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simh-testsetgenerator/PDP8/pdp8_df.c
Bob Supnik 26aa6de663 Notes For V3.2-0 
RESTRICTION: The PDP-15 FPP is only partially debugged.  Do NOT
enable this feature for normal operations.

WARNING: The core simulator files (scp.c, sim_*.c) have been
reorganized.  Unzip V3.2-0 to an empty directory before attempting
to compile the source.

IMPORTANT: If you are compiling for UNIX, please read the notes
for Ethernet very carefully.  You may need to download a new
version of the pcap library, or make changes to the makefile,
to get Ethernet support to work.

1. New Features in 3.2-0

1.1 SCP and libraries

- Added SHOW <device> RADIX command.
- Added SHOW <device> MODIFIERS command.
- Added SHOW <device> NAMES command.
- Added SET/SHOW <device> DEBUG command.
- Added sim_vm_parse_addr and sim_vm_fprint_addr optional interfaces.
- Added REG_VMAD flag.
- Split SCP into separate libraries for easier modification.
- Added more room to the device and unit flag fields.
- Changed terminal multiplexor library to support unlimited.
  number of async lines.

1.2 All DECtapes

- Added STOP_EOR flag to enable end-of-reel error stop
- Added device debug support.

1.3 Nova and Eclipse

- Added QTY and ALM multiplexors (Bruce Ray).

1.4 LGP-30

- Added LGP-30/LGP-21 simulator.

1.5 PDP-11

- Added format, address increment inhibit, transfer overrun
  detection to RK.
- Added device debug support to HK, RP, TM, TQ, TS.
- Added DEUNA/DELUA (XU) support (Dave Hittner).
- Add DZ per-line logging.

1.6 18b PDP's

- Added support for 1-4 (PDP-9)/1-16 (PDP-15) additional
  terminals.

1.7 PDP-10

- Added DEUNA/DELUA (XU) support (Dave Hittner).

1.8 VAX

- Added extended memory to 512MB (Mark Pizzolato).
- Added RXV21 support.

2. Bugs Fixed in 3.2-0

2.1 SCP

- Fixed double logging of SHOW BREAK (found by Mark Pizzolato).
- Fixed implementation of REG_VMIO.

2.2 Nova and Eclipse

- Fixed device enable/disable support (found by Bruce Ray).

2.3 PDP-1

- Fixed bug in LOAD (found by Mark Crispin).

2.4 PDP-10

- Fixed bug in floating point unpack.
- Fixed bug in FIXR (found by Phil Stone, fixed by Chris Smith).

2.6 PDP-11

- Fixed bug in RQ interrupt control (found by Tom Evans).

2.6 PDP-18B

- Fixed bug in PDP-15 XVM g_mode implementation.
- Fixed bug in PDP-15 indexed address calculation.
- Fixed bug in PDP-15 autoindexed address calculation.
- Fixed bugs in FPP-15 instruction decode.
- Fixed clock response to CAF.
- Fixed bug in hardware read-in mode bootstrap.
- Fixed PDP-15 XVM instruction decoding errors.

2.7 VAX

- Fixed PC read fault in EXTxV.
- Fixed PC write fault in INSV.
2011-04-15 08:34:26 -07:00

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/* pdp8_df.c: DF32 fixed head disk simulator
Copyright (c) 1993-2004, 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.
df DF32 fixed head disk
04-Jan-04 RMS Changed sim_fsize calling sequence
26-Oct-03 RMS Cleaned up buffer copy code
26-Jul-03 RMS Fixed bug in set size routine
14-Mar-03 RMS Fixed variable platter interaction with save/restore
03-Mar-03 RMS Fixed autosizing
02-Feb-03 RMS Added variable platter and autosizing support
04-Oct-02 RMS Added DIBs, device number support
28-Nov-01 RMS Added RL8A support
25-Apr-01 RMS Added device enable/disable support
The DF32 is a head-per-track disk. It uses the three cycle data break
facility. To minimize overhead, the entire DF32 is buffered in memory.
Two timing parameters are provided:
df_time Interword timing, must be non-zero
df_burst Burst mode, if 0, DMA occurs cycle by cycle; otherwise,
DMA occurs in a burst
*/
#include "pdp8_defs.h"
#include <math.h>
#define UNIT_V_AUTO (UNIT_V_UF + 0) /* autosize */
#define UNIT_V_PLAT (UNIT_V_UF + 1) /* #platters - 1 */
#define UNIT_M_PLAT 03
#define UNIT_PLAT (UNIT_M_PLAT << UNIT_V_PLAT)
#define UNIT_GETP(x) ((((x) >> UNIT_V_PLAT) & UNIT_M_PLAT) + 1)
#define UNIT_AUTO (1 << UNIT_V_AUTO)
#define UNIT_PLAT (UNIT_M_PLAT << UNIT_V_PLAT)
/* Constants */
#define DF_NUMWD 2048 /* words/track */
#define DF_NUMTR 16 /* tracks/disk */
#define DF_DKSIZE (DF_NUMTR * DF_NUMWD) /* words/disk */
#define DF_NUMDK 4 /* disks/controller */
#define DF_WC 07750 /* word count */
#define DF_MA 07751 /* mem address */
#define DF_WMASK (DF_NUMWD - 1) /* word mask */
/* Parameters in the unit descriptor */
#define FUNC u4 /* function */
#define DF_READ 2 /* read */
#define DF_WRITE 4 /* write */
/* Status register */
#define DFS_PCA 04000 /* photocell status */
#define DFS_DEX 03700 /* disk addr extension */
#define DFS_MEX 00070 /* mem addr extension */
#define DFS_DRL 00004 /* data late error */
#define DFS_WLS 00002 /* write lock error */
#define DFS_NXD 00002 /* non-existent disk */
#define DFS_PER 00001 /* parity error */
#define DFS_ERR (DFS_DRL | DFS_WLS | DFS_PER)
#define DFS_V_DEX 6
#define DFS_V_MEX 3
#define GET_MEX(x) (((x) & DFS_MEX) << (12 - DFS_V_MEX))
#define GET_DEX(x) (((x) & DFS_DEX) << (12 - DFS_V_DEX))
#define GET_POS(x) ((int) fmod (sim_gtime() / ((double) (x)), \
((double) DF_NUMWD)))
#define UPDATE_PCELL if (GET_POS (df_time) < 6) df_sta = df_sta | DFS_PCA; \
else df_sta = df_sta & ~DFS_PCA
extern uint16 M[];
extern int32 int_req, stop_inst;
extern UNIT cpu_unit;
int32 df_sta = 0; /* status register */
int32 df_da = 0; /* disk address */
int32 df_done = 0; /* done flag */
int32 df_wlk = 0; /* write lock */
int32 df_time = 10; /* inter-word time */
int32 df_burst = 1; /* burst mode flag */
int32 df_stopioe = 1; /* stop on error */
DEVICE df_dev;
int32 df60 (int32 IR, int32 AC);
int32 df61 (int32 IR, int32 AC);
int32 df62 (int32 IR, int32 AC);
t_stat df_svc (UNIT *uptr);
t_stat pcell_svc (UNIT *uptr);
t_stat df_reset (DEVICE *dptr);
t_stat df_boot (int32 unitno, DEVICE *dptr);
t_stat df_attach (UNIT *uptr, char *cptr);
t_stat df_set_size (UNIT *uptr, int32 val, char *cptr, void *desc);
/* DF32 data structures
df_dev RF device descriptor
df_unit RF unit descriptor
pcell_unit photocell timing unit (orphan)
df_reg RF register list
*/
DIB df_dib = { DEV_DF, 3, { &df60, &df61, &df62 } };
UNIT df_unit =
{ UDATA (&df_svc, UNIT_FIX+UNIT_ATTABLE+
UNIT_BUFABLE+UNIT_MUSTBUF, DF_DKSIZE) };
REG df_reg[] = {
{ ORDATA (STA, df_sta, 12) },
{ ORDATA (DA, df_da, 12) },
{ ORDATA (WC, M[DF_WC], 12) },
{ ORDATA (MA, M[DF_MA], 12) },
{ FLDATA (DONE, df_done, 0) },
{ FLDATA (INT, int_req, INT_V_DF) },
{ ORDATA (WLS, df_wlk, 8) },
{ DRDATA (TIME, df_time, 24), REG_NZ + PV_LEFT },
{ FLDATA (BURST, df_burst, 0) },
{ FLDATA (STOP_IOE, df_stopioe, 0) },
{ DRDATA (CAPAC, df_unit.capac, 18), REG_HRO },
{ ORDATA (DEVNUM, df_dib.dev, 6), REG_HRO },
{ NULL } };
MTAB df_mod[] = {
{ UNIT_PLAT, (0 << UNIT_V_PLAT), NULL, "1P", &df_set_size },
{ UNIT_PLAT, (1 << UNIT_V_PLAT), NULL, "2P", &df_set_size },
{ UNIT_PLAT, (2 << UNIT_V_PLAT), NULL, "3P", &df_set_size },
{ UNIT_PLAT, (3 << UNIT_V_PLAT), NULL, "4P", &df_set_size },
{ MTAB_XTD|MTAB_VDV, 0, "DEVNO", "DEVNO",
&set_dev, &show_dev, NULL },
{ 0 } };
DEVICE df_dev = {
"DF", &df_unit, df_reg, df_mod,
1, 8, 17, 1, 8, 12,
NULL, NULL, &df_reset,
&df_boot, &df_attach, NULL,
&df_dib, DEV_DISABLE };
/* IOT routines */
int32 df60 (int32 IR, int32 AC)
{
int32 t;
int32 pulse = IR & 07;
UPDATE_PCELL; /* update photocell */
if (pulse & 1) { /* DCMA */
df_da = 0; /* clear disk addr */
df_done = 0; /* clear done */
df_sta = df_sta & ~DFS_ERR; /* clear errors */
int_req = int_req & ~INT_DF; } /* clear int req */
if (pulse & 6) { /* DMAR, DMAW */
df_da = df_da | AC; /* disk addr |= AC */
df_unit.FUNC = pulse & ~1; /* save function */
t = (df_da & DF_WMASK) - GET_POS (df_time); /* delta to new loc */
if (t < 0) t = t + DF_NUMWD; /* wrap around? */
sim_activate (&df_unit, t * df_time); /* schedule op */
AC = 0; } /* clear AC */
return AC;
}
/* Based on the hardware implementation. DEAL and DEAC work as follows:
6615 pulse 1 = clear df_sta<dex,mex>
pulse 4 = df_sta = df_sta | AC<dex,mex>
AC = AC | old_df_sta
6616 pulse 2 = clear AC, skip if address confirmed
pulse 4 = df_sta = df_sta | AC<dex,mex> = 0 (nop)
AC = AC | old_df_sta
*/
int32 df61 (int32 IR, int32 AC)
{
int32 old_df_sta = df_sta;
int32 pulse = IR & 07;
UPDATE_PCELL; /* update photocell */
if (pulse & 1) /* DCEA */
df_sta = df_sta & ~(DFS_DEX | DFS_MEX); /* clear dex, mex */
if (pulse & 2) /* DSAC */
AC = ((df_da & DF_WMASK) == GET_POS (df_time))? IOT_SKP: 0;
if (pulse & 4) {
df_sta = df_sta | (AC & (DFS_DEX | DFS_MEX)); /* DEAL */
AC = AC | old_df_sta; } /* DEAC */
return AC;
}
int32 df62 (int32 IR, int32 AC)
{
int32 pulse = IR & 07;
UPDATE_PCELL; /* update photocell */
if (pulse & 1) { /* DFSE */
if ((df_sta & DFS_ERR) == 0) AC = AC | IOT_SKP; }
if (pulse & 2) { /* DFSC */
if (pulse & 4) AC = AC & ~07777; /* for DMAC */
else if (df_done) AC = AC | IOT_SKP; }
if (pulse & 4) AC = AC | df_da; /* DMAC */
return AC;
}
/* Unit service
Note that for reads and writes, memory addresses wrap around in the
current field. This code assumes the entire disk is buffered.
*/
t_stat df_svc (UNIT *uptr)
{
int32 pa, t, mex;
uint32 da;
int16 *fbuf = uptr->filebuf;
UPDATE_PCELL; /* update photocell */
if ((uptr->flags & UNIT_BUF) == 0) { /* not buf? abort */
df_done = 1;
int_req = int_req | INT_DF; /* update int req */
return IORETURN (df_stopioe, SCPE_UNATT); }
mex = GET_MEX (df_sta);
da = GET_DEX (df_sta) | df_da; /* form disk addr */
do { if (da >= uptr->capac) { /* nx disk addr? */
df_sta = df_sta | DFS_NXD;
break; }
M[DF_WC] = (M[DF_WC] + 1) & 07777; /* incr word count */
M[DF_MA] = (M[DF_MA] + 1) & 07777; /* incr mem addr */
pa = mex | M[DF_MA]; /* add extension */
if (uptr->FUNC == DF_READ) { /* read? */
if (MEM_ADDR_OK (pa)) M[pa] = fbuf[da]; } /* if !nxm, read wd */
else { /* write */
t = (da >> 14) & 07; /* check wr lock */
if ((df_wlk >> t) & 1) /* locked? set err */
df_sta = df_sta | DFS_WLS;
else { /* not locked */
fbuf[da] = M[pa]; /* write word */
if (da >= uptr->hwmark) uptr->hwmark = da + 1; } }
da = (da + 1) & 0377777; } /* incr disk addr */
while ((M[DF_WC] != 0) && (df_burst != 0)); /* brk if wc, no brst */
if ((M[DF_WC] != 0) && ((df_sta & DFS_ERR) == 0)) /* more to do? */
sim_activate (&df_unit, df_time); /* sched next */
else { if (uptr->FUNC != DF_READ) da = (da - 1) & 0377777;
df_done = 1; /* done */
int_req = int_req | INT_DF; } /* update int req */
df_sta = (df_sta & ~DFS_DEX) | ((da >> (12 - DFS_V_DEX)) & DFS_DEX);
df_da = da & 07777; /* separate disk addr */
return SCPE_OK;
}
/* Reset routine */
t_stat df_reset (DEVICE *dptr)
{
df_sta = df_da = 0;
df_done = 1;
int_req = int_req & ~INT_DF; /* clear interrupt */
sim_cancel (&df_unit);
return SCPE_OK;
}
/* Bootstrap routine */
#define OS8_START 07750
#define OS8_LEN (sizeof (os8_rom) / sizeof (int16))
#define DM4_START 00200
#define DM4_LEN (sizeof (dm4_rom) / sizeof (int16))
static const uint16 os8_rom[] = {
07600, /* 7750, CLA CLL ; also word count */
06603, /* 7751, DMAR ; also address */
06622, /* 7752, DFSC ; done? */
05352, /* 7753, JMP .-1 ; no */
05752 /* 7754, JMP @.-2 ; enter boot */
};
static const uint16 dm4_rom[] = {
00200, 07600, /* 0200, CLA CLL */
00201, 06603, /* 0201, DMAR ; read */
00202, 06622, /* 0202, DFSC ; done? */
00203, 05202, /* 0203, JMP .-1 ; no */
00204, 05600, /* 0204, JMP @.-4 ; enter boot */
07750, 07576, /* 7750, 7576 ; word count */
07751, 07576 /* 7751, 7576 ; address */
};
t_stat df_boot (int32 unitno, DEVICE *dptr)
{
int32 i;
extern int32 sim_switches, saved_PC;
if (sim_switches & SWMASK ('D')) {
for (i = 0; i < DM4_LEN; i = i + 2)
M[dm4_rom[i]] = dm4_rom[i + 1];
saved_PC = DM4_START; }
else { for (i = 0; i < OS8_LEN; i++)
M[OS8_START + i] = os8_rom[i];
saved_PC = OS8_START; }
return SCPE_OK;
}
/* Attach routine */
t_stat df_attach (UNIT *uptr, char *cptr)
{
uint32 p, sz;
uint32 ds_bytes = DF_DKSIZE * sizeof (int16);
t_stat r;
r = attach_unit (uptr, cptr);
if (r != SCPE_OK) return r;
if ((uptr->flags & UNIT_AUTO) && (sz = sim_fsize (uptr->fileref))) {
p = (sz + ds_bytes - 1) / ds_bytes;
if (p >= DF_NUMDK) p = DF_NUMDK - 1;
uptr->flags = (uptr->flags & ~UNIT_PLAT) |
(p << UNIT_V_PLAT); }
uptr->capac = UNIT_GETP (uptr->flags) * DF_DKSIZE;
return SCPE_OK;
}
/* Change disk size */
t_stat df_set_size (UNIT *uptr, int32 val, char *cptr, void *desc)
{
if (val < 0) return SCPE_IERR;
if (uptr->flags & UNIT_ATT) return SCPE_ALATT;
uptr->capac = UNIT_GETP (val) * DF_DKSIZE;
uptr->flags = uptr->flags & ~UNIT_AUTO;
return SCPE_OK;
}
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