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simh-testsetgenerator/PDP11/pdp11_rl.c
Bob Supnik 4ffd3be790 Notes For V3.0-0 
Because some key files have changed, V3.0 should be unzipped to a
clean directory.

1. New Features in 3.0-0

1.1 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

1.2 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.

1.3 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).

2. Bugs Fixed in 3.01-0

2.1 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).

2.2 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.

2.3 Nova

- Fixed DSK variable size interaction with restore.

2.4 PDP-1

- Fixed DT variable size interaction with restore.

2.5 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.

2.6 PDP-18B

- Fixed DT, RF variable size interaction with restore.
- Fixed MT bug in MTTR.

2.7 PDP-8

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

2.8 HP2100

- Fixed bug in DP (13210A controller only), DQ read status.
- Fixed bug in DP, DQ seek complete.

2.9 GRI

- Fixed bug in SC queue pointer management.

3. New Features in 3.0 vs prior releases

N/A

4. Bugs Fixed in 3.0 vs prior releases

N/A

5. General Notes

WARNING: The RESTORE command has changed.  RESTORE will now
detach an attached file on a unit, if that unit did not have
an attached file in the saved configuration.  This is required
to assure that the unit flags and the file state are consistent.

WARNING: The compilation scheme for the PDP-10, PDP-11, and VAX
has changed.  Use one of the supplied build files, or read the
documentation carefully, before compiling any of these simulators.
2011-04-15 08:34:08 -07:00

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/* pdp11_rl.c: RL11 (RLV12) cartridge disk simulator
Copyright (c) 1993-2003, 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.
rl RL11(RLV12)/RL01/RL02 cartridge disk
19-May-03 RMS Revised for new conditional compilation scheme
25-Apr-03 RMS Revised for extended file support
29-Sep-02 RMS Added variable address support to bootstrap
Added vector change/display support
Revised mapping nomenclature
New data structures
26-Jan-02 RMS Revised bootstrap to conform to M9312
06-Jan-02 RMS Revised enable/disable support
30-Nov-01 RMS Added read only, extended SET/SHOW support
26-Nov-01 RMS Fixed per-drive error handling
24-Nov-01 RMS Converted FLG, CAPAC to arrays
19-Nov-01 RMS Fixed signed/unsigned mismatch in write check
09-Nov-01 RMS Added bus map, VAX support
07-Sep-01 RMS Revised device disable and interrupt mechanisms
20-Aug-01 RMS Added bad block option in attach
17-Jul-01 RMS Fixed warning from VC++ 6.0
26-Apr-01 RMS Added device enable/disable support
25-Mar-01 RMS Fixed block fill calculation
15-Feb-01 RMS Corrected bootstrap string
12-Nov-97 RMS Added bad block table command
25-Nov-96 RMS Default units to autosize
29-Jun-96 RMS Added unit disable support
The RL11 is a four drive cartridge disk subsystem. An RL01 drive
consists of 256 cylinders, each with 2 surfaces containing 40 sectors
of 256 bytes. An RL02 drive has 512 cylinders. The RLV12 is a
controller variant which supports 22b direct addressing.
The most complicated part of the RL11 controller is the way it does
seeks. Seeking is relative to the current disk address; this requires
keeping accurate track of the current cylinder. The RL11 will not
switch heads or cross cylinders during transfers.
The RL11 functions in three environments:
- PDP-11 Q22 systems - the I/O map is one for one, so it's safe to
go through the I/O map
- PDP-11 Unibus 22b systems - the RL11 behaves as an 18b Unibus
peripheral and must go through the I/O map
- VAX Q22 systems - the RL11 must go through the I/O map
*/
#if defined (VM_PDP10) /* PDP10 version */
#error "RL11 is not supported on the PDP-10!"
#elif defined (VM_VAX) /* VAX version */
#include "vax_defs.h"
extern int32 int_req[IPL_HLVL];
extern int32 int_vec[IPL_HLVL][32];
#else /* PDP-11 version */
#include "pdp11_defs.h"
extern int32 int_req[IPL_HLVL];
extern int32 int_vec[IPL_HLVL][32];
extern int32 cpu_18b, cpu_ubm;
#endif
/* Constants */
#define RL_NUMWD 128 /* words/sector */
#define RL_NUMSC 40 /* sectors/surface */
#define RL_NUMSF 2 /* surfaces/cylinder */
#define RL_NUMCY 256 /* cylinders/drive */
#define RL_NUMDR 4 /* drives/controller */
#define RL_MAXFR (1 << 16) /* max transfer */
#define RL01_SIZE (RL_NUMCY * RL_NUMSF * RL_NUMSC * RL_NUMWD) /* words/drive */
#define RL02_SIZE (RL01_SIZE * 2) /* words/drive */
/* Flags in the unit flags word */
#define UNIT_V_WLK (UNIT_V_UF + 0) /* hwre write lock */
#define UNIT_V_RL02 (UNIT_V_UF + 1) /* RL01 vs RL02 */
#define UNIT_V_AUTO (UNIT_V_UF + 2) /* autosize enable */
#define UNIT_V_DUMMY (UNIT_V_UF + 3) /* dummy flag */
#define UNIT_DUMMY (1 << UNIT_V_DUMMY)
#define UNIT_WLK (1u << UNIT_V_WLK)
#define UNIT_RL02 (1u << UNIT_V_RL02)
#define UNIT_AUTO (1u << UNIT_V_AUTO)
#define UNIT_WPRT (UNIT_WLK | UNIT_RO) /* write protected */
/* Parameters in the unit descriptor */
#define TRK u3 /* current track */
#define STAT u4 /* status */
/* RLDS, NI = not implemented, * = kept in STAT, ^ = kept in TRK */
#define RLDS_LOAD 0 /* no cartridge */
#define RLDS_LOCK 5 /* lock on */
#define RLDS_BHO 0000010 /* brushes home NI */
#define RLDS_HDO 0000020 /* heads out NI */
#define RLDS_CVO 0000040 /* cover open NI */
#define RLDS_HD 0000100 /* head select ^ */
#define RLDS_RL02 0000200 /* RL02 */
#define RLDS_DSE 0000400 /* drv sel err NI */
#define RLDS_VCK 0001000 /* vol check * */
#define RLDS_WGE 0002000 /* wr gate err * */
#define RLDS_SPE 0004000 /* spin err * */
#define RLDS_STO 0010000 /* seek time out NI */
#define RLDS_WLK 0020000 /* wr locked */
#define RLDS_HCE 0040000 /* hd curr err NI */
#define RLDS_WDE 0100000 /* wr data err NI */
#define RLDS_ATT (RLDS_HDO+RLDS_BHO+RLDS_LOCK) /* att status */
#define RLDS_UNATT (RLDS_CVO+RLDS_LOAD) /* unatt status */
#define RLDS_ERR (RLDS_WDE+RLDS_HCE+RLDS_STO+RLDS_SPE+RLDS_WGE+ \
RLDS_VCK+RLDS_DSE) /* errors bits */
/* RLCS */
#define RLCS_DRDY 0000001 /* drive ready */
#define RLCS_M_FUNC 0000007 /* function */
#define RLCS_NOP 0
#define RLCS_WCHK 1
#define RLCS_GSTA 2
#define RLCS_SEEK 3
#define RLCS_RHDR 4
#define RLCS_WRITE 5
#define RLCS_READ 6
#define RLCS_RNOHDR 7
#define RLCS_V_FUNC 1
#define RLCS_M_MEX 03 /* memory extension */
#define RLCS_V_MEX 4
#define RLCS_MEX (RLCS_M_MEX << RLCS_V_MEX)
#define RLCS_M_DRIVE 03
#define RLCS_V_DRIVE 8
#define RLCS_INCMP 0002000 /* incomplete */
#define RLCS_CRC 0004000 /* CRC error */
#define RLCS_HDE 0010000 /* header error */
#define RLCS_NXM 0020000 /* non-exist memory */
#define RLCS_DRE 0040000 /* drive error */
#define RLCS_ERR 0100000 /* error summary */
#define RLCS_ALLERR (RLCS_ERR+RLCS_DRE+RLCS_NXM+RLCS_HDE+RLCS_CRC+RLCS_INCMP)
#define RLCS_RW 0001776 /* read/write */
#define GET_FUNC(x) (((x) >> RLCS_V_FUNC) & RLCS_M_FUNC)
#define GET_DRIVE(x) (((x) >> RLCS_V_DRIVE) & RLCS_M_DRIVE)
/* RLDA */
#define RLDA_SK_DIR 0000004 /* direction */
#define RLDA_GS_CLR 0000010 /* clear errors */
#define RLDA_SK_HD 0000020 /* head select */
#define RLDA_V_SECT 0 /* sector */
#define RLDA_M_SECT 077
#define RLDA_V_TRACK 6 /* track */
#define RLDA_M_TRACK 01777
#define RLDA_HD0 (0 << RLDA_V_TRACK)
#define RLDA_HD1 (1u << RLDA_V_TRACK)
#define RLDA_V_CYL 7 /* cylinder */
#define RLDA_M_CYL 0777
#define RLDA_TRACK (RLDA_M_TRACK << RLDA_V_TRACK)
#define RLDA_CYL (RLDA_M_CYL << RLDA_V_CYL)
#define GET_SECT(x) (((x) >> RLDA_V_SECT) & RLDA_M_SECT)
#define GET_CYL(x) (((x) >> RLDA_V_CYL) & RLDA_M_CYL)
#define GET_TRACK(x) (((x) >> RLDA_V_TRACK) & RLDA_M_TRACK)
#define GET_DA(x) ((GET_TRACK (x) * RL_NUMSC) + GET_SECT (x))
/* RLBA */
#define RLBA_IMP 0177776 /* implemented */
/* RLBAE */
#define RLBAE_IMP 0000077 /* implemented */
extern uint16 *M;
extern int32 int_req[IPL_HLVL];
extern int32 int_vec[IPL_HLVL][32];
uint16 *rlxb = NULL; /* xfer buffer */
int32 rlcs = 0; /* control/status */
int32 rlba = 0; /* memory address */
int32 rlbae = 0; /* mem addr extension */
int32 rlda = 0; /* disk addr */
int32 rlmp = 0, rlmp1 = 0, rlmp2 = 0; /* mp register queue */
int32 rl_swait = 10; /* seek wait */
int32 rl_rwait = 10; /* rotate wait */
int32 rl_stopioe = 1; /* stop on error */
DEVICE rl_dev;
t_stat rl_rd (int32 *data, int32 PA, int32 access);
t_stat rl_wr (int32 data, int32 PA, int32 access);
t_stat rl_svc (UNIT *uptr);
t_stat rl_reset (DEVICE *dptr);
void rl_set_done (int32 error);
t_stat rl_boot (int32 unitno, DEVICE *dptr);
t_stat rl_attach (UNIT *uptr, char *cptr);
t_stat rl_set_size (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat rl_set_bad (UNIT *uptr, int32 val, char *cptr, void *desc);
extern t_stat pdp11_bad_block (UNIT *uptr, int32 sec, int32 wds);
/* RL11 data structures
rl_dev RL device descriptor
rl_unit RL unit list
rl_reg RL register list
rl_mod RL modifier list
*/
DIB rl_dib = { IOBA_RL, IOLN_RL, &rl_rd, &rl_wr,
1, IVCL (RL), VEC_RL, { NULL } };
UNIT rl_unit[] = {
{ UDATA (&rl_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+
UNIT_ROABLE+UNIT_AUTO, RL01_SIZE) },
{ UDATA (&rl_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+
UNIT_ROABLE+UNIT_AUTO, RL01_SIZE) },
{ UDATA (&rl_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+
UNIT_ROABLE+UNIT_AUTO, RL01_SIZE) },
{ UDATA (&rl_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+
UNIT_ROABLE+UNIT_AUTO, RL01_SIZE) } };
REG rl_reg[] = {
{ GRDATA (RLCS, rlcs, DEV_RDX, 16, 0) },
{ GRDATA (RLDA, rlda, DEV_RDX, 16, 0) },
{ GRDATA (RLBA, rlba, DEV_RDX, 16, 0) },
{ GRDATA (RLBAE, rlbae, DEV_RDX, 6, 0) },
{ GRDATA (RLMP, rlmp, DEV_RDX, 16, 0) },
{ GRDATA (RLMP1, rlmp1, DEV_RDX, 16, 0) },
{ GRDATA (RLMP2, rlmp2, DEV_RDX, 16, 0) },
{ FLDATA (INT, IREQ (RL), INT_V_RL) },
{ FLDATA (ERR, rlcs, CSR_V_ERR) },
{ FLDATA (DONE, rlcs, CSR_V_DONE) },
{ FLDATA (IE, rlcs, CSR_V_IE) },
{ DRDATA (STIME, rl_swait, 24), PV_LEFT },
{ DRDATA (RTIME, rl_rwait, 24), PV_LEFT },
{ URDATA (CAPAC, rl_unit[0].capac, 10, T_ADDR_W, 0,
RL_NUMDR, PV_LEFT + REG_HRO) },
{ FLDATA (STOP_IOE, rl_stopioe, 0) },
{ GRDATA (DEVADDR, rl_dib.ba, DEV_RDX, 32, 0), REG_HRO },
{ GRDATA (DEVVEC, rl_dib.vec, DEV_RDX, 16, 0), REG_HRO },
{ NULL } };
MTAB rl_mod[] = {
{ UNIT_WLK, 0, "write enabled", "WRITEENABLED", NULL },
{ UNIT_WLK, UNIT_WLK, "write locked", "LOCKED", NULL },
{ UNIT_DUMMY, 0, NULL, "BADBLOCK", &rl_set_bad },
{ (UNIT_RL02+UNIT_ATT), UNIT_ATT, "RL01", NULL, NULL },
{ (UNIT_RL02+UNIT_ATT), (UNIT_RL02+UNIT_ATT), "RL02", NULL, NULL },
{ (UNIT_AUTO+UNIT_RL02+UNIT_ATT), 0, "RL01", NULL, NULL },
{ (UNIT_AUTO+UNIT_RL02+UNIT_ATT), UNIT_RL02, "RL02", NULL, NULL },
{ (UNIT_AUTO+UNIT_ATT), UNIT_AUTO, "autosize", NULL, NULL },
{ UNIT_AUTO, UNIT_AUTO, NULL, "AUTOSIZE", NULL },
{ (UNIT_AUTO+UNIT_RL02), 0, NULL, "RL01", &rl_set_size },
{ (UNIT_AUTO+UNIT_RL02), UNIT_RL02, NULL, "RL02", &rl_set_size },
{ MTAB_XTD|MTAB_VDV, 010, "ADDRESS", "ADDRESS",
&set_addr, &show_addr, NULL },
{ MTAB_XTD|MTAB_VDV, 0, "VECTOR", "VECTOR",
&set_vec, &show_vec, NULL },
{ 0 } };
DEVICE rl_dev = {
"RL", rl_unit, rl_reg, rl_mod,
RL_NUMDR, DEV_RDX, 24, 1, DEV_RDX, 16,
NULL, NULL, &rl_reset,
&rl_boot, &rl_attach, NULL,
&rl_dib, DEV_DISABLE | DEV_UBUS | DEV_QBUS };
/* I/O dispatch routine, I/O addresses 17774400 - 17774407
17774400 RLCS read/write
17774402 RLBA read/write
17774404 RLDA read/write
17774406 RLMP read/write
17774410 RLBAE read/write
*/
t_stat rl_rd (int32 *data, int32 PA, int32 access)
{
UNIT *uptr;
switch ((PA >> 1) & 07) { /* decode PA<2:1> */
case 0: /* RLCS */
rlcs = (rlcs & ~RLCS_MEX) | ((rlbae & RLCS_M_MEX) << RLCS_V_MEX);
if (rlcs & RLCS_ALLERR) rlcs = rlcs | RLCS_ERR;
uptr = rl_dev.units + GET_DRIVE (rlcs);
if (sim_is_active (uptr)) rlcs = rlcs & ~RLCS_DRDY;
else rlcs = rlcs | RLCS_DRDY; /* see if ready */
*data = rlcs;
break;
case 1: /* RLBA */
*data = rlba & RLBA_IMP;
break;
case 2: /* RLDA */
*data = rlda;
break;
case 3: /* RLMP */
*data = rlmp;
rlmp = rlmp1; /* ripple data */
rlmp1 = rlmp2;
break;
case 4: /* RLBAE */
if (UNIBUS) return SCPE_NXM; /* not in RL11 */
*data = rlbae & RLBAE_IMP;
break; } /* end switch */
return SCPE_OK;
}
t_stat rl_wr (int32 data, int32 PA, int32 access)
{
int32 curr, offs, newc, maxc;
UNIT *uptr;
switch ((PA >> 1) & 07) { /* decode PA<2:1> */
case 0: /* RLCS */
rlcs = (rlcs & ~RLCS_MEX) | ((rlbae & RLCS_M_MEX) << RLCS_V_MEX);
if (rlcs & RLCS_ALLERR) rlcs = rlcs | RLCS_ERR;
uptr = rl_dev.units + GET_DRIVE (data); /* get new drive */
if (sim_is_active (uptr)) rlcs = rlcs & ~RLCS_DRDY;
else rlcs = rlcs | RLCS_DRDY; /* see if ready */
if (access == WRITEB) data = (PA & 1)?
(rlcs & 0377) | (data << 8): (rlcs & ~0377) | data;
rlcs = (rlcs & ~RLCS_RW) | (data & RLCS_RW);
rlbae = (rlbae & ~RLCS_M_MEX) | ((rlcs >> RLCS_V_MEX) & RLCS_M_MEX);
if (data & CSR_DONE) { /* ready set? */
if ((data & CSR_IE) == 0) CLR_INT (RL);
else if ((rlcs & (CSR_DONE + CSR_IE)) == CSR_DONE)
SET_INT (RL);
return SCPE_OK; }
CLR_INT (RL); /* clear interrupt */
rlcs = rlcs & ~RLCS_ALLERR; /* clear errors */
switch (GET_FUNC (rlcs)) { /* case on RLCS<3:1> */
case RLCS_NOP: /* nop */
rl_set_done (0);
break;
case RLCS_SEEK: /* seek */
curr = GET_CYL (uptr->TRK); /* current cylinder */
offs = GET_CYL (rlda); /* offset */
if (rlda & RLDA_SK_DIR) { /* in or out? */
newc = curr + offs; /* out */
maxc = (uptr->flags & UNIT_RL02)?
RL_NUMCY * 2: RL_NUMCY;
if (newc >= maxc) newc = maxc - 1; }
else {
newc = curr - offs; /* in */
if (newc < 0) newc = 0; }
uptr->TRK = (newc << RLDA_V_CYL) | /* put on track */
((rlda & RLDA_SK_HD)? RLDA_HD1: RLDA_HD0);
sim_activate (uptr, rl_swait * abs (newc - curr));
break;
default: /* data transfer */
sim_activate (uptr, rl_swait); /* activate unit */
break; } /* end switch func */
break; /* end case RLCS */
case 1: /* RLBA */
if (access == WRITEB) data = (PA & 1)?
(rlba & 0377) | (data << 8): (rlba & ~0377) | data;
rlba = data & RLBA_IMP;
break;
case 2: /* RLDA */
if (access == WRITEB) data = (PA & 1)?
(rlda & 0377) | (data << 8): (rlda & ~0377) | data;
rlda = data;
break;
case 3: /* RLMP */
if (access == WRITEB) data = (PA & 1)?
(rlmp & 0377) | (data << 8): (rlmp & ~0377) | data;
rlmp = rlmp1 = rlmp2 = data;
break;
case 4: /* RLBAE */
if (UNIBUS) return SCPE_NXM; /* not in RL11 */
if (PA & 1) return SCPE_OK;
rlbae = data & RLBAE_IMP;
rlcs = (rlcs & ~RLCS_MEX) | ((rlbae & RLCS_M_MEX) << RLCS_V_MEX);
break; } /* end switch */
return SCPE_OK;
}
/* Service unit timeout
If seek in progress, complete seek command
Else complete data transfer command
The unit control block contains the function and cylinder for
the current command.
*/
t_stat rl_svc (UNIT *uptr)
{
int32 err, wc, maxwc, t;
int32 i, func, da, awc;
uint32 ma;
uint16 comp;
func = GET_FUNC (rlcs); /* get function */
if (func == RLCS_GSTA) { /* get status */
if (rlda & RLDA_GS_CLR) uptr->STAT = uptr->STAT & ~RLDS_ERR;
rlmp = uptr->STAT | (uptr->TRK & RLDS_HD) |
((uptr->flags & UNIT_ATT)? RLDS_ATT: RLDS_UNATT);
if (uptr->flags & UNIT_RL02) rlmp = rlmp | RLDS_RL02;
if (uptr->flags & UNIT_WPRT) rlmp = rlmp | RLDS_WLK;
rlmp2 = rlmp1 = rlmp;
rl_set_done (0); /* done */
return SCPE_OK; }
if ((uptr->flags & UNIT_ATT) == 0) { /* attached? */
rlcs = rlcs & ~RLCS_DRDY; /* clear drive ready */
uptr->STAT = uptr->STAT | RLDS_SPE; /* spin error */
rl_set_done (RLCS_ERR | RLCS_INCMP); /* flag error */
return IORETURN (rl_stopioe, SCPE_UNATT); }
if ((func == RLCS_WRITE) && (uptr->flags & UNIT_WPRT)) {
uptr->STAT = uptr->STAT | RLDS_WGE; /* write and locked */
rl_set_done (RLCS_ERR | RLCS_DRE);
return SCPE_OK; }
if (func == RLCS_SEEK) { /* seek? */
rl_set_done (0); /* done */
return SCPE_OK; }
if (func == RLCS_RHDR) { /* read header? */
rlmp = (uptr->TRK & RLDA_TRACK) | GET_SECT (rlda);
rlmp1 = rlmp2 = 0;
rl_set_done (0); /* done */
return SCPE_OK; }
if (((func != RLCS_RNOHDR) && ((uptr->TRK & RLDA_CYL) != (rlda & RLDA_CYL)))
|| (GET_SECT (rlda) >= RL_NUMSC)) { /* bad cyl or sector? */
rl_set_done (RLCS_ERR | RLCS_HDE | RLCS_INCMP); /* wrong cylinder? */
return SCPE_OK; }
ma = (rlbae << 16) | rlba; /* get mem addr */
da = GET_DA (rlda) * RL_NUMWD; /* get disk addr */
wc = 0200000 - rlmp; /* get true wc */
maxwc = (RL_NUMSC - GET_SECT (rlda)) * RL_NUMWD; /* max transfer */
if (wc > maxwc) wc = maxwc; /* track overrun? */
err = fseek (uptr->fileref, da * sizeof (int16), SEEK_SET);
if ((func >= RLCS_READ) && (err == 0)) { /* read (no hdr)? */
i = fxread (rlxb, sizeof (int16), wc, uptr->fileref);
err = ferror (uptr->fileref);
for ( ; i < wc; i++) rlxb[i] = 0; /* fill buffer */
if (t = Map_WriteW (ma, wc << 1, rlxb, MAP)) { /* store buffer */
rlcs = rlcs | RLCS_ERR | RLCS_NXM; /* nxm */
wc = wc - t; } /* adjust wc */
} /* end read */
if ((func == RLCS_WRITE) && (err == 0)) { /* write? */
if (t = Map_ReadW (ma, wc << 1, rlxb, MAP)) { /* fetch buffer */
rlcs = rlcs | RLCS_ERR | RLCS_NXM; /* nxm */
wc = wc - t; } /* adj xfer lnt */
if (wc) { /* any xfer? */
awc = (wc + (RL_NUMWD - 1)) & ~(RL_NUMWD - 1); /* clr to */
for (i = wc; i < awc; i++) rlxb[i] = 0; /* end of blk */
fxwrite (rlxb, sizeof (int16), awc, uptr->fileref);
err = ferror (uptr->fileref); }
} /* end write */
if ((func == RLCS_WCHK) && (err == 0)) { /* write check? */
i = fxread (rlxb, sizeof (int16), wc, uptr->fileref);
err = ferror (uptr->fileref);
for ( ; i < wc; i++) rlxb[i] = 0; /* fill buffer */
awc = wc; /* save wc */
for (wc = 0; (err == 0) && (wc < awc); wc++) { /* loop thru buf */
if (Map_ReadW (ma + (wc << 1), 2, &comp, MAP)) { /* mem wd */
rlcs = rlcs | RLCS_ERR | RLCS_NXM; /* nxm */
break; }
if (comp != rlxb[wc]) /* check to buf */
rlcs = rlcs | RLCS_ERR | RLCS_CRC;
} /* end for */
} /* end wcheck */
rlmp = (rlmp + wc) & 0177777; /* final word count */
if (rlmp != 0) rlcs = rlcs | RLCS_ERR | RLCS_INCMP; /* completed? */
ma = ma + (wc << 1); /* final byte addr */
rlbae = (ma >> 16) & RLBAE_IMP; /* upper 6b */
rlba = ma & RLBA_IMP; /* lower 16b */
rlcs = (rlcs & ~RLCS_MEX) | ((rlbae & RLCS_M_MEX) << RLCS_V_MEX);
rlda = rlda + ((wc + (RL_NUMWD - 1)) / RL_NUMWD);
rl_set_done (0);
if (err != 0) { /* error? */
perror ("RL I/O error");
clearerr (uptr->fileref);
return SCPE_IOERR; }
return SCPE_OK;
}
/* Set done and possibly errors */
void rl_set_done (int32 status)
{
rlcs = rlcs | status | CSR_DONE; /* set done */
if (rlcs & CSR_IE) SET_INT (RL);
else CLR_INT (RL);
return;
}
/* Device reset
Note that the RL11 does NOT recalibrate its drives on RESET
*/
t_stat rl_reset (DEVICE *dptr)
{
int32 i;
UNIT *uptr;
rlcs = CSR_DONE;
rlda = rlba = rlbae = rlmp = rlmp1 = rlmp2 = 0;
CLR_INT (RL);
for (i = 0; i < RL_NUMDR; i++) {
uptr = rl_dev.units + i;
sim_cancel (uptr);
uptr->STAT = 0; }
if (rlxb == NULL) rlxb = calloc (RL_MAXFR, sizeof (unsigned int16));
if (rlxb == NULL) return SCPE_MEM;
return SCPE_OK;
}
/* Attach routine */
t_stat rl_attach (UNIT *uptr, char *cptr)
{
uint32 p;
t_stat r;
uptr->capac = (uptr->flags & UNIT_RL02)? RL02_SIZE: RL01_SIZE;
r = attach_unit (uptr, cptr); /* attach unit */
if (r != SCPE_OK) return r; /* error? */
uptr->TRK = 0; /* cylinder 0 */
uptr->STAT = RLDS_VCK; /* new volume */
if (fseek (uptr->fileref, 0, SEEK_END)) return SCPE_OK; /* seek to end */
if ((p = ftell (uptr->fileref)) == 0) { /* new disk image? */
if (uptr->flags & UNIT_RO) return SCPE_OK; /* if ro, done */
return pdp11_bad_block (uptr, RL_NUMSC, RL_NUMWD); }
if ((uptr->flags & UNIT_AUTO) == 0) return SCPE_OK; /* autosize? */
if (p > (RL01_SIZE * sizeof (int16))) {
uptr->flags = uptr->flags | UNIT_RL02;
uptr->capac = RL02_SIZE; }
else { uptr->flags = uptr->flags & ~UNIT_RL02;
uptr->capac = RL01_SIZE; }
return SCPE_OK;
}
/* Set size routine */
t_stat rl_set_size (UNIT *uptr, int32 val, char *cptr, void *desc)
{
if (uptr->flags & UNIT_ATT) return SCPE_ALATT;
uptr->capac = (val & UNIT_RL02)? RL02_SIZE: RL01_SIZE;
return SCPE_OK;
}
/* Set bad block routine */
t_stat rl_set_bad (UNIT *uptr, int32 val, char *cptr, void *desc)
{
return pdp11_bad_block (uptr, RL_NUMSC, RL_NUMWD);
}
/* Device bootstrap */
#if defined (VM_PDP11)
#define BOOT_START 02000 /* start */
#define BOOT_ENTRY (BOOT_START + 002) /* entry */
#define BOOT_UNIT (BOOT_START + 010) /* unit number */
#define BOOT_CSR (BOOT_START + 020) /* CSR */
#define BOOT_LEN (sizeof (boot_rom) / sizeof (int16))
static const uint16 boot_rom[] = {
0042114, /* "LD" */
0012706, BOOT_START, /* MOV #boot_start, SP */
0012700, 0000000, /* MOV #unit, R0 */
0010003, /* MOV R0, R3 */
0000303, /* SWAB R3 */
0012701, 0174400, /* MOV #RLCS, R1 ; csr */
0012761, 0000013, 0000004, /* MOV #13, 4(R1) ; clr err */
0052703, 0000004, /* BIS #4, R3 ; unit+gstat */
0010311, /* MOV R3, (R1) ; issue cmd */
0105711, /* TSTB (R1) ; wait */
0100376, /* BPL .-2 */
0105003, /* CLRB R3 */
0052703, 0000010, /* BIS #10, R3 ; unit+rdhdr */
0010311, /* MOV R3, (R1) ; issue cmd */
0105711, /* TSTB (R1) ; wait */
0100376, /* BPL .-2 */
0016102, 0000006, /* MOV 6(R1), R2 ; get hdr */
0042702, 0000077, /* BIC #77, R2 ; clr sector */
0005202, /* INC R2 ; magic bit */
0010261, 0000004, /* MOV R2, 4(R1) ; seek to 0 */
0105003, /* CLRB R3 */
0052703, 0000006, /* BIS #6, R3 ; unit+seek */
0010311, /* MOV R3, (R1) ; issue cmd */
0105711, /* TSTB (R1) ; wait */
0100376, /* BPL .-2 */
0005061, 0000002, /* CLR 2(R1) ; clr ba */
0005061, 0000004, /* CLR 4(R1) ; clr da */
0012761, 0177000, 0000006, /* MOV #-512., 6(R1) ; set wc */
0105003, /* CLRB R3 */
0052703, 0000014, /* BIS #14, R3 ; unit+read */
0010311, /* MOV R3, (R1) ; issue cmd */
0105711, /* TSTB (R1) ; wait */
0100376, /* BPL .-2 */
0042711, 0000377, /* BIC #377, (R1) */
0005002, /* CLR R2 */
0005003, /* CLR R3 */
0012704, BOOT_START+020, /* MOV #START+20, R4 */
0005005, /* CLR R5 */
0005007 /* CLR PC */
};
t_stat rl_boot (int32 unitno, DEVICE *dptr)
{
int32 i;
extern int32 saved_PC;
for (i = 0; i < BOOT_LEN; i++) M[(BOOT_START >> 1) + i] = boot_rom[i];
M[BOOT_UNIT >> 1] = unitno & RLCS_M_DRIVE;
M[BOOT_CSR >> 1] = rl_dib.ba & DMASK;
saved_PC = BOOT_ENTRY;
return SCPE_OK;
}
#else
t_stat rl_boot (int32 unitno, DEVICE *dptr)
{
return SCPE_NOFNC;
}
#endif
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