/* sim_tape.c: simulator tape support library | |
Copyright (c) 1993-2008, 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. | |
Ultimately, this will be a place to hide processing of various tape formats, | |
as well as OS-specific direct hardware access. | |
23-Jan-12 MP Added support for Logical EOT detection while positioning | |
05-Feb-11 MP Refactored to prepare for SIM_ASYNC_IO support | |
Added higher level routines: | |
sim_tape_wreomrw - erase remainder of tape & rewind | |
sim_tape_sprecsf - skip records | |
sim_tape_spfilef - skip files | |
sim_tape_sprecsr - skip records rev | |
sim_tape_spfiler - skip files rev | |
sim_tape_position - general purpose position | |
These routines correspond to natural tape operations | |
and will align better when physical tape support is | |
included here. | |
08-Jun-08 JDB Fixed signed/unsigned warning in sim_tape_set_fmt | |
23-Jan-07 JDB Fixed backspace over gap at BOT | |
22-Jan-07 RMS Fixed bug in P7B format read reclnt rev (found by Rich Cornwell) | |
15-Dec-06 RMS Added support for small capacity tapes | |
30-Aug-06 JDB Added erase gap support | |
14-Feb-06 RMS Added variable tape capacity | |
23-Jan-06 JDB Fixed odd-byte-write problem in sim_tape_wrrecf | |
17-Dec-05 RMS Added write support for Paul Pierce 7b format | |
16-Aug-05 RMS Fixed C++ declaration and cast problems | |
02-May-05 RMS Added support for Pierce 7b format | |
28-Jul-04 RMS Fixed bug in writing error records (found by Dave Bryan) | |
RMS Fixed incorrect error codes (found by Dave Bryan) | |
05-Jan-04 RMS Revised for file I/O library | |
25-Apr-03 RMS Added extended file support | |
28-Mar-03 RMS Added E11 and TPC format support | |
Public routines: | |
sim_tape_attach attach tape unit | |
sim_tape_detach detach tape unit | |
sim_tape_attach_help help routine for attaching tapes | |
sim_tape_rdrecf read tape record forward | |
sim_tape_rdrecr read tape record reverse | |
sim_tape_wrrecf write tape record forward | |
sim_tape_sprecf space tape record forward | |
sim_tape_sprecr space tape record reverse | |
sim_tape_wrtmk write tape mark | |
sim_tape_wreom erase remainder of tape | |
sim_tape_wreomrw erase remainder of tape & rewind | |
sim_tape_wrgap write erase gap | |
sim_tape_errecf erase record forward | |
sim_tape_errecr erase record reverse | |
sim_tape_sprecsf space records forward | |
sim_tape_spfilef space files forward | |
sim_tape_sprecsr space records reverse | |
sim_tape_spfiler space files reverse | |
sim_tape_position generalized position | |
sim_tape_rewind rewind | |
sim_tape_reset reset unit | |
sim_tape_bot TRUE if at beginning of tape | |
sim_tape_eot TRUE if at or beyond end of tape | |
sim_tape_wrp TRUE if write protected | |
sim_tape_set_fmt set tape format | |
sim_tape_show_fmt show tape format | |
sim_tape_set_capac set tape capacity | |
sim_tape_show_capac show tape capacity | |
sim_tape_set_dens set tape density | |
sim_tape_show_dens show tape density | |
sim_tape_set_async enable asynchronous operation | |
sim_tape_clr_async disable asynchronous operation | |
*/ | |
#include "sim_defs.h" | |
#include "sim_tape.h" | |
#include <ctype.h> | |
#if defined SIM_ASYNCH_IO | |
#include <pthread.h> | |
#endif | |
struct sim_tape_fmt { | |
const char *name; /* name */ | |
int32 uflags; /* unit flags */ | |
t_addr bot; /* bot test */ | |
}; | |
static struct sim_tape_fmt fmts[MTUF_N_FMT] = { | |
{ "SIMH", 0, sizeof (t_mtrlnt) - 1 }, | |
{ "E11", 0, sizeof (t_mtrlnt) - 1 }, | |
{ "TPC", UNIT_RO, sizeof (t_tpclnt) - 1 }, | |
{ "P7B", 0, 0 }, | |
/* { "TPF", UNIT_RO, 0 }, */ | |
{ NULL, 0, 0 } | |
}; | |
static const uint32 bpi [] = { /* tape density table, indexed by MT_DENS constants */ | |
0, /* 0 = MT_DENS_NONE -- density not set */ | |
200, /* 1 = MT_DENS_200 -- 200 bpi NRZI */ | |
556, /* 2 = MT_DENS_556 -- 556 bpi NRZI */ | |
800, /* 3 = MT_DENS_800 -- 800 bpi NRZI */ | |
1600, /* 4 = MT_DENS_1600 -- 1600 bpi PE */ | |
6250 /* 5 = MT_DENS_6250 -- 6250 bpi GCR */ | |
}; | |
#define BPI_COUNT (sizeof (bpi) / sizeof (bpi [0])) /* count of density table entries */ | |
static t_stat sim_tape_ioerr (UNIT *uptr); | |
static t_stat sim_tape_wrdata (UNIT *uptr, uint32 dat); | |
static uint32 sim_tape_tpc_map (UNIT *uptr, t_addr *map, uint32 mapsize); | |
static t_stat sim_tape_simh_check (UNIT *uptr); | |
static t_stat sim_tape_e11_check (UNIT *uptr); | |
static t_addr sim_tape_tpc_fnd (UNIT *uptr, t_addr *map); | |
static void sim_tape_data_trace (UNIT *uptr, const uint8 *data, size_t len, const char* txt, int detail, uint32 reason); | |
static t_stat tape_erase_fwd (UNIT *uptr, t_mtrlnt gap_size); | |
static t_stat tape_erase_rev (UNIT *uptr, t_mtrlnt gap_size); | |
struct tape_context { | |
DEVICE *dptr; /* Device for unit (access to debug flags) */ | |
uint32 dbit; /* debugging bit for trace */ | |
uint32 auto_format; /* Format determined dynamically */ | |
#if defined SIM_ASYNCH_IO | |
int asynch_io; /* Asynchronous Interrupt scheduling enabled */ | |
int asynch_io_latency; /* instructions to delay pending interrupt */ | |
pthread_mutex_t lock; | |
pthread_t io_thread; /* I/O Thread Id */ | |
pthread_mutex_t io_lock; | |
pthread_cond_t io_cond; | |
pthread_cond_t io_done; | |
pthread_cond_t startup_cond; | |
int io_top; | |
uint8 *buf; | |
uint32 *bc; | |
uint32 *fc; | |
uint32 vbc; | |
uint32 max; | |
uint32 gaplen; | |
uint32 bpi; | |
uint32 *objupdate; | |
TAPE_PCALLBACK callback; | |
t_stat io_status; | |
#endif | |
}; | |
#define tape_ctx up8 /* Field in Unit structure which points to the tape_context */ | |
#if defined SIM_ASYNCH_IO | |
#define AIO_CALLSETUP \ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; \ | |
\ | |
if (ctx == NULL) \ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); \ | |
if ((!callback) || !ctx->asynch_io) | |
#define AIO_CALL(op, _buf, _bc, _fc, _max, _vbc, _gaplen, _bpi, _obj, _callback)\ | |
if (ctx->asynch_io) { \ | |
struct tape_context *ctx = \ | |
(struct tape_context *)uptr->tape_ctx; \ | |
\ | |
pthread_mutex_lock (&ctx->io_lock); \ | |
\ | |
sim_debug (ctx->dbit, ctx->dptr, \ | |
"sim_tape AIO_CALL(op=%d, unit=%d)\n", op, (int)(uptr-ctx->dptr->units));\ | |
\ | |
if (ctx->callback) \ | |
abort(); /* horrible mistake, stop */ \ | |
ctx->io_top = op; \ | |
ctx->buf = _buf; \ | |
ctx->bc = _bc; \ | |
ctx->fc = _fc; \ | |
ctx->max = _max; \ | |
ctx->vbc = _vbc; \ | |
ctx->gaplen = _gaplen; \ | |
ctx->bpi = _bpi; \ | |
ctx->objupdate = _obj; \ | |
ctx->callback = _callback; \ | |
pthread_cond_signal (&ctx->io_cond); \ | |
pthread_mutex_unlock (&ctx->io_lock); \ | |
} \ | |
else \ | |
if (_callback) \ | |
(_callback) (uptr, r); | |
#define TOP_DONE 0 /* close */ | |
#define TOP_RDRF 1 /* sim_tape_rdrecf_a */ | |
#define TOP_RDRR 2 /* sim_tape_rdrecr_a */ | |
#define TOP_WREC 3 /* sim_tape_wrrecf_a */ | |
#define TOP_WTMK 4 /* sim_tape_wrtmk_a */ | |
#define TOP_WEOM 5 /* sim_tape_wreom_a */ | |
#define TOP_WEMR 6 /* sim_tape_wreomrw_a */ | |
#define TOP_WGAP 7 /* sim_tape_wrgap_a */ | |
#define TOP_SPRF 8 /* sim_tape_sprecf_a */ | |
#define TOP_SRSF 9 /* sim_tape_sprecsf_a */ | |
#define TOP_SPRR 10 /* sim_tape_sprecr_a */ | |
#define TOP_SRSR 11 /* sim_tape_sprecsr_a */ | |
#define TOP_SPFF 12 /* sim_tape_spfilef */ | |
#define TOP_SFRF 13 /* sim_tape_spfilebyrecf */ | |
#define TOP_SPFR 14 /* sim_tape_spfiler */ | |
#define TOP_SFRR 15 /* sim_tape_spfilebyrecr */ | |
#define TOP_RWND 16 /* sim_tape_rewind_a */ | |
#define TOP_POSN 17 /* sim_tape_position_a */ | |
static void * | |
_tape_io(void *arg) | |
{ | |
UNIT* volatile uptr = (UNIT*)arg; | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
/* Boost Priority for this I/O thread vs the CPU instruction execution | |
thread which in general won't be readily yielding the processor when | |
this thread needs to run */ | |
sim_os_set_thread_priority (PRIORITY_ABOVE_NORMAL); | |
sim_debug (ctx->dbit, ctx->dptr, "_tape_io(unit=%d) starting\n", (int)(uptr-ctx->dptr->units)); | |
pthread_mutex_lock (&ctx->io_lock); | |
pthread_cond_signal (&ctx->startup_cond); /* Signal we're ready to go */ | |
while (1) { | |
pthread_cond_wait (&ctx->io_cond, &ctx->io_lock); | |
if (ctx->io_top == TOP_DONE) | |
break; | |
pthread_mutex_unlock (&ctx->io_lock); | |
switch (ctx->io_top) { | |
case TOP_RDRF: | |
ctx->io_status = sim_tape_rdrecf (uptr, ctx->buf, ctx->bc, ctx->max); | |
break; | |
case TOP_RDRR: | |
ctx->io_status = sim_tape_rdrecr (uptr, ctx->buf, ctx->bc, ctx->max); | |
break; | |
case TOP_WREC: | |
ctx->io_status = sim_tape_wrrecf (uptr, ctx->buf, ctx->vbc); | |
break; | |
case TOP_WTMK: | |
ctx->io_status = sim_tape_wrtmk (uptr); | |
break; | |
case TOP_WEOM: | |
ctx->io_status = sim_tape_wreom (uptr); | |
break; | |
case TOP_WEMR: | |
ctx->io_status = sim_tape_wreomrw (uptr); | |
break; | |
case TOP_WGAP: | |
ctx->io_status = sim_tape_wrgap (uptr, ctx->gaplen); | |
break; | |
case TOP_SPRF: | |
ctx->io_status = sim_tape_sprecf (uptr, ctx->bc); | |
break; | |
case TOP_SRSF: | |
ctx->io_status = sim_tape_sprecsf (uptr, ctx->vbc, ctx->bc); | |
break; | |
case TOP_SPRR: | |
ctx->io_status = sim_tape_sprecr (uptr, ctx->bc); | |
break; | |
case TOP_SRSR: | |
ctx->io_status = sim_tape_sprecsr (uptr, ctx->vbc, ctx->bc); | |
break; | |
case TOP_SPFF: | |
ctx->io_status = sim_tape_spfilef (uptr, ctx->vbc, ctx->bc); | |
break; | |
case TOP_SFRF: | |
ctx->io_status = sim_tape_spfilebyrecf (uptr, ctx->vbc, ctx->bc, ctx->fc, ctx->max); | |
break; | |
case TOP_SPFR: | |
ctx->io_status = sim_tape_spfiler (uptr, ctx->vbc, ctx->bc); | |
break; | |
case TOP_SFRR: | |
ctx->io_status = sim_tape_spfilebyrecr (uptr, ctx->vbc, ctx->bc, ctx->fc); | |
break; | |
case TOP_RWND: | |
ctx->io_status = sim_tape_rewind (uptr); | |
break; | |
case TOP_POSN: | |
ctx->io_status = sim_tape_position (uptr, ctx->vbc, ctx->gaplen, ctx->bc, ctx->bpi, ctx->fc, ctx->objupdate); | |
break; | |
} | |
pthread_mutex_lock (&ctx->io_lock); | |
ctx->io_top = TOP_DONE; | |
pthread_cond_signal (&ctx->io_done); | |
sim_activate (uptr, ctx->asynch_io_latency); | |
} | |
pthread_mutex_unlock (&ctx->io_lock); | |
sim_debug (ctx->dbit, ctx->dptr, "_tape_io(unit=%d) exiting\n", (int)(uptr-ctx->dptr->units)); | |
return NULL; | |
} | |
/* This routine is called in the context of the main simulator thread before | |
processing events for any unit. It is only called when an asynchronous | |
thread has called sim_activate() to activate a unit. The job of this | |
routine is to put the unit in proper condition to digest what may have | |
occurred in the asynchronous thread. | |
Since tape processing only handles a single I/O at a time to a | |
particular tape device, we have the opportunity to possibly detect | |
improper attempts to issue multiple concurrent I/O requests. */ | |
static void _tape_completion_dispatch (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
TAPE_PCALLBACK callback = ctx->callback; | |
sim_debug (ctx->dbit, ctx->dptr, "_tape_completion_dispatch(unit=%d, top=%d, callback=%p)\n", (int)(uptr-ctx->dptr->units), ctx->io_top, ctx->callback); | |
if (ctx->io_top != TOP_DONE) | |
abort(); /* horribly wrong, stop */ | |
if (ctx->asynch_io) | |
pthread_mutex_lock (&ctx->io_lock); | |
if (ctx->callback) { | |
ctx->callback = NULL; | |
if (ctx->asynch_io) | |
pthread_mutex_unlock (&ctx->io_lock); | |
callback (uptr, ctx->io_status); | |
} | |
else { | |
if (ctx->asynch_io) | |
pthread_mutex_unlock (&ctx->io_lock); | |
} | |
} | |
static t_bool _tape_is_active (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (ctx) { | |
sim_debug (ctx->dbit, ctx->dptr, "_tape_is_active(unit=%d, top=%d)\n", (int)(uptr-ctx->dptr->units), ctx->io_top); | |
return (ctx->io_top != TOP_DONE); | |
} | |
return FALSE; | |
} | |
static t_bool _tape_cancel (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (ctx) { | |
sim_debug (ctx->dbit, ctx->dptr, "_tape_cancel(unit=%d, top=%d)\n", (int)(uptr-ctx->dptr->units), ctx->io_top); | |
if (ctx->asynch_io) { | |
pthread_mutex_lock (&ctx->io_lock); | |
while (ctx->io_top != TOP_DONE) | |
pthread_cond_wait (&ctx->io_done, &ctx->io_lock); | |
pthread_mutex_unlock (&ctx->io_lock); | |
} | |
} | |
return FALSE; | |
} | |
#else | |
#define AIO_CALLSETUP \ | |
if (uptr->tape_ctx == NULL) \ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); | |
#define AIO_CALL(op, _buf, _fc, _bc, _max, _vbc, _gaplen, _bpi, _obj, _callback) \ | |
if (_callback) \ | |
(_callback) (uptr, r); | |
#endif | |
/* Enable asynchronous operation */ | |
t_stat sim_tape_set_async (UNIT *uptr, int latency) | |
{ | |
#if !defined(SIM_ASYNCH_IO) | |
sim_printf ("Tape: can't operate asynchronously\r\n"); | |
return SCPE_NOFNC; | |
#else | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
pthread_attr_t attr; | |
ctx->asynch_io = sim_asynch_enabled; | |
ctx->asynch_io_latency = latency; | |
if (ctx->asynch_io) { | |
pthread_mutex_init (&ctx->io_lock, NULL); | |
pthread_cond_init (&ctx->io_cond, NULL); | |
pthread_cond_init (&ctx->io_done, NULL); | |
pthread_cond_init (&ctx->startup_cond, NULL); | |
pthread_attr_init(&attr); | |
pthread_attr_setscope(&attr, PTHREAD_SCOPE_SYSTEM); | |
pthread_mutex_lock (&ctx->io_lock); | |
pthread_create (&ctx->io_thread, &attr, _tape_io, (void *)uptr); | |
pthread_attr_destroy(&attr); | |
pthread_cond_wait (&ctx->startup_cond, &ctx->io_lock); /* Wait for thread to stabilize */ | |
pthread_mutex_unlock (&ctx->io_lock); | |
pthread_cond_destroy (&ctx->startup_cond); | |
} | |
uptr->a_check_completion = _tape_completion_dispatch; | |
uptr->a_is_active = _tape_is_active; | |
uptr->cancel = _tape_cancel; | |
return SCPE_OK; | |
#endif | |
} | |
/* Disable asynchronous operation */ | |
t_stat sim_tape_clr_async (UNIT *uptr) | |
{ | |
#if !defined(SIM_ASYNCH_IO) | |
return SCPE_NOFNC; | |
#else | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
/* make sure device exists */ | |
if (!ctx) return SCPE_UNATT; | |
if (ctx->asynch_io) { | |
pthread_mutex_lock (&ctx->io_lock); | |
ctx->asynch_io = 0; | |
pthread_cond_signal (&ctx->io_cond); | |
pthread_mutex_unlock (&ctx->io_lock); | |
pthread_join (ctx->io_thread, NULL); | |
pthread_mutex_destroy (&ctx->io_lock); | |
pthread_cond_destroy (&ctx->io_cond); | |
pthread_cond_destroy (&ctx->io_done); | |
} | |
return SCPE_OK; | |
#endif | |
} | |
/* | |
This routine is called when the simulator stops and any time | |
the asynch mode is changed (enabled or disabled) | |
*/ | |
static void _sim_tape_io_flush (UNIT *uptr) | |
{ | |
#if defined (SIM_ASYNCH_IO) | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
sim_tape_clr_async (uptr); | |
if (sim_asynch_enabled) | |
sim_tape_set_async (uptr, ctx->asynch_io_latency); | |
#endif | |
fflush (uptr->fileref); | |
} | |
/* Attach tape unit */ | |
t_stat sim_tape_attach (UNIT *uptr, CONST char *cptr) | |
{ | |
DEVICE *dptr; | |
if ((dptr = find_dev_from_unit (uptr)) == NULL) | |
return SCPE_NOATT; | |
return sim_tape_attach_ex (uptr, cptr, ((dptr->flags & DEV_DEBUG) || (dptr->debflags)) ? 0xFFFFFFFF : 0, 0); | |
} | |
t_stat sim_tape_attach_ex (UNIT *uptr, const char *cptr, uint32 dbit, int completion_delay) | |
{ | |
struct tape_context *ctx; | |
uint32 objc; | |
DEVICE *dptr; | |
char gbuf[CBUFSIZE]; | |
t_stat r; | |
t_bool auto_format = FALSE; | |
if ((dptr = find_dev_from_unit (uptr)) == NULL) | |
return SCPE_NOATT; | |
if (sim_switches & SWMASK ('F')) { /* format spec? */ | |
cptr = get_glyph (cptr, gbuf, 0); /* get spec */ | |
if (*cptr == 0) /* must be more */ | |
return SCPE_2FARG; | |
if (sim_tape_set_fmt (uptr, 0, gbuf, NULL) != SCPE_OK) | |
return sim_messagef (SCPE_ARG, "Invalid Tape Format: %s\n", gbuf); | |
sim_switches = sim_switches & ~(SWMASK ('F')); /* Record Format specifier already processed */ | |
auto_format = TRUE; | |
} | |
if (MT_GET_FMT (uptr) == MTUF_F_TPC) | |
sim_switches |= SWMASK ('R'); /* Force ReadOnly attach for TPC tapes */ | |
r = attach_unit (uptr, (CONST char *)cptr); /* attach unit */ | |
if (r != SCPE_OK) /* error? */ | |
return sim_messagef (r, "Can't open tape image: %s\n", cptr); | |
switch (MT_GET_FMT (uptr)) { /* case on format */ | |
case MTUF_F_STD: /* SIMH */ | |
if (SCPE_OK != sim_tape_simh_check (uptr)) { | |
sim_tape_detach (uptr); | |
return SCPE_FMT; /* yes, complain */ | |
} | |
break; | |
case MTUF_F_E11: /* E11 */ | |
if (SCPE_OK != sim_tape_e11_check (uptr)) { | |
sim_tape_detach (uptr); | |
return SCPE_FMT; /* yes, complain */ | |
} | |
break; | |
case MTUF_F_TPC: /* TPC */ | |
objc = sim_tape_tpc_map (uptr, NULL, 0); /* get # objects */ | |
if (objc == 0) { /* tape empty? */ | |
sim_tape_detach (uptr); | |
return SCPE_FMT; /* yes, complain */ | |
} | |
uptr->filebuf = calloc (objc + 1, sizeof (t_addr)); | |
if (uptr->filebuf == NULL) { /* map allocated? */ | |
sim_tape_detach (uptr); | |
return SCPE_MEM; /* no, complain */ | |
} | |
uptr->hwmark = objc + 1; /* save map size */ | |
sim_tape_tpc_map (uptr, (t_addr *) uptr->filebuf, objc);/* fill map */ | |
break; | |
default: | |
break; | |
} | |
uptr->tape_ctx = ctx = (struct tape_context *)calloc(1, sizeof(struct tape_context)); | |
ctx->dptr = dptr; /* save DEVICE pointer */ | |
ctx->dbit = dbit; /* save debug bit */ | |
ctx->auto_format = auto_format; /* save that we auto selected format */ | |
sim_tape_rewind (uptr); | |
#if defined (SIM_ASYNCH_IO) | |
sim_tape_set_async (uptr, completion_delay); | |
#endif | |
uptr->io_flush = _sim_tape_io_flush; | |
return SCPE_OK; | |
} | |
/* Detach tape unit */ | |
t_stat sim_tape_detach (UNIT *uptr) | |
{ | |
struct tape_context *ctx; | |
uint32 f; | |
t_stat r; | |
t_bool auto_format = FALSE; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
ctx = (struct tape_context *)uptr->tape_ctx; | |
f = MT_GET_FMT (uptr); | |
if ((ctx == NULL) || !(uptr->flags & UNIT_ATT)) | |
return SCPE_IERR; | |
if (uptr->io_flush) | |
uptr->io_flush (uptr); /* flush buffered data */ | |
if (ctx) | |
auto_format = ctx->auto_format; | |
sim_tape_clr_async (uptr); | |
r = detach_unit (uptr); /* detach unit */ | |
if (r != SCPE_OK) | |
return r; | |
switch (f) { /* case on format */ | |
case MTUF_F_TPC: /* TPC */ | |
if (uptr->filebuf) /* free map */ | |
free (uptr->filebuf); | |
uptr->filebuf = NULL; | |
uptr->hwmark = 0; | |
break; | |
default: | |
break; | |
} | |
sim_tape_rewind (uptr); | |
free (uptr->tape_ctx); | |
uptr->tape_ctx = NULL; | |
uptr->io_flush = NULL; | |
if (auto_format) /* format was determined or specified at attach time? */ | |
sim_tape_set_fmt (uptr, 0, "SIMH", NULL); /* restore default format */ | |
return SCPE_OK; | |
} | |
t_stat sim_tape_attach_help(FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
fprintf (st, "%s Tape Attach Help\n\n", dptr->name); | |
if (0 == (uptr-dptr->units)) { | |
if (dptr->numunits > 1) { | |
uint32 i; | |
for (i=0; i < dptr->numunits; ++i) | |
if (dptr->units[i].flags & UNIT_ATTABLE) | |
fprintf (st, " sim> ATTACH {switches} %s%d tapefile\n\n", dptr->name, i); | |
} | |
else | |
fprintf (st, " sim> ATTACH {switches} %s tapefile\n\n", dptr->name); | |
} | |
else | |
fprintf (st, " sim> ATTACH {switches} %s tapefile\n\n", dptr->name); | |
fprintf (st, "Attach command switches\n"); | |
fprintf (st, " -R Attach Read Only.\n"); | |
fprintf (st, " -E Must Exist (if not specified an attempt to create the indicated\n"); | |
fprintf (st, " virtual tape will be attempted).\n"); | |
fprintf (st, " -F Open the indicated tape container in a specific format (default\n"); | |
fprintf (st, " is SIMH, alternatives are E11, TPC and P7B)\n"); | |
return SCPE_OK; | |
} | |
static void sim_tape_data_trace(UNIT *uptr, const uint8 *data, size_t len, const char* txt, int detail, uint32 reason) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (ctx == NULL) | |
return; | |
if (sim_deb && (ctx->dptr->dctrl & reason)) | |
sim_data_trace(ctx->dptr, uptr, (detail ? data : NULL), "", len, txt, reason); | |
} | |
/* Read record length forward (internal routine). | |
Inputs: | |
uptr = pointer to tape unit | |
bc = pointer to returned record length | |
Outputs: | |
status = operation status | |
exit condition tape position | |
------------------ ----------------------------------------------------- | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium updated if a gap precedes, else unchanged and PNU set | |
tape mark updated | |
tape runaway updated | |
data record updated, sim_fread will read record forward | |
This routine is called to set up a record read or spacing in the forward | |
direction. On return, status is MTSE_OK and the tape is positioned at the | |
first data byte if a record was encountered, or status is an MTSE error code | |
giving the reason that the operation did not succeed and the tape position is | |
as indicated above. | |
The ANSI standards for magnetic tape recording (X3.22, X3.39, and X3.54) and | |
the equivalent ECMA standard (ECMA-62) specify a maximum erase gap length of | |
25 feet (7.6 meters). While gaps of any length may be written, gaps longer | |
than this are non-standard and may indicate that an unrecorded or erased tape | |
is being read. | |
If the tape density has been set via a previous "sim_tape_set_dens" call, | |
then the length is monitored when skipping over erase gaps. If the length | |
reaches 25 feet, motion is terminated, and MTSE_RUNAWAY status is returned. | |
Runaway status is also returned if an end-of-medium marker or the physical | |
end of file is encountered while spacing over a gap; however, MTSE_EOM is | |
returned if the tape is positioned at the EOM or EOF on entry. | |
If the density has not been set, then a gap of any length is skipped, and | |
MTSE_RUNAWAY status is never returned. In effect, erase gaps present in the | |
tape image file will be transparent to the caller. | |
Erase gaps are currently supported only in SIMH (MTUF_F_STD) tape format. | |
Because gaps may be partially overwritten with data records, gap metadata | |
must be examined marker-by-marker. To reduce the number of file read calls, | |
a buffer of metadata elements is used. The buffer size is initially | |
established at 256 elements but may be set to any size desired. To avoid a | |
large read for the typical case where an erase gap is not present, the first | |
read is of a single metadatum marker. If that is a gap marker, then | |
additional buffered reads are performed. | |
See the notes at "tape_erase_fwd" regarding the erase gap implementation. | |
Implementation notes: | |
1. For programming convenience, erase gap processing is performed for both | |
SIMH standard and E11 tape formats, although the latter will never | |
contain erase gaps, as the "tape_erase_fwd" call takes no action for the | |
E11 format. | |
2. The "feof" call cannot return a non-zero value on the first pass through | |
the loop, because the "sim_fseek" call resets the internal end-of-file | |
indicator. Subsequent passes only occur if an erase gap is present, so | |
a non-zero return indicates an EOF was seen while reading through a gap. | |
3. The "runaway_counter" cannot decrement to zero (or below) in the presence | |
of an error that terminates the gap-search loop. Therefore, the test | |
after the loop exit need not check for error status. | |
4. The dynamic start/stop test of the HP 3000 magnetic tape diagnostic | |
heavily exercises the erase gap scanning code. Sample test execution | |
times for various buffer sizes on a 2 GHz host platform are: | |
buffer size execution time | |
(elements) (CPU seconds) | |
----------- -------------- | |
1 7200 | |
32 783 | |
128 237 | |
256 203 | |
512 186 | |
1024 171 | |
5. Because an erase gap may precede the logical end-of-medium, represented | |
either by the physical end-of-file or by an EOM marker, the "position not | |
updated" flag is set only if the tape is positioned at the EOM when the | |
routine is entered. If at least one gap marker precedes the EOM, then | |
the PNU flag is not set. This ensures that a backspace-and-retry | |
sequence will work correctly in both cases. | |
*/ | |
static t_stat sim_tape_rdlntf (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
uint8 c; | |
t_bool all_eof; | |
uint32 f = MT_GET_FMT (uptr); | |
t_mtrlnt sbc; | |
t_tpclnt tpcbc; | |
t_mtrlnt buffer [256]; /* local tape buffer */ | |
uint32 bufcntr, bufcap; /* buffer counter and capacity */ | |
int32 runaway_counter, sizeof_gap; /* bytes remaining before runaway and bytes per gap */ | |
t_stat status = MTSE_OK; | |
MT_CLR_PNU (uptr); /* clear the position-not-updated flag */ | |
if ((uptr->flags & UNIT_ATT) == 0) /* if the unit is not attached */ | |
return MTSE_UNATT; /* then quit with an error */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) { /* set the initial tape position; if it fails */ | |
MT_SET_PNU (uptr); /* then set position not updated */ | |
status = sim_tape_ioerr (uptr); /* and quit with I/O error status */ | |
} | |
else switch (f) { /* otherwise the read method depends on the tape format */ | |
case MTUF_F_STD: | |
case MTUF_F_E11: | |
runaway_counter = 25 * 12 * bpi [MT_DENS (uptr->dynflags)]; /* set the largest legal gap size in bytes */ | |
if (runaway_counter == 0) { /* if tape density has not been not set */ | |
sizeof_gap = 0; /* then disable runaway detection */ | |
runaway_counter = INT_MAX; /* to allow gaps of any size */ | |
} | |
else /* otherwise */ | |
sizeof_gap = sizeof (t_mtrlnt); /* set the size of the gap */ | |
bufcntr = 0; /* force an initial read */ | |
bufcap = 0; /* but of just one metadata marker */ | |
do { /* loop until a record, gap, or error is seen */ | |
if (bufcntr == bufcap) { /* if the buffer is empty then refill it */ | |
if (feof (uptr->fileref)) { /* if we hit the EOF while reading a gap */ | |
if (sizeof_gap > 0) /* then if detection is enabled */ | |
status = MTSE_RUNAWAY; /* then report a tape runaway */ | |
else /* otherwise report the physical EOF */ | |
status = MTSE_EOM; /* as the end-of-medium */ | |
break; | |
} | |
else if (bufcap == 0) /* otherwise if this is the initial read */ | |
bufcap = 1; /* then start with just one marker */ | |
else /* otherwise reset the capacity */ | |
bufcap = sizeof (buffer) /* to the full size of the buffer */ | |
/ sizeof (buffer [0]); | |
bufcap = sim_fread (buffer, /* fill the buffer */ | |
sizeof (t_mtrlnt), /* with tape metadata */ | |
bufcap, | |
uptr->fileref); | |
if (ferror (uptr->fileref)) { /* if a file I/O error occurred */ | |
if (bufcntr == 0) /* then if this is the initial read */ | |
MT_SET_PNU (uptr); /* then set position not updated */ | |
status = sim_tape_ioerr (uptr); /* report the error and quit */ | |
break; | |
} | |
else if (bufcap == 0 /* otherwise if positioned at the physical EOF */ | |
|| buffer [0] == MTR_EOM) /* or at the logical EOM */ | |
if (bufcntr == 0) { /* then if this is the initial read */ | |
MT_SET_PNU (uptr); /* then set position not updated */ | |
status = MTSE_EOM; /* and report the end-of-medium and quit */ | |
break; | |
} | |
else { /* otherwise some gap has already been skipped */ | |
if (sizeof_gap > 0) /* so if detection is enabled */ | |
status = MTSE_RUNAWAY; /* then report a tape runaway */ | |
else /* otherwise report the physical EOF */ | |
status = MTSE_EOM; /* as the end-of-medium */ | |
break; | |
} | |
else /* otherwise reset the index */ | |
bufcntr = 0; /* to the start of the buffer */ | |
} | |
*bc = buffer [bufcntr++]; /* store the metadata marker value */ | |
if (*bc == MTR_EOM) { /* if an end-of-medium marker is seen */ | |
if (sizeof_gap > 0) /* then if detection is enabled */ | |
status = MTSE_RUNAWAY; /* then report a tape runaway */ | |
else /* otherwise report the physical EOF */ | |
status = MTSE_EOM; /* as the end-of-medium */ | |
break; | |
} | |
uptr->pos = uptr->pos + sizeof (t_mtrlnt); /* space over the marker */ | |
if (*bc == MTR_TMK) { /* if the value is a tape mark */ | |
status = MTSE_TMK; /* then quit with tape mark status */ | |
break; | |
} | |
else if (*bc == MTR_GAP) /* otherwise if the value is a full gap */ | |
runaway_counter -= sizeof_gap; /* then decrement the gap counter */ | |
else if (*bc == MTR_FHGAP) { /* otherwise if the value if a half gap */ | |
uptr->pos = uptr->pos - sizeof (t_mtrlnt) / 2; /* then back up and resync */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) { /* set the tape position; if it fails */ | |
status = sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
break; | |
} | |
bufcntr = bufcap; /* mark the buffer as invalid to force a read */ | |
*bc = MTR_GAP; /* reset the marker */ | |
runaway_counter -= sizeof_gap / 2; /* and decrement the gap counter */ | |
} | |
else { /* otherwise it's a record marker */ | |
if (bufcntr < bufcap /* if the position is within the buffer */ | |
&& sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) { /* then seek to the data area; if it fails */ | |
status = sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
break; | |
} | |
sbc = MTR_L (*bc); /* extract the record length */ | |
uptr->pos = uptr->pos + sizeof (t_mtrlnt) /* position to the start */ | |
+ (f == MTUF_F_STD ? (sbc + 1) & ~1 : sbc); /* of the record */ | |
} | |
} | |
while (*bc == MTR_GAP && runaway_counter > 0); /* continue until data or runaway occurs */ | |
if (runaway_counter <= 0) /* if a tape runaway occurred */ | |
status = MTSE_RUNAWAY; /* then report it */ | |
break; /* otherwise the operation succeeded */ | |
case MTUF_F_TPC: | |
sim_fread (&tpcbc, sizeof (t_tpclnt), 1, uptr->fileref); | |
*bc = tpcbc; /* save rec lnt */ | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); /* pos not upd */ | |
status = sim_tape_ioerr (uptr); | |
} | |
else if (feof (uptr->fileref)) { /* eof? */ | |
MT_SET_PNU (uptr); /* pos not upd */ | |
status = MTSE_EOM; | |
} | |
else { | |
uptr->pos = uptr->pos + sizeof (t_tpclnt); /* spc over reclnt */ | |
if (tpcbc == TPC_TMK) /* tape mark? */ | |
status = MTSE_TMK; | |
else | |
uptr->pos = uptr->pos + ((tpcbc + 1) & ~1); /* spc over record */ | |
} | |
break; | |
case MTUF_F_P7B: | |
for (sbc = 0, all_eof = 1; ; sbc++) { /* loop thru record */ | |
sim_fread (&c, sizeof (uint8), 1, uptr->fileref); | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); /* pos not upd */ | |
status = sim_tape_ioerr (uptr); | |
break; | |
} | |
else if (feof (uptr->fileref)) { /* eof? */ | |
if (sbc == 0) /* no data? eom */ | |
status = MTSE_EOM; | |
break; /* treat like eor */ | |
} | |
else if ((sbc != 0) && (c & P7B_SOR)) /* next record? */ | |
break; | |
else if ((c & P7B_DPAR) != P7B_EOF) | |
all_eof = 0; | |
} | |
if (status == MTSE_OK) { | |
*bc = sbc; /* save rec lnt */ | |
sim_fseek (uptr->fileref, uptr->pos, SEEK_SET); /* for read */ | |
uptr->pos = uptr->pos + sbc; /* spc over record */ | |
if (all_eof) /* tape mark? */ | |
status = MTSE_TMK; | |
} | |
break; | |
default: | |
status = MTSE_FMT; | |
} | |
return status; | |
} | |
static t_stat sim_tape_rdrlfwd (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat status; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
status = sim_tape_rdlntf (uptr, bc); /* read the record length */ | |
sim_debug (MTSE_DBG_STR, ctx->dptr, "rd_lnt: st: %d, lnt: %d, pos: %" T_ADDR_FMT "u\n", status, *bc, uptr->pos); | |
return status; | |
} | |
/* Read record length reverse (internal routine). | |
Inputs: | |
uptr = pointer to tape unit | |
bc = pointer to returned record length | |
Outputs: | |
status = operation status | |
exit condition tape position | |
------------------ ------------------------------------------- | |
unit unattached unchanged | |
beginning of tape unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
tape mark updated | |
tape runaway updated | |
data record updated, sim_fread will read record forward | |
This routine is called to set up a record read or spacing in the reverse | |
direction. On return, status is MTSE_OK and the tape is positioned at the | |
first data byte if a record was encountered, or status is an MTSE error code | |
giving the reason that the operation did not succeed and the tape position is | |
as indicated above. | |
Implementation notes: | |
1. The "sim_fread" call cannot return 0 in the absence of an error | |
condition. The preceding "sim_tape_bot" test ensures that "pos" >= 4, so | |
"sim_fseek" will back up at least that far, so "sim_fread" will read at | |
least one element. If the call returns zero, an error must have | |
occurred, so the "ferror" call must succeed. | |
2. See the notes at "sim_tape_rdlntf" and "tape_erase_fwd" regarding tape | |
runaway and the erase gap implementation, respectively. | |
*/ | |
static t_stat sim_tape_rdlntr (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
uint8 c; | |
t_bool all_eof; | |
uint32 f = MT_GET_FMT (uptr); | |
t_addr ppos; | |
t_mtrlnt sbc; | |
t_tpclnt tpcbc; | |
t_mtrlnt buffer [256]; /* local tape buffer */ | |
uint32 bufcntr, bufcap; /* buffer counter and capacity */ | |
int32 runaway_counter, sizeof_gap; /* bytes remaining before runaway and bytes per gap */ | |
t_stat status = MTSE_OK; | |
MT_CLR_PNU (uptr); /* clear the position-not-updated flag */ | |
if ((uptr->flags & UNIT_ATT) == 0) /* if the unit is not attached */ | |
return MTSE_UNATT; /* then quit with an error */ | |
if (sim_tape_bot (uptr)) /* if the unit is positioned at the BOT */ | |
status = MTSE_BOT; /* then reading backward is not possible */ | |
else switch (f) { /* otherwise the read method depends on the tape format */ | |
case MTUF_F_STD: | |
case MTUF_F_E11: | |
runaway_counter = 25 * 12 * bpi [MT_DENS (uptr->dynflags)]; /* set the largest legal gap size in bytes */ | |
if (runaway_counter == 0) { /* if tape density has not been not set */ | |
sizeof_gap = 0; /* then disable runaway detection */ | |
runaway_counter = INT_MAX; /* to allow gaps of any size */ | |
} | |
else /* otherwise */ | |
sizeof_gap = sizeof (t_mtrlnt); /* set the size of the gap */ | |
bufcntr = 0; /* force an initial read */ | |
bufcap = 0; /* but of just one metadata marker */ | |
do { /* loop until a record, gap, or error is seen */ | |
if (bufcntr == 0) { /* if the buffer is empty then refill it */ | |
if (sim_tape_bot (uptr)) { /* if the search has backed into the BOT */ | |
status = MTSE_BOT; /* then quit with an error */ | |
break; | |
} | |
else if (bufcap == 0) /* otherwise if this is the initial read */ | |
bufcap = 1; /* then start with just one marker */ | |
else if (uptr->pos < sizeof (buffer)) /* otherwise if less than a full buffer remains */ | |
bufcap = (uint32) uptr->pos /* then reduce the capacity accordingly */ | |
/ sizeof (t_mtrlnt); | |
else /* otherwise reset the capacity */ | |
bufcap = sizeof (buffer) /* to the full size of the buffer */ | |
/ sizeof (buffer [0]); | |
if (sim_fseek (uptr->fileref, /* seek back to the location */ | |
uptr->pos - bufcap * sizeof (t_mtrlnt), /* corresponding to the start */ | |
SEEK_SET)) { /* of the buffer; if it fails */ | |
status = sim_tape_ioerr (uptr); /* and fail with I/O error status */ | |
break; | |
} | |
bufcntr = sim_fread (buffer, sizeof (t_mtrlnt), /* fill the buffer */ | |
bufcap, uptr->fileref); /* with tape metadata */ | |
if (ferror (uptr->fileref)) { /* if a file I/O error occurred */ | |
status = sim_tape_ioerr (uptr); /* then report the error and quit */ | |
break; | |
} | |
} | |
*bc = buffer [--bufcntr]; /* store the metadata marker value */ | |
uptr->pos = uptr->pos - sizeof (t_mtrlnt); /* backspace over the marker */ | |
if (*bc == MTR_TMK) { /* if the marker is a tape mark */ | |
status = MTSE_TMK; /* then quit with tape mark status */ | |
break; | |
} | |
else if (*bc == MTR_GAP) /* otherwise if the marker is a full gap */ | |
runaway_counter -= sizeof_gap; /* then decrement the gap counter */ | |
else if ((*bc & MTR_M_RHGAP) == MTR_RHGAP /* otherwise if the marker */ | |
|| *bc == MTR_RRGAP) { /* is a half gap */ | |
uptr->pos = uptr->pos + sizeof (t_mtrlnt) / 2; /* then position forward to resync */ | |
bufcntr = 0; /* mark the buffer as invalid to force a read */ | |
*bc = MTR_GAP; /* reset the marker */ | |
runaway_counter -= sizeof_gap / 2; /* and decrement the gap counter */ | |
} | |
else { /* otherwise it's a record marker */ | |
sbc = MTR_L (*bc); /* extract the record length */ | |
uptr->pos = uptr->pos - sizeof (t_mtrlnt) /* position to the start */ | |
- (f == MTUF_F_STD ? (sbc + 1) & ~1 : sbc); /* of the record */ | |
if (sim_fseek (uptr->fileref, /* seek to the start of the data area; if it fails */ | |
uptr->pos + sizeof (t_mtrlnt), /* then return with I/O error status */ | |
SEEK_SET)) { | |
status = sim_tape_ioerr (uptr); | |
break; | |
} | |
} | |
} | |
while (*bc == MTR_GAP && runaway_counter > 0); /* continue until data or runaway occurs */ | |
if (runaway_counter <= 0) /* if a tape runaway occurred */ | |
status = MTSE_RUNAWAY; /* then report it */ | |
break; /* otherwise the operation succeeded */ | |
case MTUF_F_TPC: | |
ppos = sim_tape_tpc_fnd (uptr, (t_addr *) uptr->filebuf); /* find prev rec */ | |
sim_fseek (uptr->fileref, ppos, SEEK_SET); /* position */ | |
sim_fread (&tpcbc, sizeof (t_tpclnt), 1, uptr->fileref); | |
*bc = tpcbc; /* save rec lnt */ | |
if (ferror (uptr->fileref)) /* error? */ | |
status = sim_tape_ioerr (uptr); | |
else if (feof (uptr->fileref)) /* eof? */ | |
status = MTSE_EOM; | |
else { | |
uptr->pos = ppos; /* spc over record */ | |
if (*bc == MTR_TMK) /* tape mark? */ | |
status = MTSE_TMK; | |
else | |
sim_fseek (uptr->fileref, uptr->pos + sizeof (t_tpclnt), SEEK_SET); | |
} | |
break; | |
case MTUF_F_P7B: | |
for (sbc = 1, all_eof = 1; (t_addr) sbc <= uptr->pos ; sbc++) { | |
sim_fseek (uptr->fileref, uptr->pos - sbc, SEEK_SET); | |
sim_fread (&c, sizeof (uint8), 1, uptr->fileref); | |
if (ferror (uptr->fileref)) { /* error? */ | |
status = sim_tape_ioerr (uptr); | |
break; | |
} | |
else if (feof (uptr->fileref)) { /* eof? */ | |
status = MTSE_EOM; | |
break; | |
} | |
else { | |
if ((c & P7B_DPAR) != P7B_EOF) | |
all_eof = 0; | |
if (c & P7B_SOR) /* start of record? */ | |
break; | |
} | |
} | |
if (status == MTSE_OK) { | |
uptr->pos = uptr->pos - sbc; /* update position */ | |
*bc = sbc; /* save rec lnt */ | |
sim_fseek (uptr->fileref, uptr->pos, SEEK_SET); /* for read */ | |
if (all_eof) /* tape mark? */ | |
status = MTSE_TMK; | |
} | |
break; | |
default: | |
status = MTSE_FMT; | |
} | |
return status; | |
} | |
static t_stat sim_tape_rdrlrev (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat status; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
status = sim_tape_rdlntr (uptr, bc); /* read the record length */ | |
sim_debug (MTSE_DBG_STR, ctx->dptr, "rd_lnt: st: %d, lnt: %d, pos: %" T_ADDR_FMT "u\n", status, *bc, uptr->pos); | |
return status; | |
} | |
/* Read record forward | |
Inputs: | |
uptr = pointer to tape unit | |
buf = pointer to buffer | |
bc = pointer to returned record length | |
max = maximum record size | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium unchanged, PNU set | |
invalid record unchanged, PNU set | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_rdrecf (UNIT *uptr, uint8 *buf, t_mtrlnt *bc, t_mtrlnt max) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
uint32 f = MT_GET_FMT (uptr); | |
t_mtrlnt i, tbc, rbc; | |
t_addr opos; | |
t_stat st; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_rdrecf(unit=%d, buf=%p, max=%d)\n", (int)(uptr-ctx->dptr->units), buf, max); | |
opos = uptr->pos; /* old position */ | |
st = sim_tape_rdrlfwd (uptr, &tbc); /* read rec lnt */ | |
if (st != MTSE_OK) | |
return st; | |
*bc = rbc = MTR_L (tbc); /* strip error flag */ | |
if (rbc > max) { /* rec out of range? */ | |
MT_SET_PNU (uptr); | |
uptr->pos = opos; | |
return MTSE_INVRL; | |
} | |
i = (t_mtrlnt) sim_fread (buf, sizeof (uint8), rbc, uptr->fileref); /* read record */ | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); | |
uptr->pos = opos; | |
return sim_tape_ioerr (uptr); | |
} | |
for ( ; i < rbc; i++) /* fill with 0's */ | |
buf[i] = 0; | |
if (f == MTUF_F_P7B) /* p7b? strip SOR */ | |
buf[0] = buf[0] & P7B_DPAR; | |
sim_tape_data_trace(uptr, buf, rbc, "Record Read", ctx->dptr->dctrl & MTSE_DBG_DAT, MTSE_DBG_STR); | |
return (MTR_F (tbc)? MTSE_RECE: MTSE_OK); | |
} | |
t_stat sim_tape_rdrecf_a (UNIT *uptr, uint8 *buf, t_mtrlnt *bc, t_mtrlnt max, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = SCPE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_rdrecf (uptr, buf, bc, max); | |
AIO_CALL(TOP_RDRF, buf, bc, NULL, max, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Read record reverse | |
Inputs: | |
uptr = pointer to tape unit | |
buf = pointer to buffer | |
bc = pointer to returned record length | |
max = maximum record size | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
invalid record unchanged | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_rdrecr (UNIT *uptr, uint8 *buf, t_mtrlnt *bc, t_mtrlnt max) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
uint32 f = MT_GET_FMT (uptr); | |
t_mtrlnt i, rbc, tbc; | |
t_stat st; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_rdrecr(unit=%d, buf=%p, max=%d)\n", (int)(uptr-ctx->dptr->units), buf, max); | |
st = sim_tape_rdrlrev (uptr, &tbc); /* read rec lnt */ | |
if (st != MTSE_OK) | |
return st; | |
*bc = rbc = MTR_L (tbc); /* strip error flag */ | |
if (rbc > max) /* rec out of range? */ | |
return MTSE_INVRL; | |
i = (t_mtrlnt) sim_fread (buf, sizeof (uint8), rbc, uptr->fileref); /* read record */ | |
if (ferror (uptr->fileref)) /* error? */ | |
return sim_tape_ioerr (uptr); | |
for ( ; i < rbc; i++) /* fill with 0's */ | |
buf[i] = 0; | |
if (f == MTUF_F_P7B) /* p7b? strip SOR */ | |
buf[0] = buf[0] & P7B_DPAR; | |
sim_tape_data_trace(uptr, buf, rbc, "Record Read Reverse", ctx->dptr->dctrl & MTSE_DBG_DAT, MTSE_DBG_STR); | |
return (MTR_F (tbc)? MTSE_RECE: MTSE_OK); | |
} | |
t_stat sim_tape_rdrecr_a (UNIT *uptr, uint8 *buf, t_mtrlnt *bc, t_mtrlnt max, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = SCPE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_rdrecr (uptr, buf, bc, max); | |
AIO_CALL(TOP_RDRR, buf, bc, NULL, max, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Write record forward | |
Inputs: | |
uptr = pointer to tape unit | |
buf = pointer to buffer | |
bc = record length | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
write protect unchanged | |
write error unchanged, PNU set | |
data record updated | |
*/ | |
t_stat sim_tape_wrrecf (UNIT *uptr, uint8 *buf, t_mtrlnt bc) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
uint32 f = MT_GET_FMT (uptr); | |
t_mtrlnt sbc; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_wrrecf(unit=%d, buf=%p, bc=%d)\n", (int)(uptr-ctx->dptr->units), buf, bc); | |
sim_tape_data_trace(uptr, buf, bc, "Record Write", ctx->dptr->dctrl & MTSE_DBG_DAT, MTSE_DBG_STR); | |
MT_CLR_PNU (uptr); | |
sbc = MTR_L (bc); | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
return MTSE_UNATT; | |
if (sim_tape_wrp (uptr)) /* write prot? */ | |
return MTSE_WRP; | |
if (sbc == 0) /* nothing to do? */ | |
return MTSE_OK; | |
sim_fseek (uptr->fileref, uptr->pos, SEEK_SET); /* set pos */ | |
switch (f) { /* case on format */ | |
case MTUF_F_STD: /* standard */ | |
sbc = MTR_L ((bc + 1) & ~1); /* pad odd length */ | |
case MTUF_F_E11: /* E11 */ | |
sim_fwrite (&bc, sizeof (t_mtrlnt), 1, uptr->fileref); | |
sim_fwrite (buf, sizeof (uint8), sbc, uptr->fileref); | |
sim_fwrite (&bc, sizeof (t_mtrlnt), 1, uptr->fileref); | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); | |
return sim_tape_ioerr (uptr); | |
} | |
uptr->pos = uptr->pos + sbc + (2 * sizeof (t_mtrlnt)); /* move tape */ | |
break; | |
case MTUF_F_P7B: /* Pierce 7B */ | |
buf[0] = buf[0] | P7B_SOR; /* mark start of rec */ | |
sim_fwrite (buf, sizeof (uint8), sbc, uptr->fileref); | |
sim_fwrite (buf, sizeof (uint8), 1, uptr->fileref); /* delimit rec */ | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); | |
return sim_tape_ioerr (uptr); | |
} | |
uptr->pos = uptr->pos + sbc; /* move tape */ | |
break; | |
} | |
sim_tape_data_trace(uptr, buf, sbc, "Record Written", ctx->dptr->dctrl & MTSE_DBG_DAT, MTSE_DBG_STR); | |
return MTSE_OK; | |
} | |
t_stat sim_tape_wrrecf_a (UNIT *uptr, uint8 *buf, t_mtrlnt bc, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = SCPE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_wrrecf (uptr, buf, bc); | |
AIO_CALL(TOP_WREC, buf, 0, NULL, 0, bc, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Write metadata forward (internal routine) */ | |
static t_stat sim_tape_wrdata (UNIT *uptr, uint32 dat) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
MT_CLR_PNU (uptr); | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
return MTSE_UNATT; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
if (sim_tape_wrp (uptr)) /* write prot? */ | |
return MTSE_WRP; | |
sim_fseek (uptr->fileref, uptr->pos, SEEK_SET); /* set pos */ | |
sim_fwrite (&dat, sizeof (t_mtrlnt), 1, uptr->fileref); | |
if (ferror (uptr->fileref)) { /* error? */ | |
MT_SET_PNU (uptr); | |
return sim_tape_ioerr (uptr); | |
} | |
sim_debug (MTSE_DBG_STR, ctx->dptr, "wr_lnt: lnt: %d, pos: %" T_ADDR_FMT "u\n", dat, uptr->pos); | |
uptr->pos = uptr->pos + sizeof (t_mtrlnt); /* move tape */ | |
return MTSE_OK; | |
} | |
/* Write tape mark */ | |
t_stat sim_tape_wrtmk (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_wrtmk(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
if (MT_GET_FMT (uptr) == MTUF_F_P7B) { /* P7B? */ | |
uint8 buf = P7B_EOF; /* eof mark */ | |
return sim_tape_wrrecf (uptr, &buf, 1); /* write char */ | |
} | |
return sim_tape_wrdata (uptr, MTR_TMK); | |
} | |
t_stat sim_tape_wrtmk_a (UNIT *uptr, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_wrtmk (uptr); | |
AIO_CALL(TOP_WTMK, NULL, NULL, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Write end of medium */ | |
t_stat sim_tape_wreom (UNIT *uptr) | |
{ | |
t_stat result; | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_wreom(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
if (MT_GET_FMT (uptr) == MTUF_F_P7B) /* cant do P7B */ | |
return MTSE_FMT; | |
result = sim_tape_wrdata (uptr, MTR_EOM); /* write the EOM marker */ | |
uptr->pos = uptr->pos - sizeof (t_mtrlnt); /* restore original tape position */ | |
MT_SET_PNU (uptr); /* indicate that position was not updated */ | |
return result; | |
} | |
t_stat sim_tape_wreom_a (UNIT *uptr, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_wreom (uptr); | |
AIO_CALL(TOP_WEOM, NULL, NULL, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Write end of medium-rewind */ | |
t_stat sim_tape_wreomrw (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat r; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_wreomrw(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
if (MT_GET_FMT (uptr) == MTUF_F_P7B) /* cant do P7B */ | |
return MTSE_FMT; | |
r = sim_tape_wrdata (uptr, MTR_EOM); | |
if (r == MTSE_OK) | |
r = sim_tape_rewind (uptr); | |
return r; | |
} | |
t_stat sim_tape_wreomrw_a (UNIT *uptr, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_wreomrw (uptr); | |
AIO_CALL(TOP_WEMR, NULL, NULL, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Erase a gap in the forward direction (internal routine). | |
An erase gap is written in the forward direction on the tape unit specified | |
by "uptr" for the number of bytes specified by "bc". The status of the | |
operation is returned, and the file position is altered as follows: | |
Exit Condition File Position | |
------------------ ------------------ | |
unit unattached unchanged | |
unsupported format unchanged | |
write protected unchanged | |
read error unchanged, PNU set | |
write error unchanged, PNU set | |
gap written updated | |
If the requested byte count equals the metadatum size, then the routine | |
succeeds only if it can overlay a single metadatum (i.e., a tape mark, an | |
end-of-medium marker, or an existing erase gap marker); otherwise, the file | |
position is not altered, PNU is set, and MTSE_INVRL (invalid record length) | |
status is returned. | |
An erase gap is represented in the tape image file by a special metadata | |
value repeated throughout the gap. The value is chosen so that it is still | |
recognizable even if it has been "cut in half" by a subsequent data overwrite | |
that does not end on a metadatum-sized boundary. In addition, a range of | |
metadata values are reserved for detection in the reverse direction. | |
This implementation supports erasing gaps in the middle of a populated tape | |
image and will always produce a valid image. It also produces valid images | |
when overwriting gaps with data records, with one exception: a data write | |
that leaves only two bytes of gap remaining will produce an invalid tape. | |
This limitation is deemed acceptable, as it is analogous to the existing | |
limitation that data records cannot overwrite other data records without | |
producing an invalid tape. | |
To write an erase gap, the implementation uses one of two approaches, | |
depending on whether or not the current tape position is at EOM. Erasing at | |
EOM presents no special difficulties; gap metadata markers are written for | |
the prescribed number of bytes. If the tape is not at EOM, then erasing must | |
take into account the existing record structure to ensure that a valid tape | |
image is maintained. | |
The general approach is to erase for the nominal number of bytes but to | |
increase that length, if necessary, to ensure that a partially overwritten | |
data record at the end of the gap can be altered to maintain validity. | |
Because the smallest legal tape record requires space for two metadata | |
markers plus two data bytes, an erasure that would leave less than that | |
is increased to consume the entire record. Otherwise, the final record is | |
truncated by rewriting the leading and trailing length words appropriately. | |
When reading in either direction, gap metadata markers are ignored (skipped) | |
until a record length header, EOF marker, EOM marker, or physical EOF is | |
encountered. Thus, tape images containing gap metadata are transparent to | |
the calling simulator (unless tape runaway support is enabled -- see the | |
notes at "sim_tape_rdlntf" for details). | |
The permissibility of data record lengths that are not multiples of the | |
metadatum size presents a difficulty when reading. If such an "odd length" | |
record is written over a gap, half of a metadata marker will exist | |
immediately after the trailing record length. | |
This condition is detected when reading forward by the appearance of a | |
"reversed" marker. The value appears reversed because the value is made up | |
of half of one marker and half of the next. This is handled by seeking | |
forward two bytes to resync (the stipulation above that the overwrite cannot | |
leave only two bytes of gap means that at least one "whole" metadata marker | |
will follow). Reading in reverse presents a more complex problem, because | |
half of the marker is from the preceding trailing record length marker and | |
therefore could be any of a range of values. However, that range is | |
restricted by the SIMH tape specification requirement that record length | |
metadata values must have bits 30:24 set to zero. This allows unambiguous | |
detection of the condition. | |
The value chosen for gap metadata and the values reserved for "half-gap" | |
detection are: | |
0xFFFFFFFE - primary gap value | |
0xFFFEFFFF - reserved (indicates half-gap in forward reads) | |
0xFFFF0000:0xFFFF00FF - reserved (indicates half-gap in reverse reads) | |
0xFFFF8000:0xFFFF80FF - reserved (indicates half-gap in reverse reads) | |
If the current tape format supports erase gaps, then this routine will write | |
a gap of the requested size. If the format does not, then no action will be | |
taken, and MTSE_OK status will be returned. This allows a device simulator | |
that supports writing erase gaps to use the same code without worrying about | |
the tape format currently selected by the user. A request for an erase gap | |
of zero length also succeeds with no action taken. | |
Implementation notes: | |
1. Erase gaps are currently supported only in SIMH (MTUF_F_STD) tape format. | |
*/ | |
static t_stat tape_erase_fwd (UNIT *uptr, t_mtrlnt gap_size) | |
{ | |
size_t xfer; | |
t_stat st; | |
t_mtrlnt meta, sbc, new_len, rec_size; | |
uint32 file_size, marker_count; | |
int32 gap_needed = (int32) gap_size; /* the gap remaining to be allocated from the tape */ | |
uint32 gap_alloc = 0; /* the gap currently allocated from the tape */ | |
const t_addr gap_pos = uptr->pos; /* the file position where the gap will start */ | |
const uint32 format = MT_GET_FMT (uptr); /* the tape format */ | |
const uint32 meta_size = sizeof (t_mtrlnt); /* the number of bytes per metadatum */ | |
const uint32 min_rec_size = 2 + sizeof (t_mtrlnt) * 2; /* the smallest data record size */ | |
MT_CLR_PNU (uptr); | |
if ((uptr->flags & UNIT_ATT) == 0) /* if the unit is not attached */ | |
return MTSE_UNATT; /* then we cannot proceed */ | |
else if (sim_tape_wrp (uptr)) /* otherwise if the unit is write protected */ | |
return MTSE_WRP; /* then we cannot write */ | |
else if (gap_size == 0 || format != MTUF_F_STD) /* otherwise if zero length or gaps aren't supported */ | |
return MTSE_OK; /* then take no action */ | |
file_size = sim_fsize (uptr->fileref); /* get the file size */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) { /* position the tape; if it fails */ | |
MT_SET_PNU (uptr); /* then set position not updated */ | |
return sim_tape_ioerr (uptr); /* and quit with I/O error status */ | |
} | |
/* Read tape records and allocate them to the gap until the amount required is | |
consumed. | |
Read the next metadatum from tape: | |
- EOF or EOM: allocate remainder of bytes needed. | |
- TMK or GAP: allocate sizeof(metadatum) bytes. | |
- Reverse GAP: allocate sizeof(metadatum) / 2 bytes. | |
- Data record: see below. | |
Loop until the bytes needed = 0. | |
*/ | |
do { | |
xfer = sim_fread (&meta, meta_size, 1, uptr->fileref); /* read a metadatum */ | |
if (ferror (uptr->fileref)) { /* read error? */ | |
uptr->pos = gap_pos; /* restore original position */ | |
MT_SET_PNU (uptr); /* position not updated */ | |
return sim_tape_ioerr (uptr); /* translate error */ | |
} | |
else if (xfer != 1 && feof (uptr->fileref) == 0) { /* otherwise if a partial metadatum was read */ | |
uptr->pos = gap_pos; /* then restore the original position */ | |
MT_SET_PNU (uptr); /* set the position-not-updated flag */ | |
return MTSE_INVRL; /* and return an invalid record length error */ | |
} | |
else /* otherwise we had a good read */ | |
uptr->pos = uptr->pos + meta_size; /* so move the tape over the datum */ | |
if (feof (uptr->fileref) || (meta == MTR_EOM)) { /* at eof or eom? */ | |
gap_alloc = gap_alloc + gap_needed; /* allocate remainder */ | |
gap_needed = 0; | |
} | |
else if ((meta == MTR_GAP) || (meta == MTR_TMK)) { /* gap or tape mark? */ | |
gap_alloc = gap_alloc + meta_size; /* allocate marker space */ | |
gap_needed = gap_needed - meta_size; /* reduce requirement */ | |
} | |
else if (gap_size == meta_size) { /* otherwise if the request is for a single metadatum */ | |
uptr->pos = gap_pos; /* then restore the original position */ | |
MT_SET_PNU (uptr); /* set the position-not-updated flag */ | |
return MTSE_INVRL; /* and return an invalid record length error */ | |
} | |
else if (meta == MTR_FHGAP) { /* half gap? */ | |
uptr->pos = uptr->pos - meta_size / 2; /* backup to resync */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) /* position the tape; if it fails */ | |
return sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
gap_alloc = gap_alloc + meta_size / 2; /* allocate marker space */ | |
gap_needed = gap_needed - meta_size / 2; /* reduce requirement */ | |
} | |
else if (uptr->pos + MTR_L (meta) + meta_size > file_size) { /* rec len out of range? */ | |
gap_alloc = gap_alloc + gap_needed; /* presume overwritten tape */ | |
gap_needed = 0; /* allocate remainder */ | |
} | |
/* Allocate a data record: | |
- Determine record size in bytes (including metadata) | |
- If record size - bytes needed < smallest allowed record size, | |
allocate entire record to gap, else allocate needed amount and | |
truncate data record to reflect remainder. | |
*/ | |
else { /* data record */ | |
sbc = MTR_L (meta); /* get record data length */ | |
rec_size = ((sbc + 1) & ~1) + meta_size * 2; /* overall size in bytes */ | |
if (rec_size < gap_needed + min_rec_size) { /* rec too small? */ | |
uptr->pos = uptr->pos - meta_size + rec_size; /* position past record */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) /* position the tape; if it fails */ | |
return sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
gap_alloc = gap_alloc + rec_size; /* allocate record */ | |
gap_needed = gap_needed - rec_size; /* reduce requirement */ | |
} | |
else { /* record size OK */ | |
uptr->pos = uptr->pos - meta_size + gap_needed; /* position to end of gap */ | |
new_len = MTR_F (meta) | (sbc - gap_needed); /* truncate to new len */ | |
st = sim_tape_wrdata (uptr, new_len); /* write new rec len */ | |
if (st != MTSE_OK) { /* write OK? */ | |
uptr->pos = gap_pos; /* restore orig pos */ | |
return st; /* PNU was set by wrdata */ | |
} | |
uptr->pos = uptr->pos + sbc - gap_needed; /* position to end of data */ | |
st = sim_tape_wrdata (uptr, new_len); /* write new rec len */ | |
if (st != MTSE_OK) { /* write OK? */ | |
uptr->pos = gap_pos; /* restore orig pos */ | |
return st; /* PNU was set by wrdata */ | |
} | |
gap_alloc = gap_alloc + gap_needed; /* allocate remainder */ | |
gap_needed = 0; | |
} | |
} | |
} | |
while (gap_needed > 0); /* loop until all of the gap has been allocated */ | |
uptr->pos = gap_pos; /* reposition to gap start */ | |
if (gap_alloc & (meta_size - 1)) { /* gap size "odd?" */ | |
st = sim_tape_wrdata (uptr, MTR_FHGAP); /* write half gap marker */ | |
if (st != MTSE_OK) { /* write OK? */ | |
uptr->pos = gap_pos; /* restore orig pos */ | |
return st; /* PNU was set by wrdata */ | |
} | |
uptr->pos = uptr->pos - meta_size / 2; /* realign position */ | |
gap_alloc = gap_alloc - 2; /* decrease gap to write */ | |
} | |
marker_count = gap_alloc / meta_size; /* count of gap markers */ | |
do { | |
st = sim_tape_wrdata (uptr, MTR_GAP); /* write gap markers */ | |
if (st != MTSE_OK) { /* write OK? */ | |
uptr->pos = gap_pos; /* restore orig pos */ | |
return st; /* PNU was set by wrdata */ | |
} | |
} | |
while (--marker_count > 0); | |
return MTSE_OK; | |
} | |
/* Erase a gap in the reverse direction (internal routine). | |
An erase gap is written in the reverse direction on the tape unit specified | |
by "uptr" for the number of bytes specified by "bc". The status of the | |
operation is returned, and the file position is altered as follows: | |
Exit Condition File Position | |
------------------ ------------------ | |
unit unattached unchanged | |
unsupported format unchanged | |
write protected unchanged | |
read error unchanged, PNU set | |
write error unchanged, PNU set | |
gap written updated | |
If the requested byte count equals the metadatum size, then the routine | |
succeeds only if it can overlay a single metadatum (i.e., a tape mark or an | |
existing erase gap marker); otherwise, the file position is not altered, and | |
MTSE_INVRL (invalid record length) status is returned. | |
Implementation notes: | |
1. Erase gaps are currently supported only in SIMH (MTUF_F_STD) tape format. | |
2. Erasing a record in the reverse direction currently succeeds only if the | |
gap requested occupies the same space as the record located immediately | |
before the current file position. This limitation may be lifted in a | |
future update. | |
3. The "sim_fread" call cannot return 0 in the absence of an error | |
condition. The preceding "sim_tape_bot" test ensures that "pos" >= 4, so | |
"sim_fseek" will back up at least that far, so "sim_fread" will read at | |
least one element. If the call returns zero, an error must have | |
occurred, so the "ferror" call must succeed. | |
*/ | |
static t_stat tape_erase_rev (UNIT *uptr, t_mtrlnt gap_size) | |
{ | |
const uint32 format = MT_GET_FMT (uptr); /* the tape format */ | |
const uint32 meta_size = sizeof (t_mtrlnt); /* the number of bytes per metadatum */ | |
t_stat status; | |
t_mtrlnt rec_size, metadatum; | |
t_addr gap_pos; | |
size_t xfer; | |
MT_CLR_PNU (uptr); /* clear the position-not-updated flag */ | |
if ((uptr->flags & UNIT_ATT) == 0) /* if the unit is not attached */ | |
return MTSE_UNATT; /* then we cannot proceed */ | |
else if (sim_tape_wrp (uptr)) /* otherwise if the unit is write protected */ | |
return MTSE_WRP; /* then we cannot write */ | |
else if (gap_size == 0 || format != MTUF_F_STD) /* otherwise if the gap length is zero or unsupported */ | |
return MTSE_OK; /* then take no action */ | |
gap_pos = uptr->pos; /* save the starting position */ | |
if (gap_size == meta_size) { /* if the request is for a single metadatum */ | |
if (sim_tape_bot (uptr)) /* then if the unit is positioned at the BOT */ | |
return MTSE_BOT; /* then erasing backward is not possible */ | |
else /* otherwise */ | |
uptr->pos -= meta_size; /* back up the file pointer */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) /* position the tape; if it fails */ | |
return sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
sim_fread (&metadatum, meta_size, 1, uptr->fileref); /* read a metadatum */ | |
if (ferror (uptr->fileref)) /* if a file I/O error occurred */ | |
return sim_tape_ioerr (uptr); /* then report the error and quit */ | |
else if (metadatum == MTR_TMK) /* otherwise if a tape mark is present */ | |
if (sim_fseek (uptr->fileref, uptr->pos, SEEK_SET)) /* then reposition the tape; if it fails */ | |
return sim_tape_ioerr (uptr); /* then quit with I/O error status */ | |
else { /* otherwise */ | |
metadatum = MTR_GAP; /* replace it with an erase gap marker */ | |
xfer = sim_fwrite (&metadatum, meta_size, /* write the gap marker */ | |
1, uptr->fileref); | |
if (ferror (uptr->fileref) || xfer == 0) /* if a file I/O error occurred */ | |
return sim_tape_ioerr (uptr); /* report the error and quit */ | |
else /* otherwise the write succeeded */ | |
status = MTSE_OK; /* so return success */ | |
} | |
else if (metadatum == MTR_GAP) /* otherwise if a gap already exists */ | |
status = MTSE_OK; /* then take no additional action */ | |
else { /* otherwise a data record is present */ | |
uptr->pos = gap_pos; /* so restore the starting position */ | |
return MTSE_INVRL; /* and fail with invalid record length status */ | |
} | |
} | |
else { /* otherwise it's an erase record request */ | |
status = sim_tape_rdlntr (uptr, &rec_size); /* so get the length of the preceding record */ | |
if (status == MTSE_OK /* if the read succeeded */ | |
&& gap_size == rec_size + 2 * meta_size) { /* and the gap will exactly overlay the record */ | |
gap_pos = uptr->pos; /* then save the gap start position */ | |
status = tape_erase_fwd (uptr, gap_size); /* erase the record */ | |
if (status == MTSE_OK) /* if the gap write succeeded */ | |
uptr->pos = gap_pos; /* the reposition back to the start of the gap */ | |
} | |
else { /* otherwise the read failed or is the wrong size */ | |
uptr->pos = gap_pos; /* so restore the starting position */ | |
if (status != MTSE_OK) /* if the record was not found */ | |
return status; /* then return the failure reason */ | |
else /* otherwise the record is the wrong size */ | |
return MTSE_INVRL; /* so report an invalid record length */ | |
} | |
} | |
return status; /* return the status of the erase operation */ | |
} | |
/* Write an erase gap. | |
An erase gap is written in on the tape unit specified by "uptr" for the | |
length specified by "gap_size" in tenths of an inch, and the status of the | |
operation is returned. The tape density must have been set via a previous | |
sim_tape_set_dens call; if it has not, then no action is taken, and | |
MTSE_IOERR is returned. | |
If the requested gap length is zero, or the tape format currently selected | |
does not support erase gaps, the call succeeds with no action taken. This | |
allows a device simulator that supports writing erase gaps to use the same | |
code without worrying about the tape format currently selected by the user. | |
Because SIMH tape images do not carry physical parameters (e.g., recording | |
density), overwriting a tape image file containing a gap is problematic if | |
the density setting is not the same as that used during recording. There is | |
no way to establish a gap of a certain length unequivocally in an image file, | |
so this implementation establishes a gap of a certain number of bytes that | |
reflect the desired gap length at the tape density in bits per inch used | |
during writing. | |
*/ | |
t_stat sim_tape_wrgap (UNIT *uptr, uint32 gaplen) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
const uint32 density = bpi [MT_DENS (uptr->dynflags)]; /* the tape density in bits per inch */ | |
const uint32 byte_length = (gaplen * density) / 10; /* the size of the requested gap in bytes */ | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_wrgap(unit=%d, gaplen=%u)\n", (int)(uptr-ctx->dptr->units), gaplen); | |
if (density == 0) /* if the density has not been set */ | |
return MTSE_IOERR; /* then report an I/O error */ | |
else /* otherwise */ | |
return tape_erase_fwd (uptr, byte_length); /* erase the requested gap size in bytes */ | |
} | |
t_stat sim_tape_wrgap_a (UNIT *uptr, uint32 gaplen, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_wrgap (uptr, gaplen); | |
AIO_CALL(TOP_RDRR, NULL, NULL, NULL, 0, 0, gaplen, 0, NULL, callback); | |
return r; | |
} | |
/* Erase a record forward. | |
An erase gap is written in the forward direction on the tape unit specified | |
by "uptr" for a length corresponding to a record containing the number of | |
bytes specified by "bc", and the status of the operation is returned. The | |
resulting gap will occupy "bc" bytes plus the size of the record length | |
metadata. This function may be used to erase a record of length "n" in place | |
by requesting a gap of length "n". After erasure, the tape will be | |
positioned at the end of the gap. | |
If a length of 0 is specified, then the metadatum marker at the current tape | |
position will be erased. If the tape is not positioned at a metadatum | |
marker, the routine fails with MTSE_INVRL, and the tape position is | |
unchanged. | |
*/ | |
t_stat sim_tape_errecf (UNIT *uptr, t_mtrlnt bc) | |
{ | |
const t_mtrlnt meta_size = sizeof (t_mtrlnt); /* the number of bytes per metadatum */ | |
const t_mtrlnt gap_size = bc + 2 * meta_size; /* the requested gap size in bytes */ | |
if (bc == 0) /* if a zero-length erase is requested */ | |
return tape_erase_fwd (uptr, meta_size); /* then erase a metadatum marker */ | |
else /* otherwise */ | |
return tape_erase_fwd (uptr, gap_size); /* erase the requested gap */ | |
} | |
/* Erase a record reverse. | |
An erase gap is written in the reverse direction on the tape unit specified | |
by "uptr" for a length corresponding to a record containing the number of | |
bytes specified by "bc", and the status of the operation is returned. The | |
resulting gap will occupy "bc" bytes plus the size of the record length | |
metadata. This function may be used to erase a record of length "n" in place | |
by requesting a gap of length "n". After erasure, the tape will be | |
positioned at the start of the gap. | |
If a length of 0 is specified, then the metadatum marker preceding the | |
current tape position will be erased. If the tape is not positioned after a | |
metadatum marker, the routine fails with MTSE_INVRL, and the tape position is | |
unchanged. | |
*/ | |
t_stat sim_tape_errecr (UNIT *uptr, t_mtrlnt bc) | |
{ | |
const t_mtrlnt meta_size = sizeof (t_mtrlnt); /* the number of bytes per metadatum */ | |
const t_mtrlnt gap_size = bc + 2 * meta_size; /* the requested gap size in bytes */ | |
if (bc == 0) /* if a zero-length erase is requested */ | |
return tape_erase_rev (uptr, meta_size); /* then erase a metadatum marker */ | |
else /* otherwise */ | |
return tape_erase_rev (uptr, gap_size); /* erase the requested gap */ | |
} | |
/* Space record forward | |
Inputs: | |
uptr = pointer to tape unit | |
bc = pointer to size of record skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium unchanged, PNU set | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_sprecf (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_sprecf(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
st = sim_tape_rdrlfwd (uptr, bc); /* get record length */ | |
*bc = MTR_L (*bc); | |
return st; | |
} | |
t_stat sim_tape_sprecf_a (UNIT *uptr, t_mtrlnt *bc, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_sprecf (uptr, bc); | |
AIO_CALL(TOP_SPRF, NULL, bc, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space records forward | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of records to skip | |
skipped = pointer to number of records actually skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium unchanged, PNU set | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_sprecsf (UNIT *uptr, uint32 count, uint32 *skipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
t_mtrlnt tbc; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_sprecsf(unit=%d, count=%d)\n", (int)(uptr-ctx->dptr->units), count); | |
*skipped = 0; | |
while (*skipped < count) { /* loopo */ | |
st = sim_tape_sprecf (uptr, &tbc); /* spc rec */ | |
if (st != MTSE_OK) | |
return st; | |
*skipped = *skipped + 1; /* # recs skipped */ | |
} | |
return MTSE_OK; | |
} | |
t_stat sim_tape_sprecsf_a (UNIT *uptr, uint32 count, uint32 *skipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_sprecsf (uptr, count, skipped); | |
AIO_CALL(TOP_SRSF, NULL, skipped, NULL, 0, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space record reverse | |
Inputs: | |
uptr = pointer to tape unit | |
bc = pointer to size of records skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
beginning of tape unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
tape mark updated | |
data record updated | |
*/ | |
t_stat sim_tape_sprecr (UNIT *uptr, t_mtrlnt *bc) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_sprecr(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
if (MT_TST_PNU (uptr)) { | |
MT_CLR_PNU (uptr); | |
*bc = 0; | |
return MTSE_OK; | |
} | |
st = sim_tape_rdrlrev (uptr, bc); /* get record length */ | |
*bc = MTR_L (*bc); | |
return st; | |
} | |
t_stat sim_tape_sprecr_a (UNIT *uptr, t_mtrlnt *bc, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_sprecr (uptr, bc); | |
AIO_CALL(TOP_SPRR, NULL, bc, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space records reverse | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of records to skip | |
skipped = pointer to number of records actually skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
beginning of tape unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
tape mark updated | |
data record updated | |
*/ | |
t_stat sim_tape_sprecsr (UNIT *uptr, uint32 count, uint32 *skipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
t_mtrlnt tbc; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_sprecsr(unit=%d, count=%d)\n", (int)(uptr-ctx->dptr->units), count); | |
*skipped = 0; | |
while (*skipped < count) { /* loopo */ | |
st = sim_tape_sprecr (uptr, &tbc); /* spc rec rev */ | |
if (st != MTSE_OK) | |
return st; | |
*skipped = *skipped + 1; /* # recs skipped */ | |
} | |
return MTSE_OK; | |
} | |
t_stat sim_tape_sprecsr_a (UNIT *uptr, uint32 count, uint32 *skipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_sprecsr (uptr, count, skipped); | |
AIO_CALL(TOP_SRSR, NULL, skipped, NULL, 0, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space files forward by record | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of files to skip | |
skipped = pointer to number of files actually skipped | |
recsskipped = pointer to number of records skipped | |
check_leot = flag to detect and stop skip between two successive tape marks | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium unchanged, PNU set | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_spfilebyrecf (UNIT *uptr, uint32 count, uint32 *skipped, uint32 *recsskipped, t_bool check_leot) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
t_bool last_tapemark = FALSE; | |
uint32 filerecsskipped; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_spfilebyrecf(unit=%d, count=%d, check_leot=%d)\n", (int)(uptr-ctx->dptr->units), count, check_leot); | |
if (check_leot) { | |
t_mtrlnt rbc; | |
st = sim_tape_rdrlrev (uptr, &rbc); | |
last_tapemark = (MTSE_TMK == st); | |
if ((st == MTSE_OK) || (st == MTSE_TMK)) | |
sim_tape_rdrlfwd (uptr, &rbc); | |
} | |
*skipped = 0; | |
*recsskipped = 0; | |
while (*skipped < count) { /* loopo */ | |
while (1) { | |
st = sim_tape_sprecsf (uptr, 0x1ffffff, &filerecsskipped);/* spc recs */ | |
*recsskipped += filerecsskipped; | |
if (st != MTSE_OK) | |
break; | |
} | |
if (st == MTSE_TMK) { | |
*skipped = *skipped + 1; /* # files skipped */ | |
if (check_leot && (filerecsskipped == 0) && last_tapemark) { | |
uint32 filefileskipped; | |
sim_tape_spfilebyrecr (uptr, 1, &filefileskipped, &filerecsskipped); | |
*skipped = *skipped - 1; /* adjust # files skipped */ | |
return MTSE_LEOT; | |
} | |
last_tapemark = TRUE; | |
} | |
else | |
return st; | |
} | |
return MTSE_OK; | |
} | |
t_stat sim_tape_spfilebyrecf_a (UNIT *uptr, uint32 count, uint32 *skipped, uint32 *recsskipped, t_bool check_leot, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_spfilebyrecf (uptr, count, skipped, recsskipped, check_leot); | |
AIO_CALL(TOP_SFRF, NULL, skipped, recsskipped, check_leot, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space files forward | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of files to skip | |
skipped = pointer to number of files actually skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
read error unchanged, PNU set | |
end of file/medium unchanged, PNU set | |
tape mark updated | |
data record updated | |
data record error updated | |
*/ | |
t_stat sim_tape_spfilef (UNIT *uptr, uint32 count, uint32 *skipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
uint32 totalrecsskipped; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_spfilef(unit=%d, count=%d)\n", (int)(uptr-ctx->dptr->units), count); | |
return sim_tape_spfilebyrecf (uptr, count, skipped, &totalrecsskipped, FALSE); | |
} | |
t_stat sim_tape_spfilef_a (UNIT *uptr, uint32 count, uint32 *skipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_spfilef (uptr, count, skipped); | |
AIO_CALL(TOP_SPFF, NULL, skipped, NULL, 0, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space files reverse by record | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of files to skip | |
skipped = pointer to number of files actually skipped | |
recsskipped = pointer to number of records skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
beginning of tape unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
tape mark updated | |
data record updated | |
*/ | |
t_stat sim_tape_spfilebyrecr (UNIT *uptr, uint32 count, uint32 *skipped, uint32 *recsskipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat st; | |
uint32 filerecsskipped; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_spfilebyrecr(unit=%d, count=%d)\n", (int)(uptr-ctx->dptr->units), count); | |
*skipped = 0; | |
*recsskipped = 0; | |
while (*skipped < count) { /* loopo */ | |
while (1) { | |
st = sim_tape_sprecsr (uptr, 0x1ffffff, &filerecsskipped);/* spc recs rev */ | |
*recsskipped += filerecsskipped; | |
if (st != MTSE_OK) | |
break; | |
} | |
if (st == MTSE_TMK) | |
*skipped = *skipped + 1; /* # files skipped */ | |
else | |
return st; | |
} | |
return MTSE_OK; | |
} | |
t_stat sim_tape_spfilebyrecr_a (UNIT *uptr, uint32 count, uint32 *skipped, uint32 *recsskipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_spfilebyrecr (uptr, count, skipped, recsskipped); | |
AIO_CALL(TOP_SPFR, NULL, skipped, recsskipped, 0, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Space files reverse | |
Inputs: | |
uptr = pointer to tape unit | |
count = count of files to skip | |
skipped = pointer to number of files actually skipped | |
Outputs: | |
status = operation status | |
exit condition position | |
unit unattached unchanged | |
beginning of tape unchanged | |
read error unchanged | |
end of file unchanged | |
end of medium updated | |
tape mark updated | |
data record updated | |
*/ | |
t_stat sim_tape_spfiler (UNIT *uptr, uint32 count, uint32 *skipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
uint32 totalrecsskipped; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_spfiler(unit=%d, count=%d)\n", (int)(uptr-ctx->dptr->units), count); | |
return sim_tape_spfilebyrecr (uptr, count, skipped, &totalrecsskipped); | |
} | |
t_stat sim_tape_spfiler_a (UNIT *uptr, uint32 count, uint32 *skipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_spfiler (uptr, count, skipped); | |
AIO_CALL(TOP_SPFR, NULL, skipped, NULL, 0, count, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Rewind tape */ | |
t_stat sim_tape_rewind (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
if (uptr->flags & UNIT_ATT) { | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n");/* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_rewind(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
} | |
uptr->pos = 0; | |
MT_CLR_PNU (uptr); | |
return MTSE_OK; | |
} | |
t_stat sim_tape_rewind_a (UNIT *uptr, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_rewind (uptr); | |
AIO_CALL(TOP_RWND, NULL, NULL, NULL, 0, 0, 0, 0, NULL, callback); | |
return r; | |
} | |
/* Position Tape */ | |
t_stat sim_tape_position (UNIT *uptr, uint32 flags, uint32 recs, uint32 *recsskipped, uint32 files, uint32 *filesskipped, uint32 *objectsskipped) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
t_stat r = MTSE_OK; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_position(unit=%d, flags=0x%X, recs=%d, files=%d)\n", (int)(uptr-ctx->dptr->units), flags, recs, files); | |
*recsskipped = *filesskipped = *objectsskipped = 0; | |
if (flags & MTPOS_M_REW) | |
r = sim_tape_rewind (uptr); | |
if (r != MTSE_OK) | |
return r; | |
if (flags & MTPOS_M_OBJ) { | |
uint32 objs = recs; | |
uint32 skipped; | |
uint32 objsremaining = objs; | |
while (*objectsskipped < objs) { /* loopo */ | |
if (flags & MTPOS_M_REV) /* reverse? */ | |
r = sim_tape_sprecsr (uptr, objsremaining, &skipped); | |
else | |
r = sim_tape_sprecsf (uptr, objsremaining, &skipped); | |
objsremaining = objsremaining - (skipped + ((r == MTSE_TMK) ? 1 : 0)); | |
if ((r == MTSE_TMK) || (r == MTSE_OK)) | |
*objectsskipped = *objectsskipped + skipped + ((r == MTSE_TMK) ? 1 : 0); | |
else | |
return r; | |
} | |
r = MTSE_OK; | |
} | |
else { | |
uint32 fileskiprecs; | |
if (flags & MTPOS_M_REV) /* reverse? */ | |
r = sim_tape_spfilebyrecr (uptr, files, filesskipped, &fileskiprecs); | |
else | |
r = sim_tape_spfilebyrecf (uptr, files, filesskipped, &fileskiprecs, (flags & MTPOS_M_DLE)); | |
if (r != MTSE_OK) | |
return r; | |
if (flags & MTPOS_M_REV) /* reverse? */ | |
r = sim_tape_sprecsr (uptr, recs, recsskipped); | |
else | |
r = sim_tape_sprecsf (uptr, recs, recsskipped); | |
if (r == MTSE_TMK) | |
*filesskipped = *filesskipped + 1; | |
*objectsskipped = fileskiprecs + *filesskipped + *recsskipped; | |
} | |
return r; | |
} | |
t_stat sim_tape_position_a (UNIT *uptr, uint32 flags, uint32 recs, uint32 *recsskipped, uint32 files, uint32 *filesskipped, uint32 *objectsskipped, TAPE_PCALLBACK callback) | |
{ | |
t_stat r = MTSE_OK; | |
AIO_CALLSETUP | |
r = sim_tape_position (uptr, flags, recs, recsskipped, files, filesskipped, objectsskipped); | |
AIO_CALL(TOP_POSN, NULL, recsskipped, filesskipped, 0, flags, recs, files, objectsskipped, callback); | |
return r; | |
} | |
/* Reset tape */ | |
t_stat sim_tape_reset (UNIT *uptr) | |
{ | |
struct tape_context *ctx = (struct tape_context *)uptr->tape_ctx; | |
MT_CLR_PNU (uptr); | |
if (!(uptr->flags & UNIT_ATT)) /* attached? */ | |
return SCPE_OK; | |
if (ctx == NULL) /* if not properly attached? */ | |
return sim_messagef (SCPE_IERR, "Bad Attach\n"); /* that's a problem */ | |
sim_debug (ctx->dbit, ctx->dptr, "sim_tape_reset(unit=%d)\n", (int)(uptr-ctx->dptr->units)); | |
_sim_tape_io_flush(uptr); | |
AIO_VALIDATE; | |
AIO_UPDATE_QUEUE; | |
return SCPE_OK; | |
} | |
/* Test for BOT */ | |
t_bool sim_tape_bot (UNIT *uptr) | |
{ | |
uint32 f = MT_GET_FMT (uptr); | |
return (uptr->pos <= fmts[f].bot)? TRUE: FALSE; | |
} | |
/* Test for end of tape */ | |
t_bool sim_tape_eot (UNIT *uptr) | |
{ | |
return (uptr->capac && (uptr->pos >= uptr->capac))? TRUE: FALSE; | |
} | |
/* Test for write protect */ | |
t_bool sim_tape_wrp (UNIT *uptr) | |
{ | |
return ((uptr->flags & MTUF_WRP) || (MT_GET_FMT (uptr) == MTUF_F_TPC))? TRUE: FALSE; | |
} | |
/* Process I/O error */ | |
static t_stat sim_tape_ioerr (UNIT *uptr) | |
{ | |
sim_printf ("%s: Magtape library I/O error: %s\n", sim_uname (uptr), strerror (errno)); | |
clearerr (uptr->fileref); | |
return MTSE_IOERR; | |
} | |
/* Set tape format */ | |
t_stat sim_tape_set_fmt (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
uint32 f; | |
if (uptr == NULL) | |
return SCPE_IERR; | |
if (uptr->flags & UNIT_ATT) | |
return SCPE_ALATT; | |
if (cptr == NULL) | |
return SCPE_ARG; | |
for (f = 0; f < MTUF_N_FMT; f++) { | |
if (fmts[f].name && (strcmp (cptr, fmts[f].name) == 0)) { | |
uptr->flags = (uptr->flags & ~MTUF_FMT) | | |
(f << MTUF_V_FMT) | fmts[f].uflags; | |
return SCPE_OK; | |
} | |
} | |
return SCPE_ARG; | |
} | |
/* Show tape format */ | |
t_stat sim_tape_show_fmt (FILE *st, UNIT *uptr, int32 val, CONST void *desc) | |
{ | |
int32 f = MT_GET_FMT (uptr); | |
if (fmts[f].name) | |
fprintf (st, "%s format", fmts[f].name); | |
else fprintf (st, "invalid format"); | |
return SCPE_OK; | |
} | |
/* Map a TPC format tape image */ | |
static uint32 sim_tape_tpc_map (UNIT *uptr, t_addr *map, uint32 mapsize) | |
{ | |
t_addr tpos, leot; | |
t_addr tape_size; | |
t_tpclnt bc, last_bc = 0xFFFF; | |
uint32 had_double_tape_mark = 0; | |
size_t i; | |
uint32 objc, sizec; | |
uint32 *countmap = NULL; | |
uint8 *recbuf = NULL; | |
DEVICE *dptr = find_dev_from_unit (uptr); | |
if ((uptr == NULL) || (uptr->fileref == NULL)) | |
return 0; | |
countmap = (uint32 *)calloc (65536, sizeof(*countmap)); | |
recbuf = (uint8 *)malloc (65536); | |
tape_size = (t_addr)sim_fsize (uptr->fileref); | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: tape_size: %" T_ADDR_FMT "u\n", tape_size); | |
for (objc = 0, sizec = 0, tpos = 0;; ) { | |
sim_fseek (uptr->fileref, tpos, SEEK_SET); | |
i = sim_fread (&bc, sizeof (t_tpclnt), 1, uptr->fileref); | |
if (i == 0) /* past or at eof? */ | |
break; | |
if (countmap[bc] == 0) | |
sizec++; | |
++countmap[bc]; | |
if (map && (objc < mapsize)) | |
map[objc] = tpos; | |
if (bc) { | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: %d byte count at pos: %" T_ADDR_FMT "u\n", bc, tpos); | |
if (sim_deb && (dptr->dctrl & MTSE_DBG_STR)) { | |
sim_fread (recbuf, 1, bc, uptr->fileref); | |
sim_data_trace(dptr, uptr, ((dptr->dctrl & MTSE_DBG_DAT) ? recbuf : NULL), "", bc, "Data Record", MTSE_DBG_STR); | |
} | |
} | |
else | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: tape mark at pos: %" T_ADDR_FMT "u\n", tpos); | |
objc++; | |
tpos = tpos + ((bc + 1) & ~1) + sizeof (t_tpclnt); | |
if ((bc == 0) && (last_bc == 0)) { /* double tape mark? */ | |
had_double_tape_mark = objc; | |
leot = tpos; | |
} | |
last_bc = bc; | |
} | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: objc: %u, different record sizes: %u\n", objc, sizec); | |
for (i=0; i<65535; i++) { | |
if (countmap[i]) { | |
if (i == 0) | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: summary - %u tape marks\n", countmap[i]); | |
else | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: summary - %u %d byte record%s\n", countmap[i], (int)i, (countmap[i] > 1) ? "s" : ""); | |
} | |
} | |
if (((last_bc != 0xffff) && | |
(tpos > tape_size) && | |
(!had_double_tape_mark)) || | |
(!had_double_tape_mark) || | |
((objc == countmap[0]) && | |
(countmap[0] != 2))) { /* Unreasonable format? */ | |
if (last_bc != 0xffff) | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: ERROR unexpected EOT byte count: %d\n", last_bc); | |
if (tpos > tape_size) | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: ERROR next record position %" T_ADDR_FMT "u beyond EOT: %" T_ADDR_FMT "u\n", tpos, tape_size); | |
if (objc == countmap[0]) | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: ERROR tape cnly contains tape marks\n"); | |
free (countmap); | |
free (recbuf); | |
return 0; | |
} | |
if ((last_bc != 0xffff) && (tpos > tape_size)) { | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: WARNING unexpected EOT byte count: %d, double tape mark before %" T_ADDR_FMT "u provides logical EOT\n", last_bc, leot); | |
objc = had_double_tape_mark; | |
tpos = leot; | |
} | |
if (map) | |
map[objc] = tpos; | |
sim_debug (MTSE_DBG_STR, dptr, "tpc_map: OK objc: %d\n", objc); | |
free (countmap); | |
free (recbuf); | |
return objc; | |
} | |
/* Check the basic structure of a SIMH format tape image */ | |
static t_stat sim_tape_simh_check (UNIT *uptr) | |
{ | |
return SCPE_OK; | |
} | |
/* Check the basic structure of a E11 format tape image */ | |
static t_stat sim_tape_e11_check (UNIT *uptr) | |
{ | |
return SCPE_OK; | |
} | |
/* Find the preceding record in a TPC file */ | |
static t_addr sim_tape_tpc_fnd (UNIT *uptr, t_addr *map) | |
{ | |
uint32 lo, hi, p; | |
if (map == NULL) | |
return 0; | |
lo = 0; | |
hi = uptr->hwmark - 1; | |
do { | |
p = (lo + hi) >> 1; | |
if (uptr->pos == map[p]) | |
return ((p == 0)? map[p]: map[p - 1]); | |
else if (uptr->pos < map[p]) | |
hi = p - 1; | |
else lo = p + 1; | |
} | |
while (lo <= hi); | |
return ((p == 0)? map[p]: map[p - 1]); | |
} | |
/* Set tape capacity */ | |
t_stat sim_tape_set_capac (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
t_addr cap; | |
t_stat r; | |
if ((cptr == NULL) || (*cptr == 0)) | |
return SCPE_ARG; | |
if (uptr->flags & UNIT_ATT) | |
return SCPE_ALATT; | |
cap = (t_addr) get_uint (cptr, 10, sim_taddr_64? 2000000: 2000, &r); | |
if (r != SCPE_OK) | |
return SCPE_ARG; | |
uptr->capac = cap * ((t_addr) 1000000); | |
return SCPE_OK; | |
} | |
/* Show tape capacity */ | |
t_stat sim_tape_show_capac (FILE *st, UNIT *uptr, int32 val, CONST void *desc) | |
{ | |
if (uptr->capac) { | |
if (uptr->capac >= (t_addr) 1000000) | |
fprintf (st, "capacity=%dMB", (uint32) (uptr->capac / ((t_addr) 1000000))); | |
else { | |
if (uptr->capac >= (t_addr) 1000) | |
fprintf (st, "capacity=%dKB", (uint32) (uptr->capac / ((t_addr) 1000))); | |
else | |
fprintf (st, "capacity=%dB", (uint32) uptr->capac); | |
} | |
} | |
else | |
fprintf (st, "unlimited capacity"); | |
return SCPE_OK; | |
} | |
/* Set the tape density. | |
Set the density of the specified tape unit either to the value supplied or to | |
the value represented by the supplied character string. | |
If "desc" is NULL, then "val" must be set to one of the MT_DENS_* constants | |
in sim_tape.h other than MT_DENS_NONE; the supplied value is used as the tape | |
density, and the character string is ignored. Otherwise, "desc" must point | |
at an int32 value containing a set of allowed densities constructed as a | |
bitwise OR of the appropriate MT_*_VALID values. In this case, the string | |
pointed to by "cptr" will be parsed for a decimal value corresponding to the | |
desired density in bits per inch and validated against the set of allowed | |
values. | |
In either case, SCPE_ARG is returned if the density setting is not valid or | |
allowed. If the setting is OK, the new density is set into the unit | |
structure, and SCPE_OK is returned. | |
*/ | |
t_stat sim_tape_set_dens (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
uint32 density, new_bpi; | |
t_stat result = SCPE_OK; | |
if (uptr == NULL) /* if the unit pointer is null */ | |
return SCPE_IERR; /* then the caller has screwed up */ | |
else if (desc == NULL) /* otherwise if a validation set was not supplied */ | |
if (val > 0 && val < (int32) BPI_COUNT) /* then if a valid density code was supplied */ | |
uptr->dynflags = (uptr->dynflags & ~MTVF_DENS_MASK) /* then insert the code */ | |
| (val << UNIT_V_DF_TAPE); /* in the unit flags */ | |
else /* otherwise the code is invalid */ | |
return SCPE_ARG; /* so report a bad argument */ | |
else { /* otherwise a validation set was supplied */ | |
if (cptr == NULL || *cptr == 0) /* but if no value is present */ | |
return SCPE_MISVAL; /* then report a missing value */ | |
new_bpi = (uint32) get_uint (cptr, 10, UINT_MAX, &result); /* convert the string value */ | |
if (result != SCPE_OK) /* if the conversion failed */ | |
result = SCPE_ARG; /* then report a bad argument */ | |
else for (density = 0; density < BPI_COUNT; density++) /* otherwise validate the density */ | |
if (new_bpi == bpi [density] /* if it matches a value in the list */ | |
&& ((1 << density) & *(const int32 *) desc)) { /* and it's an allowed value */ | |
uptr->dynflags = (uptr->dynflags & ~MTVF_DENS_MASK) /* then store the index of the value */ | |
| density << UNIT_V_DF_TAPE; /* in the unit flags */ | |
return SCPE_OK; /* and return success */ | |
} | |
result = SCPE_ARG; /* if no match, then report a bad argument */ | |
} | |
return result; /* return the result of the operation */ | |
} | |
/* Show the tape density */ | |
t_stat sim_tape_show_dens (FILE *st, UNIT *uptr, int32 val, CONST void *desc) | |
{ | |
uint32 tape_density; | |
if (uptr == NULL) /* if the unit pointer is null */ | |
return SCPE_IERR; /* then the caller has screwed up */ | |
else { /* otherwise get the density */ | |
tape_density = bpi [MT_DENS (uptr->dynflags)]; /* of the tape from the unit flags */ | |
if (tape_density) /* if it's set */ | |
fprintf (st, "density=%d bpi", tape_density); /* then report it */ | |
else /* otherwise */ | |
fprintf (st, "density not set"); /* it was never set by the caller */ | |
} | |
return SCPE_OK; | |
} |