141480Smckusick /* 241480Smckusick * Copyright (c) 1990 The Regents of the University of California. 341480Smckusick * All rights reserved. 441480Smckusick * 541480Smckusick * This code is derived from software contributed to Berkeley by 641480Smckusick * Van Jacobson of Lawrence Berkeley Laboratory. 741480Smckusick * 841480Smckusick * %sccs.include.redist.c% 941480Smckusick * 10*45514Smckusick * @(#)scsi.c 7.2 (Berkeley) 11/04/90 1141480Smckusick */ 1241480Smckusick 1341480Smckusick /* 1441480Smckusick * HP9000/3xx 98658 SCSI host adaptor driver. 1541480Smckusick */ 1641480Smckusick #include "scsi.h" 1741480Smckusick #if NSCSI > 0 1841480Smckusick 1941480Smckusick #ifndef lint 20*45514Smckusick static char rcsid[] = "$Header: scsi.c,v 1.3 90/10/10 14:55:08 mike Exp $"; 2141480Smckusick #endif 2241480Smckusick 2341480Smckusick #include "param.h" 2441480Smckusick #include "systm.h" 2541480Smckusick #include "buf.h" 2641480Smckusick #include "device.h" 2741480Smckusick #include "scsivar.h" 2841480Smckusick #include "scsireg.h" 2941480Smckusick #include "dmavar.h" 3041480Smckusick 3141480Smckusick #include "machine/cpu.h" 3241480Smckusick #include "machine/isr.h" 3341480Smckusick 3441480Smckusick extern void isrlink(); 3541480Smckusick extern void printf(); 3641480Smckusick extern void _insque(); 3741480Smckusick extern void _remque(); 3841480Smckusick extern void bzero(); 3941480Smckusick 4041480Smckusick int scsiinit(), scsigo(), scsiintr(), scsixfer(); 4141480Smckusick void scsistart(), scsidone(), scsifree(), scsireset(); 4241480Smckusick struct driver scsidriver = { 4341480Smckusick scsiinit, "scsi", (int (*)())scsistart, scsigo, scsiintr, 4441480Smckusick (int (*)())scsidone, 4541480Smckusick }; 4641480Smckusick 4741480Smckusick struct scsi_softc scsi_softc[NSCSI]; 4841480Smckusick struct isr scsi_isr[NSCSI]; 4941480Smckusick 5041480Smckusick int scsi_cmd_wait = 512; /* microsec wait per step of 'immediate' cmds */ 5141480Smckusick int scsi_data_wait = 512; /* wait per data in/out step */ 5241480Smckusick int scsi_nosync = 1; /* inhibit sync xfers if 1 */ 53*45514Smckusick int scsi_pridma = 0; /* use "priority" dma */ 5441480Smckusick 5541480Smckusick #ifdef DEBUG 5641480Smckusick int scsi_debug = 0; 5741480Smckusick #define WAITHIST 5841480Smckusick #endif 5941480Smckusick 6041480Smckusick #ifdef WAITHIST 61*45514Smckusick #define MAXWAIT 1022 6241480Smckusick u_int ixstart_wait[MAXWAIT+2]; 6341480Smckusick u_int ixin_wait[MAXWAIT+2]; 6441480Smckusick u_int ixout_wait[MAXWAIT+2]; 6541480Smckusick u_int mxin_wait[MAXWAIT+2]; 6641480Smckusick u_int cxin_wait[MAXWAIT+2]; 6741480Smckusick u_int fxfr_wait[MAXWAIT+2]; 6841480Smckusick u_int sgo_wait[MAXWAIT+2]; 6941480Smckusick #define HIST(h,w) (++h[((w)>MAXWAIT? MAXWAIT : ((w) < 0 ? -1 : (w))) + 1]); 7041480Smckusick #else 7141480Smckusick #define HIST(h,w) 7241480Smckusick #endif 7341480Smckusick 7441480Smckusick #define b_cylin b_resid 7541480Smckusick 7641480Smckusick static void 7741480Smckusick scsiabort(hs, hd, where) 7841480Smckusick register struct scsi_softc *hs; 7941480Smckusick volatile register struct scsidevice *hd; 8041480Smckusick char *where; 8141480Smckusick { 8241480Smckusick int len; 8341480Smckusick u_char junk; 8441480Smckusick 8541480Smckusick printf("scsi%d: abort from %s: phase=0x%x, ssts=0x%x, ints=0x%x\n", 8641480Smckusick hs->sc_hc->hp_unit, where, hd->scsi_psns, hd->scsi_ssts, 8741480Smckusick hd->scsi_ints); 8841480Smckusick 8941480Smckusick hd->scsi_ints = hd->scsi_ints; 9041480Smckusick hd->scsi_csr = 0; 9141480Smckusick if (hd->scsi_psns == 0 || (hd->scsi_ssts & SSTS_INITIATOR) == 0) 9241480Smckusick /* no longer connected to scsi target */ 9341480Smckusick return; 9441480Smckusick 9541480Smckusick /* get the number of bytes remaining in current xfer + fudge */ 9641480Smckusick len = (hd->scsi_tch << 16) | (hd->scsi_tcm << 8) | hd->scsi_tcl; 9741480Smckusick 9841480Smckusick /* for that many bus cycles, try to send an abort msg */ 9941480Smckusick for (len += 1024; (hd->scsi_ssts & SSTS_INITIATOR) && --len >= 0; ) { 10041480Smckusick hd->scsi_scmd = SCMD_SET_ATN; 10141480Smckusick while ((hd->scsi_psns & PSNS_REQ) == 0) { 10241480Smckusick if (! (hd->scsi_ssts & SSTS_INITIATOR)) 10341480Smckusick goto out; 10441480Smckusick DELAY(1); 10541480Smckusick } 10641480Smckusick if ((hd->scsi_psns & PHASE) == MESG_OUT_PHASE) 10741480Smckusick hd->scsi_scmd = SCMD_RST_ATN; 10841480Smckusick hd->scsi_pctl = hd->scsi_psns & PHASE; 10941480Smckusick if (hd->scsi_psns & PHASE_IO) { 11041480Smckusick /* one of the input phases - read & discard a byte */ 11141480Smckusick hd->scsi_scmd = SCMD_SET_ACK; 11241480Smckusick if (hd->scsi_tmod == 0) 11341480Smckusick while (hd->scsi_psns & PSNS_REQ) 11441480Smckusick DELAY(1); 11541480Smckusick junk = hd->scsi_temp; 11641480Smckusick } else { 11741480Smckusick /* one of the output phases - send an abort msg */ 11841480Smckusick hd->scsi_temp = MSG_ABORT; 11941480Smckusick hd->scsi_scmd = SCMD_SET_ACK; 12041480Smckusick if (hd->scsi_tmod == 0) 12141480Smckusick while (hd->scsi_psns & PSNS_REQ) 12241480Smckusick DELAY(1); 12341480Smckusick } 12441480Smckusick hd->scsi_scmd = SCMD_RST_ACK; 12541480Smckusick } 12641480Smckusick out: 12741480Smckusick /* 12841480Smckusick * Either the abort was successful & the bus is disconnected or 12941480Smckusick * the device didn't listen. If the latter, announce the problem. 13041480Smckusick * Either way, reset the card & the SPC. 13141480Smckusick */ 13241480Smckusick if (len < 0 && hs) 13341480Smckusick printf("scsi%d: abort failed. phase=0x%x, ssts=0x%x\n", 13441480Smckusick hs->sc_hc->hp_unit, hd->scsi_psns, hd->scsi_ssts); 13541480Smckusick 13641480Smckusick if (! ((junk = hd->scsi_ints) & INTS_RESEL)) { 13741480Smckusick hd->scsi_sctl |= SCTL_CTRLRST; 13841480Smckusick DELAY(1); 13941480Smckusick hd->scsi_sctl &=~ SCTL_CTRLRST; 14041480Smckusick hd->scsi_hconf = 0; 14141480Smckusick hd->scsi_ints = hd->scsi_ints; 14241480Smckusick } 14341480Smckusick } 14441480Smckusick 14541480Smckusick int 14641480Smckusick scsiinit(hc) 14741480Smckusick register struct hp_ctlr *hc; 14841480Smckusick { 14941480Smckusick register struct scsi_softc *hs = &scsi_softc[hc->hp_unit]; 15041480Smckusick register struct scsidevice *hd = (struct scsidevice *)hc->hp_addr; 15141480Smckusick 15241480Smckusick if ((hd->scsi_id & ID_MASK) != SCSI_ID) 15341480Smckusick return(0); 15441480Smckusick hc->hp_ipl = SCSI_IPL(hd->scsi_csr); 15541480Smckusick hs->sc_hc = hc; 15641480Smckusick hs->sc_dq.dq_unit = hc->hp_unit; 15741480Smckusick hs->sc_dq.dq_driver = &scsidriver; 15841480Smckusick hs->sc_sq.dq_forw = hs->sc_sq.dq_back = &hs->sc_sq; 15941480Smckusick scsi_isr[hc->hp_unit].isr_intr = scsiintr; 16041480Smckusick scsi_isr[hc->hp_unit].isr_ipl = hc->hp_ipl; 16141480Smckusick scsi_isr[hc->hp_unit].isr_arg = hc->hp_unit; 16241480Smckusick isrlink(&scsi_isr[hc->hp_unit]); 16341480Smckusick scsireset(hc->hp_unit); 16441480Smckusick return(1); 16541480Smckusick } 16641480Smckusick 16741480Smckusick void 16841480Smckusick scsireset(unit) 16941480Smckusick register int unit; 17041480Smckusick { 17141480Smckusick register struct scsi_softc *hs = &scsi_softc[unit]; 17241480Smckusick volatile register struct scsidevice *hd = 17341480Smckusick (struct scsidevice *)hs->sc_hc->hp_addr; 17441480Smckusick u_int i; 17541480Smckusick 17641480Smckusick if (hs->sc_flags & SCSI_ALIVE) 17741480Smckusick scsiabort(hs, hd, "reset"); 17841480Smckusick 17941480Smckusick printf("scsi%d: ", unit); 18041480Smckusick 18141480Smckusick hd->scsi_id = 0xFF; 18241480Smckusick DELAY(100); 18341480Smckusick /* 18441480Smckusick * Disable interrupts then reset the FUJI chip. 18541480Smckusick */ 18641480Smckusick hd->scsi_csr = 0; 18741480Smckusick hd->scsi_sctl = SCTL_DISABLE | SCTL_CTRLRST; 18841480Smckusick hd->scsi_scmd = 0; 18941480Smckusick hd->scsi_tmod = 0; 19041480Smckusick hd->scsi_pctl = 0; 19141480Smckusick hd->scsi_temp = 0; 19241480Smckusick hd->scsi_tch = 0; 19341480Smckusick hd->scsi_tcm = 0; 19441480Smckusick hd->scsi_tcl = 0; 19541480Smckusick hd->scsi_ints = 0; 19641480Smckusick 19741480Smckusick if ((hd->scsi_id & ID_WORD_DMA) == 0) { 19841480Smckusick hs->sc_flags |= SCSI_DMA32; 19941480Smckusick printf("32 bit dma, "); 20041480Smckusick } 20141480Smckusick 20241480Smckusick /* Determine Max Synchronous Transfer Rate */ 20341480Smckusick if (scsi_nosync) 20441480Smckusick i = 3; 20541480Smckusick else 20641480Smckusick i = SCSI_SYNC_XFER(hd->scsi_hconf); 20741480Smckusick switch (i) { 20841480Smckusick case 0: 20941480Smckusick hs->sc_sync = TMOD_SYNC | 0x3e; /* 250 nsecs */ 21041480Smckusick printf("250ns sync"); 21141480Smckusick break; 21241480Smckusick case 1: 21341480Smckusick hs->sc_sync = TMOD_SYNC | 0x5e; /* 375 nsecs */ 21441480Smckusick printf("375ns sync"); 21541480Smckusick break; 21641480Smckusick case 2: 21741480Smckusick hs->sc_sync = TMOD_SYNC | 0x7d; /* 500 nsecs */ 21841480Smckusick printf("500ns sync"); 21941480Smckusick break; 22041480Smckusick case 3: 22141480Smckusick hs->sc_sync = 0; 22241480Smckusick printf("async"); 22341480Smckusick break; 22441480Smckusick } 22541480Smckusick 22641480Smckusick /* 22741480Smckusick * Configure the FUJI chip with its SCSI address, all 22841480Smckusick * interrupts enabled & appropriate parity. 22941480Smckusick */ 23041480Smckusick i = (~hd->scsi_hconf) & 0x7; 23141480Smckusick hs->sc_scsi_addr = 1 << i; 23241480Smckusick hd->scsi_bdid = i; 23341480Smckusick if (hd->scsi_hconf & HCONF_PARITY) 23441480Smckusick hd->scsi_sctl = SCTL_DISABLE | SCTL_ABRT_ENAB | 23541480Smckusick SCTL_SEL_ENAB | SCTL_RESEL_ENAB | 23641480Smckusick SCTL_INTR_ENAB | SCTL_PARITY_ENAB; 23741480Smckusick else { 23841480Smckusick hd->scsi_sctl = SCTL_DISABLE | SCTL_ABRT_ENAB | 23941480Smckusick SCTL_SEL_ENAB | SCTL_RESEL_ENAB | 24041480Smckusick SCTL_INTR_ENAB; 24141480Smckusick printf(", no parity"); 24241480Smckusick } 24341480Smckusick hd->scsi_sctl &=~ SCTL_DISABLE; 24441480Smckusick 24541480Smckusick printf(", scsi id %d\n", i); 24641480Smckusick hs->sc_flags |= SCSI_ALIVE; 24741480Smckusick } 24841480Smckusick 24941480Smckusick static void 25041480Smckusick scsierror(hs, hd, ints) 25141480Smckusick register struct scsi_softc *hs; 25241480Smckusick volatile register struct scsidevice *hd; 25341480Smckusick u_char ints; 25441480Smckusick { 25541480Smckusick int unit = hs->sc_hc->hp_unit; 25641480Smckusick char *sep = ""; 25741480Smckusick 25841480Smckusick printf("scsi%d: ", unit); 25941480Smckusick if (ints & INTS_RST) { 26041480Smckusick DELAY(100); 26141480Smckusick if (hd->scsi_hconf & HCONF_SD) 26241480Smckusick printf("spurious RST interrupt"); 26341480Smckusick else 26441480Smckusick printf("hardware error - check fuse"); 26541480Smckusick sep = ", "; 26641480Smckusick } 26741480Smckusick if ((ints & INTS_HARD_ERR) || hd->scsi_serr) { 26841480Smckusick if (hd->scsi_serr & SERR_SCSI_PAR) { 26941480Smckusick printf("%sparity err", sep); 27041480Smckusick sep = ", "; 27141480Smckusick } 27241480Smckusick if (hd->scsi_serr & SERR_SPC_PAR) { 27341480Smckusick printf("%sSPC parity err", sep); 27441480Smckusick sep = ", "; 27541480Smckusick } 27641480Smckusick if (hd->scsi_serr & SERR_TC_PAR) { 27741480Smckusick printf("%sTC parity err", sep); 27841480Smckusick sep = ", "; 27941480Smckusick } 28041480Smckusick if (hd->scsi_serr & SERR_PHASE_ERR) { 28141480Smckusick printf("%sphase err", sep); 28241480Smckusick sep = ", "; 28341480Smckusick } 28441480Smckusick if (hd->scsi_serr & SERR_SHORT_XFR) { 28541480Smckusick printf("%ssync short transfer err", sep); 28641480Smckusick sep = ", "; 28741480Smckusick } 28841480Smckusick if (hd->scsi_serr & SERR_OFFSET) { 28941480Smckusick printf("%ssync offset error", sep); 29041480Smckusick sep = ", "; 29141480Smckusick } 29241480Smckusick } 29341480Smckusick if (ints & INTS_TIMEOUT) 29441480Smckusick printf("%sSPC select timeout error", sep); 29541480Smckusick if (ints & INTS_SRV_REQ) 29641480Smckusick printf("%sspurious SRV_REQ interrupt", sep); 29741480Smckusick if (ints & INTS_CMD_DONE) 29841480Smckusick printf("%sspurious CMD_DONE interrupt", sep); 29941480Smckusick if (ints & INTS_DISCON) 30041480Smckusick printf("%sspurious disconnect interrupt", sep); 30141480Smckusick if (ints & INTS_RESEL) 30241480Smckusick printf("%sspurious reselect interrupt", sep); 30341480Smckusick if (ints & INTS_SEL) 30441480Smckusick printf("%sspurious select interrupt", sep); 30541480Smckusick printf("\n"); 30641480Smckusick } 30741480Smckusick 30841480Smckusick static int 30941480Smckusick issue_select(hd, target, our_addr) 31041480Smckusick volatile register struct scsidevice *hd; 31141480Smckusick u_char target, our_addr; 31241480Smckusick { 31341480Smckusick if (hd->scsi_ssts & (SSTS_INITIATOR|SSTS_TARGET|SSTS_BUSY)) 31441480Smckusick return (1); 31541480Smckusick 31641480Smckusick if (hd->scsi_ints & INTS_DISCON) 31741480Smckusick hd->scsi_ints = INTS_DISCON; 31841480Smckusick 31941480Smckusick hd->scsi_pctl = 0; 32041480Smckusick hd->scsi_temp = (1 << target) | our_addr; 32141480Smckusick /* select timeout is hardcoded to 2ms */ 32241480Smckusick hd->scsi_tch = 0; 32341480Smckusick hd->scsi_tcm = 32; 32441480Smckusick hd->scsi_tcl = 4; 32541480Smckusick 32641480Smckusick hd->scsi_scmd = SCMD_SELECT; 32741480Smckusick return (0); 32841480Smckusick } 32941480Smckusick 33041480Smckusick static int 33141480Smckusick wait_for_select(hd) 33241480Smckusick volatile register struct scsidevice *hd; 33341480Smckusick { 33441480Smckusick u_char ints; 33541480Smckusick 33641480Smckusick while ((ints = hd->scsi_ints) == 0) 33741480Smckusick DELAY(1); 33841480Smckusick hd->scsi_ints = ints; 33941480Smckusick return (!(hd->scsi_ssts & SSTS_INITIATOR)); 34041480Smckusick } 34141480Smckusick 34241480Smckusick static int 34341480Smckusick ixfer_start(hd, len, phase, wait) 34441480Smckusick volatile register struct scsidevice *hd; 34541480Smckusick int len; 34641480Smckusick u_char phase; 34741480Smckusick register int wait; 34841480Smckusick { 34941480Smckusick 35041480Smckusick hd->scsi_tch = len >> 16; 35141480Smckusick hd->scsi_tcm = len >> 8; 35241480Smckusick hd->scsi_tcl = len; 35341480Smckusick hd->scsi_pctl = phase; 35441480Smckusick hd->scsi_tmod = 0; /*XXX*/ 35541480Smckusick hd->scsi_scmd = SCMD_XFR | SCMD_PROG_XFR; 35641480Smckusick 35741480Smckusick /* wait for xfer to start or svc_req interrupt */ 35841480Smckusick while ((hd->scsi_ssts & SSTS_BUSY) == 0) { 35941480Smckusick if (hd->scsi_ints || --wait < 0) { 36041480Smckusick #ifdef DEBUG 36141480Smckusick if (scsi_debug) 36241480Smckusick printf("ixfer_start fail: i%x, w%d\n", 36341480Smckusick hd->scsi_ints, wait); 36441480Smckusick #endif 36541480Smckusick HIST(ixstart_wait, wait) 36641480Smckusick return (0); 36741480Smckusick } 36841480Smckusick DELAY(1); 36941480Smckusick } 37041480Smckusick HIST(ixstart_wait, wait) 37141480Smckusick return (1); 37241480Smckusick } 37341480Smckusick 37441480Smckusick static int 37541480Smckusick ixfer_out(hd, len, buf) 37641480Smckusick volatile register struct scsidevice *hd; 37741480Smckusick int len; 37841480Smckusick register u_char *buf; 37941480Smckusick { 38041480Smckusick register int wait = scsi_data_wait; 38141480Smckusick 38241480Smckusick for (; len > 0; --len) { 38341480Smckusick while (hd->scsi_ssts & SSTS_DREG_FULL) { 38441480Smckusick if (hd->scsi_ints || --wait < 0) { 38541480Smckusick #ifdef DEBUG 38641480Smckusick if (scsi_debug) 38741480Smckusick printf("ixfer_out fail: l%d i%x w%d\n", 38841480Smckusick len, hd->scsi_ints, wait); 38941480Smckusick #endif 39041480Smckusick HIST(ixout_wait, wait) 39141480Smckusick return (len); 39241480Smckusick } 39341480Smckusick DELAY(1); 39441480Smckusick } 39541480Smckusick hd->scsi_dreg = *buf++; 39641480Smckusick } 39741480Smckusick HIST(ixout_wait, wait) 39841480Smckusick return (0); 39941480Smckusick } 40041480Smckusick 40141480Smckusick static void 40241480Smckusick ixfer_in(hd, len, buf) 40341480Smckusick volatile register struct scsidevice *hd; 40441480Smckusick int len; 40541480Smckusick register u_char *buf; 40641480Smckusick { 40741480Smckusick register int wait = scsi_data_wait; 40841480Smckusick 40941480Smckusick for (; len > 0; --len) { 41041480Smckusick while (hd->scsi_ssts & SSTS_DREG_EMPTY) { 41141480Smckusick if (hd->scsi_ints || --wait < 0) { 41241480Smckusick while (! (hd->scsi_ssts & SSTS_DREG_EMPTY)) { 41341480Smckusick *buf++ = hd->scsi_dreg; 41441480Smckusick --len; 41541480Smckusick } 41641480Smckusick #ifdef DEBUG 41741480Smckusick if (scsi_debug) 41841480Smckusick printf("ixfer_in fail: l%d i%x w%d\n", 41941480Smckusick len, hd->scsi_ints, wait); 42041480Smckusick #endif 42141480Smckusick HIST(ixin_wait, wait) 42241480Smckusick return; 42341480Smckusick } 42441480Smckusick DELAY(1); 42541480Smckusick } 42641480Smckusick *buf++ = hd->scsi_dreg; 42741480Smckusick } 42841480Smckusick HIST(ixin_wait, wait) 42941480Smckusick } 43041480Smckusick 43141480Smckusick static int 43241480Smckusick mxfer_in(hd, len, buf, phase) 43341480Smckusick volatile register struct scsidevice *hd; 43441480Smckusick register int len; 43541480Smckusick register u_char *buf; 43641480Smckusick register u_char phase; 43741480Smckusick { 43841480Smckusick register int wait = scsi_cmd_wait; 43941480Smckusick register int i; 44041480Smckusick 44141480Smckusick hd->scsi_tmod = 0; 44241480Smckusick for (i = 0; i < len; ++i) { 44341480Smckusick /* 44441480Smckusick * wait for the request line (which says the target 44541480Smckusick * wants to give us data). If the phase changes while 44641480Smckusick * we're waiting, we're done. 44741480Smckusick */ 44841480Smckusick while ((hd->scsi_psns & PSNS_REQ) == 0) { 44941480Smckusick if (--wait < 0) { 45041480Smckusick HIST(mxin_wait, wait) 45141480Smckusick return (-1); 45241480Smckusick } 45341480Smckusick if ((hd->scsi_psns & PHASE) != phase || 45441480Smckusick (hd->scsi_ssts & SSTS_INITIATOR) == 0) 45541480Smckusick goto out; 45641480Smckusick 45741480Smckusick DELAY(1); 45841480Smckusick } 45941480Smckusick /* 46041480Smckusick * set ack (which says we're ready for the data, wait for 46141480Smckusick * req to go away (target says data is available), grab the 46241480Smckusick * data, then reset ack (say we've got the data). 46341480Smckusick */ 46441480Smckusick hd->scsi_pctl = phase; 46541480Smckusick hd->scsi_scmd = SCMD_SET_ACK; 46641480Smckusick while (hd->scsi_psns & PSNS_REQ) { 46741480Smckusick if (--wait < 0) { 46841480Smckusick HIST(mxin_wait, wait) 46941480Smckusick return (-2); 47041480Smckusick } 47141480Smckusick DELAY(1); 47241480Smckusick } 47341480Smckusick *buf++ = hd->scsi_temp; 47441480Smckusick hd->scsi_scmd = SCMD_RST_ACK; 47541480Smckusick if (hd->scsi_psns & PSNS_ATN) 47641480Smckusick hd->scsi_scmd = SCMD_RST_ATN; 47741480Smckusick } 47841480Smckusick out: 47941480Smckusick HIST(mxin_wait, wait) 48041480Smckusick return (i); 48141480Smckusick } 48241480Smckusick 48341480Smckusick /* 48441480Smckusick * SCSI 'immediate' command: issue a command to some SCSI device 48541480Smckusick * and get back an 'immediate' response (i.e., do programmed xfer 48641480Smckusick * to get the response data). 'cbuf' is a buffer containing a scsi 48741480Smckusick * command of length clen bytes. 'buf' is a buffer of length 'len' 48841480Smckusick * bytes for data. The transfer direction is determined by the device 48941480Smckusick * (i.e., by the scsi bus data xfer phase). If 'len' is zero, the 49041480Smckusick * command must supply no data. 'xferphase' is the bus phase the 49141480Smckusick * caller expects to happen after the command is issued. It should 49241480Smckusick * be one of DATA_IN_PHASE, DATA_OUT_PHASE or STATUS_PHASE. 49341480Smckusick */ 49441480Smckusick static int 49541480Smckusick scsiicmd(hs, target, cbuf, clen, buf, len, xferphase) 49641480Smckusick struct scsi_softc *hs; 49741480Smckusick int target; 49841480Smckusick u_char *cbuf; 49941480Smckusick int clen; 50041480Smckusick u_char *buf; 50141480Smckusick int len; 50241480Smckusick u_char xferphase; 50341480Smckusick { 50441480Smckusick volatile register struct scsidevice *hd = 50541480Smckusick (struct scsidevice *)hs->sc_hc->hp_addr; 50641480Smckusick u_char phase, ints; 50741480Smckusick register int wait; 50841480Smckusick 50941480Smckusick /* select the SCSI bus (it's an error if bus isn't free) */ 51041480Smckusick if (issue_select(hd, target, hs->sc_scsi_addr)) 51141480Smckusick return (-1); 51241480Smckusick if (wait_for_select(hd)) 51341480Smckusick return (-1); 51441480Smckusick /* 51541480Smckusick * Wait for a phase change (or error) then let the device 51641480Smckusick * sequence us through the various SCSI phases. 51741480Smckusick */ 51841480Smckusick hs->sc_stat[0] = 0xff; 51941480Smckusick hs->sc_msg[0] = 0xff; 52041480Smckusick phase = CMD_PHASE; 52141480Smckusick while (1) { 52241480Smckusick wait = scsi_cmd_wait; 52341480Smckusick switch (phase) { 52441480Smckusick 52541480Smckusick case CMD_PHASE: 52641480Smckusick if (ixfer_start(hd, clen, phase, wait)) 52741480Smckusick if (ixfer_out(hd, clen, cbuf)) 52841480Smckusick goto abort; 52941480Smckusick phase = xferphase; 53041480Smckusick break; 53141480Smckusick 53241480Smckusick case DATA_IN_PHASE: 53341480Smckusick if (len <= 0) 53441480Smckusick goto abort; 53541480Smckusick wait = scsi_data_wait; 53641480Smckusick if (ixfer_start(hd, len, phase, wait) || 53741480Smckusick !(hd->scsi_ssts & SSTS_DREG_EMPTY)) 53841480Smckusick ixfer_in(hd, len, buf); 53941480Smckusick phase = STATUS_PHASE; 54041480Smckusick break; 54141480Smckusick 54241480Smckusick case DATA_OUT_PHASE: 54341480Smckusick if (len <= 0) 54441480Smckusick goto abort; 54541480Smckusick wait = scsi_data_wait; 54641480Smckusick if (ixfer_start(hd, len, phase, wait)) { 54741480Smckusick if (ixfer_out(hd, len, buf)) 54841480Smckusick goto abort; 54941480Smckusick } 55041480Smckusick phase = STATUS_PHASE; 55141480Smckusick break; 55241480Smckusick 55341480Smckusick case STATUS_PHASE: 55441480Smckusick wait = scsi_data_wait; 55541480Smckusick if (ixfer_start(hd, sizeof(hs->sc_stat), phase, wait) || 55641480Smckusick !(hd->scsi_ssts & SSTS_DREG_EMPTY)) 55741480Smckusick ixfer_in(hd, sizeof(hs->sc_stat), hs->sc_stat); 55841480Smckusick phase = MESG_IN_PHASE; 55941480Smckusick break; 56041480Smckusick 56141480Smckusick case MESG_IN_PHASE: 56241480Smckusick if (ixfer_start(hd, sizeof(hs->sc_msg), phase, wait) || 56341480Smckusick !(hd->scsi_ssts & SSTS_DREG_EMPTY)) { 56441480Smckusick ixfer_in(hd, sizeof(hs->sc_msg), hs->sc_msg); 56541480Smckusick hd->scsi_scmd = SCMD_RST_ACK; 56641480Smckusick } 56741480Smckusick phase = BUS_FREE_PHASE; 56841480Smckusick break; 56941480Smckusick 57041480Smckusick case BUS_FREE_PHASE: 57141480Smckusick goto out; 57241480Smckusick 57341480Smckusick default: 57441480Smckusick printf("scsi%d: unexpected phase %d in icmd from %d\n", 57541480Smckusick hs->sc_hc->hp_unit, phase, target); 57641480Smckusick goto abort; 57741480Smckusick } 57841480Smckusick /* wait for last command to complete */ 57941480Smckusick while ((ints = hd->scsi_ints) == 0) { 58041480Smckusick if (--wait < 0) { 58141480Smckusick HIST(cxin_wait, wait) 58241480Smckusick goto abort; 58341480Smckusick } 58441480Smckusick DELAY(1); 58541480Smckusick } 58641480Smckusick HIST(cxin_wait, wait) 58741480Smckusick hd->scsi_ints = ints; 58841480Smckusick if (ints & INTS_SRV_REQ) 58941480Smckusick phase = hd->scsi_psns & PHASE; 59041480Smckusick else if (ints & INTS_DISCON) 59141480Smckusick goto out; 59241480Smckusick else if ((ints & INTS_CMD_DONE) == 0) { 59341480Smckusick scsierror(hs, hd, ints); 59441480Smckusick goto abort; 59541480Smckusick } 59641480Smckusick } 59741480Smckusick abort: 59841480Smckusick scsiabort(hs, hd, "icmd"); 59941480Smckusick out: 60041480Smckusick return (hs->sc_stat[0]); 60141480Smckusick } 60241480Smckusick 60341480Smckusick /* 60441480Smckusick * Finish SCSI xfer command: After the completion interrupt from 60541480Smckusick * a read/write operation, sequence through the final phases in 60641480Smckusick * programmed i/o. This routine is a lot like scsiicmd except we 60741480Smckusick * skip (and don't allow) the select, cmd out and data in/out phases. 60841480Smckusick */ 60941480Smckusick static void 61041480Smckusick finishxfer(hs, hd, target) 61141480Smckusick struct scsi_softc *hs; 61241480Smckusick volatile register struct scsidevice *hd; 61341480Smckusick int target; 61441480Smckusick { 61541480Smckusick u_char phase, ints; 61641480Smckusick 61741480Smckusick /* 61841480Smckusick * We specified padding xfer so we ended with either a phase 61941480Smckusick * change interrupt (normal case) or an error interrupt (handled 62041480Smckusick * elsewhere). Reset the board dma logic then try to get the 62141480Smckusick * completion status & command done msg. The reset confuses 62241480Smckusick * the SPC REQ/ACK logic so we have to do any status/msg input 62341480Smckusick * operations via 'manual xfer'. 62441480Smckusick */ 62541480Smckusick if (hd->scsi_ssts & SSTS_BUSY) { 62641480Smckusick int wait = scsi_cmd_wait; 62741480Smckusick 62841480Smckusick /* wait for dma operation to finish */ 62941480Smckusick while (hd->scsi_ssts & SSTS_BUSY) { 63041480Smckusick if (--wait < 0) { 63141480Smckusick #ifdef DEBUG 63241480Smckusick if (scsi_debug) 63341480Smckusick printf("finishxfer fail: ssts %x\n", 63441480Smckusick hd->scsi_ssts); 63541480Smckusick #endif 63641480Smckusick HIST(fxfr_wait, wait) 63741480Smckusick goto abort; 63841480Smckusick } 63941480Smckusick } 64041480Smckusick HIST(fxfr_wait, wait) 64141480Smckusick } 64241480Smckusick hd->scsi_scmd |= SCMD_PROG_XFR; 64341480Smckusick hd->scsi_sctl |= SCTL_CTRLRST; 64441480Smckusick DELAY(1); 64541480Smckusick hd->scsi_sctl &=~ SCTL_CTRLRST; 64641480Smckusick hd->scsi_hconf = 0; 64741480Smckusick hs->sc_stat[0] = 0xff; 64841480Smckusick hs->sc_msg[0] = 0xff; 64941480Smckusick hd->scsi_csr = 0; 65041480Smckusick hd->scsi_ints = ints = hd->scsi_ints; 65141480Smckusick while (1) { 65241480Smckusick phase = hd->scsi_psns & PHASE; 65341480Smckusick switch (phase) { 65441480Smckusick 65541480Smckusick case STATUS_PHASE: 65641480Smckusick if (mxfer_in(hd, sizeof(hs->sc_stat), hs->sc_stat, 65741480Smckusick phase) <= 0) 65841480Smckusick goto abort; 65941480Smckusick break; 66041480Smckusick 66141480Smckusick case MESG_IN_PHASE: 66241480Smckusick if (mxfer_in(hd, sizeof(hs->sc_msg), hs->sc_msg, 66341480Smckusick phase) < 0) 66441480Smckusick goto abort; 66541480Smckusick break; 66641480Smckusick 66741480Smckusick case BUS_FREE_PHASE: 66841480Smckusick return; 66941480Smckusick 67041480Smckusick default: 67141480Smckusick printf("scsi%d: unexpected phase %d in finishxfer from %d\n", 67241480Smckusick hs->sc_hc->hp_unit, phase, target); 67341480Smckusick goto abort; 67441480Smckusick } 67541480Smckusick if (ints = hd->scsi_ints) { 67641480Smckusick hd->scsi_ints = ints; 67741480Smckusick if (ints & INTS_DISCON) 67841480Smckusick return; 67941480Smckusick else if (ints & ~(INTS_SRV_REQ|INTS_CMD_DONE)) { 68041480Smckusick scsierror(hs, hd, ints); 68141480Smckusick break; 68241480Smckusick } 68341480Smckusick } 68441480Smckusick if ((hd->scsi_ssts & SSTS_INITIATOR) == 0) 68541480Smckusick return; 68641480Smckusick } 68741480Smckusick abort: 68841480Smckusick scsiabort(hs, hd, "finishxfer"); 68941480Smckusick hs->sc_stat[0] = 0xfe; 69041480Smckusick } 69141480Smckusick 69241480Smckusick int 69341480Smckusick scsi_test_unit_rdy(ctlr, slave, unit) 69441480Smckusick int ctlr, slave, unit; 69541480Smckusick { 69641480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 69741480Smckusick static struct scsi_cdb6 cdb = { CMD_TEST_UNIT_READY }; 69841480Smckusick 69941480Smckusick cdb.lun = unit; 70041480Smckusick return (scsiicmd(hs, slave, &cdb, sizeof(cdb), (u_char *)0, 0, 70141480Smckusick STATUS_PHASE)); 70241480Smckusick } 70341480Smckusick 70441480Smckusick int 70541480Smckusick scsi_request_sense(ctlr, slave, unit, buf, len) 70641480Smckusick int ctlr, slave, unit; 70741480Smckusick u_char *buf; 70841480Smckusick unsigned len; 70941480Smckusick { 71041480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 71141480Smckusick static struct scsi_cdb6 cdb = { CMD_REQUEST_SENSE }; 71241480Smckusick 71341480Smckusick cdb.lun = unit; 71441480Smckusick cdb.len = len; 71541480Smckusick return (scsiicmd(hs, slave, &cdb, sizeof(cdb), buf, len, DATA_IN_PHASE)); 71641480Smckusick } 71741480Smckusick 71841480Smckusick int 71941480Smckusick scsi_immed_command(ctlr, slave, unit, cdb, buf, len, rd) 72041480Smckusick int ctlr, slave, unit; 72141480Smckusick struct scsi_fmt_cdb *cdb; 72241480Smckusick u_char *buf; 72341480Smckusick unsigned len; 72441480Smckusick { 72541480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 72641480Smckusick 72741480Smckusick cdb->cdb[1] |= unit << 5; 72841480Smckusick return (scsiicmd(hs, slave, cdb->cdb, cdb->len, buf, len, 72941480Smckusick rd != 0? DATA_IN_PHASE : DATA_OUT_PHASE)); 73041480Smckusick } 73141480Smckusick 73241480Smckusick /* 73341480Smckusick * The following routines are test-and-transfer i/o versions of read/write 73441480Smckusick * for things like reading disk labels and writing core dumps. The 73541480Smckusick * routine scsigo should be used for normal data transfers, NOT these 73641480Smckusick * routines. 73741480Smckusick */ 73841480Smckusick int 73941480Smckusick scsi_tt_read(ctlr, slave, unit, buf, len, blk, bshift) 74041480Smckusick int ctlr, slave, unit; 74141480Smckusick u_char *buf; 74241480Smckusick u_int len; 74341480Smckusick daddr_t blk; 74441480Smckusick int bshift; 74541480Smckusick { 74641480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 74741480Smckusick struct scsi_cdb10 cdb; 74841480Smckusick int stat; 74941480Smckusick int old_wait = scsi_data_wait; 75041480Smckusick 75141480Smckusick scsi_data_wait = 300000; 75241480Smckusick bzero(&cdb, sizeof(cdb)); 75341480Smckusick cdb.cmd = CMD_READ_EXT; 75441480Smckusick cdb.lun = unit; 75541480Smckusick blk >>= bshift; 75641480Smckusick cdb.lbah = blk >> 24; 75741480Smckusick cdb.lbahm = blk >> 16; 75841480Smckusick cdb.lbalm = blk >> 8; 75941480Smckusick cdb.lbal = blk; 76041480Smckusick cdb.lenh = len >> (8 + DEV_BSHIFT + bshift); 76141480Smckusick cdb.lenl = len >> (DEV_BSHIFT + bshift); 76241480Smckusick stat = scsiicmd(hs, slave, &cdb, sizeof(cdb), buf, len, DATA_IN_PHASE); 76341480Smckusick scsi_data_wait = old_wait; 76441480Smckusick return (stat); 76541480Smckusick } 76641480Smckusick 76741480Smckusick int 76841480Smckusick scsi_tt_write(ctlr, slave, unit, buf, len, blk, bshift) 76941480Smckusick int ctlr, slave, unit; 77041480Smckusick u_char *buf; 77141480Smckusick u_int len; 77241480Smckusick daddr_t blk; 77341480Smckusick int bshift; 77441480Smckusick { 77541480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 77641480Smckusick struct scsi_cdb10 cdb; 77741480Smckusick int stat; 77841480Smckusick int old_wait = scsi_data_wait; 77941480Smckusick 78041480Smckusick scsi_data_wait = 300000; 78141480Smckusick 78241480Smckusick bzero(&cdb, sizeof(cdb)); 78341480Smckusick cdb.cmd = CMD_WRITE_EXT; 78441480Smckusick cdb.lun = unit; 78541480Smckusick blk >>= bshift; 78641480Smckusick cdb.lbah = blk >> 24; 78741480Smckusick cdb.lbahm = blk >> 16; 78841480Smckusick cdb.lbalm = blk >> 8; 78941480Smckusick cdb.lbal = blk; 79041480Smckusick cdb.lenh = len >> (8 + DEV_BSHIFT + bshift); 79141480Smckusick cdb.lenl = len >> (DEV_BSHIFT + bshift); 79241480Smckusick stat = scsiicmd(hs, slave, &cdb, sizeof(cdb), buf, len, DATA_OUT_PHASE); 79341480Smckusick scsi_data_wait = old_wait; 79441480Smckusick return (stat); 79541480Smckusick } 79641480Smckusick 79741480Smckusick int 79841480Smckusick scsireq(dq) 79941480Smckusick register struct devqueue *dq; 80041480Smckusick { 80141480Smckusick register struct devqueue *hq; 80241480Smckusick 80341480Smckusick hq = &scsi_softc[dq->dq_ctlr].sc_sq; 80441480Smckusick insque(dq, hq->dq_back); 80541480Smckusick if (dq->dq_back == hq) 80641480Smckusick return(1); 80741480Smckusick return(0); 80841480Smckusick } 80941480Smckusick 81041480Smckusick int 81141480Smckusick scsiustart(unit) 81241480Smckusick int unit; 81341480Smckusick { 81441480Smckusick register struct scsi_softc *hs = &scsi_softc[unit]; 81541480Smckusick 81641480Smckusick hs->sc_dq.dq_ctlr = DMA0 | DMA1; 81741480Smckusick if (dmareq(&hs->sc_dq)) 81841480Smckusick return(1); 81941480Smckusick return(0); 82041480Smckusick } 82141480Smckusick 82241480Smckusick void 82341480Smckusick scsistart(unit) 82441480Smckusick int unit; 82541480Smckusick { 82641480Smckusick register struct devqueue *dq; 82741480Smckusick 82841480Smckusick dq = scsi_softc[unit].sc_sq.dq_forw; 82941480Smckusick (dq->dq_driver->d_go)(dq->dq_unit); 83041480Smckusick } 83141480Smckusick 83241480Smckusick int 83341480Smckusick scsigo(ctlr, slave, unit, bp, cdb, pad) 83441480Smckusick int ctlr, slave, unit; 83541480Smckusick struct buf *bp; 83641480Smckusick struct scsi_fmt_cdb *cdb; 83741480Smckusick int pad; 83841480Smckusick { 83941480Smckusick register struct scsi_softc *hs = &scsi_softc[ctlr]; 84041480Smckusick volatile register struct scsidevice *hd = 84141480Smckusick (struct scsidevice *)hs->sc_hc->hp_addr; 84241480Smckusick int i, dmaflags; 84341480Smckusick u_char phase, ints, cmd; 84441480Smckusick 84541480Smckusick cdb->cdb[1] |= unit << 5; 84641480Smckusick 84741480Smckusick /* select the SCSI bus (it's an error if bus isn't free) */ 84841480Smckusick if (issue_select(hd, slave, hs->sc_scsi_addr) || wait_for_select(hd)) { 84941480Smckusick dmafree(&hs->sc_dq); 85041480Smckusick return (1); 85141480Smckusick } 85241480Smckusick /* 85341480Smckusick * Wait for a phase change (or error) then let the device 85441480Smckusick * sequence us through command phase (we may have to take 85541480Smckusick * a msg in/out before doing the command). If the disk has 85641480Smckusick * to do a seek, it may be a long time until we get a change 85741480Smckusick * to data phase so, in the absense of an explicit phase 85841480Smckusick * change, we assume data phase will be coming up and tell 85941480Smckusick * the SPC to start a transfer whenever it does. We'll get 86041480Smckusick * a service required interrupt later if this assumption is 86141480Smckusick * wrong. Otherwise we'll get a service required int when 86241480Smckusick * the transfer changes to status phase. 86341480Smckusick */ 86441480Smckusick phase = CMD_PHASE; 86541480Smckusick while (1) { 86641480Smckusick register int wait = scsi_cmd_wait; 86741480Smckusick 86841480Smckusick switch (phase) { 86941480Smckusick 87041480Smckusick case CMD_PHASE: 87141480Smckusick if (ixfer_start(hd, cdb->len, phase, wait)) 87241480Smckusick if (ixfer_out(hd, cdb->len, cdb->cdb)) 87341480Smckusick goto abort; 87441480Smckusick break; 87541480Smckusick 87641480Smckusick case MESG_IN_PHASE: 87741480Smckusick if (ixfer_start(hd, sizeof(hs->sc_msg), phase, wait)|| 87841480Smckusick !(hd->scsi_ssts & SSTS_DREG_EMPTY)) { 87941480Smckusick ixfer_in(hd, sizeof(hs->sc_msg), hs->sc_msg); 88041480Smckusick hd->scsi_scmd = SCMD_RST_ACK; 88141480Smckusick } 88241480Smckusick phase = BUS_FREE_PHASE; 88341480Smckusick break; 88441480Smckusick 88541480Smckusick case DATA_IN_PHASE: 88641480Smckusick case DATA_OUT_PHASE: 88741480Smckusick goto out; 88841480Smckusick 88941480Smckusick default: 89041480Smckusick printf("scsi%d: unexpected phase %d in go from %d\n", 89141480Smckusick hs->sc_hc->hp_unit, phase, slave); 89241480Smckusick goto abort; 89341480Smckusick } 89441480Smckusick while ((ints = hd->scsi_ints) == 0) { 89541480Smckusick if (--wait < 0) { 89641480Smckusick HIST(sgo_wait, wait) 89741480Smckusick goto abort; 89841480Smckusick } 89941480Smckusick DELAY(1); 90041480Smckusick } 90141480Smckusick HIST(sgo_wait, wait) 90241480Smckusick hd->scsi_ints = ints; 90341480Smckusick if (ints & INTS_SRV_REQ) 90441480Smckusick phase = hd->scsi_psns & PHASE; 90541480Smckusick else if (ints & INTS_CMD_DONE) 90641480Smckusick goto out; 90741480Smckusick else { 90841480Smckusick scsierror(hs, hd, ints); 90941480Smckusick goto abort; 91041480Smckusick } 91141480Smckusick } 91241480Smckusick out: 91341480Smckusick /* 91441480Smckusick * Reset the card dma logic, setup the dma channel then 91541480Smckusick * get the dio part of the card set for a dma xfer. 91641480Smckusick */ 91741480Smckusick hd->scsi_hconf = 0; 918*45514Smckusick cmd = CSR_IE; 91941480Smckusick dmaflags = DMAGO_NOINT; 920*45514Smckusick if (scsi_pridma) 921*45514Smckusick dmaflags |= DMAGO_PRI; 92241480Smckusick if (bp->b_flags & B_READ) 92341480Smckusick dmaflags |= DMAGO_READ; 92441480Smckusick if ((hs->sc_flags & SCSI_DMA32) && 92541480Smckusick ((int)bp->b_un.b_addr & 3) == 0 && (bp->b_bcount & 3) == 0) { 92641480Smckusick cmd |= CSR_DMA32; 92741480Smckusick dmaflags |= DMAGO_LWORD; 92841480Smckusick } else 92941480Smckusick dmaflags |= DMAGO_WORD; 93041480Smckusick dmago(hs->sc_dq.dq_ctlr, bp->b_un.b_addr, bp->b_bcount, dmaflags); 93141480Smckusick 93241480Smckusick if (bp->b_flags & B_READ) { 93341480Smckusick cmd |= CSR_DMAIN; 93441480Smckusick phase = DATA_IN_PHASE; 93541480Smckusick } else 93641480Smckusick phase = DATA_OUT_PHASE; 937*45514Smckusick /* 938*45514Smckusick * DMA enable bits must be set after size and direction bits. 939*45514Smckusick */ 94041480Smckusick hd->scsi_csr = cmd; 941*45514Smckusick hd->scsi_csr |= (CSR_DE0 << hs->sc_dq.dq_ctlr); 94241480Smckusick /* 94341480Smckusick * Setup the SPC for the transfer. We don't want to take 94441480Smckusick * first a command complete then a service required interrupt 94541480Smckusick * at the end of the transfer so we try to disable the cmd 94641480Smckusick * complete by setting the transfer counter to more bytes 94741480Smckusick * than we expect. (XXX - This strategy may have to be 94841480Smckusick * modified to deal with devices that return variable length 94941480Smckusick * blocks, e.g., some tape drives.) 95041480Smckusick */ 95141480Smckusick cmd = SCMD_XFR; 95241480Smckusick i = (unsigned)bp->b_bcount; 95341480Smckusick if (pad) { 95441480Smckusick cmd |= SCMD_PAD; 95541480Smckusick /* 95641480Smckusick * XXX - If we don't do this, the last 2 or 4 bytes 95741480Smckusick * (depending on word/lword DMA) of a read get trashed. 95841480Smckusick * It looks like it is necessary for the DMA to complete 95941480Smckusick * before the SPC goes into "pad mode"??? Note: if we 96041480Smckusick * also do this on a write, the request never completes. 96141480Smckusick */ 96241480Smckusick if (bp->b_flags & B_READ) 96341480Smckusick i += 2; 96441480Smckusick #ifdef DEBUG 96541480Smckusick hs->sc_flags |= SCSI_PAD; 96641480Smckusick if (i & 1) 96741480Smckusick printf("scsi%d: odd byte count: %d bytes @ %d\n", 96841480Smckusick ctlr, i, bp->b_cylin); 96941480Smckusick #endif 97041480Smckusick } else 97141480Smckusick i += 4; 97241480Smckusick hd->scsi_tch = i >> 16; 97341480Smckusick hd->scsi_tcm = i >> 8; 97441480Smckusick hd->scsi_tcl = i; 97541480Smckusick hd->scsi_pctl = phase; 97641480Smckusick hd->scsi_tmod = 0; 97741480Smckusick hd->scsi_scmd = cmd; 97841480Smckusick hs->sc_flags |= SCSI_IO; 97941480Smckusick return (0); 98041480Smckusick abort: 98141480Smckusick scsiabort(hs, hd, "go"); 98241480Smckusick dmafree(&hs->sc_dq); 98341480Smckusick return (1); 98441480Smckusick } 98541480Smckusick 98641480Smckusick void 98741480Smckusick scsidone(unit) 98841480Smckusick register int unit; 98941480Smckusick { 99041480Smckusick volatile register struct scsidevice *hd = 99141480Smckusick (struct scsidevice *)scsi_softc[unit].sc_hc->hp_addr; 99241480Smckusick 993*45514Smckusick #ifdef DEBUG 994*45514Smckusick if (scsi_debug) 995*45514Smckusick printf("scsi%d: done called!\n"); 996*45514Smckusick #endif 99741480Smckusick /* dma operation is done -- turn off card dma */ 99841480Smckusick hd->scsi_csr &=~ (CSR_DE1|CSR_DE0); 99941480Smckusick } 100041480Smckusick 100141480Smckusick int 100241480Smckusick scsiintr(unit) 100341480Smckusick register int unit; 100441480Smckusick { 100541480Smckusick register struct scsi_softc *hs = &scsi_softc[unit]; 100641480Smckusick volatile register struct scsidevice *hd = 100741480Smckusick (struct scsidevice *)hs->sc_hc->hp_addr; 100841480Smckusick register u_char ints; 100941480Smckusick register struct devqueue *dq; 101041480Smckusick 101141480Smckusick if ((hd->scsi_csr & (CSR_IE|CSR_IR)) != (CSR_IE|CSR_IR)) 101241480Smckusick return (0); 101341480Smckusick 101441480Smckusick ints = hd->scsi_ints; 101541480Smckusick if ((ints & INTS_SRV_REQ) && (hs->sc_flags & SCSI_IO)) { 101641480Smckusick /* 101741480Smckusick * this should be the normal i/o completion case. 101841480Smckusick * get the status & cmd complete msg then let the 101941480Smckusick * device driver look at what happened. 102041480Smckusick */ 102141480Smckusick #ifdef DEBUG 102241480Smckusick int len = (hd->scsi_tch << 16) | (hd->scsi_tcm << 8) | 102341480Smckusick hd->scsi_tcl; 102441480Smckusick if (!(hs->sc_flags & SCSI_PAD)) 102541480Smckusick len -= 4; 102641480Smckusick hs->sc_flags &=~ SCSI_PAD; 102741480Smckusick #endif 102841480Smckusick dq = hs->sc_sq.dq_forw; 102941480Smckusick finishxfer(hs, hd, dq->dq_unit); 103041480Smckusick hs->sc_flags &=~ SCSI_IO; 103141480Smckusick dmafree(&hs->sc_dq); 103241480Smckusick (dq->dq_driver->d_intr)(dq->dq_unit, hs->sc_stat[0]); 103341480Smckusick } else { 103441480Smckusick /* Something unexpected happened -- deal with it. */ 103541480Smckusick hd->scsi_ints = ints; 103641480Smckusick hd->scsi_csr = 0; 103741480Smckusick scsierror(hs, hd, ints); 103841480Smckusick scsiabort(hs, hd, "intr"); 103941480Smckusick if (hs->sc_flags & SCSI_IO) { 104041480Smckusick hs->sc_flags &=~ SCSI_IO; 104141480Smckusick dmafree(&hs->sc_dq); 104241480Smckusick dq = hs->sc_sq.dq_forw; 104341480Smckusick (dq->dq_driver->d_intr)(dq->dq_unit, -1); 104441480Smckusick } 104541480Smckusick } 104641480Smckusick return(1); 104741480Smckusick } 104841480Smckusick 104941480Smckusick void 105041480Smckusick scsifree(dq) 105141480Smckusick register struct devqueue *dq; 105241480Smckusick { 105341480Smckusick register struct devqueue *hq; 105441480Smckusick 105541480Smckusick hq = &scsi_softc[dq->dq_ctlr].sc_sq; 105641480Smckusick remque(dq); 105741480Smckusick if ((dq = hq->dq_forw) != hq) 105841480Smckusick (dq->dq_driver->d_start)(dq->dq_unit); 105941480Smckusick } 106041480Smckusick #endif 1061