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simh-testsetgenerator/SDS/sds_rad.c
Bob Supnik 1da2d9452d Notes For V3.1-0 
RESTRICTION: The FP15 and XVM features of the PDP-15 are only partially
debugged.  Do NOT enable these features for normal operations.

1. New Features in 3.1-0

1.1 SCP and libraries

- Added simulated Ethernet support for VMS, FreeBSD, Mac OS/X.
- Added status return to tmxr_putc_ln.
- Added sim_putchar_s to handle possible output stalls.

1.2 All DECtapes

- Added "DECtape off reel" error stop.

1.3 All Asynchronous Consoles

- Added support for output congestion stall if using a Telnet connection.

1.4 PDP-1

- Added Type 23 parallel drum support.

1.5 PDP-8

- Added instruction history.
- Added TSC8-75 option support for ETOS.
- Added TD8E DECtape support.

1.6 PDP-18b

- Added instruction history.
- Changed PDP-9, PDP-15 API default to enabled.

1.7 PDP-11

- Added support for 18b only Qbus devices.
- Formalized bus and addressing definitions.
- Added control to enable/disable autoconfiguration.
- Added stub support for second Unibus Ethernet controller.

1.7 Interdata 32b

- Added instruction history.

1.8 Eclipse

- Added floating point support.
- Added programmable interval timer support.

1.9 H316

- Added DMA/DMC support.
- Added fixed head disk support.
- Added moving head disk support.
- Added magtape support.

1.10 IBM 1130 (Brian Knittel)

- Added support for physical card reader, using the Cardread
interface (www.ibm1130.org/sim/downloads).
- Added support for physical printer (flushes output buffer after
each line).

2. Bugs Fixed in 3.1-0

2.1 SCP and libraries

- Fixed numerous bugs in Ethernet library.

2.2 All DECtapes

- Fixed reverse checksum value in 'read all' mode.
- Simplified (and sped up) timing.

2.3 PDP-8

- Fixed bug in RX28 read status (found by Charles Dickman).
- Fixed RX28 double density write.

2.4 PDP-18b

- Fixed autoincrement bug in PDP-4, PDP-7, PDP-9.

2.5 PDP-11/VAX

- Revised RQ MB->LBN conversion for greater accuracy.
- Fixed bug in IO configuration (found by David Hittner).
- Fixed bug with multiple RQ RAUSER drives.
- Fixed bug in second Qbus Ethernet controller interrupts.

2.6 Nova/Eclipse

- Fixed bugs in DKP flag clear, map setup, map usage (Charles Owen).
- Fixed bug in MT, reset completes despite I/O reset (Charles Owen).
- Fixed bug in MT, space operations return word count (Charles Owen).

2.7 IBM 1130 (Brian Knittel)

- Fixed bug in setting carry bit in subtract and subtract double.
- Fixed timing problem in console printer simulation.

2.8 1620

- Fixed bug in branch digit (found by Dave Babcock).

3. New Features in 3.0 vs prior releases

3.1 SCP and Libraries

- Added ASSIGN/DEASSIGN (logical name) commands.
- Changed RESTORE to unconditionally detach files.
- Added E11 and TPC format support to magtape library.
- Fixed bug in SHOW CONNECTIONS.
- Added USE_ADDR64 support.

3.2 All magtapes

- Magtapes support SIMH format, E11 format, and TPC format (read only).
- SET <tape_unit> FORMAT=format sets the specified tape unit's format.
- SHOW <tape_unit> FORMAT displays the specified tape unit's format.
- Tape format can also be set as part of the ATTACH command, using
  the -F switch.

3.3 VAX

- VAX can be compiled without USE_INT64.
- If compiled with USE_INT64 and USE_ADDR64, RQ and TQ controllers support
  files > 2GB.
- VAX ROM has speed control (SET ROM DELAY/NODELAY).

3.4 PDP-1

- Added block loader format support to LOAD.
- Changed BOOT PTR to allow loading of all of the first bank of memory.
- The LOAD command takes an optional argument specifying the memory field
  to be loaded.
- The PTR BOOT command takes its starting memory field from the TA (address
  switch) register.

3.5 PDP-18b Family

- Added PDP-4 EAE support.
- Added PDP-15 FP15 support.
- Added PDP-15 XVM support.
- Added PDP-15 "re-entrancy ECO".
- Added PDP-7, PDP-9, PDP-15 hardware RIM loader support in BOOT PTR.

4. Bugs Fixed in 3.0 vs prior releases

4.1 SCP and Libraries

- Fixed end of file problem in dep, idep.
- Fixed handling of trailing spaces in dep, idep.

4.2 VAX

- Fixed CVTfi bug: integer overflow not set if exponent out of range
- Fixed EMODx bugs:
  o First and second operands reversed
  o Separated fraction received wrong exponent
  o Overflow calculation on separated integer incorrect
  o Fraction not set to zero if exponent out of range
- Fixed interval timer and ROM access to pass power-up self-test even on very
  fast host processors (fixes from Mark Pizzolato).
- Fixed bug in user disk size (found by Chaskiel M Grundman).

4.3 1401

- Fixed mnemonic, instruction lengths, and reverse scan length check bug for MCS.
- Fixed MCE bug, BS off by 1 if zero suppress.
- Fixed chaining bug, D lost if return to SCP.
- Fixed H branch, branch occurs after continue.
- Added check for invalid 8 character MCW, LCA.
- Fixed magtape load-mode end of record response.
- Revised fetch to model hardware more closely.
- Fixed tape read end-of-record handling based on real 1401.
- Added diagnostic read (space forward).

4.4 Nova

- Fixed DSK variable size interaction with restore.
- Fixed bug in DSK set size routine.

4.5 PDP-1

- Fixed DT variable size interaction with restore.
- Updated CPU, line printer, standard devices to detect indefinite I/O wait.
- Fixed incorrect logical, missing activate, break in drum simulator.
- Fixed bugs in instruction decoding, overprinting for line printer.
- Fixed system hang if continue after PTR error.
- Fixed PTR to start/stop on successive rpa instructions.

4.6 PDP-11

- Fixed DT variable size interaction with restore.
- Fixed bug in MMR1 update (found by Tim Stark).
- Added XQ features and fixed bugs:
  o Corrected XQ interrupts on IE state transition (code by Tom Evans).
  o Added XQ interrupt clear on soft reset.
  o Removed XQ interrupt when setting XL or RL (multiple people).
  o Added SET/SHOW XQ STATS.
  o Added SHOW XQ FILTERS.
  o Added ability to split received packet into multiple buffers.
  o Added explicit runt and giant packet processing.
- Fixed bug in user disk size (found by Chaskiel M Grundman).

4.7 PDP-18B

- Fixed DT, RF variable size interaction with restore.
- Fixed MT bug in MTTR.
- Fixed bug in PDP-4 line printer overprinting.
- Fixed bug in PDP-15 memory protect/skip interaction.
- Fixed bug in RF set size routine.
- Increased PTP TIME for PDP-15 operating systems.
- Fixed priorities in PDP-15 API (differs from PDP-9).
- Fixed sign handling in PDP-15 EAE unsigned mul/div (differs from PDP-9).
- Fixed bug in CAF, clears API subsystem.

4.8 PDP-8

- Fixed DT, DF, RF, RX variable size interaction with restore.
- Fixed MT bug in SKTR.
- Fixed bug in DF, RF set size routine.

4.9 HP2100

- Fixed bug in DP (13210A controller only), DQ read status.
- Fixed bug in DP, DQ seek complete.
- Fixed DR drum sizes.
- Fixed DR variable capacity interaction with SAVE/RESTORE.

4.10 GRI

- Fixed bug in SC queue pointer management.

4.11 PDP-10

- Fixed bug in RP read header.

4.12 Ibm1130

- Fixed bugs found by APL 1130.

4.13 Altairz80

- Fixed bug in real-time clock on Windows host.

4.14 1620

- Fixed bug in immediate index add (found by Michael Short).
2011-04-15 08:34:20 -07:00

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/* sds_rad.c: SDS 940 fixed head disk simulator
Copyright (c) 2001-2003, 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.
rad fixed head disk
The fixed head disk is a head-per-track disk, with up to four disks. Each
disk is divided into two logical units. Reads and writes cannot cross logical
unit boundaries. The fixed head disk transfers 12b characters, rather than 6b
characters. To minimize overhead, the disk is buffered in memory.
*/
#include "sds_defs.h"
#include <math.h>
/* Constants */
#define RAD_NUMWD 64 /* words/sector */
#define RAD_NUMSC 64 /* sectors/track */
#define RAD_NUMTR 64 /* tracks/log unit */
#define RAD_NUMLU 8 /* log units/ctrl */
#define RAD_SCSIZE (RAD_NUMLU*RAD_NUMTR*RAD_NUMSC) /* sectors/disk */
#define RAD_AMASK (RAD_SCSIZE - 1) /* sec addr mask */
#define RAD_SIZE (RAD_SCSIZE * RAD_NUMWD) /* words/disk */
#define RAD_GETLUN(x) ((x) / (RAD_NUMTR * RAD_NUMSC))
#define RAD_SCMASK (RAD_NUMSC - 1) /* sector mask */
#define RAD_TRSCMASK ((RAD_NUMSC * RAD_NUMTR) - 1) /* track/sec mask */
#define GET_SECTOR(x) ((int) fmod (sim_gtime() / ((double) (x)), \
((double) RAD_NUMSC)))
extern uint32 xfr_req;
extern uint32 alert;
extern int32 stop_invins, stop_invdev, stop_inviop;
int32 rad_err = 0; /* error */
int32 rad_nobi = 0; /* !incr x track */
int32 rad_da = 0; /* disk address */
int32 rad_sba = 0; /* sec byte addr */
int32 rad_wrp = 0; /* write prot */
int32 rad_time = 2; /* time per 12b */
int32 rad_stopioe = 1; /* stop on error */
DSPT rad_tplt[] = { /* template */
{ 1, 0 }, { 1, DEV_OUT }, { 0, 0 } };
DEVICE rad_dev;
t_stat rad_svc (UNIT *uptr);
t_stat rad_reset (DEVICE *dptr);
t_stat rad_fill (int32 sba);
void rad_end_op (int32 fl);
int32 rad_adjda (int32 sba, int32 inc);
t_stat rad (uint32 fnc, uint32 inst, uint32 *dat);
/* RAD data structures
rad_dev device descriptor
rad_unit unit descriptor
rad_reg register list
*/
DIB rad_dib = { CHAN_E, DEV_RAD, XFR_RAD, rad_tplt, &rad };
UNIT rad_unit =
{ UDATA (&rad_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_BUFABLE+UNIT_MUSTBUF,
RAD_SIZE) };
REG rad_reg[] = {
{ ORDATA (DA, rad_da, 15) },
{ GRDATA (SA, rad_sba, 8, 6, 1) },
{ FLDATA (BP, rad_sba, 0) },
{ FLDATA (XFR, xfr_req, XFR_V_RAD) },
{ FLDATA (NOBD, rad_nobi, 0) },
{ FLDATA (ERR, rad_err, 0) },
{ ORDATA (PROT, rad_wrp, 8) },
{ DRDATA (TIME, rad_time, 24), REG_NZ + PV_LEFT },
{ FLDATA (STOP_IOE, rad_stopioe, 0) },
{ NULL } };
MTAB rad_mod[] = {
{ MTAB_XTD|MTAB_VDV, 0, "CHANNEL", "CHANNEL",
&set_chan, &show_chan, NULL },
{ 0 } };
DEVICE rad_dev = {
"RAD", &rad_unit, rad_reg, rad_mod,
1, 8, 21, 1, 8, 24,
NULL, NULL, &rad_reset,
NULL, NULL, NULL,
&rad_dib, DEV_DISABLE };
/* Fixed head disk routine
conn - inst = EOM0, dat = NULL
eom1 - inst = EOM1, dat = NULL
sks - inst = SKS, dat = ptr to result
disc - inst = device number, dat = NULL
wreor - inst = device number, dat = NULL
read - inst = device number, dat = ptr to data
write - inst = device number, dat = ptr to result
*/
t_stat rad (uint32 fnc, uint32 inst, uint32 *dat)
{
int32 t, lun, new_ch;
uint32 p;
uint32 *fbuf = rad_unit.filebuf;
switch (fnc) { /* case function */
case IO_CONN: /* connect */
new_ch = I_GETEOCH (inst); /* get new chan */
if (new_ch != rad_dib.chan) return SCPE_IERR; /* wrong chan? */
if (CHC_GETCPW (inst) > 1) return STOP_INVIOP; /* 1-2 char/word? */
if (sim_is_active (&rad_unit) || (alert == POT_RADA)) /* protocol viol? */
return STOP_INVIOP;
rad_err = 0; /* clr error */
rad_sba = 0; /* clr sec bptr */
chan_set_flag (rad_dib.chan, CHF_12B); /* 12B mode */
t = (rad_da & RAD_SCMASK) - GET_SECTOR (rad_time * RAD_NUMWD);
if (t <= 0) t = t + RAD_NUMSC; /* seek */
sim_activate (&rad_unit, t * rad_time * (RAD_NUMWD / 2));
xfr_req = xfr_req & ~XFR_RAD; /* clr xfr flg */
break;
case IO_EOM1: /* EOM mode 1 */
new_ch = I_GETEOCH (inst); /* get new chan */
if (new_ch != rad_dib.chan) return SCPE_IERR; /* wrong chan? */
if ((inst & 00600) == 00200) alert = POT_RADS; /* alert for sec */
else if ((inst & 06600) == 0) { /* alert for addr */
if (sim_is_active (&rad_unit)) rad_err = 1; /* busy? */
else {
rad_nobi = (inst & 01000)? 1: 0; /* save inc type */
alert = POT_RADA; } } /* set alert */
break;
case IO_DISC: /* disconnect */
rad_end_op (0); /* normal term */
if (inst & DEV_OUT) return rad_fill (rad_sba); /* fill write */
break;
case IO_WREOR: /* write eor */
rad_end_op (CHF_EOR); /* eor term */
return rad_fill (rad_sba); /* fill write */
case IO_SKS: /* SKS */
new_ch = I_GETSKCH (inst); /* sks chan */
if (new_ch != rad_dib.chan) return SCPE_IERR; /* wrong chan? */
t = I_GETSKCND (inst); /* sks cond */
lun = RAD_GETLUN (rad_da);
if (((t == 000) && !sim_is_active (&rad_unit)) || /* 10026: ready */
((t == 004) && !rad_err) || /* 11026: !err */
((t == 014) && !(rad_wrp & (1 << lun)))) /* 13026: !wrprot */
*dat = 1;
break;
case IO_READ: /* read */
p = (rad_da * RAD_NUMWD) + (rad_sba >> 1); /* buf wd addr */
xfr_req = xfr_req & ~XFR_RAD; /* clr xfr req */
if ((rad_unit.flags & UNIT_BUF) == 0) { /* not buffered? */
rad_end_op (CHF_ERR | CHF_EOR); /* set rad err */
CRETIOE (rad_stopioe, SCPE_UNATT); }
if (p >= rad_unit.capac) { /* end of disk? */
rad_end_op (CHF_ERR | CHF_EOR); /* set rad err */
return SCPE_OK; }
if (rad_sba & 1) *dat = fbuf[p] & 07777; /* odd byte? */
else *dat = (fbuf[p] >> 12) & 07777; /* even */
rad_sba = rad_adjda (rad_sba, 1); /* next byte */
break;
case IO_WRITE:
p = (rad_da * RAD_NUMWD) + (rad_sba >> 1);
xfr_req = xfr_req & ~XFR_RAD; /* clr xfr req */
if ((rad_unit.flags & UNIT_BUF) == 0) { /* not buffered? */
rad_end_op (CHF_ERR | CHF_EOR); /* set rad err */
CRETIOE (rad_stopioe, SCPE_UNATT); }
if ((p >= rad_unit.capac) || /* end of disk? */
(rad_wrp & (1 << RAD_GETLUN (rad_da)))) { /* write prot? */
rad_end_op (CHF_ERR | CHF_EOR); /* set rad err */
return SCPE_OK; }
if (rad_sba & 1) fbuf[p] = fbuf[p] | (*dat & 07777); /* odd byte? */
else fbuf[p] = (*dat & 07777) << 12; /* even */
if (p >= rad_unit.hwmark) rad_unit.hwmark = p + 1; /* mark hiwater */
rad_sba = rad_adjda (rad_sba, 1); /* next byte */
break;
default:
CRETINS; }
return SCPE_OK;
}
/* PIN routine */
t_stat pin_rads (uint32 num, uint32 *dat)
{
*dat = GET_SECTOR (rad_time * RAD_NUMWD); /* ret curr sec */
return SCPE_OK;
}
/* POT routine */
t_stat pot_rada (uint32 num, uint32 *dat)
{
rad_da = (*dat) & RAD_AMASK; /* save dsk addr */
return SCPE_OK;
}
/* Unit service and read/write */
t_stat rad_svc (UNIT *uptr)
{
xfr_req = xfr_req | XFR_RAD; /* set xfr req */
sim_activate (&rad_unit, rad_time); /* activate */
return SCPE_OK;
}
/* Fill incomplete sector */
t_stat rad_fill (int32 sba)
{
uint32 p = rad_da * RAD_NUMWD;
uint32 *fbuf = rad_unit.filebuf;
int32 wa = (sba + 1) >> 1; /* whole words */
if (sba && (p < rad_unit.capac)) { /* fill needed? */
for ( ; wa < RAD_NUMWD; wa++) fbuf[p + wa] = 0;
if ((p + wa) >= rad_unit.hwmark) rad_unit.hwmark = p + wa + 1;
rad_adjda (sba, RAD_NUMWD - 1); } /* inc da */
return SCPE_OK;
}
/* Adjust disk address */
int32 rad_adjda (int32 sba, int32 inc)
{
sba = sba + inc;
if (rad_sba >= (RAD_NUMWD * 2)) { /* next sector? */
if (rad_nobi) rad_da = (rad_da & ~RAD_SCMASK) + /* within band? */
((rad_da + 1) & RAD_SCMASK);
else rad_da = (rad_da & ~RAD_TRSCMASK) + /* cross band */
((rad_da + 1) & RAD_TRSCMASK);
sba = 0; } /* start new sec */
return sba;
}
/* Terminate disk operation */
void rad_end_op (int32 fl)
{
if (fl) chan_set_flag (rad_dib.chan, fl); /* set flags */
xfr_req = xfr_req & ~XFR_RAD; /* clear xfr */
sim_cancel (&rad_unit); /* stop */
if (fl & CHF_ERR) { /* error? */
chan_disc (rad_dib.chan); /* disconnect */
rad_err = 1; } /* set rad err */
return;
}
/* Reset routine */
t_stat rad_reset (DEVICE *dptr)
{
chan_disc (rad_dib.chan); /* disconnect */
rad_nobi = 0; /* clear state */
rad_da = 0;
rad_sba = 0;
xfr_req = xfr_req & ~XFR_RAD; /* clr xfr req */
sim_cancel (&rad_unit); /* deactivate */
return SCPE_OK;
}
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