ref: 6b84c3a6548f1c577948763b0a09a7b6e2460e04
dir: /os/boot/pc/etherelnk3x.c/
/* * Etherlink III and Fast EtherLink adapters. * To do: * autoSelect; * busmaster channel; * PCMCIA; * PCI latency timer and master enable; * errata list. * * Product ID: * 9150 ISA 3C509[B] * 9050 ISA 3C509[B]-TP * 9450 ISA 3C509[B]-COMBO * 9550 ISA 3C509[B]-TPO * * 9350 EISA 3C579 * 9250 EISA 3C579-TP * * 5920 EISA 3C592-[TP|COMBO|TPO] * 5970 EISA 3C597-TX Fast Etherlink 10BASE-T/100BASE-TX * 5971 EISA 3C597-T4 Fast Etherlink 10BASE-T/100BASE-T4 * 5972 EISA 3C597-MII Fast Etherlink 10BASE-T/MII * * 5900 PCI 3C590-[TP|COMBO|TPO] * 5950 PCI 3C595-TX Fast Etherlink Shared 10BASE-T/100BASE-TX * 5951 PCI 3C595-T4 Fast Etherlink Shared 10BASE-T/100BASE-T4 * 5952 PCI 3C595-MII Fast Etherlink 10BASE-T/MII * * 9058 PCMCIA 3C589[B]-[TP|COMBO] * * 627C MCA 3C529 * 627D MCA 3C529-TP */ #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "etherif.h" enum { IDport = 0x0110, /* anywhere between 0x0100 and 0x01F0 */ }; enum { /* all windows */ Command = 0x000E, IntStatus = 0x000E, }; enum { /* Commands */ GlobalReset = 0x0000, SelectRegisterWindow = 0x0001, EnableDcConverter = 0x0002, RxDisable = 0x0003, RxEnable = 0x0004, RxReset = 0x0005, TxDone = 0x0007, RxDiscard = 0x0008, TxEnable = 0x0009, TxDisable = 0x000A, TxReset = 0x000B, RequestInterrupt = 0x000C, AcknowledgeInterrupt = 0x000D, SetInterruptEnable = 0x000E, SetIndicationEnable = 0x000F, /* SetReadZeroMask */ SetRxFilter = 0x0010, SetRxEarlyThresh = 0x0011, SetTxAvailableThresh = 0x0012, SetTxStartThresh = 0x0013, StartDma = 0x0014, /* initiate busmaster operation */ StatisticsEnable = 0x0015, StatisticsDisable = 0x0016, DisableDcConverter = 0x0017, SetTxReclaimThresh = 0x0018, /* PIO-only adapters */ PowerUp = 0x001B, /* not all adapters */ PowerDownFull = 0x001C, /* not all adapters */ PowerAuto = 0x001D, /* not all adapters */ }; enum { /* (Global|Rx|Tx)Reset command bits */ tpAuiReset = 0x0001, /* 10BaseT and AUI transceivers */ endecReset = 0x0002, /* internal Ethernet encoder/decoder */ networkReset = 0x0004, /* network interface logic */ fifoReset = 0x0008, /* FIFO control logic */ aismReset = 0x0010, /* autoinitialise state-machine logic */ hostReset = 0x0020, /* bus interface logic */ dmaReset = 0x0040, /* bus master logic */ vcoReset = 0x0080, /* on-board 10Mbps VCO */ resetMask = 0x00FF, }; enum { /* SetRxFilter command bits */ receiveIndividual = 0x0001, /* match station address */ receiveMulticast = 0x0002, receiveBroadcast = 0x0004, receiveAllFrames = 0x0008, /* promiscuous */ }; enum { /* StartDma command bits */ Upload = 0x0000, /* transfer data from adapter to memory */ Download = 0x0001, /* transfer data from memory to adapter */ }; enum { /* IntStatus bits */ interruptLatch = 0x0001, hostError = 0x0002, /* Adapter Failure */ txComplete = 0x0004, txAvailable = 0x0008, rxComplete = 0x0010, rxEarly = 0x0020, intRequested = 0x0040, updateStats = 0x0080, transferInt = 0x0100, /* Bus Master Transfer Complete */ busMasterInProgress = 0x0800, commandInProgress = 0x1000, interruptMask = 0x01FE, }; #define COMMAND(port, cmd, a) outs((port)+Command, ((cmd)<<11)|(a)) #define STATUS(port) ins((port)+IntStatus) enum { /* Window 0 - setup */ Wsetup = 0x0000, /* registers */ ManufacturerID = 0x0000, /* 3C5[08]*, 3C59[27] */ ProductID = 0x0002, /* 3C5[08]*, 3C59[27] */ ConfigControl = 0x0004, /* 3C5[08]*, 3C59[27] */ AddressConfig = 0x0006, /* 3C5[08]*, 3C59[27] */ ResourceConfig = 0x0008, /* 3C5[08]*, 3C59[27] */ EepromCommand = 0x000A, EepromData = 0x000C, /* AddressConfig Bits */ autoSelect9 = 0x0080, xcvrMask9 = 0xC000, /* ConfigControl bits */ Ena = 0x0001, /* EepromCommand bits */ EepromReadRegister = 0x0080, EepromBusy = 0x8000, }; #define EEPROMCMD(port, cmd, a) outs((port)+EepromCommand, (cmd)|(a)) #define EEPROMBUSY(port) (ins((port)+EepromCommand) & EepromBusy) #define EEPROMDATA(port) ins((port)+EepromData) enum { /* Window 1 - operating set */ Wop = 0x0001, /* registers */ Fifo = 0x0000, RxError = 0x0004, /* 3C59[0257] only */ RxStatus = 0x0008, Timer = 0x000A, TxStatus = 0x000B, TxFree = 0x000C, /* RxError bits */ rxOverrun = 0x0001, runtFrame = 0x0002, alignmentError = 0x0004, /* Framing */ crcError = 0x0008, oversizedFrame = 0x0010, dribbleBits = 0x0080, /* RxStatus bits */ rxBytes = 0x1FFF, /* 3C59[0257] mask */ rxBytes9 = 0x07FF, /* 3C5[078]9 mask */ rxError9 = 0x3800, /* 3C5[078]9 error mask */ rxOverrun9 = 0x0000, oversizedFrame9 = 0x0800, dribbleBits9 = 0x1000, runtFrame9 = 0x1800, alignmentError9 = 0x2000, /* Framing */ crcError9 = 0x2800, rxError = 0x4000, rxIncomplete = 0x8000, /* TxStatus Bits */ txStatusOverflow = 0x0004, maxCollisions = 0x0008, txUnderrun = 0x0010, txJabber = 0x0020, interruptRequested = 0x0040, txStatusComplete = 0x0080, }; enum { /* Window 2 - station address */ Wstation = 0x0002, }; enum { /* Window 3 - FIFO management */ Wfifo = 0x0003, /* registers */ InternalConfig = 0x0000, /* 3C509B, 3C589, 3C59[0257] */ OtherInt = 0x0004, /* 3C59[0257] */ RomControl = 0x0006, /* 3C509B, 3C59[27] */ MacControl = 0x0006, /* 3C59[0257] */ ResetOptions = 0x0008, /* 3C59[0257] */ RxFree = 0x000A, /* InternalConfig bits */ disableBadSsdDetect = 0x00000100, ramLocation = 0x00000200, /* 0 external, 1 internal */ ramPartition5to3 = 0x00000000, ramPartition3to1 = 0x00010000, ramPartition1to1 = 0x00020000, ramPartition3to5 = 0x00030000, ramPartitionMask = 0x00030000, xcvr10BaseT = 0x00000000, xcvrAui = 0x00100000, /* 10BASE5 */ xcvr10Base2 = 0x00300000, xcvr100BaseTX = 0x00400000, xcvr100BaseFX = 0x00500000, xcvrMii = 0x00600000, xcvrMask = 0x00700000, autoSelect = 0x01000000, /* MacControl bits */ deferExtendEnable = 0x0001, deferTimerSelect = 0x001E, /* mask */ fullDuplexEnable = 0x0020, allowLargePackets = 0x0040, /* ResetOptions bits */ baseT4Available = 0x0001, baseTXAvailable = 0x0002, baseFXAvailable = 0x0004, base10TAvailable = 0x0008, coaxAvailable = 0x0010, auiAvailable = 0x0020, miiConnector = 0x0040, }; enum { /* Window 4 - diagnostic */ Wdiagnostic = 0x0004, /* registers */ VcoDiagnostic = 0x0002, FifoDiagnostic = 0x0004, NetworkDiagnostic = 0x0006, PhysicalMgmt = 0x0008, MediaStatus = 0x000A, BadSSD = 0x000C, /* FifoDiagnostic bits */ txOverrun = 0x0400, rxUnderrun = 0x2000, receiving = 0x8000, /* MediaStatus bits */ dataRate100 = 0x0002, crcStripDisable = 0x0004, enableSqeStats = 0x0008, collisionDetect = 0x0010, carrierSense = 0x0020, jabberGuardEnable = 0x0040, linkBeatEnable = 0x0080, jabberDetect = 0x0200, polarityReversed = 0x0400, linkBeatDetect = 0x0800, txInProg = 0x1000, dcConverterEnabled = 0x4000, auiDisable = 0x8000, }; enum { /* Window 5 - internal state */ Wstate = 0x0005, /* registers */ TxStartThresh = 0x0000, TxAvalableThresh = 0x0002, RxEarlyThresh = 0x0006, RxFilter = 0x0008, InterruptEnable = 0x000A, IndicationEnable = 0x000C, }; enum { /* Window 6 - statistics */ Wstatistics = 0x0006, /* registers */ CarrierLost = 0x0000, SqeErrors = 0x0001, MultipleColls = 0x0002, SingleCollFrames = 0x0003, LateCollisions = 0x0004, RxOverruns = 0x0005, FramesXmittedOk = 0x0006, FramesRcvdOk = 0x0007, FramesDeferred = 0x0008, UpperFramesOk = 0x0009, BytesRcvdOk = 0x000A, BytesXmittedOk = 0x000C, }; enum { /* Window 7 - bus master operations */ Wmaster = 0x0007, /* registers */ MasterAddress = 0x0000, MasterLen = 0x0006, MasterStatus = 0x000C, /* MasterStatus bits */ masterAbort = 0x0001, targetAbort = 0x0002, targetRetry = 0x0004, targetDisc = 0x0008, masterDownload = 0x1000, masterUpload = 0x4000, masterInProgress = 0x8000, masterMask = 0xD00F, }; typedef struct { int txthreshold; } Ctlr; static void attach(Ether* ether) { int port, x; port = ether->port; /* * Set the receiver packet filter for this and broadcast addresses, * set the interrupt masks for all interrupts, enable the receiver * and transmitter. */ x = receiveBroadcast|receiveIndividual; COMMAND(port, SetRxFilter, x); x = interruptMask|interruptLatch; COMMAND(port, SetIndicationEnable, x); COMMAND(port, SetInterruptEnable, x); COMMAND(port, RxEnable, 0); COMMAND(port, TxEnable, 0); } static void transmit(Ether* ether) { int port, len; RingBuf *tb; /* * Attempt to top-up the transmit FIFO. If there's room simply * stuff in the packet length (unpadded to a dword boundary), the * packet data (padded) and remove the packet from the queue. * If there's no room post an interrupt for when there is. * This routine is called both from the top level and from interrupt * level. */ port = ether->port; for(tb = ðer->tb[ether->ti]; tb->owner == Interface; tb = ðer->tb[ether->ti]){ len = ROUNDUP(tb->len, 4); if(len+4 <= ins(port+TxFree)){ outl(port+Fifo, tb->len); outsl(port+Fifo, tb->pkt, len/4); tb->owner = Host; ether->ti = NEXT(ether->ti, ether->ntb); } else{ COMMAND(port, SetTxAvailableThresh, len); break; } } } static void receive(Ether* ether) { int len, port, rxstatus; RingBuf *rb; port = ether->port; while(((rxstatus = ins(port+RxStatus)) & rxIncomplete) == 0){ /* * If there was an error, throw it away and continue. * The 3C5[078]9 has the error info in the status register * and the 3C59[0257] implement a separate RxError register. */ if((rxstatus & rxError) == 0){ /* * Packet received. Read it into the next free * ring buffer, if any. Must read len bytes padded * to a doubleword, can be picked out 32-bits at * a time. The CRC is already stripped off. */ rb = ðer->rb[ether->ri]; if(rb->owner == Interface){ len = (rxstatus & rxBytes9); rb->len = len; insl(port+Fifo, rb->pkt, HOWMANY(len, 4)); rb->owner = Host; ether->ri = NEXT(ether->ri, ether->nrb); } } /* * All done, discard the packet. */ COMMAND(port, RxDiscard, 0); while(STATUS(port) & commandInProgress) ; } } static void statistics(Ether* ether) { int i, port, w; port = ether->port; w = (STATUS(port)>>13) & 0x07; COMMAND(port, SelectRegisterWindow, Wop); COMMAND(port, SelectRegisterWindow, Wstatistics); for(i = 0; i < 0x0A; i++) inb(port+i); ins(port+BytesRcvdOk); ins(port+BytesXmittedOk); COMMAND(port, SelectRegisterWindow, w); } static void interrupt(Ureg*, void* arg) { Ether *ether; int port, status, txstatus, w, x; Ctlr *ctlr; ether = arg; port = ether->port; ctlr = ether->ctlr; w = (STATUS(port)>>13) & 0x07; COMMAND(port, SelectRegisterWindow, Wop); for(;;){ /* * Clear the interrupt latch. * It's possible to receive a packet and for another * to become complete before exiting the interrupt * handler so this must be done first to ensure another * interrupt will occur. */ COMMAND(port, AcknowledgeInterrupt, interruptLatch); status = STATUS(port); if((status & interruptMask) == 0) break; if(status & hostError){ /* * Adapter failure, try to find out why, reset if * necessary. What happens if Tx is active and a reset * occurs, need to retransmit? This probably isn't right. */ COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+FifoDiagnostic); COMMAND(port, SelectRegisterWindow, Wop); print("elnk3#%d: status 0x%uX, diag 0x%uX\n", ether->ctlrno, status, x); if(x & txOverrun){ COMMAND(port, TxReset, 0); COMMAND(port, TxEnable, 0); } if(x & rxUnderrun){ /* * This shouldn't happen... * Need to restart any busmastering? */ COMMAND(port, RxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, RxEnable, 0); } status &= ~hostError; } if(status & (transferInt|rxComplete)){ receive(ether); status &= ~(transferInt|rxComplete); } if(status & txComplete){ /* * Pop the TxStatus stack, accumulating errors. * Adjust the TX start threshold if there was an underrun. * If there was a Jabber or Underrun error, reset * the transmitter. * For all conditions enable the transmitter. */ txstatus = 0; do{ if(x = inb(port+TxStatus)) outb(port+TxStatus, 0); txstatus |= x; }while(STATUS(port) & txComplete); if(txstatus & txUnderrun){ COMMAND(port, SelectRegisterWindow, Wdiagnostic); while(ins(port+MediaStatus) & txInProg) ; COMMAND(port, SelectRegisterWindow, Wop); if(ctlr->txthreshold < ETHERMAXTU) ctlr->txthreshold += ETHERMINTU; } if(txstatus & (txJabber|txUnderrun)){ COMMAND(port, TxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, SetTxStartThresh, ctlr->txthreshold); } COMMAND(port, TxEnable, 0); status &= ~txComplete; status |= txAvailable; } if(status & txAvailable){ COMMAND(port, AcknowledgeInterrupt, txAvailable); transmit(ether); status &= ~txAvailable; } if(status & updateStats){ statistics(ether); status &= ~updateStats; } /* * Panic if there are any interrupts not dealt with. */ if(status & interruptMask) panic("elnk3#%d: interrupt mask 0x%uX\n", ether->ctlrno, status); } COMMAND(port, SelectRegisterWindow, w); } typedef struct Adapter { int port; int irq; int tbdf; } Adapter; static Block* adapter; static void tcmadapter(int port, int irq, int tbdf) { Block *bp; Adapter *ap; bp = allocb(sizeof(Adapter)); ap = (Adapter*)bp->rp; ap->port = port; ap->irq = irq; ap->tbdf = tbdf; bp->next = adapter; adapter = bp; } /* * Write two 0 bytes to identify the IDport and then reset the * ID sequence. Then send the ID sequence to the card to get * the card into command state. */ static void idseq(void) { int i; uchar al; static int reset, untag; /* * One time only: * reset any adapters listening */ if(reset == 0){ outb(IDport, 0); outb(IDport, 0); outb(IDport, 0xC0); delay(20); reset = 1; } outb(IDport, 0); outb(IDport, 0); for(al = 0xFF, i = 0; i < 255; i++){ outb(IDport, al); if(al & 0x80){ al <<= 1; al ^= 0xCF; } else al <<= 1; } /* * One time only: * write ID sequence to get the attention of all adapters; * untag all adapters. * If we do a global reset here on all adapters we'll confuse any * ISA cards configured for EISA mode. */ if(untag == 0){ outb(IDport, 0xD0); untag = 1; } } static ulong activate(void) { int i; ushort x, acr; /* * Do the little configuration dance: * * 2. write the ID sequence to get to command state. */ idseq(); /* * 3. Read the Manufacturer ID from the EEPROM. * This is done by writing the IDPort with 0x87 (0x80 * is the 'read EEPROM' command, 0x07 is the offset of * the Manufacturer ID field in the EEPROM). * The data comes back 1 bit at a time. * We seem to need a delay here between reading the bits. * * If the ID doesn't match, there are no more adapters. */ outb(IDport, 0x87); delay(20); for(x = 0, i = 0; i < 16; i++){ delay(20); x <<= 1; x |= inb(IDport) & 0x01; } if(x != 0x6D50) return 0; /* * 3. Read the Address Configuration from the EEPROM. * The Address Configuration field is at offset 0x08 in the EEPROM). */ outb(IDport, 0x88); for(acr = 0, i = 0; i < 16; i++){ delay(20); acr <<= 1; acr |= inb(IDport) & 0x01; } return (acr & 0x1F)*0x10 + 0x200; } #ifdef notjustpcmcia static void tcm509isa(void) { int irq, port; /* * Attempt to activate all adapters. If adapter is set for * EISA mode (0x3F0), tag it and ignore. Otherwise, activate * it fully. */ while(port = activate()){ /* * 6. Tag the adapter so it won't respond in future. */ outb(IDport, 0xD1); if(port == 0x3F0) continue; /* * 6. Activate the adapter by writing the Activate command * (0xFF). */ outb(IDport, 0xFF); delay(20); /* * 8. Can now talk to the adapter's I/O base addresses. * Use the I/O base address from the acr just read. * * Enable the adapter and clear out any lingering status * and interrupts. */ while(STATUS(port) & commandInProgress) ; COMMAND(port, SelectRegisterWindow, Wsetup); outs(port+ConfigControl, Ena); COMMAND(port, TxReset, 0); COMMAND(port, RxReset, 0); COMMAND(port, AcknowledgeInterrupt, 0xFF); irq = (ins(port+ResourceConfig)>>12) & 0x0F; tcmadapter(port, irq, BUSUNKNOWN); } } static void tcm5XXeisa(void) { ushort x; int irq, port, slot; /* * Check if this is an EISA machine. * If not, nothing to do. */ if(strncmp((char*)(KZERO|0xFFFD9), "EISA", 4)) return; /* * Continue through the EISA slots looking for a match on both * 3COM as the manufacturer and 3C579-* or 3C59[27]-* as the product. * If an adapter is found, select window 0, enable it and clear * out any lingering status and interrupts. */ for(slot = 1; slot < MaxEISA; slot++){ port = slot*0x1000; if(ins(port+0xC80+ManufacturerID) != 0x6D50) continue; x = ins(port+0xC80+ProductID); if((x & 0xF0FF) != 0x9050 && (x & 0xFF00) != 0x5900) continue; COMMAND(port, SelectRegisterWindow, Wsetup); outs(port+ConfigControl, Ena); COMMAND(port, TxReset, 0); COMMAND(port, RxReset, 0); COMMAND(port, AcknowledgeInterrupt, 0xFF); irq = (ins(port+ResourceConfig)>>12) & 0x0F; tcmadapter(port, irq, BUSUNKNOWN); } } static void tcm59Xpci(void) { Pcidev *p; int irq, port; p = nil; while(p = pcimatch(p, 0x10B7, 0)){ port = p->mem[0].bar & ~0x01; irq = p->intl; COMMAND(port, GlobalReset, 0); while(STATUS(port) & commandInProgress) ; tcmadapter(port, irq, p->tbdf); } } #endif /* notjustpcmcia */ static char* tcmpcmcia[] = { "3C589", /* 3COM 589[ABCD] */ "3C562", /* 3COM 562 */ "589E", /* 3COM Megahertz 589E */ nil, }; static int tcm5XXpcmcia(Ether* ether) { int i; for(i = 0; tcmpcmcia[i] != nil; i++){ if(!cistrcmp(ether->type, tcmpcmcia[i])) return ether->port; } return 0; } static int autoselect(int port, int rxstatus9) { int media, x; /* * Pathetic attempt at automatic media selection. * Really just to get the Fast Etherlink 10BASE-T/100BASE-TX * cards operational. */ media = auiAvailable|coaxAvailable|base10TAvailable; if(rxstatus9 == 0){ COMMAND(port, SelectRegisterWindow, Wfifo); media = ins(port+ResetOptions); } if(media & miiConnector) return xcvrMii; if(media & baseTXAvailable){ /* * Must have InternalConfig register. */ COMMAND(port, SelectRegisterWindow, Wfifo); x = inl(port+InternalConfig) & ~xcvrMask; x |= xcvr100BaseTX; outl(port+InternalConfig, x); COMMAND(port, TxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, RxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+MediaStatus) & ~(dcConverterEnabled|jabberGuardEnable); outs(port+MediaStatus, linkBeatEnable|x); delay(10); { int i, v; for(i = 0; i < 10000; i++){ v = ins(port+MediaStatus); if(v & linkBeatDetect){ print("count %d v %uX\n", i, v); return xcvr100BaseTX; } delay(1); } print("count %d v %uX\n", i, ins(port+MediaStatus)); } if(ins(port+MediaStatus) & linkBeatDetect) return xcvr100BaseTX; outs(port+MediaStatus, x); } if(media & base10TAvailable){ if(rxstatus9 == 0){ COMMAND(port, SelectRegisterWindow, Wfifo); x = inl(port+InternalConfig) & ~xcvrMask; x |= xcvr10BaseT; outl(port+InternalConfig, x); } else{ COMMAND(port, SelectRegisterWindow, Wsetup); x = ins(port+AddressConfig) & ~xcvrMask9; x |= (xcvr10BaseT>>20)<<14; outs(port+AddressConfig, x); } COMMAND(port, TxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, RxReset, 0); while(STATUS(port) & commandInProgress) ; COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+MediaStatus) & ~dcConverterEnabled; outs(port+MediaStatus, linkBeatEnable|jabberGuardEnable|x); delay(10); if(ins(port+MediaStatus) & linkBeatDetect) return xcvr10BaseT; outs(port+MediaStatus, x); } /* * Botch. */ return autoSelect; } static int eepromdata(int port, int offset) { COMMAND(port, SelectRegisterWindow, Wsetup); while(EEPROMBUSY(port)) ; EEPROMCMD(port, EepromReadRegister, offset); while(EEPROMBUSY(port)) ; return EEPROMDATA(port); } int elnk3reset(Ether* ether) { int did, i, port, rxstatus9, x, xcvr; Block *bp, **bpp; Adapter *ap; uchar ea[Eaddrlen]; Ctlr *ctlr; #ifdef notjustpcmcia static int scandone; /* * Scan for adapter on PCI, EISA and finally * using the little ISA configuration dance. */ if(scandone == 0){ tcm59Xpci(); tcm5XXeisa(); tcm509isa(); scandone = 1; } #endif /* notjustpcmcia */ /* * Any adapter matches if no ether->port is supplied, * otherwise the ports must match. */ port = 0; bpp = &adapter; for(bp = *bpp; bp; bp = bp->next){ ap = (Adapter*)bp->rp; if(ether->port == 0 || ether->port == ap->port){ port = ap->port; ether->irq = ap->irq; ether->tbdf = ap->tbdf; *bpp = bp->next; freeb(bp); break; } bpp = &bp->next; } if(port == 0 && (port = tcm5XXpcmcia(ether)) == 0) return -1; /* * Read the DeviceID from the EEPROM, it's at offset 0x03, * and do something depending on capabilities. */ switch(did = eepromdata(port, 0x03)){ case 0x9000: case 0x9001: case 0x9050: case 0x9051: if(BUSTYPE(ether->tbdf) != BusPCI) goto buggery; goto vortex; case 0x5900: case 0x5920: case 0x5950: case 0x5951: case 0x5952: case 0x5970: case 0x5971: case 0x5972: vortex: COMMAND(port, SelectRegisterWindow, Wfifo); xcvr = inl(port+InternalConfig) & (autoSelect|xcvrMask); rxstatus9 = 0; break; buggery: default: COMMAND(port, SelectRegisterWindow, Wsetup); x = ins(port+AddressConfig); xcvr = ((x & xcvrMask9)>>14)<<20; if(x & autoSelect9) xcvr |= autoSelect; rxstatus9 = 1; break; } USED(did); /* * Check if the adapter's station address is to be overridden. * If not, read it from the EEPROM and set in ether->ea prior to loading the * station address in Wstation. The EEPROM returns 16-bits at a time. */ memset(ea, 0, Eaddrlen); if(memcmp(ea, ether->ea, Eaddrlen) == 0){ for(i = 0; i < Eaddrlen/2; i++){ x = eepromdata(port, i); ether->ea[2*i] = x>>8; ether->ea[2*i+1] = x; } } COMMAND(port, SelectRegisterWindow, Wstation); for(i = 0; i < Eaddrlen; i++) outb(port+i, ether->ea[i]); /* * Enable the transceiver if necessary. */ if(xcvr & autoSelect) xcvr = autoselect(port, rxstatus9); switch(xcvr){ case xcvrMii: break; case xcvr100BaseTX: case xcvr100BaseFX: COMMAND(port, SelectRegisterWindow, Wfifo); x = inl(port+InternalConfig) & ~ramPartitionMask; outl(port+InternalConfig, x|ramPartition1to1); COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+MediaStatus) & ~(dcConverterEnabled|jabberGuardEnable); x |= linkBeatEnable; outs(port+MediaStatus, x); break; case xcvr10BaseT: /* * Enable Link Beat and Jabber to start the * transceiver. */ COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+MediaStatus) & ~dcConverterEnabled; x |= linkBeatEnable|jabberGuardEnable; outs(port+MediaStatus, x); break; case xcvr10Base2: COMMAND(port, SelectRegisterWindow, Wdiagnostic); x = ins(port+MediaStatus) & ~(linkBeatEnable|jabberGuardEnable); outs(port+MediaStatus, x); /* * Start the DC-DC converter. * Wait > 800 microseconds. */ COMMAND(port, EnableDcConverter, 0); delay(1); break; } /* * Wop is the normal operating register set. * The 3C59[0257] adapters allow access to more than one register window * at a time, but there are situations where switching still needs to be * done, so just do it. * Clear out any lingering Tx status. */ COMMAND(port, SelectRegisterWindow, Wop); while(inb(port+TxStatus)) outb(port+TxStatus, 0); /* * Allocate a controller structure and start * to initialise it. */ ether->ctlr = malloc(sizeof(Ctlr)); ctlr = ether->ctlr; memset(ctlr, 0, sizeof(Ctlr)); /* * Set a base TxStartThresh which will be incremented * if any txUnderrun errors occur and ensure no RxEarly * interrupts happen. */ ctlr->txthreshold = ETHERMINTU; COMMAND(port, SetTxStartThresh, ETHERMINTU); COMMAND(port, SetRxEarlyThresh, ETHERMAXTU); /* * Set up the software configuration. */ ether->port = port; ether->attach = attach; ether->transmit = transmit; ether->interrupt = interrupt; return 0; }