/* $OpenBSD: sbic.c,v 1.6 2000/11/10 15:33:07 provos Exp $ */ /* $NetBSD: sbic.c,v 1.2 1996/04/23 16:32:54 chuck Exp $ */ /* * Changes Copyright (c) 1996 Steve Woodford * Original Copyright (c) 1994 Christian E. Hopps * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * Van Jacobson of Lawrence Berkeley Laboratory. * * 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 following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. * * @(#)scsi.c 7.5 (Berkeley) 5/4/91 */ /* * Steve Woodford (SCW), Apr, 1996 * MVME147S WD33C93 Scsi Bus Interface Controller driver, * * Basically a de-loused and tidied up version of the Amiga AMD 33C93 driver. * * The original driver used features which required at least a WD33C93A * chip. The '147 has the original WD33C93 chip (no 'A' suffix). * * This version of the driver is pretty well generic, so should work with * any flavour of WD33C93 chip. */ #include #include #include #include /* For hz */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * Since I can't find this in any other header files */ #define SCSI_PHASE(reg) (reg&0x07) /* * SCSI delays * In u-seconds, primarily for state changes on the SPC. */ #define SBIC_CMD_WAIT 50000 /* wait per step of 'immediate' cmds */ #define SBIC_DATA_WAIT 50000 /* wait per data in/out step */ #define SBIC_INIT_WAIT 50000 /* wait per step (both) during init */ /* * Convenience macro for waiting for a particular sbic event */ #define SBIC_WAIT(regs, until, timeo) sbicwait(regs, until, timeo, __LINE__) extern u_int kvtop(); int sbicicmd __P((struct sbic_softc *, void *, int, void *, int)); int sbicgo __P((struct sbic_softc *, struct scsi_xfer *)); int sbicdmaok __P((struct sbic_softc *, struct scsi_xfer *)); int sbicwait __P((sbic_regmap_p, u_char, int , int)); int sbiccheckdmap __P((void *, u_long, u_long)); u_char sbicselectbus __P((struct sbic_softc *)); int sbicxfout __P((sbic_regmap_p, int, void *)); int sbicxfin __P((sbic_regmap_p, int, void *)); int sbicfromscsiperiod __P((struct sbic_softc *, int)); int sbictoscsiperiod __P((struct sbic_softc *, int)); int sbicintr __P((struct sbic_softc *)); int sbicpoll __P((struct sbic_softc *)); int sbicnextstate __P((struct sbic_softc *, u_char, u_char)); int sbicmsgin __P((struct sbic_softc *)); int sbicabort __P((struct sbic_softc *, char *)); void sbicxfdone __P((struct sbic_softc *)); void sbicerror __P((struct sbic_softc *,u_char)); void sbicreset __P((struct sbic_softc *)); void sbic_scsidone __P((struct sbic_acb *, int)); void sbic_sched __P((struct sbic_softc *)); void sbic_save_ptrs __P((struct sbic_softc *)); void sbic_load_ptrs __P((struct sbic_softc *)); /* * Synch xfer parameters, and timing conversions */ int sbic_min_period = SBIC_SYN_MIN_PERIOD; /* in cycles = f(ICLK,FSn) */ int sbic_max_offset = SBIC_SYN_MAX_OFFSET; /* pure number */ int sbic_cmd_wait = SBIC_CMD_WAIT; int sbic_data_wait = SBIC_DATA_WAIT; int sbic_init_wait = SBIC_INIT_WAIT; /* * was broken before.. now if you want this you get it for all drives * on sbic controllers. */ u_char sbic_inhibit_sync[8]; int sbic_enable_reselect = 1; /* Allow Disconnect / Reselect */ int sbic_no_dma = 0; /* Use PIO transfers instead of DMA */ int sbic_parallel_operations = 1; /* Allow command queues */ /* * Some useful stuff for debugging purposes */ #ifdef DEBUG int sbicdma_ops = 0; /* total DMA operations */ int sbicdma_hits = 0; /* number of DMA chains that were contiguous */ int sbicdma_misses = 0; /* number of DMA chains that were not contiguous */ int sbicdma_saves = 0; #define QPRINTF(a) if (sbic_debug > 1) printf a int sbic_debug = 0; /* Debug all chip related things */ int sync_debug = 0; /* Debug all Synchronous Scsi related things */ int reselect_debug = 0; /* Debug all reselection related things */ int report_sense = 0; /* Always print Sense information */ int data_pointer_debug = 0; /* Debug Data Pointer related things */ void sbictimeout __P((struct sbic_softc *dev)); #else #define QPRINTF(a) /* */ #endif /* * default minphys routine for sbic based controllers */ void sbic_minphys(bp) struct buf *bp; { /* * No max transfer at this level. */ minphys(bp); } /* * Save DMA pointers. Take into account partial transfer. Shut down DMA. */ void sbic_save_ptrs(dev) struct sbic_softc *dev; { sbic_regmap_p regs; struct sbic_acb* acb; int count, asr, s; /* * Only need to save pointers if DMA was active... */ if ( dev->sc_cur == NULL || (dev->sc_flags & SBICF_INDMA) == 0 ) return; regs = dev->sc_sbicp; s = splbio(); /* * Wait until WD chip is idle */ do { GET_SBIC_asr(regs, asr); if( asr & SBIC_ASR_DBR ) { printf("sbic_save_ptrs: asr %02x canceled!\n", asr); splx(s); return; } } while( asr & (SBIC_ASR_BSY|SBIC_ASR_CIP) ); /* * Save important state. * must be done before dmastop */ acb = dev->sc_nexus; acb->sc_dmacmd = dev->sc_dmacmd; /* * Fetch the residual count */ SBIC_TC_GET(regs, count); /* * Shut down DMA */ dev->sc_dmastop(dev); /* * No longer in DMA */ dev->sc_flags &= ~SBICF_INDMA; /* * Ensure the WD chip is back in polled I/O mode, with nothing to * transfer. */ SBIC_TC_PUT(regs, 0); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); /* * Update current count... */ acb->sc_tcnt = count; /* * Work out how many bytes were actually transferred */ count = dev->sc_tcnt - count; dev->sc_tcnt = acb->sc_tcnt; /* * Fixup partial xfers */ acb->sc_kv.dc_addr += count; acb->sc_kv.dc_count -= count; acb->sc_pa.dc_addr += count; acb->sc_pa.dc_count -= count >> 1; #ifdef DEBUG if ( data_pointer_debug ) printf("save at (%x,%x):%x\n", dev->sc_cur->dc_addr, dev->sc_cur->dc_count,count); sbicdma_saves++; #endif splx(s); } /* * DOES NOT RESTART DMA!!! */ void sbic_load_ptrs(dev) struct sbic_softc *dev; { struct sbic_acb *acb = dev->sc_nexus; int s; if ( acb->sc_kv.dc_count == 0 ) { /* * No data to xfer */ return; } s = splbio(); /* * Reset the Scatter-Gather chain */ dev->sc_last = dev->sc_cur = &acb->sc_pa; /* * Restore the Transfer Count and DMA specific data */ dev->sc_tcnt = acb->sc_tcnt; dev->sc_dmacmd = acb->sc_dmacmd; #ifdef DEBUG sbicdma_ops++; #endif /* * Need to fixup new segment? */ if ( dev->sc_tcnt == 0 ) { /* * sc_tcnt == 0 implies end of segment */ char *vaddr, *paddr; int count; /* * do kvm to pa mappings */ vaddr = acb->sc_kv.dc_addr; paddr = acb->sc_pa.dc_addr = (char *) kvtop(vaddr); for (count = (NBPG - ((int)vaddr & PGOFSET)); count < acb->sc_kv.dc_count && (char*)kvtop(vaddr + count + 4) == paddr + count + 4; count += NBPG) ; /* Do nothing */ /* * If it's all contiguous... */ if ( count > acb->sc_kv.dc_count ) { count = acb->sc_kv.dc_count; #ifdef DEBUG sbicdma_hits++; #endif } #ifdef DEBUG else sbicdma_misses++; #endif acb->sc_tcnt = count; acb->sc_pa.dc_count = count >> 1; #ifdef DEBUG if ( data_pointer_debug ) printf("DMA recalc:kv(%x,%x)pa(%x,%x)\n", acb->sc_kv.dc_addr, acb->sc_kv.dc_count, acb->sc_pa.dc_addr, acb->sc_tcnt); #endif } splx(s); } /* * used by specific sbic controller * * it appears that the higher level code does nothing with LUN's * so I will too. I could plug it in, however so could they * in scsi_scsi_cmd(). */ int sbic_scsicmd(xs) struct scsi_xfer *xs; { struct scsi_link *slp = xs->sc_link; struct sbic_softc *dev = slp->adapter_softc; struct sbic_acb *acb; int flags = xs->flags, s; if ( flags & SCSI_DATA_UIO ) panic("sbic: scsi data uio requested"); if ( dev->sc_nexus && (flags & SCSI_POLL) ) panic("sbic_scsicmd: busy"); if ( slp->target == slp->adapter_target ) return ESCAPE_NOT_SUPPORTED; s = splbio(); if ( (acb = dev->free_list.tqh_first) != NULL ) TAILQ_REMOVE(&dev->free_list, acb, chain); splx(s); if ( acb == NULL ) { #ifdef DEBUG printf("sbic_scsicmd: unable to queue request for target %d\n", slp->target); #ifdef DDB Debugger(); #endif #endif xs->error = XS_DRIVER_STUFFUP; return(TRY_AGAIN_LATER); } if ( flags & SCSI_DATA_IN ) acb->flags = ACB_ACTIVE | ACB_DATAIN; else acb->flags = ACB_ACTIVE; acb->xs = xs; acb->clen = xs->cmdlen; acb->sc_kv.dc_addr = xs->data; acb->sc_kv.dc_count = xs->datalen; acb->pa_addr = xs->data ? (char *)kvtop(xs->data) : 0; bcopy(xs->cmd, &acb->cmd, xs->cmdlen); if ( flags & SCSI_POLL ) { /* * This has major side effects -- it locks up the machine */ int stat; s = splbio(); dev->sc_flags |= SBICF_ICMD; do { /* * If we already had a nexus, while away the time until idle... * This is likely only to happen if a reselection occurs between * here and our earlier check for ICMD && sc_nexus (which would * have resulted in a panic() had it been true). */ while ( dev->sc_nexus ) sbicpoll(dev); /* * Fix up the new nexus */ dev->sc_nexus = acb; dev->sc_xs = xs; dev->target = slp->target; dev->lun = slp->lun; stat = sbicicmd(dev, &acb->cmd, acb->clen, acb->sc_kv.dc_addr, acb->sc_kv.dc_count); } while ( dev->sc_nexus != acb ); sbic_scsidone(acb, stat); splx(s); return(COMPLETE); } s = splbio(); TAILQ_INSERT_TAIL(&dev->ready_list, acb, chain); /* * If nothing is active, try to start it now. */ if ( dev->sc_nexus == NULL ) sbic_sched(dev); splx(s); return(SUCCESSFULLY_QUEUED); } /* * attempt to start the next available command */ void sbic_sched(dev) struct sbic_softc *dev; { struct scsi_xfer *xs; struct scsi_link *slp = NULL; /* Gag the compiler */ struct sbic_acb *acb; int flags, stat; /* * XXXSCW * I'll keep this test here, even though I can't see any obvious way * in which sbic_sched() could be called with sc_nexus non NULL */ if ( dev->sc_nexus ) return; /* a command is current active */ /* * Loop through the ready list looking for work to do... */ for (acb = dev->ready_list.tqh_first; acb; acb = acb->chain.tqe_next) { int i, j; slp = acb->xs->sc_link; i = slp->target; j = 1 << slp->lun; /* * We've found a potential command, but is the target/lun busy? */ if ( (dev->sc_tinfo[i].lubusy & j) == 0 ) { /* * Nope, it's not busy, so we can use it. */ dev->sc_tinfo[i].lubusy |= j; TAILQ_REMOVE(&dev->ready_list, acb, chain); dev->sc_nexus = acb; acb->sc_pa.dc_addr = acb->pa_addr; /* XXXX check */ break; } } if ( acb == NULL ) { QPRINTF(("sbicsched: no work\n")); return; /* did not find an available command */ } #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("sbic_sched(%d,%d)\n", slp->target, slp->lun); #endif dev->sc_xs = xs = acb->xs; flags = xs->flags; if ( flags & SCSI_RESET ) sbicreset(dev); dev->sc_stat[0] = -1; dev->target = slp->target; dev->lun = slp->lun; if ( flags & SCSI_POLL || (!sbic_parallel_operations && (sbicdmaok(dev, xs) == 0)) ) stat = sbicicmd(dev, &acb->cmd, acb->clen, acb->sc_kv.dc_addr, acb->sc_kv.dc_count); else if ( sbicgo(dev, xs) == 0 ) return; else stat = dev->sc_stat[0]; sbic_scsidone(acb, stat); } void sbic_scsidone(acb, stat) struct sbic_acb *acb; int stat; { struct scsi_xfer *xs = acb->xs; struct scsi_link *slp = xs->sc_link; struct sbic_softc *dev = slp->adapter_softc; int dosched = 0; #ifdef DIAGNOSTIC if ( acb == NULL || xs == NULL ) { printf("sbic_scsidone -- (%d,%d) no scsi_xfer\n", dev->target, dev->lun); #ifdef DDB Debugger(); #endif return; } #endif /* * is this right? */ xs->status = stat; #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("scsidone: (%d,%d)->(%d,%d)%02x\n", slp->target, slp->lun, dev->target, dev->lun, stat); if ( xs->sc_link->target == dev->sc_link.adapter_target ) panic("target == hostid"); #endif if ( xs->error == XS_NOERROR && (acb->flags & ACB_CHKSENSE) == 0 ) { if ( stat == SCSI_CHECK ) { /* * Schedule a REQUEST SENSE */ struct scsi_sense *ss = (void *)&acb->cmd; #ifdef DEBUG if ( report_sense ) printf("sbic_scsidone: autosense %02x targ %d lun %d", acb->cmd.opcode, slp->target, slp->lun); #endif bzero(ss, sizeof(*ss)); ss->opcode = REQUEST_SENSE; ss->byte2 = slp->lun << 5; ss->length = sizeof(struct scsi_sense_data); acb->clen = sizeof(*ss); acb->sc_kv.dc_addr = (char *)&xs->sense; acb->sc_kv.dc_count = sizeof(struct scsi_sense_data); acb->pa_addr = (char *)kvtop(&xs->sense); /* XXX check */ acb->flags = ACB_ACTIVE | ACB_CHKSENSE | ACB_DATAIN; TAILQ_INSERT_HEAD(&dev->ready_list, acb, chain); dev->sc_tinfo[slp->target].lubusy &= ~(1 << slp->lun); dev->sc_tinfo[slp->target].senses++; if ( dev->sc_nexus == acb ) { dev->sc_nexus = NULL; dev->sc_xs = NULL; sbic_sched(dev); } return; } } if ( xs->error == XS_NOERROR && (acb->flags & ACB_CHKSENSE) != 0 ) { xs->error = XS_SENSE; #ifdef DEBUG if (report_sense) printf(" => %02x %02x\n", xs->sense.flags, xs->sense.extra_bytes[3]); #endif } else { xs->resid = 0; /* XXXX */ } xs->flags |= ITSDONE; /* * Remove the ACB from whatever queue it's on. We have to do a bit of * a hack to figure out which queue it's on. Note that it is *not* * necessary to cdr down the ready queue, but we must cdr down the * nexus queue and see if it's there, so we can mark the unit as no * longer busy. This code is sickening, but it works. */ if ( acb == dev->sc_nexus ) { dev->sc_nexus = NULL; dev->sc_xs = NULL; dev->sc_tinfo[slp->target].lubusy &= ~(1 << slp->lun); if ( dev->ready_list.tqh_first ) dosched = 1; /* start next command */ } else if ( dev->ready_list.tqh_last == &acb->chain.tqe_next ) { TAILQ_REMOVE(&dev->ready_list, acb, chain); } else { register struct sbic_acb *a; for (a = dev->nexus_list.tqh_first; a; a = a->chain.tqe_next) { if ( a == acb ) { TAILQ_REMOVE(&dev->nexus_list, acb, chain); dev->sc_tinfo[slp->target].lubusy &= ~(1 << slp->lun); break; } } if ( a ) ; else if ( acb->chain.tqe_next ) { TAILQ_REMOVE(&dev->ready_list, acb, chain); } else { printf("%s: can't find matching acb\n", dev->sc_dev.dv_xname); #ifdef DDB Debugger(); #endif } } /* * Put it on the free list. */ acb->flags = ACB_FREE; TAILQ_INSERT_HEAD(&dev->free_list, acb, chain); dev->sc_tinfo[slp->target].cmds++; scsi_done(xs); if ( dosched ) sbic_sched(dev); } int sbicdmaok(dev, xs) struct sbic_softc *dev; struct scsi_xfer *xs; { if ( sbic_no_dma || xs->datalen & 0x03 || (int)xs->data & 0x03) return(0); /* * controller supports dma to any addresses? */ if ( (dev->sc_flags & SBICF_BADDMA) == 0 ) return(1); /* * this address is ok for dma? */ if ( sbiccheckdmap(xs->data, xs->datalen, dev->sc_dmamask) == 0 ) return(1); return(0); } int sbicwait(regs, until, timeo, line) sbic_regmap_p regs; u_char until; int timeo; int line; { u_char val; if ( timeo == 0 ) timeo = 1000000; /* some large value.. */ GET_SBIC_asr(regs, val); while ( (val & until) == 0 ) { if ( timeo-- == 0 ) { int csr; GET_SBIC_csr(regs, csr); printf("sbicwait TIMEO @%d with asr=x%x csr=x%x\n", line, val, csr); #if defined(DDB) && defined(DEBUG) Debugger(); #endif return(val); /* Maybe I should abort */ break; } DELAY(1); GET_SBIC_asr(regs, val); } return(val); } int sbicabort(dev, where) struct sbic_softc *dev; char *where; { sbic_regmap_p regs = dev->sc_sbicp; u_char csr, asr; GET_SBIC_asr(regs, asr); GET_SBIC_csr(regs, csr); printf ("%s: abort %s: csr = 0x%02x, asr = 0x%02x\n", dev->sc_dev.dv_xname, where, csr, asr); /* * Clean up chip itself */ if ( dev->sc_flags & SBICF_SELECTED ) { while ( asr & SBIC_ASR_DBR ) { /* * sbic is jammed w/data. need to clear it * But we don't know what direction it needs to go */ GET_SBIC_data(regs, asr); printf("%s: abort %s: clearing data buffer 0x%02x\n", dev->sc_dev.dv_xname, where, asr); GET_SBIC_asr(regs, asr); if ( asr & SBIC_ASR_DBR ) /* Not the read direction, then */ SET_SBIC_data(regs, asr); GET_SBIC_asr(regs, asr); } WAIT_CIP(regs); printf("%s: sbicabort - sending ABORT command\n", dev->sc_dev.dv_xname); SET_SBIC_cmd(regs, SBIC_CMD_ABORT); WAIT_CIP(regs); GET_SBIC_asr(regs, asr); if ( asr & (SBIC_ASR_BSY|SBIC_ASR_LCI) ) { /* * ok, get more drastic.. */ printf("%s: sbicabort - asr %x, trying to reset\n", dev->sc_dev.dv_xname, asr); sbicreset(dev); dev->sc_flags &= ~SBICF_SELECTED; return SBIC_STATE_ERROR; } printf("%s: sbicabort - sending DISC command\n", dev->sc_dev.dv_xname); SET_SBIC_cmd(regs, SBIC_CMD_DISC); do { SBIC_WAIT (regs, SBIC_ASR_INT, 0); GET_SBIC_asr(regs, asr); GET_SBIC_csr (regs, csr); QPRINTF(("csr: 0x%02x, asr: 0x%02x\n", csr, asr)); } while ( (csr != SBIC_CSR_DISC) && (csr != SBIC_CSR_DISC_1) && (csr != SBIC_CSR_CMD_INVALID) ); /* * lets just hope it worked.. */ dev->sc_flags &= ~SBICF_SELECTED; } return SBIC_STATE_ERROR; } /* * Initialize driver-private structures */ void sbicinit(dev) struct sbic_softc *dev; { u_int i; extern u_long scsi_nosync; extern int shift_nosync; if ( (dev->sc_flags & SBICF_ALIVE) == 0 ) { struct sbic_acb *acb; TAILQ_INIT(&dev->ready_list); TAILQ_INIT(&dev->nexus_list); TAILQ_INIT(&dev->free_list); dev->sc_nexus = NULL; dev->sc_xs = NULL; acb = dev->sc_acb; bzero(acb, sizeof(dev->sc_acb)); for (i = 0; i < sizeof(dev->sc_acb) / sizeof(*acb); i++) { TAILQ_INSERT_TAIL(&dev->free_list, acb, chain); acb++; } bzero(dev->sc_tinfo, sizeof(dev->sc_tinfo)); #ifdef DEBUG /* * make sure timeout is really not needed */ timeout((void *)sbictimeout, dev, 30 * hz); #endif } else panic("sbic: reinitializing driver!"); dev->sc_flags |= SBICF_ALIVE; dev->sc_flags &= ~SBICF_SELECTED; /* * initialize inhibit array */ if ( scsi_nosync ) { u_int inhibit_sync = (scsi_nosync >> shift_nosync) & 0xff; shift_nosync += 8; #ifdef DEBUG if ( inhibit_sync ) printf("%s: Inhibiting synchronous transfer %02x\n", dev->sc_dev.dv_xname, inhibit_sync); #endif for (i = 0; i < 8; ++i) { if ( inhibit_sync & (1 << i) ) sbic_inhibit_sync[i] = 1; } } sbicreset(dev); } void sbicreset(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; u_int my_id, s; u_char csr; s = splbio(); my_id = dev->sc_link.adapter_target & SBIC_ID_MASK; if (dev->sc_clkfreq < 110) my_id |= SBIC_ID_FS_8_10; else if (dev->sc_clkfreq < 160) my_id |= SBIC_ID_FS_12_15; else if (dev->sc_clkfreq < 210) my_id |= SBIC_ID_FS_16_20; SET_SBIC_myid(regs, my_id); /* * Reset the chip */ SET_SBIC_cmd(regs, SBIC_CMD_RESET); DELAY(25); SBIC_WAIT(regs, SBIC_ASR_INT, 0); GET_SBIC_csr(regs, csr); /* clears interrupt also */ /* * Set up various chip parameters */ SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); /* * don't allow Selection (SBIC_RID_ES) * until we can handle target mode!! */ SET_SBIC_rselid(regs, SBIC_RID_ER); /* * Asynchronous for now */ SET_SBIC_syn(regs, 0); /* * Anything else was zeroed by reset */ splx(s); dev->sc_flags &= ~SBICF_SELECTED; } void sbicerror(dev, csr) struct sbic_softc *dev; u_char csr; { struct scsi_xfer *xs = dev->sc_xs; #ifdef DIAGNOSTIC if ( xs == NULL ) panic("sbicerror: dev->sc_xs == NULL"); #endif if ( xs->flags & SCSI_SILENT ) return; printf("%s: csr == 0x%02x\n", dev->sc_dev.dv_xname, csr); } /* * select the bus, return when selected or error. * * Returns the current CSR following selection and optionally MSG out phase. * i.e. the returned CSR *should* indicate CMD phase... * If the return value is 0, some error happened. */ u_char sbicselectbus(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; u_char target = dev->target, lun = dev->lun, asr, csr, id; /* * if we're already selected, return (XXXX panic maybe?) */ if ( dev->sc_flags & SBICF_SELECTED ) return(0); QPRINTF(("sbicselectbus %d: ", target)); /* * issue select */ SET_SBIC_selid(regs, target); SET_SBIC_timeo(regs, SBIC_TIMEOUT(250, dev->sc_clkfreq)); GET_SBIC_asr(regs, asr); if ( asr & (SBIC_ASR_INT|SBIC_ASR_BSY) ) { /* * This means we got ourselves reselected upon */ QPRINTF(("WD busy (reselect?)\n")); return 0; } SET_SBIC_cmd(regs, SBIC_CMD_SEL_ATN); /* * wait for select (merged from separate function may need * cleanup) */ WAIT_CIP(regs); do { asr = SBIC_WAIT(regs, SBIC_ASR_INT | SBIC_ASR_LCI, 0); if ( asr & SBIC_ASR_LCI ) { QPRINTF(("late LCI: asr %02x\n", asr)); return 0; } /* * Clear interrupt */ GET_SBIC_csr (regs, csr); QPRINTF(("%02x ", csr)); /* * Reselected from under our feet? */ if ( csr == SBIC_CSR_RSLT_NI || csr == SBIC_CSR_RSLT_IFY ) { QPRINTF(("got reselected, asr %02x\n", asr)); /* * We need to handle this now so we don't lock up later */ sbicnextstate(dev, csr, asr); return 0; } /* * Whoops! */ if ( csr == SBIC_CSR_SLT || csr == SBIC_CSR_SLT_ATN ) { panic("sbicselectbus: target issued select!"); return 0; } } while (csr != (SBIC_CSR_MIS_2 | MESG_OUT_PHASE) && csr != (SBIC_CSR_MIS_2 | CMD_PHASE) && csr != SBIC_CSR_SEL_TIMEO); /* * Anyone at home? */ if ( csr == SBIC_CSR_SEL_TIMEO ) { dev->sc_xs->error = XS_SELTIMEOUT; QPRINTF(("Selection Timeout\n")); return 0; } QPRINTF(("Selection Complete\n")); /* * Assume we're now selected */ GET_SBIC_selid(regs, id); dev->target = id; dev->lun = lun; dev->sc_flags |= SBICF_SELECTED; /* * Enable (or not) reselection * XXXSCW This is probably not necessary since we don't use use the * Select-and-Xfer-with-ATN command to initiate a selection... */ if ( !sbic_enable_reselect && dev->nexus_list.tqh_first == NULL) SET_SBIC_rselid (regs, 0); else SET_SBIC_rselid (regs, SBIC_RID_ER); /* * We only really need to do anything when the target goes to MSG out * If the device ignored ATN, it's probably old and brain-dead, * but we'll try to support it anyhow. * If it doesn't support message out, it definately doesn't * support synchronous transfers, so no point in even asking... */ if ( csr == (SBIC_CSR_MIS_2 | MESG_OUT_PHASE) ) { /* * Send identify message (SCSI-2 requires an identify msg) */ if ( sbic_inhibit_sync[id] && dev->sc_sync[id].state == SYNC_START ) { /* * Handle drives that don't want to be asked * whether to go sync at all. */ dev->sc_sync[id].offset = 0; dev->sc_sync[id].period = sbic_min_period; dev->sc_sync[id].state = SYNC_DONE; } /* * Do we need to negotiate Synchronous Xfers for this target? */ if ( dev->sc_sync[id].state != SYNC_START ) { /* * Nope, we've already negotiated. * Now see if we should allow the target to disconnect/reselect... */ if ( dev->sc_xs->flags & SCSI_POLL || dev->sc_flags & SBICF_ICMD || !sbic_enable_reselect ) SEND_BYTE (regs, MSG_IDENTIFY | lun); else SEND_BYTE (regs, MSG_IDENTIFY_DR | lun); } else { /* * try to initiate a sync transfer. * So compose the sync message we're going * to send to the target */ #ifdef DEBUG if ( sync_debug ) printf("\nSending sync request to target %d ... ", id); #endif /* * setup scsi message sync message request */ dev->sc_msg[0] = MSG_IDENTIFY | lun; dev->sc_msg[1] = MSG_EXT_MESSAGE; dev->sc_msg[2] = 3; dev->sc_msg[3] = MSG_SYNC_REQ; dev->sc_msg[4] = sbictoscsiperiod(dev, sbic_min_period); dev->sc_msg[5] = sbic_max_offset; sbicxfout(regs, 6, dev->sc_msg); dev->sc_sync[id].state = SYNC_SENT; #ifdef DEBUG if ( sync_debug ) printf ("sent\n"); #endif } /* * There's one interrupt still to come: the change to CMD phase... */ SBIC_WAIT(regs, SBIC_ASR_INT , 0); GET_SBIC_csr(regs, csr); } /* * set sync or async */ if ( dev->sc_sync[target].state == SYNC_DONE ) { #ifdef DEBUG if ( sync_debug ) printf("select(%d): sync reg = 0x%02x\n", target, SBIC_SYN(dev->sc_sync[target].offset, dev->sc_sync[target].period)); #endif SET_SBIC_syn(regs, SBIC_SYN(dev->sc_sync[target].offset, dev->sc_sync[target].period)); } else { #ifdef DEBUG if ( sync_debug ) printf("select(%d): sync reg = 0x%02x\n", target, SBIC_SYN(0,sbic_min_period)); #endif SET_SBIC_syn(regs, SBIC_SYN(0, sbic_min_period)); } return csr; } /* * Information Transfer *to* a Scsi Target. * * Note: Don't expect there to be an interrupt immediately after all * the data is transferred out. The WD spec sheet says that the Transfer- * Info command for non-MSG_IN phases only completes when the target * next asserts 'REQ'. That is, when the SCSI bus changes to a new state. * * This can have a nasty effect on commands which take a relatively long * time to complete, for example a START/STOP unit command may remain in * CMD phase until the disk has spun up. Only then will the target change * to STATUS phase. This is really only a problem for immediate commands * since we don't allow disconnection for them (yet). */ int sbicxfout(regs, len, bp) sbic_regmap_p regs; int len; void *bp; { int wait = sbic_data_wait; u_char asr, *buf = bp; QPRINTF(("sbicxfout {%d} %02x %02x %02x %02x %02x " "%02x %02x %02x %02x %02x\n", len, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7], buf[8], buf[9])); /* * sigh.. WD-PROTO strikes again.. sending the command in one go * causes the chip to lock up if talking to certain (misbehaving?) * targets. Anyway, this procedure should work for all targets, but * it's slightly slower due to the overhead */ WAIT_CIP (regs); SBIC_TC_PUT (regs, 0); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); SBIC_TC_PUT (regs, (unsigned)len); SET_SBIC_cmd (regs, SBIC_CMD_XFER_INFO); /* * Loop for each byte transferred */ do { GET_SBIC_asr (regs, asr); if ( asr & SBIC_ASR_DBR ) { if ( len ) { SET_SBIC_data (regs, *buf); buf++; len--; } else { SET_SBIC_data (regs, 0); } wait = sbic_data_wait; } } while ( len && (asr & SBIC_ASR_INT) == 0 && wait-- > 0 ); #ifdef DEBUG QPRINTF(("sbicxfout done: %d bytes remaining (wait:%d)\n", len, wait)); #endif /* * Normally, an interrupt will be pending when this routing returns. */ return(len); } /* * Information Transfer *from* a Scsi Target * returns # bytes left to read */ int sbicxfin(regs, len, bp) sbic_regmap_p regs; int len; void *bp; { int wait = sbic_data_wait; u_char *buf = bp; u_char asr; #ifdef DEBUG u_char *obp = bp; #endif WAIT_CIP (regs); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); SBIC_TC_PUT (regs, (unsigned)len); SET_SBIC_cmd (regs, SBIC_CMD_XFER_INFO); /* * Loop for each byte transferred */ do { GET_SBIC_asr (regs, asr); if ( asr & SBIC_ASR_DBR ) { if ( len ) { GET_SBIC_data (regs, *buf); buf++; len--; } else { u_char foo; GET_SBIC_data (regs, foo); } wait = sbic_data_wait; } } while ( (asr & SBIC_ASR_INT) == 0 && wait-- > 0 ); QPRINTF(("sbicxfin {%d} %02x %02x %02x %02x %02x %02x " "%02x %02x %02x %02x\n", len, obp[0], obp[1], obp[2], obp[3], obp[4], obp[5], obp[6], obp[7], obp[8], obp[9])); SBIC_TC_PUT (regs, 0); /* * this leaves with one csr to be read */ return len; } /* * SCSI 'immediate' command: issue a command to some SCSI device * and get back an 'immediate' response (i.e., do programmed xfer * to get the response data). 'cbuf' is a buffer containing a scsi * command of length clen bytes. 'buf' is a buffer of length 'len' * bytes for data. The transfer direction is determined by the device * (i.e., by the scsi bus data xfer phase). If 'len' is zero, the * command must supply no data. * * Note that although this routine looks like it can handle disconnect/ * reselect, the fact is that it can't. There is still some work to be * done to clean this lot up. */ int sbicicmd(dev, cbuf, clen, buf, len) struct sbic_softc *dev; void *cbuf, *buf; int clen, len; { sbic_regmap_p regs = dev->sc_sbicp; struct sbic_acb *acb = dev->sc_nexus; u_char csr, asr; int still_busy = SBIC_STATE_RUNNING; #ifdef DEBUG int counter = 0; #endif /* * Make sure pointers are OK */ dev->sc_last = dev->sc_cur = &acb->sc_pa; dev->sc_tcnt = acb->sc_tcnt = 0; acb->sc_dmacmd = 0; acb->sc_pa.dc_count = 0; /* No DMA */ acb->sc_kv.dc_addr = buf; acb->sc_kv.dc_count = len; #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("sbicicmd(%d,%d):%d\n", dev->target, dev->lun, acb->sc_kv.dc_count); #endif /* * set the sbic into non-DMA mode */ SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); dev->sc_stat[0] = 0xff; dev->sc_msg[0] = 0xff; /* * We're stealing the SCSI bus */ dev->sc_flags |= SBICF_ICMD; do { GET_SBIC_asr (regs, asr); /* * select the SCSI bus (it's an error if bus isn't free) */ if ( (dev->sc_flags & SBICF_SELECTED) == 0 && still_busy != SBIC_STATE_DISCONNECT ) { if ( (csr = sbicselectbus(dev)) == 0 ) { dev->sc_flags &= ~SBICF_ICMD; return(-1); } } else if ( (asr & (SBIC_ASR_BSY | SBIC_ASR_INT)) == SBIC_ASR_INT ) GET_SBIC_csr(regs, csr); else csr = 0; if ( csr ) { QPRINTF((">ASR:0x%02x CSR:0x%02x< ", asr, csr)); switch ( csr ) { case SBIC_CSR_S_XFERRED: case SBIC_CSR_DISC: case SBIC_CSR_DISC_1: { u_char phase; dev->sc_flags &= ~SBICF_SELECTED; GET_SBIC_cmd_phase (regs, phase); if ( phase == 0x60 ) { GET_SBIC_tlun (regs, dev->sc_stat[0]); still_busy = SBIC_STATE_DONE; /* done */ } else { #ifdef DEBUG if ( reselect_debug > 1 ) printf("sbicicmd: handling disconnect\n"); #endif still_busy = SBIC_STATE_DISCONNECT; } } break; case SBIC_CSR_XFERRED | CMD_PHASE: case SBIC_CSR_MIS | CMD_PHASE: case SBIC_CSR_MIS_1 | CMD_PHASE: case SBIC_CSR_MIS_2 | CMD_PHASE: { if ( sbicxfout(regs, clen, cbuf) ) still_busy = sbicabort(dev, "icmd sending cmd"); } break; case SBIC_CSR_XFERRED | STATUS_PHASE: case SBIC_CSR_MIS | STATUS_PHASE: case SBIC_CSR_MIS_1 | STATUS_PHASE: case SBIC_CSR_MIS_2 | STATUS_PHASE: { /* * The sbic does the status/cmd-complete reading ok, * so do this with its hi-level commands. */ #ifdef DEBUG if ( sbic_debug ) printf("SBICICMD status phase (bsy=%d)\n", still_busy); #endif SET_SBIC_cmd_phase(regs, 0x46); SET_SBIC_cmd(regs, SBIC_CMD_SEL_ATN_XFER); } break; default: { still_busy = sbicnextstate(dev, csr, asr); } break; } /* * make sure the last command was taken, * ie. we're not hunting after an ignored command.. */ GET_SBIC_asr(regs, asr); /* * tapes may take a loooong time.. */ while (asr & SBIC_ASR_BSY ) { if ( asr & SBIC_ASR_DBR ) { int i; printf("sbicicmd: Waiting while sbic is jammed, CSR:%02x,ASR:%02x\n", csr,asr); #ifdef DDB Debugger(); #endif /* * SBIC is jammed * DUNNO which direction * Try old direction */ GET_SBIC_data(regs, i); GET_SBIC_asr(regs, asr); if ( asr & SBIC_ASR_DBR ) /* Wants us to write */ SET_SBIC_data(regs, i); } GET_SBIC_asr(regs, asr); } } /* * wait for last command to complete */ if ( asr & SBIC_ASR_LCI ) { printf("sbicicmd: last command ignored\n"); } else if ( still_busy >= SBIC_STATE_RUNNING ) /* Bsy */ SBIC_WAIT (regs, SBIC_ASR_INT, sbic_cmd_wait); /* * do it again */ } while ( still_busy >= SBIC_STATE_RUNNING && dev->sc_stat[0] == 0xff ); /* * Sometimes we need to do an extra read of the CSR */ GET_SBIC_csr(regs, csr); #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("sbicicmd done(%d,%d):%d =%d=\n", dev->target, dev->lun, acb->sc_kv.dc_count, dev->sc_stat[0]); #endif dev->sc_flags &= ~SBICF_ICMD; return(dev->sc_stat[0]); } /* * Finish SCSI xfer command: After the completion interrupt from * a read/write operation, sequence through the final phases in * programmed i/o. This routine is a lot like sbicicmd except we * skip (and don't allow) the select, cmd out and data in/out phases. */ void sbicxfdone(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; u_char phase, csr; int s; QPRINTF(("{")); s = splbio(); /* * have the sbic complete on its own */ SBIC_TC_PUT(regs, 0); SET_SBIC_cmd_phase(regs, 0x46); SET_SBIC_cmd(regs, SBIC_CMD_SEL_ATN_XFER); do { SBIC_WAIT (regs, SBIC_ASR_INT, 0); GET_SBIC_csr (regs, csr); QPRINTF(("%02x:", csr)); } while ( (csr != SBIC_CSR_DISC) && (csr != SBIC_CSR_DISC_1) && (csr != SBIC_CSR_S_XFERRED)); dev->sc_flags &= ~SBICF_SELECTED; GET_SBIC_cmd_phase (regs, phase); QPRINTF(("}%02x", phase)); if ( phase == 0x60 ) GET_SBIC_tlun(regs, dev->sc_stat[0]); else sbicerror(dev, csr); QPRINTF(("=STS:%02x=\n", dev->sc_stat[0])); splx(s); } /* * No DMA chains */ int sbicgo(dev, xs) struct sbic_softc *dev; struct scsi_xfer *xs; { struct sbic_acb *acb = dev->sc_nexus; sbic_regmap_p regs = dev->sc_sbicp; int i, dmaflags, count, usedma; u_char csr, asr, *addr; dev->target = xs->sc_link->target; dev->lun = xs->sc_link->lun; usedma = sbicdmaok(dev, xs); #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("sbicgo(%d,%d): usedma=%d\n", dev->target, dev->lun, usedma); #endif /* * select the SCSI bus (it's an error if bus isn't free) */ if ( (csr = sbicselectbus(dev)) == 0 ) return(0); /* Not done: needs to be rescheduled */ dev->sc_stat[0] = 0xff; /* * Calculate DMA chains now */ if ( acb->flags & ACB_DATAIN ) dmaflags = DMAGO_READ; else dmaflags = 0; addr = acb->sc_kv.dc_addr; count = acb->sc_kv.dc_count; if ( count && ((char *)kvtop(addr) != acb->sc_pa.dc_addr) ) { printf("sbic: DMA buffer mapping changed %x->%x\n", acb->sc_pa.dc_addr, kvtop(addr)); #ifdef DDB Debugger(); #endif } #ifdef DEBUG ++sbicdma_ops; /* count total DMA operations */ #endif /* * Allocate the DMA chain * Mark end of segment... */ acb->sc_tcnt = dev->sc_tcnt = 0; acb->sc_pa.dc_count = 0; sbic_load_ptrs(dev); /* * Enable interrupts but don't do any DMA * enintr() also enables interrupts for the sbic */ dev->sc_enintr(dev); if ( usedma ) { dev->sc_tcnt = dev->sc_dmago(dev, acb->sc_pa.dc_addr, acb->sc_pa.dc_count, dmaflags); #ifdef DEBUG dev->sc_dmatimo = dev->sc_tcnt ? 1 : 0; #endif } else dev->sc_dmacmd = 0; /* Don't use DMA */ acb->sc_dmacmd = dev->sc_dmacmd; #ifdef DEBUG if ( data_pointer_debug > 1 ) { printf("sbicgo dmago:%d(%x:%x) dmacmd=0x%02x\n", dev->target, dev->sc_cur->dc_addr, dev->sc_tcnt, dev->sc_dmacmd); } #endif /* * Lets cycle a while then let the interrupt handler take over. */ GET_SBIC_asr(regs, asr); do { QPRINTF(("go ")); /* * Handle the new phase */ i = sbicnextstate(dev, csr, asr); #if 0 WAIT_CIP(regs); #endif if ( i == SBIC_STATE_RUNNING ) { GET_SBIC_asr(regs, asr); if ( asr & SBIC_ASR_LCI ) printf("sbicgo: LCI asr:%02x csr:%02x\n", asr, csr); if ( asr & SBIC_ASR_INT ) GET_SBIC_csr(regs, csr); } } while ( i == SBIC_STATE_RUNNING && asr & (SBIC_ASR_INT|SBIC_ASR_LCI) ); if ( i == SBIC_STATE_DONE ) { if ( dev->sc_stat[0] == 0xff ) #if 0 printf("sbicgo: done & stat = 0xff\n"); #else ; #endif else return 1; /* Did we really finish that fast? */ } return 0; } int sbicintr(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; u_char asr, csr; int i; /* * pending interrupt? */ GET_SBIC_asr (regs, asr); if ( (asr & SBIC_ASR_INT) == 0 ) return(0); GET_SBIC_csr(regs, csr); do { QPRINTF(("intr[0x%x]", csr)); i = sbicnextstate(dev, csr, asr); #if 0 WAIT_CIP(regs); #endif if ( i == SBIC_STATE_RUNNING ) { GET_SBIC_asr(regs, asr); if ( asr & SBIC_ASR_LCI ) printf("sbicgo: LCI asr:%02x csr:%02x\n", asr, csr); if ( asr & SBIC_ASR_INT ) GET_SBIC_csr(regs, csr); } } while ( i == SBIC_STATE_RUNNING && asr & (SBIC_ASR_INT|SBIC_ASR_LCI) ); QPRINTF(("intr done. state=%d, asr=0x%02x\n", i, asr)); return(1); } /* * Run commands and wait for disconnect. * This is only ever called when a command is in progress, when we * want to busy wait for it to finish. */ int sbicpoll(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; u_char asr, csr; int i; /* * Wait for the next interrupt */ SBIC_WAIT(regs, SBIC_ASR_INT, sbic_cmd_wait); do { GET_SBIC_asr (regs, asr); if ( asr & SBIC_ASR_INT ) GET_SBIC_csr(regs, csr); QPRINTF(("poll[0x%x]", csr)); /* * Handle it */ i = sbicnextstate(dev, csr, asr); WAIT_CIP(regs); GET_SBIC_asr(regs, asr); /* * tapes may take a loooong time.. */ while ( asr & SBIC_ASR_BSY ) { u_char z = 0; if ( asr & SBIC_ASR_DBR ) { printf("sbipoll: Waiting while sbic is jammed, CSR:%02x,ASR:%02x\n", csr,asr); #ifdef DDB Debugger(); #endif /* * SBIC is jammed * DUNNO which direction * Try old direction */ GET_SBIC_data(regs, z); GET_SBIC_asr(regs, asr); if ( asr & SBIC_ASR_DBR ) /* Wants us to write */ SET_SBIC_data(regs, z); } GET_SBIC_asr(regs, asr); } if ( asr & SBIC_ASR_LCI ) printf("sbicpoll: LCI asr:%02x csr:%02x\n", asr,csr); else if ( i == SBIC_STATE_RUNNING ) /* BSY */ SBIC_WAIT(regs, SBIC_ASR_INT, sbic_cmd_wait); } while ( i == SBIC_STATE_RUNNING ); return(1); } /* * Handle a single msgin */ int sbicmsgin(dev) struct sbic_softc *dev; { sbic_regmap_p regs = dev->sc_sbicp; int recvlen = 1; u_char asr, csr, *tmpaddr, *msgaddr; tmpaddr = msgaddr = dev->sc_msg; tmpaddr[0] = 0xff; tmpaddr[1] = 0xff; GET_SBIC_asr(regs, asr); #ifdef DEBUG if ( reselect_debug > 1 ) printf("sbicmsgin asr=%02x\n", asr); #endif GET_SBIC_selid (regs, csr); SET_SBIC_selid (regs, csr | SBIC_SID_FROM_SCSI); SBIC_TC_PUT(regs, 0); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); do { while( recvlen-- ) { /* * Fetch the next byte of the message */ RECV_BYTE(regs, *tmpaddr); /* * get the command completion interrupt, or we * can't send a new command (LCI) */ SBIC_WAIT(regs, SBIC_ASR_INT, 0); GET_SBIC_csr(regs, csr); #ifdef DEBUG if ( reselect_debug > 1 ) printf("sbicmsgin: got %02x csr %02x\n", *tmpaddr, csr); #endif tmpaddr++; if ( recvlen ) { /* * Clear ACK, and wait for the interrupt for the next byte */ SET_SBIC_cmd(regs, SBIC_CMD_CLR_ACK); SBIC_WAIT(regs, SBIC_ASR_INT, 0); GET_SBIC_csr(regs, csr); } } if ( msgaddr[0] == 0xff ) { printf("sbicmsgin: sbic swallowed our message\n"); break; } #ifdef DEBUG if ( sync_debug ) { GET_SBIC_asr(regs, asr); printf("msgin done csr 0x%x asr 0x%x msg 0x%x\n", csr, asr, msgaddr[0]); } #endif /* * test whether this is a reply to our sync * request */ if ( MSG_ISIDENTIFY(msgaddr[0]) ) { /* * Got IFFY msg -- ack it */ QPRINTF(("IFFY")); } else if ( msgaddr[0] == MSG_REJECT && dev->sc_sync[dev->target].state == SYNC_SENT) { /* * Target probably rejected our Sync negotiation. */ QPRINTF(("REJECT of SYN")); #ifdef DEBUG if ( sync_debug ) printf("target %d rejected sync, going async\n", dev->target); #endif dev->sc_sync[dev->target].period = sbic_min_period; dev->sc_sync[dev->target].offset = 0; dev->sc_sync[dev->target].state = SYNC_DONE; SET_SBIC_syn(regs, SBIC_SYN(dev->sc_sync[dev->target].offset, dev->sc_sync[dev->target].period)); } else if ( msgaddr[0] == MSG_REJECT ) { /* * we'll never REJECt a REJECT message.. */ QPRINTF(("REJECT")); } else if ( msgaddr[0] == MSG_SAVE_DATA_PTR ) { /* * don't reject this either. */ QPRINTF(("MSG_SAVE_DATA_PTR")); } else if ( msgaddr[0] == MSG_RESTORE_PTR ) { /* * don't reject this either. */ QPRINTF(("MSG_RESTORE_PTR")); } else if ( msgaddr[0] == MSG_DISCONNECT ) { /* * Target is disconnecting... */ QPRINTF(("DISCONNECT")); #ifdef DEBUG if ( reselect_debug > 1 && msgaddr[0] == MSG_DISCONNECT ) printf("sbicmsgin: got disconnect msg %s\n", (dev->sc_flags & SBICF_ICMD) ? "rejecting" : ""); #endif if ( dev->sc_flags & SBICF_ICMD ) { /* * We're in immediate mode. Prevent disconnects. * prepare to reject the message, NACK */ SET_SBIC_cmd(regs, SBIC_CMD_SET_ATN); WAIT_CIP(regs); } } else if ( msgaddr[0] == MSG_CMD_COMPLETE ) { /* * !! KLUDGE ALERT !! quite a few drives don't seem to * really like the current way of sending the * sync-handshake together with the ident-message, and * they react by sending command-complete and * disconnecting right after returning the valid sync * handshake. So, all I can do is reselect the drive, * and hope it won't disconnect again. I don't think * this is valid behavior, but I can't help fixing a * problem that apparently exists. * * Note: we should not get here on `normal' command * completion, as that condition is handled by the * high-level sel&xfer resume command used to walk * thru status/cc-phase. */ QPRINTF(("CMD_COMPLETE")); #ifdef DEBUG if ( sync_debug ) printf ("GOT MSG %d! target %d acting weird.." " waiting for disconnect...\n", msgaddr[0], dev->target); #endif /* * Check to see if sbic is handling this */ GET_SBIC_asr(regs, asr); /* * XXXSCW: I'm not convinced of this, we haven't negated ACK yet... */ if ( asr & SBIC_ASR_BSY ) return SBIC_STATE_RUNNING; /* * Let's try this: Assume it works and set status to 00 */ dev->sc_stat[0] = 0; } else if ( msgaddr[0] == MSG_EXT_MESSAGE && tmpaddr == &(msgaddr[1]) ) { /* * Target is sending us an extended message. We'll assume it's * the response to our Sync. negotiation. */ QPRINTF(("ExtMSG\n")); /* * Read in whole extended message. First, negate ACK to accept * the MSG_EXT_MESSAGE byte... */ SET_SBIC_cmd(regs, SBIC_CMD_CLR_ACK); /* * Wait for the interrupt for the next byte (length) */ SBIC_WAIT(regs, SBIC_ASR_INT, 0); GET_SBIC_csr(regs, csr); #ifdef DEBUG QPRINTF(("CLR ACK csr %02x\n", csr)); #endif /* * Read the length byte */ RECV_BYTE(regs, *tmpaddr); /* * Wait for command completion IRQ */ SBIC_WAIT(regs, SBIC_ASR_INT, 0); GET_SBIC_csr(regs, csr); /* * Reload the loop counter */ recvlen = *tmpaddr++; QPRINTF(("Recving ext msg, csr %02x len %02x\n", csr, recvlen)); } else if ( msgaddr[0] == MSG_EXT_MESSAGE && msgaddr[1] == 3 && msgaddr[2] == MSG_SYNC_REQ ) { /* * We've received the complete Extended Message Sync. Request... */ QPRINTF(("SYN")); /* * Compute the required Transfer Period for the WD chip... */ dev->sc_sync[dev->target].period = sbicfromscsiperiod(dev, msgaddr[3]); dev->sc_sync[dev->target].offset = msgaddr[4]; dev->sc_sync[dev->target].state = SYNC_DONE; /* * Put the WD chip in synchronous mode */ SET_SBIC_syn(regs, SBIC_SYN(dev->sc_sync[dev->target].offset, dev->sc_sync[dev->target].period)); #ifdef DEBUG if ( sync_debug ) printf("msgin(%d): sync reg = 0x%02x\n", dev->target, SBIC_SYN(dev->sc_sync[dev->target].offset, dev->sc_sync[dev->target].period)); #endif printf("%s: target %d now synchronous, period=%dns, offset=%d.\n", dev->sc_dev.dv_xname, dev->target, msgaddr[3] * 4, msgaddr[4]); } else { /* * We don't support whatever this message is... */ #ifdef DEBUG if ( sbic_debug || sync_debug ) printf ("sbicmsgin: Rejecting message 0x%02x\n", msgaddr[0]); #endif /* * prepare to reject the message, NACK */ SET_SBIC_cmd(regs, SBIC_CMD_SET_ATN); WAIT_CIP(regs); } /* * Negate ACK to complete the transfer */ SET_SBIC_cmd(regs, SBIC_CMD_CLR_ACK); /* * Wait for the interrupt for the next byte, or phase change. * Only read the CSR if we have more data to transfer. * XXXSCW: We should really verify that we're still in MSG IN phase * before blindly going back around this loop, but that would mean * we read the CSR... */ SBIC_WAIT(regs, SBIC_ASR_INT, 0); if ( recvlen > 0 ) GET_SBIC_csr(regs, csr); } while ( recvlen > 0 ); /* * Should still have one CSR to read */ return SBIC_STATE_RUNNING; } /* * sbicnextstate() * return: * SBIC_STATE_DONE == done * SBIC_STATE_RUNNING == working * SBIC_STATE_DISCONNECT == disconnected * SBIC_STATE_ERROR == error */ int sbicnextstate(dev, csr, asr) struct sbic_softc *dev; u_char csr, asr; { sbic_regmap_p regs = dev->sc_sbicp; struct sbic_acb *acb = dev->sc_nexus; QPRINTF(("next[%02x,%02x]: ",asr,csr)); switch (csr) { case SBIC_CSR_XFERRED | CMD_PHASE: case SBIC_CSR_MIS | CMD_PHASE: case SBIC_CSR_MIS_1 | CMD_PHASE: case SBIC_CSR_MIS_2 | CMD_PHASE: { if ( sbicxfout(regs, acb->clen, &acb->cmd) ) goto abort; } break; case SBIC_CSR_XFERRED | STATUS_PHASE: case SBIC_CSR_MIS | STATUS_PHASE: case SBIC_CSR_MIS_1 | STATUS_PHASE: case SBIC_CSR_MIS_2 | STATUS_PHASE: { SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); /* * this should be the normal i/o completion case. * get the status & cmd complete msg then let the * device driver look at what happened. */ sbicxfdone(dev); #ifdef DEBUG dev->sc_dmatimo = 0; if ( data_pointer_debug > 1 ) printf("next dmastop: %d(%x:%x)\n", dev->target, dev->sc_cur->dc_addr, dev->sc_tcnt); #endif /* * Stop the DMA chip */ dev->sc_dmastop(dev); dev->sc_flags &= ~(SBICF_INDMA | SBICF_DCFLUSH); /* * Indicate to the upper layers that the command is done */ sbic_scsidone(acb, dev->sc_stat[0]); return SBIC_STATE_DONE; } case SBIC_CSR_XFERRED | DATA_OUT_PHASE: case SBIC_CSR_XFERRED | DATA_IN_PHASE: case SBIC_CSR_MIS | DATA_OUT_PHASE: case SBIC_CSR_MIS | DATA_IN_PHASE: case SBIC_CSR_MIS_1 | DATA_OUT_PHASE: case SBIC_CSR_MIS_1 | DATA_IN_PHASE: case SBIC_CSR_MIS_2 | DATA_OUT_PHASE: case SBIC_CSR_MIS_2 | DATA_IN_PHASE: { /* * Verify that we expected to transfer data... */ if ( acb->sc_kv.dc_count <= 0 ) { printf("next: DATA phase with xfer count == %d, asr:0x%02x csr:0x%02x\n", acb->sc_kv.dc_count, asr, csr); goto abort; } /* * Should we transfer using PIO or DMA ? */ if ( dev->sc_xs->flags & SCSI_POLL || dev->sc_flags & SBICF_ICMD || acb->sc_dmacmd == 0 ) { /* * Do PIO transfer */ int i; #ifdef DEBUG if ( data_pointer_debug > 1 ) printf("next PIO: %d(%x:%x)\n", dev->target, acb->sc_kv.dc_addr, acb->sc_kv.dc_count); #endif if ( SBIC_PHASE(csr) == DATA_IN_PHASE ) /* * data in */ i = sbicxfin(regs, acb->sc_kv.dc_count, acb->sc_kv.dc_addr); else /* * data out */ i = sbicxfout(regs, acb->sc_kv.dc_count, acb->sc_kv.dc_addr); acb->sc_kv.dc_addr += (acb->sc_kv.dc_count - i); acb->sc_kv.dc_count = i; /* * Update current count... */ acb->sc_tcnt = dev->sc_tcnt = i; dev->sc_flags &= ~SBICF_INDMA; } else { /* * Do DMA transfer * set next dma addr and dec count */ sbic_save_ptrs(dev); sbic_load_ptrs(dev); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI | SBIC_MACHINE_DMA_MODE); #ifdef DEBUG dev->sc_dmatimo = 1; if ( data_pointer_debug > 1 ) printf("next DMA: %d(%x:%x)\n", dev->target, dev->sc_cur->dc_addr, dev->sc_tcnt); #endif /* * Start the DMA chip going */ dev->sc_tcnt = dev->sc_dmanext(dev); /* * Tell the WD chip how much to transfer this time around */ SBIC_TC_PUT(regs, (unsigned)dev->sc_tcnt); /* * Start the transfer */ SET_SBIC_cmd(regs, SBIC_CMD_XFER_INFO); /* * Indicate that we're in DMA mode */ dev->sc_flags |= SBICF_INDMA; } } break; case SBIC_CSR_XFERRED | MESG_IN_PHASE: case SBIC_CSR_MIS | MESG_IN_PHASE: case SBIC_CSR_MIS_1 | MESG_IN_PHASE: case SBIC_CSR_MIS_2 | MESG_IN_PHASE: { sbic_save_ptrs(dev); /* * Handle a single message in... */ return sbicmsgin(dev); } case SBIC_CSR_MSGIN_W_ACK: { /* * We should never see this since it's handled in 'sbicmsgin()' * but just for the sake of paranoia... */ SET_SBIC_cmd(regs, SBIC_CMD_CLR_ACK); /* Dunno what I'm ACKing */ printf("Acking unknown msgin CSR:%02x",csr); } break; case SBIC_CSR_XFERRED | MESG_OUT_PHASE: case SBIC_CSR_MIS | MESG_OUT_PHASE: case SBIC_CSR_MIS_1 | MESG_OUT_PHASE: case SBIC_CSR_MIS_2 | MESG_OUT_PHASE: { /* * We only ever handle a message out phase here for sending a * REJECT message. */ sbic_save_ptrs(dev); #ifdef DEBUG if (sync_debug) printf ("sending REJECT msg to last msg.\n"); #endif SEND_BYTE(regs, MSG_REJECT); WAIT_CIP(regs); } break; case SBIC_CSR_DISC: case SBIC_CSR_DISC_1: { /* * Try to schedule another target */ sbic_save_ptrs(dev); dev->sc_flags &= ~SBICF_SELECTED; #ifdef DEBUG if ( reselect_debug > 1 ) printf("sbicnext target %d disconnected\n", dev->target); #endif TAILQ_INSERT_HEAD(&dev->nexus_list, acb, chain); ++dev->sc_tinfo[dev->target].dconns; dev->sc_nexus = NULL; dev->sc_xs = NULL; if ( acb->xs->flags & SCSI_POLL || dev->sc_flags & SBICF_ICMD || !sbic_parallel_operations ) return SBIC_STATE_DISCONNECT; QPRINTF(("sbicnext: calling sbic_sched\n")); sbic_sched(dev); QPRINTF(("sbicnext: sbic_sched returned\n")); return SBIC_STATE_DISCONNECT; } case SBIC_CSR_RSLT_NI: case SBIC_CSR_RSLT_IFY: { /* * A reselection. * Note that since we don't enable Advanced Features (assuming * the WD chip is at least the 'A' revision), we're only ever * likely to see the 'SBIC_CSR_RSLT_NI' status. But for the * hell of it, we'll handle it anyway, for all the extra code * it needs... */ u_char newtarget, newlun; GET_SBIC_rselid(regs, newtarget); /* * check SBIC_RID_SIV? */ newtarget &= SBIC_RID_MASK; if ( csr == SBIC_CSR_RSLT_IFY ) { /* * Read Identify msg to avoid lockup */ GET_SBIC_data(regs, newlun); WAIT_CIP(regs); newlun &= SBIC_TLUN_MASK; } else { /* * Need to read Identify message the hard way, assuming * the target even sends us one... */ for (newlun = 255; newlun; --newlun) { GET_SBIC_asr(regs, asr); if (asr & SBIC_ASR_INT) break; delay(10); } /* * If we didn't get an interrupt, somethink's up */ if ( (asr & SBIC_ASR_INT) == 0 ) { printf("%s: Reselect without identify? asr %x\n", dev->sc_dev.dv_xname, asr); newlun = 0; /* XXXX */ } else { /* * We got an interrupt, verify that it's a change to * message in phase, and if so read the message. */ GET_SBIC_csr(regs,csr); if ( csr == SBIC_CSR_MIS | MESG_IN_PHASE || csr == SBIC_CSR_MIS_1 | MESG_IN_PHASE || csr == SBIC_CSR_MIS_2 | MESG_IN_PHASE ) { /* * Yup, gone to message in. Fetch the target LUN */ sbicmsgin(dev); newlun = dev->sc_msg[0] & 0x07; } else { /* * Whoops! Target didn't go to message in phase!! */ printf("RSLT_NI - not MESG_IN_PHASE %x\n", csr); newlun = 0; /* XXXSCW */ } } } /* * Ok, we have the identity of the reselecting target. */ #ifdef DEBUG if ( reselect_debug > 1 || (reselect_debug && csr == SBIC_CSR_RSLT_NI) ) { printf("sbicnext: reselect %s from targ %d lun %d\n", csr == SBIC_CSR_RSLT_NI ? "NI" : "IFY", newtarget, newlun); } #endif if ( dev->sc_nexus ) { /* * Whoops! We've been reselected with an command in progress! * The best we can do is to put the current command back on the * ready list and hope for the best. */ #ifdef DEBUG if ( reselect_debug > 1 ) { printf("%s: reselect %s with active command\n", dev->sc_dev.dv_xname, csr == SBIC_CSR_RSLT_NI ? "NI" : "IFY"); } #endif TAILQ_INSERT_HEAD(&dev->ready_list, dev->sc_nexus, chain); dev->sc_tinfo[dev->target].lubusy &= ~(1 << dev->lun); dev->sc_nexus = NULL; dev->sc_xs = NULL; } /* * Reload sync values for this target */ if ( dev->sc_sync[newtarget].state == SYNC_DONE ) SET_SBIC_syn(regs, SBIC_SYN (dev->sc_sync[newtarget].offset, dev->sc_sync[newtarget].period)); else SET_SBIC_syn(regs, SBIC_SYN (0, sbic_min_period)); /* * Loop through the nexus list until we find the saved entry * for the reselecting target... */ for (acb = dev->nexus_list.tqh_first; acb; acb = acb->chain.tqe_next) { if ( acb->xs->sc_link->target == newtarget && acb->xs->sc_link->lun == newlun) { /* * We've found the saved entry. Dequeue it, and * make it current again. */ TAILQ_REMOVE(&dev->nexus_list, acb, chain); dev->sc_nexus = acb; dev->sc_xs = acb->xs; dev->sc_flags |= SBICF_SELECTED; dev->target = newtarget; dev->lun = newlun; break; } } if ( acb == NULL ) { printf("%s: reselect %s targ %d not in nexus_list %x\n", dev->sc_dev.dv_xname, csr == SBIC_CSR_RSLT_NI ? "NI" : "IFY", newtarget, &dev->nexus_list.tqh_first); panic("bad reselect in sbic"); } if ( csr == SBIC_CSR_RSLT_IFY ) SET_SBIC_cmd(regs, SBIC_CMD_CLR_ACK); } break; default: abort: { /* * Something unexpected happened -- deal with it. */ printf("next: aborting asr 0x%02x csr 0x%02x\n", asr, csr); #ifdef DDB Debugger(); #endif #ifdef DEBUG dev->sc_dmatimo = 0; if ( data_pointer_debug > 1 ) printf("next dmastop: %d(%x:%x)\n", dev->target, dev->sc_cur->dc_addr, dev->sc_tcnt); #endif dev->sc_dmastop(dev); SET_SBIC_control(regs, SBIC_CTL_EDI | SBIC_CTL_IDI); if ( dev->sc_xs ) sbicerror(dev, csr); sbicabort(dev, "next"); if ( dev->sc_flags & SBICF_INDMA ) { dev->sc_flags &= ~(SBICF_INDMA | SBICF_DCFLUSH); #ifdef DEBUG dev->sc_dmatimo = 0; if ( data_pointer_debug > 1 ) printf("next dmastop: %d(%x:%x)\n", dev->target, dev->sc_cur->dc_addr, dev->sc_tcnt); #endif sbic_scsidone(acb, -1); } return SBIC_STATE_ERROR; } } return(SBIC_STATE_RUNNING); } /* * Check if DMA can not be used with specified buffer */ int sbiccheckdmap(bp, len, mask) void *bp; u_long len, mask; { u_char *buffer; u_long phy_buf; u_long phy_len; buffer = bp; if ( len == 0 ) return(1); while ( len ) { phy_buf = kvtop(buffer); phy_len = NBPG - ((int) buffer & PGOFSET); if ( len < phy_len ) phy_len = len; if ( phy_buf & mask ) return(1); buffer += phy_len; len -= phy_len; } return(0); } int sbictoscsiperiod(dev, a) struct sbic_softc *dev; int a; { unsigned int fs; /* * cycle = DIV / (2 * CLK) * DIV = FS + 2 * best we can do is 200ns at 20Mhz, 2 cycles */ GET_SBIC_myid(dev->sc_sbicp, fs); fs = (fs >> 6) + 2; /* DIV */ fs = (fs * 10000) / (dev->sc_clkfreq << 1); /* Cycle, in ns */ if ( a < 2 ) a = 8; /* map to Cycles */ return ( (fs * a) >> 2 ); /* in 4 ns units */ } int sbicfromscsiperiod(dev, p) struct sbic_softc *dev; int p; { unsigned fs, ret; /* * Just the inverse of the above */ GET_SBIC_myid(dev->sc_sbicp, fs); fs = (fs >> 6) + 2; /* DIV */ fs = (fs * 10000) / (dev->sc_clkfreq << 1); /* Cycle, in ns */ ret = p << 2; /* in ns units */ ret = ret / fs; /* in Cycles */ if ( ret < sbic_min_period ) return(sbic_min_period); /* * verify rounding */ if ( sbictoscsiperiod(dev, ret) < p ) ret++; return( (ret >= 8) ? 0 : ret ); } #ifdef DEBUG void sbictimeout(dev) struct sbic_softc *dev; { int s, asr; s = splbio(); if ( dev->sc_dmatimo ) { if ( dev->sc_dmatimo > 1 ) { printf("%s: dma timeout #%d\n", dev->sc_dev.dv_xname, dev->sc_dmatimo - 1); GET_SBIC_asr(dev->sc_sbicp, asr); if ( asr & SBIC_ASR_INT ) { /* * We need to service a missed IRQ */ sbicintr(dev); } else { (void) sbicabort(dev, "timeout"); splx(s); return; } } dev->sc_dmatimo++; } splx(s); timeout((void *)sbictimeout, dev, 30 * hz); } #endif