ref: ad5a80bfb081dc954be03836cc65090e0f6c7e4f
dir: /os/manga/etherks8695.c/
/* * KS8695P ethernet * WAN port, LAN port to 4-port switch */ #include "u.h" #include "../port/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" #include "ureg.h" #define DBG if(0)iprint #define MIIDBG if(0)iprint enum { Nrdre = 64, /* receive descriptor ring entries */ Ntdre = 32, /* transmit descriptor ring entries */ Rbsize = ROUNDUP(ETHERMAXTU+4, 4), /* ring buffer size (+4 for CRC), must be multiple of 4 */ Bufsize = ROUNDUP(Rbsize, CACHELINESZ), /* keep start and end at cache lines */ }; typedef struct DmaReg DmaReg; struct DmaReg { ulong dtxc; /* transmit control register */ ulong drxc; /* receive control register */ ulong dtsc; /* transmit start command register */ ulong drsc; /* receive start command register */ ulong tdlb; /* transmit descriptor list base address */ ulong rdlb; /* receive descriptor list base address */ ulong mal; /* mac address low (4 bytes) */ ulong mah; /* mac address high (2 bytes) */ ulong pad[0x80-0x20]; /* pad to 0x80 for */ ulong maal[16][2]; /* additional mac addresses */ }; enum { /* dtxc */ TxSoftReset= 1<<31, /* 29:24 is burst size in words; 0, 1, 2, 4, 8, 16, 32; 0=unlimited */ TxUDPck= 1<<18, /* generate UDP, TCP, IP check sum */ TxTCPck= 1<<17, TxIPck= 1<<16, TxFCE= 1<<9, /* transmit flow control enable */ TxLB= 1<<8, /* loop back */ TxEP= 1<<2, /* enable padding */ TxCrc= 1<<1, /* add CRC */ TxEnable= 1<<0, /* enable Tx block */ /* drxc */ /* 29:24 is burst size in words */ RxUDPck= 1<<18, /* check UDP, TCP, IP check sum */ RxTCPck= 1<<17, RxIPck= 1<<16, RxFCE= 1<<9, /* flow control enable */ RxRB= 1<<6, /* receive broadcast */ RxRM= 1<<5, /* receive multicast (including broadcast) */ RxRU= 1<<4, /* receive unicast */ RxAE= 1<<3, /* receive error frames */ RxRA= 1<<2, /* receive all */ RxEnable= 1<<0, /* enable Rx block */ }; typedef struct WanPhy WanPhy; struct WanPhy { ulong did; /* device ID */ ulong rid; /* revision ID */ ulong pad0; /* miscellaneous control in plain 8695 (not P or X) */ ulong wmc; /* WAN miscellaneous control */ ulong wppm; /* phy power management */ ulong wpc; /* phys ctl */ ulong wps; /* phys status */ ulong pps; /* phy power save */ }; enum { /* wmc */ WAnc= 1<<30, /* auto neg complete */ WAnr= 1<<29, /* auto neg restart */ WAnaP= 1<<28, /* advertise pause */ WAna100FD= 1<<27, /* advertise 100BASE-TX FD */ WAna100HD= 1<<26, /* advertise 100BASE-TX */ WAna10FD= 1<<25, /* advertise 10BASE-TX FD */ WAna10HD= 1<<24, /* advertise 10BASE-TX */ WLs= 1<<23, /* link status */ WDs= 1<<22, /* duplex status (resolved) */ WSs= 1<<21, /* speed status (resolved) */ WLparP= 1<<20, /* link partner pause */ WLpar100FD= 1<<19, /* link partner 100BASE-TX FD */ WLpar100HD= 1<<18, WLpar10FD= 1<<17, WLpar10HD= 1<<16, WAnDis= 1<<15, /* auto negotiation disable */ WForce100= 1<<14, WForceFD= 1<<13, /* 6:4 LED1 select */ /* 2:0 LED0 select */ /* LED select */ LedSpeed= 0, LedLink, LedFD, /* full duplex */ LedColl, /* collision */ LedTxRx, /* activity */ LedFDColl, /* FD/collision */ LedLinkTxRx, /* link and activity */ /* ppm */ WLpbk= 1<<14, /* local (MAC) loopback */ WRlpblk= 1<<13, /* remote (PHY) loopback */ WPhyIso= 1<<12, /* isolate PHY from MII and Tx+/Tx- */ WPhyLink= 1<<10, /* force link in PHY */ WMdix= 1<<9, /* =1, MDIX, =0, MDX */ WFef= 1<<8, /* far end fault */ WAmdixp= 1<<7, /* disable IEEE spec for auto-neg MDIX */ WTxdis= 1<<6, /* disable port's transmitter */ WDfef= 1<<5, /* disable far end fault detection */ Wpd= 1<<4, /* power down */ WDmdx= 1<<3, /* disable auto MDI/MDIX */ WFmdx= 1<<2, /* if auto disabled, force MDIX */ WMlpbk= 1<<1, /* local loopback */ /* pps */ Ppsm= 1<<0, /* enable PHY power save mode */ }; #define DMABURST(n) ((n)<<24) typedef struct { Lock; int port; int init; int active; int reading; /* device read process is active */ ulong anap; /* auto negotiate result */ DmaReg* regs; WanPhy* wphy; Ring; ulong interrupts; /* statistics */ ulong deferred; ulong heartbeat; ulong latecoll; ulong retrylim; ulong underrun; ulong overrun; ulong carrierlost; ulong retrycount; } Ctlr; static void switchinit(uchar*); static void switchdump(void); static void attach(Ether *ether) { Ctlr *ctlr; ctlr = ether->ctlr; ilock(ctlr); if(!ctlr->active){ /* TO DO: rx/tx enable */ ctlr->regs->dtxc |= TxEnable; ctlr->regs->drxc |= RxEnable; microdelay(10); ctlr->regs->drsc = 1; /* start read process */ microdelay(10); ctlr->reading = (INTRREG->st & (1<<IRQwmrps)) == 0; ctlr->active = 1; } iunlock(ctlr); } static void closed(Ether *ether) { Ctlr *ctlr; ctlr = ether->ctlr; if(ctlr->active){ ilock(ctlr); iprint("ether closed\n"); ctlr->regs->dtxc &= ~TxEnable; ctlr->regs->drxc &= ~RxEnable; /* TO DO: reset ring? */ /* TO DO: could wait? */ ctlr->active = 0; iunlock(ctlr); } } static void promiscuous(void* arg, int on) { Ether *ether; Ctlr *ctlr; ulong w; ether = (Ether*)arg; ctlr = ether->ctlr; ilock(ctlr); /* TO DO: must disable reader */ w = ctlr->regs->drxc; if(on != ((w&RxRA)!=0)){ /* TO DO: must disable reader */ ctlr->regs->drxc = w ^ RxRA; /* TO DO: restart reader */ } 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); /* TO DO: must disable reader */ /* TO DO: use internal multicast tables? (probably needs LRU or some such) */ if(ether->nmaddr) ctlr->regs->drxc |= RxRM; else ctlr->regs->drxc &= ~RxRM; iunlock(ctlr); } static void txstart(Ether *ether) { int len; Ctlr *ctlr; Block *b; BD *dre; ctlr = ether->ctlr; while(ctlr->ntq < ctlr->ntdre-1){ b = qget(ether->oq); if(b == 0) break; dre = &ctlr->tdr[ctlr->tdrh]; if(dre->ctrl & BdBusy) 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); if(ctlr->txb[ctlr->tdrh] != nil) panic("etherks8695: txstart"); ctlr->txb[ctlr->tdrh] = b; dcflush(b->rp, len); dre->addr = PADDR(b->rp); dre->size = TxIC|TxFS|TxLS | len; dre->ctrl = BdBusy; ctlr->regs->dtsc = 1; /* go for it */ ctlr->ntq++; ctlr->tdrh = NEXT(ctlr->tdrh, ctlr->ntdre); } } static void transmit(Ether* ether) { Ctlr *ctlr; ctlr = ether->ctlr; ilock(ctlr); txstart(ether); iunlock(ctlr); } /* * allocate receive buffer space on cache-line boundaries */ static Block* clallocb(void) { Block *b; b = iallocb(Bufsize+CACHELINESZ-1); if(b == nil) return b; dcflush(b->base, BALLOC(b)); b->wp = b->rp = (uchar*)(((ulong)b->base + CACHELINESZ - 1) & ~(CACHELINESZ-1)); return b; } static void rxring(Ureg*, void *arg) { Ether *ether; ulong status; Ctlr *ctlr; BD *dre; Block *b, *rb; ether = arg; ctlr = ether->ctlr; ctlr->interrupts++; /* * 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. * We rely on the descriptor accesses being uncached. */ dre = &ctlr->rdr[ctlr->rdrx]; while(((status = dre->ctrl) & BdBusy) == 0){ if(status & RxES || (status & (RxFS|RxLS)) != (RxFS|RxLS)){ if(status & (RxRF|RxTL)) ether->buffs++; if(status & RxRE) ether->frames++; if(status & RxCE) ether->crcs++; //if(status & RxOverrun) // ether->overflows++; iprint("eth rx: %lux\n", status); }else{ /* * We have a packet. Read it in. */ b = clallocb(); if(b != nil){ rb = ctlr->rxb[ctlr->rdrx]; rb->wp += (dre->ctrl & RxFL)-4; etheriq(ether, rb, 1); ctlr->rxb[ctlr->rdrx] = b; dre->addr = PADDR(b->wp); }else ether->soverflows++; } /* * Finished with this descriptor, * give it back to the chip, then on to the next... */ dre->ctrl = BdBusy; ctlr->rdrx = NEXT(ctlr->rdrx, ctlr->nrdre); dre = &ctlr->rdr[ctlr->rdrx]; } } static void txring(Ureg*, void *arg) { Ether *ether; Ctlr *ctlr; BD *dre; Block *b; ether = arg; ctlr = ether->ctlr; ctlr->interrupts++; /* * Transmitter interrupt: handle anything queued for a free descriptor. */ lock(ctlr); while(ctlr->ntq){ dre = &ctlr->tdr[ctlr->tdri]; if(dre->ctrl & BdBusy) break; /* statistics are kept inside the device, but only for LAN */ /* there seems to be no per-packet error status for transmission */ b = ctlr->txb[ctlr->tdri]; if(b == nil) panic("etherks8695: bufp"); ctlr->txb[ctlr->tdri] = nil; freeb(b); ctlr->ntq--; ctlr->tdri = NEXT(ctlr->tdri, ctlr->ntdre); } txstart(ether); unlock(ctlr); } /* * receive buffer unavailable (overrun) */ static void rbuintr(Ureg*, void *arg) { Ether *ether; Ctlr *ctlr; ether = arg; ctlr = ether->ctlr; ctlr->interrupts++; if(ctlr->active) ctlr->overrun++; ctlr->reading = 0; } /* * read process (in device) stopped */ static void rxstopintr(Ureg*, void *arg) { Ether *ether; Ctlr *ctlr; ether = arg; ctlr = ether->ctlr; ctlr->interrupts++; if(!ctlr->active) return; iprint("rxstopintr\n"); ctlr->regs->drsc = 1; /* just restart it? need to fiddle with ring? */ } static void txstopintr(Ureg*, void *arg) { Ether *ether; Ctlr *ctlr; ether = arg; ctlr = ether->ctlr; ctlr->interrupts++; if(!ctlr->active) return; iprint("txstopintr\n"); ctlr->regs->dtsc = 1; /* just restart it? need to fiddle with ring? */ } static void linkchangeintr(Ureg*, void*) { iprint("link change\n"); } 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); {DmaReg *d = ctlr->regs; len += snprint(p+len, READSTR-len, "dtxc=%8.8lux drxc=%8.8lux\n", d->dtxc, d->drxc);} snprint(p+len, READSTR-len, "framesdeferred: %lud\n", ctlr->deferred); n = readstr(offset, a, n, p); free(p); if(ctlr->port == 1) switchdump(); return n; } static void physinit(Ether *ether, int force) { Ctlr *ctlr; WanPhy *p; ulong anap; int i; ctlr = ether->ctlr; p = ctlr->wphy; if(p == nil){ if(ctlr->port){ ether->mbps = 100; ether->fullduplex = 1; switchinit(nil); } return; } iprint("phy%d: wmc=%8.8lux wpm=%8.8lux wpc=%8.8lux wps=%8.8lux pps=%8.8lux\n", ctlr->port, p->wmc, p->wppm, p->wpc, p->wps, p->pps); p->wppm = 0; /* enable power, other defaults seem fine */ if(p->rid & 7) p->wpc = 0x0200b000; /* magic */ else p->wpc = 0xb000; if(p->wppm & WFef) iprint("ether%d: far end fault\n", ctlr->port); if((p->wmc & WLs) == 0){ iprint("ether%d: no link\n", ctlr->port); ether->mbps = 100; /* could use 10, but this is 2005 */ ether->fullduplex = 0; return; } if((p->wmc & WAnc) == 0 || force){ p->wmc = WAnr | WAnaP | WAna100FD | WAna100HD | WAna10FD | WAna10HD | (p->wmc & 0x7F); microdelay(10); if(p->wmc & WLs){ for(i=0;; i++){ if(i > 600){ iprint("ether%d: auto negotiation failed\n", ctlr->port); ether->mbps = 10; /* we'll assume it's stupid */ ether->fullduplex = 0; return; } if(p->wmc & WAnc){ microdelay(10); break; } delay(1); } } } anap = p->wmc; ether->mbps = anap & WSs? 100: 10; if(anap & (WLpar100FD|WLpar10FD) && anap & WDs) ether->fullduplex = 1; else ether->fullduplex = 0; ctlr->anap = anap; iprint("ks8695%d mii: fd=%d speed=%d wmc=%8.8lux\n", ctlr->port, ether->fullduplex, ether->mbps, anap); } static void ctlrinit(Ctlr *ctlr, Ether *ether) { int i; DmaReg *em; ulong mode; em = ctlr->regs; /* soft reset */ em->dtxc = TxSoftReset; microdelay(10); for(i=0; em->dtxc & TxSoftReset; i++){ if(i > 20){ iprint("etherks8695.%d: soft reset failed\n", ctlr->port); i=0; } microdelay(100); } iprint("%d: rx=%8.8lux tx=%8.8lux\n", ctlr->port, PADDR(ctlr->rdr), PADDR(ctlr->tdr)); physinit(ether, 0); /* set ether address */ em->mah = (ether->ea[0]<<8) | ether->ea[1]; em->mal = (ether->ea[2]<<24) | (ether->ea[3]<<16) | (ether->ea[4]<<8) | ether->ea[5]; if(ctlr->port == 0){ /* clear other addresses for now */ for(i=0; i<nelem(em->maal); i++){ em->maal[i][0] = 0; em->maal[i][1] = 0; } } /* transmitter, enabled later by attach */ em->tdlb = PADDR(ctlr->tdr); em->dtxc = DMABURST(8) | TxFCE | TxCrc; /* don't set TxEP: there is a h/w bug and it's anyway done by higher levels */ /* receiver, enabled later by attach */ em->rdlb = PADDR(ctlr->rdr); mode = DMABURST(8) | RxRB | RxRU | RxAE; /* RxAE just there for testing */ if(ether->fullduplex) mode |= RxFCE; em->drxc = mode; /* tx/rx enable is deferred until attach */ } static int reset(Ether* ether) { uchar ea[Eaddrlen]; char name[KNAMELEN]; Ctlr *ctlr; int i, irqdelta; snprint(name, sizeof(name), "ether%d", ether->ctlrno); /* * Insist that the platform-specific code provide the Ethernet address */ memset(ea, 0, Eaddrlen); if(memcmp(ea, ether->ea, Eaddrlen) == 0){ print("%s (%s %ld): no ether address", name, ether->type, ether->port); return -1; } ctlr = malloc(sizeof(*ctlr)); ctlr->port = ether->port; switch(ether->port){ case 0: ctlr->regs = KADDR(PHYSWANDMA); ctlr->wphy = KADDR(PHYSMISC); ctlr->wphy->wmc = (ctlr->wphy->wmc & ~0x7F) | (LedLinkTxRx<<0) | (LedSpeed<<4); break; case 1: ctlr->regs = KADDR(PHYSLANDMA); ctlr->wphy = nil; break; default: print("%s: %s ether: no port %lud\n", name, ether->type, ether->port); free(ctlr); return -1; } ether->ctlr = ctlr; irqdelta = ether->irq - IRQwmrps; physinit(ether, 0); if(ioringinit(ctlr, Nrdre, Ntdre) < 0) panic("etherks8695 initring"); for(i = 0; i < ctlr->nrdre; i++){ if(ctlr->rxb[i] == nil) ctlr->rxb[i] = clallocb(); ctlr->rdr[i].addr = PADDR(ctlr->rxb[i]->wp); ctlr->rdr[i].size = Rbsize; ctlr->rdr[i].ctrl = BdBusy; } ctlrinit(ctlr, ether); ether->attach = attach; ether->closed = closed; ether->transmit = transmit; ether->ifstat = ifstat; /* there is more than one interrupt: we must enable some ourselves */ ether->irq = irqdelta + IRQwmrs; /* set main IRQ to receive status */ ether->interrupt = rxring; intrenable(IRQ, irqdelta+IRQwmts, txring, ether, "ethertx"); // intrenable(IRQ, irqdelta+IRQwmtbu, tbuintr, ether, "ethertbu"); /* don't care? */ intrenable(IRQ, irqdelta+IRQwmrbu, rbuintr, ether, "etherrbu"); intrenable(IRQ, irqdelta+IRQwmrps, rxstopintr, ether, "etherrps"); intrenable(IRQ, irqdelta+IRQwmtps, txstopintr, ether, "ethertps"); if(ether->port == 0) intrenable(IRQ, IRQwmlc, linkchangeintr, ether, "etherwanlink"); ether->arg = ether; ether->promiscuous = promiscuous; ether->multicast = multicast; return 0; } /* * switch engine registers * a 10 microsecond delay is required after each (write?) access */ typedef struct Switch Switch; struct Switch { ulong sec0; /* control register 0 */ ulong sec1; /* control register 1 */ ulong sec2; /* control register 2, factory default, do not change */ ulong cfg[5][3]; /* port configuration registers */ ulong an[2]; /* ports 1 to 4 auto negotiation [1,2][3,4] */ ulong seiac; /* indirect access control register */ ulong seiadh2; /* indirect access data register 2 (4:0 is 68-64 of data) */ ulong seiadh1; /* indirect access data register 1 (63-32 of data) */ ulong seiadl; /* indirect access data register low */ ulong seafc; /* advanced feature control */ ulong scph; /* services code priority high (ie, TOS priority) */ ulong scpl; /* services code priority low */ ulong mah; /* switch MAC address high */ ulong mal; /* switch MAC address low */ ulong ppm[2]; /* ports 1 to 4 PHY power management */ }; enum { /* Sec0 */ Nbe= 1<<31, /* new backoff (designed for UNH) enable */ /* 30:28 802.1p base priority */ /* 27:25 LAN LED1 select */ /* 24:22 LAN LED0 select */ Unh= 1<<21, /* =1, drop packets with type 8808 or DA=0180c2000001; =0, drop flow control */ Lca= 1<<20, /* link change age: faster aging for link->no link transition */ Paf= 1<<19, /* pass all frames, including bad ones */ Sfce= 1<<18, /* switch MII full-duplex flow control enable */ Flfc= 1<<17, /* frame length field check in IEEE (drop invalid ones) */ Bsm= 1<<16, /* =1, share all buffers; =0, use only 1/5 of pool */ Age= 1<<15, /* enable age function */ Agef= 1<<14, /* enable fast ageing */ Aboe= 1<<13, /* aggressive backoff enable */ Uvmd= 1<<12, /* unicast port-VLAN mismatch discard */ Mspd= 1<<11, /* multicast storm protection disable */ Bpm= 1<<10, /* =1, carrier sense backpressure; =0, collision backpressure */ Fair= 1<<9, /* fair flow control and back pressure */ Ncd= 1<<8, /* no excessive collision drop */ Lmpsd= 1<<7, /* 1=, drop packet sizes over 1536 bytes; =0, 1522 for tagged, 1518 untagged */ Pbr= 1<<6, /* priority buffer reserved */ Sbpe= 1<<5, /* switch back pressure enable */ Shdm= 1<<4, /* switch half duplex mode */ PrioHi= 0<<2, /* always deliver high priority first */ Prio10_1= 1<<2, /* high/low at 10:1 */ Prio5_1= 2<<2, /* high/low at 5:1 */ Prio2_1= 3<<2, /* high/low at 2:1 */ Etm= 1<<1, /* enable tag mask */ Esf= 1<<0, /* enable switch function */ /* sec1 */ /* 31:21 */ /* broadcast storm protection, byte count */ IEEEneg= 1<<11, /* follow IEEE spec for auto neg */ Tpid= 1<<10, /* special TPID mode used for direct forwarding from port 5 */ PhyEn= 1<<8, /* enable PHY MII */ TfcDis= 1<<7, /* disable IEEE transmit flow control */ RfcDis= 1<<6, /* disable IEEE receive flow control */ Hps= 1<<5, /* huge packet support: allow packets up to 1916 bytes */ VlanEn= 1<<4, /* 802.1Q VLAN enable; recommended when priority queue on */ Sw10BT= 1<<1, /* switch in 10 Mbps mode not 100 Mbps */ VIDrep= 1<<0, /* replace null VID with port VID (otherwise no replacement) */ }; #define BASEPRIO(n) (((n)&7)<<28) enum { /* cfg[n][0] (SEP1C1-SEP4C1) p. 89 */ /* 31:16 default tag: 31:29=userprio, 28=CFI bit, 27:16=VID[11:0] */ AnegDis= 1<<15, /* disable auto negotiation */ Force100= 1<<14, /* force 100BT when auto neg is disabled */ ForceFD= 1<<13, /* force full duplex when auto neg is disabled */ /* 12:8 port VLAN membership: bit 8 is port 1, bit 12 is port 5, 1=member */ STTxEn= 1<<7, /* spanning tree transmit enable */ STRxEn= 1<<6, /* spanning tree receive enable */ STLnDis= 1<<5, /* spanning tree learn disnable */ Bsp= 1<<4, /* enable broadcast storm protection */ Pce= 1<<3, /* priority classification enable */ Dpce= 1<<2, /* diffserv priority classification enable */ IEEEpce= 1<<1, /* IEEE (802.1p) classification enable */ PrioEn= 1<<0, /* enable priority function on port */ /* cfg[n][1] (SEP1C2-SEP4C2) p. 91*/ IngressFilter= 1<<28, /* discard packets from ingress port not in VLAN */ DiscardNonPVID= 1<<27, /* discard packets whose VID does not match port default VID */ ForcePortFC= 1<<26, /* force flow control */ EnablePortBP= 1<<25, /* enable back pressure */ /* 23:12 transmit high priority rate control */ /* 11:0 transmit low priority rate control */ /* cfg[n][2] */ /* 13:20 receive high priority rate control */ /* 19:8 receive low priority rate control */ Rdprc= 1<<7, /* receive differential priority rate control */ Lprrc= 1<<6, /* low priority receive rate control */ Hprrc= 1<<5, /* high priority receive rate control */ Lprfce= 1<<4, /* low priority receive flow control enable */ Hprfce= 1<<3, /* high priority ... */ Tdprc= 1<<2, /* transmit differential priority rate control */ Lptrc= 1<<1, /* low priority transmit rate control */ Hptrc= 1<<0, /* high priority transmit rate control */ /* seiac */ Cread= 1<<12, Cwrite= 0<<12, StaticMacs= 0<<10, /* static mac address table used */ VLANs= 1<<10, /* VLAN table */ DynMacs= 2<<10, /* dynamic address table */ MibCounter= 3<<10, /* MIB counter selected */ /* 0:9, table index */ /* seafc */ /* 26:22 1<<(n+22-1) = removal for port 0 to 4 */ }; /* * indirect access to * static MAC address table (3.10.23, p. 107) * VLAN table (3.10.24, p. 108) * dynamic MAC address table (3.10.25, p. 109) * MIB counters (3.10.26, p. 110) */ enum { /* VLAN table */ VlanValid= 1<<21, /* entry is valid */ /* 20:16 are bits for VLAN membership */ /* 15:12 are bits for FID (filter id) for up to 16 active VLANs */ /* 11:0 has 802.1Q 12 bit VLAN ID */ /* Dynamic MAC table (1024 entries) */ MACempty= 1<<(68-2*32), /* 67:58 is number of valid entries-1 */ /* 57:56 ageing time stamp */ NotReady= 1<<(55-32), /* 54:52 source port 0 to 5 */ /* 51:48 FID */ /* 47:0 MAC */ NVlans= 16, NSMacs= 8, }; /* * per-port counters, table 3, 3.10.26, p. 110 * cleared when read * port counters at n*0x20 [n=0-3] */ static char* portmibnames[] = { "RxLoPriorityByte", "RxHiPriorityByte", "RxUndersizePkt", "RxFragments", "RxOversize", "RxJabbers", "RxSymbolError", "RxCRCerror", "RxAlignmentError", "RxControl8808Pkts", "RxPausePkts", "RxBroadcast", "RxMulticast", "RxUnicast", "Rx64Octets", "Rx65to127Octets", "Rx128to255Octets", "Rx256to511Octets", "Rx512to1023Octets", "Rx1024to1522Octets", "TxLoPriorityByte", "TxHiPriorityByte", "TxLateCollision", "TxPausePkts", "TxBroadcastPkts", "TxMulticastPkts", "TxUnicastPkts", "TxDeferred", "TxTotalCollision", /* like, totally */ "TxExcessiveCollision", "TxSingleCollision", "TxMultipleCollision", }; enum { /* per-port MIB counter format */ MibOverflow= 1<<31, MibValid= 1<<30, /* 29:0 counter value */ }; /* * 16 bit `all port' counters, not automatically cleared * offset 0x100 and up */ static char* allportnames[] = { "Port1TxDropPackets", "Port2TxDropPackets", "Port3TxDropPackets", "Port4TxDropPackets", "LanTxDropPackets", /* ie, internal port 5 */ "Port1RxDropPackets", "Port2RxDropPackets", "Port3RxDropPackets", "Port4RxDropPackets", "LanRxDropPackets", }; static void switchinit(uchar *ea) { Switch *sw; int i; ulong an; /* TO DO: LED gpio setting */ GPIOREG->iopm |= 0xF0; /* bits 4-7 are LAN(?) */ iprint("switch init...\n"); sw = KADDR(PHYSSWITCH); if(sw->sec0 & Esf){ iprint("already inited\n"); return; } sw->seafc = 0; microdelay(10); sw->scph = 0; microdelay(10); sw->scpl = 0; microdelay(10); if(ea != nil){ sw->mah = (ea[0]<<8) | ea[1]; microdelay(10); sw->mal = (ea[2]<<24) | (ea[3]<<16) | (ea[4]<<8) | ea[5]; microdelay(10); } for(i = 0; i < 5; i++){ sw->cfg[i][0] = (0x1F<<8) | STTxEn | STRxEn | Bsp; /* port is member of all vlans */ microdelay(10); sw->cfg[i][1] = 0; microdelay(10); sw->cfg[i][2] = 0; microdelay(10); } sw->ppm[0] = 0; /* perhaps soft reset? */ microdelay(10); sw->ppm[1] = 0; microdelay(10); an = WAnr | WAnaP | WAna100FD | WAna100HD | WAna10FD | WAna10HD; sw->an[0] = an | (an >> 16); microdelay(10); sw->an[1] = an | (an >> 16); microdelay(10); sw->sec1 = (0x4A<<21) | PhyEn; microdelay(10); sw->sec0 = Nbe | (0<<28) | (LedSpeed<<25) | (LedLinkTxRx<<22) | Sfce | Bsm | Age | Aboe | Bpm | Fair | Sbpe | Shdm | Esf; microdelay(10); /* off we go */ } typedef struct Vidmap Vidmap; struct Vidmap { uchar ports; /* bit mask for ports 0 to 4 */ uchar fid; /* switch's filter id */ ushort vid; /* 802.1Q vlan id; 0=not valid */ }; static Vidmap getvidmap(Switch *sw, int i) { ulong w; Vidmap v; v.ports = 0; v.fid = 0; v.vid = 0; if(i < 0 || i >= NVlans) return v; sw->seiac = Cread | VLANs | i; microdelay(10); w = sw->seiadl; if((w & VlanValid) == 0) return v; v.vid = w & 0xFFFF; v.fid = (w>>12) & 0xF; v.ports = (w>>16) & 0x1F; return v; } static void putvidmap(Switch *sw, int i, Vidmap v) { ulong w; w = ((v.ports & 0x1F)<<16) | ((v.fid & 0xF)<<12) | (v.vid & 0xFFFF); if(v.vid != 0) w |= VlanValid; sw->seiadl = w; microdelay(10); sw->seiac = Cwrite | VLANs | i; microdelay(10); } typedef struct StaticMac StaticMac; struct StaticMac { uchar valid; uchar fid; uchar usefid; uchar override; /* override spanning tree tx/rx disable */ uchar ports; /* forward to this set of ports */ uchar mac[Eaddrlen]; }; static StaticMac getstaticmac(Switch *sw, int i) { StaticMac s; ulong w; memset(&s, 0, sizeof(s)); if(i < 0 || i >= NSMacs) return s; sw->seiac = Cread | StaticMacs | i; microdelay(10); w = sw->seiadh1; if((w & (1<<(53-32))) == 0) return s; /* entry not valid */ s.valid = 1; s.fid= (w>>(57-32)) & 0xF; s.usefid = (w & (1<<(56-32))) != 0; s.override = (w & (1<<(54-32))) != 0; s.ports = (w>>(48-32)) & 0x1F; s.mac[5] = w >> 8; s.mac[4] = w; w = sw->seiadl; s.mac[3] = w>>24; s.mac[2] = w>>16; s.mac[1] = w>>8; s.mac[0] = w; return s; } static void putstaticmac(Switch *sw, int i, StaticMac s) { ulong w; if(s.valid){ w = 1<<(53-32); /* entry valid */ if(s.usefid) w |= 1<<(55-32); if(s.override) w |= 1<<(54-32); w |= (s.fid & 0xF) << (56-32); w |= (s.ports & 0x1F) << (48-32); w |= (s.mac[5] << 8) | s.mac[4]; sw->seiadh1 = w; microdelay(10); w = (s.mac[3]<<24) | (s.mac[2]<<16) | (s.mac[1]<<8) | s.mac[0]; sw->seiadl = w; microdelay(10); }else{ sw->seiadh1 = 0; /* valid bit is 0; rest doesn't matter */ microdelay(10); } sw->seiac = Cwrite | StaticMacs | i; microdelay(10); } typedef struct DynMac DynMac; struct DynMac { ushort nentry; uchar valid; uchar age; uchar port; /* source port (0 origin) */ uchar fid; /* filter id */ uchar mac[Eaddrlen]; }; static DynMac getdynmac(Switch *sw, int i) { DynMac d; ulong w; int n, l; memset(&d, 0, sizeof d); l = 0; do{ if(++l > 100) return d; sw->seiac = Cread | DynMacs | i; microdelay(10); w = sw->seiadh2; /* peculiar encoding of table size */ if(w & MACempty) return d; n = w & 0xF; w = sw->seiadh1; }while(w & NotReady); /* TO DO: how long might it delay? */ d.nentry = ((n<<6) | (w>>(58-32))) + 1; if(i < 0 || i >= d.nentry) return d; d.valid = 1; d.age = (w>>(56-32)) & 3; d.port = (w>>(52-32)) & 7; d.fid = (w>>(48-32)) & 0xF; d.mac[5] = w>>8; d.mac[4] = w; w = sw->seiadl; d.mac[3] = w>>24; d.mac[2] = w>>16; d.mac[1] = w>>8; d.mac[0] = w; return d; } static void switchdump(void) { Switch *sw; int i, j; ulong w; sw = KADDR(PHYSSWITCH); iprint("sec0 %8.8lux\n", sw->sec0); iprint("sec1 %8.8lux\n", sw->sec1); for(i = 0; i < 5; i++){ iprint("cfg%d", i); for(j = 0; j < 3; j++){ w = sw->cfg[i][j]; iprint(" %8.8lux", w); } iprint("\n"); if(i < 2){ w = sw->an[i]; iprint(" an=%8.8lux pm=%8.8lux\n", w, sw->ppm[i]); } } for(i = 0; i < 8; i++){ sw->seiac = Cread | DynMacs | i; microdelay(10); w = sw->seiadh2; microdelay(10); iprint("dyn%d: %8.8lux", i, w); w = sw->seiadh1; microdelay(10); iprint(" %8.8lux", w); w = sw->seiadl; microdelay(10); iprint(" %8.8lux\n", w); } for(i=0; i<0x20; i++){ sw->seiac = Cread | MibCounter | i; microdelay(10); w = sw->seiadl; microdelay(10); if(w & (1<<30)) iprint("%.2ux: %s: %lud\n", i, portmibnames[i], w & ~(3<<30)); } } static void switchstatproc(void*) { for(;;){ tsleep(&up->sleep, return0, nil, 30*1000); } } void etherks8695link(void) { addethercard("ks8695", reset); } /* * notes: * switch control * read stats every 30 seconds or so */