/* $NecBSD: bs.c,v 1.1 1997/07/18 09:18:59 kmatsuda Exp $ */ /* $NetBSD$ */ /* * [NetBSD for NEC PC98 series] * Copyright (c) 1994, 1995, 1996 NetBSD/pc98 porting staff. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * Copyright (c) 1994, 1995, 1996 Naofumi HONDA. All rights reserved. */ #ifdef __NetBSD__ #include #endif #ifdef __FreeBSD__ #include #endif /***************************************************************** * Inline phase funcs *****************************************************************/ /* static inline declare */ static BS_INLINE struct targ_info *bs_reselect __P((struct bs_softc *)); static BS_INLINE void bs_sat_continue __P((struct bs_softc *, struct targ_info *, struct ccb *)); static BS_INLINE struct targ_info *bs_selected __P((struct bs_softc *, struct targ_info *, struct ccb *)); static BS_INLINE u_int8_t bs_read_1byte __P((struct bs_softc *)); static BS_INLINE void bs_write_1byte __P((struct bs_softc *, u_int8_t)); static BS_INLINE void bs_commandout __P((struct bs_softc *, struct targ_info *, struct ccb *)); static BS_INLINE void bs_status_check __P((struct bs_softc *, struct targ_info *)); static BS_INLINE void bs_msgin __P((struct bs_softc *, struct targ_info *)); static BS_INLINE void bs_msgout __P((struct bs_softc *, struct targ_info *, struct ccb *)); static BS_INLINE void bs_disconnect_phase __P((struct bs_softc *, struct targ_info *, struct ccb *)); static void bs_phase_error __P((struct targ_info *, struct ccb *)); static int bs_scsi_cmd_poll_internal __P((struct targ_info *)); static int bs_xfer __P((struct bs_softc *, char *, int)); static void bs_io_xfer __P((struct targ_info *)); static void bs_quick_abort __P((struct targ_info *, u_int)); static void bs_msgin_error __P((struct targ_info *, u_int)); static void bs_msgin_ext __P((struct targ_info *)); static void bs_msg_reject __P((struct targ_info *)); static void bshoststart __P((struct bs_softc *, struct targ_info *)); /***************************************************************** * Julian scsi interface *****************************************************************/ XSBS_INT32T bs_scsi_cmd(xs) struct scsi_xfer *xs; { struct bs_softc *bsc = (struct bs_softc *) xs->sc_link->adapter_softc; int s, target = (u_int) (xs->sc_link->target); struct targ_info *ti; struct ccb *cb; u_int flags = xs->flags; if (xs->bp == NULL && (bsc->sc_openf & (1 << target)) == 0) { s = splbio(); xs->error = XS_DRIVER_STUFFUP; xs->flags |= XSBS_ITSDONE; scsi_done(xs); splx(s); return COMPLETE; } ti = bsc->sc_ti[target]; if ((cb = bs_get_ccb(flags & XSBS_SCSI_NOSLEEP)) == NULL) return TRY_AGAIN_LATER; /* make up ccb! */ cb->xs = xs; cb->lun = xs->sc_link->lun; cb->cmd = (u_int8_t *) xs->cmd; cb->cmdlen = (int) xs->cmdlen; cb->data = (u_int8_t *) xs->data; cb->datalen = (int) xs->datalen; cb->rcnt = 0; cb->msgoutlen = 0; cb->flags = (flags & XSBS_SCSI_POLL) ? BSFORCEIOPOLL : 0; bs_targ_flags(ti, cb); cb->tcmax = (xs->timeout >> 10); if (cb->tcmax < BS_DEFAULT_TIMEOUT_SECOND) cb->tcmax = BS_DEFAULT_TIMEOUT_SECOND; #ifdef BS_ADDRESS_CHECK /* XXX: * Sanity check, however this is critical! * NetBSD 1.0: WRONG * NetBSD 1.1: OK * FreeBSD: WRONG */ if ((caddr_t) cb->data < (caddr_t) KERNBASE) { u_int8_t *altbp; altbp = (u_int8_t *) malloc(cb->datalen, M_DEVBUF, M_NOWAIT); if (altbp == NULL) { bs_free_ccb(cb); return TRY_AGAIN_LATER; } if (flags & SCSI_DATA_OUT) bcopy(cb->data, altbp, cb->datalen); else bzero(altbp, cb->datalen); cb->data = (u_int8_t *) altbp; cb->flags |= BSALTBUF; } #endif /* BS_ADDRESS_CHECK */ s = splbio(); TAILQ_INSERT_TAIL(&ti->ti_ctab, cb, ccb_chain); if (ti->ti_phase == FREE) { if (ti->ti_state == BS_TARG_START) { if ((flags & XSBS_SCSI_POLL) == 0) bs_start_syncmsg(ti, NULL, BS_SYNCMSG_ASSERT); } bscmdstart(ti, BSCMDSTART); } if ((flags & XSBS_SCSI_POLL) == 0) { splx(s); return SUCCESSFULLY_QUEUED; } bs_scsi_cmd_poll(ti, cb); splx(s); return COMPLETE; } /************************************************** * ### NEXUS START and TERMINATE ### **************************************************/ /* * FLAGS : BSCMDRESTART restart in case of error. */ int bscmdstart(ti, flags) struct targ_info *ti; int flags; { struct ccb *cb; struct bs_softc *bsc = ti->ti_bsc; if ((cb = ti->ti_ctab.tqh_first) == NULL) { if (bsc->sc_nexus == NULL) bshoststart(bsc, NULL); return 0; } ti->ti_lun = cb->lun; ti->ti_error = 0; ti->ti_scsp.data = cb->data; ti->ti_scsp.datalen = cb->datalen; ti->ti_scsp.seglen = 0; if (cb->rcnt) cb->flags &= ~(BSSAT | BSLINK); ti->ti_flags &= ~BSCFLAGSMASK; ti->ti_flags |= cb->flags & BSCFLAGSMASK; cb->tc = cb->tcmax; /* GO GO */ if (ti->ti_phase == FREE) { if (bsc->sc_nexus == NULL) bshoststart(bsc, ti); else { if (flags & BSCMDRESTART) bs_hostque_head(bsc, ti); else bs_hostque_tail(bsc, ti); BS_SETUP_PHASE(HOSTQUEUE) } } else if (bsc->sc_nexus == NULL) bshoststart(bsc, NULL); return 1; } struct ccb * bscmddone(ti) struct targ_info *ti; { struct bs_softc *bsc = ti->ti_bsc; struct ccb *cb = ti->ti_ctab.tqh_first; struct scsi_xfer *xs; int error; if (ti->ti_state == BS_TARG_SYNCH) { if (bs_analyze_syncmsg(ti, cb)) return cb; } if (bsc->sc_p.datalen != 0) ti->ti_error |= BSDMAABNORMAL; cb->error = ti->ti_error; do { xs = cb->xs; error = XS_NOERROR; if (cb->flags & (BSITSDONE | BSSENSECCB | BSCASTAT)) { if (cb->flags & BSSENSECCB) { cb->error &= ~BSDMAABNORMAL; if (cb->error == 0) ti->ti_flags |= BSCASTAT; ti->ti_flags |= BSERROROK; } else if (cb->flags & BSCASTAT) { if (ti->ti_flags & BSCASTAT) { ti->ti_flags &= ~BSCASTAT; error = XS_SENSE; if (xs) xs->sense = ti->sense; } else error = XS_DRIVER_STUFFUP; ti->ti_flags |= BSERROROK; } else bs_panic(bsc, "internal error"); } while (cb->error) { if (ti->ti_flags & BSERROROK) break; if (cb->rcnt >= bsc->sc_retry || (cb->error & BSFATALIO)) { if (cb->error & (BSSELTIMEOUT | BSTIMEOUT)) error = XS_TIMEOUT; else if (cb->error & BSTARGETBUSY) error = XS_BUSY; else error = XS_DRIVER_STUFFUP; break; } if (cb->error & BSREQSENSE) { /* must clear the target's sense state */ cb->rcnt++; cb->flags |= (BSITSDONE | BSCASTAT); cb->error &= ~BSREQSENSE; return bs_request_sense(ti); } /* XXX: compat with upper driver */ if ((cb->error & BSDMAABNORMAL) && BSHW_CMD_CHECK(cb, BSERROROK)) { cb->error &= ~BSDMAABNORMAL; continue; } if ((xs && xs->bp) || (cb->error & BSSELTIMEOUT) == 0) bs_debug_print(bsc, ti); cb->rcnt++; return cb; } #ifdef BS_DIAG cb->flags |= BSITSDONE; #endif /* BS_DIAG */ if (bsc->sc_poll) { bsc->sc_flags |= BSJOBDONE; if (bsc->sc_outccb == cb) bsc->sc_flags |= BSPOLLDONE; } TAILQ_REMOVE(&ti->ti_ctab, cb, ccb_chain); if (xs) { #ifdef BS_ADDRESS_CHECK if (cb->flags & BSALTBUF) { if (xs->flags & SCSI_DATA_IN) bcopy(cb->data, xs->data, cb->datalen); free(cb->data, M_DEVBUF); } #endif /* BS_ADDRESS_CHECK */ if ((xs->error = error) == XS_NOERROR) xs->resid = 0; xs->flags |= XSBS_ITSDONE; scsi_done(xs); } bs_free_ccb(cb); cb = ti->ti_ctab.tqh_first; } while (cb != NULL && (cb->flags & BSITSDONE) != 0); /* complete */ return NULL; } /************************************************** * ### PHASE FUNCTIONS ### **************************************************/ /************************************************** * **************************************************/ static void bshoststart(bsc, ti) struct bs_softc *bsc; struct targ_info *ti; { struct ccb *cb; int s; if (bsc->sc_flags & BSINACTIVE) return; again: if (ti == NULL) { if ((ti = bsc->sc_sttab.tqh_first) == NULL) return; bs_hostque_delete(bsc, ti); } if ((cb = ti->ti_ctab.tqh_first) == NULL) { bs_printf(ti, "bshoststart", "Warning: No ccb"); BS_SETUP_PHASE(FREE); ti = NULL; goto again; } #ifdef BS_DIAG if (cb->flags & BSITSDONE) bs_panic(bsc, "bshoststart: already done"); if (bsc->sc_nexus || (ti->ti_flags & BSNEXUS)) { char *s = ((ti->ti_flags & BSNEXUS) ? "nexus already established" : "scsi board busy"); bs_debug_print(bsc, ti); bs_printf(ti, "bshoststart", s); } #endif /* BS_DIAG */ #ifdef BS_STATICS bs_statics[ti->ti_id].select++; #endif /* BS_STATICS */ if (ti->ti_cfgflags & BS_SCSI_WAIT) { struct targ_info *tmpti; for (tmpti = bsc->sc_titab.tqh_first; tmpti; tmpti = tmpti->ti_tchain.tqe_next) if (tmpti->ti_phase >= DISCONNECTED) goto retry; } /* start selection */ ti->ti_status = ST_UNK; if (bs_check_sat(ti)) { if ((bshw_get_auxstat(bsc) & STR_BUSY) == 0) { BS_LOAD_SDP bshw_set_dst_id(bsc, ti->ti_id, ti->ti_lun); bshw_setup_ctrl_reg(bsc, ti->ti_cfgflags); bshw_cmd_pass(bsc, 0); bshw_set_sync_reg(bsc, ti->ti_sync); bshw_issue_satcmd(bsc, cb, bs_check_link(ti, cb)); if (bs_check_smit(ti) || bsc->sc_p.datalen <= 0) bshw_set_count(bsc, 0); else bs_dma_xfer(ti, BSHW_CMD_CHECK(cb, BSREAD)); s = splhigh(); if ((bshw_get_auxstat(bsc) & STR_BUSY) == 0) { /* XXX: * Reload a lun again here. */ bshw_set_lun(bsc, ti->ti_lun); bshw_start_sat(bsc, bs_check_disc(ti)); if ((bshw_get_auxstat(bsc) & STR_LCI) == 0) { splx(s); BS_HOST_START BS_SELECTION_START BS_SETUP_PHASE(SATSEL); ti->ti_omsgoutlen = 0; ti->ti_msgout = bs_identify_msg(ti); #ifdef BS_DIAG ti->ti_flags |= BSNEXUS; #endif /* BS_DIAG */ #ifdef BS_STATICS bs_statics[ti->ti_id].select_win++; #endif /* BS_STATICS */ return; } } splx(s); if (bs_check_smit(ti) == 0) bshw_dmaabort(bsc, ti); #ifdef BS_STATICS bs_statics[ti->ti_id].select_miss_in_assert++; #endif /* BS_STATICS */ } } else { s = splhigh(); if ((bshw_get_auxstat(bsc) & STR_BUSY) == 0) { bshw_set_dst_id(bsc, ti->ti_id, ti->ti_lun); bshw_setup_ctrl_reg(bsc, ti->ti_cfgflags); bshw_set_sync_reg(bsc, ti->ti_sync); bshw_assert_select(bsc); if ((bshw_get_auxstat(bsc) & STR_LCI) == 0) { splx(s); BS_HOST_START BS_SELECTION_START BS_SETUP_PHASE(SELECTASSERT); #ifdef BS_STATICS bs_statics[ti->ti_id].select_win++; #endif /* BS_STATICS */ return; } #ifdef BS_STATICS bs_statics[ti->ti_id].select_miss_in_assert++; #endif /* BS_STATICS */ } splx(s); } /* RETRY LATER */ retry: #ifdef BS_STATICS bs_statics[ti->ti_id].select_miss++; #endif /* BS_STATICS */ bs_hostque_head(bsc, ti); BS_SETUP_PHASE(HOSTQUEUE) } static BS_INLINE struct targ_info * bs_selected(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { if (bsc->sc_busstat != BSR_SELECTED) { bs_phase_error(ti, cb); return NULL; } #ifdef BS_DIAG if (bsc->sc_selwait != ti) panic("%s selection internal error\n", bsc->sc_dvname); ti->ti_flags |= BSNEXUS; #endif /* BS_DIAG */ /* clear select wait state */ BS_SETUP_PHASE(SELECTED); BS_SELECTION_TERMINATE; BS_LOAD_SDP return ti; } /************************************************** * **************************************************/ static BS_INLINE struct targ_info * bs_reselect(bsc) struct bs_softc *bsc; { u_int target; struct targ_info *ti; /* check collision */ if ((ti = bsc->sc_selwait) != NULL) { if (ti->ti_phase == SATSEL) { #ifdef BS_DIAG ti->ti_flags &= ~BSNEXUS; #endif /* BS_DIAG */ ti->ti_msgout = 0; if (bs_check_smit(ti) == 0) bshw_dmaabort(bsc, ti); } bs_hostque_head(bsc, ti); BS_SELECTION_TERMINATE BS_SETUP_PHASE(HOSTQUEUE) #ifdef BS_STATICS bs_statics[ti->ti_id].select_miss_by_reselect++; bs_statics[ti->ti_id].select_miss++; #endif /* BS_STATICS */ } /* who are you ? */ target = bshw_get_src_id(bsc); if ((ti = bsc->sc_ti[target]) == NULL) { bs_debug_print_all(bsc); printf("reselect: miss reselect. target(%d)\n", target); bs_reset_nexus(bsc); return NULL; } /* confirm nexus */ BS_HOST_START bshw_setup_ctrl_reg(bsc, ti->ti_cfgflags); if (ti->ti_ctab.tqh_first == NULL || ti->ti_phase != DISCONNECTED) { bs_printf(ti, "reselect", "phase mismatch"); BS_SETUP_PHASE(UNDEF) bs_force_abort(ti); bs_hostque_delete(bsc, ti); } else bsc->sc_dtgnum --; /* recover host */ bshw_set_dst_id(bsc, ti->ti_id, ti->ti_lun); bshw_set_sync_reg(bsc, ti->ti_sync); BS_RESTORE_SDP BS_SETUP_PHASE(RESELECTED) #ifdef BS_STATICS bs_statics[ti->ti_id].reselect++; #endif /* BS_STATICS */ return ti; } static BS_INLINE void bs_sat_continue(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { BS_SETUP_PHASE(SATRESEL); bshw_set_dst_id(bsc, ti->ti_id, ti->ti_lun); bshw_cmd_pass(bsc, 0x44); bshw_set_sync_reg(bsc, ti->ti_sync); bshw_issue_satcmd(bsc, cb, 0); if (bs_check_smit(ti) || bsc->sc_p.datalen <= 0) bshw_set_count(bsc, 0); else bs_dma_xfer(ti, BSHW_CMD_CHECK(cb, BSREAD)); bshw_set_lun(bsc, ti->ti_lun); /* XXX */ bshw_start_sat(bsc, 0); } /************************************************* * *************************************************/ #define DR (STR_BSY | STR_DBR) void bs_poll_timeout(bsc, s) struct bs_softc *bsc; char *s; { struct targ_info *ti; bs_printf(NULL, s, "timeout"); bsc->sc_flags |= BSRESET; if ((ti = bsc->sc_nexus) && ti->ti_ctab.tqh_first) ti->ti_error |= BSTIMEOUT; } static BS_INLINE u_int8_t bs_read_1byte(bsc) struct bs_softc *bsc; { register u_int wc; bshw_start_sxfer(bsc); for (wc = bsc->sc_wc; (bshw_get_auxstat(bsc) & DR) != DR && --wc; ); if (wc) return bshw_read_data(bsc); else bs_poll_timeout(bsc, "read_1byte"); return 0; } static BS_INLINE void bs_write_1byte(bsc, data) struct bs_softc *bsc; u_int8_t data; { register u_int wc; bshw_start_sxfer(bsc); for (wc = bsc->sc_wc; (bshw_get_auxstat(bsc) & DR) != DR && --wc; ); if (wc) bshw_write_data(bsc, data); else bs_poll_timeout(bsc, "write_1byte"); } static int bs_xfer(bsc, data, len) struct bs_softc *bsc; char *data; int len; { u_int8_t aux; u_int count, wc; bshw_set_count(bsc, len); bshw_start_xfer(bsc); for (count = 0, wc = bsc->sc_wc; count < len && --wc; ) { if (((aux = bshw_get_auxstat(bsc)) & DR) == DR) { if (bsc->sc_busstat & BSHW_READ) *(data++) = bshw_read_data(bsc); else bshw_write_data(bsc, *(data++)); count++; wc = bsc->sc_wc; } if (aux & STR_INT) break; } if (wc == 0) bs_poll_timeout(bsc, "bs_xfer"); return count; } #undef DR static void bs_io_xfer(ti) struct targ_info *ti; { struct bs_softc *bsc = ti->ti_bsc; struct sc_p *sp = &bsc->sc_p; u_int count, dummy; /* switch dma trasnfr mode */ bshw_set_poll_trans(bsc, ti->ti_cfgflags); sp->seglen = 0; sp->bufp = NULL; if (sp->datalen <= 0) { ti->ti_error |= BSDMAABNORMAL; dummy = 0; count = bs_xfer(bsc, (u_int8_t *) &dummy, 1); } else count = bs_xfer(bsc, sp->data, sp->datalen); sp->data += count; sp->datalen -= count; } /************************************************ * ************************************************/ static BS_INLINE void bs_commandout(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { u_int8_t scsi_cmd[16]; int len; BS_SETUP_PHASE(CMDPHASE); if (bs_check_link(ti, cb)) { bcopy(cb->cmd, scsi_cmd, cb->cmdlen); scsi_cmd[cb->cmdlen - 1] |= 0x01; len = bs_xfer(bsc, scsi_cmd, cb->cmdlen); } else len = bs_xfer(bsc, cb->cmd, cb->cmdlen); if (len != cb->cmdlen) ti->ti_error |= BSCMDABNORMAL; } /************************************************ * ************************************************/ static BS_INLINE void bs_status_check(bsc, ti) struct bs_softc *bsc; struct targ_info *ti; { if (ti->ti_status == ST_GOOD || ti->ti_status == ST_INTERGOOD) return; switch (ti->ti_status) { case ST_MET: case ST_INTERMET: case ST_CHKCOND: ti->ti_error |= BSREQSENSE; break; case ST_BUSY: ti->ti_error |= BSTARGETBUSY; break; default: ti->ti_error |= BSSTATUSERROR; break; } } /************************************************ * ************************************************/ #define MSGWAIT(cnt) { if (ti->ti_msginptr < (cnt)) return; } static void bs_quick_abort(ti, msg) struct targ_info *ti; u_int msg; { struct ccb *cb; if ((cb = ti->ti_ctab.tqh_first) == NULL) return; cb->msgoutlen = 1; cb->msgout[0] = msg; cb->rcnt++; ti->ti_error |= BSMSGERROR; } static void bs_msgin_error(ti, count) struct targ_info *ti; u_int count; { int n; MSGWAIT(count); bs_printf(ti, "msgin", "illegal msg"); for (n = 0; n < ti->ti_msginptr; n ++) printf("[0x%x] ", (u_int) ti->ti_msgin[n]); printf("\n"); bs_quick_abort(ti, MSG_REJECT); ti->ti_msginptr = 0; } static void bs_msgin_ext(ti) struct targ_info *ti; { struct bs_softc *bsc = ti->ti_bsc; struct ccb *cb = ti->ti_ctab.tqh_first; int count; u_int reqlen; u_int32_t *ptr; struct msgbase msg; MSGWAIT(2); reqlen = ti->ti_msgin[1]; if (reqlen == 0) reqlen = 256; if (ti->ti_msginptr >= MAXMSGLEN) ti->ti_msginptr = 3; /* XXX */ MSGWAIT(reqlen + 2); switch (MKMSG_EXTEND(ti->ti_msgin[1], ti->ti_msgin[2])) { case MKMSG_EXTEND(MSG_EXTEND_MDPLEN, MSG_EXTEND_MDPCODE): ptr = (u_int32_t *)(&ti->ti_msgin[3]); count = (int) htonl((long) (*ptr)); bsc->sc_p.seglen = ti->ti_scsp.seglen = 0; if (bsc->sc_p.datalen - count >= 0 && bsc->sc_p.datalen - count <= cb->datalen) { bsc->sc_p.datalen -= count; bsc->sc_p.data += count; } else bs_msgin_error(ti, 7); break; case MKMSG_EXTEND(MSG_EXTEND_SYNCHLEN, MSG_EXTEND_SYNCHCODE): ti->ti_syncnow.period = ti->ti_msgin[3]; ti->ti_syncnow.offset = ti->ti_msgin[4]; if (ti->ti_syncnow.offset == 0) ti->ti_syncnow.period = 0; if (ti->ti_syncnow.state != BS_SYNCMSG_ASSERT) { bs_start_syncmsg(ti, NULL, BS_SYNCMSG_REQUESTED); bscmdstart(ti, BSCMDSTART); } else BS_SETUP_SYNCSTATE(BS_SYNCMSG_ACCEPT) break; case MKMSG_EXTEND(MSG_EXTEND_WIDELEN, MSG_EXTEND_WIDECODE): msg.msglen = MSG_EXTEND_WIDELEN + 2; msg.msg[0] = MSG_EXTEND; msg.msg[1] = MSG_EXTEND_WIDELEN; msg.msg[2] = MSG_EXTEND_WIDECODE; msg.msg[3] = 0; msg.flag = 0; bs_make_msg_ccb(ti, cb->lun, cb, &msg, 0); break; default: bs_msgin_error(ti, 0); return; } ti->ti_msginptr = 0; return; } static void bs_msg_reject(ti) struct targ_info *ti; { struct bs_softc *bsc = ti->ti_bsc; struct ccb *cb = ti->ti_ctab.tqh_first; char *s = "unexpected msg reject"; switch (ti->ti_ophase) { case CMDPHASE: s = "cmd rejected"; cb->flags &= ~BSLINK; BS_SETUP_MSGPHASE(IOCOMPLETED); break; case MSGOUT: if (ti->ti_msgout & 0x80) { s = "identify msg rejected"; cb->flags &= ~BSDISC; BS_SETUP_MSGPHASE(IOCOMPLETED); } else if (ti->ti_msgout == MSG_EXTEND) { switch (ti->ti_emsgout) { case MSG_EXTEND_SYNCHCODE: BS_SETUP_SYNCSTATE(BS_SYNCMSG_REJECT); return; default: break; } } break; default: break; } bs_debug_print(bsc, ti); bs_printf(ti, "msgin", s); ti->ti_error |= BSMSGERROR; } static BS_INLINE void bs_msgin(bsc, ti) struct bs_softc *bsc; struct targ_info *ti; { BS_SETUP_PHASE(MSGIN); switch (ti->ti_msgin[0]) { case MSG_SAVESP: BS_SAVE_SDP break; case MSG_RESTORESP: BS_RESTORE_SDP bs_printf(ti, "msgin", "restore scsi pointer"); break; case MSG_REJECT: bs_msg_reject(ti); break; case 0xf: break; case MSG_I_ERROR:/* all I -> T : nothing to do*/ case MSG_ABORT: case MSG_PARITY: case MSG_RESET: case 0xe: bs_msgin_error(ti, 1); goto resume; case MSG_NOOP: break; case MSG_EXTEND: bs_msgin_ext(ti); goto resume; case 0xd: bs_msgin_error(ti, 2); goto resume; case MSG_DISCON: BS_SETUP_MSGPHASE(DISCONNECTASSERT); break; case MSG_COMP: BS_SETUP_MSGPHASE(IOCOMPLETED); break; case MSG_LCOMP: case MSG_LCOMP_F: bs_status_check(bsc, ti); if (bscmddone(ti) == NULL) { if (bscmdstart(ti, BSCMDSTART) == 0) { bs_printf(ti, "msgin", "cmd line miss"); bs_force_abort(ti); } } else bscmdstart(ti, BSCMDRESTART); #ifdef BS_STATICS bs_linkcmd_count[ti->ti_id]++; #endif /* BS_STATICS */ BS_LOAD_SDP ti->ti_status = ST_UNK; break; default: if (ti->ti_msgin[0] & 0x80) { if ((ti->ti_msgin[0] & 0x07) != ti->ti_lun) { ti->ti_lun = (ti->ti_msgin[0] & 0x07); bshw_set_dst_id(bsc, ti->ti_id, ti->ti_lun); bshw_set_sync_reg(bsc, ti->ti_sync); bs_printf(ti, "msgin", "lun error"); bs_quick_abort(ti, MSG_ABORT); } break; } else if (ti->ti_msgin[0] < 0x20) bs_msgin_error(ti, 1); else if (ti->ti_msgin[0] < 0x30) bs_msgin_error(ti, 2); else bs_msgin_error(ti, 1); goto resume; } ti->ti_msginptr = 0; resume: return; } /************************************************ * ************************************************/ static BS_INLINE void bs_msgout(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { u_int8_t msg[MAXMSGLEN + 1]; if (ti->ti_phase == MSGOUT) { if (cb->rcnt ++ < bsc->sc_retry) cb->msgoutlen = ti->ti_omsgoutlen; } else BS_SETUP_PHASE(MSGOUT); if (ti->ti_ophase == SELECTED) { identify: if (cb->msgoutlen == 0) { ti->ti_msgout = bs_identify_msg(ti); ti->ti_omsgoutlen = 0; bs_write_1byte(bsc, ti->ti_msgout); } else { if (cb->msgout[0] != MSG_RESET && cb->msgout[0] != MSG_ABORT) { msg[0] = bs_identify_msg(ti); bcopy(cb->msgout, &msg[1], cb->msgoutlen); bs_xfer(bsc, msg, cb->msgoutlen + 1); } else bs_xfer(bsc, cb->msgout, cb->msgoutlen); ti->ti_msgout = cb->msgout[0]; ti->ti_emsgout = cb->msgout[2]; ti->ti_omsgoutlen = cb->msgoutlen; cb->msgoutlen = 0; } return; } if (ti->ti_ophase == SATSEL) { /* XXX: * Maybe identify msg rejected due to * a parity error in target side. */ bs_printf(ti, "msgout", "msg identify retry (SAT)"); goto identify; } if (cb->msgoutlen == 0) { ti->ti_msgout = MSG_REJECT; ti->ti_omsgoutlen = 0; bs_write_1byte(bsc, ti->ti_msgout); } else { ti->ti_msgout = cb->msgout[0]; ti->ti_emsgout = cb->msgout[2]; ti->ti_omsgoutlen = cb->msgoutlen; bs_xfer(bsc, cb->msgout, cb->msgoutlen); cb->msgoutlen = 0; } } /************************************************ * ************************************************/ static BS_INLINE void bs_disconnect_phase(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { switch (bsc->sc_msgphase) { default: panic("%s unknown msg phase\n", bsc->sc_dvname); break; case DISCONNECTASSERT: case FREE: #ifdef BS_STATICS bs_statics[ti->ti_id].disconnected++; #endif /* BS_STATICS */ if (ti->ti_cfgflags & BS_SCSI_SAVESP) BS_SAVE_SDP; BS_HOST_TERMINATE; BS_SETUP_PHASE(DISCONNECTED); bsc->sc_dtgnum ++; bshoststart(bsc, NULL); break; case IOCOMPLETED: bs_status_check(bsc, ti); cb = bscmddone(ti); #ifdef BS_DIAG ti->ti_flags &= ~BSNEXUS; #endif /* BS_DIAG */ BS_SETUP_PHASE(FREE); if (cb || bsc->sc_sttab.tqh_first == NULL) { BS_HOST_TERMINATE; bscmdstart(ti, BSCMDSTART); } else { /* give a chance to other target */ bscmdstart(ti, BSCMDSTART); BS_HOST_TERMINATE; bshoststart(bsc, NULL); } break; } BS_SETUP_MSGPHASE(FREE); } /************************************************** * **************************************************/ #define scsi_status (bsc->sc_busstat) struct bs_err { u_char *pe_msg; u_int pe_err; u_int pe_ph; }; struct bs_err bs_cmderr[] = { /*0*/ { "illegal cmd", BSABNORMAL, UNDEF }, /*1*/ { "unexpected bus free", BSABNORMAL, FREE }, /*2*/ { NULL, BSSELTIMEOUT, FREE}, /*3*/ { "scsi bus parity error", BSPARITY, UNDEF }, /*4*/ { "scsi bus parity error", BSPARITY, UNDEF }, /*5*/ { "unknown" , BSFATALIO, UNDEF }, /*6*/ { "miss reselection (target mode)", BSFATALIO, UNDEF }, /*7*/ { "wrong status byte", BSPARITY, STATUSIN }, }; static void bs_phase_error(ti, cb) struct targ_info *ti; struct ccb *cb; { struct bs_softc *bsc = ti->ti_bsc; struct bs_err *pep; if ((scsi_status & BSR_CM) == BSR_CMDERR && (scsi_status & BSR_PHVALID) == 0) { pep = &bs_cmderr[scsi_status & BSR_PM]; ti->ti_error |= pep->pe_err; if (pep->pe_msg) { bs_debug_print(bsc, ti); bs_printf(ti, "bsintr", pep->pe_msg); } BS_SETUP_PHASE(pep->pe_ph); } else { ti->ti_error |= BSABNORMAL; bs_debug_print(bsc, ti); bs_printf(ti, "bsintr", "phase error"); BS_SETUP_PHASE(UNDEF); } BS_SETUP_MSGPHASE(FREE); switch (ti->ti_phase) { case FREE: BS_SETUP_PHASE(UNDEF); cb = bscmddone(ti); #ifdef BS_DIAG ti->ti_flags &= ~BSNEXUS; #endif /* BS_DIAG */ BS_HOST_TERMINATE; BS_SETUP_PHASE(FREE); bscmdstart(ti, ((cb == NULL) ? BSCMDSTART : BSCMDRESTART)); break; case STATUSIN: ti->ti_error |= BSSTATUSERROR; ti->ti_status = bshw_get_status_insat(bsc); /* XXX SAT */ bs_debug_print(bsc, ti); break; case UNDEF: default: ti->ti_error |= BSABNORMAL; bs_reset_nexus(bsc); break; } } /************************************************** * ### SCSI PHASE SEQUENCER ### **************************************************/ static inline void bs_ack_wait __P((struct bs_softc *, struct targ_info *, struct ccb *)); static inline void bs_ack_wait(bsc, ti, cb) struct bs_softc *bsc; struct targ_info *ti; struct ccb *cb; { int wc = bsc->sc_wc; for (wc = bsc->sc_wc; bshw_get_busstat(bsc) != BSR_ACKREQ && wc > 0; ) wc --; if (wc <= 0) { bs_printf(ti, "bs_ack_wait", "timeout I"); return; } bshw_get_auxstat(bsc); scsi_status = bshw_get_busstat(bsc); if (cb->msgoutlen > 0) { bshw_assert_atn(bsc); delay(800); BS_SETUP_PHASE(ATTENTIONASSERT); } bshw_negate_ack(bsc); #ifdef WAITNEXTP for (wc = bsc->sc_wc; bshw_get_busstat(bsc) == BSR_ACKREQ && wc > 0; ) wc --; if (wc <= 0) bs_printf(ti, "bs_ack_wait", "timeout II"); #endif /* WAITNEXTP */ } int bs_sequencer(bsc) struct bs_softc *bsc; { register struct targ_info *ti; struct ccb *cb; /************************************************** * Check reset **************************************************/ if (bsc->sc_flags & (BSRESET | BSINACTIVE)) { if (bsc->sc_flags & BSRESET) bs_reset_nexus(bsc); return 1; } /************************************************** * Get status & bus phase **************************************************/ if ((bshw_get_auxstat(bsc) & STR_INT) == 0) return 0; scsi_status = bshw_get_busstat(bsc); if (scsi_status == ((u_int8_t) -1)) { bs_debug_print_all(bsc); return 1; } /************************************************** * Check reselection, or nexus **************************************************/ if (scsi_status == BSR_RESEL) { bs_reselect(bsc); return 1; } ti = bsc->sc_nexus; if (ti == NULL || (cb = ti->ti_ctab.tqh_first) == NULL) { bs_debug_print_all(bsc); bs_printf(ti, "bsintr", "no nexus"); bs_reset_nexus(bsc); return 1; } /************************************************** * Debug section **************************************************/ #ifdef BS_DEBUG if (bs_debug_flag) { bs_debug_print(bsc, ti); if (bs_debug_flag > 1) Debugger(); } #endif /* BS_DEBUG */ /************************************************** * internal scsi phase **************************************************/ switch (ti->ti_phase) { case SELECTASSERT: bs_selected(bsc, ti, cb); return 1; case SATSEL: BS_SELECTION_TERMINATE; case SATRESEL: if (bsc->sc_flags & (BSDMASTART | BSSMITSTART)) { if (bsc->sc_flags & BSSMITSTART) { bs_debug_print_all(bsc); bs_reset_nexus(bsc); bs_printf(ti, "bsintr", "smit transfer"); return 1; } BS_SETUP_PHASE(DATAPHASE); /* XXX */ bs_dma_xfer_end(ti); ti->ti_phase = ti->ti_ophase; /* XXX */ } break; default: /* XXX: * check check check for safty !! */ if (bsc->sc_selwait) { /* Ghaaa! phase error! retry! */ bs_phase_error(ti, cb); return 1; } if (bsc->sc_flags & (BSDMASTART | BSSMITSTART)) { if (bsc->sc_flags & BSDMASTART) bs_dma_xfer_end(ti); else bs_smit_xfer_end(ti); } break; } /************************************************** * hw scsi phase **************************************************/ if (scsi_status & BSR_PHVALID) { /************************************************** * Normal SCSI phase. **************************************************/ if ((scsi_status & BSR_CM) == BSR_CMDABT) { bs_phase_error(ti, cb); return 1; } switch (scsi_status & BSR_PM) { case BSR_DATAOUT: case BSR_DATAIN: BS_SETUP_PHASE(DATAPHASE); if (bsc->sc_p.datalen <= 0 || (ti->ti_flags & BSFORCEIOPOLL)) { bs_io_xfer(ti); return 1; } if (bs_check_smit(ti) && (bsc->sc_p.datalen % sizeof(u_int32_t)) == 0) { bs_lc_smit_xfer(ti, scsi_status & BSR_IOR); return 1; } bs_dma_xfer(ti, scsi_status & BSR_IOR); bshw_start_xfer(bsc); return 1; case BSR_CMDOUT: bs_commandout(bsc, ti, cb); return 1; case BSR_STATIN: if (bs_check_sat(ti)) { BS_SETUP_PHASE(SATCOMPSEQ); bshw_set_count(bsc, 0); bshw_cmd_pass(bsc, 0x41); bshw_start_sat(bsc, 0); } else { BS_SETUP_PHASE(STATUSIN); ti->ti_status = bs_read_1byte(bsc); } return 1; case BSR_UNSPINFO0: case BSR_UNSPINFO1: bs_debug_print(bsc, ti); bs_printf(ti, "bsintr", "illegal bus phase"); return 1; case BSR_MSGOUT: bs_msgout(bsc, ti, cb); return 1; case BSR_MSGIN:/* msg in */ if (bs_check_sat(ti)) { if (ti->ti_phase == RESELECTED) { bs_sat_continue(bsc, ti, cb); return 1; } /* XXX */ if (ti->ti_status == ST_UNK) ti->ti_status = bshw_get_status_insat(bsc); } ti->ti_msgin[ti->ti_msginptr ++] = bs_read_1byte(bsc); bs_msgin(bsc, ti); if (bsc->sc_cfgflags & BSC_FASTACK) bs_ack_wait(bsc, ti, cb); return 1; } } else { /************************************************** * Special SCSI phase **************************************************/ switch (scsi_status) { case BSR_SATSDP:/* SAT with save data pointer */ BS_SAVE_SDP bshw_cmd_pass(bsc, 0x41); bshw_start_sat(bsc, 0); BS_SETUP_PHASE(SATSDP) return 1; case BSR_SATFIN:/* SAT COMPLETE */ ti->ti_status = bshw_get_status_insat(bsc); BS_SETUP_MSGPHASE(IOCOMPLETED); bs_disconnect_phase(bsc, ti, cb); return 1; case BSR_ACKREQ:/* negate ACK */ if (cb->msgoutlen > 0) { bshw_assert_atn(bsc); delay(800); BS_SETUP_PHASE(ATTENTIONASSERT); } bshw_negate_ack(bsc); return 1; case BSR_DISC:/* disconnect */ bs_disconnect_phase(bsc, ti, cb); return 1; default: break; } } bs_phase_error(ti, cb); return 1; } /***************************************************************** * INTERNAL POLLING FUNCTIONS *****************************************************************/ static int bs_scsi_cmd_poll_internal(cti) struct targ_info *cti; { struct bs_softc *bsc = cti->ti_bsc; struct targ_info *ti; struct ccb *cb; int i, waits, delay_count; bsc->sc_poll++; /* setup timeout count */ if ((ti = bsc->sc_nexus) == NULL || (cb = ti->ti_ctab.tqh_first) == NULL) waits = BS_DEFAULT_TIMEOUT_SECOND * 1000000; else waits = cb->tcmax * 1000000; /* force all current jobs into the polling state. */ for (i = 0; i < NTARGETS; i++) { if ((ti = bsc->sc_ti[i]) != NULL) { ti->ti_flags |= BSFORCEIOPOLL; if ((cb = ti->ti_ctab.tqh_first) != NULL) cb->flags |= BSFORCEIOPOLL; } } /* do io */ bsc->sc_flags &= ~BSJOBDONE; do { delay_count = ((bsc->sc_flags & BSDMASTART) ? 1000000 : 100); delay(delay_count); waits -= delay_count; bs_sequencer(bsc); } while (waits >= 0 && (bsc->sc_flags & (BSUNDERRESET | BSJOBDONE)) == 0); /* done */ bsc->sc_poll--; if (waits < 0 || (bsc->sc_flags & BSUNDERRESET)) { bs_printf(NULL, "cmd_poll", "timeout or fatal"); return HASERROR; } return COMPLETE; } int bs_scsi_cmd_poll(cti, targetcb) struct targ_info *cti; struct ccb *targetcb; { struct bs_softc *bsc = cti->ti_bsc; struct targ_info *ti; int s, error = COMPLETE; s = splbio(); bs_terminate_timeout(bsc); if (bsc->sc_hstate == BSC_TARG_CHECK) { if ((error = bs_scsi_cmd_poll_internal(cti)) != COMPLETE) bs_reset_nexus(bsc); } else { if (bsc->sc_outccb) bs_panic(bsc, "bs_cmd_poll: internal error"); bsc->sc_flags &= ~BSPOLLDONE; bsc->sc_outccb = targetcb; while ((bsc->sc_flags & BSPOLLDONE) == 0) { if (bs_scsi_cmd_poll_internal(cti) != COMPLETE) { if ((ti = bsc->sc_nexus) && ti->ti_ctab.tqh_first) ti->ti_error |= (BSTIMEOUT | BSABNORMAL); bs_reset_nexus(bsc); } } bsc->sc_outccb = NULL; } bs_start_timeout(bsc); softintr(bsc->sc_irq); splx(s); return error; }