/* $NetBSD: oldncr.c,v 1.2 1995/08/27 04:07:54 phil Exp $ */ /* * Copyright (C) 1993 Allen K. Briggs, Chris P. Caputo, * Michael L. Finch, Bradley A. Grantham, and * Lawrence A. Kesteloot * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the Alice Group. * 4. The names of the Alice Group or any of its members may not be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE ALICE GROUP ``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 ALICE GROUP 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. */ /* Modified for use with the pc532 by Phil Nelson, June 94. */ #define PSEUDO_DMA 1 static int ncr_debug=1; #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ncr_defs.h" #include "ncr_5380.h" #define NCR5380 DP8490 #define SCI_PHASE_DISC 0 /* sort of ... */ #define SCI_CLR_INTR(regs) {register int temp = regs->sci_iack;} #define SCI_ACK(ptr,phase) (ptr)->sci_tcmd = (phase) #define SCSI_TIMEOUT_VAL 10000000 #define WAIT_FOR_NOT_REQ(ptr) { \ int scsi_timeout = SCSI_TIMEOUT_VAL; \ while ( ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \ ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \ ((ptr)->sci_bus_csr & SCI_BUS_REQ) && \ (--scsi_timeout) ); \ if (!scsi_timeout) { \ printf("scsi timeout--WAIT_FOR_NOT_REQ---ncr.c, \ line %d.\n", __LINE__); \ goto scsi_timeout_error; \ } \ } #define WAIT_FOR_REQ(ptr) { \ int scsi_timeout = SCSI_TIMEOUT_VAL; \ while ( (((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \ (((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \ (((ptr)->sci_bus_csr & SCI_BUS_REQ) == 0) && \ (--scsi_timeout) ); \ if (!scsi_timeout) { \ printf("scsi timeout--WAIT_FOR_REQ---ncr.c, \ line %d.\n", __LINE__); \ goto scsi_timeout_error; \ } \ } #define WAIT_FOR_BSY(ptr) { \ int scsi_timeout = SCSI_TIMEOUT_VAL; \ while ((((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \ (((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \ (((ptr)->sci_bus_csr & SCI_BUS_BSY) == 0) && \ (--scsi_timeout) ); \ if (!scsi_timeout) { \ printf("scsi timeout--WAIT_FOR_BSY---ncr.c, \ line %d.\n", __LINE__); \ goto scsi_timeout_error; \ } \ } #ifdef DDB int Debugger(); #else #define Debugger() panic("Should call Debugger here (mac/dev/ncr.c).") #endif typedef unsigned long int physaddr; typedef sci_regmap_t sci_padded_regmap_t; #define NNCR5380 1 struct ncr5380_softc { struct device sc_dev; struct scsi_link sc_link; }; /* From the mapping of the pc532 address space. See pc532/machdep.c */ static volatile sci_padded_regmap_t *ncr = (sci_regmap_t *) 0xffd00000; static volatile long *sci_4byte_addr= (long *) 0xffe00000; static volatile u_char *sci_1byte_addr=(u_char *) 0xffe00000; static void ncr5380_minphys(struct buf *bp); static int ncr5380_scsi_cmd(struct scsi_xfer *xs); static int ncr5380_show_scsi_cmd(struct scsi_xfer *xs); static int ncr5380_reset_target(int adapter, int target); static int ncr5380_poll(int adapter, int timeout); static int ncr5380_send_cmd(struct scsi_xfer *xs); extern void ncr5380_intr(int adapter); extern void spinwait(int); static int scsi_gen(int adapter, int id, int lun, struct scsi_generic *cmd, int cmdlen, void *databuf, int datalen); static int scsi_group0(int adapter, int id, int lun, int opcode, int addr, int len, int flags, caddr_t databuf, int datalen); static char scsi_name[] = "ncr"; struct scsi_adapter ncr5380_switch = { ncr5380_scsi_cmd, /* scsi_cmd() */ ncr5380_minphys, /* scsi_minphys() */ 0, /* open_target_lu() */ 0 /* close_target_lu() */ }; /* This is copied from julian's bt driver */ /* "so we have a default dev struct for our link struct." */ struct scsi_device ncr_dev = { NULL, /* Use default error handler. */ NULL, /* have a queue, served by this (?) */ NULL, /* have no async handler. */ NULL /* Use default "done" routine. */ }; extern int matchbyname(); static int ncrprobe(); static void ncrattach(); struct cfdriver oldncrcd = { NULL, "ncr", ncrprobe, ncrattach, DV_DULL, sizeof(struct ncr5380_softc), NULL, 0 }; static int ncrprobe(parent, self, aux) struct device *parent, *self; void *aux; { /* int unit = cf->cf_unit; */ struct ncr5380_softc *ncr5380 = (void *)self; #if 0 DELETE THIS ???? if (unit >= NNCR5380) { printf("ncr5380attach: unit %d more than %d configured.\n", unit+1, NNCR5380); return 0; } ncr5380 = malloc(sizeof(struct ncr5380_data), M_TEMP, M_NOWAIT); if (!ncr5380) { printf("ncr5380attach: Can't malloc.\n"); return 0; } bzero(ncr5380, sizeof(*ncr5380)); ncr5380data[unit] = ncr5380; #endif /* If we call this, we need to add SPL_DP to the bio mask! */ /* PL_bio |= SPL_DP; Not yet ... no interrupts */ return 1; } static void ncrattach(parent, self, aux) struct device *parent, *self; void *aux; { register volatile sci_padded_regmap_t *regs = ncr; struct ncr5380_softc *ncr5380 = (void *)self; int r; ncr5380->sc_link.adapter_softc = ncr5380; /* ncr5380->sc_link.scsibus = 0; */ ncr5380->sc_link.adapter_target = 7; ncr5380->sc_link.adapter = &ncr5380_switch; ncr5380->sc_link.device = &ncr_dev; ncr5380->sc_link.openings = 1; printf("\n"); config_found(self, &(ncr5380->sc_link), NULL); } #define MIN_PHYS 65536 /*BARF!!!!*/ static void ncr5380_minphys(struct buf *bp) { if (bp->b_bcount > MIN_PHYS) { printf("Uh-oh... ncr5380_minphys setting bp->b_bcount = %x.\n", MIN_PHYS); bp->b_bcount = MIN_PHYS; } minphys(bp); } #undef MIN_PHYS static int ncr5380_scsi_cmd(struct scsi_xfer *xs) { int flags, s, r; flags = xs->flags; if (xs->bp) flags |= (SCSI_NOSLEEP); if ( flags & ITSDONE ) { printf("Already done?"); xs->flags &= ~ITSDONE; } if ( ! ( flags & INUSE ) ) { printf("Not in use?"); xs->flags |= INUSE; } if ( flags & SCSI_RESET ) { printf("flags & SCSIRESET.\n"); s = splbio(); ncr5380_reset_target(xs->sc_link->scsibus, xs->sc_link->target); splx(s); return(COMPLETE); } xs->resid = 0; /* Default value? */ r = ncr5380_send_cmd(xs); xs->flags |= ITSDONE; scsi_done(xs); switch(r) { case COMPLETE: case SUCCESSFULLY_QUEUED: r = SUCCESSFULLY_QUEUED; if (xs->flags&SCSI_POLL) r = COMPLETE; break; default: break; } return r; } static int ncr5380_show_scsi_cmd(struct scsi_xfer *xs) { u_char *b = (u_char *) xs->cmd; int i = 0; if ( ! ( xs->flags & SCSI_RESET ) ) { printf("ncr5380(%d:%d:%d)-", xs->sc_link->scsibus, xs->sc_link->target, xs->sc_link->lun); while (i < xs->cmdlen) { if (i) printf(","); printf("%x",b[i++]); } printf("-\n"); } else { printf("ncr5380(%d:%d:%d)-RESET-\n", xs->sc_link->scsibus, xs->sc_link->target, xs->sc_link->lun); } } /* * Actual chip control. */ void delay(int timeo) { int len; for (len=0;lensci_mode = 0x00; } extern int scsi_irq_intr(void) { register volatile sci_padded_regmap_t *regs = ncr; /* if (regs->sci_csr != SCI_CSR_PHASE_MATCH) printf("scsi_irq_intr called (not just phase match -- " "csr = 0x%x, bus_csr = 0x%x).\n", regs->sci_csr, regs->sci_bus_csr); ncr5380_intr(0); */ return 1; } extern int scsi_drq_intr(void) { /* printf("scsi_drq_intr called.\n"); */ /* ncr5380_intr(0); */ return 1; } static int ncr5380_reset_target(int adapter, int target) { register volatile sci_padded_regmap_t *regs = ncr; int dummy; scsi_select_ctlr (DP8490); regs->sci_icmd = SCI_ICMD_TEST; regs->sci_icmd = SCI_ICMD_TEST | SCI_ICMD_RST; delay(2500); regs->sci_icmd = 0; regs->sci_mode = 0; regs->sci_tcmd = SCI_PHASE_DISC; regs->sci_sel_enb = 0; SCI_CLR_INTR(regs); SCI_CLR_INTR(regs); } static int ncr5380_send_cmd(struct scsi_xfer *xs) { int s, i, sense; #if 0 ncr5380_show_scsi_cmd(xs); #endif s = splbio(); sense = scsi_gen( xs->sc_link->scsibus, xs->sc_link->target, xs->sc_link->lun, xs->cmd, xs->cmdlen, xs->data, xs->datalen ); splx(s); switch (sense) { case 0x00: xs->error = XS_NOERROR; return (COMPLETE); case 0x02: /* Check condition */ for (i = 10; i; i--) { s = splbio(); sense = scsi_group0(xs->sc_link->scsibus, xs->sc_link->target, xs->sc_link->lun, 0x3, 0x0, sizeof(struct scsi_sense_data), 0, (caddr_t) &(xs->sense), sizeof(struct scsi_sense_data)); splx(s); if (sense == 0) break; if (sense == 8 && (xs->flags & SCSI_NOSLEEP) == 0) tsleep((caddr_t)&lbolt, PRIBIO, "ncrbusy", 0); } if (!i) printf("ncr(%d:%d): Sense failed (dev busy)\n", xs->sc_link->target, xs->sc_link->lun); xs->error = XS_SENSE; return COMPLETE; case 0x08: /* Busy */ xs->error = XS_BUSY; return COMPLETE; default: xs->error = XS_DRIVER_STUFFUP; return COMPLETE; } } static int select_target(register volatile sci_padded_regmap_t *regs, u_char myid, u_char tid, int with_atn) { register u_char bid, icmd; int ret = SCSI_RET_RETRY; if ((regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL)) && (regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL)) && (regs->sci_bus_csr & (SCI_BUS_BSY|SCI_BUS_SEL))) return ret; /* for our purposes.. */ myid = 1 << myid; tid = 1 << tid; regs->sci_sel_enb = 0; /*myid; we don't want any interrupts. */ regs->sci_tcmd = 0; /* get into a harmless state */ regs->sci_mode = 0; /* get into a harmless state */ regs->sci_odata = myid; regs->sci_mode = SCI_MODE_ARB; /* regs->sci_mode |= SCI_MODE_ARB; */ /* AIP might not set if BSY went true after we checked */ for (bid = 0; bid < 20; bid++) /* 20usec circa */ if (regs->sci_icmd & SCI_ICMD_AIP) break; if ((regs->sci_icmd & SCI_ICMD_AIP) == 0) { goto lost; } spinwait(2); /* 2.2us arb delay */ if (regs->sci_icmd & SCI_ICMD_LST) { goto lost; } regs->sci_mode &= ~SCI_MODE_PAR_CHK; bid = regs->sci_data; if ((bid & ~myid) > myid) { goto lost; } if (regs->sci_icmd & SCI_ICMD_LST) { goto lost; } /* Won arbitration, enter selection phase now */ icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST); icmd |= (with_atn ? (SCI_ICMD_SEL|SCI_ICMD_ATN) : SCI_ICMD_SEL); icmd |= SCI_ICMD_BSY; regs->sci_icmd = icmd; if (regs->sci_icmd & SCI_ICMD_LST) { goto nosel; } /* XXX a target that violates specs might still drive the bus XXX */ /* XXX should put our id out, and after the delay check nothi XXX */ /* XXX ng else is out there. XXX */ delay(0); regs->sci_tcmd = 0; regs->sci_odata = myid | tid; regs->sci_sel_enb = 0; /* regs->sci_mode &= ~SCI_MODE_ARB; 2 deskew delays, too */ regs->sci_mode = 0; /* 2 deskew delays, too */ icmd |= SCI_ICMD_DATA; icmd &= ~(SCI_ICMD_BSY); regs->sci_icmd = icmd; /* bus settle delay, 400ns */ delay(2); /* too much (was 2) ? */ /* regs->sci_mode |= SCI_MODE_PAR_CHK; */ { register int timeo = 2500;/* 250 msecs in 100 usecs chunks */ while ((regs->sci_bus_csr & SCI_BUS_BSY) == 0) { if (--timeo > 0) { delay(100); } else { goto nodev; } } } icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_SEL); regs->sci_icmd = icmd; /* regs->sci_sel_enb = myid;*/ /* looks like we should NOT have it */ return SCSI_RET_SUCCESS; nodev: ret = SCSI_RET_DEVICE_DOWN; regs->sci_sel_enb = myid; nosel: icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_SEL|SCI_ICMD_ATN); regs->sci_icmd = icmd; lost: regs->sci_mode = 0; return ret; } sci_data_out(regs, phase, count, data) register sci_padded_regmap_t *regs; unsigned char *data; { register unsigned char icmd; register int cnt=0; /* ..checks.. */ icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST); loop: if (SCI_CUR_PHASE(regs->sci_bus_csr) != phase) return cnt; WAIT_FOR_REQ(regs); icmd |= SCI_ICMD_DATA; regs->sci_icmd = icmd; regs->sci_odata = *data++; icmd |= SCI_ICMD_ACK; regs->sci_icmd = icmd; icmd &= ~(SCI_ICMD_DATA|SCI_ICMD_ACK); WAIT_FOR_NOT_REQ(regs); regs->sci_icmd = icmd; ++cnt; if (--count > 0) goto loop; scsi_timeout_error: return cnt; } sci_data_in(regs, phase, count, data) register sci_padded_regmap_t *regs; unsigned char *data; { register unsigned char icmd; register int cnt=0; /* ..checks.. */ icmd = regs->sci_icmd & ~(SCI_ICMD_DIFF|SCI_ICMD_TEST); loop: if (SCI_CUR_PHASE(regs->sci_bus_csr) != phase) return cnt; WAIT_FOR_REQ(regs); *data++ = regs->sci_data; icmd |= SCI_ICMD_ACK; regs->sci_icmd = icmd; icmd &= ~SCI_ICMD_ACK; WAIT_FOR_NOT_REQ(regs); regs->sci_icmd = icmd; ++cnt; if (--count > 0) goto loop; scsi_timeout_error: return cnt; } static int command_transfer(register volatile sci_padded_regmap_t *regs, int maxlen, u_char *data, u_char *status, u_char *msg) { int xfer=0, phase; /* printf("command_transfer called for 0x%x.\n", *data); */ regs->sci_icmd = 0; while (1) { WAIT_FOR_REQ(regs); phase = SCI_CUR_PHASE(regs->sci_bus_csr); switch (phase) { case SCSI_PHASE_CMD: SCI_ACK(regs,SCSI_PHASE_CMD); xfer += sci_data_out(regs, SCSI_PHASE_CMD, maxlen, data); return xfer; case SCSI_PHASE_DATA_IN: printf("Data in phase in command_transfer?\n"); return 0; case SCSI_PHASE_DATA_OUT: printf("Data out phase in command_transfer?\n"); return 0; case SCSI_PHASE_STATUS: SCI_ACK(regs,SCSI_PHASE_STATUS); printf("status in command_transfer.\n"); sci_data_in(regs, SCSI_PHASE_STATUS, 1, status); break; case SCSI_PHASE_MESSAGE_IN: SCI_ACK(regs,SCSI_PHASE_MESSAGE_IN); printf("msgin in command_transfer.\n"); sci_data_in(regs, SCSI_PHASE_MESSAGE_IN, 1, msg); break; case SCSI_PHASE_MESSAGE_OUT: SCI_ACK(regs,SCSI_PHASE_MESSAGE_OUT); sci_data_out(regs, SCSI_PHASE_MESSAGE_OUT, 1, msg); break; default: printf("Unexpected phase 0x%x in " "command_transfer().\n", phase); scsi_timeout_error: return xfer; break; } } } static int data_transfer(register volatile sci_padded_regmap_t *regs, int maxlen, u_char *data, u_char *status, u_char *msg) { int retlen = 0, xfer, phase; regs->sci_icmd = 0; *status = 0; while (1) { WAIT_FOR_REQ(regs); phase = SCI_CUR_PHASE(regs->sci_bus_csr); switch (phase) { case SCSI_PHASE_CMD: printf("Command phase in data_transfer().\n"); return retlen; case SCSI_PHASE_DATA_IN: SCI_ACK(regs,SCSI_PHASE_DATA_IN); #if PSEUDO_DMA xfer = sci_pdma_in(regs, SCSI_PHASE_DATA_IN, maxlen, data); #else xfer = sci_data_in(regs, SCSI_PHASE_DATA_IN, maxlen, data); #endif retlen += xfer; maxlen -= xfer; break; case SCSI_PHASE_DATA_OUT: SCI_ACK(regs,SCSI_PHASE_DATA_OUT); #if PSEUDO_DMA xfer = sci_pdma_out(regs, SCSI_PHASE_DATA_OUT, maxlen, data); #else xfer = sci_data_out(regs, SCSI_PHASE_DATA_OUT, maxlen, data); #endif retlen += xfer; maxlen -= xfer; break; case SCSI_PHASE_STATUS: SCI_ACK(regs,SCSI_PHASE_STATUS); sci_data_in(regs, SCSI_PHASE_STATUS, 1, status); break; case SCSI_PHASE_MESSAGE_IN: SCI_ACK(regs,SCSI_PHASE_MESSAGE_IN); sci_data_in(regs, SCSI_PHASE_MESSAGE_IN, 1, msg); if (*msg == 0) { return retlen; } else { printf( "message 0x%x in " "data_transfer.\n", *msg); } break; case SCSI_PHASE_MESSAGE_OUT: SCI_ACK(regs,SCSI_PHASE_MESSAGE_OUT); sci_data_out(regs, SCSI_PHASE_MESSAGE_OUT, 1, msg); break; default: printf( "Unexpected phase 0x%x in " "data_transfer().\n", phase); scsi_timeout_error: return retlen; break; } } } static int scsi_request(register volatile sci_padded_regmap_t *regs, int target, int lun, u_char *cmd, int cmdlen, char *databuf, int datalen, int *sent, int *ret) { /* Returns 0 on success, -1 on internal error, or the status byte */ int cmd_bytes_sent, r; u_char stat, msg, c; *sent = 0; scsi_select_ctlr (DP8490); if ( ( r = select_target(regs, 7, target, 1) ) != SCSI_RET_SUCCESS) { *ret = r; SCI_CLR_INTR(regs); switch (r) { case SCSI_RET_RETRY: return 0x08; default: printf("select_target(target %d, lun %d) failed(%d).\n", target, lun, r); case SCSI_RET_DEVICE_DOWN: return -1; } } c = 0x80 | lun; if ((cmd_bytes_sent = command_transfer(regs, cmdlen, (u_char *) cmd, &stat, &c)) != cmdlen) { SCI_CLR_INTR(regs); *ret = SCSI_RET_COMMAND_FAIL; printf("Data underrun sending CCB (%d bytes of %d, sent).\n", cmd_bytes_sent, cmdlen); return -1; } *sent=data_transfer(regs, datalen, (u_char *)databuf, &stat, &msg); *ret = 0; return stat; } static int scsi_gen(int adapter, int id, int lun, struct scsi_generic *cmd, int cmdlen, void *databuf, int datalen) { register volatile sci_padded_regmap_t *regs = ncr; int i,j,sent,ret; cmd->bytes[0] |= ((u_char) lun << 5); i = scsi_request(regs, id, lun, (u_char *) cmd, cmdlen, databuf, datalen, &sent, &ret); return i; } static int scsi_group0(int adapter, int id, int lun, int opcode, int addr, int len, int flags, caddr_t databuf, int datalen) { register volatile sci_padded_regmap_t *regs = ncr; unsigned char cmd[6]; int i,j,sent,ret; cmd[0] = opcode; /* Operation code */ cmd[1] = (lun << 5) | ((addr >> 16) & 0x1F); /* Lun & MSB of addr */ cmd[2] = (addr >> 8) & 0xFF; /* addr */ cmd[3] = addr & 0xFF; /* LSB of addr */ cmd[4] = len; /* Allocation length */ cmd[5] = flags; /* Link/Flag */ i = scsi_request(regs, id, lun, cmd, 6, databuf, datalen, &sent, &ret); return i; } /* pseudo-dma action */ #if PSEUDO_DMA #define TIMEOUT 1000000 #define READY(poll) \ i = TIMEOUT; \ while ((regs->sci_csr & (SCI_CSR_DREQ|SCI_CSR_PHASE_MATCH)) \ !=(SCI_CSR_DREQ|SCI_CSR_PHASE_MATCH)) \ if ( !(regs->sci_csr & SCI_CSR_PHASE_MATCH) \ || !(regs->sci_bus_csr & SCI_BUS_BSY) \ || (i-- < 0) ) { \ printf("ncr.c: timeout counter = %d, len = %d count=%d (count-len %d).\n", \ i, len,count,count-len); \ printf("ncr_debug = %d, 1=out, 2=in",ncr_debug); \ /*dump_regs();*/ \ if (poll && !(regs->sci_csr & SCI_CSR_PHASE_MATCH)) { \ regs->sci_icmd &= ~SCI_ICMD_DATA; \ len--; \ } else { \ regs->sci_mode &= ~SCI_MODE_DMA; \ } \ return count-len; \ } #define W1 *byte_data = *data++ #define W4 *long_data = *((long*)data)++ sci_pdma_out(regs, phase, count, data) register volatile sci_padded_regmap_t *regs; int phase; int count; u_char *data; { register volatile long *long_data = sci_4byte_addr; register volatile u_char *byte_data = sci_1byte_addr; register int len = count, i; ncr_debug=1; if (count < 128) return sci_data_out(regs, phase, count, data); WAIT_FOR_BSY(regs); regs->sci_mode |= SCI_MODE_DMA; regs->sci_icmd |= SCI_ICMD_DATA; regs->sci_dma_send = 0; while ( len >= 64 ) { READY(1); W1; READY(1); W1; READY(1); W1; READY(1); W1; READY(1); W4;W4;W4; W4;W4;W4;W4; W4;W4;W4;W4; W4;W4;W4;W4; len -= 64; } while (len) { READY(1); W1; len--; } i = TIMEOUT; while ( ((regs->sci_csr & (SCI_CSR_DREQ|SCI_CSR_PHASE_MATCH)) == SCI_CSR_PHASE_MATCH) && --i); if (!i) printf("ncr.c:%d: timeout waiting for SCI_CSR_DREQ.\n", __LINE__); *byte_data = 0; scsi_timeout_error: regs->sci_mode &= ~SCI_MODE_DMA; return count-len; } #undef W1 #undef W4 #define R4 *((long *)data)++ = *long_data #define R1 *data++ = *byte_data sci_pdma_in(regs, phase, count, data) register volatile sci_padded_regmap_t *regs; int phase; int count; u_char *data; { register volatile long *long_data = sci_4byte_addr; register volatile u_char *byte_data = sci_1byte_addr; register int len = count, i; ncr_debug=2; if (count < 128) return sci_data_in(regs, phase, count, data); /* printf("Called sci_pdma_in(0x%x, 0x%x, %d, 0x%x.\n", regs, phase, count, data); */ WAIT_FOR_BSY(regs); regs->sci_mode |= SCI_MODE_DMA; regs->sci_icmd |= SCI_ICMD_DATA; regs->sci_irecv = 0; while (len >= 1024) { READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 128 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 256 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 384 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 512 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 640 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 768 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 896 */ READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /*1024 */ len -= 1024; } while (len >= 128) { READY(0); R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; R4;R4;R4;R4; /* 128 */ len -= 128; } while (len) { READY(0); R1; len--; } scsi_timeout_error: regs->sci_mode &= ~SCI_MODE_DMA; return count - len; } #undef R4 #undef R1 #endif /* Some stuff from dp.c ... */ #if 0 /* Select a SCSI device. */ int scsi_select_ctlr (int ctlr) { /* May need other stuff here to syncronize between dp & aic. */ RD_ADR (u_char, ICU_IO) &= ~ICU_SCSI_BIT; /* i/o, not port */ RD_ADR (u_char, ICU_DIR) &= ~ICU_SCSI_BIT; /* output */ if (ctlr == NCR5380) RD_ADR (u_char, ICU_DATA) &= ~ICU_SCSI_BIT; /* select = 0 for 8490 */ else RD_ADR (u_char, ICU_DATA) |= ICU_SCSI_BIT; /* select = 1 for AIC6250 */ } #endif