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Fixes for stable operation with SIM_ASYNCH_CLOCKS defined

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This commit is contained in:
Mark Pizzolato 2013-05-07 11:22:29 -07:00
parent 9faef6ea89
commit 6cf54e8341
6 changed files with 167 additions and 48 deletions
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4
VAX/vax_sysdev.c
View file

@ -1580,8 +1580,10 @@ if ((tmr_inc[tmr] == TMR_INC) && (tmr_time > clk_time)) {
tmr_inc[tmr] = (uint32) (((double) clk_time * TMR_INC) / tmr_poll); tmr_inc[tmr] = (uint32) (((double) clk_time * TMR_INC) / tmr_poll);
tmr_time = clk_time; tmr_time = clk_time;
sim_clock_coschedule (&sysd_unit[tmr], tmr_time);
} }
sim_activate (&sysd_unit[tmr], tmr_time); else
sim_activate (&sysd_unit[tmr], tmr_time);
return; return;
} }

28
scp.c
View file

@ -2934,8 +2934,8 @@ else {
} }
} }
if (sim_clock_cosched_queue != QUEUE_LIST_END) { if (sim_clock_cosched_queue != QUEUE_LIST_END) {
fprintf (st, "%s clock co-schedule event queue status, time = %.0f\n", fprintf (st, "%s clock (%s) co-schedule event queue status, time = %.0f\n",
sim_name, sim_time); sim_name, sim_uname(sim_clock_unit), sim_time);
for (uptr = sim_clock_cosched_queue; uptr != QUEUE_LIST_END; uptr = uptr->next) { for (uptr = sim_clock_cosched_queue; uptr != QUEUE_LIST_END; uptr = uptr->next) {
if ((dptr = find_dev_from_unit (uptr)) != NULL) { if ((dptr = find_dev_from_unit (uptr)) != NULL) {
fprintf (st, " %s", sim_dname (dptr)); fprintf (st, " %s", sim_dname (dptr));
@ -3934,6 +3934,8 @@ char *sim_uname (UNIT *uptr)
DEVICE *d = find_dev_from_unit(uptr); DEVICE *d = find_dev_from_unit(uptr);
static AIO_TLS char uname[CBUFSIZE]; static AIO_TLS char uname[CBUFSIZE];
if (!d)
return "";
if (d->numunits == 1) if (d->numunits == 1)
return sim_dname (d); return sim_dname (d);
sprintf (uname, "%s%d", sim_dname (d), (int)(uptr-d->units)); sprintf (uname, "%s%d", sim_dname (d), (int)(uptr-d->units));
@ -6336,28 +6338,39 @@ AIO_CANCEL(uptr);
AIO_UPDATE_QUEUE; AIO_UPDATE_QUEUE;
if (sim_clock_queue == QUEUE_LIST_END) if (sim_clock_queue == QUEUE_LIST_END)
return SCPE_OK; return SCPE_OK;
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Event for %s\n", sim_uname(uptr));
UPDATE_SIM_TIME; /* update sim time */ UPDATE_SIM_TIME; /* update sim time */
if (!sim_is_active (uptr)) if (!sim_is_active (uptr))
return SCPE_OK; return SCPE_OK;
nptr = QUEUE_LIST_END; nptr = QUEUE_LIST_END;
if (sim_clock_queue == uptr) if (sim_clock_queue == uptr) {
nptr = sim_clock_queue = uptr->next; nptr = sim_clock_queue = uptr->next;
uptr->next = NULL; /* hygiene */
}
else { else {
for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) { for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) {
if (cptr->next == uptr) { if (cptr->next == uptr) {
nptr = cptr->next = uptr->next; nptr = cptr->next = uptr->next;
uptr->next = NULL; /* hygiene */
break; /* end queue scan */ break; /* end queue scan */
} }
} }
} }
if (nptr != QUEUE_LIST_END) if (nptr != QUEUE_LIST_END)
nptr->time = nptr->time + uptr->time; nptr->time += (uptr->next) ? 0 : uptr->time;
uptr->next = NULL; /* hygiene */ if (!uptr->next)
uptr->time = 0; uptr->time = 0;
if (sim_clock_queue != QUEUE_LIST_END) if (sim_clock_queue != QUEUE_LIST_END)
sim_interval = sim_clock_queue->time; sim_interval = sim_clock_queue->time;
else sim_interval = noqueue_time = NOQUEUE_WAIT; else sim_interval = noqueue_time = NOQUEUE_WAIT;
if (sim_is_active(uptr)) {
if (sim_deb) {
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Cancel failed for %s\n", sim_uname(uptr));
fclose(sim_deb);
}
abort ();
}
return SCPE_OK; return SCPE_OK;
} }
@ -6413,7 +6426,8 @@ return 0;
double sim_gtime (void) double sim_gtime (void)
{ {
UPDATE_SIM_TIME; if (AIO_MAIN_THREAD)
UPDATE_SIM_TIME;
return sim_time; return sim_time;
} }

2
sim_console.c
View file

@ -541,6 +541,7 @@ for (i=(was_stepping ? sim_rem_step_line : 0);
c = c & ~TMXR_VALID; c = c & ~TMXR_VALID;
if (c != sim_int_char) if (c != sim_int_char)
continue; /* ^E (the interrupt character) must start console interaction */ continue; /* ^E (the interrupt character) must start console interaction */
sim_stop_timer_services ();
for (j=0; j < sim_rem_con_tmxr.lines; j++) { for (j=0; j < sim_rem_con_tmxr.lines; j++) {
lp = &sim_rem_con_tmxr.ldsc[j]; lp = &sim_rem_con_tmxr.ldsc[j];
if ((i == j) || (!lp->conn)) if ((i == j) || (!lp->conn))
@ -727,6 +728,7 @@ for (i=(was_stepping ? sim_rem_step_line : 0);
tmxr_linemsg (lp, "Simulator Running..."); tmxr_linemsg (lp, "Simulator Running...");
tmxr_send_buffered_data (lp); tmxr_send_buffered_data (lp);
} }
sim_start_timer_services ();
break; break;
} }
if (cmdp && (cmdp->action == &x_step_cmd)) { if (cmdp && (cmdp->action == &x_step_cmd)) {

140
sim_defs.h
View file

@ -749,7 +749,24 @@ extern int32 sim_asynch_inst_latency;
/* It is primarily used only used in debugging messages */ /* It is primarily used only used in debugging messages */
#define AIO_TLS #define AIO_TLS
#endif #endif
#define AIO_QUEUE_CHECK(que, lock) \
if (1) { \
UNIT *_cptr; \
if (lock) \
pthread_mutex_lock (lock); \
for (_cptr = que; \
(_cptr != QUEUE_LIST_END); \
_cptr = _cptr->next) \
if (!_cptr->next) { \
if (sim_deb) { \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Queue Corruption detected\n");\
fclose(sim_deb); \
} \
abort(); \
} \
if (lock) \
pthread_mutex_unlock (lock); \
} else (void)0
#define AIO_MAIN_THREAD (pthread_equal ( pthread_self(), sim_asynch_main_threadid )) #define AIO_MAIN_THREAD (pthread_equal ( pthread_self(), sim_asynch_main_threadid ))
#define AIO_LOCK \ #define AIO_LOCK \
pthread_mutex_lock(&sim_asynch_lock) pthread_mutex_lock(&sim_asynch_lock)
@ -768,14 +785,16 @@ extern int32 sim_asynch_inst_latency;
if ((uptr)->a_cancel) \ if ((uptr)->a_cancel) \
(uptr)->a_cancel (uptr); \ (uptr)->a_cancel (uptr); \
else { \ else { \
if (AIO_IS_ACTIVE (uptr)) { \ if ((uptr)->next) { \
UNIT *cptr, *nptr; \ UNIT *cptr; \
AIO_UPDATE_QUEUE; \ AIO_UPDATE_QUEUE; \
pthread_mutex_lock (&sim_timer_lock); \ pthread_mutex_lock (&sim_timer_lock); \
nptr = QUEUE_LIST_END; \
if ((uptr) == sim_wallclock_queue) { \ if ((uptr) == sim_wallclock_queue) { \
sim_wallclock_queue = (uptr)->next; \ sim_wallclock_queue = (uptr)->next; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\
sim_timer_event_canceled = TRUE; \
pthread_cond_signal (&sim_timer_wake); \
} \ } \
else \ else \
for (cptr = sim_wallclock_queue; \ for (cptr = sim_wallclock_queue; \
@ -783,18 +802,13 @@ extern int32 sim_asynch_inst_latency;
cptr = cptr->next) \ cptr = cptr->next) \
if (cptr->next == (uptr)) { \ if (cptr->next == (uptr)) { \
cptr->next = (uptr)->next; \ cptr->next = (uptr)->next; \
nptr = cptr; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\
break; \ break; \
} \ } \
if (nptr == QUEUE_LIST_END) { \
sim_timer_event_canceled = TRUE; \
pthread_cond_signal (&sim_timer_wake); \
} \
if ((uptr)->next == NULL) \ if ((uptr)->next == NULL) \
(uptr)->a_due_time = (uptr)->a_usec_delay = 0; \ (uptr)->a_due_time = (uptr)->a_usec_delay = 0; \
else { \ else { \
nptr = QUEUE_LIST_END; \
if ((uptr) == sim_clock_cosched_queue) { \ if ((uptr) == sim_clock_cosched_queue) { \
sim_clock_cosched_queue = (uptr)->next; \ sim_clock_cosched_queue = (uptr)->next; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
@ -805,10 +819,18 @@ extern int32 sim_asynch_inst_latency;
cptr = cptr->next) \ cptr = cptr->next) \
if (cptr->next == (uptr)) { \ if (cptr->next == (uptr)) { \
cptr->next = (uptr)->next; \ cptr->next = (uptr)->next; \
nptr = cptr; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
break; \ break; \
} \ } \
if ((uptr)->next == NULL) { \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Clock Coscheduling Event for %s\n", sim_uname(uptr));\
} \
} \
while (sim_timer_event_canceled) { \
pthread_mutex_unlock (&sim_timer_lock); \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Waiting for Timer Event cancelation for %s\n", sim_uname(uptr));\
sim_os_ms_sleep (0); \
pthread_mutex_lock (&sim_timer_lock); \
} \ } \
pthread_mutex_unlock (&sim_timer_lock); \ pthread_mutex_unlock (&sim_timer_lock); \
} \ } \
@ -838,14 +860,16 @@ extern int32 sim_asynch_inst_latency;
sim_tmxr_poll_count -= (uptr)->a_poll_waiter_count; \ sim_tmxr_poll_count -= (uptr)->a_poll_waiter_count; \
(uptr)->a_poll_waiter_count = 0; \ (uptr)->a_poll_waiter_count = 0; \
} \ } \
if (AIO_IS_ACTIVE (uptr)) { \ if ((uptr)->next) { \
UNIT *cptr, *nptr; \ UNIT *cptr; \
AIO_UPDATE_QUEUE; \ AIO_UPDATE_QUEUE; \
pthread_mutex_lock (&sim_timer_lock); \ pthread_mutex_lock (&sim_timer_lock); \
nptr = QUEUE_LIST_END; \
if ((uptr) == sim_wallclock_queue) { \ if ((uptr) == sim_wallclock_queue) { \
sim_wallclock_queue = (uptr)->next; \ sim_wallclock_queue = (uptr)->next; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\
sim_timer_event_canceled = TRUE; \
pthread_cond_signal (&sim_timer_wake); \
} \ } \
else \ else \
for (cptr = sim_wallclock_queue; \ for (cptr = sim_wallclock_queue; \
@ -853,18 +877,13 @@ extern int32 sim_asynch_inst_latency;
cptr = cptr->next) \ cptr = cptr->next) \
if (cptr->next == (uptr)) { \ if (cptr->next == (uptr)) { \
cptr->next = (uptr)->next; \ cptr->next = (uptr)->next; \
nptr = cptr; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Timer Event for %s\n", sim_uname(uptr));\
break; \ break; \
} \ } \
if (nptr == QUEUE_LIST_END) { \
sim_timer_event_canceled = TRUE; \
pthread_cond_signal (&sim_timer_wake); \
} \
if ((uptr)->next == NULL) \ if ((uptr)->next == NULL) \
(uptr)->a_due_time = (uptr)->a_usec_delay = 0; \ (uptr)->a_due_time = (uptr)->a_usec_delay = 0; \
else { \ else { \
nptr = QUEUE_LIST_END; \
if ((uptr) == sim_clock_cosched_queue) { \ if ((uptr) == sim_clock_cosched_queue) { \
sim_clock_cosched_queue = (uptr)->next; \ sim_clock_cosched_queue = (uptr)->next; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
@ -875,10 +894,18 @@ extern int32 sim_asynch_inst_latency;
cptr = cptr->next) \ cptr = cptr->next) \
if (cptr->next == (uptr)) { \ if (cptr->next == (uptr)) { \
cptr->next = (uptr)->next; \ cptr->next = (uptr)->next; \
nptr = cptr; \
(uptr)->next = NULL; \ (uptr)->next = NULL; \
break; \ break; \
} \ } \
if ((uptr)->next == NULL) { \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Canceling Clock Coscheduling Event for %s\n", sim_uname(uptr));\
} \
} \
while (sim_timer_event_canceled) { \
pthread_mutex_unlock (&sim_timer_lock); \
sim_debug (SIM_DBG_EVENT, sim_dflt_dev, "Waiting for Timer Event cancelation for %s\n", sim_uname(uptr));\
sim_os_ms_sleep (0); \
pthread_mutex_lock (&sim_timer_lock); \
} \ } \
pthread_mutex_unlock (&sim_timer_lock); \ pthread_mutex_unlock (&sim_timer_lock); \
} \ } \
@ -988,8 +1015,8 @@ extern int32 sim_asynch_inst_latency;
do \ do \
q = AIO_QUEUE_VAL; \ q = AIO_QUEUE_VAL; \
while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q)); \ while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q)); \
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Found Asynch event for %s after %d instructions\n", sim_uname(q), q->a_event_time);\
while (q != QUEUE_LIST_END) { /* List !Empty */ \ while (q != QUEUE_LIST_END) { /* List !Empty */ \
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Migrating Asynch event for %s after %d instructions\n", sim_uname(q), q->a_event_time);\
uptr = q; \ uptr = q; \
q = q->a_next; \ q = q->a_next; \
uptr->a_next = NULL; /* hygiene */ \ uptr->a_next = NULL; /* hygiene */ \
@ -1014,8 +1041,8 @@ extern int32 sim_asynch_inst_latency;
} else { \ } else { \
UNIT *q, *qe; \ UNIT *q, *qe; \
ouptr->a_event_time = event_time; \ ouptr->a_event_time = event_time; \
uptr->a_activate_call = caller; \ ouptr->a_activate_call = caller; \
uptr->a_next = QUEUE_LIST_END; /* Mark as on list */ \ ouptr->a_next = QUEUE_LIST_END; /* Mark as on list */ \
do { \ do { \
do \ do \
q = AIO_QUEUE_VAL; \ q = AIO_QUEUE_VAL; \
@ -1035,6 +1062,39 @@ extern int32 sim_asynch_inst_latency;
} \ } \
return SCPE_OK; \ return SCPE_OK; \
} else (void)0 } else (void)0
#define AIO_ACTIVATE_LIST(caller, list, event_time) \
if (1) { \
UNIT *ouptr, *q, *qe; \
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch events for %s after %d instructions\n", sim_uname(list), event_time);\
for (qe=(list); qe->next != QUEUE_LIST_END;) { \
qe->a_event_time = event_time; \
qe->a_activate_call = caller; \
qe->a_next = qe->next; \
qe->next = NULL; \
qe = qe->a_next; \
} \
qe->a_event_time = event_time; \
qe->a_activate_call = caller; \
qe->a_next = QUEUE_LIST_END; \
qe->next = NULL; \
ouptr = (list); \
do { \
do \
q = AIO_QUEUE_VAL; \
while (q != AIO_QUEUE_SET(QUEUE_LIST_END, q));/* Grab current list */ \
for (qe = ouptr; qe->a_next != QUEUE_LIST_END; qe = qe->a_next); \
qe->a_next = q; /* append current list */ \
do \
q = AIO_QUEUE_VAL; \
while (q != AIO_QUEUE_SET(ouptr, q)); \
ouptr = q; \
} while (ouptr != QUEUE_LIST_END); \
sim_asynch_check = 0; /* try to force check */ \
if (sim_idle_wait) { \
sim_debug (TIMER_DBG_IDLE, &sim_timer_dev, "waking due to event on %s after %d instructions\n", sim_uname(ouptr), event_time);\
pthread_cond_signal (&sim_asynch_wake); \
} \
} else (void)0
#else /* !USE_AIO_INTRINSICS */ #else /* !USE_AIO_INTRINSICS */
/* This approach uses a pthread mutex to manage access to the link list */ /* This approach uses a pthread mutex to manage access to the link list */
/* head sim_asynch_queue. It will always work, but may be slower than the */ /* head sim_asynch_queue. It will always work, but may be slower than the */
@ -1098,8 +1158,8 @@ extern int32 sim_asynch_inst_latency;
} else (void)0 } else (void)0
#define AIO_ACTIVATE(caller, uptr, event_time) \ #define AIO_ACTIVATE(caller, uptr, event_time) \
if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) { \ if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) { \
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "queueing asynch event for %s after %d instructions\n", sim_uname(uptr), event_time);\ sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch event for %s after %d instructions\n", sim_uname(uptr), event_time);\
AIO_UNLOCK; \ AIO_LOCK; \
if (uptr->a_next) { /* already queued? */ \ if (uptr->a_next) { /* already queued? */ \
uptr->a_activate_call = sim_activate_abs; \ uptr->a_activate_call = sim_activate_abs; \
} else { \ } else { \
@ -1108,12 +1168,38 @@ extern int32 sim_asynch_inst_latency;
uptr->a_activate_call = caller; \ uptr->a_activate_call = caller; \
sim_asynch_queue = uptr; \ sim_asynch_queue = uptr; \
} \ } \
if (sim_idle_wait) \ if (sim_idle_wait) { \
sim_debug (TIMER_DBG_IDLE, &sim_timer_dev, "waking due to event on %s after %d instructions\n", sim_uname(uptr), event_time);\
pthread_cond_signal (&sim_asynch_wake); \ pthread_cond_signal (&sim_asynch_wake); \
} \
AIO_UNLOCK; \ AIO_UNLOCK; \
sim_asynch_check = 0; \ sim_asynch_check = 0; \
return SCPE_OK; \ return SCPE_OK; \
} else (void)0 } else (void)0
#define AIO_ACTIVATE_LIST(caller, list, event_time) \
if (1) { \
UNIT *qe; \
sim_debug (SIM_DBG_AIO_QUEUE, sim_dflt_dev, "Queueing Asynch events for %s after %d instructions\n", sim_uname(list), event_time);\
for (qe=list; qe->next != QUEUE_LIST_END;) { \
qe->a_event_time = event_time; \
qe->a_activate_call = caller; \
qe->a_next = qe->next; \
qe->next = NULL; \
qe = qe->a_next; \
} \
qe->a_event_time = event_time; \
qe->a_activate_call = caller; \
qe->next = NULL; \
AIO_LOCK; \
qe->a_next = sim_asynch_queue; \
sim_asynch_queue = list; \
sim_asynch_check = 0; /* try to force check */ \
if (sim_idle_wait) { \
sim_debug (TIMER_DBG_IDLE, &sim_timer_dev, "waking due to event on %s after %d instructions\n", sim_uname(list), event_time);\
pthread_cond_signal (&sim_asynch_wake); \
} \
AIO_UNLOCK; \
} else (void)0
#endif /* USE_AIO_INTRINSICS */ #endif /* USE_AIO_INTRINSICS */
#define AIO_VALIDATE if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) abort() #define AIO_VALIDATE if (!pthread_equal ( pthread_self(), sim_asynch_main_threadid )) abort()
#define AIO_CHECK_EVENT \ #define AIO_CHECK_EVENT \

40
sim_timer.c
View file

@ -101,7 +101,7 @@ static uint32 sim_throt_val = 0;
static uint32 sim_throt_state = 0; static uint32 sim_throt_state = 0;
static uint32 sim_throt_sleep_time = 0; static uint32 sim_throt_sleep_time = 0;
static int32 sim_throt_wait = 0; static int32 sim_throt_wait = 0;
static UNIT *sim_clock_unit = NULL; UNIT *sim_clock_unit = NULL;
t_bool sim_asynch_timer = t_bool sim_asynch_timer =
#if defined (SIM_ASYNCH_CLOCKS) #if defined (SIM_ASYNCH_CLOCKS)
TRUE; TRUE;
@ -1216,7 +1216,7 @@ while (sim_asynch_enabled && sim_asynch_timer && sim_is_running) {
if (sim_wallclock_queue == QUEUE_LIST_END) if (sim_wallclock_queue == QUEUE_LIST_END)
sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - waiting forever\n"); sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - waiting forever\n");
else else
sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - waiting for %.0f usecs until %.6f\n", wait_usec, sim_wallclock_queue->a_due_time); sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - waiting for %.0f usecs until %.6f for %s\n", wait_usec, sim_wallclock_queue->a_due_time, sim_uname(sim_wallclock_queue));
if ((wait_usec <= 0.0) || if ((wait_usec <= 0.0) ||
(0 != pthread_cond_timedwait (&sim_timer_wake, &sim_timer_lock, &due_time))) { (0 != pthread_cond_timedwait (&sim_timer_wake, &sim_timer_lock, &due_time))) {
if (sim_wallclock_queue == QUEUE_LIST_END) /* queue empty? */ if (sim_wallclock_queue == QUEUE_LIST_END) /* queue empty? */
@ -1238,21 +1238,28 @@ while (sim_asynch_enabled && sim_asynch_timer && sim_is_running) {
} }
sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - slept %.0fms - activating(%s,%d)\n", sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - slept %.0fms - activating(%s,%d)\n",
1000.0*(_timespec_to_double (&stop_time)-_timespec_to_double (&start_time)), sim_uname(uptr), inst_delay); 1000.0*(_timespec_to_double (&stop_time)-_timespec_to_double (&start_time)), sim_uname(uptr), inst_delay);
sim_activate (uptr, inst_delay); if (sim_clock_unit == uptr) {
if (sim_clock_unit == uptr) /*
while (sim_clock_cosched_queue != QUEUE_LIST_END) { * Some devices may depend on executing during the same instruction as the
uptr = sim_clock_cosched_queue; * clock tick event. We link the clock coschedule queue to the clock tick
sim_clock_cosched_queue = uptr->next; * and then insert that list in the asynch event queue in a single operation
uptr->next = NULL; */
sim_activate (uptr, inst_delay); uptr->next = sim_clock_cosched_queue;
} sim_clock_cosched_queue = QUEUE_LIST_END;
AIO_ACTIVATE_LIST(sim_activate, uptr, inst_delay);
}
else
sim_activate (uptr, inst_delay);
continue;
} }
else /* Something wants to adjust the queue */ else /* Something wants to adjust the queue since the wait condition was signaled */
if (sim_timer_event_canceled) if (sim_timer_event_canceled)
sim_timer_event_canceled = FALSE; /* reset flag and continue */ sim_timer_event_canceled = FALSE; /* reset flag and continue */
else else
if (sim_wallclock_entry == NULL) /* nothing to insert? */ if (sim_wallclock_entry == NULL) { /* nothing to insert? */
sim_debug (DBG_TIM, &sim_timer_dev, "_timer_thread() - condition wakeup without new entry\n");
break; /* stop processing entries */ break; /* stop processing entries */
}
} }
pthread_mutex_unlock (&sim_timer_lock); pthread_mutex_unlock (&sim_timer_lock);
@ -1426,9 +1433,16 @@ if (1) {
sim_uname(uptr), uptr->a_due_time); sim_uname(uptr), uptr->a_due_time);
} }
pthread_mutex_lock (&sim_timer_lock); pthread_mutex_lock (&sim_timer_lock);
while (sim_wallclock_entry) {
sim_debug (DBG_TIM, &sim_timer_dev, "sim_timer_activate_after() - queue insert entry %s busy waiting for 1ms\n",
sim_uname(sim_wallclock_entry));
pthread_mutex_unlock (&sim_timer_lock);
sim_os_ms_sleep (1);
pthread_mutex_lock (&sim_timer_lock);
}
sim_wallclock_entry = uptr; sim_wallclock_entry = uptr;
pthread_cond_signal (&sim_timer_wake); /* wake the timer thread to deal with it */
pthread_mutex_unlock (&sim_timer_lock); pthread_mutex_unlock (&sim_timer_lock);
pthread_cond_signal (&sim_timer_wake); /* wake the timer thread to deal with it */
return SCPE_OK; return SCPE_OK;
#else #else
return _sim_activate (uptr, inst_delay); /* queue it now */ return _sim_activate (uptr, inst_delay); /* queue it now */

1
sim_timer.h
View file

@ -119,6 +119,7 @@ uint32 sim_timer_idle_capable (uint32 *hoat_tick_ms);
extern t_bool sim_idle_enab; /* idle enabled flag */ extern t_bool sim_idle_enab; /* idle enabled flag */
extern volatile t_bool sim_idle_wait; /* idle waiting flag */ extern volatile t_bool sim_idle_wait; /* idle waiting flag */
extern UNIT *sim_clock_unit;
extern t_bool sim_asynch_timer; extern t_bool sim_asynch_timer;
extern DEVICE sim_timer_dev; extern DEVICE sim_timer_dev;