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simh-testsetgenerator/NOVA/nova_dsk.c
Bob Supnik df6475181c Notes For V2.9-11 
1. New Features

1.1 GRI-909

- This is a new simulator for the GRI-909.
- It has been hand-tested; so far, no software has been discovered.

1.2 VAX

- SET CPU CONHALT will cause a HALT instruction to return to the
  boot ROM console rather than to SIMH.  SET CPU SIMHALT restores
  the default behavior.
- BRB/W self at IPL 1F stops the simulator.  This is the default
  behavior of VMS at exit.

1.3 PDP-18b

- ATTACH -A PTR/PTP attaches the reader and punch in ASCII mode.
  In ASCII mode, the reader automatically sets the high order bit
  of incoming alphabetic data, and the punch clears the high order
  bit of outgoing data.

1.4 SCP

- DO -V echoes commands from the file as they are executed.
- Under Windows, execution priority is set BELOW_NORMAL when the
  simulator is running.

2. Release Notes

2.1 Bugs Fixed

- PDP-11 CPU: fixed updating of MMR0 on a memory management error.
- VAX FPA: changed function names to avoid conflict with C math library.
- 1401 MT: read end of record generates group mark without word mark.
- 1401 DP: fixed address generation and checking.
- SCP: an EXIT within a DO command will cause the simulator to exit.

3. In Progress

- Interdata 16b/32b: coded, not tested.
- SDS 940: coded, not tested.
- IBM 1620: coded, not tested.

If you would like to help with the debugging of the untested simulators,
they can be made available by special request.
2011-04-15 08:33:43 -07:00

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/* nova_dsk.c: 4019 fixed head disk simulator
Copyright (c) 1993-2002, Robert M. Supnik
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 Robert M Supnik shall not
be used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
dsk fixed head disk
06-Jan-02 RMS Revised enable/disable support
23-Aug-01 RMS Fixed bug in write watermarking
26-Apr-01 RMS Added device enable/disable support
10-Dec-00 RMS Added Eclipse support
15-Oct-00 RMS Editorial changes
14-Apr-99 RMS Changed t_addr to unsigned
The 4019 is a head-per-track disk. To minimize overhead, the entire disk
is buffered in memory.
*/
#include "nova_defs.h"
#include <math.h>
/* Constants */
#define DSK_NUMWD 256 /* words/sector */
#define DSK_NUMSC 8 /* sectors/track */
#define DSK_NUMTR 128 /* tracks/disk */
#define DSK_NUMDK 8 /* disks/controller */
#define DSK_SCSIZE (DSK_NUMDK*DSK_NUMTR*DSK_NUMSC) /* sectors/drive */
#define DSK_AMASK (DSK_SCSIZE - 1) /* address mask */
#define DSK_SIZE (DSK_SCSIZE * DSK_NUMWD) /* words/drive */
#define GET_DISK(x) (((x) / (DSK_NUMSC * DSK_NUMTR)) & (DSK_NUMDK - 1))
/* Parameters in the unit descriptor */
#define FUNC u4 /* function */
/* Status register */
#define DSKS_WLS 020 /* write lock status */
#define DSKS_DLT 010 /* data late error */
#define DSKS_NSD 004 /* non-existent disk */
#define DSKS_CRC 002 /* parity error */
#define DSKS_ERR 001 /* error summary */
#define DSKS_ALLERR (DSKS_WLS | DSKS_DLT | DSKS_NSD | DSKS_CRC | DSKS_ERR)
/* Map logical sector numbers to physical sector numbers
(indexed by track<2:0>'sector)
*/
static const int32 sector_map[] = {
0, 2, 4, 6, 1, 3, 5, 7, 1, 3, 5, 7, 2, 4, 6, 0,
2, 4, 6, 0, 3, 5, 7, 1, 3, 5, 7, 1, 4, 6, 0, 2,
4, 6, 0, 2, 5, 7, 1, 3, 5, 7, 1, 3, 6, 0, 2, 4,
6, 0, 2, 4, 7, 1, 3, 5, 7, 1, 3, 5, 0, 2, 4, 6 };
#define DSK_MMASK 077
#define GET_SECTOR(x) ((int) fmod (sim_gtime() / ((double) (x)), \
((double) DSK_NUMSC)))
extern uint16 M[];
extern UNIT cpu_unit;
extern int32 int_req, dev_busy, dev_done, dev_disable, iot_enb;
int32 dsk_stat = 0; /* status register */
int32 dsk_da = 0; /* disk address */
int32 dsk_ma = 0; /* memory address */
int32 dsk_wlk = 0; /* wrt lock switches */
int32 dsk_stopioe = 1; /* stop on error */
int32 dsk_time = 100; /* time per sector */
t_stat dsk_svc (UNIT *uptr);
t_stat dsk_reset (DEVICE *dptr);
t_stat dsk_boot (int32 unitno);
/* DSK data structures
dsk_dev device descriptor
dsk_unit unit descriptor
dsk_reg register list
*/
UNIT dsk_unit =
{ UDATA (&dsk_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_BUFABLE+UNIT_MUSTBUF,
DSK_SIZE) };
REG dsk_reg[] = {
{ ORDATA (STAT, dsk_stat, 16) },
{ ORDATA (DA, dsk_da, 16) },
{ ORDATA (MA, dsk_ma, 16) },
{ FLDATA (BUSY, dev_busy, INT_V_DSK) },
{ FLDATA (DONE, dev_done, INT_V_DSK) },
{ FLDATA (DISABLE, dev_disable, INT_V_DSK) },
{ FLDATA (INT, int_req, INT_V_DSK) },
{ ORDATA (WLK, dsk_wlk, 8) },
{ DRDATA (TIME, dsk_time, 24), REG_NZ + PV_LEFT },
{ FLDATA (STOP_IOE, dsk_stopioe, 0) },
{ FLDATA (*DEVENB, iot_enb, INT_V_DSK), REG_HRO },
{ NULL } };
MTAB dsk_mod[] = {
{ MTAB_XTD|MTAB_VDV, INT_DSK, NULL, "ENABLED", &set_enb },
{ MTAB_XTD|MTAB_VDV, INT_DSK, NULL, "DISABLED", &set_dsb },
{ 0 } };
DEVICE dsk_dev = {
"DK", &dsk_unit, dsk_reg, dsk_mod,
1, 8, 21, 1, 8, 16,
NULL, NULL, &dsk_reset,
&dsk_boot, NULL, NULL };
/* IOT routine */
int32 dsk (int32 pulse, int32 code, int32 AC)
{
int32 t, rval;
rval = 0;
switch (code) { /* decode IR<5:7> */
case ioDIA: /* DIA */
rval = dsk_stat & DSKS_ALLERR; /* read status */
break;
case ioDOA: /* DOA */
dsk_da = AC & DSK_AMASK; /* save disk addr */
break;
case ioDIB: /* DIB */
rval = dsk_ma & AMASK; /* read mem addr */
break;
case ioDOB: /* DOB */
dsk_ma = AC & AMASK; /* save mem addr */
break; } /* end switch code */
if (pulse) { /* any pulse? */
dev_busy = dev_busy & ~INT_DSK; /* clear busy */
dev_done = dev_done & ~INT_DSK; /* clear done */
int_req = int_req & ~INT_DSK; /* clear int */
dsk_stat = 0; /* clear status */
sim_cancel (&dsk_unit); } /* stop I/O */
if ((pulse == iopP) && ((dsk_wlk >> GET_DISK (dsk_da)) & 1)) { /* wrt lock? */
dev_done = dev_done | INT_DSK; /* set done */
int_req = (int_req & ~INT_DEV) | (dev_done & ~dev_disable);
dsk_stat = DSKS_ERR + DSKS_WLS; /* set status */
return rval; }
if (pulse & 1) { /* read or write? */
if (((t_addr) (dsk_da * DSK_NUMWD)) >= dsk_unit.capac) { /* inv sev? */
dev_done = dev_done | INT_DSK; /* set done */
int_req = (int_req & ~INT_DEV) | (dev_done & ~dev_disable);
dsk_stat = DSKS_ERR + DSKS_NSD; /* set status */
return rval; } /* done */
dsk_unit.FUNC = pulse; /* save command */
dev_busy = dev_busy | INT_DSK; /* set busy */
t = sector_map[dsk_da & DSK_MMASK] - GET_SECTOR (dsk_time);
if (t < 0) t = t + DSK_NUMSC;
sim_activate (&dsk_unit, t * dsk_time); } /* activate */
return rval;
}
/* Unit service */
t_stat dsk_svc (UNIT *uptr)
{
int32 i, da, pa;
dev_busy = dev_busy & ~INT_DSK; /* clear busy */
dev_done = dev_done | INT_DSK; /* set done */
int_req = (int_req & ~INT_DEV) | (dev_done & ~dev_disable);
if ((uptr -> flags & UNIT_BUF) == 0) { /* not buf? abort */
dsk_stat = DSKS_ERR + DSKS_NSD; /* set status */
return IORETURN (dsk_stopioe, SCPE_UNATT); }
da = dsk_da * DSK_NUMWD; /* calc disk addr */
if (uptr -> FUNC == iopS) { /* read? */
for (i = 0; i < DSK_NUMWD; i++) { /* copy sector */
pa = MapAddr (0, (dsk_ma + i) & AMASK); /* map address */
if (MEM_ADDR_OK (pa)) M[pa] =
*(((int16 *) uptr -> filebuf) + da + i); }
dsk_ma = (dsk_ma + DSK_NUMWD) & AMASK; }
if (uptr -> FUNC == iopP) { /* write? */
for (i = 0; i < DSK_NUMWD; i++) { /* copy sector */
pa = MapAddr (0, (dsk_ma + i) & AMASK); /* map address */
*(((int16 *) uptr -> filebuf) + da + i) = M[pa]; }
if (((t_addr) (da + i)) >= uptr -> hwmark) /* past end? */
uptr -> hwmark = da + i + 1; /* upd hwmark */
dsk_ma = (dsk_ma + DSK_NUMWD + 3) & AMASK; }
dsk_stat = 0; /* set status */
return SCPE_OK;
}
/* Reset routine */
t_stat dsk_reset (DEVICE *dptr)
{
dsk_stat = dsk_da = dsk_ma = 0;
dev_busy = dev_busy & ~INT_DSK; /* clear busy */
dev_done = dev_done & ~INT_DSK; /* clear done */
int_req = int_req & ~INT_DSK; /* clear int */
sim_cancel (&dsk_unit);
return SCPE_OK;
}
/* Bootstrap routine */
#define BOOT_START 2000
#define BOOT_LEN (sizeof (boot_rom) / sizeof (int))
static const int32 boot_rom[] = {
060220, /* NIOC DSK ; clear disk */
0102400, /* SUB 0,0 ; addr = 0 */
061020, /* DOA 0,DSK ; set disk addr */
062120, /* DOBS 0,DSK ; set mem addr, rd */
063620, /* SKPDN DSK ; done? */
000776, /* JMP .-2 */
000377, /* JMP 377 */
};
t_stat dsk_boot (int32 unitno)
{
int32 i;
extern int32 saved_PC;
for (i = 0; i < BOOT_LEN; i++) M[BOOT_START + i] = boot_rom[i];
saved_PC = BOOT_START;
return SCPE_OK;
}
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