ref: da7d6df6faf18e289fe0f3f61524dcc7fddeef18
dir: /os/boot/pc/ether79c970.c/
/* * AMD79C970 * PCnet-PCI Single-Chip Ethernet Controller for PCI Local Bus * To do: * finish this rewrite */ #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "etherif.h" enum { Lognrdre = 6, Nrdre = (1<<Lognrdre),/* receive descriptor ring entries */ Logntdre = 4, Ntdre = (1<<Logntdre),/* transmit descriptor ring entries */ Rbsize = ETHERMAXTU+4, /* ring buffer size (+4 for CRC) */ }; enum { /* DWIO I/O resource map */ Aprom = 0x0000, /* physical address */ Rdp = 0x0010, /* register data port */ Rap = 0x0014, /* register address port */ Sreset = 0x0018, /* software reset */ Bdp = 0x001C, /* bus configuration register data port */ }; enum { /* CSR0 */ Init = 0x0001, /* begin initialisation */ Strt = 0x0002, /* enable chip */ Stop = 0x0004, /* disable chip */ Tdmd = 0x0008, /* transmit demand */ Txon = 0x0010, /* transmitter on */ Rxon = 0x0020, /* receiver on */ Iena = 0x0040, /* interrupt enable */ Intr = 0x0080, /* interrupt flag */ Idon = 0x0100, /* initialisation done */ Tint = 0x0200, /* transmit interrupt */ Rint = 0x0400, /* receive interrupt */ Merr = 0x0800, /* memory error */ Miss = 0x1000, /* missed frame */ Cerr = 0x2000, /* collision */ Babl = 0x4000, /* transmitter timeout */ Err = 0x8000, /* Babl|Cerr|Miss|Merr */ }; enum { /* CSR3 */ Bswp = 0x0004, /* byte swap */ Emba = 0x0008, /* enable modified back-off algorithm */ Dxmt2pd = 0x0010, /* disable transmit two part deferral */ Lappen = 0x0020, /* look-ahead packet processing enable */ }; enum { /* CSR4 */ ApadXmt = 0x0800, /* auto pad transmit */ }; enum { /* CSR15 */ Prom = 0x8000, /* promiscuous mode */ }; typedef struct { /* Initialisation Block */ ushort mode; uchar rlen; /* upper 4 bits */ uchar tlen; /* upper 4 bits */ uchar padr[6]; uchar res[2]; uchar ladr[8]; ulong rdra; ulong tdra; } Iblock; typedef struct { /* descriptor ring entry */ ulong addr; ulong md1; /* status|bcnt */ ulong md2; /* rcc|rpc|mcnt */ void* data; } Dre; enum { /* md1 */ Enp = 0x01000000, /* end of packet */ Stp = 0x02000000, /* start of packet */ RxBuff = 0x04000000, /* buffer error */ Def = 0x04000000, /* deferred */ Crc = 0x08000000, /* CRC error */ One = 0x08000000, /* one retry needed */ Oflo = 0x10000000, /* overflow error */ More = 0x10000000, /* more than one retry needed */ Fram = 0x20000000, /* framing error */ RxErr = 0x40000000, /* Fram|Oflo|Crc|RxBuff */ TxErr = 0x40000000, /* Uflo|Lcol|Lcar|Rtry */ Own = 0x80000000, }; enum { /* md2 */ Rtry = 0x04000000, /* failed after repeated retries */ Lcar = 0x08000000, /* loss of carrier */ Lcol = 0x10000000, /* late collision */ Uflo = 0x40000000, /* underflow error */ TxBuff = 0x80000000, /* buffer error */ }; typedef struct Ctlr Ctlr; struct Ctlr { Lock; int port; Pcidev* pcidev; Ctlr* next; int active; int init; /* initialisation in progress */ Iblock iblock; Dre* rdr; /* receive descriptor ring */ int rdrx; Dre* tdr; /* transmit descriptor ring */ int tdrh; /* host index into tdr */ int tdri; /* interface index into tdr */ int ntq; /* descriptors active */ ulong rxbuff; /* receive statistics */ ulong crc; ulong oflo; ulong fram; ulong rtry; /* transmit statistics */ ulong lcar; ulong lcol; ulong uflo; ulong txbuff; ulong merr; /* bobf is such a whiner */ ulong miss; ulong babl; int (*ior)(Ctlr*, int); void (*iow)(Ctlr*, int, int); }; static Ctlr* ctlrhead; static Ctlr* ctlrtail; /* * The Rdp, Rap, Sreset, Bdp ports are 32-bit port offset in the enumeration above. * To get to 16-bit offsets, scale down with 0x10 staying the same. */ static int io16r(Ctlr* c, int r) { if(r >= Rdp) r = (r-Rdp)/2+Rdp; return ins(c->port+r); } static void io16w(Ctlr* c, int r, int v) { if(r >= Rdp) r = (r-Rdp)/2+Rdp; outs(c->port+r, v); } static int io32r(Ctlr* c, int r) { return inl(c->port+r); } static void io32w(Ctlr* c, int r, int v) { outl(c->port+r, v); } static void attach(Ether*) { } static void detach(Ether* ether) { Ctlr *ctlr; ctlr = ether->ctlr; ctlr->iow(ctlr, Rdp, Iena|Stop); } static void ringinit(Ctlr* ctlr) { Dre *dre; /* * Initialise the receive and transmit buffer rings. * The ring entries must be aligned on 16-byte boundaries. * * This routine is protected by ctlr->init. */ if(ctlr->rdr == 0){ ctlr->rdr = ialloc(Nrdre*sizeof(Dre), 0x10); for(dre = ctlr->rdr; dre < &ctlr->rdr[Nrdre]; dre++){ dre->data = malloc(Rbsize); dre->addr = PADDR(dre->data); dre->md2 = 0; dre->md1 = Own|(-Rbsize & 0xFFFF); } } ctlr->rdrx = 0; if(ctlr->tdr == 0) ctlr->tdr = ialloc(Ntdre*sizeof(Dre), 0x10); memset(ctlr->tdr, 0, Ntdre*sizeof(Dre)); ctlr->tdrh = ctlr->tdri = 0; } static void transmit(Ether* ether) { Ctlr *ctlr; Block *bp; Dre *dre; RingBuf *tb; ctlr = ether->ctlr; if(ctlr->init) return; while(ctlr->ntq < (Ntdre-1)){ tb = ðer->tb[ether->ti]; if(tb->owner != Interface) break; bp = allocb(tb->len); memmove(bp->wp, tb->pkt, tb->len); memmove(bp->wp+Eaddrlen, ether->ea, Eaddrlen); bp->wp += tb->len; /* * Give ownership of the descriptor to the chip, * increment the software ring descriptor pointer * and tell the chip to poll. * There's no need to pad to ETHERMINTU * here as ApadXmt is set in CSR4. */ dre = &ctlr->tdr[ctlr->tdrh]; dre->data = bp; dre->addr = PADDR(bp->rp); dre->md2 = 0; dre->md1 = Own|Stp|Enp|Oflo|(-BLEN(bp) & 0xFFFF); ctlr->ntq++; ctlr->iow(ctlr, Rap, 0); ctlr->iow(ctlr, Rdp, Iena|Tdmd); ctlr->tdrh = NEXT(ctlr->tdrh, Ntdre); tb->owner = Host; ether->ti = NEXT(ether->ti, ether->ntb); } } static void interrupt(Ureg*, void* arg) { Ctlr *ctlr; Ether *ether; int csr0; Dre *dre; RingBuf *rb; ether = arg; ctlr = ether->ctlr; /* * Acknowledge all interrupts and whine about those that shouldn't * happen. */ intrloop: csr0 = ctlr->ior(ctlr, Rdp) & 0xFFFF; ctlr->iow(ctlr, Rdp, Babl|Cerr|Miss|Merr|Rint|Tint|Iena); if(csr0 & Merr) ctlr->merr++; if(csr0 & Miss) ctlr->miss++; if(csr0 & Babl) ctlr->babl++; //if(csr0 & (Babl|Miss|Merr)) // print("#l%d: csr0 = 0x%uX\n", ether->ctlrno, csr0); if(!(csr0 & (Rint|Tint))) return; /* * Receiver interrupt: run round the descriptor ring logging * errors and passing valid receive data up to the higher levels * until a descriptor is encountered still owned by the chip. */ if(csr0 & Rint){ dre = &ctlr->rdr[ctlr->rdrx]; while(!(dre->md1 & Own)){ rb = ðer->rb[ether->ri]; if(dre->md1 & RxErr){ if(dre->md1 & RxBuff) ctlr->rxbuff++; if(dre->md1 & Crc) ctlr->crc++; if(dre->md1 & Oflo) ctlr->oflo++; if(dre->md1 & Fram) ctlr->fram++; } else if(rb->owner == Interface){ rb->owner = Host; rb->len = (dre->md2 & 0x0FFF)-4; memmove(rb->pkt, dre->data, rb->len); ether->ri = NEXT(ether->ri, ether->nrb); } /* * Finished with this descriptor, reinitialise it, * give it back to the chip, then on to the next... */ dre->md2 = 0; dre->md1 = Own|(-Rbsize & 0xFFFF); ctlr->rdrx = NEXT(ctlr->rdrx, Nrdre); dre = &ctlr->rdr[ctlr->rdrx]; } } /* * Transmitter interrupt: wakeup anyone waiting for a free descriptor. */ if(csr0 & Tint){ lock(ctlr); while(ctlr->ntq){ dre = &ctlr->tdr[ctlr->tdri]; if(dre->md1 & Own) break; if(dre->md1 & TxErr){ if(dre->md2 & Rtry) ctlr->rtry++; if(dre->md2 & Lcar) ctlr->lcar++; if(dre->md2 & Lcol) ctlr->lcol++; if(dre->md2 & Uflo) ctlr->uflo++; if(dre->md2 & TxBuff) ctlr->txbuff++; } freeb(dre->data); ctlr->ntq--; ctlr->tdri = NEXT(ctlr->tdri, Ntdre); } transmit(ether); unlock(ctlr); } goto intrloop; } static void amd79c970pci(void) { Ctlr *ctlr; Pcidev *p; p = nil; while(p = pcimatch(p, 0x1022, 0x2000)){ ctlr = malloc(sizeof(Ctlr)); ctlr->port = p->mem[0].bar & ~0x01; ctlr->pcidev = p; if(ctlrhead != nil) ctlrtail->next = ctlr; else ctlrhead = ctlr; ctlrtail = ctlr; } } int amd79c970reset(Ether* ether) { int x; uchar ea[Eaddrlen]; Ctlr *ctlr; if(ctlrhead == nil) amd79c970pci(); /* * Any adapter matches if no port is supplied, * otherwise the ports must match. */ for(ctlr = ctlrhead; ctlr != nil; ctlr = ctlr->next){ if(ctlr->active) continue; if(ether->port == 0 || ether->port == ctlr->port){ ctlr->active = 1; break; } } if(ctlr == nil) return -1; /* * Allocate a controller structure and start to initialise it. */ ether->ctlr = ctlr; ether->port = ctlr->port; ether->irq = ctlr->pcidev->intl; ether->tbdf = ctlr->pcidev->tbdf; pcisetbme(ctlr->pcidev); ilock(ctlr); ctlr->init = 1; io32r(ctlr, Sreset); io16r(ctlr, Sreset); if(io16w(ctlr, Rap, 0), io16r(ctlr, Rdp) == 4){ ctlr->ior = io16r; ctlr->iow = io16w; }else if(io32w(ctlr, Rap, 0), io32r(ctlr, Rdp) == 4){ ctlr->ior = io32r; ctlr->iow = io32w; }else{ print("#l%d: card doesn't talk right\n", ether->ctlrno); iunlock(ctlr); return -1; } ctlr->iow(ctlr, Rap, 88); x = ctlr->ior(ctlr, Rdp); ctlr->iow(ctlr, Rap, 89); x |= ctlr->ior(ctlr, Rdp)<<16; switch(x&0xFFFFFFF){ case 0x2420003: /* PCnet/PCI 79C970 */ case 0x2621003: /* PCnet/PCI II 79C970A */ break; default: print("unknown PCnet card version %.7ux\n", x&0xFFFFFFF); iunlock(ctlr); return -1; } /* * Set the software style in BCR20 to be PCnet-PCI to ensure 32-bit access. * Set the auto pad transmit in CSR4. */ ctlr->iow(ctlr, Rap, 20); ctlr->iow(ctlr, Bdp, 0x0002); ctlr->iow(ctlr, Rap, 4); x = ctlr->ior(ctlr, Rdp) & 0xFFFF; ctlr->iow(ctlr, Rdp, ApadXmt|x); ctlr->iow(ctlr, Rap, 0); /* * Check if the adapter's station address is to be overridden. * If not, read it from the I/O-space and set in ether->ea prior to * loading the station address in the initialisation block. */ memset(ea, 0, Eaddrlen); if(!memcmp(ea, ether->ea, Eaddrlen)){ x = ctlr->ior(ctlr, Aprom); ether->ea[0] = x; ether->ea[1] = x>>8; if(ctlr->ior == io16r) x = ctlr->ior(ctlr, Aprom+2); else x >>= 16; ether->ea[2] = x; ether->ea[3] = x>>8; x = ctlr->ior(ctlr, Aprom+4); ether->ea[4] = x; ether->ea[5] = x>>8; } /* * Start to fill in the initialisation block * (must be DWORD aligned). */ ctlr->iblock.rlen = Lognrdre<<4; ctlr->iblock.tlen = Logntdre<<4; memmove(ctlr->iblock.padr, ether->ea, sizeof(ctlr->iblock.padr)); ringinit(ctlr); ctlr->iblock.rdra = PADDR(ctlr->rdr); ctlr->iblock.tdra = PADDR(ctlr->tdr); /* * Point the chip at the initialisation block and tell it to go. * Mask the Idon interrupt and poll for completion. Strt and interrupt * enables will be set later when attaching to the network. */ x = PADDR(&ctlr->iblock); ctlr->iow(ctlr, Rap, 1); ctlr->iow(ctlr, Rdp, x & 0xFFFF); ctlr->iow(ctlr, Rap, 2); ctlr->iow(ctlr, Rdp, (x>>16) & 0xFFFF); ctlr->iow(ctlr, Rap, 3); ctlr->iow(ctlr, Rdp, Idon); ctlr->iow(ctlr, Rap, 0); ctlr->iow(ctlr, Rdp, Init); while(!(ctlr->ior(ctlr, Rdp) & Idon)) ; /* * We used to set CSR0 to Idon|Stop here, and then * in attach change it to Iena|Strt. Apparently the simulated * 79C970 in VMware never enables after a write of Idon|Stop, * so we enable the device here now. */ ctlr->iow(ctlr, Rdp, Iena|Strt); ctlr->init = 0; iunlock(ctlr); /* * Linkage to the generic ethernet driver. */ ether->attach = attach; ether->transmit = transmit; ether->interrupt = interrupt; ether->detach = detach; return 0; }