ref: 37a8fc6168b3bf82df198fb20be5a8a53996187c
dir: /sys/src/cmd/nusb/ether/lan78xx.c/
/* * Microchip (ex SMSC) LAN78XX * Also used as ethernet core in LAN7515 usb hub + ethernet */ #include <u.h> #include <libc.h> #include <thread.h> #include "usb.h" #include "dat.h" enum { Doburst = 1, Resettime = 1000, E2pbusytime = 1000, Hsburst = 32, Defbulkdly = 1000, Rxfifosize = (12*1024), Txfifosize = (12*1024), MACoffset = 1, PHYinternal = 1, Rxerror = 0x00400000, Txfcs = 1<<22, /* USB vendor requests */ Writereg = 0xA0, Readreg = 0xA1, /* device registers */ Idrev = 0x00, Intsts = 0x0C, Hwcfg = 0x10, Led0en = 1<<20, Led1en = 1<<21, Mef = 1<<4, Lrst = 1<<1, Pmctrl = 0x14, Ready = 1<<7, Phyrst = 1<<4, Gpiocfg0 = 0x18, Gpiocfg1 = 0x1C, E2pcmd = 0x40, Busy = 1<<31, Timeout = 1<<10, Loaded = 1<<9, Read = 0, E2pdata = 0x44, Burstcap = 0x90, Intepctl = 0x98, Phyint = 1<<17, Bulkdelay = 0x94, Rfectl = 0xB0, Rxcoe = 0xF<<11, Ab = 1<<10, Am = 1<<9, Au = 1<<8, Dpf = 1<<1, Usbcfg0 = 0x80, Bir = 1<<6, Bce = 1<<5, Usbcfg1 = 0x84, Rxfifoctl = 0xC0, Rxen = 1<<31, Txfifoctl = 0xC4, Txen = 1<<31, Rxfifo = 0xC8, Txfifo = 0xCc, Fctflow = 0xD0, Maccr = 0x100, Add = 1<<12, Asd = 1<<11, Macrx = 0x104, Macfcs = 1<<4, Macrxen = 1<<0, Mactx = 0x108, Mactxen = 1<<0, Addrh = 0x118, Addrl = 0x11C, MIIaddr = 0x120, MIIwrite= 1<<1, MIIread = 0<<1, MIIbusy = 1<<0, MIIdata = 0x124, Flow = 0x10C, Addrfilth = 0x400, Afvalid = 1<<31, Addrfiltl = 0x404, /* MII registers */ Bmcr = 0, Bmcrreset= 1<<15, Speed100= 1<<13, Anenable= 1<<12, Anrestart= 1<<9, Fulldpx = 1<<8, Speed1000= 1<<6, Bmsr = 1, BmsrLs = 0x0004, /* Link Status */ Anar = 4, Anlpar = 5, Adcsma = 0x0001, Ad10h = 0x0020, Ad10f = 0x0040, Ad100h = 0x0080, Ad100f = 0x0100, Adpause = 0x0400, Adpauseasym= 0x0800, Adall = Ad10h|Ad10f|Ad100h|Ad100f, Lpa = 5, Ctrl1000 = 9, Ad1000h = 0x0400, Ad1000f = 0x0200, Mssr = 10, Mssr1000THD= 0x0400, /* Link Partner 1000BASE-T HD able */ Mssr1000TFD= 0x0800, /* Link Partner 1000BASE-T FD able */ Ledmodes = 29, Led0shift = 0, Led1shift = 4, Linkact = 0x0, Link1000 = 0x1, Phyintmask = 25, Anegcomp= 1<<10, Linkchg = 1<<13, }; static int burstcap = Hsburst, bulkdelay = Defbulkdly; static int wr(Dev *d, int reg, int val) { int ret; ret = usbcmd(d, Rh2d|Rvendor|Rdev, Writereg, 0, reg, (uchar*)&val, sizeof(val)); if(ret < 0) fprint(2, "%s: wr(%x, %x): %r", argv0, reg, val); return ret; } static int rr(Dev *d, int reg) { int ret, rval; ret = usbcmd(d, Rd2h|Rvendor|Rdev, Readreg, 0, reg, (uchar*)&rval, sizeof(rval)); if(ret < 0){ fprint(2, "%s: rr(%x): %r", argv0, reg); return 0; } return rval; } static int miird(Dev *d, int idx) { while(rr(d, MIIaddr) & MIIbusy) ; wr(d, MIIaddr, PHYinternal<<11 | idx<<6 | MIIread | MIIbusy); while(rr(d, MIIaddr) & MIIbusy) ; return rr(d, MIIdata); } static void miiwr(Dev *d, int idx, int val) { while(rr(d, MIIaddr) & MIIbusy) ; wr(d, MIIdata, val); wr(d, MIIaddr, PHYinternal<<11 | idx<<6 | MIIwrite | MIIbusy); while(rr(d, MIIaddr) & MIIbusy) ; } static int eepromr(Dev *d, int off, uchar *buf, int len) { int i, v; for(i = 0; i < E2pbusytime; i++) if((rr(d, E2pcmd) & Busy) == 0) break; if(i == E2pbusytime) return -1; for(i = 0; i < len; i++){ wr(d, E2pcmd, Busy|Read|(i+off)); while((v = rr(d, E2pcmd) & (Busy|Timeout)) == Busy) ; if(v & Timeout) return -1; buf[i] = rr(d, E2pdata); } return 0; } static void phyinit(Dev *d) { int i; miiwr(d, Bmcr, Bmcrreset|Anenable); for(i = 0; i < Resettime/10; i++){ if((miird(d, Bmcr) & Bmcrreset) == 0) break; sleep(10); } miiwr(d, Anar, Adcsma|Adall|Adpause|Adpauseasym); miiwr(d, Ctrl1000, Ad1000f); miiwr(d, Phyintmask, 0); miiwr(d, Ledmodes, (Linkact<<Led1shift) | (Link1000<<Led0shift)); miiwr(d, Bmcr, miird(d, Bmcr)|Anenable|Anrestart); } static int doreset(Dev *d, int reg, int bit) { int i; if(wr(d, reg, bit) < 0) return -1; for(i = 0; i < Resettime/10; i++){ if((rr(d, reg) & bit) == 0) return 1; sleep(10); } return 0; } static int lan78xxreceive(Dev *ep) { Block *b; uint hd; int n; n = Doburst? burstcap*512: Maxpkt; b = allocb(n); if((n = read(ep->dfd, b->wp, n)) < 10){ freeb(b); return -1; } b->wp += n; while(BLEN(b) >= 10){ hd = GET4(b->rp); b->rp += 10; n = hd & 0x3FFF; if(n > BLEN(b)) break; if((hd & Rxerror) == 0){ if(n == BLEN(b)){ etheriq(b); return 0; } etheriq(copyblock(b, n)); } b->rp = (uchar*)(((uintptr)b->rp + n + 3)&~3); } freeb(b); return 0; } static void lan78xxtransmit(Dev *ep, Block *b) { int n = BLEN(b) & 0xFFFFF; b->rp -= 8; PUT4(b->rp, n | Txfcs); PUT4(b->rp+4, n); write(ep->dfd, b->rp, BLEN(b)); freeb(b); } static int lan78xxpromiscuous(Dev *d, int on) { int rxctl; rxctl = rr(d, Rfectl); if(on) rxctl |= Am|Au; else { rxctl &= ~Au; if(nmulti == 0) rxctl &= ~Am; } return wr(d, Rfectl, rxctl); } static int lan78xxmulticast(Dev *d, uchar *, int) { int rxctl; rxctl = rr(d, Rfectl); if(nmulti != 0) rxctl |= Am; else rxctl &= ~Am; return wr(d, Rfectl, rxctl); } static int lan78xxlinkspeed(Dev *d) { if((miird(d, Bmsr) & BmsrLs) == 0) return 0; /* link down */ if(miird(d, Mssr) & (Mssr1000THD|Mssr1000TFD)) return 1000; if(miird(d, Anlpar) & (Ad100h|Ad100f)) return 100; return 10; } int lan78xxinit(Dev *d) { u32int a; int i; if(!doreset(d, Hwcfg, Lrst) || !doreset(d, Pmctrl, Phyrst)) return -1; for(i = 0; i < Resettime/10; i++){ if(rr(d, Pmctrl) & Ready) break; sleep(10); } if((rr(d, Pmctrl) & Ready) == 0){ fprint(2, "%s: device not ready after reset\n", argv0); return -1; } if(!setmac) if(eepromr(d, MACoffset, macaddr, Eaddrlen) < 0) fprint(2, "%s: can't read etheraddr from EEPROM\n", argv0); a = GET4(macaddr); wr(d, Addrl, a); wr(d, Addrfiltl, a); a = GET2(macaddr+4); wr(d, Addrh, a); wr(d, Addrfilth, a|Afvalid); wr(d, Usbcfg0, rr(d, Usbcfg0) | Bir); if(Doburst){ wr(d, Hwcfg, rr(d, Hwcfg)|Mef); wr(d, Usbcfg0, rr(d, Usbcfg0)|Bce); wr(d, Burstcap, burstcap); wr(d, Bulkdelay, bulkdelay); }else{ wr(d, Hwcfg, rr(d, Hwcfg)&~Mef); wr(d, Usbcfg0, rr(d, Usbcfg0)&~Bce); wr(d, Burstcap, 0); wr(d, Bulkdelay, 0); } wr(d, Rxfifo, (Rxfifosize-512)/512); wr(d, Txfifo, (Txfifosize-512)/512); wr(d, Intsts, ~0); wr(d, Hwcfg, rr(d, Hwcfg) | Led0en|Led1en); wr(d, Flow, 0); wr(d, Fctflow, 0); wr(d, Rfectl, (rr(d, Rfectl) & ~Rxcoe) | Ab|Dpf); /* TODO could offload checksums? */ phyinit(d); wr(d, Maccr, rr(d,Maccr)|Add|Asd); wr(d, Intepctl, rr(d, Intepctl)|Phyint); wr(d, Mactx, Mactxen); wr(d, Macrx, rr(d, Macrx) | Macfcs|Macrxen); wr(d, Txfifoctl, Txen); wr(d, Rxfifoctl, Rxen); eptransmit = lan78xxtransmit; epreceive = lan78xxreceive; eppromiscuous = lan78xxpromiscuous; epmulticast = lan78xxmulticast; eplinkspeed = lan78xxlinkspeed; return 0; }