14a5d661aSToomas Soome /*
24a5d661aSToomas Soome * Copyright (c) 2003 Hidetoshi Shimokawa
34a5d661aSToomas Soome * Copyright (c) 1998-2002 Katsushi Kobayashi and Hidetoshi Shimokawa
44a5d661aSToomas Soome * All rights reserved.
54a5d661aSToomas Soome *
64a5d661aSToomas Soome * Redistribution and use in source and binary forms, with or without
74a5d661aSToomas Soome * modification, are permitted provided that the following conditions
84a5d661aSToomas Soome * are met:
94a5d661aSToomas Soome * 1. Redistributions of source code must retain the above copyright
104a5d661aSToomas Soome * notice, this list of conditions and the following disclaimer.
114a5d661aSToomas Soome * 2. Redistributions in binary form must reproduce the above copyright
124a5d661aSToomas Soome * notice, this list of conditions and the following disclaimer in the
134a5d661aSToomas Soome * documentation and/or other materials provided with the distribution.
144a5d661aSToomas Soome * 3. All advertising materials mentioning features or use of this software
154a5d661aSToomas Soome * must display the acknowledgement as bellow:
164a5d661aSToomas Soome *
174a5d661aSToomas Soome * This product includes software developed by K. Kobayashi and H. Shimokawa
184a5d661aSToomas Soome *
194a5d661aSToomas Soome * 4. The name of the author may not be used to endorse or promote products
204a5d661aSToomas Soome * derived from this software without specific prior written permission.
214a5d661aSToomas Soome *
224a5d661aSToomas Soome * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
234a5d661aSToomas Soome * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
244a5d661aSToomas Soome * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
254a5d661aSToomas Soome * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
264a5d661aSToomas Soome * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
274a5d661aSToomas Soome * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
284a5d661aSToomas Soome * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
294a5d661aSToomas Soome * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
304a5d661aSToomas Soome * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
314a5d661aSToomas Soome * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
324a5d661aSToomas Soome * POSSIBILITY OF SUCH DAMAGE.
334a5d661aSToomas Soome *
344a5d661aSToomas Soome * $FreeBSD$
354a5d661aSToomas Soome *
364a5d661aSToomas Soome */
374a5d661aSToomas Soome
384a5d661aSToomas Soome #include <stand.h>
394a5d661aSToomas Soome #include <btxv86.h>
404a5d661aSToomas Soome #include <bootstrap.h>
414a5d661aSToomas Soome
424a5d661aSToomas Soome #include "fwohci.h"
434a5d661aSToomas Soome #include "fwohcireg.h"
444a5d661aSToomas Soome #include <dev/firewire/firewire_phy.h>
454a5d661aSToomas Soome
464a5d661aSToomas Soome static uint32_t fwphy_wrdata ( struct fwohci_softc *, uint32_t, uint32_t);
474a5d661aSToomas Soome static uint32_t fwphy_rddata ( struct fwohci_softc *, uint32_t);
484a5d661aSToomas Soome int firewire_debug=0;
494a5d661aSToomas Soome
504a5d661aSToomas Soome #if 0
514a5d661aSToomas Soome #define device_printf(a, x, ...) printf("FW1394: " x, ## __VA_ARGS__)
524a5d661aSToomas Soome #else
534a5d661aSToomas Soome #define device_printf(a, x, ...)
544a5d661aSToomas Soome #endif
554a5d661aSToomas Soome
564a5d661aSToomas Soome #define device_t int
574a5d661aSToomas Soome #define DELAY(x) delay(x)
584a5d661aSToomas Soome
594a5d661aSToomas Soome #define MAX_SPEED 3
604a5d661aSToomas Soome #define MAXREC(x) (2 << (x))
614a5d661aSToomas Soome char *linkspeed[] = {
624a5d661aSToomas Soome "S100", "S200", "S400", "S800",
634a5d661aSToomas Soome "S1600", "S3200", "undef", "undef"
644a5d661aSToomas Soome };
654a5d661aSToomas Soome
664a5d661aSToomas Soome #define FW_EUI64_BYTE(eui, x) \
674a5d661aSToomas Soome ((((x)<4)? \
684a5d661aSToomas Soome ((eui)->hi >> (8*(3-(x)))): \
694a5d661aSToomas Soome ((eui)->lo >> (8*(7-(x)))) \
704a5d661aSToomas Soome ) & 0xff)
714a5d661aSToomas Soome
724a5d661aSToomas Soome /*
734a5d661aSToomas Soome * Communication with PHY device
744a5d661aSToomas Soome */
754a5d661aSToomas Soome static uint32_t
fwphy_wrdata(struct fwohci_softc * sc,uint32_t addr,uint32_t data)764a5d661aSToomas Soome fwphy_wrdata( struct fwohci_softc *sc, uint32_t addr, uint32_t data)
774a5d661aSToomas Soome {
784a5d661aSToomas Soome uint32_t fun;
794a5d661aSToomas Soome
804a5d661aSToomas Soome addr &= 0xf;
814a5d661aSToomas Soome data &= 0xff;
824a5d661aSToomas Soome
834a5d661aSToomas Soome fun = (PHYDEV_WRCMD | (addr << PHYDEV_REGADDR) | (data << PHYDEV_WRDATA));
844a5d661aSToomas Soome OWRITE(sc, OHCI_PHYACCESS, fun);
854a5d661aSToomas Soome DELAY(100);
864a5d661aSToomas Soome
874a5d661aSToomas Soome return(fwphy_rddata( sc, addr));
884a5d661aSToomas Soome }
894a5d661aSToomas Soome
904a5d661aSToomas Soome static uint32_t
fwphy_rddata(struct fwohci_softc * sc,u_int addr)914a5d661aSToomas Soome fwphy_rddata(struct fwohci_softc *sc, u_int addr)
924a5d661aSToomas Soome {
934a5d661aSToomas Soome uint32_t fun, stat;
944a5d661aSToomas Soome u_int i, retry = 0;
954a5d661aSToomas Soome
964a5d661aSToomas Soome addr &= 0xf;
974a5d661aSToomas Soome #define MAX_RETRY 100
984a5d661aSToomas Soome again:
994a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTSTATCLR, OHCI_INT_REG_FAIL);
1004a5d661aSToomas Soome fun = PHYDEV_RDCMD | (addr << PHYDEV_REGADDR);
1014a5d661aSToomas Soome OWRITE(sc, OHCI_PHYACCESS, fun);
1024a5d661aSToomas Soome for ( i = 0 ; i < MAX_RETRY ; i ++ ){
1034a5d661aSToomas Soome fun = OREAD(sc, OHCI_PHYACCESS);
1044a5d661aSToomas Soome if ((fun & PHYDEV_RDCMD) == 0 && (fun & PHYDEV_RDDONE) != 0)
1054a5d661aSToomas Soome break;
1064a5d661aSToomas Soome DELAY(100);
1074a5d661aSToomas Soome }
1084a5d661aSToomas Soome if(i >= MAX_RETRY) {
1094a5d661aSToomas Soome if (firewire_debug)
1104a5d661aSToomas Soome device_printf(sc->fc.dev, "phy read failed(1).\n");
1114a5d661aSToomas Soome if (++retry < MAX_RETRY) {
1124a5d661aSToomas Soome DELAY(100);
1134a5d661aSToomas Soome goto again;
1144a5d661aSToomas Soome }
1154a5d661aSToomas Soome }
1164a5d661aSToomas Soome /* Make sure that SCLK is started */
1174a5d661aSToomas Soome stat = OREAD(sc, FWOHCI_INTSTAT);
1184a5d661aSToomas Soome if ((stat & OHCI_INT_REG_FAIL) != 0 ||
1194a5d661aSToomas Soome ((fun >> PHYDEV_REGADDR) & 0xf) != addr) {
1204a5d661aSToomas Soome if (firewire_debug)
1214a5d661aSToomas Soome device_printf(sc->fc.dev, "phy read failed(2).\n");
1224a5d661aSToomas Soome if (++retry < MAX_RETRY) {
1234a5d661aSToomas Soome DELAY(100);
1244a5d661aSToomas Soome goto again;
1254a5d661aSToomas Soome }
1264a5d661aSToomas Soome }
1274a5d661aSToomas Soome if (firewire_debug || retry >= MAX_RETRY)
1284a5d661aSToomas Soome device_printf(sc->fc.dev,
1294a5d661aSToomas Soome "fwphy_rddata: 0x%x loop=%d, retry=%d\n", addr, i, retry);
1304a5d661aSToomas Soome #undef MAX_RETRY
1314a5d661aSToomas Soome return((fun >> PHYDEV_RDDATA )& 0xff);
1324a5d661aSToomas Soome }
1334a5d661aSToomas Soome
1344a5d661aSToomas Soome
1354a5d661aSToomas Soome static int
fwohci_probe_phy(struct fwohci_softc * sc,device_t dev)1364a5d661aSToomas Soome fwohci_probe_phy(struct fwohci_softc *sc, device_t dev)
1374a5d661aSToomas Soome {
1384a5d661aSToomas Soome uint32_t reg, reg2;
1394a5d661aSToomas Soome int e1394a = 1;
1404a5d661aSToomas Soome int nport, speed;
1414a5d661aSToomas Soome /*
1424a5d661aSToomas Soome * probe PHY parameters
1434a5d661aSToomas Soome * 0. to prove PHY version, whether compliance of 1394a.
1444a5d661aSToomas Soome * 1. to probe maximum speed supported by the PHY and
1454a5d661aSToomas Soome * number of port supported by core-logic.
1464a5d661aSToomas Soome * It is not actually available port on your PC .
1474a5d661aSToomas Soome */
1484a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_LPS);
1494a5d661aSToomas Soome DELAY(500);
1504a5d661aSToomas Soome
1514a5d661aSToomas Soome reg = fwphy_rddata(sc, FW_PHY_SPD_REG);
1524a5d661aSToomas Soome
1534a5d661aSToomas Soome if((reg >> 5) != 7 ){
1544a5d661aSToomas Soome nport = reg & FW_PHY_NP;
1554a5d661aSToomas Soome speed = reg & FW_PHY_SPD >> 6;
1564a5d661aSToomas Soome if (speed > MAX_SPEED) {
1574a5d661aSToomas Soome device_printf(dev, "invalid speed %d (fixed to %d).\n",
1584a5d661aSToomas Soome speed, MAX_SPEED);
1594a5d661aSToomas Soome speed = MAX_SPEED;
1604a5d661aSToomas Soome }
1614a5d661aSToomas Soome device_printf(dev,
1624a5d661aSToomas Soome "Phy 1394 only %s, %d ports.\n",
1634a5d661aSToomas Soome linkspeed[speed], nport);
1644a5d661aSToomas Soome }else{
1654a5d661aSToomas Soome reg2 = fwphy_rddata(sc, FW_PHY_ESPD_REG);
1664a5d661aSToomas Soome nport = reg & FW_PHY_NP;
1674a5d661aSToomas Soome speed = (reg2 & FW_PHY_ESPD) >> 5;
1684a5d661aSToomas Soome if (speed > MAX_SPEED) {
1694a5d661aSToomas Soome device_printf(dev, "invalid speed %d (fixed to %d).\n",
1704a5d661aSToomas Soome speed, MAX_SPEED);
1714a5d661aSToomas Soome speed = MAX_SPEED;
1724a5d661aSToomas Soome }
1734a5d661aSToomas Soome device_printf(dev,
1744a5d661aSToomas Soome "Phy 1394a available %s, %d ports.\n",
1754a5d661aSToomas Soome linkspeed[speed], nport);
1764a5d661aSToomas Soome
1774a5d661aSToomas Soome /* check programPhyEnable */
1784a5d661aSToomas Soome reg2 = fwphy_rddata(sc, 5);
1794a5d661aSToomas Soome #if 0
1804a5d661aSToomas Soome if (e1394a && (OREAD(sc, OHCI_HCCCTL) & OHCI_HCC_PRPHY)) {
1814a5d661aSToomas Soome #else /* XXX force to enable 1394a */
1824a5d661aSToomas Soome if (e1394a) {
1834a5d661aSToomas Soome #endif
1844a5d661aSToomas Soome if (firewire_debug)
1854a5d661aSToomas Soome device_printf(dev,
1864a5d661aSToomas Soome "Enable 1394a Enhancements\n");
1874a5d661aSToomas Soome /* enable EAA EMC */
1884a5d661aSToomas Soome reg2 |= 0x03;
1894a5d661aSToomas Soome /* set aPhyEnhanceEnable */
1904a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_PHYEN);
1914a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTLCLR, OHCI_HCC_PRPHY);
1924a5d661aSToomas Soome } else {
1934a5d661aSToomas Soome /* for safe */
1944a5d661aSToomas Soome reg2 &= ~0x83;
1954a5d661aSToomas Soome }
1964a5d661aSToomas Soome reg2 = fwphy_wrdata(sc, 5, reg2);
1974a5d661aSToomas Soome }
1984a5d661aSToomas Soome sc->speed = speed;
1994a5d661aSToomas Soome
2004a5d661aSToomas Soome reg = fwphy_rddata(sc, FW_PHY_SPD_REG);
2014a5d661aSToomas Soome if((reg >> 5) == 7 ){
2024a5d661aSToomas Soome reg = fwphy_rddata(sc, 4);
2034a5d661aSToomas Soome reg |= 1 << 6;
2044a5d661aSToomas Soome fwphy_wrdata(sc, 4, reg);
2054a5d661aSToomas Soome reg = fwphy_rddata(sc, 4);
2064a5d661aSToomas Soome }
2074a5d661aSToomas Soome return 0;
2084a5d661aSToomas Soome }
2094a5d661aSToomas Soome
2104a5d661aSToomas Soome
2114a5d661aSToomas Soome void
2124a5d661aSToomas Soome fwohci_reset(struct fwohci_softc *sc, device_t dev)
2134a5d661aSToomas Soome {
2144a5d661aSToomas Soome int i, max_rec, speed;
2154a5d661aSToomas Soome uint32_t reg, reg2;
2164a5d661aSToomas Soome
2174a5d661aSToomas Soome /* Disable interrupts */
2184a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTMASKCLR, ~0);
2194a5d661aSToomas Soome
220*9c4e5a08SToomas Soome /* FLUSH FIFO and reset Transmitter/Receiver */
2214a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_RESET);
2224a5d661aSToomas Soome if (firewire_debug)
2234a5d661aSToomas Soome device_printf(dev, "resetting OHCI...");
2244a5d661aSToomas Soome i = 0;
2254a5d661aSToomas Soome while(OREAD(sc, OHCI_HCCCTL) & OHCI_HCC_RESET) {
2264a5d661aSToomas Soome if (i++ > 100) break;
2274a5d661aSToomas Soome DELAY(1000);
2284a5d661aSToomas Soome }
2294a5d661aSToomas Soome if (firewire_debug)
2304a5d661aSToomas Soome printf("done (loop=%d)\n", i);
2314a5d661aSToomas Soome
2324a5d661aSToomas Soome /* Probe phy */
2334a5d661aSToomas Soome fwohci_probe_phy(sc, dev);
2344a5d661aSToomas Soome
2354a5d661aSToomas Soome /* Probe link */
2364a5d661aSToomas Soome reg = OREAD(sc, OHCI_BUS_OPT);
2374a5d661aSToomas Soome reg2 = reg | OHCI_BUSFNC;
2384a5d661aSToomas Soome max_rec = (reg & 0x0000f000) >> 12;
2394a5d661aSToomas Soome speed = (reg & 0x00000007);
2404a5d661aSToomas Soome device_printf(dev, "Link %s, max_rec %d bytes.\n",
2414a5d661aSToomas Soome linkspeed[speed], MAXREC(max_rec));
2424a5d661aSToomas Soome /* XXX fix max_rec */
2434a5d661aSToomas Soome sc->maxrec = sc->speed + 8;
2444a5d661aSToomas Soome if (max_rec != sc->maxrec) {
2454a5d661aSToomas Soome reg2 = (reg2 & 0xffff0fff) | (sc->maxrec << 12);
2464a5d661aSToomas Soome device_printf(dev, "max_rec %d -> %d\n",
2474a5d661aSToomas Soome MAXREC(max_rec), MAXREC(sc->maxrec));
2484a5d661aSToomas Soome }
2494a5d661aSToomas Soome if (firewire_debug)
2504a5d661aSToomas Soome device_printf(dev, "BUS_OPT 0x%x -> 0x%x\n", reg, reg2);
2514a5d661aSToomas Soome OWRITE(sc, OHCI_BUS_OPT, reg2);
2524a5d661aSToomas Soome
2534a5d661aSToomas Soome /* Initialize registers */
2544a5d661aSToomas Soome OWRITE(sc, OHCI_CROMHDR, sc->config_rom[0]);
2554a5d661aSToomas Soome OWRITE(sc, OHCI_CROMPTR, VTOP(sc->config_rom));
2564a5d661aSToomas Soome #if 0
2574a5d661aSToomas Soome OWRITE(sc, OHCI_SID_BUF, sc->sid_dma.bus_addr);
2584a5d661aSToomas Soome #endif
2594a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTLCLR, OHCI_HCC_BIGEND);
2604a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_POSTWR);
2614a5d661aSToomas Soome #if 0
2624a5d661aSToomas Soome OWRITE(sc, OHCI_LNKCTL, OHCI_CNTL_SID);
2634a5d661aSToomas Soome #endif
2644a5d661aSToomas Soome
2654a5d661aSToomas Soome /* Enable link */
2664a5d661aSToomas Soome OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_LINKEN);
2674a5d661aSToomas Soome }
2684a5d661aSToomas Soome
2694a5d661aSToomas Soome int
2704a5d661aSToomas Soome fwohci_init(struct fwohci_softc *sc, device_t dev)
2714a5d661aSToomas Soome {
2724a5d661aSToomas Soome int i, mver;
2734a5d661aSToomas Soome uint32_t reg;
2744a5d661aSToomas Soome uint8_t ui[8];
2754a5d661aSToomas Soome
2764a5d661aSToomas Soome /* OHCI version */
2774a5d661aSToomas Soome reg = OREAD(sc, OHCI_VERSION);
2784a5d661aSToomas Soome mver = (reg >> 16) & 0xff;
2794a5d661aSToomas Soome device_printf(dev, "OHCI version %x.%x (ROM=%d)\n",
2804a5d661aSToomas Soome mver, reg & 0xff, (reg>>24) & 1);
2814a5d661aSToomas Soome if (mver < 1 || mver > 9) {
2824a5d661aSToomas Soome device_printf(dev, "invalid OHCI version\n");
2834a5d661aSToomas Soome return (ENXIO);
2844a5d661aSToomas Soome }
2854a5d661aSToomas Soome
2864a5d661aSToomas Soome /* Available Isochronous DMA channel probe */
2874a5d661aSToomas Soome OWRITE(sc, OHCI_IT_MASK, 0xffffffff);
2884a5d661aSToomas Soome OWRITE(sc, OHCI_IR_MASK, 0xffffffff);
2894a5d661aSToomas Soome reg = OREAD(sc, OHCI_IT_MASK) & OREAD(sc, OHCI_IR_MASK);
2904a5d661aSToomas Soome OWRITE(sc, OHCI_IT_MASKCLR, 0xffffffff);
2914a5d661aSToomas Soome OWRITE(sc, OHCI_IR_MASKCLR, 0xffffffff);
2924a5d661aSToomas Soome for (i = 0; i < 0x20; i++)
2934a5d661aSToomas Soome if ((reg & (1 << i)) == 0)
2944a5d661aSToomas Soome break;
2954a5d661aSToomas Soome device_printf(dev, "No. of Isochronous channels is %d.\n", i);
2964a5d661aSToomas Soome if (i == 0)
2974a5d661aSToomas Soome return (ENXIO);
2984a5d661aSToomas Soome
2994a5d661aSToomas Soome #if 0
300*9c4e5a08SToomas Soome /* SID receive buffer must align 2^11 */
3014a5d661aSToomas Soome #define OHCI_SIDSIZE (1 << 11)
3024a5d661aSToomas Soome sc->sid_buf = fwdma_malloc(&sc->fc, OHCI_SIDSIZE, OHCI_SIDSIZE,
3034a5d661aSToomas Soome &sc->sid_dma, BUS_DMA_WAITOK);
3044a5d661aSToomas Soome if (sc->sid_buf == NULL) {
3054a5d661aSToomas Soome device_printf(dev, "sid_buf alloc failed.");
3064a5d661aSToomas Soome return ENOMEM;
3074a5d661aSToomas Soome }
3084a5d661aSToomas Soome #endif
3094a5d661aSToomas Soome
3104a5d661aSToomas Soome sc->eui.hi = OREAD(sc, FWOHCIGUID_H);
3114a5d661aSToomas Soome sc->eui.lo = OREAD(sc, FWOHCIGUID_L);
3124a5d661aSToomas Soome for( i = 0 ; i < 8 ; i ++)
3134a5d661aSToomas Soome ui[i] = FW_EUI64_BYTE(&sc->eui,i);
3144a5d661aSToomas Soome device_printf(dev, "EUI64 %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n",
3154a5d661aSToomas Soome ui[0], ui[1], ui[2], ui[3], ui[4], ui[5], ui[6], ui[7]);
3164a5d661aSToomas Soome fwohci_reset(sc, dev);
3174a5d661aSToomas Soome
3184a5d661aSToomas Soome return 0;
3194a5d661aSToomas Soome }
3204a5d661aSToomas Soome
3214a5d661aSToomas Soome void
3224a5d661aSToomas Soome fwohci_ibr(struct fwohci_softc *sc)
3234a5d661aSToomas Soome {
3244a5d661aSToomas Soome uint32_t fun;
3254a5d661aSToomas Soome
3264a5d661aSToomas Soome device_printf(sc->dev, "Initiate bus reset\n");
3274a5d661aSToomas Soome
3284a5d661aSToomas Soome /*
3294a5d661aSToomas Soome * Make sure our cached values from the config rom are
3304a5d661aSToomas Soome * initialised.
3314a5d661aSToomas Soome */
3324a5d661aSToomas Soome OWRITE(sc, OHCI_CROMHDR, ntohl(sc->config_rom[0]));
3334a5d661aSToomas Soome OWRITE(sc, OHCI_BUS_OPT, ntohl(sc->config_rom[2]));
3344a5d661aSToomas Soome
3354a5d661aSToomas Soome /*
3364a5d661aSToomas Soome * Set root hold-off bit so that non cyclemaster capable node
3374a5d661aSToomas Soome * shouldn't became the root node.
3384a5d661aSToomas Soome */
3394a5d661aSToomas Soome #if 1
3404a5d661aSToomas Soome fun = fwphy_rddata(sc, FW_PHY_IBR_REG);
3414a5d661aSToomas Soome fun |= FW_PHY_IBR;
3424a5d661aSToomas Soome fun = fwphy_wrdata(sc, FW_PHY_IBR_REG, fun);
3434a5d661aSToomas Soome #else /* Short bus reset */
3444a5d661aSToomas Soome fun = fwphy_rddata(sc, FW_PHY_ISBR_REG);
3454a5d661aSToomas Soome fun |= FW_PHY_ISBR;
3464a5d661aSToomas Soome fun = fwphy_wrdata(sc, FW_PHY_ISBR_REG, fun);
3474a5d661aSToomas Soome #endif
3484a5d661aSToomas Soome }
3494a5d661aSToomas Soome
3504a5d661aSToomas Soome
3514a5d661aSToomas Soome void
3524a5d661aSToomas Soome fwohci_sid(struct fwohci_softc *sc)
3534a5d661aSToomas Soome {
3544a5d661aSToomas Soome uint32_t node_id;
3554a5d661aSToomas Soome int plen;
3564a5d661aSToomas Soome
3574a5d661aSToomas Soome node_id = OREAD(sc, FWOHCI_NODEID);
3584a5d661aSToomas Soome if (!(node_id & OHCI_NODE_VALID)) {
3594a5d661aSToomas Soome #if 0
3604a5d661aSToomas Soome printf("Bus reset failure\n");
3614a5d661aSToomas Soome #endif
3624a5d661aSToomas Soome return;
3634a5d661aSToomas Soome }
3644a5d661aSToomas Soome
3654a5d661aSToomas Soome /* Enable bus reset interrupt */
3664a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTMASK, OHCI_INT_PHY_BUS_R);
3674a5d661aSToomas Soome /* Allow async. request to us */
3684a5d661aSToomas Soome OWRITE(sc, OHCI_AREQHI, 1 << 31);
3694a5d661aSToomas Soome /* XXX insecure ?? */
3704a5d661aSToomas Soome OWRITE(sc, OHCI_PREQHI, 0x7fffffff);
3714a5d661aSToomas Soome OWRITE(sc, OHCI_PREQLO, 0xffffffff);
3724a5d661aSToomas Soome OWRITE(sc, OHCI_PREQUPPER, 0x10000);
3734a5d661aSToomas Soome /* Set ATRetries register */
3744a5d661aSToomas Soome OWRITE(sc, OHCI_ATRETRY, 1<<(13+16) | 0xfff);
3754a5d661aSToomas Soome /*
3764a5d661aSToomas Soome ** Checking whether the node is root or not. If root, turn on
3774a5d661aSToomas Soome ** cycle master.
3784a5d661aSToomas Soome */
3794a5d661aSToomas Soome plen = OREAD(sc, OHCI_SID_CNT);
3804a5d661aSToomas Soome device_printf(fc->dev, "node_id=0x%08x, gen=%d, ",
3814a5d661aSToomas Soome node_id, (plen >> 16) & 0xff);
3824a5d661aSToomas Soome if (node_id & OHCI_NODE_ROOT) {
3834a5d661aSToomas Soome device_printf(sc->dev, "CYCLEMASTER mode\n");
3844a5d661aSToomas Soome OWRITE(sc, OHCI_LNKCTL,
3854a5d661aSToomas Soome OHCI_CNTL_CYCMTR | OHCI_CNTL_CYCTIMER);
3864a5d661aSToomas Soome } else {
3874a5d661aSToomas Soome device_printf(sc->dev, "non CYCLEMASTER mode\n");
3884a5d661aSToomas Soome OWRITE(sc, OHCI_LNKCTLCLR, OHCI_CNTL_CYCMTR);
3894a5d661aSToomas Soome OWRITE(sc, OHCI_LNKCTL, OHCI_CNTL_CYCTIMER);
3904a5d661aSToomas Soome }
3914a5d661aSToomas Soome if (plen & OHCI_SID_ERR) {
3924a5d661aSToomas Soome device_printf(fc->dev, "SID Error\n");
3934a5d661aSToomas Soome return;
3944a5d661aSToomas Soome }
3954a5d661aSToomas Soome device_printf(sc->dev, "bus reset phase done\n");
3964a5d661aSToomas Soome sc->state = FWOHCI_STATE_NORMAL;
3974a5d661aSToomas Soome }
3984a5d661aSToomas Soome
3994a5d661aSToomas Soome static void
4004a5d661aSToomas Soome fwohci_intr_body(struct fwohci_softc *sc, uint32_t stat, int count)
4014a5d661aSToomas Soome {
4024a5d661aSToomas Soome #undef OHCI_DEBUG
4034a5d661aSToomas Soome #ifdef OHCI_DEBUG
4044a5d661aSToomas Soome #if 0
4054a5d661aSToomas Soome if(stat & OREAD(sc, FWOHCI_INTMASK))
4064a5d661aSToomas Soome #else
4074a5d661aSToomas Soome if (1)
4084a5d661aSToomas Soome #endif
4094a5d661aSToomas Soome device_printf(fc->dev, "INTERRUPT < %s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s> 0x%08x, 0x%08x\n",
4104a5d661aSToomas Soome stat & OHCI_INT_EN ? "DMA_EN ":"",
4114a5d661aSToomas Soome stat & OHCI_INT_PHY_REG ? "PHY_REG ":"",
4124a5d661aSToomas Soome stat & OHCI_INT_CYC_LONG ? "CYC_LONG ":"",
4134a5d661aSToomas Soome stat & OHCI_INT_ERR ? "INT_ERR ":"",
4144a5d661aSToomas Soome stat & OHCI_INT_CYC_ERR ? "CYC_ERR ":"",
4154a5d661aSToomas Soome stat & OHCI_INT_CYC_LOST ? "CYC_LOST ":"",
4164a5d661aSToomas Soome stat & OHCI_INT_CYC_64SECOND ? "CYC_64SECOND ":"",
4174a5d661aSToomas Soome stat & OHCI_INT_CYC_START ? "CYC_START ":"",
4184a5d661aSToomas Soome stat & OHCI_INT_PHY_INT ? "PHY_INT ":"",
4194a5d661aSToomas Soome stat & OHCI_INT_PHY_BUS_R ? "BUS_RESET ":"",
4204a5d661aSToomas Soome stat & OHCI_INT_PHY_SID ? "SID ":"",
4214a5d661aSToomas Soome stat & OHCI_INT_LR_ERR ? "DMA_LR_ERR ":"",
4224a5d661aSToomas Soome stat & OHCI_INT_PW_ERR ? "DMA_PW_ERR ":"",
4234a5d661aSToomas Soome stat & OHCI_INT_DMA_IR ? "DMA_IR ":"",
4244a5d661aSToomas Soome stat & OHCI_INT_DMA_IT ? "DMA_IT " :"",
4254a5d661aSToomas Soome stat & OHCI_INT_DMA_PRRS ? "DMA_PRRS " :"",
4264a5d661aSToomas Soome stat & OHCI_INT_DMA_PRRQ ? "DMA_PRRQ " :"",
4274a5d661aSToomas Soome stat & OHCI_INT_DMA_ARRS ? "DMA_ARRS " :"",
4284a5d661aSToomas Soome stat & OHCI_INT_DMA_ARRQ ? "DMA_ARRQ " :"",
4294a5d661aSToomas Soome stat & OHCI_INT_DMA_ATRS ? "DMA_ATRS " :"",
4304a5d661aSToomas Soome stat & OHCI_INT_DMA_ATRQ ? "DMA_ATRQ " :"",
4314a5d661aSToomas Soome stat, OREAD(sc, FWOHCI_INTMASK)
4324a5d661aSToomas Soome );
4334a5d661aSToomas Soome #endif
4344a5d661aSToomas Soome /* Bus reset */
4354a5d661aSToomas Soome if(stat & OHCI_INT_PHY_BUS_R ){
4364a5d661aSToomas Soome device_printf(fc->dev, "BUS reset\n");
4374a5d661aSToomas Soome if (sc->state == FWOHCI_STATE_BUSRESET)
4384a5d661aSToomas Soome goto busresetout;
4394a5d661aSToomas Soome sc->state = FWOHCI_STATE_BUSRESET;
4404a5d661aSToomas Soome /* Disable bus reset interrupt until sid recv. */
4414a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTMASKCLR, OHCI_INT_PHY_BUS_R);
4424a5d661aSToomas Soome
4434a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTMASKCLR, OHCI_INT_CYC_LOST);
4444a5d661aSToomas Soome OWRITE(sc, OHCI_LNKCTLCLR, OHCI_CNTL_CYCSRC);
4454a5d661aSToomas Soome
4464a5d661aSToomas Soome OWRITE(sc, OHCI_CROMHDR, ntohl(sc->config_rom[0]));
4474a5d661aSToomas Soome OWRITE(sc, OHCI_BUS_OPT, ntohl(sc->config_rom[2]));
4484a5d661aSToomas Soome } else if (sc->state == FWOHCI_STATE_BUSRESET) {
4494a5d661aSToomas Soome fwohci_sid(sc);
4504a5d661aSToomas Soome }
4514a5d661aSToomas Soome busresetout:
4524a5d661aSToomas Soome return;
4534a5d661aSToomas Soome }
4544a5d661aSToomas Soome
4554a5d661aSToomas Soome static uint32_t
4564a5d661aSToomas Soome fwochi_check_stat(struct fwohci_softc *sc)
4574a5d661aSToomas Soome {
4584a5d661aSToomas Soome uint32_t stat;
4594a5d661aSToomas Soome
4604a5d661aSToomas Soome stat = OREAD(sc, FWOHCI_INTSTAT);
4614a5d661aSToomas Soome if (stat == 0xffffffff) {
4624a5d661aSToomas Soome device_printf(sc->fc.dev,
4634a5d661aSToomas Soome "device physically ejected?\n");
4644a5d661aSToomas Soome return(stat);
4654a5d661aSToomas Soome }
4664a5d661aSToomas Soome if (stat)
4674a5d661aSToomas Soome OWRITE(sc, FWOHCI_INTSTATCLR, stat);
4684a5d661aSToomas Soome return(stat);
4694a5d661aSToomas Soome }
4704a5d661aSToomas Soome
4714a5d661aSToomas Soome void
4724a5d661aSToomas Soome fwohci_poll(struct fwohci_softc *sc)
4734a5d661aSToomas Soome {
4744a5d661aSToomas Soome uint32_t stat;
4754a5d661aSToomas Soome
4764a5d661aSToomas Soome stat = fwochi_check_stat(sc);
4774a5d661aSToomas Soome if (stat != 0xffffffff)
4784a5d661aSToomas Soome fwohci_intr_body(sc, stat, 1);
4794a5d661aSToomas Soome }
480