/* $OpenBSD: sii.c,v 1.14 2012/02/24 06:19:00 guenther Exp $ */ /* $NetBSD: sii.c,v 1.42 2000/06/02 20:20:29 mhitch Exp $ */ /* * Copyright (c) 2008 Miodrag Vallat. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /*- * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Ralph Campbell and Rick Macklem. * * 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. 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. * * @(#)sii.c 8.2 (Berkeley) 11/30/93 * * from: Header: /sprite/src/kernel/dev/ds3100.md/RCS/devSII.c, * v 9.2 89/09/14 13:37:41 jhh Exp $ SPRITE (DECWRL)"; */ /* * SCSI interface driver */ #include #include #include #include #include #include #include #include #ifdef DEBUG #include #endif #include /* device registers */ #include /* softc and prototypes */ /* XXX not in scsi/scsi_message.h */ #define MSG_EXT_MODIFY_DATA_PTR 0x00 struct cfdriver sii_cd = { NULL, "sii", DV_DULL }; /* * MACROS for timing out spin loops. * * Wait until expression is true. * * Control register bits can change at any time so when the CPU * reads a register, the bits might change and * invalidate the setup and hold times for the CPU. * This macro reads the register twice to be sure the value is stable. * * args: var - variable to save control register contents * reg - control register to read * expr - expression to spin on * spincount - maximum number of times through the loop * cntr - variable for number of tries */ #define SII_WAIT_UNTIL(var, reg, expr, spincount, cntr) \ do { \ u_int tmp = reg; \ for (cntr = 0; cntr < spincount; cntr++) { \ while (tmp != (var = reg)) \ tmp = var; \ if (expr) \ break; \ if (cntr >= 100) \ DELAY(100); \ } \ } while (0) #ifdef DEBUG u_int sii_debug = 1; int sii_debug_cmd; int sii_debug_bn; int sii_debug_sz; #define NLOG 16 struct sii_log { u_short cstat; u_short dstat; u_short comm; u_short msg; int rlen; int dlen; int target; } sii_log[NLOG], *sii_logp = sii_log; #endif #define NORESET 0 #define RESET 1 #define NOWAIT 0 #define WAIT 1 #if 0 /* * XXX That hardcoded 7 below implies SII_NCMD <= 7, which is not the case... * XXX Thankfully all uses of SII_BUF_ADDR are in #if 0 sections (and this * XXX should be reasonably safe as long as we use 7 as the host id). */ /* * Define a safe address in the SCSI buffer for doing status & message DMA * XXX why not add another field to softc? */ #define SII_BUF_ADDR(sc) (SII_MAX_DMA_XFER_LENGTH * 7 * 2) #endif /* * Forward references */ void sii_Reset(struct sii_softc *sc, int resetbus); void sii_StartCmd(struct sii_softc *sc, int target); void sii_CmdDone(struct sii_softc *sc, int target, int error); void sii_DoIntr(struct sii_softc *sc, u_int dstat); void sii_StateChg(struct sii_softc *sc, u_int cstat); int sii_GetByte(SIIRegs *regs, int phase, int ack); void sii_DoSync(struct sii_softc *, State *); void sii_StartDMA(SIIRegs *regs, int phase, u_int dmaAddr, int size); u_int sii_msgout(SIIRegs *, u_int, u_int8_t); void sii_scsi_cmd(struct scsi_xfer *); void sii_schedule(struct sii_softc *); #ifdef DEBUG void sii_DumpLog(void); #endif struct scsi_adapter sii_scsiswitch = { sii_scsi_cmd, scsi_minphys, NULL, NULL, NULL }; void sii_attach(sc) struct sii_softc *sc; { struct scsibus_attach_args saa; int i; sc->sc_target = -1; /* no command active */ /* * Give each target its own DMA buffer region. * Make it big enough for 2 max transfers so we can ping pong buffers * while we copy the data. */ for (i = 0; i < SII_NCMD; i++) { sc->sc_st[i].dmaAddr[0] = SII_MAX_DMA_XFER_LENGTH * 2 * i; sc->sc_st[i].dmaAddr[1] = sc->sc_st[i].dmaAddr[0] + SII_MAX_DMA_XFER_LENGTH; } sii_Reset(sc, RESET); printf("\n"); /* * fill in the prototype scsi_link. */ sc->sc_link.adapter = &sii_scsiswitch; sc->sc_link.adapter_buswidth = 8; sc->sc_link.adapter_softc = sc; sc->sc_link.adapter_target = sc->sc_regs->id & SII_IDMSK; sc->sc_link.openings = 1; /* driver can't queue requests yet */ /* * Now try to attach all the sub-devices */ bzero(&saa, sizeof(saa)); saa.saa_sc_link = &sc->sc_link; config_found(&sc->sc_dev, &saa, scsiprint); } /* * Start activity on a SCSI device. * We maintain information on each device separately since devices can * connect/disconnect during an operation. */ void sii_scsi_cmd(xs) struct scsi_xfer *xs; { int target = xs->sc_link->target; struct sii_softc *sc = xs->sc_link->adapter_softc; int s; int count; s = splbio(); if (sc->sc_xs[target] != NULL) { #ifdef DEBUG printf("[busy at start]\n"); #endif xs->error = XS_NO_CCB; scsi_done(xs); splx(s); return; } /* * Build a ScsiCmd for this command and start it. */ sc->sc_xs[target] = xs; sii_StartCmd(sc, target); splx(s); if ((xs->flags & ITSDONE) != 0) return; if ((xs->flags & SCSI_POLL) == 0) return; count = xs->timeout; while (count) { s = splbio(); (void)sii_intr(sc); splx(s); if ((xs->flags & ITSDONE) != 0) break; /* XXX schedule another command? */ DELAY(1000); --count; } if ((xs->flags & ITSDONE) != 0) return; xs->error = XS_TIMEOUT; scsi_done(xs); return; } /* * Check to see if any SII chips have pending interrupts * and process as appropriate. */ int sii_intr(xxxsc) void *xxxsc; { struct sii_softc *sc = xxxsc; u_int dstat; /* * Find which controller caused the interrupt. */ dstat = sc->sc_regs->dstat; if (dstat & (SII_CI | SII_DI)) { sii_DoIntr(sc, dstat); return (1); } return (0); } /* * Reset the SII chip and do a SCSI reset if 'reset' is true. * NOTE: if !cold && reset, should probably probe for devices * since a SCSI bus reset will set UNIT_ATTENTION. */ void sii_Reset(sc, reset) struct sii_softc* sc; int reset; /* TRUE => reset SCSI bus */ { SIIRegs *regs = sc->sc_regs; #ifdef DEBUG if (sii_debug > 1) printf("sii: RESET\n"); #endif /* * Reset the SII chip. */ regs->comm = SII_CHRESET; /* * Set arbitrated bus mode. */ regs->csr = SII_HPM; /* * Set host adapter ID. */ regs->id = SII_ID_IO | sc->sc_hostid; /* * Enable SII to drive the SCSI bus. */ regs->dictrl = SII_PRE; regs->dmctrl = 0; if (reset) { int i; /* * Assert SCSI bus reset for at least 25 Usec to clear the * world. SII_DO_RST is self clearing. * Delay 250 ms before doing any commands. */ regs->comm = SII_DO_RST; DELAY(250000); /* rearbitrate synchronous offset */ for (i = 0; i < SII_NCMD; i++) sc->sc_st[i].dmaReqAck = 0; } /* * Clear any pending interrupts from the reset. */ regs->cstat = regs->cstat; regs->dstat = regs->dstat; /* * Set up SII for arbitrated bus mode, SCSI parity checking, * Reselect Enable, and Interrupt Enable. */ regs->csr = SII_HPM | SII_RSE | SII_PCE | SII_IE; } /* * Start a SCSI command by sending the cmd data * to a SCSI controller via the SII. * Call the device done procedure if it can't be started. * NOTE: we should be called with interrupts disabled. */ void sii_StartCmd(sc, target) struct sii_softc *sc; /* which SII to use */ int target; /* which command to start */ { SIIRegs *regs; State *state; struct scsi_xfer *xs; u_int status; int error, retval; splassert(IPL_BIO); /* if another command is currently in progress, just wait */ if (sc->sc_target >= 0) return; /* initialize state information for this command */ xs = sc->sc_xs[target]; state = &sc->sc_st[target]; state->flags = FIRST_DMA; state->prevComm = 0; state->dmalen = 0; state->dmaCurPhase = -1; state->dmaPrevPhase = -1; state->dmaBufIndex = 0; state->cmd = (u_char *)xs->cmd; state->cmdlen = xs->cmdlen; if ((state->buflen = xs->datalen) == 0) { state->dmaDataPhase = -1; /* illegal phase. shouldn't happen */ state->buf = (char *)NULL; } else { state->buf = xs->data; } #ifdef DEBUG if (sii_debug > 1) { printf("sii_StartCmd: %s target %d cmd 0x%x addr %p size %d DMA %d\n", sc->sc_dev.dv_xname, target, xs->cmd->opcode, xs->data, xs->datalen, state->dmaDataPhase); } sii_debug_cmd = xs->cmd->opcode; if (sii_debug_cmd == READ_BIG || sii_debug_cmd == WRITE_BIG) { sii_debug_bn = (state->cmd[2] << 24) | (state->cmd[3] << 16) | (state->cmd[4] << 8) | state->cmd[5]; sii_debug_sz = (state->cmd[7] << 8) | state->cmd[8]; } else { sii_debug_bn = 0; sii_debug_sz = 0; } #endif /* try to select the target */ regs = sc->sc_regs; /* * Another device may have selected us; in which case, * this command will be restarted later. */ if ((status = regs->dstat) & (SII_CI | SII_DI)) { sii_DoIntr(sc, status); return; } sc->sc_target = target; /* do a chained, select with ATN and programmed I/O command */ regs->data = MSG_IDENTIFYFLAG | MSG_IDENTIFY_DISCFLAG | xs->sc_link->lun; regs->slcsr = target; regs->dmctrl = state->dmaReqAck; regs->comm = SII_INXFER | SII_SELECT | SII_ATN | SII_CON | SII_MSG_OUT_PHASE; /* * Wait for something to happen * (should happen soon or we would use interrupts). */ SII_WAIT_UNTIL(status, regs->cstat, status & (SII_CI | SII_DI), SII_WAIT_COUNT/4, retval); /* check to see if we are connected OK */ if ((status & (SII_RST | SII_SCH | SII_STATE_MSK)) == (SII_SCH | SII_CON)) { regs->cstat = status; #ifdef DEBUG sii_logp->target = target; sii_logp->cstat = status; sii_logp->dstat = 0; sii_logp->comm = regs->comm; sii_logp->msg = -1; sii_logp->rlen = state->buflen; sii_logp->dlen = state->dmalen; if (++sii_logp >= &sii_log[NLOG]) sii_logp = sii_log; #endif /* wait a short time for command phase */ SII_WAIT_UNTIL(status, regs->dstat, status & SII_MIS, SII_WAIT_COUNT, retval); #ifdef DEBUG if (sii_debug > 2) printf("sii_StartCmd: ds %x cnt %d\n", status, retval); #endif if ((status & (SII_CI | SII_MIS | SII_PHASE_MSK)) != (SII_MIS | SII_CMD_PHASE)) { printf("sii_StartCmd: timeout cs %x ds %x cnt %d\n", regs->cstat, status, retval); /* XXX */ /* process interrupt or continue until it happens */ if (status & (SII_CI | SII_DI)) sii_DoIntr(sc, status); return; } regs->dstat = SII_DNE; /* clear Msg Out DMA done */ /* send command data */ sc->sii_copytobuf(sc, state->cmd, state->dmaAddr[0], state->cmdlen); sii_StartDMA(regs, state->dmaCurPhase = SII_CMD_PHASE, state->dmaAddr[0], state->dmalen = xs->cmdlen); /* wait a little while for DMA to finish */ SII_WAIT_UNTIL(status, regs->dstat, status & (SII_CI | SII_DI), SII_WAIT_COUNT, retval); #ifdef DEBUG if (sii_debug > 2) printf("sii_StartCmd: ds %x, cnt %d\n", status, retval); #endif if (status & (SII_CI | SII_DI)) sii_DoIntr(sc, status); #ifdef DEBUG if (sii_debug > 2) printf("sii_StartCmd: DONE ds %x\n", regs->dstat); #endif return; } /* * Another device may have selected us; in which case, * this command will be restarted later. */ if (status & (SII_CI | SII_DI)) { sii_DoIntr(sc, regs->dstat); return; } /* * Disconnect if selection command still in progress. */ if (status & SII_SIP) { error = XS_SELTIMEOUT; /* device didn't respond */ regs->comm = SII_DISCON; SII_WAIT_UNTIL(status, regs->cstat, !(status & (SII_CON | SII_SIP)), SII_WAIT_COUNT, retval); } else error = XS_BUSY; /* couldn't get the bus */ #ifdef DEBUG if (sii_debug > 1) printf("sii_StartCmd: Couldn't select target %d error %d\n", target, error); #endif sc->sc_target = -1; regs->cstat = 0xffff; regs->dstat = 0xffff; regs->comm = 0; sii_CmdDone(sc, target, error); } /* * Process interrupt conditions. */ void sii_DoIntr(sc, dstat) struct sii_softc *sc; u_int dstat; { SIIRegs *regs = sc->sc_regs; State *state; u_int cstat; int i, msg; u_int comm; again: comm = regs->comm; #ifdef DEBUG if (sii_debug > 3) printf("sii_DoIntr: cs %x, ds %x cm %x ", regs->cstat, dstat, comm); sii_logp->target = sc->sc_target; sii_logp->cstat = regs->cstat; sii_logp->dstat = dstat; sii_logp->comm = comm; sii_logp->msg = -1; if (sc->sc_target >= 0) { sii_logp->rlen = sc->sc_st[sc->sc_target].buflen; sii_logp->dlen = sc->sc_st[sc->sc_target].dmalen; } else { sii_logp->rlen = 0; sii_logp->dlen = 0; } if (++sii_logp >= &sii_log[NLOG]) sii_logp = sii_log; #endif regs->dstat = dstat; /* acknowledge everything */ if (dstat & SII_CI) { /* deglitch cstat register */ msg = regs->cstat; while (msg != (cstat = regs->cstat)) msg = cstat; regs->cstat = cstat; /* acknowledge everything */ #ifdef DEBUG if (sii_logp > sii_log) sii_logp[-1].cstat = cstat; else sii_log[NLOG - 1].cstat = cstat; #endif /* check for a BUS RESET */ if (cstat & SII_RST) { printf("%s: SCSI bus reset\n", sc->sc_dev.dv_xname); /* need to flush disconnected commands */ for (i = 0; i < SII_NCMD; i++) { if (sc->sc_xs[i] == NULL) continue; sii_CmdDone(sc, i, XS_DRIVER_STUFFUP /* EIO */); } /* rearbitrate synchronous offset */ for (i = 0; i < SII_NCMD; i++) sc->sc_st[i].dmaReqAck = 0; sc->sc_target = -1; return; } #ifdef notdef /* * Check for a BUS ERROR. * According to DEC, this feature doesn't really work * and to just clear the bit if it's set. */ if (cstat & SII_BER) { regs->cstat = SII_BER; } #endif /* check for state change */ if (cstat & SII_SCH) { sii_StateChg(sc, cstat); comm = regs->comm; } } /* check for DMA completion */ if (dstat & SII_DNE) { u_int dma; char *buf; /* * There is a race condition with SII_SCH. There is a short * window between the time a SII_SCH is seen after a disconnect * and when the SII_SCH is cleared. A reselect can happen * in this window and we will clear the SII_SCH without * processing the reconnect. */ if (sc->sc_target < 0) { cstat = regs->cstat; printf("%s: DNE?? dev %d,%d cs %x\n", sc->sc_dev.dv_xname, regs->slcsr, regs->destat, cstat); /* XXX */ if (cstat & SII_DST) { sc->sc_target = regs->destat; state = &sc->sc_st[sc->sc_target]; state->prevComm = 0; } else panic("sc_target 1"); } state = &sc->sc_st[sc->sc_target]; /* check for a PARITY ERROR */ if (dstat & SII_IPE) { state->flags |= PENDING_CMD; state->nextCmd = MSG_PARITY_ERROR; printf("%s: Parity error\n", sc->sc_dev.dv_xname); goto abort; } /* dmalen = amount left to transfer, i = amount transferred */ i = state->dmalen; state->dmalen = 0; state->dmaCurPhase = -1; #ifdef DEBUG if (sii_debug > 4) { printf("DNE: amt %d ", i); if (!(dstat & SII_TCZ)) printf("no TCZ?? (%d) ", regs->dmlotc); } else if (!(dstat & SII_TCZ)) { printf("%s: device %d: no TCZ?? (%d)\n", sc->sc_dev.dv_xname, sc->sc_target, regs->dmlotc); sii_DumpLog(); /* XXX */ } #endif switch (comm & SII_PHASE_MSK) { case SII_CMD_PHASE: state->cmdlen -= i; break; case SII_DATA_IN_PHASE: /* check for more data for the same phase */ dma = state->dmaAddr[state->dmaBufIndex]; buf = state->buf; state->buf += i; state->buflen -= i; if (state->buflen > 0 && !(dstat & SII_MIS)) { int len; /* start reading next chunk */ len = state->buflen; if (len > SII_MAX_DMA_XFER_LENGTH) len = SII_MAX_DMA_XFER_LENGTH; state->dmaBufIndex = !state->dmaBufIndex; sii_StartDMA(regs, state->dmaCurPhase = SII_DATA_IN_PHASE, state->dmaAddr[state->dmaBufIndex], state->dmaCnt = state->dmalen = len); dstat &= ~(SII_IBF | SII_TBE); } /* copy in the data */ sc->sii_copyfrombuf(sc, dma, buf, i); break; case SII_DATA_OUT_PHASE: state->dmaBufIndex = !state->dmaBufIndex; state->buf += i; state->buflen -= i; /* check for more data for the same phase */ if (state->buflen <= 0 || (dstat & SII_MIS)) break; /* start next chunk */ i = state->buflen; if (i > SII_MAX_DMA_XFER_LENGTH) { sii_StartDMA(regs, state->dmaCurPhase = SII_DATA_OUT_PHASE, state->dmaAddr[state->dmaBufIndex], state->dmaCnt = state->dmalen = SII_MAX_DMA_XFER_LENGTH); /* prepare for next chunk */ i -= SII_MAX_DMA_XFER_LENGTH; if (i > SII_MAX_DMA_XFER_LENGTH) i = SII_MAX_DMA_XFER_LENGTH; sc->sii_copytobuf(sc, (u_char *)(state->buf + SII_MAX_DMA_XFER_LENGTH), state->dmaAddr[!state->dmaBufIndex], i); } else { sii_StartDMA(regs, state->dmaCurPhase = SII_DATA_OUT_PHASE, state->dmaAddr[state->dmaBufIndex], state->dmaCnt = state->dmalen = i); } dstat &= ~(SII_IBF | SII_TBE); } } /* check for phase change or another MsgIn/Out */ if (dstat & (SII_MIS | SII_IBF | SII_TBE)) { /* * There is a race condition with SII_SCH. There is a short * window between the time a SII_SCH is seen after a disconnect * and when the SII_SCH is cleared. A reselect can happen * in this window and we will clear the SII_SCH without * processing the reconnect. */ if (sc->sc_target < 0) { cstat = regs->cstat; printf("%s: target %d MIS?? dev %d,%d cs %x ds %x\n", sc->sc_dev.dv_xname, sc->sc_target, regs->slcsr, regs->destat, cstat, dstat); /* XXX */ if (cstat & SII_DST) { sc->sc_target = regs->destat; state = &sc->sc_st[sc->sc_target]; state->prevComm = 0; } else { #ifdef DEBUG sii_DumpLog(); #endif panic("sc_target 2"); } } state = &sc->sc_st[sc->sc_target]; switch (dstat & SII_PHASE_MSK) { case SII_CMD_PHASE: if (state->dmaPrevPhase >= 0) { /* restart DMA after disconnect/reconnect */ if (state->dmaPrevPhase != SII_CMD_PHASE) { printf("%s: device %d: DMA reselect phase doesn't match\n", sc->sc_dev.dv_xname, sc->sc_target); goto abort; } state->dmaCurPhase = SII_CMD_PHASE; state->dmaPrevPhase = -1; regs->dmaddrl = state->dmaAddrL; regs->dmaddrh = state->dmaAddrH; regs->dmlotc = state->dmaCnt; if (state->dmaCnt & 1) regs->dmabyte = state->dmaByte; regs->comm = SII_DMA | SII_INXFER | (comm & SII_STATE_MSK) | SII_CMD_PHASE; #ifdef DEBUG if (sii_debug > 4) printf("Cmd dcnt %d dadr %x ", state->dmaCnt, (state->dmaAddrH << 16) | state->dmaAddrL); #endif } else { /* send command data */ i = state->cmdlen; if (i == 0) { printf("%s: device %d: cmd count exceeded\n", sc->sc_dev.dv_xname, sc->sc_target); goto abort; } sc->sii_copytobuf(sc, state->cmd, state->dmaAddr[0], i); sii_StartDMA(regs, state->dmaCurPhase = SII_CMD_PHASE, state->dmaAddr[0], state->dmaCnt = state->dmalen = i); } /* wait a short time for XFER complete */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & (SII_CI | SII_DI), SII_WAIT_COUNT, i); if (dstat & (SII_CI | SII_DI)) { #ifdef DEBUG if (sii_debug > 4) printf("cnt %d\n", i); else if (sii_debug > 0) printf("sii_DoIntr: cmd wait ds %x cnt %d\n", dstat, i); #endif goto again; } break; case SII_DATA_IN_PHASE: case SII_DATA_OUT_PHASE: if (state->cmdlen > 0) { printf("%s: device %d: cmd 0x%x: command data not all sent (%d) 1\n", sc->sc_dev.dv_xname, sc->sc_target, sc->sc_xs[sc->sc_target]->cmd->opcode, state->cmdlen); state->cmdlen = 0; #ifdef DEBUG sii_DumpLog(); #endif } if (state->dmaPrevPhase >= 0) { /* restart DMA after disconnect/reconnect */ if (state->dmaPrevPhase != (dstat & SII_PHASE_MSK)) { printf("%s: device %d: DMA reselect phase doesn't match\n", sc->sc_dev.dv_xname, sc->sc_target); goto abort; } state->dmaCurPhase = state->dmaPrevPhase; state->dmaPrevPhase = -1; regs->dmaddrl = state->dmaAddrL; regs->dmaddrh = state->dmaAddrH; regs->dmlotc = state->dmaCnt; if (state->dmaCnt & 1) regs->dmabyte = state->dmaByte; regs->comm = SII_DMA | SII_INXFER | (comm & SII_STATE_MSK) | state->dmaCurPhase; #ifdef DEBUG if (sii_debug > 4) printf("Data %d dcnt %d dadr %x ", state->dmaDataPhase, state->dmaCnt, (state->dmaAddrH << 16) | state->dmaAddrL); #endif break; } #ifdef DEBUG if (sii_debug > 4) { printf("Data %d ", state->dmaDataPhase); if (sii_debug > 5) printf("\n"); } #endif i = state->buflen; if (i == 0) { printf("%s: device %d: data count exceeded\n", sc->sc_dev.dv_xname, sc->sc_target); goto abort; } if (i > SII_MAX_DMA_XFER_LENGTH) i = SII_MAX_DMA_XFER_LENGTH; if ((dstat & SII_PHASE_MSK) == SII_DATA_IN_PHASE) { sii_StartDMA(regs, state->dmaCurPhase = SII_DATA_IN_PHASE, state->dmaAddr[state->dmaBufIndex], state->dmaCnt = state->dmalen = i); break; } /* start first chunk */ if (state->flags & FIRST_DMA) { state->flags &= ~FIRST_DMA; sc->sii_copytobuf(sc, (u_char *)state->buf, state->dmaAddr[state->dmaBufIndex], i); } sii_StartDMA(regs, state->dmaCurPhase = SII_DATA_OUT_PHASE, state->dmaAddr[state->dmaBufIndex], state->dmaCnt = state->dmalen = i); i = state->buflen - SII_MAX_DMA_XFER_LENGTH; if (i > 0) { /* prepare for next chunk */ if (i > SII_MAX_DMA_XFER_LENGTH) i = SII_MAX_DMA_XFER_LENGTH; sc->sii_copytobuf(sc, (u_char *)(state->buf + SII_MAX_DMA_XFER_LENGTH), state->dmaAddr[!state->dmaBufIndex], i); } break; case SII_STATUS_PHASE: if (state->cmdlen > 0) { printf("%s: device %d: cmd 0x%x: command data not all sent (%d) 2\n", sc->sc_dev.dv_xname, sc->sc_target, sc->sc_xs[sc->sc_target]->cmd->opcode, state->cmdlen); state->cmdlen = 0; #ifdef DEBUG sii_DumpLog(); #endif } /* read amount transferred if DMA didn't finish */ if (state->dmalen > 0) { i = state->dmalen - regs->dmlotc; state->dmalen = 0; state->dmaCurPhase = -1; regs->dmlotc = 0; regs->comm = comm & (SII_STATE_MSK | SII_PHASE_MSK); regs->dstat = SII_DNE; #ifdef DEBUG if (sii_debug > 4) printf("DMA amt %d ", i); #endif switch (comm & SII_PHASE_MSK) { case SII_DATA_IN_PHASE: /* copy in the data */ sc->sii_copyfrombuf(sc, state->dmaAddr[state->dmaBufIndex], state->buf, i); case SII_CMD_PHASE: case SII_DATA_OUT_PHASE: state->buflen -= i; } } /* read a one byte status message */ state->statusByte = msg = sii_GetByte(regs, SII_STATUS_PHASE, 1); if (msg < 0) { dstat = regs->dstat; goto again; } #ifdef DEBUG if (sii_debug > 4) printf("Status %x ", msg); if (sii_logp > sii_log) sii_logp[-1].msg = msg; else sii_log[NLOG - 1].msg = msg; #endif /* do a quick wait for COMMAND_COMPLETE */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & (SII_CI | SII_DI), SII_WAIT_COUNT, i); if (dstat & (SII_CI | SII_DI)) { #ifdef DEBUG if (sii_debug > 4) printf("cnt2 %d\n", i); #endif goto again; } break; case SII_MSG_IN_PHASE: /* * Save DMA state if DMA didn't finish. * Be careful not to save state again after reconnect * and see RESTORE_POINTER message. * Note that the SII DMA address is not incremented * as DMA proceeds. */ if (state->dmaCurPhase >= 0) { /* save DMA registers */ state->dmaPrevPhase = state->dmaCurPhase; state->dmaCurPhase = -1; if (dstat & SII_OBB) state->dmaByte = regs->dmabyte; i = regs->dmlotc; if (i != 0) i = state->dmaCnt - i; /* note: no carry from dmaddrl to dmaddrh */ state->dmaAddrL = regs->dmaddrl + i; state->dmaAddrH = regs->dmaddrh; state->dmaCnt = regs->dmlotc; if (state->dmaCnt == 0) state->dmaCnt = SII_MAX_DMA_XFER_LENGTH; regs->comm = comm & (SII_STATE_MSK | SII_PHASE_MSK); regs->dstat = SII_DNE; #ifdef DEBUG if (sii_debug > 4) { printf("SavP dcnt %d dadr %x ", state->dmaCnt, (state->dmaAddrH << 16) | state->dmaAddrL); if (((dstat & SII_OBB) != 0) ^ (state->dmaCnt & 1)) printf("OBB??? "); } else if (sii_debug > 0) { if (((dstat & SII_OBB) != 0) ^ (state->dmaCnt & 1)) { printf("sii_DoIntr: OBB??? ds %x cnt %d\n", dstat, state->dmaCnt); sii_DumpLog(); } } #endif } /* read a one byte message */ msg = sii_GetByte(regs, SII_MSG_IN_PHASE, 0); if (msg < 0) { dstat = regs->dstat; goto again; } #ifdef DEBUG if (sii_debug > 4) printf("MsgIn %x ", msg); if (sii_logp > sii_log) sii_logp[-1].msg = msg; else sii_log[NLOG - 1].msg = msg; #endif /* process message */ switch (msg) { case MSG_CMDCOMPLETE: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; msg = sc->sc_target; sc->sc_target = -1; /* * Wait a short time for disconnect. * Don't be fooled if SII_BER happens first. * Note: a reselect may happen here. */ SII_WAIT_UNTIL(cstat, regs->cstat, cstat & (SII_RST | SII_SCH), SII_WAIT_COUNT, i); if ((cstat & (SII_RST | SII_SCH | SII_STATE_MSK)) == SII_SCH) { regs->cstat = SII_SCH | SII_BER; regs->comm = 0; /* * Double check that we didn't miss a * state change between seeing it and * clearing the SII_SCH bit. */ i = regs->cstat; if (!(i & SII_SCH) && (i & SII_STATE_MSK) != (cstat & SII_STATE_MSK)) sii_StateChg(sc, i); } #ifdef DEBUG if (sii_debug > 4) printf("cs %x\n", cstat); #endif sii_CmdDone(sc, msg, XS_NOERROR); break; case MSG_EXTENDED: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; /* read the message length */ msg = sii_GetByte(regs, SII_MSG_IN_PHASE, 1); if (msg < 0) { dstat = regs->dstat; goto again; } sc->sc_buf[1] = msg; /* message length */ if (msg == 0) msg = 256; /* * We read and acknowlege all the bytes * except the last so we can assert ATN * if needed before acknowledging the last. */ for (i = 0; i < msg; i++) { dstat = sii_GetByte(regs, SII_MSG_IN_PHASE, i < msg - 1); if ((int)dstat < 0) { dstat = regs->dstat; goto again; } sc->sc_buf[i + 2] = dstat; } switch (sc->sc_buf[2]) { case MSG_EXT_MODIFY_DATA_PTR: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; i = (sc->sc_buf[3] << 24) | (sc->sc_buf[4] << 16) | (sc->sc_buf[5] << 8) | sc->sc_buf[6]; if (state->dmaPrevPhase >= 0) { state->dmaAddrL += i; state->dmaCnt -= i; } break; case MSG_EXT_SDTR_LEN: /* * Acknowledge last byte and * signal a request for MSG_OUT. */ regs->comm = SII_INXFER | SII_ATN | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; sii_DoSync(sc, state); break; default: reject: /* * Acknowledge last byte and * signal a request for MSG_OUT. */ regs->comm = SII_INXFER | SII_ATN | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; /* wait for MSG_OUT phase */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_TBE, SII_WAIT_COUNT, i); /* send a reject message */ sii_msgout(regs, regs->cstat, MSG_MESSAGE_REJECT); regs->dstat = SII_DNE; } break; case MSG_SAVEDATAPOINTER: case MSG_RESTOREPOINTERS: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; /* wait a short time for another msg */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & (SII_CI | SII_DI), SII_WAIT_COUNT, i); if (dstat & (SII_CI | SII_DI)) { #ifdef DEBUG if (sii_debug > 4) printf("cnt %d\n", i); #endif goto again; } break; case MSG_DISCONNECT: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; state->prevComm = comm; #ifdef DEBUG if (sii_debug > 4) printf("disconn %d ", sc->sc_target); #endif /* * Wait a short time for disconnect. * Don't be fooled if SII_BER happens first. * Note: a reselect may happen here. */ SII_WAIT_UNTIL(cstat, regs->cstat, cstat & (SII_RST | SII_SCH), SII_WAIT_COUNT, i); if ((cstat & (SII_RST | SII_SCH | SII_STATE_MSK)) != SII_SCH) { #ifdef DEBUG if (sii_debug > 4) printf("cnt %d\n", i); #endif dstat = regs->dstat; goto again; } regs->cstat = SII_SCH | SII_BER; regs->comm = 0; sc->sc_target = -1; /* * Double check that we didn't miss a state * change between seeing it and clearing * the SII_SCH bit. */ i = regs->cstat; if (!(i & SII_SCH) && (i & SII_STATE_MSK) != (cstat & SII_STATE_MSK)) sii_StateChg(sc, i); break; case MSG_MESSAGE_REJECT: /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; printf("%s: device %d: message reject.\n", sc->sc_dev.dv_xname, sc->sc_target); break; default: if (!(msg & MSG_IDENTIFYFLAG)) { printf("%s: device %d: couldn't handle " "message 0x%x... rejecting.\n", sc->sc_dev.dv_xname, sc->sc_target, msg); #ifdef DEBUG sii_DumpLog(); #endif goto reject; } /* acknowledge last byte */ regs->comm = SII_INXFER | SII_MSG_IN_PHASE | (comm & SII_STATE_MSK); SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); regs->dstat = SII_DNE; /* may want to check LUN some day */ /* wait a short time for another msg */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & (SII_CI | SII_DI), SII_WAIT_COUNT, i); if (dstat & (SII_CI | SII_DI)) { #ifdef DEBUG if (sii_debug > 4) printf("cnt %d\n", i); #endif goto again; } } break; case SII_MSG_OUT_PHASE: #ifdef DEBUG if (sii_debug > 4) printf("MsgOut %x\n", state->flags); /* XXX */ #endif /* * Check for parity error. * Hardware will automatically set ATN * to request the device for a MSG_OUT phase. */ if (state->flags & PENDING_CMD) { state->flags &= ~PENDING_CMD; dstat = sii_msgout(regs, comm, state->nextCmd); } else dstat = sii_msgout(regs, comm, MSG_NOOP); #ifdef DEBUG if (sii_debug > 4) printf("ds %x i %d\n", dstat, i); #endif /* just clear the DNE bit and check errors later */ if (dstat & SII_DNE) { regs->dstat = SII_DNE; } break; default: printf("%s: Couldn't handle phase %d... ignoring.\n", sc->sc_dev.dv_xname, dstat & SII_PHASE_MSK); } } #ifdef DEBUG if (sii_debug > 3) printf("\n"); #endif /* * Check to make sure we won't be interrupted again. * Deglitch dstat register. */ msg = regs->dstat; while (msg != (dstat = regs->dstat)) msg = dstat; if (dstat & (SII_CI | SII_DI)) goto again; if (sc->sc_target < 0) sii_schedule(sc); return; abort: #ifdef DEBUG /* jump here to abort the current command */ printf("%s: device %d: current command terminated\n", sc->sc_dev.dv_xname, sc->sc_target); sii_DumpLog(); #endif if ((cstat = regs->cstat) & SII_CON) { /* try to send an abort msg for awhile */ regs->dstat = SII_DNE; regs->data = MSG_ABORT; regs->comm = SII_INXFER | SII_ATN | (cstat & SII_STATE_MSK) | SII_MSG_OUT_PHASE; SII_WAIT_UNTIL(dstat, regs->dstat, (dstat & (SII_DNE | SII_PHASE_MSK)) == (SII_DNE | SII_MSG_OUT_PHASE), 2 * SII_WAIT_COUNT, i); #ifdef DEBUG if (sii_debug > 0) printf("Abort: cs %x ds %x i %d\n", cstat, dstat, i); #endif if ((dstat & (SII_DNE | SII_PHASE_MSK)) == (SII_DNE | SII_MSG_OUT_PHASE)) { /* disconnect if command in progress */ regs->comm = SII_DISCON; SII_WAIT_UNTIL(cstat, regs->cstat, !(cstat & SII_CON), SII_WAIT_COUNT, i); } } else { #ifdef DEBUG if (sii_debug > 0) printf("Abort: cs %x\n", cstat); #endif } regs->cstat = 0xffff; regs->dstat = 0xffff; regs->comm = 0; i = sc->sc_target; sc->sc_target = -1; /* XXX xs might have been get taken care of already */ if (sc->sc_xs[i] != NULL) sii_CmdDone(sc, i, XS_DRIVER_STUFFUP /* EIO */); else sii_schedule(sc); #ifdef DEBUG if (sii_debug > 4) printf("sii_DoIntr: after CmdDone target %d\n", sc->sc_target); #endif } void sii_StateChg(sc, cstat) struct sii_softc *sc; u_int cstat; { SIIRegs *regs = sc->sc_regs; State *state; int i; #ifdef DEBUG if (sii_debug > 4) printf("SCH: "); #endif switch (cstat & SII_STATE_MSK) { case 0: /* disconnect */ i = sc->sc_target; sc->sc_target = -1; #ifdef DEBUG if (sii_debug > 4) printf("disconn %d ", i); #endif if (i >= 0 && !sc->sc_st[i].prevComm) { printf("%s: device %d: spurrious disconnect (%d)\n", sc->sc_dev.dv_xname, i, regs->slcsr); sc->sc_st[i].prevComm = 0; } break; case SII_CON: /* connected as initiator */ i = regs->slcsr; if (sc->sc_target == i) break; printf("%s: device %d: connect to device %d??\n", sc->sc_dev.dv_xname, sc->sc_target, i); sc->sc_target = i; break; case SII_DST: /* * Wait for CON to become valid, * chip is slow sometimes. */ SII_WAIT_UNTIL(cstat, regs->cstat, cstat & SII_CON, SII_WAIT_COUNT, i); if (!(cstat & SII_CON)) panic("sii resel"); /* FALLTHROUGH */ case SII_CON | SII_DST: /* * Its a reselection. Save the ID and wait for * interrupts to tell us what to do next * (should be MSG_IN of IDENTIFY). * NOTE: sc_target may be >= 0 if we were in * the process of trying to start a command * and were reselected before the select * command finished. */ sc->sc_target = i = regs->destat; state = &sc->sc_st[i]; regs->comm = SII_CON | SII_DST | SII_MSG_IN_PHASE; regs->dmctrl = state->dmaReqAck; if (!state->prevComm) { printf("%s: device %d: spurious reselection\n", sc->sc_dev.dv_xname, i); break; } state->prevComm = 0; #ifdef DEBUG if (sii_debug > 4) printf("resel %d ", sc->sc_target); #endif break; #ifdef notyet case SII_DST | SII_TGT: case SII_CON | SII_DST | SII_TGT: /* connected as target */ printf("%s: Selected by device %d as target!!\n", sc->sc_dev.dv_xname, regs->destat); regs->comm = SII_DISCON; SII_WAIT_UNTIL(!(regs->cstat & SII_CON), SII_WAIT_COUNT, i); regs->cstat = 0xffff; regs->dstat = 0xffff; regs->comm = 0; break; #endif default: printf("%s: Unknown state change (cs %x)!!\n", sc->sc_dev.dv_xname, cstat); #ifdef DEBUG sii_DumpLog(); #endif } } /* * Read one byte of data. * If 'ack' is true, acknowledge the byte. */ int sii_GetByte(regs, phase, ack) SIIRegs *regs; int phase, ack; { u_int dstat; u_int state; int i; int data; dstat = regs->dstat; state = regs->cstat & SII_STATE_MSK; i = -1; if (!(dstat & SII_IBF) || (dstat & SII_MIS)) { regs->comm = state | phase; /* wait a short time for IBF */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_IBF, SII_WAIT_COUNT, i); #ifdef DEBUG if (!(dstat & SII_IBF)) printf("status no IBF\n"); #endif } if (dstat & SII_DNE) { /* XXX */ printf("sii_GetByte: DNE set 5\n"); #ifdef DEBUG sii_DumpLog(); #endif regs->dstat = SII_DNE; } data = regs->data; /* check for parity error */ if (dstat & SII_IPE) { #ifdef DEBUG if (sii_debug > 4) printf("cnt0 %d\n", i); #endif printf("sii_GetByte: data %x ?? ds %x cm %x i %d\n", data, dstat, regs->comm, i); /* XXX */ data = -1; ack = 1; } if (ack) { regs->comm = SII_INXFER | state | phase; /* wait a short time for XFER complete */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); /* clear the DNE */ if (dstat & SII_DNE) { regs->dstat = SII_DNE; } } return (data); } /* * Exchange messages to initiate synchronous data transfers. */ void sii_DoSync(sc, state) struct sii_softc *sc; State *state; { SIIRegs *regs = sc->sc_regs; u_int dstat, comm; int i, j; u_int len; #ifdef DEBUG if (sii_debug > 0) printf("sii_DoSync: len %d per %d req/ack %d\n", sc->sc_buf[1], sc->sc_buf[3], sc->sc_buf[4]); #endif /* SII chip can only handle a minimum transfer period of ??? */ if (sc->sc_buf[3] < 64) sc->sc_buf[3] = 64; /* SII chip can only handle a maximum REQ/ACK offset of 3 */ len = sc->sc_buf[4]; if (len > 3) len = 3; sc->sc_buf[0] = MSG_EXTENDED; sc->sc_buf[1] = MSG_EXT_SDTR_LEN; sc->sc_buf[2] = MSG_EXT_SDTR; sc->sc_buf[4] = len; #if 1 comm = SII_INXFER | SII_ATN | SII_MSG_OUT_PHASE | (regs->cstat & SII_STATE_MSK); regs->comm = comm & ~SII_INXFER; for (j = 0; j < 5; j++) { /* wait for target to request the next byte */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_TBE, SII_WAIT_COUNT, i); if (!(dstat & SII_TBE) || (dstat & SII_PHASE_MSK) != SII_MSG_OUT_PHASE) { printf("sii_DoSync: TBE? ds %x cm %x i %d\n", dstat, comm, i); /* XXX */ return; } /* the last message byte should have ATN off */ if (j == 4) comm &= ~SII_ATN; regs->data = sc->sc_buf[j]; regs->comm = comm; /* wait a short time for XFER complete */ SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); if (!(dstat & SII_DNE)) { printf("sii_DoSync: DNE? ds %x cm %x i %d\n", dstat, comm, i); /* XXX */ return; } /* clear the DNE, other errors handled later */ regs->dstat = SII_DNE; } #else /* 0 */ sc->sii_copytobuf(sc, sc->sc_buf, SII_BUF_ADDR(sc), 5); printf("sii_DoSync: %x %x %x ds %x\n", ((u_short *)sc->sc_buf)[0], ((u_short *)sc->sc_buf)[1], ((u_short *)sc->sc_buf)[2], regs->dstat); /* XXX */ regs->dmaddrl = SII_BUF_ADDR(sc); regs->dmaddrh = SII_BUF_ADDR(sc) >> 16; regs->dmlotc = 5; regs->comm = SII_DMA | SII_INXFER | SII_ATN | (regs->cstat & SII_STATE_MSK) | SII_MSG_OUT_PHASE; /* wait a short time for XFER complete */ SII_WAIT_UNTIL(dstat, regs->dstat, (dstat & (SII_DNE | SII_TCZ)) == (SII_DNE | SII_TCZ), SII_WAIT_COUNT, i); if ((dstat & (SII_DNE | SII_TCZ)) != (SII_DNE | SII_TCZ)) { printf("sii_DoSync: ds %x cm %x i %d lotc %d\n", dstat, regs->comm, i, regs->dmlotc); /* XXX */ sii_DumpLog(); /* XXX */ return; } /* clear the DNE, other errors handled later */ regs->dstat = SII_DNE; #endif /* 0 */ #if 0 SII_WAIT_UNTIL(dstat, regs->dstat, dstat & (SII_CI | SII_DI), SII_WAIT_COUNT, i); printf("sii_DoSync: ds %x cm %x i %d lotc %d\n", dstat, regs->comm, i, regs->dmlotc); /* XXX */ #endif state->dmaReqAck = len; } /* * Issue the sequence of commands to the controller to start DMA. * NOTE: the data buffer should be word-aligned for DMA out. */ void sii_StartDMA(regs, phase, dmaAddr, size) SIIRegs *regs; /* which SII to use */ int phase; /* phase to send/receive data */ u_int dmaAddr; /* DMA buffer offset */ int size; /* # of bytes to transfer */ { if (regs->dstat & SII_DNE) { /* XXX */ regs->dstat = SII_DNE; printf("sii_StartDMA: DNE set\n"); #ifdef DEBUG sii_DumpLog(); #endif } regs->dmaddrl = dmaAddr; regs->dmaddrh = dmaAddr >> 16; regs->dmlotc = size; regs->comm = SII_DMA | SII_INXFER | (regs->cstat & SII_STATE_MSK) | phase; #ifdef DEBUG if (sii_debug > 5) { printf("sii_StartDMA: cs 0x%x, ds 0x%x, cm 0x%x, size %d\n", regs->cstat, regs->dstat, regs->comm, size); } #endif } /* * Call the device driver's 'done' routine to let it know the command is done. * The 'done' routine may try to start another command. * To be fair, we should start pending commands for other devices * before allowing the same device to start another command. */ void sii_CmdDone(sc, target, error) struct sii_softc *sc; /* which SII to use */ int target; /* which device is done */ int error; /* error code if any errors */ { struct scsi_xfer *xs; splassert(IPL_BIO); xs = sc->sc_xs[target]; #ifdef DIAGNOSTIC if (target < 0 || xs == NULL) panic("sii_CmdDone"); #endif sc->sc_xs[target] = NULL; #ifdef DEBUG if (sii_debug > 1) { printf("sii_CmdDone: %s target %d cmd 0x%x err %d resid %d\n", sc->sc_dev.dv_xname, target, xs->cmd->opcode, error, sc->sc_st[target].buflen); } #endif sii_schedule(sc); xs->status = sc->sc_st[target].statusByte; xs->error = error; xs->resid = sc->sc_st[target].buflen; scsi_done(xs); } /* Send a particular message */ u_int sii_msgout(SIIRegs *regs, u_int state, u_int8_t cmd) { int i; u_int dstat; regs->data = cmd; regs->comm = SII_INXFER | (state & SII_STATE_MSK) | SII_MSG_OUT_PHASE; SII_WAIT_UNTIL(dstat, regs->dstat, dstat & SII_DNE, SII_WAIT_COUNT, i); return dstat; } void sii_schedule(struct sii_softc *sc) { unsigned int i; /* look for another device that is ready */ for (i = 0; i < SII_NCMD; i++) { /* don't restart a disconnected command */ if (sc->sc_xs[i] == NULL || sc->sc_st[i].prevComm) continue; sii_StartCmd(sc, i); break; } } #ifdef DEBUG void sii_DumpLog() { struct sii_log *lp; printf("sii: cmd 0x%x bn %d cnt %d\n", sii_debug_cmd, sii_debug_bn, sii_debug_sz); lp = sii_logp; do { printf("target %d cs %x ds %x cm %x msg %x rlen %x dlen %x\n", lp->target, lp->cstat, lp->dstat, lp->comm, lp->msg, lp->rlen, lp->dlen); if (++lp >= &sii_log[NLOG]) lp = sii_log; } while (lp != sii_logp); } #endif