/* s3_disk.c: IBM 5444 Disk Drives | |
Copyright (c) 2001-2005, Charles E. Owen | |
Permission is hereby granted, free of charge, to any person obtaining a | |
copy of this software and associated documentation files (the "Software"), | |
to deal in the Software without restriction, including without limitation | |
the rights to use, copy, modify, merge, publish, distribute, sublicense, | |
and/or sell copies of the Software, and to permit persons to whom the | |
Software is furnished to do so, subject to the following conditions: | |
The above copyright notice and this permission notice shall be included in | |
all copies or substantial portions of the Software. | |
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL | |
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | |
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | |
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | |
Except as contained in this notice, the name of Charles E. Owen shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from Charles E. Owen. | |
r1 Removeable disk 1 | |
f1 Fixed disk 1 | |
r2 Removeable disk 2 | |
f2 Fixed disk 2 | |
25-Apr-03 RMS Revised for extended file support | |
08-Oct-02 RMS Added impossible function catcher | |
*/ | |
#include "s3_defs.h" | |
#include <ctype.h> | |
extern uint8 M[]; | |
extern int32 IAR[], level; | |
extern FILE *trace; | |
extern int32 debug_reg; | |
char dbuf[DSK_SECTSIZE]; /* Disk buffer */ | |
int32 dsk (int32 disk, int32 op, int32 m, int32 n, int32 data); | |
int32 read_sector(UNIT *uptr, char *dbuf, int32 sect); | |
int32 write_sector(UNIT *uptr, char *dbuf, int32 sect); | |
t_stat r1_svc (UNIT *uptr); | |
t_stat r1_boot (int32 unitno, DEVICE *dptr); | |
t_stat r1_attach (UNIT *uptr, char *cptr); | |
t_stat r1_reset (DEVICE *dptr); | |
t_stat f1_svc (UNIT *uptr); | |
t_stat f1_boot (int32 unitno, DEVICE *dptr); | |
t_stat f1_attach (UNIT *uptr, char *cptr); | |
t_stat f1_reset (DEVICE *dptr); | |
t_stat r2_svc (UNIT *uptr); | |
t_stat r2_boot (int32 unitno, DEVICE *dptr); | |
t_stat r2_attach (UNIT *uptr, char *cptr); | |
t_stat r2_reset (DEVICE *dptr); | |
t_stat f2_svc (UNIT *uptr); | |
t_stat f2_boot (int32 unitno, DEVICE *dptr); | |
t_stat f2_attach (UNIT *uptr, char *cptr); | |
t_stat f2_reset (DEVICE *dptr); | |
extern int32 GetMem(int32 addr); | |
extern int32 PutMem(int32 addr, int32 data); | |
char opstr[5][5] = { "SIO", "LIO", "TIO", "SNS", "APL" }; | |
int32 DDAR[2]; /* Data address register */ | |
int32 DCAR[2]; /* Disk Control Address Register */ | |
int32 diskerr[2] = { 0, 0 }; /* Error status */ | |
int32 notrdy[2] = { 0, 0 }; /* Not ready error */ | |
int32 seekbusy[2] = { 0, 0 }; /* Drive busy flags */ | |
int32 seekhead[2] = { 0, 0 }; /* Disk head 0,1 */ | |
int32 found[2] = { 0, 0 }; /* Scan found bit */ | |
int32 RIDsect[2] = { 0, 0 }; /* for Read ID */ | |
/* Disk data structures | |
xy_dev CDR descriptor | |
xy_unit CDR unit descriptor | |
xy_reg CDR register list | |
x = F or R | |
y = 1 or 2 | |
*/ | |
UNIT r1_unit = { UDATA (&r1_svc, UNIT_FIX+UNIT_ATTABLE, 0), 100 }; | |
REG r1_reg[] = { | |
{ FLDATA (NOTRDY, notrdy[0], 0) }, | |
{ FLDATA (SEEK, seekbusy[0], 0) }, | |
{ HRDATA (DAR, DDAR[0], 16) }, | |
{ HRDATA (CAR, DCAR[0], 16) }, | |
{ HRDATA (ERR, diskerr[0], 16) }, | |
{ DRDATA (CYL, r1_unit.u3, 8) }, | |
{ DRDATA (HEAD, seekhead[0], 8) }, | |
{ DRDATA (POS, r1_unit.pos, T_ADDR_W), PV_LEFT }, | |
{ DRDATA (TIME, r1_unit.wait, 24), PV_LEFT }, | |
{ BRDATA (BUF, dbuf, 8, 8, 256) }, | |
{ NULL } | |
}; | |
DEVICE r1_dev = { | |
"R1", &r1_unit, r1_reg, NULL, | |
1, 10, 31, 1, 8, 7, | |
NULL, NULL, &r1_reset, | |
&r1_boot, &r1_attach, NULL | |
}; | |
UNIT f1_unit = { UDATA (&f1_svc, UNIT_FIX+UNIT_ATTABLE, 0), 100 }; | |
REG f1_reg[] = { | |
{ FLDATA (NOTRDY, notrdy[0], 0) }, | |
{ FLDATA (SEEK, seekbusy[0], 0) }, | |
{ HRDATA (DAR, DDAR[0], 16) }, | |
{ HRDATA (CAR, DCAR[0], 16) }, | |
{ HRDATA (ERR, diskerr[0], 16) }, | |
{ DRDATA (CYL, f1_unit.u3, 8) }, | |
{ DRDATA (HEAD, seekhead[0], 8) }, | |
{ DRDATA (POS, f1_unit.pos, 32), PV_LEFT }, | |
{ DRDATA (TIME, f1_unit.wait, 24), PV_LEFT }, | |
{ BRDATA (BUF, dbuf, 8, 8, 256) }, | |
{ NULL } | |
}; | |
DEVICE f1_dev = { | |
"F1", &f1_unit, f1_reg, NULL, | |
1, 10, 31, 1, 8, 7, | |
NULL, NULL, &f1_reset, | |
&f1_boot, &f1_attach, NULL | |
}; | |
UNIT r2_unit = { UDATA (&r2_svc, UNIT_FIX+UNIT_ATTABLE, 0), 100 }; | |
REG r2_reg[] = { | |
{ FLDATA (NOTRDY, notrdy[1], 0) }, | |
{ FLDATA (SEEK, seekbusy[1], 0) }, | |
{ HRDATA (DAR, DDAR[1], 16) }, | |
{ HRDATA (CAR, DCAR[1], 16) }, | |
{ HRDATA (ERR, diskerr[1], 16) }, | |
{ DRDATA (CYL, r2_unit.u3, 8) }, | |
{ DRDATA (HEAD, seekhead[1], 8) }, | |
{ DRDATA (POS, r2_unit.pos, 32), PV_LEFT }, | |
{ DRDATA (TIME, r2_unit.wait, 24), PV_LEFT }, | |
{ BRDATA (BUF, dbuf, 8, 8, 256) }, | |
{ NULL } | |
}; | |
DEVICE r2_dev = { | |
"R2", &r2_unit, r2_reg, NULL, | |
1, 10, 31, 1, 8, 7, | |
NULL, NULL, &r2_reset, | |
&r2_boot, &r2_attach, NULL | |
}; | |
UNIT f2_unit = { UDATA (&f2_svc, UNIT_FIX+UNIT_ATTABLE, 0), 100 }; | |
REG f2_reg[] = { | |
{ FLDATA (NOTRDY, notrdy[1], 0) }, | |
{ FLDATA (SEEK, seekbusy[1], 0) }, | |
{ HRDATA (DAR, DDAR[1], 16) }, | |
{ HRDATA (CAR, DCAR[1], 16) }, | |
{ HRDATA (ERR, diskerr[1], 16) }, | |
{ DRDATA (CYL, f2_unit.u3, 8) }, | |
{ DRDATA (HEAD, seekhead[1], 8) }, | |
{ DRDATA (POS, f2_unit.pos, 32), PV_LEFT }, | |
{ DRDATA (TIME, f2_unit.wait, 24), PV_LEFT }, | |
{ BRDATA (BUF, dbuf, 8, 8, 256) }, | |
{ NULL } | |
}; | |
DEVICE f2_dev = { | |
"F2", &f2_unit, f2_reg, NULL, | |
1, 10, 31, 1, 8, 7, | |
NULL, NULL, &f2_reset, | |
&f2_boot, &f2_attach, NULL | |
}; | |
/* -------------------------------------------------------------------- */ | |
/* 5444: master routines */ | |
int32 dsk1 (int32 op, int32 m, int32 n, int32 data) | |
{ | |
int32 r; | |
r = dsk(0, op, m, n, data); | |
return (r); | |
} | |
int32 dsk2 (int32 op, int32 m, int32 n, int32 data) | |
{ | |
int32 r; | |
r = dsk(1, op, m, n, data); | |
return (r); | |
} | |
/* 5444: operational routine */ | |
int32 dsk (int32 disk, int32 op, int32 m, int32 n, int32 data) | |
{ | |
int32 iodata, i, j, u, sect, nsects, addr, r, c, res; | |
int32 F, C, S, N, usave; | |
UNIT *uptr; | |
u = m; | |
if (disk == 1) u += 2; | |
F = GetMem(DCAR[disk]+0); /* Flag bits */ | |
C = GetMem(DCAR[disk]+1); /* Cylinder */ | |
S = GetMem(DCAR[disk]+2); /* Sector */ | |
N = GetMem(DCAR[disk]+3); /* Number of sectors */ | |
switch (u) { | |
case 0: | |
uptr = r1_dev.units; | |
break; | |
case 1: | |
uptr = f1_dev.units; | |
break; | |
case 2: | |
uptr = r2_dev.units; | |
break; | |
case 3: | |
uptr = f2_dev.units; | |
break; | |
default: | |
break; | |
} | |
if (debug_reg & 0x02) | |
fprintf(trace, "==> %04X %s %01X,%d,%04X DAR=%04X CAR=%04X C=%02X, S=%02X, N=%02X\n", | |
IAR[level], | |
opstr[op], | |
m, n, data, | |
DDAR[disk], | |
DCAR[disk], | |
C, S, N); | |
switch (op) { | |
/* SIO 5444 */ | |
case 0: | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT; | |
diskerr[disk] = 0; /* SIO resets errors */ | |
found[disk] = 0; /* ... and found bit */ | |
iodata = 0; | |
switch (n) { | |
case 0x00: /* Seek */ | |
if (S & 0x80) | |
seekhead[disk] = 1; | |
else | |
seekhead[disk] = 0; | |
if (S & 1) { | |
uptr -> u3 += N; | |
} else { | |
uptr -> u3 -= N; | |
} | |
if (uptr -> u3 < 0) | |
uptr -> u3 = 0; | |
if (uptr -> u3 > 203) { | |
uptr -> u3 = 0; | |
diskerr[disk] |= 0x0100; | |
if (debug_reg & 0x02) | |
fprintf(trace, "==> Seek Past End of Disk\n"); | |
} | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
/* Seek arms are the same for both disks on a drive: | |
update the other arm */ | |
usave = uptr -> u3; | |
if (u == 0) uptr = f1_dev.units; | |
if (u == 1) uptr = r1_dev.units; | |
if (u == 2) uptr = f2_dev.units; | |
if (u == 3) uptr = r2_dev.units; | |
uptr -> u3 = usave; | |
seekbusy[disk] = 1; | |
iodata = SCPE_OK; | |
break; | |
case 0x01: /* Read */ | |
switch (data) { | |
case 0: /* Read data */ | |
sect = (S >> 2) & 0x3F; | |
nsects = N + 1; | |
addr = DDAR[disk]; | |
for (i = 0; i < nsects; i++) { | |
r = read_sector(uptr, dbuf, sect); | |
if (r != 1 || uptr->u3 != C) { | |
diskerr[disk] |= 0x0800; | |
break; | |
} | |
for (j = 0; j < DSK_SECTSIZE; j++) { | |
PutMem(addr, dbuf[j]); | |
addr++; | |
} | |
if (sect == 55) { /* HJS MODS */ | |
S = sect; | |
N = nsects - i - 2; | |
if (N > -1) diskerr[disk] |= 0x0020; /* end of cyl. */ | |
DDAR[disk] = addr & 0xFFFF; /* HJS mod */ | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
} | |
sect++; | |
S = sect - 1; | |
N = nsects - i - 2; | |
if (sect == 24) | |
sect = 32; | |
} | |
DDAR[disk] = addr & 0xFFFF; /* HJS mod */ | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
case 1: /* Read ID */ | |
if (uptr -> u3 > 0 && uptr -> u3 < 4) | |
PutMem(DCAR[disk], 1); | |
else | |
PutMem(DCAR[disk], 0); | |
PutMem(DCAR[disk]+1, uptr -> u3); | |
PutMem(DCAR[disk]+2, RIDsect[disk]); | |
RIDsect[disk]++; | |
if (RIDsect[disk] > 23) | |
RIDsect[disk] = 32; | |
if (RIDsect[disk] > 55) | |
RIDsect[disk] = 0; | |
break; | |
case 2: /* Read Diagnostic */ | |
iodata = STOP_INVDEV; | |
break; | |
case 3: /* Verify */ | |
sect = (S >> 2) & 0x3F; | |
nsects = N + 1; | |
addr = DDAR[disk]; | |
for (i = 0; i < nsects; i++) { | |
r = read_sector(uptr, dbuf, sect); | |
if (r != 1 || uptr->u3 != C) { | |
diskerr[disk] |= 0x0800; | |
break; | |
} | |
if (sect == 55) { /* HJS MODS */ | |
S = sect; | |
N = nsects - i - 2; | |
if (N > -1) diskerr[disk] |= 0x0020; /* end of cyl. */ | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
} | |
sect++; | |
S = sect - 1; | |
N = nsects - i - 2; | |
if (sect == 24) | |
sect = 32; | |
} | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
break; | |
default: | |
return STOP_INVDEV; | |
} | |
break; | |
case 0x02: /* Write */ | |
switch (data) { | |
case 0: /* Write Data */ | |
sect = (S >> 2) & 0x3F; | |
nsects = N + 1; | |
addr = DDAR[disk]; | |
for (i = 0; i < nsects; i++) { | |
for (j = 0; j < DSK_SECTSIZE; j++) { | |
dbuf[j] = GetMem(addr); | |
addr++; | |
} | |
r = write_sector(uptr, dbuf, sect); | |
if (r != 1 || uptr->u3 != C) { | |
diskerr[disk] |= 0x0400; | |
break; | |
} | |
if (sect == 55) { /* HJS MODS */ | |
S = sect; | |
N = nsects - i - 2; | |
if (N > -1) diskerr[disk] |= 0x0020; /* end of cyl. */ | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
} | |
sect++; | |
S = sect - 1; | |
N = nsects - i - 2; | |
if (sect == 24) | |
sect = 32; | |
} | |
DDAR[disk] = addr & 0xFFFF; /* HJS mod */ | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
break; | |
case 1: /* Write identifier */ | |
if (seekhead[disk] == 0) | |
S = 0; | |
else | |
S = 0x80; | |
N = 23; | |
sect = (S >> 2) & 0x3F; | |
nsects = N + 1; | |
addr = DDAR[disk]; | |
for (i = 0; i < nsects; i++) { | |
for (j = 0; j < DSK_SECTSIZE; j++) { | |
dbuf[j] = GetMem(addr); | |
} | |
r = write_sector(uptr, dbuf, sect); | |
if (r != 1) { | |
diskerr[disk] |= 0x0400; | |
break; | |
} | |
if (sect == 55) { | |
S = sect; | |
N = nsects - i - 2; | |
if (N > 0) diskerr[disk] |= 0x0020; | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
} | |
sect++; | |
S = sect - 1; | |
N = nsects - i - 2; | |
if (sect == 24) | |
sect = 32; | |
} | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
break; | |
default: | |
return STOP_INVDEV; | |
} | |
break; | |
case 0x03: /* Scan */ | |
sect = (S >> 2) & 0x3F; | |
nsects = N + 1; | |
addr = DDAR[disk]; | |
for (i = 0; i < nsects; i++) { | |
r = read_sector(uptr, dbuf, sect); | |
if (r != 1 || uptr->u3 != C) { | |
diskerr[disk] |= 0x0800; | |
break; | |
} | |
res = 0; | |
for (j = 0; j < DSK_SECTSIZE; j++) { | |
c = GetMem(addr); | |
if (j != 0xff) { | |
if (dbuf[i] < c) | |
res = 1; | |
if (dbuf[i] > c) | |
res = 3; | |
} | |
addr++; | |
} | |
if (res == 0) | |
found[disk] = 1; | |
if (res == data) | |
break; | |
if (sect == 55) { /* HJS MODS */ | |
S = sect; | |
N = nsects - i - 2; | |
if (N > -1) diskerr[disk] |= 0x0020; /* end of cyl. */ | |
DDAR[disk] = addr & 0xFFFF; | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
sim_activate(uptr, 1); | |
iodata = SCPE_OK; | |
break; | |
} | |
sect++; | |
S = sect - 1; | |
N = nsects - i - 2; | |
if (sect == 24) | |
sect = 32; | |
} | |
PutMem(DCAR[disk]+2, S << 2); | |
PutMem(DCAR[disk]+3, N); | |
/*sim_activate(uptr, uptr -> wait);*/ | |
sim_activate(uptr, 1); | |
break; | |
default: | |
return STOP_INVDEV; | |
} | |
return iodata; | |
/* LIO 5444 */ | |
case 1: | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT; | |
switch (n) { | |
case 0x04: /* Data Addr */ | |
DDAR[disk] = data; | |
break; | |
case 0x06: /* Control Addr */ | |
DCAR[disk] = data; | |
break; | |
default: | |
return STOP_INVDEV; | |
} | |
return SCPE_OK; | |
/* TIO 5444 */ | |
case 2: | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT << 16; | |
iodata = 0; | |
switch (n) { | |
case 0x00: /* Error */ | |
if (diskerr[disk] || notrdy[disk]) | |
iodata = 1; | |
if ((uptr -> flags & UNIT_ATT) == 0) | |
iodata = 1; | |
break; | |
case 0x02: /* Busy */ | |
if (sim_is_active (uptr)) | |
iodata = 1; | |
break; | |
case 0x04: | |
if (found[disk]) | |
iodata = 1; | |
break; | |
default: | |
return (STOP_INVDEV << 16); | |
} | |
return ((SCPE_OK << 16) | iodata); | |
/* SNS 5444 */ | |
case 3: | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT << 16; | |
iodata = 0; | |
switch (n) { | |
case 0x01: | |
break; | |
case 0x02: | |
iodata = diskerr[disk]; | |
if (notrdy[disk]) | |
iodata |= 0x4000; | |
if ((uptr -> flags & UNIT_ATT) == 0) | |
iodata |= 0x4000; | |
if (seekbusy[disk]) | |
iodata |= 0x0010; | |
if (uptr -> u3 == 0) | |
iodata |= 0x0040; | |
break; | |
case 0x03: | |
iodata = 0; | |
break; | |
case 0x04: | |
iodata = DDAR[disk]; | |
break; | |
case 0x06: | |
iodata = DCAR[disk]; | |
break; | |
default: | |
return (STOP_INVDEV << 16); | |
} | |
iodata |= ((SCPE_OK << 16) & 0xffff0000); | |
return (iodata); | |
/* APL 5444 */ | |
case 4: | |
if ((uptr->flags & UNIT_ATT) == 0) | |
return SCPE_UNATT << 16; | |
iodata = 0; | |
switch (n) { | |
case 0x00: /* Error */ | |
if (diskerr[disk] || notrdy[disk]) | |
iodata = 1; | |
if ((uptr -> flags & UNIT_ATT) == 0) | |
iodata = 1; | |
break; | |
case 0x02: /* Busy */ | |
if (sim_is_active (uptr)) | |
iodata = 1; | |
break; | |
default: | |
return (STOP_INVDEV << 16); | |
} | |
return ((SCPE_OK << 16) | iodata); | |
default: | |
break; | |
} | |
printf (">>DSK%d non-existent function %d\n", disk, op); | |
return SCPE_OK; | |
} | |
/* Disk unit service. If a stacker select is active, copy to the | |
selected stacker. Otherwise, copy to the normal stacker. If the | |
unit is unattached, simply exit. | |
*/ | |
t_stat r1_svc (UNIT *uptr) | |
{ | |
seekbusy[0] = 0; | |
return SCPE_OK; | |
} | |
t_stat f1_svc (UNIT *uptr) | |
{ | |
seekbusy[0] = 0; | |
return SCPE_OK; | |
} | |
t_stat r2_svc (UNIT *uptr) | |
{ | |
seekbusy[1] = 0; | |
return SCPE_OK; | |
} | |
t_stat f2_svc (UNIT *uptr) | |
{ | |
seekbusy[1] = 0; | |
return SCPE_OK; | |
} | |
/* Disk reset */ | |
t_stat r1_reset (DEVICE *dptr) | |
{ | |
diskerr[0] = notrdy[0] = seekbusy[0] = 0; /* clear indicators */ | |
found[0] = 0; | |
sim_cancel (&r1_unit); /* clear event */ | |
r1_unit.u3 = 0; /* cylinder 0 */ | |
return SCPE_OK; | |
} | |
t_stat f1_reset (DEVICE *dptr) | |
{ | |
diskerr[0] = notrdy[0] = seekbusy[0] = 0; /* clear indicators */ | |
found[0] = 0; | |
sim_cancel (&f1_unit); /* clear event */ | |
f1_unit.u3 = 0; /* cylinder 0 */ | |
return SCPE_OK; | |
} | |
t_stat r2_reset (DEVICE *dptr) | |
{ | |
diskerr[1] = notrdy[1] = seekbusy[1] = 0; /* clear indicators */ | |
found[1] = 0; | |
sim_cancel (&r2_unit); /* clear event */ | |
r2_unit.u3 = 0; /* cylinder 0 */ | |
return SCPE_OK; | |
} | |
t_stat f2_reset (DEVICE *dptr) | |
{ | |
diskerr[1] = notrdy[1] = seekbusy[1] = 0; /* clear indicators */ | |
found[1] = 0; | |
sim_cancel (&f2_unit); /* clear event */ | |
f2_unit.u3 = 0; /* cylinder 0 */ | |
return SCPE_OK; | |
} | |
/* Disk unit attach */ | |
t_stat r1_attach (UNIT *uptr, char *cptr) | |
{ | |
diskerr[0] = notrdy[0] = seekbusy[0] = 0; /* clear status */ | |
found[0] = 0; | |
uptr -> u3 = 0; /* cylinder 0 */ | |
return attach_unit (uptr, cptr); | |
} | |
t_stat f1_attach (UNIT *uptr, char *cptr) | |
{ | |
diskerr[0] = notrdy[0] = seekbusy[0] = 0; /* clear status */ | |
found[0] = 0; | |
uptr -> u3 = 0; /* cylinder 0 */ | |
return attach_unit (uptr, cptr); | |
} | |
t_stat r2_attach (UNIT *uptr, char *cptr) | |
{ | |
diskerr[1] = notrdy[1] = seekbusy[1] = 0; /* clear status */ | |
found[1] = 0; | |
uptr -> u3 = 0; /* cylinder 0 */ | |
return attach_unit (uptr, cptr); | |
} | |
t_stat f2_attach (UNIT *uptr, char *cptr) | |
{ | |
diskerr[1] = notrdy[1] = seekbusy[1] = 0; /* clear status */ | |
found[1] = 0; | |
uptr -> u3 = 0; /* cylinder 0 */ | |
return attach_unit (uptr, cptr); | |
} | |
/* Bootstrap routine */ | |
t_stat r1_boot (int32 unitno, DEVICE *dptr) | |
{ | |
int i; | |
r1_unit.u3 = 0; | |
read_sector(r1_dev.units, dbuf, 0); | |
for (i = 0; i < 256; i++) { | |
M[i] = dbuf[i]; | |
} | |
return SCPE_OK; | |
} | |
t_stat f1_boot (int32 unitno, DEVICE *dptr) | |
{ | |
int i; | |
f1_unit.u3 = 0; | |
read_sector(f1_dev.units, dbuf, 0); | |
for (i = 0; i < 256; i++) { | |
M[i] = dbuf[i]; | |
} | |
return SCPE_OK; | |
} | |
t_stat r2_boot (int32 unitno, DEVICE *dptr) | |
{ | |
int i; | |
r2_unit.u3 = 0; | |
read_sector(r2_dev.units, dbuf, 0); | |
for (i = 0; i < 256; i++) { | |
M[i] = dbuf[i]; | |
} | |
return SCPE_OK; | |
} | |
t_stat f2_boot (int32 unitno, DEVICE *dptr) | |
{ | |
int i; | |
f2_unit.u3 = 0; | |
read_sector(f2_dev.units, dbuf, 0); | |
for (i = 0; i < 256; i++) { | |
M[i] = dbuf[i]; | |
} | |
return SCPE_OK; | |
} | |
/* Raw Disk Data In/Out */ | |
int32 read_sector(UNIT *uptr, char *dbuf, int32 sect) | |
{ | |
static int32 rtn, realsect; | |
static long pos; | |
/* calculate real sector no */ | |
if (sect > 23) | |
realsect = sect - 8; | |
else | |
realsect = sect; | |
/* physically read the sector */ | |
pos = DSK_CYLSIZE * uptr -> u3; | |
pos += DSK_SECTSIZE * realsect; | |
rtn = fseek(uptr -> fileref, pos, 0); | |
rtn = fread(dbuf, DSK_SECTSIZE, 1, uptr -> fileref); | |
return (rtn); | |
} | |
int32 write_sector(UNIT *uptr, char *dbuf, int32 sect) | |
{ | |
static int32 rtn, realsect; | |
static long pos; | |
/* calculate real sector no */ | |
if (sect > 23) | |
realsect = sect - 8; | |
else | |
realsect = sect; | |
if (uptr -> u3 == 0 && realsect == 32) | |
rtn = 0; | |
/* physically write the sector */ | |
pos = DSK_CYLSIZE * uptr -> u3; | |
pos += DSK_SECTSIZE * realsect; | |
rtn = fseek(uptr -> fileref, pos, 0); | |
rtn = fwrite(dbuf, DSK_SECTSIZE, 1, uptr -> fileref); | |
return (rtn); | |
} |