Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/boot/i386/libfirewire/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/boot/i386/libfirewire/fwohci.c |
/* * Copyright (c) 2003 Hidetoshi Shimokawa * Copyright (c) 1998-2002 Katsushi Kobayashi and Hidetoshi Shimokawa * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the acknowledgement as bellow: * * This product includes software developed by K. Kobayashi and H. Shimokawa * * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/boot/i386/libfirewire/fwohci.c 170101 2007-05-29 14:35:57Z simokawa $ * */ #include <stand.h> #include <btxv86.h> #include <bootstrap.h> #include "fwohci.h" #include "fwohcireg.h" #include <dev/firewire/firewire_phy.h> static uint32_t fwphy_wrdata ( struct fwohci_softc *, uint32_t, uint32_t); static uint32_t fwphy_rddata ( struct fwohci_softc *, uint32_t); int firewire_debug=0; #if 0 #define device_printf(a, x, ...) printf("FW1394: " x, ## __VA_ARGS__) #else #define device_printf(a, x, ...) #endif #define device_t int #define DELAY(x) delay(x) #define MAX_SPEED 3 #define MAXREC(x) (2 << (x)) char *linkspeed[] = { "S100", "S200", "S400", "S800", "S1600", "S3200", "undef", "undef" }; #define FW_EUI64_BYTE(eui, x) \ ((((x)<4)? \ ((eui)->hi >> (8*(3-(x)))): \ ((eui)->lo >> (8*(7-(x)))) \ ) & 0xff) /* * Communication with PHY device */ static uint32_t fwphy_wrdata( struct fwohci_softc *sc, uint32_t addr, uint32_t data) { uint32_t fun; addr &= 0xf; data &= 0xff; fun = (PHYDEV_WRCMD | (addr << PHYDEV_REGADDR) | (data << PHYDEV_WRDATA)); OWRITE(sc, OHCI_PHYACCESS, fun); DELAY(100); return(fwphy_rddata( sc, addr)); } static uint32_t fwphy_rddata(struct fwohci_softc *sc, u_int addr) { uint32_t fun, stat; u_int i, retry = 0; addr &= 0xf; #define MAX_RETRY 100 again: OWRITE(sc, FWOHCI_INTSTATCLR, OHCI_INT_REG_FAIL); fun = PHYDEV_RDCMD | (addr << PHYDEV_REGADDR); OWRITE(sc, OHCI_PHYACCESS, fun); for ( i = 0 ; i < MAX_RETRY ; i ++ ){ fun = OREAD(sc, OHCI_PHYACCESS); if ((fun & PHYDEV_RDCMD) == 0 && (fun & PHYDEV_RDDONE) != 0) break; DELAY(100); } if(i >= MAX_RETRY) { if (firewire_debug) device_printf(sc->fc.dev, "phy read failed(1).\n"); if (++retry < MAX_RETRY) { DELAY(100); goto again; } } /* Make sure that SCLK is started */ stat = OREAD(sc, FWOHCI_INTSTAT); if ((stat & OHCI_INT_REG_FAIL) != 0 || ((fun >> PHYDEV_REGADDR) & 0xf) != addr) { if (firewire_debug) device_printf(sc->fc.dev, "phy read failed(2).\n"); if (++retry < MAX_RETRY) { DELAY(100); goto again; } } if (firewire_debug || retry >= MAX_RETRY) device_printf(sc->fc.dev, "fwphy_rddata: 0x%x loop=%d, retry=%d\n", addr, i, retry); #undef MAX_RETRY return((fun >> PHYDEV_RDDATA )& 0xff); } static int fwohci_probe_phy(struct fwohci_softc *sc, device_t dev) { uint32_t reg, reg2; int e1394a = 1; int nport, speed; /* * probe PHY parameters * 0. to prove PHY version, whether compliance of 1394a. * 1. to probe maximum speed supported by the PHY and * number of port supported by core-logic. * It is not actually available port on your PC . */ OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_LPS); DELAY(500); reg = fwphy_rddata(sc, FW_PHY_SPD_REG); if((reg >> 5) != 7 ){ nport = reg & FW_PHY_NP; speed = reg & FW_PHY_SPD >> 6; if (speed > MAX_SPEED) { device_printf(dev, "invalid speed %d (fixed to %d).\n", speed, MAX_SPEED); speed = MAX_SPEED; } device_printf(dev, "Phy 1394 only %s, %d ports.\n", linkspeed[speed], nport); }else{ reg2 = fwphy_rddata(sc, FW_PHY_ESPD_REG); nport = reg & FW_PHY_NP; speed = (reg2 & FW_PHY_ESPD) >> 5; if (speed > MAX_SPEED) { device_printf(dev, "invalid speed %d (fixed to %d).\n", speed, MAX_SPEED); speed = MAX_SPEED; } device_printf(dev, "Phy 1394a available %s, %d ports.\n", linkspeed[speed], nport); /* check programPhyEnable */ reg2 = fwphy_rddata(sc, 5); #if 0 if (e1394a && (OREAD(sc, OHCI_HCCCTL) & OHCI_HCC_PRPHY)) { #else /* XXX force to enable 1394a */ if (e1394a) { #endif if (firewire_debug) device_printf(dev, "Enable 1394a Enhancements\n"); /* enable EAA EMC */ reg2 |= 0x03; /* set aPhyEnhanceEnable */ OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_PHYEN); OWRITE(sc, OHCI_HCCCTLCLR, OHCI_HCC_PRPHY); } else { /* for safe */ reg2 &= ~0x83; } reg2 = fwphy_wrdata(sc, 5, reg2); } sc->speed = speed; reg = fwphy_rddata(sc, FW_PHY_SPD_REG); if((reg >> 5) == 7 ){ reg = fwphy_rddata(sc, 4); reg |= 1 << 6; fwphy_wrdata(sc, 4, reg); reg = fwphy_rddata(sc, 4); } return 0; } void fwohci_reset(struct fwohci_softc *sc, device_t dev) { int i, max_rec, speed; uint32_t reg, reg2; /* Disable interrupts */ OWRITE(sc, FWOHCI_INTMASKCLR, ~0); /* FLUSH FIFO and reset Transmitter/Reciever */ OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_RESET); if (firewire_debug) device_printf(dev, "resetting OHCI..."); i = 0; while(OREAD(sc, OHCI_HCCCTL) & OHCI_HCC_RESET) { if (i++ > 100) break; DELAY(1000); } if (firewire_debug) printf("done (loop=%d)\n", i); /* Probe phy */ fwohci_probe_phy(sc, dev); /* Probe link */ reg = OREAD(sc, OHCI_BUS_OPT); reg2 = reg | OHCI_BUSFNC; max_rec = (reg & 0x0000f000) >> 12; speed = (reg & 0x00000007); device_printf(dev, "Link %s, max_rec %d bytes.\n", linkspeed[speed], MAXREC(max_rec)); /* XXX fix max_rec */ sc->maxrec = sc->speed + 8; if (max_rec != sc->maxrec) { reg2 = (reg2 & 0xffff0fff) | (sc->maxrec << 12); device_printf(dev, "max_rec %d -> %d\n", MAXREC(max_rec), MAXREC(sc->maxrec)); } if (firewire_debug) device_printf(dev, "BUS_OPT 0x%x -> 0x%x\n", reg, reg2); OWRITE(sc, OHCI_BUS_OPT, reg2); /* Initialize registers */ OWRITE(sc, OHCI_CROMHDR, sc->config_rom[0]); OWRITE(sc, OHCI_CROMPTR, VTOP(sc->config_rom)); #if 0 OWRITE(sc, OHCI_SID_BUF, sc->sid_dma.bus_addr); #endif OWRITE(sc, OHCI_HCCCTLCLR, OHCI_HCC_BIGEND); OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_POSTWR); #if 0 OWRITE(sc, OHCI_LNKCTL, OHCI_CNTL_SID); #endif /* Enable link */ OWRITE(sc, OHCI_HCCCTL, OHCI_HCC_LINKEN); } int fwohci_init(struct fwohci_softc *sc, device_t dev) { int i, mver; uint32_t reg; uint8_t ui[8]; /* OHCI version */ reg = OREAD(sc, OHCI_VERSION); mver = (reg >> 16) & 0xff; device_printf(dev, "OHCI version %x.%x (ROM=%d)\n", mver, reg & 0xff, (reg>>24) & 1); if (mver < 1 || mver > 9) { device_printf(dev, "invalid OHCI version\n"); return (ENXIO); } /* Available Isochronous DMA channel probe */ OWRITE(sc, OHCI_IT_MASK, 0xffffffff); OWRITE(sc, OHCI_IR_MASK, 0xffffffff); reg = OREAD(sc, OHCI_IT_MASK) & OREAD(sc, OHCI_IR_MASK); OWRITE(sc, OHCI_IT_MASKCLR, 0xffffffff); OWRITE(sc, OHCI_IR_MASKCLR, 0xffffffff); for (i = 0; i < 0x20; i++) if ((reg & (1 << i)) == 0) break; device_printf(dev, "No. of Isochronous channels is %d.\n", i); if (i == 0) return (ENXIO); #if 0 /* SID recieve buffer must align 2^11 */ #define OHCI_SIDSIZE (1 << 11) sc->sid_buf = fwdma_malloc(&sc->fc, OHCI_SIDSIZE, OHCI_SIDSIZE, &sc->sid_dma, BUS_DMA_WAITOK); if (sc->sid_buf == NULL) { device_printf(dev, "sid_buf alloc failed."); return ENOMEM; } #endif sc->eui.hi = OREAD(sc, FWOHCIGUID_H); sc->eui.lo = OREAD(sc, FWOHCIGUID_L); for( i = 0 ; i < 8 ; i ++) ui[i] = FW_EUI64_BYTE(&sc->eui,i); device_printf(dev, "EUI64 %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n", ui[0], ui[1], ui[2], ui[3], ui[4], ui[5], ui[6], ui[7]); fwohci_reset(sc, dev); return 0; } void fwohci_ibr(struct fwohci_softc *sc) { uint32_t fun; device_printf(sc->dev, "Initiate bus reset\n"); /* * Make sure our cached values from the config rom are * initialised. */ OWRITE(sc, OHCI_CROMHDR, ntohl(sc->config_rom[0])); OWRITE(sc, OHCI_BUS_OPT, ntohl(sc->config_rom[2])); /* * Set root hold-off bit so that non cyclemaster capable node * shouldn't became the root node. */ #if 1 fun = fwphy_rddata(sc, FW_PHY_IBR_REG); fun |= FW_PHY_IBR; fun = fwphy_wrdata(sc, FW_PHY_IBR_REG, fun); #else /* Short bus reset */ fun = fwphy_rddata(sc, FW_PHY_ISBR_REG); fun |= FW_PHY_ISBR; fun = fwphy_wrdata(sc, FW_PHY_ISBR_REG, fun); #endif } void fwohci_sid(struct fwohci_softc *sc) { uint32_t node_id; int plen; node_id = OREAD(sc, FWOHCI_NODEID); if (!(node_id & OHCI_NODE_VALID)) { #if 0 printf("Bus reset failure\n"); #endif return; } /* Enable bus reset interrupt */ OWRITE(sc, FWOHCI_INTMASK, OHCI_INT_PHY_BUS_R); /* Allow async. request to us */ OWRITE(sc, OHCI_AREQHI, 1 << 31); /* XXX insecure ?? */ OWRITE(sc, OHCI_PREQHI, 0x7fffffff); OWRITE(sc, OHCI_PREQLO, 0xffffffff); OWRITE(sc, OHCI_PREQUPPER, 0x10000); /* Set ATRetries register */ OWRITE(sc, OHCI_ATRETRY, 1<<(13+16) | 0xfff); /* ** Checking whether the node is root or not. If root, turn on ** cycle master. */ plen = OREAD(sc, OHCI_SID_CNT); device_printf(fc->dev, "node_id=0x%08x, gen=%d, ", node_id, (plen >> 16) & 0xff); if (node_id & OHCI_NODE_ROOT) { device_printf(sc->dev, "CYCLEMASTER mode\n"); OWRITE(sc, OHCI_LNKCTL, OHCI_CNTL_CYCMTR | OHCI_CNTL_CYCTIMER); } else { device_printf(sc->dev, "non CYCLEMASTER mode\n"); OWRITE(sc, OHCI_LNKCTLCLR, OHCI_CNTL_CYCMTR); OWRITE(sc, OHCI_LNKCTL, OHCI_CNTL_CYCTIMER); } if (plen & OHCI_SID_ERR) { device_printf(fc->dev, "SID Error\n"); return; } device_printf(sc->dev, "bus reset phase done\n"); sc->state = FWOHCI_STATE_NORMAL; } static void fwohci_intr_body(struct fwohci_softc *sc, uint32_t stat, int count) { #undef OHCI_DEBUG #ifdef OHCI_DEBUG #if 0 if(stat & OREAD(sc, FWOHCI_INTMASK)) #else if (1) #endif 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", stat & OHCI_INT_EN ? "DMA_EN ":"", stat & OHCI_INT_PHY_REG ? "PHY_REG ":"", stat & OHCI_INT_CYC_LONG ? "CYC_LONG ":"", stat & OHCI_INT_ERR ? "INT_ERR ":"", stat & OHCI_INT_CYC_ERR ? "CYC_ERR ":"", stat & OHCI_INT_CYC_LOST ? "CYC_LOST ":"", stat & OHCI_INT_CYC_64SECOND ? "CYC_64SECOND ":"", stat & OHCI_INT_CYC_START ? "CYC_START ":"", stat & OHCI_INT_PHY_INT ? "PHY_INT ":"", stat & OHCI_INT_PHY_BUS_R ? "BUS_RESET ":"", stat & OHCI_INT_PHY_SID ? "SID ":"", stat & OHCI_INT_LR_ERR ? "DMA_LR_ERR ":"", stat & OHCI_INT_PW_ERR ? "DMA_PW_ERR ":"", stat & OHCI_INT_DMA_IR ? "DMA_IR ":"", stat & OHCI_INT_DMA_IT ? "DMA_IT " :"", stat & OHCI_INT_DMA_PRRS ? "DMA_PRRS " :"", stat & OHCI_INT_DMA_PRRQ ? "DMA_PRRQ " :"", stat & OHCI_INT_DMA_ARRS ? "DMA_ARRS " :"", stat & OHCI_INT_DMA_ARRQ ? "DMA_ARRQ " :"", stat & OHCI_INT_DMA_ATRS ? "DMA_ATRS " :"", stat & OHCI_INT_DMA_ATRQ ? "DMA_ATRQ " :"", stat, OREAD(sc, FWOHCI_INTMASK) ); #endif /* Bus reset */ if(stat & OHCI_INT_PHY_BUS_R ){ device_printf(fc->dev, "BUS reset\n"); if (sc->state == FWOHCI_STATE_BUSRESET) goto busresetout; sc->state = FWOHCI_STATE_BUSRESET; /* Disable bus reset interrupt until sid recv. */ OWRITE(sc, FWOHCI_INTMASKCLR, OHCI_INT_PHY_BUS_R); OWRITE(sc, FWOHCI_INTMASKCLR, OHCI_INT_CYC_LOST); OWRITE(sc, OHCI_LNKCTLCLR, OHCI_CNTL_CYCSRC); OWRITE(sc, OHCI_CROMHDR, ntohl(sc->config_rom[0])); OWRITE(sc, OHCI_BUS_OPT, ntohl(sc->config_rom[2])); } else if (sc->state == FWOHCI_STATE_BUSRESET) { fwohci_sid(sc); } busresetout: return; } static uint32_t fwochi_check_stat(struct fwohci_softc *sc) { uint32_t stat; stat = OREAD(sc, FWOHCI_INTSTAT); if (stat == 0xffffffff) { device_printf(sc->fc.dev, "device physically ejected?\n"); return(stat); } if (stat) OWRITE(sc, FWOHCI_INTSTATCLR, stat); return(stat); } void fwohci_poll(struct fwohci_softc *sc) { uint32_t stat; stat = fwochi_check_stat(sc); if (stat != 0xffffffff) fwohci_intr_body(sc, stat, 1); }