name(name() + ".txBandwidth")
.desc("Transmit Bandwidth (bits/s)")
.precision(0)
.prereq(txBytes)
;
rxBandwidth
.name(name() + ".rxBandwidth")
.desc("Receive Bandwidth (bits/s)")
.precision(0)
.prereq(rxBytes)
;
txPacketRate
.name(name() + ".txPPS")
.desc("Packet Tranmission Rate (packets/s)")
.precision(0)
.prereq(txBytes)
;
rxPacketRate
.name(name() + ".rxPPS")
.desc("Packet Reception Rate (packets/s)")
.precision(0)
.prereq(rxBytes)
;
txBandwidth = txBytes * Stats::constant(8) / simSeconds;
rxBandwidth = rxBytes * Stats::constant(8) / simSeconds;
txPacketRate = txPackets / simSeconds;
rxPacketRate = rxPackets / simSeconds;
}
/**
* This is to read the PCI general configuration registers
*/
void
NSGigE::ReadConfig(int offset, int size, uint8_t *data)
{
if (offset < PCI_DEVICE_SPECIFIC)
PciDev::ReadConfig(offset, size, data);
else
panic("Device specific PCI config space not implemented!\n");
}
/**
* This is to write to the PCI general configuration registers
*/
void
NSGigE::WriteConfig(int offset, int size, uint32_t data)
{
if (offset < PCI_DEVICE_SPECIFIC)
PciDev::WriteConfig(offset, size, data);
else
panic("Device specific PCI config space not implemented!\n");
// Need to catch writes to BARs to update the PIO interface
switch (offset) {
// seems to work fine without all these PCI settings, but i
// put in the IO to double check, an assertion will fail if we
// need to properly implement it
case PCI_COMMAND:
if (config.data[offset] & PCI_CMD_IOSE)
ioEnable = true;
else
ioEnable = false;
#if 0
if (config.data[offset] & PCI_CMD_BME) {
bmEnabled = true;
}
else {
bmEnabled = false;
}
if (config.data[offset] & PCI_CMD_MSE) {
memEnable = true;
}
else {
memEnable = false;
}
#endif
break;
case PCI0_BASE_ADDR0:
if (BARAddrs[0] != 0) {
if (pioInterface)
pioInterface->addAddrRange(BARAddrs[0],
BARAddrs[0] + BARSize[0] - 1);
BARAddrs[0] &= PA_UNCACHED_MASK;
}
break;
case PCI0_BASE_ADDR1:
if (BARAddrs[1] != 0) {
if (pioInterface)
pioInterface->addAddrRange(BARAddrs[1],
BARAddrs[1] + BARSize[1] - 1);
BARAddrs[1] &= PA_UNCACHED_MASK;
}
break;
}
}
/**
* This reads the device registers, which are detailed in the NS83820
* spec sheet
*/
Fault
NSGigE::read(MemReqPtr &req, uint8_t *data)
{
assert(ioEnable);
//The mask is to give you only the offset into the device register file
Addr daddr = req->paddr & 0xfff;
DPRINTF(EthernetPIO, "read da=%#x pa=%#x va=%#x size=%d\n",
daddr, req->paddr, req->vaddr, req->size);
// there are some reserved registers, you can see ns_gige_reg.h and
// the spec sheet for details
if (daddr > LAST && daddr <= RESERVED) {
panic("Accessing reserved register");
} else if (daddr > RESERVED && daddr <= 0x3FC) {
ReadConfig(daddr & 0xff, req->size, data);
return No_Fault;
} else if (daddr >= MIB_START && daddr <= MIB_END) {
// don't implement all the MIB's. hopefully the kernel
// doesn't actually DEPEND upon their values
// MIB are just hardware stats keepers
uint32_t &reg = *(uint32_t *) data;
reg = 0;
return No_Fault;
} else if (daddr > 0x3FC)
panic("Something is messed up!\n");
switch (req->size) {
case sizeof(uint32_t):
{
uint32_t &reg = *(uint32_t *)data;
switch (daddr) {
case CR:
reg = regs.command;
//these are supposed to be cleared on a read
reg &= ~(CR_RXD | CR_TXD | CR_TXR | CR_RXR);
break;
case CFG:
reg = regs.config;
break;
case MEAR:
reg = regs.mear;
break;
case PTSCR:
reg = regs.ptscr;
break;
case ISR:
reg = regs.isr;
devIntrClear(ISR_ALL);
break;
case IMR:
reg = regs.imr;
break;
case IER:
reg = regs.ier;
break;
case IHR:
reg = regs.ihr;
break;
case TXDP:
reg = regs.txdp;
break;
case TXDP_HI:
reg = regs.txdp_hi;
break;
case TXCFG:
reg = regs.txcfg;
break;
case GPIOR:
reg = regs.gpior;
break;
case RXDP:
reg = regs.rxdp;
break;
case RXDP_HI:
reg = regs.rxdp_hi;
break;
case RXCFG:
reg = regs.rxcfg;
break;
case PQCR:
reg = regs.pqcr;
break;
case WCSR:
reg = regs.wcsr;
break;
case PCR:
reg = regs.pcr;
break;
// see the spec sheet for how RFCR and RFDR work
// basically, you write to RFCR to tell the machine
// what you want to do next, then you act upon RFDR,
// and the device will be prepared b/c of what you
// wrote to RFCR
case RFCR:
reg = regs.rfcr;
break;
case RFDR:
switch (regs.rfcr & RFCR_RFADDR) {
case 0x000:
reg = rom.perfectMatch[1];
reg = reg << 8;
reg += rom.perfectMatch[0];
break;
case 0x002:
reg = rom.perfectMatch[3] << 8;
reg += rom.perfectMatch[2];
break;
case 0x004:
reg = rom.perfectMatch[5] << 8;
reg += rom.perfectMatch[4];
break;
default:
panic("reading RFDR for something other than PMATCH!\n");
// didn't implement other RFDR functionality b/c
// driver didn't use it
}
break;
case SRR:
reg = regs.srr;
break;
case MIBC:
reg = regs.mibc;
reg &= ~(MIBC_MIBS | MIBC_ACLR);
break;
case VRCR:
reg = regs.vrcr;
break;
case VTCR:
reg = regs.vtcr;
break;
case VDR:
reg = regs.vdr;
break;
case CCSR:
reg = regs.ccsr;
break;
case TBICR:
reg = regs.tbicr;
break;
case TBISR:
reg = regs.tbisr;
break;
case TANAR:
reg = regs.tanar;
break;
case TANLPAR:
reg = regs.tanlpar;
break;
case TANER:
reg = regs.taner;
break;
case TESR:
reg = regs.tesr;
break;
default:
panic("reading unimplemented register: addr=%#x", daddr);
}
DPRINTF(EthernetPIO, "read from %#x: data=%d data=%#x\n",
daddr, reg, reg);
}
break;
default:
panic("accessing register with invalid size: addr=%#x, size=%d",
daddr, req->size);
}
return No_Fault;
}
Fault
NSGigE::write(MemReqPtr &req, const uint8_t *data)
{
assert(ioEnable);
Addr daddr = req->paddr & 0xfff;
DPRINTF(EthernetPIO, "write da=%#x pa=%#x va=%#x size=%d\n",
daddr, req->paddr, req->vaddr, req->size);
if (daddr > LAST && daddr <= RESERVED) {
panic("Accessing reserved register");
} else if (daddr > RESERVED && daddr <= 0x3FC) {
WriteConfig(daddr & 0xff, req->size, *(uint32_t *)data);
return No_Fault;
} else if (daddr > 0x3FC)
panic("Something is messed up!\n");
if (req->size == sizeof(uint32_t)) {
uint32_t reg = *(uint32_t *)data;
DPRINTF(EthernetPIO, "write data=%d data=%#x\n", reg, reg);
switch (daddr) {
case CR:
regs.command = reg;
if (reg & CR_TXD) {
txEnable = false;
} else if (reg & CR_TXE) {
txEnable = true;
// the kernel is enabling the transmit machine
if (txState == txIdle)
txKick();
}
if (reg & CR_RXD) {
rxEnable = false;
} else if (reg & CR_RXE) {
rxEnable = true;
if (rxState == rxIdle)
rxKick();
}
if (reg & CR_TXR)
txReset();
if (reg & CR_RXR)
rxReset();
if (reg & CR_SWI)
devIntrPost(ISR_SWI);
if (reg & CR_RST) {
txReset();
rxReset();
regsReset();
}
break;
case CFG:
if (reg & CFG_LNKSTS ||
reg & CFG_SPDSTS ||
reg & CFG_DUPSTS ||
reg & CFG_RESERVED ||
reg & CFG_T64ADDR ||
reg & CFG_PCI64_DET)
panic("writing to read-only or reserved CFG bits!\n");
regs.config |= reg & ~(CFG_LNKSTS | CFG_SPDSTS | CFG_DUPSTS |
CFG_RESERVED | CFG_T64ADDR | CFG_PCI64_DET);
// all these #if 0's are because i don't THINK the kernel needs to
// have these implemented. if there is a problem relating to one of
// these, you may need to add functionality in.
#if 0
if (reg & CFG_TBI_EN) ;
if (reg & CFG_MODE_1000) ;
#endif
if (reg & CFG_AUTO_1000)
panic("CFG_AUTO_1000 not implemented!\n");
#if 0
if (reg & CFG_PINT_DUPSTS ||
reg & CFG_PINT_LNKSTS ||
reg & CFG_PINT_SPDSTS)
;
if (reg & CFG_TMRTEST) ;
if (reg & CFG_MRM_DIS) ;
if (reg & CFG_MWI_DIS) ;
if (reg & CFG_T64ADDR)
panic("CFG_T64ADDR is read only register!\n");
if (reg & CFG_PCI64_DET)
panic("CFG_PCI64_DET is read only register!\n");
if (reg & CFG_DATA64_EN) ;
if (reg & CFG_M64ADDR) ;
if (reg & CFG_PHY_RST) ;
if (reg & CFG_PHY_DIS) ;
#endif
if (reg & CFG_EXTSTS_EN)
extstsEnable = true;
else
extstsEnable = false;
#if 0
if (reg & CFG_REQALG) ;
if (reg & CFG_SB) ;
if (reg & CFG_POW) ;
if (reg & CFG_EXD) ;
if (reg & CFG_PESEL) ;
if (reg & CFG_BROM_DIS) ;
if (reg & CFG_EXT_125) ;
if (reg & CFG_BEM) ;
#endif
break;
case MEAR:
regs.mear = reg;
// since phy is completely faked, MEAR_MD* don't matter
// and since the driver never uses MEAR_EE*, they don't
// matter
#if 0
if (reg & MEAR_EEDI) ;
if (reg & MEAR_EEDO) ; // this one is read only
if (reg & MEAR_EECLK) ;
if (reg & MEAR_EESEL) ;
if (reg & MEAR_MDIO) ;
if (reg & MEAR_MDDIR) ;
if (reg & MEAR_MDC) ;
#endif
break;
case PTSCR:
regs.ptscr = reg & ~(PTSCR_RBIST_RDONLY);
// these control BISTs for various parts of chip - we
// don't care or do just fake that the BIST is done
if (reg & PTSCR_RBIST_EN)
regs.ptscr |= PTSCR_RBIST_DONE;
if (reg & PTSCR_EEBIST_EN)
regs.ptscr &= ~PTSCR_EEBIST_EN;
if (reg & PTSCR_EELOAD_EN)
regs.ptscr &= ~PTSCR_EELOAD_EN;
break;
case ISR: /* writing to the ISR has no effect */
panic("ISR is a read only register!\n");
case IMR:
regs.imr = reg;
devIntrChangeMask();
break;
case IER:
regs.ier = reg;
break;
case IHR:
regs.ihr = reg;
/* not going to implement real interrupt holdoff */
break;
case TXDP:
regs.txdp = (reg & 0xFFFFFFFC);
assert(txState == txIdle);
CTDD = false;
break;
case TXDP_HI:
regs.txdp_hi = reg;
break;
case TXCFG:
regs.txcfg = reg;
#if 0
if (reg & TXCFG_CSI) ;
if (reg & TXCFG_HBI) ;
if (reg & TXCFG_MLB) ;
if (reg & TXCFG_ATP) ;
if (reg & TXCFG_ECRETRY) {
/*
* this could easily be implemented, but considering
* the network is just a fake pipe, wouldn't make
* sense to do this
*/
}
if (reg & TXCFG_BRST_DIS) ;
#endif
#if 0
/* we handle our own DMA, ignore the kernel's exhortations */
if (reg & TXCFG_MXDMA) ;
#endif
// also, we currently don't care about fill/drain
// thresholds though this may change in the future with
// more realistic networks or a driver which changes it
// according to feedback
break;
case GPIOR:
regs.gpior = reg;
/* these just control general purpose i/o pins, don't matter */
break;
case RXDP:
regs.rxdp = reg;
CRDD = false;
break;
case RXDP_HI:
regs.rxdp_hi = reg;
break;
case RXCFG:
regs.rxcfg = reg;
#if 0
if (reg & RXCFG_AEP) ;
if (reg & RXCFG_ARP) ;
if (reg & RXCFG_STRIPCRC) ;
if (reg & RXCFG_RX_RD) ;
if (reg & RXCFG_ALP) ;
if (reg & RXCFG_AIRL) ;
/* we handle our own DMA, ignore what kernel says about it */
if (reg & RXCFG_MXDMA) ;
//also, we currently don't care about fill/drain thresholds
//though this may change in the future with more realistic
//networks or a driver which changes it according to feedback
if (reg & (RXCFG_DRTH | RXCFG_DRTH0)) ;
#endif
break;
case PQCR:
/* there is no priority queueing used in the linux 2.6 driver */
regs.pqcr = reg;
break;
case WCSR:
/* not going to implement wake on LAN */
regs.wcsr = reg;
break;
case PCR:
/* not going to implement pause control */
regs.pcr = reg;
break;
case RFCR:
regs.rfcr = reg;
rxFilterEnable = (reg & RFCR_RFEN) ? true : false;
acceptBroadcast = (reg & RFCR_AAB) ? true : false;
acceptMulticast = (reg & RFCR_AAM) ? true : false;
acceptUnicast = (reg & RFCR_AAU) ? true : false;
acceptPerfect = (reg & RFCR_APM) ? true : false;
acceptArp = (reg & RFCR_AARP) ? true : false;
#if 0
if (reg & RFCR_APAT)
panic("RFCR_APAT not implemented!\n");
#endif
if (reg & RFCR_MHEN || reg & RFCR_UHEN)
panic("hash filtering not implemented!\n");
if (reg & RFCR_ULM)
panic("RFCR_ULM not implemented!\n");
break;
case RFDR:
panic("the driver never writes to RFDR, something is wrong!\n");
case BRAR:
panic("the driver never uses BRAR, something is wrong!\n");
case BRDR:
panic("the driver never uses BRDR, something is wrong!\n");
case SRR:
panic("SRR is read only register!\n");
case MIBC:
panic("the driver never uses MIBC, something is wrong!\n");
case VRCR:
regs.vrcr = reg;
break;
case VTCR:
regs.vtcr = reg;
break;
case VDR:
panic("the driver never uses VDR, something is wrong!\n");
break;
case CCSR:
/* not going to implement clockrun stuff */
regs.ccsr = reg;
break;
case TBICR:
regs.tbicr = reg;
if (reg & TBICR_MR_LOOPBACK)
panic("TBICR_MR_LOOPBACK never used, something wrong!\n");
if (reg & TBICR_MR_AN_ENABLE) {
regs.tanlpar = regs.tanar;
regs.tbisr |= (TBISR_MR_AN_COMPLETE | TBISR_MR_LINK_STATUS);
}
#if 0
if (reg & TBICR_MR_RESTART_AN) ;
#endif
break;
case TBISR:
panic("TBISR is read only register!\n");
case TANAR:
regs.tanar = reg;
if (reg & TANAR_PS2)
panic("this isn't used in driver, something wrong!\n");
if (reg & TANAR_PS1)
panic("this isn't used in driver, something wrong!\n");
break;
case TANLPAR:
panic("this should only be written to by the fake phy!\n");
case TANER:
panic("TANER is read only register!\n");
case TESR:
regs.tesr = reg;
break;
default:
panic("invalid register access daddr=%#x", daddr);
}
} else {
panic("Invalid Request Size");
}
return No_Fault;
}
void
NSGigE::devIntrPost(uint32_t interrupts)
{
if (interrupts & ISR_RESERVE)
panic("Cannot set a reserved interrupt");
if (interrupts & ISR_NOIMPL)
warn("interrupt not implemented %#x\n", interrupts);
interrupts &= ~ISR_NOIMPL;
regs.isr |= interrupts;
DPRINTF(EthernetIntr,
"interrupt written to ISR: intr=%#x isr=%#x imr=%#x\n",
interrupts, regs.isr, regs.imr);
if ((regs.isr & regs.imr)) {
Tick when = curTick;
if (!(regs.isr & regs.imr & ISR_NODELAY))
when += intrDelay;
cpuIntrPost(when);
}
}
void
NSGigE::devIntrClear(uint32_t interrupts)
{
if (interrupts & ISR_RESERVE)
panic("Cannot clear a reserved interrupt");
interrupts &= ~ISR_NOIMPL;
regs.isr &= ~interrupts;
DPRINTF(EthernetIntr,
"interrupt cleared from ISR: intr=%x isr=%x imr=%x\n",
interrupts, regs.isr, regs.imr);
if (!(regs.isr & regs.imr))
cpuIntrClear();
}
void
NSGigE::devIntrChangeMask()
{
DPRINTF(EthernetIntr, "interrupt mask changed: isr=%x imr=%x masked=%x\n",
regs.isr, regs.imr, regs.isr & regs.imr);
if (regs.isr & regs.imr)
cpuIntrPost(curTick);
else
cpuIntrClear();
}
void
NSGigE::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 (when > intrTick && intrTick != 0) {
DPRINTF(EthernetIntr, "don't need to schedule event...intrTick=%d\n",
intrTick);
return;
}
intrTick = when;
if (intrTick < curTick) {
debug_break();
intrTick = curTick;
}
DPRINTF(EthernetIntr, "going to schedule an interrupt for intrTick=%d\n",
intrTick);
if (intrEvent)
intrEvent->squash();
intrEvent = new IntrEvent(this, true);
intrEvent->schedule(intrTick);
}
void
NSGigE::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 cchip interrupt\n");
tsunami->cchip->postDRIR(configData->config.hdr.pci0.interruptLine);
}
}
void
NSGigE::cpuIntrClear()
{
if (!cpuPendingIntr)
return;
if (intrEvent) {
intrEvent->squash();
intrEvent = 0;
}
intrTick = 0;
cpuPendingIntr = false;
DPRINTF(EthernetIntr, "clearing cchip interrupt\n");
tsunami->cchip->clearDRIR(configData->config.hdr.pci0.interruptLine);
}
bool
NSGigE::cpuIntrPending() const
{ return cpuPendingIntr; }
void
NSGigE::txReset()
{
DPRINTF(Ethernet, "transmit reset\n");
CTDD = false;
txFifoAvail = maxTxFifoSize;
txEnable = false;;
txFragPtr = 0;
assert(txDescCnt == 0);
txFifo.clear();
txState = txIdle;
assert(txDmaState == dmaIdle);
}
void
NSGigE::rxReset()
{
DPRINTF(Ethernet, "receive reset\n");
CRDD = false;
assert(rxPktBytes == 0);
rxFifoCnt = 0;
rxEnable = false;
rxFragPtr = 0;
assert(rxDescCnt == 0);
assert(rxDmaState == dmaIdle);
rxFifo.clear();
rxState = rxIdle;
}
void
NSGigE::regsReset()
{
memset(&regs, 0, sizeof(regs));
regs.config = CFG_LNKSTS;
regs.mear = MEAR_MDDIR | MEAR_EEDO;
regs.txcfg = 0x120; // set drain threshold to 1024 bytes and
// fill threshold to 32 bytes
regs.rxcfg = 0x4; // set drain threshold to 16 bytes
regs.srr = 0x0103; // set the silicon revision to rev B or 0x103
regs.mibc = MIBC_FRZ;
regs.vdr = 0x81; // set the vlan tag type to 802.1q
regs.tesr = 0xc000; // TBI capable of both full and half duplex
extstsEnable = false;
acceptBroadcast = false;
acceptMulticast = false;
acceptUnicast = false;
acceptPerfect = false;
acceptArp = false;
}
void
NSGigE::rxDmaReadCopy()
{
assert(rxDmaState == dmaReading);
physmem->dma_read((uint8_t *)rxDmaData, rxDmaAddr, rxDmaLen);
rxDmaState = dmaIdle;
DPRINTF(EthernetDMA, "rx dma read paddr=%#x len=%d\n",
rxDmaAddr, rxDmaLen);
DDUMP(EthernetDMA, rxDmaData, rxDmaLen);
}
bool
NSGigE::doRxDmaRead()
{
assert(rxDmaState == dmaIdle || rxDmaState == dmaReadWaiting);
rxDmaState = dmaReading;
if (dmaInterface && !rxDmaFree) {
if (dmaInterface->busy())
rxDmaState = dmaReadWaiting;
else
dmaInterface->doDMA(Read, rxDmaAddr, rxDmaLen, curTick,
&rxDmaReadEvent, true);
return true;
}
if (dmaReadDelay == 0 && dmaReadFactor == 0) {
rxDmaReadCopy();
return false;
}
Tick factor = ((rxDmaLen + ULL(63)) >> ULL(6)) * dmaReadFactor;
Tick start = curTick + dmaReadDelay + factor;
rxDmaReadEvent.schedule(start);
return true;
}
void
NSGigE::rxDmaReadDone()
{
assert(rxDmaState == dmaReading);
rxDmaReadCopy();
// If the transmit state machine has a pending DMA, let it go first
if (txDmaState == dmaReadWaiting || txDmaState == dmaWriteWaiting)
txKick();
rxKick();
}
void
NSGigE::rxDmaWriteCopy()
{
assert(rxDmaState == dmaWriting);
physmem->dma_write(rxDmaAddr, (uint8_t *)rxDmaData, rxDmaLen);
rxDmaState = dmaIdle;
DPRINTF(EthernetDMA, "rx dma write paddr=%#x len=%d\n",
rxDmaAddr, rxDmaLen);
DDUMP(EthernetDMA, rxDmaData, rxDmaLen);
}
bool
NSGigE::doRxDmaWrite()
{
assert(rxDmaState == dmaIdle || rxDmaState == dmaWriteWaiting);
rxDmaState = dmaWriting;
if (dmaInterface && !rxDmaFree) {
if (dmaInterface->busy())
rxDmaState = dmaWriteWaiting;
else
dmaInterface->doDMA(WriteInvalidate, rxDmaAddr, rxDmaLen, curTick,
&rxDmaWriteEvent, true);
return true;
}
if (dmaWriteDelay == 0 && dmaWriteFactor == 0) {
rxDmaWriteCopy();
return false;
}
Tick factor = ((rxDmaLen + ULL(63)) >> ULL(6)) * dmaWriteFactor;
Tick start = curTick + dmaWriteDelay + factor;
rxDmaWriteEvent.schedule(start);
return true;
}
void
NSGigE::rxDmaWriteDone()
{
assert(rxDmaState == dmaWriting);
rxDmaWriteCopy();
// If the transmit state machine has a pending DMA, let it go first
if (txDmaState == dmaReadWaiting || txDmaState == dmaWriteWaiting)
txKick();
rxKick();
}
void
NSGigE::rxKick()
{
DPRINTF(EthernetSM, "receive kick rxState=%s (rxBuf.size=%d)\n",
NsRxStateStrings[rxState], rxFifo.size());
if (rxKickTick > curTick) {
DPRINTF(EthernetSM, "receive kick exiting, can't run till %d\n",
rxKickTick);
return;
}
next:
switch(rxDmaState) {
case dmaReadWaiting:
if (doRxDmaRead())
goto exit;
break;
case dmaWriteWaiting:
if (doRxDmaWrite())
goto exit;
break;
default:
break;
}
// see state machine from spec for details
// the way this works is, if you finish work on one state and can
// go directly to another, you do that through jumping to the
// label "next". however, if you have intermediate work, like DMA
// so that you can't go to the next state yet, you go to exit and
// exit the loop. however, when the DMA is done it will trigger
// an event and come back to this loop.
switch (rxState) {
case rxIdle:
if (!rxEnable) {
DPRINTF(EthernetSM, "Receive Disabled! Nothing to do.\n");
goto exit;
}
if (CRDD) {
rxState = rxDescRefr;
rxDmaAddr = regs.rxdp & 0x3fffffff;
rxDmaData = &rxDescCache + offsetof(ns_desc, link);
rxDmaLen = sizeof(rxDescCache.link);
rxDmaFree = dmaDescFree;
descDmaReads++;
descDmaRdBytes += rxDmaLen;
if (doRxDmaRead())
goto exit;
} else {
rxState = rxDescRead;
rxDmaAddr = regs.rxdp & 0x3fffffff;
rxDmaData = &rxDescCache;
rxDmaLen = sizeof(ns_desc);
rxDmaFree = dmaDescFree;
descDmaReads++;
descDmaRdBytes += rxDmaLen;
if (doRxDmaRead())
goto exit;
}
break;
case rxDescRefr:
if (rxDmaState != dmaIdle)
goto exit;
rxState = rxAdvance;
break;
case rxDescRead:
if (rxDmaState != dmaIdle)
goto exit;
DPRINTF(EthernetDesc,
"rxDescCache: addr=%08x read descriptor\n",
regs.rxdp & 0x3fffffff);
DPRINTF(EthernetDesc,
"rxDescCache: link=%08x bufptr=%08x cmdsts=%08x extsts=%08x\n",
rxDescCache.link, rxDescCache.bufptr, rxDescCache.cmdsts,
rxDescCache.extsts);
if (rxDescCache.cmdsts & CMDSTS_OWN) {
devIntrPost(ISR_RXIDLE);
rxState = rxIdle;
goto exit;
} else {
rxState = rxFifoBlock;
rxFragPtr = rxDescCache.bufptr;
rxDescCnt = rxDescCache.cmdsts & CMDSTS_LEN_MASK;
}
break;
case rxFifoBlock:
if (!rxPacket) {
/**
* @todo in reality, we should be able to start processing
* the packet as it arrives, and not have to wait for the
* full packet ot be in the receive fifo.
*/
if (rxFifo.empty())
goto exit;
DPRINTF(EthernetSM, "****processing receive of new packet****\n");
// If we don't have a packet, grab a new one from the fifo.
rxPacket = rxFifo.front();
rxPktBytes = rxPacket->length;
rxPacketBufPtr = rxPacket->data;
#if TRACING_ON
if (DTRACE(Ethernet)) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
const IpHdr *ip = rxPacket->ip();
if (ip) {
DPRINTF(Ethernet, "ID is %d\n", ip->id());
const TcpHdr *tcp = rxPacket->tcp();
if (tcp) {
DPRINTF(Ethernet, "Src Port=%d, Dest Port=%d\n",
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
tcp->sport(), tcp->dport());
}
}
}
#endif
// sanity check - i think the driver behaves like this
assert(rxDescCnt >= rxPktBytes);
// Must clear the value before popping to decrement the
// reference count
rxFifo.front() = NULL;
rxFifo.pop_front();
rxFifoCnt -= rxPacket->length;
}
// dont' need the && rxDescCnt > 0 if driver sanity check
// above holds
if (rxPktBytes > 0) {
rxState = rxFragWrite;
// don't need min<>(rxPktBytes,rxDescCnt) if above sanity
// check holds
rxXferLen = rxPktBytes;
rxDmaAddr = rxFragPtr & 0x3fffffff;
rxDmaData = rxPacketBufPtr;
rxDmaLen = rxXferLen;
rxDmaFree = dmaDataFree;
if (doRxDmaWrite())
goto exit;
} else {
rxState = rxDescWrite;
//if (rxPktBytes == 0) { /* packet is done */
assert(rxPktBytes == 0);
DPRINTF(EthernetSM, "done with receiving packet\n");
rxDescCache.cmdsts |= CMDSTS_OWN;
rxDescCache.cmdsts &= ~CMDSTS_MORE;
rxDescCache.cmdsts |= CMDSTS_OK;
rxDescCache.cmdsts &= 0xffff0000;
rxDescCache.cmdsts += rxPacket->length; //i.e. set CMDSTS_SIZE
#if 0
/*
* all the driver uses these are for its own stats keeping
* which we don't care about, aren't necessary for
* functionality and doing this would just slow us down.
* if they end up using this in a later version for
* functional purposes, just undef
*/
if (rxFilterEnable) {
rxDescCache.cmdsts &= ~CMDSTS_DEST_MASK;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
EthHdr *eth = rxFifoFront()->eth();
if (eth->unicast())
rxDescCache.cmdsts |= CMDSTS_DEST_SELF;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
if (eth->multicast())
rxDescCache.cmdsts |= CMDSTS_DEST_MULTI;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
if (eth->broadcast())
rxDescCache.cmdsts |= CMDSTS_DEST_MASK;
}
#endif
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
if (extstsEnable && rxPacket->ip()) {
rxDescCache.extsts |= EXTSTS_IPPKT;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxIpChecksums++;
IpHdr *ip = rxPacket->ip();
if (ip->ip_cksum() != 0) {
DPRINTF(EthernetCksum, "Rx IP Checksum Error\n");
rxDescCache.extsts |= EXTSTS_IPERR;
}
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
if (rxPacket->tcp()) {
rxDescCache.extsts |= EXTSTS_TCPPKT;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxTcpChecksums++;
if (ip->tu_cksum() != 0) {
DPRINTF(EthernetCksum, "Rx TCP Checksum Error\n");
rxDescCache.extsts |= EXTSTS_TCPERR;
}
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
} else if (rxPacket->udp()) {
rxDescCache.extsts |= EXTSTS_UDPPKT;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxUdpChecksums++;
if (ip->tu_cksum() != 0) {
DPRINTF(EthernetCksum, "Rx UDP Checksum Error\n");
rxDescCache.extsts |= EXTSTS_UDPERR;
}
}
}
rxPacket = 0;
/*
* the driver seems to always receive into desc buffers
* of size 1514, so you never have a pkt that is split
* into multiple descriptors on the receive side, so
* i don't implement that case, hence the assert above.
*/
DPRINTF(EthernetDesc,
"rxDescCache: addr=%08x writeback cmdsts extsts\n",
regs.rxdp & 0x3fffffff);
DPRINTF(EthernetDesc,
"rxDescCache: link=%08x bufptr=%08x cmdsts=%08x extsts=%08x\n",
rxDescCache.link, rxDescCache.bufptr, rxDescCache.cmdsts,
rxDescCache.extsts);
rxDmaAddr = (regs.rxdp + offsetof(ns_desc, cmdsts)) & 0x3fffffff;
rxDmaData = &(rxDescCache.cmdsts);
rxDmaLen = sizeof(rxDescCache.cmdsts) + sizeof(rxDescCache.extsts);
rxDmaFree = dmaDescFree;
descDmaWrites++;
descDmaWrBytes += rxDmaLen;
if (doRxDmaWrite())
goto exit;
}
break;
case rxFragWrite:
if (rxDmaState != dmaIdle)
goto exit;
rxPacketBufPtr += rxXferLen;
rxFragPtr += rxXferLen;
rxPktBytes -= rxXferLen;
rxState = rxFifoBlock;
break;
case rxDescWrite:
if (rxDmaState != dmaIdle)
goto exit;
assert(rxDescCache.cmdsts & CMDSTS_OWN);
assert(rxPacket == 0);
devIntrPost(ISR_RXOK);
if (rxDescCache.cmdsts & CMDSTS_INTR)
devIntrPost(ISR_RXDESC);
if (!rxEnable) {
DPRINTF(EthernetSM, "Halting the RX state machine\n");
rxState = rxIdle;
goto exit;
} else
rxState = rxAdvance;
break;
case rxAdvance:
if (rxDescCache.link == 0) {
devIntrPost(ISR_RXIDLE);
rxState = rxIdle;
CRDD = true;
goto exit;
} else {
rxState = rxDescRead;
regs.rxdp = rxDescCache.link;
CRDD = false;
rxDmaAddr = regs.rxdp & 0x3fffffff;
rxDmaData = &rxDescCache;
rxDmaLen = sizeof(ns_desc);
rxDmaFree = dmaDescFree;
if (doRxDmaRead())
goto exit;
}
break;
default:
panic("Invalid rxState!");
}
DPRINTF(EthernetSM, "entering next rxState=%s\n",
NsRxStateStrings[rxState]);
goto next;
exit:
/**
* @todo do we want to schedule a future kick?
*/
DPRINTF(EthernetSM, "rx state machine exited rxState=%s\n",
NsRxStateStrings[rxState]);
}
void
NSGigE::transmit()
{
if (txFifo.empty()) {
DPRINTF(Ethernet, "nothing to transmit\n");
return;
}
DPRINTF(Ethernet, "Attempt Pkt Transmit: txFifo length=%d\n",
maxTxFifoSize - txFifoAvail);
if (interface->sendPacket(txFifo.front())) {
#if TRACING_ON
if (DTRACE(Ethernet)) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
const IpHdr *ip = txFifo.front()->ip();
if (ip) {
DPRINTF(Ethernet, "ID is %d\n", ip->id());
const TcpHdr *tcp = txFifo.front()->tcp();
if (tcp) {
DPRINTF(Ethernet, "Src Port=%d, Dest Port=%d\n",
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
tcp->sport(), tcp->dport());
}
}
}
#endif
DDUMP(Ethernet, txFifo.front()->data, txFifo.front()->length);
txBytes += txFifo.front()->length;
txPackets++;
txFifoAvail += txFifo.front()->length;
DPRINTF(Ethernet, "Successful Xmit! now txFifoAvail is %d\n",
txFifoAvail);
txFifo.front() = NULL;
txFifo.pop_front();
/*
* normally do a writeback of the descriptor here, and ONLY
* after that is done, send this interrupt. but since our
* stuff never actually fails, just do this interrupt here,
* otherwise the code has to stray from this nice format.
* besides, it's functionally the same.
*/
devIntrPost(ISR_TXOK);
} else {
DPRINTF(Ethernet,
"May need to rethink always sending the descriptors back?\n");
}
if (!txFifo.empty() && !txEvent.scheduled()) {
DPRINTF(Ethernet, "reschedule transmit\n");
txEvent.schedule(curTick + 1000);
}
}
void
NSGigE::txDmaReadCopy()
{
assert(txDmaState == dmaReading);
physmem->dma_read((uint8_t *)txDmaData, txDmaAddr, txDmaLen);
txDmaState = dmaIdle;
DPRINTF(EthernetDMA, "tx dma read paddr=%#x len=%d\n",
txDmaAddr, txDmaLen);
DDUMP(EthernetDMA, txDmaData, txDmaLen);
}
bool
NSGigE::doTxDmaRead()
{
assert(txDmaState == dmaIdle || txDmaState == dmaReadWaiting);
txDmaState = dmaReading;
if (dmaInterface && !txDmaFree) {
if (dmaInterface->busy())
txDmaState = dmaReadWaiting;
else
dmaInterface->doDMA(Read, txDmaAddr, txDmaLen, curTick,
&txDmaReadEvent, true);
return true;
}
if (dmaReadDelay == 0 && dmaReadFactor == 0.0) {
txDmaReadCopy();
return false;
}
Tick factor = ((txDmaLen + ULL(63)) >> ULL(6)) * dmaReadFactor;
Tick start = curTick + dmaReadDelay + factor;
txDmaReadEvent.schedule(start);
return true;
}
void
NSGigE::txDmaReadDone()
{
assert(txDmaState == dmaReading);
txDmaReadCopy();
// If the receive state machine has a pending DMA, let it go first
if (rxDmaState == dmaReadWaiting || rxDmaState == dmaWriteWaiting)
rxKick();
txKick();
}
void
NSGigE::txDmaWriteCopy()
{
assert(txDmaState == dmaWriting);
physmem->dma_write(txDmaAddr, (uint8_t *)txDmaData, txDmaLen);
txDmaState = dmaIdle;
DPRINTF(EthernetDMA, "tx dma write paddr=%#x len=%d\n",
txDmaAddr, txDmaLen);
DDUMP(EthernetDMA, txDmaData, txDmaLen);
}
bool
NSGigE::doTxDmaWrite()
{
assert(txDmaState == dmaIdle || txDmaState == dmaWriteWaiting);
txDmaState = dmaWriting;
if (dmaInterface && !txDmaFree) {
if (dmaInterface->busy())
txDmaState = dmaWriteWaiting;
else
dmaInterface->doDMA(WriteInvalidate, txDmaAddr, txDmaLen, curTick,
&txDmaWriteEvent, true);
return true;
}
if (dmaWriteDelay == 0 && dmaWriteFactor == 0.0) {
txDmaWriteCopy();
return false;
}
Tick factor = ((txDmaLen + ULL(63)) >> ULL(6)) * dmaWriteFactor;
Tick start = curTick + dmaWriteDelay + factor;
txDmaWriteEvent.schedule(start);
return true;
}
void
NSGigE::txDmaWriteDone()
{
assert(txDmaState == dmaWriting);
txDmaWriteCopy();
// If the receive state machine has a pending DMA, let it go first
if (rxDmaState == dmaReadWaiting || rxDmaState == dmaWriteWaiting)
rxKick();
txKick();
}
void
NSGigE::txKick()
{
DPRINTF(EthernetSM, "transmit kick txState=%s\n",
NsTxStateStrings[txState]);
if (txKickTick > curTick) {
DPRINTF(EthernetSM, "transmit kick exiting, can't run till %d\n",
txKickTick);
return;
}
next:
switch(txDmaState) {
case dmaReadWaiting:
if (doTxDmaRead())
goto exit;
break;
case dmaWriteWaiting:
if (doTxDmaWrite())
goto exit;
break;
default:
break;
}
switch (txState) {
case txIdle:
if (!txEnable) {
DPRINTF(EthernetSM, "Transmit disabled. Nothing to do.\n");
goto exit;
}
if (CTDD) {
txState = txDescRefr;
txDmaAddr = regs.txdp & 0x3fffffff;
txDmaData = &txDescCache + offsetof(ns_desc, link);
txDmaLen = sizeof(txDescCache.link);
txDmaFree = dmaDescFree;
descDmaReads++;
descDmaRdBytes += txDmaLen;
if (doTxDmaRead())
goto exit;
} else {
txState = txDescRead;
txDmaAddr = regs.txdp & 0x3fffffff;
txDmaData = &txDescCache;
txDmaLen = sizeof(ns_desc);
txDmaFree = dmaDescFree;
descDmaReads++;
descDmaRdBytes += txDmaLen;
if (doTxDmaRead())
goto exit;
}
break;
case txDescRefr:
if (txDmaState != dmaIdle)
goto exit;
txState = txAdvance;
break;
case txDescRead:
if (txDmaState != dmaIdle)
goto exit;
DPRINTF(EthernetDesc,
"txDescCache: link=%08x bufptr=%08x cmdsts=%08x extsts=%08x\n",
txDescCache.link, txDescCache.bufptr, txDescCache.cmdsts,
txDescCache.extsts);
if (txDescCache.cmdsts & CMDSTS_OWN) {
txState = txFifoBlock;
txFragPtr = txDescCache.bufptr;
txDescCnt = txDescCache.cmdsts & CMDSTS_LEN_MASK;
} else {
devIntrPost(ISR_TXIDLE);
txState = txIdle;
goto exit;
}
break;
case txFifoBlock:
if (!txPacket) {
DPRINTF(EthernetSM, "****starting the tx of a new packet****\n");
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
txPacket = new PacketData;
txPacket->data = new uint8_t[16384];
txPacketBufPtr = txPacket->data;
}
if (txDescCnt == 0) {
DPRINTF(EthernetSM, "the txDescCnt == 0, done with descriptor\n");
if (txDescCache.cmdsts & CMDSTS_MORE) {
DPRINTF(EthernetSM, "there are more descriptors to come\n");
txState = txDescWrite;
txDescCache.cmdsts &= ~CMDSTS_OWN;
txDmaAddr = regs.txdp + offsetof(ns_desc, cmdsts);
txDmaAddr &= 0x3fffffff;
txDmaData = &(txDescCache.cmdsts);
txDmaLen = sizeof(txDescCache.cmdsts);
txDmaFree = dmaDescFree;
if (doTxDmaWrite())
goto exit;
} else { /* this packet is totally done */
DPRINTF(EthernetSM, "This packet is done, let's wrap it up\n");
/* deal with the the packet that just finished */
if ((regs.vtcr & VTCR_PPCHK) && extstsEnable) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
IpHdr *ip = txPacket->ip();
if (txDescCache.extsts & EXTSTS_UDPPKT) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
UdpHdr *udp = txPacket->udp();
udp->sum(0);
udp->sum(ip->tu_cksum());
txUdpChecksums++;
} else if (txDescCache.extsts & EXTSTS_TCPPKT) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
TcpHdr *tcp = txPacket->tcp();
tcp->sum(0);
tcp->sum(ip->tu_cksum());
txTcpChecksums++;
}
if (txDescCache.extsts & EXTSTS_IPPKT) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
ip->sum(0);
ip->sum(ip->ip_cksum());
txIpChecksums++;
}
}
txPacket->length = txPacketBufPtr - txPacket->data;
// this is just because the receive can't handle a
// packet bigger want to make sure
assert(txPacket->length <= 1514);
txFifo.push_back(txPacket);
/*
* this following section is not tqo spec, but
* functionally shouldn't be any different. normally,
* the chip will wait til the transmit has occurred
* before writing back the descriptor because it has
* to wait to see that it was successfully transmitted
* to decide whether to set CMDSTS_OK or not.
* however, in the simulator since it is always
* successfully transmitted, and writing it exactly to
* spec would complicate the code, we just do it here
*/
txDescCache.cmdsts &= ~CMDSTS_OWN;
txDescCache.cmdsts |= CMDSTS_OK;
DPRINTF(EthernetDesc,
"txDesc writeback: cmdsts=%08x extsts=%08x\n",
txDescCache.cmdsts, txDescCache.extsts);
txDmaAddr = regs.txdp + offsetof(ns_desc, cmdsts);
txDmaAddr &= 0x3fffffff;
txDmaData = &(txDescCache.cmdsts);
txDmaLen = sizeof(txDescCache.cmdsts) +
sizeof(txDescCache.extsts);
txDmaFree = dmaDescFree;
descDmaWrites++;
descDmaWrBytes += txDmaLen;
transmit();
txPacket = 0;
if (!txEnable) {
DPRINTF(EthernetSM, "halting TX state machine\n");
txState = txIdle;
goto exit;
} else
txState = txAdvance;
if (doTxDmaWrite())
goto exit;
}
} else {
DPRINTF(EthernetSM, "this descriptor isn't done yet\n");
if (txFifoAvail) {
txState = txFragRead;
/*
* The number of bytes transferred is either whatever
* is left in the descriptor (txDescCnt), or if there
* is not enough room in the fifo, just whatever room
* is left in the fifo
*/
txXferLen = min<uint32_t>(txDescCnt, txFifoAvail);
txDmaAddr = txFragPtr & 0x3fffffff;
txDmaData = txPacketBufPtr;
txDmaLen = txXferLen;
txDmaFree = dmaDataFree;
if (doTxDmaRead())
goto exit;
} else {
txState = txFifoBlock;
transmit();
goto exit;
}
}
break;
case txFragRead:
if (txDmaState != dmaIdle)
goto exit;
txPacketBufPtr += txXferLen;
txFragPtr += txXferLen;
txDescCnt -= txXferLen;
txFifoAvail -= txXferLen;
txState = txFifoBlock;
break;
case txDescWrite:
if (txDmaState != dmaIdle)
goto exit;
if (txDescCache.cmdsts & CMDSTS_INTR)
devIntrPost(ISR_TXDESC);
txState = txAdvance;
break;
case txAdvance:
if (txDescCache.link == 0) {
devIntrPost(ISR_TXIDLE);
txState = txIdle;
goto exit;
} else {
txState = txDescRead;
regs.txdp = txDescCache.link;
CTDD = false;
txDmaAddr = txDescCache.link & 0x3fffffff;
txDmaData = &txDescCache;
txDmaLen = sizeof(ns_desc);
txDmaFree = dmaDescFree;
if (doTxDmaRead())
goto exit;
}
break;
default:
panic("invalid state");
}
DPRINTF(EthernetSM, "entering next txState=%s\n",
NsTxStateStrings[txState]);
goto next;
exit:
/**
* @todo do we want to schedule a future kick?
*/
DPRINTF(EthernetSM, "tx state machine exited txState=%s\n",
NsTxStateStrings[txState]);
}
void
NSGigE::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");
if (txEvent.scheduled())
txEvent.reschedule(curTick + 1);
else
txEvent.schedule(curTick + 1);
}
bool
NSGigE::rxFilter(PacketPtr packet)
{
bool drop = true;
string type;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
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 &&
memcmp(rom.perfectMatch, packet->data, EADDR_LEN) == 0)
drop = false;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
if (acceptArp && eth->type() == ETH_TYPE_ARP)
drop = false;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
} else if (eth->broadcast()) {
// if we're accepting broadcasts
if (acceptBroadcast)
drop = false;
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
} 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);
}
return drop;
}
bool
NSGigE::recvPacket(PacketPtr packet)
{
rxBytes += packet->length;
rxPackets++;
DPRINTF(Ethernet, "Receiving packet from wire, rxFifoAvail=%d\n",
maxRxFifoSize - rxFifoCnt);
if (!rxEnable) {
DPRINTF(Ethernet, "receive disabled...packet dropped\n");
debug_break();
interface->recvDone();
return true;
}
if (rxFilterEnable && rxFilter(packet)) {
DPRINTF(Ethernet, "packet filtered...dropped\n");
interface->recvDone();
return true;
}
if ((rxFifoCnt + packet->length) >= maxRxFifoSize) {
DPRINTF(Ethernet,
"packet will not fit in receive buffer...packet dropped\n");
devIntrPost(ISR_RXORN);
return false;
}
rxFifo.push_back(packet);
rxFifoCnt += packet->length;
interface->recvDone();
rxKick();
return true;
}
//=====================================================================
//
//
void
NSGigE::serialize(ostream &os)
{
// Serialize the PciDev base class
PciDev::serialize(os);
/*
* Finalize any DMA events now.
*/
if (rxDmaReadEvent.scheduled())
rxDmaReadCopy();
if (rxDmaWriteEvent.scheduled())
rxDmaWriteCopy();
if (txDmaReadEvent.scheduled())
txDmaReadCopy();
if (txDmaWriteEvent.scheduled())
txDmaWriteCopy();
/*
* Serialize the device registers
*/
SERIALIZE_SCALAR(regs.command);
SERIALIZE_SCALAR(regs.config);
SERIALIZE_SCALAR(regs.mear);
SERIALIZE_SCALAR(regs.ptscr);
SERIALIZE_SCALAR(regs.isr);
SERIALIZE_SCALAR(regs.imr);
SERIALIZE_SCALAR(regs.ier);
SERIALIZE_SCALAR(regs.ihr);
SERIALIZE_SCALAR(regs.txdp);
SERIALIZE_SCALAR(regs.txdp_hi);
SERIALIZE_SCALAR(regs.txcfg);
SERIALIZE_SCALAR(regs.gpior);
SERIALIZE_SCALAR(regs.rxdp);
SERIALIZE_SCALAR(regs.rxdp_hi);
SERIALIZE_SCALAR(regs.rxcfg);
SERIALIZE_SCALAR(regs.pqcr);
SERIALIZE_SCALAR(regs.wcsr);
SERIALIZE_SCALAR(regs.pcr);
SERIALIZE_SCALAR(regs.rfcr);
SERIALIZE_SCALAR(regs.rfdr);
SERIALIZE_SCALAR(regs.srr);
SERIALIZE_SCALAR(regs.mibc);
SERIALIZE_SCALAR(regs.vrcr);
SERIALIZE_SCALAR(regs.vtcr);
SERIALIZE_SCALAR(regs.vdr);
SERIALIZE_SCALAR(regs.ccsr);
SERIALIZE_SCALAR(regs.tbicr);
SERIALIZE_SCALAR(regs.tbisr);
SERIALIZE_SCALAR(regs.tanar);
SERIALIZE_SCALAR(regs.tanlpar);
SERIALIZE_SCALAR(regs.taner);
SERIALIZE_SCALAR(regs.tesr);
SERIALIZE_ARRAY(rom.perfectMatch, EADDR_LEN);
SERIALIZE_SCALAR(ioEnable);
/*
* Serialize the data Fifos
*/
int txNumPkts = txFifo.size();
SERIALIZE_SCALAR(txNumPkts);
int i = 0;
pktiter_t end = txFifo.end();
for (pktiter_t p = txFifo.begin(); p != end; ++p) {
nameOut(os, csprintf("%s.txFifo%d", name(), i++));
(*p)->serialize(os);
}
int rxNumPkts = rxFifo.size();
SERIALIZE_SCALAR(rxNumPkts);
i = 0;
end = rxFifo.end();
for (pktiter_t p = rxFifo.begin(); p != end; ++p) {
nameOut(os, csprintf("%s.rxFifo%d", name(), i++));
(*p)->serialize(os);
}
/*
* Serialize the various helper variables
*/
bool txPacketExists = txPacket;
SERIALIZE_SCALAR(txPacketExists);
if (txPacketExists) {
nameOut(os, csprintf("%s.txPacket", name()));
txPacket->serialize(os);
uint32_t txPktBufPtr = (uint32_t) (txPacketBufPtr - txPacket->data);
SERIALIZE_SCALAR(txPktBufPtr);
}
bool rxPacketExists = rxPacket;
SERIALIZE_SCALAR(rxPacketExists);
if (rxPacketExists) {
nameOut(os, csprintf("%s.rxPacket", name()));
rxPacket->serialize(os);
uint32_t rxPktBufPtr = (uint32_t) (rxPacketBufPtr - rxPacket->data);
SERIALIZE_SCALAR(rxPktBufPtr);
}
SERIALIZE_SCALAR(txXferLen);
SERIALIZE_SCALAR(rxXferLen);
/*
* Serialize DescCaches
*/
SERIALIZE_SCALAR(txDescCache.link);
SERIALIZE_SCALAR(txDescCache.bufptr);
SERIALIZE_SCALAR(txDescCache.cmdsts);
SERIALIZE_SCALAR(txDescCache.extsts);
SERIALIZE_SCALAR(rxDescCache.link);
SERIALIZE_SCALAR(rxDescCache.bufptr);
SERIALIZE_SCALAR(rxDescCache.cmdsts);
SERIALIZE_SCALAR(rxDescCache.extsts);
/*
* Serialize tx state machine
*/
int txState = this->txState;
SERIALIZE_SCALAR(txState);
SERIALIZE_SCALAR(txEnable);
SERIALIZE_SCALAR(CTDD);
SERIALIZE_SCALAR(txFifoAvail);
SERIALIZE_SCALAR(txFragPtr);
SERIALIZE_SCALAR(txDescCnt);
int txDmaState = this->txDmaState;
SERIALIZE_SCALAR(txDmaState);
/*
* Serialize rx state machine
*/
int rxState = this->rxState;
SERIALIZE_SCALAR(rxState);
SERIALIZE_SCALAR(rxEnable);
SERIALIZE_SCALAR(CRDD);
SERIALIZE_SCALAR(rxPktBytes);
SERIALIZE_SCALAR(rxFifoCnt);
SERIALIZE_SCALAR(rxDescCnt);
int rxDmaState = this->rxDmaState;
SERIALIZE_SCALAR(rxDmaState);
SERIALIZE_SCALAR(extstsEnable);
/*
* 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);
/*
* receive address filter settings
*/
SERIALIZE_SCALAR(rxFilterEnable);
SERIALIZE_SCALAR(acceptBroadcast);
SERIALIZE_SCALAR(acceptMulticast);
SERIALIZE_SCALAR(acceptUnicast);
SERIALIZE_SCALAR(acceptPerfect);
SERIALIZE_SCALAR(acceptArp);
/*
* Keep track of pending interrupt status.
*/
SERIALIZE_SCALAR(intrTick);
SERIALIZE_SCALAR(cpuPendingIntr);
Tick intrEventTick = 0;
if (intrEvent)
intrEventTick = intrEvent->when();
SERIALIZE_SCALAR(intrEventTick);
}
void
NSGigE::unserialize(Checkpoint *cp, const std::string &section)
{
// Unserialize the PciDev base class
PciDev::unserialize(cp, section);
UNSERIALIZE_SCALAR(regs.command);
UNSERIALIZE_SCALAR(regs.config);
UNSERIALIZE_SCALAR(regs.mear);
UNSERIALIZE_SCALAR(regs.ptscr);
UNSERIALIZE_SCALAR(regs.isr);
UNSERIALIZE_SCALAR(regs.imr);
UNSERIALIZE_SCALAR(regs.ier);
UNSERIALIZE_SCALAR(regs.ihr);
UNSERIALIZE_SCALAR(regs.txdp);
UNSERIALIZE_SCALAR(regs.txdp_hi);
UNSERIALIZE_SCALAR(regs.txcfg);
UNSERIALIZE_SCALAR(regs.gpior);
UNSERIALIZE_SCALAR(regs.rxdp);
UNSERIALIZE_SCALAR(regs.rxdp_hi);
UNSERIALIZE_SCALAR(regs.rxcfg);
UNSERIALIZE_SCALAR(regs.pqcr);
UNSERIALIZE_SCALAR(regs.wcsr);
UNSERIALIZE_SCALAR(regs.pcr);
UNSERIALIZE_SCALAR(regs.rfcr);
UNSERIALIZE_SCALAR(regs.rfdr);
UNSERIALIZE_SCALAR(regs.srr);
UNSERIALIZE_SCALAR(regs.mibc);
UNSERIALIZE_SCALAR(regs.vrcr);
UNSERIALIZE_SCALAR(regs.vtcr);
UNSERIALIZE_SCALAR(regs.vdr);
UNSERIALIZE_SCALAR(regs.ccsr);
UNSERIALIZE_SCALAR(regs.tbicr);
UNSERIALIZE_SCALAR(regs.tbisr);
UNSERIALIZE_SCALAR(regs.tanar);
UNSERIALIZE_SCALAR(regs.tanlpar);
UNSERIALIZE_SCALAR(regs.taner);
UNSERIALIZE_SCALAR(regs.tesr);
UNSERIALIZE_ARRAY(rom.perfectMatch, EADDR_LEN);
UNSERIALIZE_SCALAR(ioEnable);
/*
* unserialize the data fifos
*/
int txNumPkts;
UNSERIALIZE_SCALAR(txNumPkts);
int i;
for (i = 0; i < txNumPkts; ++i) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
PacketPtr p = new PacketData;
p->unserialize(cp, csprintf("%s.rxFifo%d", section, i));
txFifo.push_back(p);
}
int rxNumPkts;
UNSERIALIZE_SCALAR(rxNumPkts);
for (i = 0; i < rxNumPkts; ++i) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
PacketPtr p = new PacketData;
p->unserialize(cp, csprintf("%s.rxFifo%d", section, i));
rxFifo.push_back(p);
}
/*
* unserialize the various helper variables
*/
bool txPacketExists;
UNSERIALIZE_SCALAR(txPacketExists);
if (txPacketExists) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
txPacket = new PacketData;
txPacket->unserialize(cp, csprintf("%s.txPacket", section));
uint32_t txPktBufPtr;
UNSERIALIZE_SCALAR(txPktBufPtr);
txPacketBufPtr = (uint8_t *) txPacket->data + txPktBufPtr;
} else
txPacket = 0;
bool rxPacketExists;
UNSERIALIZE_SCALAR(rxPacketExists);
rxPacket = 0;
if (rxPacketExists) {
Clean up network header stuff and make it more generic. Use libdnet when we can instead of our own home grown stuff. SConscript: separate the crc code into its own file base/inet.cc: move the crc stuff to crc.cc add generic code for calculating ip/tcp/udp checksums base/inet.hh: - move crc stuff to crc.hh - #include all of the libdnet stuff. (this makes base/inet.hh the only file you need to include if you want to use this kind of stuff.) - Wrap some of the libdnet structs to get easier access to structure members. These wrappers will automatically deal with masking/shifting/ byte-swapping. base/refcnt.hh: If one derives from RefCountingPtr, they should have access to the internal data pointer. build/SConstruct: make #include of dnet stuff work dev/etherlink.cc: dev/ethertap.cc: dev/ethertap.hh: EtherPacket -> PacketData dev/etherpkt.cc: EtherPacket -> PacketData add a function for populating extra info about a packet. Basically just gives pointers to ethernet/ip/tcp/udp headers if they exist. dev/etherpkt.hh: EtherPacket -> PacketData remove most of the packet header stuff from teh PacketData class and just add a few generic functions for grabbing various headers that may exist in the packet. The old functionality is contained in the headers. dev/ns_gige.cc: - IP -> Ip, UDP -> Udp, TCP ->Tcp when used in variable names - get rid of our own byte swapping functions. - whack checksum code and use libdnet version. - Get pointers to the various packet headers and grab info from those headers. (The byte swapping in the headers now.) - Add stats for Udp Checksums dev/ns_gige.hh: use libdnet for checksum code. IP -> Ip, TCP -> Tcp in variable names add stats for UDP checksums --HG-- extra : convert_revision : 96c4160e1967b7c0090acd456df4a76e1f3aab53
2004-09-20 16:43:53 +02:00
rxPacket = new PacketData;
rxPacket->unserialize(cp, csprintf("%s.rxPacket", section));
uint32_t rxPktBufPtr;
UNSERIALIZE_SCALAR(rxPktBufPtr);
rxPacketBufPtr = (uint8_t *) rxPacket->data + rxPktBufPtr;
} else
rxPacket = 0;
UNSERIALIZE_SCALAR(txXferLen);
UNSERIALIZE_SCALAR(rxXferLen);
/*
* Unserialize DescCaches
*/
UNSERIALIZE_SCALAR(txDescCache.link);
UNSERIALIZE_SCALAR(txDescCache.bufptr);
UNSERIALIZE_SCALAR(txDescCache.cmdsts);
UNSERIALIZE_SCALAR(txDescCache.extsts);
UNSERIALIZE_SCALAR(rxDescCache.link);
UNSERIALIZE_SCALAR(rxDescCache.bufptr);
UNSERIALIZE_SCALAR(rxDescCache.cmdsts);
UNSERIALIZE_SCALAR(rxDescCache.extsts);
/*
* unserialize tx state machine
*/
int txState;
UNSERIALIZE_SCALAR(txState);
this->txState = (TxState) txState;
UNSERIALIZE_SCALAR(txEnable);
UNSERIALIZE_SCALAR(CTDD);
UNSERIALIZE_SCALAR(txFifoAvail);
UNSERIALIZE_SCALAR(txFragPtr);
UNSERIALIZE_SCALAR(txDescCnt);
int txDmaState;
UNSERIALIZE_SCALAR(txDmaState);
this->txDmaState = (DmaState) txDmaState;
/*
* unserialize rx state machine
*/
int rxState;
UNSERIALIZE_SCALAR(rxState);
this->rxState = (RxState) rxState;
UNSERIALIZE_SCALAR(rxEnable);
UNSERIALIZE_SCALAR(CRDD);
UNSERIALIZE_SCALAR(rxPktBytes);
UNSERIALIZE_SCALAR(rxFifoCnt);
UNSERIALIZE_SCALAR(rxDescCnt);
int rxDmaState;
UNSERIALIZE_SCALAR(rxDmaState);
this->rxDmaState = (DmaState) rxDmaState;
UNSERIALIZE_SCALAR(extstsEnable);
/*
* If there's a pending transmit, reschedule it now
*/
Tick transmitTick;
UNSERIALIZE_SCALAR(transmitTick);
if (transmitTick)
txEvent.schedule(curTick + transmitTick);
/*
* unserialize receive address filter settings
*/
UNSERIALIZE_SCALAR(rxFilterEnable);
UNSERIALIZE_SCALAR(acceptBroadcast);
UNSERIALIZE_SCALAR(acceptMulticast);
UNSERIALIZE_SCALAR(acceptUnicast);
UNSERIALIZE_SCALAR(acceptPerfect);
UNSERIALIZE_SCALAR(acceptArp);
/*
* Keep track of pending interrupt status.
*/
UNSERIALIZE_SCALAR(intrTick);
UNSERIALIZE_SCALAR(cpuPendingIntr);
Tick intrEventTick;
UNSERIALIZE_SCALAR(intrEventTick);
if (intrEventTick) {
intrEvent = new IntrEvent(this, true);
intrEvent->schedule(intrEventTick);
}
/*
* re-add addrRanges to bus bridges
*/
if (pioInterface) {
pioInterface->addAddrRange(BARAddrs[0], BARAddrs[0] + BARSize[0] - 1);
pioInterface->addAddrRange(BARAddrs[1], BARAddrs[1] + BARSize[1] - 1);
}
}
Tick
NSGigE::cacheAccess(MemReqPtr &req)
{
DPRINTF(EthernetPIO, "timing access to paddr=%#x (daddr=%#x)\n",
req->paddr, req->paddr - addr);
return curTick + pioLatency;
}
BEGIN_DECLARE_SIM_OBJECT_PARAMS(NSGigEInt)
SimObjectParam<EtherInt *> peer;
SimObjectParam<NSGigE *> device;
END_DECLARE_SIM_OBJECT_PARAMS(NSGigEInt)
BEGIN_INIT_SIM_OBJECT_PARAMS(NSGigEInt)
INIT_PARAM_DFLT(peer, "peer interface", NULL),
INIT_PARAM(device, "Ethernet device of this interface")
END_INIT_SIM_OBJECT_PARAMS(NSGigEInt)
CREATE_SIM_OBJECT(NSGigEInt)
{
NSGigEInt *dev_int = new NSGigEInt(getInstanceName(), device);
EtherInt *p = (EtherInt *)peer;
if (p) {
dev_int->setPeer(p);
p->setPeer(dev_int);
}
return dev_int;
}
REGISTER_SIM_OBJECT("NSGigEInt", NSGigEInt)
BEGIN_DECLARE_SIM_OBJECT_PARAMS(NSGigE)
Param<Tick> tx_delay;
Param<Tick> rx_delay;
SimObjectParam<IntrControl *> intr_ctrl;
Param<Tick> intr_delay;
SimObjectParam<MemoryController *> mmu;
SimObjectParam<PhysicalMemory *> physmem;
Param<bool> rx_filter;
Param<string> hardware_address;
SimObjectParam<Bus*> header_bus;
SimObjectParam<Bus*> payload_bus;
SimObjectParam<HierParams *> hier;
Param<Tick> pio_latency;
Param<bool> dma_desc_free;
Param<bool> dma_data_free;
Param<Tick> dma_read_delay;
Param<Tick> dma_write_delay;
Param<Tick> dma_read_factor;
Param<Tick> dma_write_factor;
SimObjectParam<PciConfigAll *> configspace;
SimObjectParam<PciConfigData *> configdata;
SimObjectParam<Tsunami *> tsunami;
Param<uint32_t> pci_bus;
Param<uint32_t> pci_dev;
Param<uint32_t> pci_func;
Param<uint32_t> tx_fifo_size;
Param<uint32_t> rx_fifo_size;
END_DECLARE_SIM_OBJECT_PARAMS(NSGigE)
BEGIN_INIT_SIM_OBJECT_PARAMS(NSGigE)
INIT_PARAM_DFLT(tx_delay, "Transmit Delay", 1000),
INIT_PARAM_DFLT(rx_delay, "Receive Delay", 1000),
INIT_PARAM(intr_ctrl, "Interrupt Controller"),
INIT_PARAM_DFLT(intr_delay, "Interrupt Delay in microseconds", 0),
INIT_PARAM(mmu, "Memory Controller"),
INIT_PARAM(physmem, "Physical Memory"),
INIT_PARAM_DFLT(rx_filter, "Enable Receive Filter", true),
INIT_PARAM_DFLT(hardware_address, "Ethernet Hardware Address",
"00:99:00:00:00:01"),
INIT_PARAM_DFLT(header_bus, "The IO Bus to attach to for headers", NULL),
INIT_PARAM_DFLT(payload_bus, "The IO Bus to attach to for payload", NULL),
INIT_PARAM_DFLT(hier, "Hierarchy global variables", &defaultHierParams),
INIT_PARAM_DFLT(pio_latency, "Programmed IO latency in bus cycles", 1),
INIT_PARAM_DFLT(dma_desc_free, "DMA of Descriptors is free", false),
INIT_PARAM_DFLT(dma_data_free, "DMA of Data is free", false),
INIT_PARAM_DFLT(dma_read_delay, "fixed delay for dma reads", 0),
INIT_PARAM_DFLT(dma_write_delay, "fixed delay for dma writes", 0),
INIT_PARAM_DFLT(dma_read_factor, "multiplier for dma reads", 0),
INIT_PARAM_DFLT(dma_write_factor, "multiplier for dma writes", 0),
INIT_PARAM(configspace, "PCI Configspace"),
INIT_PARAM(configdata, "PCI Config data"),
INIT_PARAM(tsunami, "Tsunami"),
INIT_PARAM(pci_bus, "PCI bus"),
INIT_PARAM(pci_dev, "PCI device number"),
INIT_PARAM(pci_func, "PCI function code"),
INIT_PARAM_DFLT(tx_fifo_size, "max size in bytes of txFifo", 131072),
INIT_PARAM_DFLT(rx_fifo_size, "max size in bytes of rxFifo", 131072)
END_INIT_SIM_OBJECT_PARAMS(NSGigE)
CREATE_SIM_OBJECT(NSGigE)
{
int eaddr[6];
sscanf(((string)hardware_address).c_str(), "%x:%x:%x:%x:%x:%x",
&eaddr[0], &eaddr[1], &eaddr[2], &eaddr[3], &eaddr[4], &eaddr[5]);
return new NSGigE(getInstanceName(), intr_ctrl, intr_delay,
physmem, tx_delay, rx_delay, mmu, hier, header_bus,
payload_bus, pio_latency, dma_desc_free, dma_data_free,
dma_read_delay, dma_write_delay, dma_read_factor,
dma_write_factor, configspace, configdata,
tsunami, pci_bus, pci_dev, pci_func, rx_filter, eaddr,
tx_fifo_size, rx_fifo_size);
}
REGISTER_SIM_OBJECT("NSGigE", NSGigE)