ref: 02c6058f5d529e41afb0208c69f0cbf694b02b18
dir: /sys/src/cmd/nusb/ether/asix.c/
/* * Asix USB ether adapters * I got no documentation for it, thus the bits * come from other systems; it's likely this is * doing more than needed in some places and * less than required in others. */ #include <u.h> #include <libc.h> #include <thread.h> #include "usb.h" #include "dat.h" /* * Asix common */ enum { Mgm = 0x0001, /* media */ Mfd = 0x0002, Mac = 0x0004, Mmhz = 0x0008, Mrfc = 0x0010, Mtfc = 0x0020, Mjfe = 0x0040, Mre = 0x0100, Mps = 0x0200, Munk = 0x8000, Mall772 = Mfd|Mrfc|Mtfc|Mps|Mac|Mre, Mall178 = Mps|Mfd|Mac|Mrfc|Mtfc|Mjfe|Mre, Mall179 = Mgm|Mfd|Mmhz|Mrfc|Mtfc|Mjfe|Munk|Mre, Rxctldce = 0x0100, /* drop crcerr */ Rxctlso = 0x80, /* start operation */ Rxctlam = 0x10, Rxctlab = 0x08, Rxctlsep = 0x04, Rxctlamall = 0x02, /* all multicast */ Rxctlprom = 0x01, /* promiscuous */ Rxall179 = Rxctldce|Rxctlso|Rxctlab|Rxctlamall, /* MII */ Miibmcr = 0x00, /* basic mode ctrl reg. */ Bmcrreset = 0x8000, /* reset */ Bmcranena = 0x1000, /* auto neg. enable */ Bmcrar = 0x0200, /* announce restart */ Miiad = 0x04, /* advertise reg. */ Adcsma = 0x0001, Ad1000f = 0x0200, Ad1000h = 0x0100, Ad10h = 0x0020, Ad10f = 0x0040, Ad100h = 0x0080, Ad100f = 0x0100, Adpause = 0x0400, Adall = Ad10h|Ad10f|Ad100h|Ad100f, Miimctl = 0x14, /* marvell ctl */ Mtxdly = 0x02, Mrxdly = 0x80, Mtxrxdly = 0x82, Miic1000 = 0x09, }; /* * a88178 & a88772 */ enum { /* Asix commands */ Cswmii = 0x06, /* set sw mii */ Crmii = 0x07, /* read mii reg */ Cwmii = 0x08, /* write mii reg */ Chwmii = 0x0a, /* set hw mii */ Creeprom = 0x0b, /* read eeprom */ Cwdis = 0x0e, /* write disable */ Cwena = 0x0d, /* write enable */ Crrxctl = 0x0f, /* read rx ctl */ Cwrxctl = 0x10, /* write rx ctl */ Cwipg = 0x12, /* write ipg */ Crmac = 0x13, /* read mac addr */ Crphy = 0x19, /* read phy id */ Cwmedium = 0x1b, /* write medium mode */ Crgpio = 0x1e, /* read gpio */ Cwgpio = 0x1f, /* write gpios */ Creset = 0x20, /* reset */ Cwphy = 0x22, /* select phy */ /* reset codes */ Rclear = 0x00, Rprte = 0x04, Rprl = 0x08, Riprl = 0x20, Rippd = 0x40, Ipgdflt = 0x15|0x0c|0x12, /* default ipg0, 1, 2 */ Gpiogpo1en = 0x04, /* gpio1 enable */, Gpiogpo1 = 0x08, /* gpio1 value */ Gpiogpo2en = 0x10, /* gpio2 enable */ Gpiogpo2 = 0x20, /* gpio2 value */ Gpiorse = 0x80, /* gpio reload serial eeprom */ Pmask = 0x1F, Pembed = 0x10, /* embedded phy */ }; static uint asixphy; static int asixset(Dev *d, int c, int v) { int r; int ec; r = Rh2d|Rvendor|Rdev; ec = usbcmd(d, r, c, v, 0, nil, 0); if(ec < 0) fprint(2, "%s: asixset %x %x: %r\n", argv0, c, v); return ec; } static int asixget(Dev *d, int c, uchar *buf, int l) { int r; int ec; r = Rd2h|Rvendor|Rdev; ec = usbcmd(d, r, c, 0, 0, buf, l); if(ec < 0) fprint(2, "%s: asixget %x: %r\n", argv0, c); return ec; } static int getgpio(Dev *d) { uchar c; if(asixget(d, Crgpio, &c, 1) < 0) return -1; return c; } static int getphy(Dev *d) { uchar buf[2]; if(asixget(d, Crphy, buf, sizeof(buf)) < 0) return -1; return buf[1]; } static int getrxctl(Dev *d) { uchar buf[2]; memset(buf, 0, sizeof(buf)); if(asixget(d, Crrxctl, buf, sizeof(buf)) < 0) return -1; return GET2(buf); } static int miiread(Dev *d, int phy, int reg) { int r; uchar v[2]; r = Rd2h|Rvendor|Rdev; if(usbcmd(d, r, Crmii, phy, reg, v, 2) < 0){ fprint(2, "%s: miiread: %r\n", argv0); return -1; } r = GET2(v); if(r == 0xFFFF) return -1; return r; } static int miiwrite(Dev *d, int phy, int reg, int val) { int r; uchar v[2]; if(asixset(d, Cswmii, 0) < 0) return -1; r = Rh2d|Rvendor|Rdev; PUT2(v, val); if(usbcmd(d, r, Cwmii, phy, reg, v, 2) < 0){ fprint(2, "%s: miiwrite: %#x %#x %r\n", argv0, reg, val); return -1; } if(asixset(d, Chwmii, 0) < 0) return -1; return 0; } static int eepromread(Dev *d, int i) { int r; int ec; uchar buf[2]; r = Rd2h|Rvendor|Rdev; ec = usbcmd(d, r, Creeprom, i, 0, buf, sizeof(buf)); if(ec < 0) fprint(2, "%s: eepromread %d: %r\n", argv0, i); ec = GET2(buf); if(ec == 0xFFFF) ec = -1; return ec; } static int asixreceive(Dev *ep) { Block *b; uint hd; int n; b = allocb(Maxpkt+4); if((n = read(ep->dfd, b->wp, b->lim - b->base)) < 0){ freeb(b); return -1; } b->wp += n; while(BLEN(b) >= 4){ hd = GET4(b->rp); b->rp += 4; n = hd & 0xFFFF; hd = (hd>>16) ^ 0xFFFF; if((n != hd) || (n > BLEN(b))) break; if(n == BLEN(b)){ etheriq(b); return 0; } etheriq(copyblock(b, n)); b->rp += n; } freeb(b); return 0; } static void asixtransmit(Dev *ep, Block *b) { uint hd; int n; n = BLEN(b); hd = n | (n<<16)^0xFFFF0000; b->rp -= 4; PUT4(b->rp, hd); n += 4; if((n % ep->maxpkt) == 0){ PUT4(b->wp, 0xFFFF0000); b->wp += 4; } write(ep->dfd, b->rp, BLEN(b)); freeb(b); } static int asixpromiscuous(Dev *d, int on) { int rxctl; rxctl = getrxctl(d); if(on) rxctl |= Rxctlprom; else rxctl &= ~Rxctlprom; return asixset(d, Cwrxctl, rxctl); } static int asixmulticast(Dev *d, uchar*, int) { int rxctl; rxctl = getrxctl(d); if(nmulti != 0) rxctl |= Rxctlamall; else rxctl &= ~Rxctlamall; return asixset(d, Cwrxctl, rxctl); } int a88178init(Dev *d) { int bmcr; int gpio; int ee17; gpio = getgpio(d); if(gpio < 0) return -1; asixset(d, Cwena, 0); ee17 = eepromread(d, 0x0017); asixset(d, Cwdis, 0); asixset(d, Cwgpio, Gpiorse|Gpiogpo1|Gpiogpo1en); if((ee17 >> 8) != 1){ asixset(d, Cwgpio, 0x003c); asixset(d, Cwgpio, 0x001c); asixset(d, Cwgpio, 0x003c); }else{ asixset(d, Cwgpio, Gpiogpo1en); asixset(d, Cwgpio, Gpiogpo1|Gpiogpo1en); } asixset(d, Creset, Rclear); sleep(150); asixset(d, Creset, Rippd|Rprl); sleep(150); asixset(d, Cwrxctl, 0); if(asixget(d, Crmac, macaddr, Eaddrlen) < 0) return -1; asixphy = getphy(d); if(ee17 < 0 || (ee17 & 0x7) == 0){ miiwrite(d, asixphy, Miimctl, Mtxrxdly); sleep(60); } miiwrite(d, asixphy, Miibmcr, Bmcrreset|Bmcranena); miiwrite(d, asixphy, Miiad, Adall|Adcsma|Adpause); miiwrite(d, asixphy, Miic1000, Ad1000f); bmcr = miiread(d, asixphy, Miibmcr); if((bmcr & Bmcranena) != 0){ bmcr |= Bmcrar; miiwrite(d, asixphy, Miibmcr, bmcr); } asixset(d, Cwmedium, Mall178); asixset(d, Cwrxctl, Rxctlso|Rxctlab); epreceive = asixreceive; eptransmit = asixtransmit; eppromiscuous = asixpromiscuous; epmulticast = asixmulticast; return 0; } int a88772init(Dev *d) { int bmcr; int rc; if(asixset(d, Cwgpio, Gpiorse|Gpiogpo2|Gpiogpo2en) < 0) return -1; asixphy = getphy(d); if((asixphy & Pmask) == Pembed){ /* embedded 10/100 ethernet */ rc = asixset(d, Cwphy, 1); }else rc = asixset(d, Cwphy, 0); if(rc < 0) return -1; if(asixset(d, Creset, Rippd|Rprl) < 0) return -1; sleep(150); if((asixphy & Pmask) == Pembed) rc = asixset(d, Creset, Riprl); else rc = asixset(d, Creset, Rprte); if(rc < 0) return -1; sleep(150); getrxctl(d); if(asixset(d, Cwrxctl, 0) < 0) return -1; if(asixget(d, Crmac, macaddr, Eaddrlen) < 0) return -1; if(asixset(d, Creset, Rprl) < 0) return -1; sleep(150); if(asixset(d, Creset, Riprl|Rprl) < 0) return -1; sleep(150); miiwrite(d, asixphy, Miibmcr, Bmcrreset); miiwrite(d, asixphy, Miiad, Adall|Adcsma); bmcr = miiread(d, asixphy, Miibmcr); if((bmcr & Bmcranena) != 0){ bmcr |= Bmcrar; miiwrite(d, asixphy, Miibmcr, bmcr); } if(asixset(d, Cwmedium, Mall772) < 0) return -1; if(asixset(d, Cwipg, Ipgdflt) < 0) return -1; if(asixset(d, Cwrxctl, Rxctlso|Rxctlab) < 0) return -1; epreceive = asixreceive; eptransmit = asixtransmit; eppromiscuous = asixpromiscuous; epmulticast = asixmulticast; return 0; } /* * a88179 & a88178a */ enum { /* Access */ Amac = 0x01, Nid = 0x10, Aphy = 0x02, Physts = 0x02, Phyid = 0x03, /* Control */ Crxctl = 0x0b, Cmed = 0x22, /* medium status register */ Cmmsr = 0x24, /* control monitor */ Mrwmp = 0x04, Mpmepol = 0x20, Mpmetyp = 0x40, Cphy = 0x26, /* control phy */ Cphybz = 0x0010, Cphyiprl = 0x0020, Cblkinq = 0x2e, Csclk = 0x33, /* select clock */ Sclkbcs = 0x01, Sclkacs = 0x02, Cpwtrl = 0x54, Cpwtrh = 0x55, Usbss = 0x04, Usbhs = 0x02, Usbfs = 0x01, }; static int a179set(Dev *d, int c, int v, int i, uchar *b, int l) { int r, ec; r = Rh2d|Rvendor|Rdev; ec = usbcmd(d, r, c, v, i, b, l); if(ec < 0) fprint(2, "%s: a179set %x %x: %r\n", argv0, c, v); return ec; } static int a179set1(Dev *d, int v, uchar b) { return a179set(d, Amac, v, 1, &b, 1); } static int a179set2(Dev *d, int v, ushort b) { uchar buf[2]; memcpy(buf, &b, 2); return a179set(d, Amac, v, 2, buf, 2); } static int a179get(Dev *d, int c, int v, int i, uchar *buf, int l) { int r, ec; r = Rd2h|Rvendor|Rdev; ec = usbcmd(d, r, c, v, i, buf, l); if(ec < 0) fprint(2, "%s: a179get %x %x: %r\n", argv0, c, v); return ec; } static int a179miiread(Dev *d, int reg) { int r; uchar v[2]; r = Rd2h|Rvendor|Rdev; if(usbcmd(d, r, Aphy, Phyid, reg, v, 2) < 0){ fprint(2, "%s: a179miiread: %r\n", argv0); return -1; } r = GET2(v); if(r == 0xFFFF) return -1; return r; } static int a179miiwrite(Dev *d, int reg, uint val) { int r; uchar v[2]; PUT2(v, val); r = Rh2d|Rvendor|Rdev; if(usbcmd(d, r, Aphy, Phyid, reg, v, 2) < 0){ fprint(2, "%s: a179miiwrite: %#x %#x %r\n", argv0, reg, val); return -1; } return 0; } static int a179bufsz; static int a179receive(Dev *ep) { Block *b; uchar *hdr; uint pktlen, npkt; int n; b = allocb(a179bufsz); if((n = read(ep->dfd, b->wp, b->lim - b->base)) < 0){ freeb(b); return -1; } b->wp += n; npkt = GET2(b->wp-4); hdr = b->base + GET2(b->wp-2); b->wp -= 4; while(npkt-- > 0){ pktlen = GET2(hdr+2) & 0x1FFF; if(pktlen < ETHERHDRSIZE || pktlen > BLEN(b)) break; etheriq(copyblock(b, pktlen-4)); b->rp += (pktlen+7) & 0xFFF8; hdr += 4; } freeb(b); return 0; } static void a179transmit(Dev *ep, Block *b) { uint hd[2]; hd[0] = BLEN(b); hd[1] = 0; b->rp -= 8; if((BLEN(b) % ep->maxpkt) == 0) hd[1] |= 0x80008000; PUT4(b->rp, hd[0]); PUT4(b->rp+4, hd[1]); write(ep->dfd, b->rp, BLEN(b)); freeb(b); } static int a179getrxctl(Dev *d) { uchar buf[2]; memset(buf, 0, sizeof(buf)); if(a179get(d, Amac, Crxctl, 2, buf, 2) < 0) return -1; return GET2(buf); } static int a179promiscuous(Dev *d, int on) { ushort rxctl; rxctl = a179getrxctl(d); if(on) rxctl |= Rxctlprom; else rxctl &= ~Rxctlprom; return a179set2(d, Crxctl, rxctl); } static int a179multicast(Dev *d, uchar*, int) { int rxctl; rxctl = a179getrxctl(d); if(nmulti != 0) rxctl |= Rxctlamall; else rxctl &= ~Rxctlamall; return a179set2(d, Crxctl, rxctl); } int a88179init(Dev *d) { uchar qctrl[4][5] = { {0x07, 0x4f, 0x00, 0x02, 0xff}, {0x07, 0x20, 0x03, 0x03, 0xff}, {0x07, 0xae, 0x07, 0x04, 0xff}, {0x07, 0xcc, 0x4c, 0x04, 0x08} }; uchar link; int bmcr, spd; a179set2(d, Cphy, 0); a179set2(d, Cphy, Cphyiprl); sleep(200); a179set1(d, Csclk, Sclkacs|Sclkbcs); sleep(100); a179set(d, Amac, Cblkinq, 5, qctrl[0], 5); a179set1(d, Cpwtrl, 0x34); a179set1(d, Cpwtrh, 0x52); if(setmac){ if(a179set(d, Amac, Nid, Eaddrlen, macaddr, Eaddrlen) < 0) return -1; }else if(a179get(d, Amac, Nid, Eaddrlen, macaddr, Eaddrlen) < 0) return -1; if(a179set2(d, Crxctl, Rxall179) < 0) return -1; if(a179set1(d, Cmmsr, Mpmetyp|Mpmepol|Mrwmp) < 0) return -1; if(a179set2(d, Cmed, Mall179) < 0) return -1; a179get(d, Amac, Physts, 1, &link, 1); switch(link){ case Usbss: spd = 0; break; case Usbhs: spd = 1; break; case Usbss|Usbhs: spd = 2; break; default: spd = 3; } a179set(d, Amac, Cblkinq, 5, qctrl[spd], 5); a179bufsz = 1024*(qctrl[spd][3]+2); bmcr = a179miiread(d, Miibmcr); if((bmcr & Bmcranena) != 0){ bmcr |= Bmcrar; a179miiwrite(d, Miibmcr, bmcr); } epreceive = a179receive; eptransmit = a179transmit; eppromiscuous = a179promiscuous; epmulticast = a179multicast; return 0; }