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added 48 sect eagle to device table
[unix-history] / usr / src / sys / vax / stand / hp.c
/* hp.c 4.8 83/02/02 */
/*
* RP??/RM?? disk driver
* with ECC handling and bad block forwarding.
* Also supports header io operations and
* commands to write check header and data.
*/
#include "../h/param.h"
#include "../h/inode.h"
#include "../h/fs.h"
#include "../h/dkbad.h"
#include "../vax/pte.h"
#include "../vaxmba/hpreg.h"
#include "../vaxmba/mbareg.h"
#include "saio.h"
#include "savax.h"
#define MASKREG(reg) ((reg)&0xffff)
#define MAXBADDESC 126
#define SECTSIZ 512 /* sector size in bytes */
#define HDRSIZ 4 /* number of bytes in sector header */
#define MAXECC 5 /* the maximum number of bad bits accepted in
* an ecc error when F_ECCLM is set */
char hp_type[MAXNMBA*8] = { 0 };
/* THIS SHOULD BE READ IN OFF THE PACK, PER DRIVE */
short hp6_off[8] = { 0, 38, 0, -1, -1, -1, 118, -1 };
short rm3_off[8] = { 0, 100, 0, -1, -1, -1, 310, -1 };
short rm5_off[8] = { 0, 27, 0, 562, 589, 681, 562, 82 };
short rm80_off[8] = { 0, 37, 0, -1, -1, -1, 115, 305 };
short hp7_off[8] = { 0, 10, 0, 330, 340, 500, 330, 50 };
short ml_off[8] = { 0, -1, -1, -1, -1, -1, -1, -1 };
short si9775_off[8] = { 0, 13, 0, -1, -1, -1, 40, 441 };
short si9730_off[8] = { 0, 50, 0, -1, -1, -1, -1, 155 };
short hpam_off[8] = { 0, 32, 0, 668, 723, 778, 668, 98 };
short hpfj_off[8] = { 0, 19, 0, -1, -1, -1, 398, 59 };
/* END SHOULD BE READ IN */
short hptypes[] =
{ MBDT_RM03, MBDT_RM05, MBDT_RP06, MBDT_RM80, MBDT_RP05, MBDT_RP07,
MBDT_ML11A, MBDT_ML11B, -1/*9755*/, -1/*9730*/, -1/*Capr*/,
-1/* eagle */, MBDT_RM02, 0};
#define RP06 (hptypes[hp_type[unit]] <= MBDT_RP06)
#define ML11 (hptypes[hp_type[unit]] == MBDT_ML11A)
#define RM80 (hptypes[hp_type[unit]] == MBDT_RM80)
u_char hp_offset[16] = {
HPOF_P400, HPOF_M400, HPOF_P400, HPOF_M400,
HPOF_P800, HPOF_M800, HPOF_P800, HPOF_M800,
HPOF_P1200, HPOF_M1200, HPOF_P1200, HPOF_M1200,
0, 0, 0, 0,
};
struct st hpst[] = {
32, 5, 32*5, 823, rm3_off, /* RM03 */
32, 19, 32*19, 823, rm5_off, /* RM05 */
22, 19, 22*19, 815, hp6_off, /* RP06 */
31, 14, 31*14, 559, rm80_off, /* RM80 */
22, 19, 22*19, 411, hp6_off, /* RP06 */
50, 32, 50*32, 630, hp7_off, /* RP07 */
1, 1, 1, 1, ml_off, /* ML11A */
1, 1, 1, 1, ml_off, /* ML11B */
32, 40, 32*40, 843, si9775_off, /* 9775 */
32, 10, 32*10, 823, si9730_off, /* 9730 */
32, 16, 32*16, 1024, hpam_off, /* capricorn */
43, 20, 43*20, 842, hpfj_off, /* Eagle */
1, 1, 1, 1, 0, /* rm02 - not used */
};
struct dkbad hpbad[MAXNMBA*8];
int sectsiz;
hpopen(io)
register struct iob *io;
{
register unit = io->i_unit;
struct hpdevice *hpaddr = (struct hpdevice *)mbadrv(unit);
register struct st *st;
mbainit(UNITTOMBA(unit));
if (hp_type[unit] == 0) {
register type = hpaddr->hpdt & MBDT_TYPE;
register int i;
struct iob tio;
for (i = 0; hptypes[i]; i++)
if (hptypes[i] == type)
goto found;
_stop("unknown drive type");
found:
switch (i) {
case 0: case 1: { /* rm03 or rm05 */
register hpsn = hpaddr->hpsn;
if ((hpsn & SIMB_LU) != unit)
break;
switch ((hpsn & SIMB_MB) &~ (SIMB_S6|SIRM03|SIRM05)) {
case SI9775D:
i = 8; /* si9775 */
break;
case SI9730D:
i = 9; /* si9730 */
break;
case SI9766:
i = 1; /* rm05 */
hpaddr->hpcs1 = HP_RECAL|HP_GO;
DELAY(100000);
break;
case SI9762:
i = 0; /* rm03 */
break;
}
break;
}
case 12: /* rm02 */
hpaddr->hpcs1 = HP_NOP;
hpaddr->hphr = HPHR_MAXTRAK;
if (MASKREG(hpaddr->hphr) == 15)
i = 10; /* ampex capricorn */
else
i = 11; /* eagle */
break;
case 6: case 7: /* ml11a ml11b */
i = 6; /* ml11a */
break;
}
hp_type[unit] = i;
hpaddr->hpcs1 = HP_DCLR|HP_GO; /* init drive */
hpaddr->hpcs1 = HP_PRESET|HP_GO;
if (!ML11)
hpaddr->hpof = HPOF_FMT22;
/*
* Read in the bad sector table:
* copy the contents of the io structure
* to tio for use during the bb pointer
* read operation.
*/
st = &hpst[i];
tio = *io;
tio.i_bn = st->nspc * st->ncyl - st->nsect;
tio.i_ma = (char *)&hpbad[unit];
tio.i_cc = sizeof (struct dkbad);
tio.i_flgs |= F_RDDATA;
for (i = 0; i < 5; i++) {
if (hpstrategy(&tio, READ) == sizeof (struct dkbad))
break;
tio.i_bn += 2;
}
if (i == 5) {
printf("Unable to read bad sector table\n");
for (i = 0; i < MAXBADDESC; i++) {
hpbad[unit].bt_bad[i].bt_cyl = -1;
hpbad[unit].bt_bad[i].bt_trksec = -1;
}
}
}
if (io->i_boff < 0 || io->i_boff > 7 ||
st->off[io->i_boff]== -1)
_stop("hp bad minor");
io->i_boff = st->off[io->i_boff] * st->nspc;
}
int ssect; /* set to 1 if we are on a track with skip sectors */
hpstrategy(io, func)
register struct iob *io;
{
register unit = io->i_unit;
struct mba_regs *mba = mbamba(unit);
daddr_t bn;
struct hpdevice *hpaddr = (struct hpdevice *)mbadrv(unit);
struct st *st = &hpst[hp_type[unit]];
int cn, tn, sn, bytecnt, bytesleft;
daddr_t startblock;
char *membase;
int er1, er2, hprecal;
sectsiz = SECTSIZ;
if ((io->i_flgs & (F_HDR|F_HCHECK)) != 0)
sectsiz += HDRSIZ;
if ((hpaddr->hpds & HPDS_VV) == 0) {
hpaddr->hpcs1 = HP_DCLR|HP_GO;
hpaddr->hpcs1 = HP_PRESET|HP_GO;
if (!ML11) /* any but ml11 */
hpaddr->hpof = HPOF_FMT22;
}
io->i_errcnt = 0;
ssect = 0;
bytecnt = io->i_cc;
membase = io->i_ma;
startblock = io->i_bn;
hprecal = 0;
restart:
bn = io->i_bn;
cn = bn/st->nspc;
sn = bn%st->nspc;
tn = sn/st->nsect;
sn = sn%st->nsect + ssect;
while ((hpaddr->hpds & HPDS_DRY) == 0)
;
mba->mba_sr = -1;
if (ML11)
hpaddr->hpda = bn;
else {
hpaddr->hpdc = cn;
hpaddr->hpda = (tn << 8) + sn;
}
if (mbastart(io, func) != 0) /* start transfer */
return (-1);
while ((hpaddr->hpds & HPDS_DRY) == 0)
;
if (((hpaddr->hpds&HPDS_ERR) | (mba->mba_sr&MBSR_EBITS)) == 0 )
return(bytecnt);
/* ------- error handling ------- */
if (bytesleft = MASKREG(mba->mba_bcr>>16))
bytesleft |= 0xffff0000; /* sign ext */
bn = io->i_bn + (io->i_cc + bytesleft)/sectsiz;
cn = bn/st->nspc;
sn = bn%st->nspc;
tn = sn/st->nsect;
sn = sn%st->nsect;
er1 = MASKREG(hpaddr->hper1);
er2 = MASKREG(hpaddr->hper2);
#ifdef HPDEBUG
printf("hp error: (cyl,trk,sec)=(%d,%d,%d) ds=%b \n",
cn, tn, sn, MASKREG(hpaddr->hpds), HPDS_BITS);
printf("er1=%b er2=%b", er1, HPER1_BITS, er2, HPER2_BITS);
printf("\nbytes left: %d, of 0x%x, da 0x%x",-bytesleft,
hpaddr->hpof, hpaddr->hpda);
printf("\n");
#endif
if (er1 & HPER1_HCRC) {
er1 &= ~(HPER1_HCE|HPER1_FER);
er2 &= ~HPER2_BSE;
}
if (er1&HPER1_WLE) {
printf("hp%d: write locked\n", unit);
return(-1);
} else if (MASKREG(er1) == HPER1_FER && RP06) {
goto badsect;
} else if (++io->i_errcnt > 27 ||
er1 & HPER1_HARD ||
(!ML11 && (er2 & HPER2_HARD))) {
hard0:
io->i_error = EHER;
if ((mba->mba_sr & (MBSR_WCKUP | MBSR_WCKLWR)) != 0)
io->i_error = EWCK;
hard:
io->i_errblk = bn + ssect;
printf("hp error: (cyl,trk,sec)=(%d,%d,%d) ds=%b \n",
cn, tn, sn, MASKREG(hpaddr->hpds), HPDS_BITS);
printf("er1=%b er2=%b",
er1, HPER1_BITS,
er2, HPER2_BITS);
if (hpaddr->hpmr)
printf(" mr1=%o", MASKREG(hpaddr->hpmr));
if (hpaddr->hpmr2)
printf(" mr2=%o", MASKREG(hpaddr->hpmr2));
#ifdef HPDEBUG
printf("dc: %d, da: 0x%x",MASKREG(hpaddr->hpdc),
MASKREG(hpaddr->hpda));
#endif
hpaddr->hpcs1 = HP_DCLR|HP_GO;
printf("\n");
return(-1);
} else if ((er2 & HPER2_BSE) && !ML11) {
badsect:
if (!ssect && (er2&HPER2_SSE))
goto skipsect;
if ((io->i_flgs & F_NBSF) != 0) {
io->i_error = EBSE;
goto hard;
}
if (hpecc(io, BSE) == 0)
goto success;
else {
io->i_error = EBSE;
goto hard;
}
} else if (RM80 && er2&HPER2_SSE) {
skipsect:
/* skip sector error */
(void) hpecc(io, SSE);
ssect=1;
goto success;
} else if ((er1&(HPER1_DCK|HPER1_ECH))==HPER1_DCK) {
if ( hpecc(io, ECC) == 0)
goto success;
else {
io->i_error = EECC;
return(1);
}
}
if (ML11 && (io->i_errcnt >= 16))
goto hard0;
/* fall thru to retry */
hpaddr->hpcs1 = HP_DCLR|HP_GO;
while ((hpaddr->hpds & HPDS_DRY) == 0)
;
if (((io->i_errcnt&07) == 4) ) {
hpaddr->hpcs1 = HP_RECAL|HP_GO;
hprecal = 1;
goto try_again;
}
switch (hprecal) {
case 1:
hpaddr->hpdc = cn;
hpaddr->hpcs1 = HP_SEEK|HP_GO;
hprecal++;
goto try_again;
case 2:
if (io->i_errcnt < 16 || (io->i_flgs & F_READ) == 0)
goto donerecal;
hpaddr->hpof = hp_offset[io->i_errcnt & 017]|HPOF_FMT22;
hpaddr->hpcs1 = HP_OFFSET|HP_GO;
hprecal++;
goto try_again;
donerecal:
case 3:
hprecal = 0;
goto try_again;
}
if (io->i_errcnt >= 16) {
hpaddr->hpcs1 = HP_RTC|HP_GO;
while (hpaddr->hpds & HPDS_PIP)
;
}
goto try_again;
success: /* continue with the next block */
bn++;
if ((bn-startblock) * sectsiz < bytecnt) {
try_again: /* re-read same block */
io->i_bn = bn;
io->i_ma = membase + (io->i_bn - startblock)*sectsiz;
io->i_cc = bytecnt - (io->i_bn - startblock)*sectsiz;
#ifdef HPDEBUG
printf("restart: bl %d, byte %d, mem 0x%x hprecal %d\n",
io->i_bn, io->i_cc, io->i_ma, hprecal);
#endif
goto restart;
}
return (bytecnt);
}
hpecc(io, flag)
register struct iob *io;
int flag;
{
register unit = io->i_unit;
register struct mba_regs *mbp = mbamba(unit);
register struct hpdevice *rp = (struct hpdevice *)mbadrv(unit);
register struct st *st = &hpst[hp_type[unit]];
int npf;
int bn, cn, tn, sn;
int bcr;
if (bcr = MASKREG(mbp->mba_bcr>>16))
bcr |= 0xffff0000; /* sxt */
npf = (bcr + io->i_cc)/sectsiz; /* number of sectors read */
bn = io->i_bn + npf + ssect; /* bn is physical block number*/
switch (flag) {
case ECC:
{
register int i;
caddr_t addr;
int bit, byte, mask, ecccnt = 0;
printf("hp%d: soft ecc sn%d\n", unit, bn);
mask = MASKREG(rp->hpec2);
i = MASKREG(rp->hpec1) - 1; /* -1 makes 0 origin */
bit = i&07;
i = (i&~07)>>3;
byte = i;
rp->hpcs1 = HP_DCLR | HP_GO;
while (i <sectsiz && npf*sectsiz + i < io->i_cc && bit > -11) {
addr = io->i_ma + (npf*sectsiz) + byte;
#ifdef HPECCDEBUG
printf("addr %x old:%x ",addr, (*addr&0xff));
#endif
if ((io->i_flgs & (F_CHECK|F_HCHECK)) == 0)
*addr ^= (mask << bit); /* don't 'correct' mem-
* ory during Wcheck */
#ifdef HPECCDEBUG
printf("new:%x\n",(*addr&0xff));
#endif
byte++;
i++;
bit -= 8;
if ((ecccnt++>=MAXECC) && ((io->i_flgs&F_ECCLM) != 0))
return(1);
}
return(0);
}
case SSE: /* skip sector error */
/* set skip-sector-inhibit and read next sector */
rp->hpcs1 = HP_DCLR | HP_GO;
while(rp->hpds & HPDS_DRY == 0)
; /* avoid RMR error */
rp->hpof |= HPOF_SSEI;
return(0);
#ifndef NOBADSECT
case BSE:
{
int bbn;
rp->hpcs1 = HP_DCLR | HP_GO;
#ifdef HPDEBUG
printf("hpecc: BSE @ bn %d\n", bn);
#endif
cn = bn/st->nspc;
sn = bn%st->nspc;
tn = sn/st->nsect;
sn = sn%st->nsect;
bcr += sectsiz;
if ((bbn = isbad(&hpbad[unit], cn, tn, sn)) < 0)
return(1);
bbn = st->ncyl*st->nspc - st->nsect - 1 - bbn;
cn = bbn/st->nspc;
sn = bbn%st->nspc;
tn = sn/st->nsect;
sn = sn%st->nsect;
io->i_cc = sectsiz;
io->i_ma += npf*sectsiz;
#ifdef HPDEBUG
printf("revector to cn %d tn %d sn %d mem: 0x%x\n",
cn, tn, sn, io->i_ma);
#endif
rp->hpof &= ~HPOF_SSEI; /* clear skip sector inhibit if set */
mbp->mba_sr = -1;
rp->hpdc = cn;
rp->hpda = (tn<<8) + sn;
mbastart(io,io->i_flgs);
io->i_errcnt = 0; /* error has been corrected */
while(rp->hpds & HPDS_DRY == 0)
; /* wait for the read to complete */
if (rp->hpds&HPDS_ERR)
return(1);
else
return(0);
}
}
}
/*ARGSUSED*/
hpioctl(io, cmd, arg)
struct iob *io;
int cmd;
caddr_t arg;
{
register unit = io->i_unit;
struct st *st = &hpst[hp_type[unit]], *tmp;
struct mba_drv *drv = mbadrv(unit);
switch(cmd) {
case SAIODEVDATA:
if ((drv->mbd_dt&MBDT_TAP) == 0) {
tmp = (struct st *)arg;
*tmp = *st;
return(0);
}
else
return(ECMD);
case SAIOSSI: /* set the skip-sector-inhibit flag */
if ((drv->mbd_dt&MBDT_TAP) == 0) {
if ((io->i_flgs&F_SSI)==0) { /* make sure this is */
io->i_flgs |= F_SSI; /* done only once */
st->nsect++;
st->nspc += st->ntrak;
}
return(0);
} else
return(ECMD);
case SAIONOSSI: /* remove the skip-sector-inh. flag */
if (io->i_flgs & F_SSI) {
io->i_flgs &= ~F_SSI;
drv->mbd_of &= ~HPOF_SSEI;
st->nsect--;
st->nspc -= st->ntrak;
}
return(0);
case SAIOSSDEV: /* return null if device has skip sector
* handling, otherwise return ECMD
*/
if (RM80)
return(0);
else
return(ECMD);
default:
return (ECMD);
}
}
Continuous source code history from original PDP-7 UNIX to FreeBSD 2, the first fully unencumbered FreeBSD release.