ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/mpc/etherscc.c/
/* * SCCn ethernet */ #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #include "../port/netif.h" #include "etherif.h" enum { Nrdre = 16, /* receive descriptor ring entries */ Ntdre = 16, /* transmit descriptor ring entries */ Rbsize = ETHERMAXTU+4, /* ring buffer size (+4 for CRC) */ Bufsize = (Rbsize+7)&~7, /* aligned */ }; enum { /* ether-specific Rx BD bits */ RxMiss= 1<<8, RxeLG= 1<<5, RxeNO= 1<<4, RxeSH= 1<<3, RxeCR= 1<<2, RxeOV= 1<<1, RxeCL= 1<<0, RxError= (RxeLG|RxeNO|RxeSH|RxeCR|RxeOV|RxeCL), /* various error flags */ /* ether-specific Tx BD bits */ TxPad= 1<<14, /* pad short frames */ TxTC= 1<<10, /* transmit CRC */ TxeDEF= 1<<9, TxeHB= 1<<8, TxeLC= 1<<7, TxeRL= 1<<6, TxeUN= 1<<1, TxeCSL= 1<<0, /* scce */ RXB= 1<<0, TXB= 1<<1, BSY= 1<<2, RXF= 1<<3, TXE= 1<<4, /* psmr */ PRO= 1<<9, /* promiscuous mode */ /* gsmrl */ ENR= 1<<5, ENT= 1<<4, /* port A */ RXD1= SIBIT(15), TXD1= SIBIT(14), /* port B */ RTS1= IBIT(19), /* port C */ CTS1= SIBIT(11), CD1= SIBIT(10), }; typedef struct Etherparam Etherparam; struct Etherparam { SCCparam; ulong c_pres; /* preset CRC */ ulong c_mask; /* constant mask for CRC */ ulong crcec; /* CRC error counter */ ulong alec; /* alighnment error counter */ ulong disfc; /* discard frame counter */ ushort pads; /* short frame PAD characters */ ushort ret_lim; /* retry limit threshold */ ushort ret_cnt; /* retry limit counter */ ushort mflr; /* maximum frame length reg */ ushort minflr; /* minimum frame length reg */ ushort maxd1; /* maximum DMA1 length reg */ ushort maxd2; /* maximum DMA2 length reg */ ushort maxd; /* rx max DMA */ ushort dma_cnt; /* rx dma counter */ ushort max_b; /* max bd byte count */ ushort gaddr[4]; /* group address filter */ ulong tbuf0_data0; /* save area 0 - current frm */ ulong tbuf0_data1; /* save area 1 - current frm */ ulong tbuf0_rba0; ulong tbuf0_crc; ushort tbuf0_bcnt; ushort paddr[3]; /* physical address LSB to MSB increasing */ ushort p_per; /* persistence */ ushort rfbd_ptr; /* rx first bd pointer */ ushort tfbd_ptr; /* tx first bd pointer */ ushort tlbd_ptr; /* tx last bd pointer */ ulong tbuf1_data0; /* save area 0 - next frame */ ulong tbuf1_data1; /* save area 1 - next frame */ ulong tbuf1_rba0; ulong tbuf1_crc; ushort tbuf1_bcnt; ushort tx_len; /* tx frame length counter */ ushort iaddr[4]; /* individual address filter*/ ushort boff_cnt; /* back-off counter */ ushort taddr[3]; /* temp address */ }; typedef struct { Lock; int port; int init; int active; SCC* scc; CPMdev* cpm; Ring; ulong interrupts; /* statistics */ ulong deferred; ulong heartbeat; ulong latecoll; ulong retrylim; ulong underrun; ulong overrun; ulong carrierlost; ulong retrycount; } Ctlr; static int sccid[] = {-1, CPscc1, CPscc2, CPscc3, CPscc4}; static void attach(Ether *ether) { Ctlr *ctlr; ctlr = ether->ctlr; ctlr->active = 1; ctlr->scc->gsmrl |= ENR|ENT; eieio(); } static void closed(Ether *ether) { Ctlr *ctlr; ctlr = ether->ctlr; if(ctlr->active){ sccxstop(ctlr->cpm); ilock(ctlr); ctlr->active = 0; iunlock(ctlr); } } static void promiscuous(void* arg, int on) { Ether *ether; Ctlr *ctlr; ether = (Ether*)arg; ctlr = ether->ctlr; ilock(ctlr); if(on || ether->nmaddr) ctlr->scc->psmr |= PRO; else ctlr->scc->psmr &= ~PRO; iunlock(ctlr); } static void multicast(void* arg, uchar *addr, int on) { Ether *ether; Ctlr *ctlr; USED(addr, on); /* if on, could SetGroupAddress; if !on, it's hard */ ether = (Ether*)arg; ctlr = ether->ctlr; ilock(ctlr); if(ether->prom || ether->nmaddr) ctlr->scc->psmr |= PRO; else ctlr->scc->psmr &= ~PRO; iunlock(ctlr); } static void txstart(Ether *ether) { int len; Ctlr *ctlr; Block *b; BD *dre; ctlr = ether->ctlr; while(ctlr->ntq < Ntdre-1){ b = qget(ether->oq); if(b == 0) break; dre = &ctlr->tdr[ctlr->tdrh]; if(dre->status & BDReady) panic("ether: txstart"); /* * Give ownership of the descriptor to the chip, increment the * software ring descriptor pointer and tell the chip to poll. */ len = BLEN(b); dcflush(b->rp, len); if(ctlr->txb[ctlr->tdrh] != nil) panic("scc/ether: txstart"); ctlr->txb[ctlr->tdrh] = b; if((ulong)b->rp&1) panic("scc/ether: txstart align"); /* TO DO: ensure alignment */ dre->addr = PADDR(b->rp); dre->length = len; eieio(); dre->status = (dre->status & BDWrap) | BDReady|TxPad|BDInt|BDLast|TxTC; eieio(); ctlr->scc->todr = 1<<15; /* transmit now */ eieio(); ctlr->ntq++; ctlr->tdrh = NEXT(ctlr->tdrh, Ntdre); } } static void transmit(Ether* ether) { Ctlr *ctlr; ctlr = ether->ctlr; ilock(ctlr); txstart(ether); iunlock(ctlr); } static void interrupt(Ureg*, void *arg) { Ether *ether; int len, events, status; Ctlr *ctlr; BD *dre; Block *b; ether = arg; ctlr = ether->ctlr; if(!ctlr->active) return; /* not ours */ /* * Acknowledge all interrupts and whine about those that shouldn't * happen. */ events = ctlr->scc->scce; eieio(); ctlr->scc->scce = events; eieio(); ctlr->interrupts++; if(events & (TXE|BSY|RXB)){ if(events & RXB) ctlr->overrun++; if(events & TXE) ether->oerrs++; if(0 || events & TXE) print("ETHER.SCC#%d: scce = 0x%uX\n", ether->ctlrno, events); } /* * Receiver interrupt: run round the descriptor ring logging * errors and passing valid receive data up to the higher levels * until we encounter a descriptor still owned by the chip. */ if(events & (RXF|RXB) || 1){ dre = &ctlr->rdr[ctlr->rdrx]; while(((status = dre->status) & BDEmpty) == 0){ if(status & RxError || (status & (BDFirst|BDLast)) != (BDFirst|BDLast)){ if(status & (RxeLG|RxeSH)) ether->buffs++; if(status & RxeNO) ether->frames++; if(status & RxeCR) ether->crcs++; if(status & RxeOV) ether->overflows++; //print("eth rx: %ux\n", status); } else{ /* * We have a packet. Read it in. */ len = dre->length-4; if((b = iallocb(len)) != 0){ dcinval(KADDR(dre->addr), len); memmove(b->wp, KADDR(dre->addr), len); b->wp += len; etheriq(ether, b, 1); }else ether->soverflows++; } /* * Finished with this descriptor, reinitialise it, * give it back to the chip, then on to the next... */ dre->length = 0; dre->status = (status & BDWrap) | BDEmpty | BDInt; eieio(); ctlr->rdrx = NEXT(ctlr->rdrx, Nrdre); dre = &ctlr->rdr[ctlr->rdrx]; } } /* * Transmitter interrupt: handle anything queued for a free descriptor. */ if(events & TXB){ lock(ctlr); while(ctlr->ntq){ dre = &ctlr->tdr[ctlr->tdri]; status = dre->status; if(status & BDReady) break; if(status & TxeDEF) ctlr->deferred++; if(status & TxeHB) ctlr->heartbeat++; if(status & TxeLC) ctlr->latecoll++; if(status & TxeRL) ctlr->retrylim++; if(status & TxeUN) ctlr->underrun++; if(status & TxeCSL) ctlr->carrierlost++; ctlr->retrycount += (status>>2)&0xF; b = ctlr->txb[ctlr->tdri]; if(b == nil) panic("scce/interrupt: bufp"); ctlr->txb[ctlr->tdri] = nil; freeb(b); ctlr->ntq--; ctlr->tdri = NEXT(ctlr->tdri, Ntdre); } txstart(ether); unlock(ctlr); } if(events & TXE) cpmop(ctlr->cpm, RestartTx, 0); } static long ifstat(Ether* ether, void* a, long n, ulong offset) { char *p; int len; Ctlr *ctlr; if(n == 0) return 0; ctlr = ether->ctlr; p = malloc(READSTR); len = snprint(p, READSTR, "interrupts: %lud\n", ctlr->interrupts); len += snprint(p+len, READSTR-len, "carrierlost: %lud\n", ctlr->carrierlost); len += snprint(p+len, READSTR-len, "heartbeat: %lud\n", ctlr->heartbeat); len += snprint(p+len, READSTR-len, "retrylimit: %lud\n", ctlr->retrylim); len += snprint(p+len, READSTR-len, "retrycount: %lud\n", ctlr->retrycount); len += snprint(p+len, READSTR-len, "latecollisions: %lud\n", ctlr->latecoll); len += snprint(p+len, READSTR-len, "rxoverruns: %lud\n", ctlr->overrun); len += snprint(p+len, READSTR-len, "txunderruns: %lud\n", ctlr->underrun); snprint(p+len, READSTR-len, "framesdeferred: %lud\n", ctlr->deferred); n = readstr(offset, a, n, p); free(p); return n; } /* * This follows the MPC823 user guide: section16.9.23.7's initialisation sequence, * except that it sets the right bits for the MPC823ADS board when SCC2 is used, * and those for the 860/821 development board for SCC1. */ static void sccsetup(Ctlr *ctlr, SCC *scc, Ether *ether) { int i, rcs, tcs, w; Etherparam *p; IMM *io; i = 2*(ctlr->port-1); io = ioplock(); w = (TXD1|RXD1)<<i; /* TXDn and RXDn in port A */ io->papar |= w; /* enable TXDn and RXDn pins */ io->padir &= ~w; io->paodr &= ~w; /* not open drain */ w = (CD1|CTS1)<<i; /* CLSN and RENA: CDn and CTSn in port C */ io->pcpar &= ~w; /* enable CLSN (CTSn) and RENA (CDn) */ io->pcdir &= ~w; io->pcso |= w; iopunlock(); /* clocks and transceiver control: details depend on the board's wiring */ archetherenable(sccid[ctlr->port], &rcs, &tcs, ether->mbps, ether->fullduplex); sccnmsi(ctlr->port, rcs, tcs); /* connect the clocks */ p = ctlr->cpm->param; memset(p, 0, sizeof(*p)); p->rfcr = 0x18; p->tfcr = 0x18; p->mrblr = Bufsize; p->rbase = PADDR(ctlr->rdr); p->tbase = PADDR(ctlr->tdr); cpmop(ctlr->cpm, InitRxTx, 0); p->c_pres = ~0; p->c_mask = 0xDEBB20E3; p->crcec = 0; p->alec = 0; p->disfc = 0; p->pads = 0x8888; p->ret_lim = 0xF; p->mflr = Rbsize; p->minflr = ETHERMINTU+4; p->maxd1 = Bufsize; p->maxd2 = Bufsize; p->p_per = 0; /* only moderate aggression */ for(i=0; i<Eaddrlen; i+=2) p->paddr[2-i/2] = (ether->ea[i+1]<<8)|ether->ea[i]; /* it's not the obvious byte order */ scc->psmr = (2<<10)|(5<<1); /* 32-bit CRC, ignore 22 bits before SFD */ scc->dsr = 0xd555; scc->gsmrh = 0; /* normal operation */ scc->gsmrl = (1<<28)|(4<<21)|(1<<19)|0xC; /* transmit clock invert, 48 bit preamble, repetitive 10 preamble, ethernet */ eieio(); scc->scce = ~0; /* clear all events */ eieio(); scc->sccm = TXE | RXF | TXB; /* enable interrupts */ eieio(); io = ioplock(); w = RTS1<<(ctlr->port-1); /* enable TENA pin (RTSn) */ io->pbpar |= w; io->pbdir |= w; iopunlock(); /* gsmrl enable is deferred until attach */ } static int reset(Ether* ether) { uchar ea[Eaddrlen]; CPMdev *cpm; Ctlr *ctlr; SCC *scc; if(m->speed < 24){ print("%s ether: system speed must be >= 24MHz for ether use\n", ether->type); return -1; } if(!(ether->port >= 1 && ether->port <= 4)){ print("%s ether: no SCC port %lud\n", ether->type, ether->port); return -1; } /* * Insist that the platform-specific code provide the Ethernet address */ memset(ea, 0, Eaddrlen); if(memcmp(ea, ether->ea, Eaddrlen) == 0){ print("no ether address"); return -1; } cpm = cpmdev(sccid[ether->port]); if(cpm == nil) return -1; ether->irq = VectorCPIC + cpm->irq; scc = cpm->regs; ctlr = malloc(sizeof(*ctlr)); ether->ctlr = ctlr; memset(ctlr, 0, sizeof(*ctlr)); ctlr->cpm = cpm; ctlr->scc = scc; ctlr->port = ether->port; if(ioringinit(ctlr, Nrdre, Ntdre, Bufsize) < 0) panic("etherscc init"); sccsetup(ctlr, scc, ether); ether->attach = attach; ether->closed = closed; ether->transmit = transmit; ether->interrupt = interrupt; ether->ifstat = ifstat; ether->arg = ether; ether->promiscuous = promiscuous; ether->multicast = multicast; return 0; } void etherscclink(void) { addethercard("SCC", reset); }