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|
/* -----------------------------------------------------------------------------
*
* (c) The GHC Team 2006-2009
*
* Debug and performance tracing
*
* ---------------------------------------------------------------------------*/
// external headers
#include "Rts.h"
// internal headers
#include "Trace.h"
#if defined(TRACING)
#include "GetTime.h"
#include "GetEnv.h"
#include "Stats.h"
#include "eventlog/EventLog.h"
#include "rts/EventLogWriter.h"
#include "Threads.h"
#include "Printer.h"
#include "RtsFlags.h"
#include "ThreadLabels.h"
#if defined(HAVE_UNISTD_H)
#include <unistd.h>
#endif
// events
int TRACE_sched;
int TRACE_gc;
int TRACE_nonmoving_gc;
int TRACE_spark_sampled;
int TRACE_spark_full;
int TRACE_user;
int TRACE_cap;
#if defined(THREADED_RTS)
static Mutex trace_utx;
#endif
/* ---------------------------------------------------------------------------
Starting up / shutting down the tracing facilities
--------------------------------------------------------------------------- */
void initTracing (void)
{
#if defined(THREADED_RTS)
initMutex(&trace_utx);
#endif
// -Ds turns on scheduler tracing too
TRACE_sched =
RtsFlags.TraceFlags.scheduler ||
RtsFlags.DebugFlags.scheduler;
// -Dg turns on gc tracing too
TRACE_gc =
RtsFlags.TraceFlags.gc ||
RtsFlags.DebugFlags.gc ||
RtsFlags.DebugFlags.scheduler;
if (TRACE_gc && RtsFlags.GcFlags.giveStats == NO_GC_STATS) {
RtsFlags.GcFlags.giveStats = COLLECT_GC_STATS;
}
TRACE_nonmoving_gc =
RtsFlags.TraceFlags.nonmoving_gc;
TRACE_spark_sampled =
RtsFlags.TraceFlags.sparks_sampled;
// -Dr turns on full spark tracing
TRACE_spark_full =
RtsFlags.TraceFlags.sparks_full ||
RtsFlags.DebugFlags.sparks;
TRACE_user =
RtsFlags.TraceFlags.user;
// We trace cap events if we're tracing anything else
TRACE_cap =
TRACE_sched ||
TRACE_gc ||
TRACE_spark_sampled ||
TRACE_spark_full ||
TRACE_user;
/* Note: we can have any of the TRACE_* flags turned on even when
eventlog_enabled is off. In the DEBUG way we may be tracing to stderr.
*/
initEventLogging();
if (RtsFlags.TraceFlags.tracing == TRACE_EVENTLOG
&& rtsConfig.eventlog_writer != NULL) {
startEventLogging(rtsConfig.eventlog_writer);
}
}
void endTracing (void)
{
if (eventlog_enabled) {
endEventLogging();
}
}
void freeTracing (void)
{
if (eventlog_enabled) {
freeEventLogging();
}
}
// Used to reset tracing in a forked child
void resetTracing (void)
{
restartEventLogging();
}
void flushTrace ()
{
if (eventlog_enabled) {
flushEventLog(NULL);
}
}
void tracingAddCapapilities (uint32_t from, uint32_t to)
{
if (eventlog_enabled) {
moreCapEventBufs(from,to);
}
}
/* ---------------------------------------------------------------------------
Emitting trace messages/events
--------------------------------------------------------------------------- */
#if defined(DEBUG)
static void tracePreface (void)
{
#if defined(THREADED_RTS)
debugBelch("%12lx: ", (unsigned long)osThreadId());
#endif
if (RtsFlags.TraceFlags.timestamp) {
debugBelch("%9" FMT_Word64 ": ", stat_getElapsedTime());
}
}
#endif
#if defined(DEBUG)
static char *thread_stop_reasons[] = {
[HeapOverflow] = "heap overflow",
[StackOverflow] = "stack overflow",
[ThreadYielding] = "yielding",
[ThreadBlocked] = "blocked",
[ThreadFinished] = "finished",
[THREAD_SUSPENDED_FOREIGN_CALL] = "suspended while making a foreign call",
[6 + BlockedOnMVar] = "blocked on an MVar",
[6 + BlockedOnMVarRead] = "blocked on an atomic MVar read",
[6 + BlockedOnBlackHole] = "blocked on a black hole",
[6 + BlockedOnRead] = "blocked on a read operation",
[6 + BlockedOnWrite] = "blocked on a write operation",
[6 + BlockedOnDelay] = "blocked on a delay operation",
[6 + BlockedOnSTM] = "blocked on STM",
[6 + BlockedOnDoProc] = "blocked on asyncDoProc",
[6 + BlockedOnCCall] = "blocked on a foreign call",
[6 + BlockedOnIOCompletion] = "blocked on I/O Completion port",
[6 + BlockedOnCCall_Interruptible] = "blocked on a foreign call (interruptible)",
[6 + BlockedOnMsgThrowTo] = "blocked on throwTo",
[6 + ThreadMigrating] = "migrating"
};
#endif
#if defined(DEBUG)
static void traceSchedEvent_stderr (Capability *cap, EventTypeNum tag,
StgTSO *tso,
StgWord info1 STG_UNUSED,
StgWord info2 STG_UNUSED)
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
char *threadLabel = (char *)lookupThreadLabel(tso->id);
if(!threadLabel)
{
threadLabel = "";
}
switch (tag) {
case EVENT_CREATE_THREAD: // (cap, thread)
debugBelch("cap %d: created thread %" FMT_Word "[\"%s\"]" "\n",
cap->no, (W_)tso->id, threadLabel);
break;
case EVENT_RUN_THREAD: // (cap, thread)
debugBelch("cap %d: running thread %" FMT_Word "[\"%s\"]"" (%s)\n",
cap->no, (W_)tso->id, threadLabel, what_next_strs[tso->what_next]);
break;
case EVENT_THREAD_RUNNABLE: // (cap, thread)
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]"" appended to run queue\n",
cap->no, (W_)tso->id, threadLabel);
break;
case EVENT_MIGRATE_THREAD: // (cap, thread, new_cap)
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]" " migrating to cap %d\n",
cap->no, (W_)tso->id, threadLabel, (int)info1);
break;
case EVENT_THREAD_WAKEUP: // (cap, thread, info1_cap)
debugBelch("cap %d: waking up thread %" FMT_Word "[\"%s\"]" " on cap %d\n",
cap->no, (W_)tso->id, threadLabel, (int)info1);
break;
case EVENT_STOP_THREAD: // (cap, thread, status)
if (info1 == 6 + BlockedOnBlackHole) {
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]" " stopped (blocked on black hole owned by thread %lu)\n",
cap->no, (W_)tso->id, threadLabel, (long)info2);
} else if (info1 == StackOverflow) {
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]"
" stopped (stack overflow, size %lu)\n",
cap->no, (W_)tso->id, threadLabel, (long)info2);
} else {
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]" " stopped (%s)\n",
cap->no, (W_)tso->id, threadLabel, thread_stop_reasons[info1]);
}
break;
default:
debugBelch("cap %d: thread %" FMT_Word "[\"%s\"]" ": event %d\n\n",
cap->no, (W_)tso->id, threadLabel, tag);
break;
}
RELEASE_LOCK(&trace_utx);
}
#endif
void traceSchedEvent_ (Capability *cap, EventTypeNum tag,
StgTSO *tso, StgWord info1, StgWord info2)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
traceSchedEvent_stderr(cap, tag, tso, info1, info2);
} else
#endif
{
postSchedEvent(cap,tag,tso ? tso->id : 0, info1, info2);
}
}
#if defined(DEBUG)
static void traceGcEvent_stderr (Capability *cap, EventTypeNum tag)
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
switch (tag) {
case EVENT_REQUEST_SEQ_GC: // (cap)
debugBelch("cap %d: requesting sequential GC\n", cap->no);
break;
case EVENT_REQUEST_PAR_GC: // (cap)
debugBelch("cap %d: requesting parallel GC\n", cap->no);
break;
case EVENT_GC_START: // (cap)
debugBelch("cap %d: starting GC\n", cap->no);
break;
case EVENT_GC_END: // (cap)
debugBelch("cap %d: finished GC\n", cap->no);
break;
case EVENT_GC_IDLE: // (cap)
debugBelch("cap %d: GC idle\n", cap->no);
break;
case EVENT_GC_WORK: // (cap)
debugBelch("cap %d: GC working\n", cap->no);
break;
case EVENT_GC_DONE: // (cap)
debugBelch("cap %d: GC done\n", cap->no);
break;
case EVENT_GC_GLOBAL_SYNC: // (cap)
debugBelch("cap %d: all caps stopped for GC\n", cap->no);
break;
default:
barf("traceGcEvent: unknown event tag %d", tag);
break;
}
RELEASE_LOCK(&trace_utx);
}
#endif
void traceGcEvent_ (Capability *cap, EventTypeNum tag)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
traceGcEvent_stderr(cap, tag);
} else
#endif
{
/* currently all GC events are nullary events */
postEvent(cap, tag);
}
}
void traceGcEventAtT_ (Capability *cap, StgWord64 ts, EventTypeNum tag)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
traceGcEvent_stderr(cap, tag);
} else
#endif
{
/* assuming nullary events and explicitly inserting a timestamp */
postEventAtTimestamp(cap, ts, tag);
}
}
void traceHeapEvent_ (Capability *cap,
EventTypeNum tag,
CapsetID heap_capset,
W_ info1)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* no stderr equivalent for these ones */
} else
#endif
{
postHeapEvent(cap, tag, heap_capset, info1);
}
}
void traceEventHeapInfo_ (CapsetID heap_capset,
uint32_t gens,
W_ maxHeapSize,
W_ allocAreaSize,
W_ mblockSize,
W_ blockSize)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* no stderr equivalent for these ones */
} else
#endif
{
postEventHeapInfo(heap_capset, gens,
maxHeapSize, allocAreaSize,
mblockSize, blockSize);
}
}
void traceEventGcStats_ (Capability *cap,
CapsetID heap_capset,
uint32_t gen,
W_ copied,
W_ slop,
W_ fragmentation,
uint32_t par_n_threads,
W_ par_max_copied,
W_ par_tot_copied,
W_ par_balanced_copied)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* no stderr equivalent for these ones */
} else
#endif
{
postEventGcStats(cap, heap_capset, gen,
copied, slop, fragmentation,
par_n_threads, par_max_copied,
par_tot_copied, par_balanced_copied);
}
}
void traceCapEvent_ (Capability *cap,
EventTypeNum tag)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
ACQUIRE_LOCK(&trace_utx);
tracePreface();
switch (tag) {
case EVENT_CAP_CREATE: // (cap)
debugBelch("cap %d: initialised\n", cap->no);
break;
case EVENT_CAP_DELETE: // (cap)
debugBelch("cap %d: shutting down\n", cap->no);
break;
case EVENT_CAP_ENABLE: // (cap)
debugBelch("cap %d: enabling capability\n", cap->no);
break;
case EVENT_CAP_DISABLE: // (cap)
debugBelch("cap %d: disabling capability\n", cap->no);
break;
}
RELEASE_LOCK(&trace_utx);
} else
#endif
{
if (eventlog_enabled) {
postCapEvent(tag, (EventCapNo)cap->no);
}
}
}
void traceCapsetEvent_ (EventTypeNum tag,
CapsetID capset,
StgWord info)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR && TRACE_sched)
// When events go to stderr, it is annoying to see the capset
// events every time, so we only emit them with -Ds.
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
switch (tag) {
case EVENT_CAPSET_CREATE: // (capset, capset_type)
debugBelch("created capset %" FMT_Word32 " of type %d\n", capset,
(int)info);
break;
case EVENT_CAPSET_DELETE: // (capset)
debugBelch("deleted capset %" FMT_Word32 "\n", capset);
break;
case EVENT_CAPSET_ASSIGN_CAP: // (capset, capno)
debugBelch("assigned cap %" FMT_Word " to capset %" FMT_Word32 "\n",
info, capset);
break;
case EVENT_CAPSET_REMOVE_CAP: // (capset, capno)
debugBelch("removed cap %" FMT_Word " from capset %" FMT_Word32
"\n", info, capset);
break;
}
RELEASE_LOCK(&trace_utx);
} else
#endif
{
if (eventlog_enabled) {
postCapsetEvent(tag, capset, info);
}
}
}
void traceWallClockTime_(void) {
if (eventlog_enabled) {
postWallClockTime(CAPSET_CLOCKDOMAIN_DEFAULT);
}
}
void traceOSProcessInfo_(void) {
if (eventlog_enabled) {
postCapsetEvent(EVENT_OSPROCESS_PID,
CAPSET_OSPROCESS_DEFAULT,
getpid());
#if !defined(mingw32_HOST_OS)
/* Windows has no strong concept of process hierarchy, so no getppid().
* In any case, this trace event is mainly useful for tracing programs
* that use 'forkProcess' which Windows doesn't support anyway.
*/
postCapsetEvent(EVENT_OSPROCESS_PPID,
CAPSET_OSPROCESS_DEFAULT,
getppid());
#endif
{
char buf[256];
snprintf(buf, sizeof(buf), "GHC-%s %s", ProjectVersion, RtsWay);
postCapsetStrEvent(EVENT_RTS_IDENTIFIER,
CAPSET_OSPROCESS_DEFAULT,
buf);
}
{
int argc = 0; char **argv;
getFullProgArgv(&argc, &argv);
if (argc != 0) {
postCapsetVecEvent(EVENT_PROGRAM_ARGS,
CAPSET_OSPROCESS_DEFAULT,
argc, argv);
}
}
}
}
#if defined(DEBUG)
static void traceSparkEvent_stderr (Capability *cap, EventTypeNum tag,
StgWord info1)
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
switch (tag) {
case EVENT_CREATE_SPARK_THREAD: // (cap, spark_thread)
debugBelch("cap %d: creating spark thread %lu\n",
cap->no, (long)info1);
break;
case EVENT_SPARK_CREATE: // (cap)
debugBelch("cap %d: added spark to pool\n",
cap->no);
break;
case EVENT_SPARK_DUD: // (cap)
debugBelch("cap %d: discarded dud spark\n",
cap->no);
break;
case EVENT_SPARK_OVERFLOW: // (cap)
debugBelch("cap %d: discarded overflowed spark\n",
cap->no);
break;
case EVENT_SPARK_RUN: // (cap)
debugBelch("cap %d: running a spark\n",
cap->no);
break;
case EVENT_SPARK_STEAL: // (cap, victim_cap)
debugBelch("cap %d: stealing a spark from cap %d\n",
cap->no, (int)info1);
break;
case EVENT_SPARK_FIZZLE: // (cap)
debugBelch("cap %d: fizzled spark removed from pool\n",
cap->no);
break;
case EVENT_SPARK_GC: // (cap)
debugBelch("cap %d: GCd spark removed from pool\n",
cap->no);
break;
default:
barf("traceSparkEvent: unknown event tag %d", tag);
break;
}
RELEASE_LOCK(&trace_utx);
}
#endif
void traceSparkEvent_ (Capability *cap, EventTypeNum tag, StgWord info1)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
traceSparkEvent_stderr(cap, tag, info1);
} else
#endif
{
postSparkEvent(cap,tag,info1);
}
}
void traceSparkCounters_ (Capability *cap,
SparkCounters counters,
StgWord remaining)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* we currently don't do debug tracing of spark stats but we must
test for TRACE_STDERR because of the !eventlog_enabled case. */
} else
#endif
{
postSparkCountersEvent(cap, counters, remaining);
}
}
void traceTaskCreate_ (Task *task,
Capability *cap)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* We currently don't do debug tracing of tasks but we must
test for TRACE_STDERR because of the !eventlog_enabled case. */
} else
#endif
{
EventTaskId taskid = serialisableTaskId(task);
EventKernelThreadId tid = kernelThreadId();
postTaskCreateEvent(taskid, cap->no, tid);
}
}
void traceTaskMigrate_ (Task *task,
Capability *cap,
Capability *new_cap)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* We currently don't do debug tracing of tasks but we must
test for TRACE_STDERR because of the !eventlog_enabled case. */
} else
#endif
{
EventTaskId taskid = serialisableTaskId(task);
postTaskMigrateEvent(taskid, cap->no, new_cap->no);
}
}
void traceTaskDelete_ (Task *task)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
/* We currently don't do debug tracing of tasks but we must
test for TRACE_STDERR because of the !eventlog_enabled case. */
} else
#endif
{
EventTaskId taskid = serialisableTaskId(task);
postTaskDeleteEvent(taskid);
}
}
void traceHeapProfBegin(StgWord8 profile_id)
{
if (eventlog_enabled) {
postHeapProfBegin(profile_id);
}
}
void traceHeapBioProfSampleBegin(StgInt era, StgWord64 time)
{
if (eventlog_enabled) {
postHeapBioProfSampleBegin(era, time);
}
}
void traceHeapProfSampleBegin(StgInt era)
{
if (eventlog_enabled) {
postHeapProfSampleBegin(era);
}
}
void traceHeapProfSampleEnd(StgInt era)
{
if (eventlog_enabled) {
postHeapProfSampleEnd(era);
}
}
void traceHeapProfSampleString(StgWord8 profile_id,
const char *label, StgWord residency)
{
if (eventlog_enabled) {
postHeapProfSampleString(profile_id, label, residency);
}
}
void traceIPE(StgInfoTable * info,
const char *table_name,
const char *closure_desc,
const char *ty_desc,
const char *label,
const char *module,
const char *srcloc )
{
if (eventlog_enabled) {
postIPE((W_) INFO_PTR_TO_STRUCT(info), table_name, closure_desc, ty_desc, label, module, srcloc);
}
}
#if defined(PROFILING)
void traceHeapProfCostCentre(StgWord32 ccID,
const char *label,
const char *module,
const char *srcloc,
StgBool is_caf)
{
if (eventlog_enabled) {
postHeapProfCostCentre(ccID, label, module, srcloc, is_caf);
}
}
// This one is for .hp samples
void traceHeapProfSampleCostCentre(StgWord8 profile_id,
CostCentreStack *stack, StgWord residency)
{
if (eventlog_enabled) {
postHeapProfSampleCostCentre(profile_id, stack, residency);
}
}
// This one is for .prof samples
void traceProfSampleCostCentre(Capability *cap,
CostCentreStack *stack, StgWord tick)
{
if (eventlog_enabled) {
postProfSampleCostCentre(cap, stack, tick);
}
}
void traceProfBegin(void)
{
if (eventlog_enabled) {
postProfBegin();
}
}
#endif
#if defined(DEBUG)
static void vtraceCap_stderr(Capability *cap, char *msg, va_list ap)
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
debugBelch("cap %d: ", cap->no);
vdebugBelch(msg,ap);
debugBelch("\n");
RELEASE_LOCK(&trace_utx);
}
static void traceCap_stderr(Capability *cap, char *msg, ...)
{
va_list ap;
va_start(ap,msg);
vtraceCap_stderr(cap, msg, ap);
va_end(ap);
}
#endif
void traceCap_(Capability *cap, char *msg, ...)
{
va_list ap;
va_start(ap,msg);
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
vtraceCap_stderr(cap, msg, ap);
} else
#endif
{
postCapMsg(cap, msg, ap);
}
va_end(ap);
}
#if defined(DEBUG)
static void vtrace_stderr(char *msg, va_list ap)
{
ACQUIRE_LOCK(&trace_utx);
tracePreface();
vdebugBelch(msg,ap);
debugBelch("\n");
RELEASE_LOCK(&trace_utx);
}
#endif
void trace_(char *msg, ...)
{
va_list ap;
va_start(ap,msg);
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
vtrace_stderr(msg, ap);
} else
#endif
{
postMsg(msg, ap);
}
va_end(ap);
}
void traceUserMsg(Capability *cap, char *msg)
{
/* Note: normally we don't check the TRACE_* flags here as they're checked
by the wrappers in Trace.h. But traceUserMsg is special since it has no
wrapper (it's called from cmm code), so we check TRACE_user here
*/
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR && TRACE_user) {
// Use "%s" as format string to ignore format specifiers in msg (#3874).
traceCap_stderr(cap, "%s", msg);
} else
#endif
{
if (eventlog_enabled && TRACE_user) {
postUserEvent(cap, EVENT_USER_MSG, msg);
}
}
dtraceUserMsg(cap->no, msg);
}
void traceUserBinaryMsg(Capability *cap, uint8_t *msg, size_t size)
{
/* Note: normally we don't check the TRACE_* flags here as they're checked
by the wrappers in Trace.h. But traceUserMsg is special since it has no
wrapper (it's called from cmm code), so we check TRACE_user here
*/
if (eventlog_enabled && TRACE_user) {
postUserBinaryEvent(cap, EVENT_USER_BINARY_MSG, msg, size);
}
}
void traceUserMarker(Capability *cap, char *markername)
{
/* Note: traceUserMarker is special since it has no wrapper (it's called
from cmm code), so we check eventlog_enabled and TRACE_user here.
*/
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR && TRACE_user) {
traceCap_stderr(cap, "User marker: %s", markername);
} else
#endif
{
if (eventlog_enabled && TRACE_user) {
postUserEvent(cap, EVENT_USER_MARKER, markername);
}
}
dtraceUserMarker(cap->no, markername);
}
void traceThreadLabel_(Capability *cap,
StgTSO *tso,
char *label)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
ACQUIRE_LOCK(&trace_utx);
tracePreface();
debugBelch("cap %d: thread %" FMT_Word " has label %s\n",
cap->no, (W_)tso->id, label);
RELEASE_LOCK(&trace_utx);
} else
#endif
{
postThreadLabel(cap, tso->id, label);
}
}
void traceConcMarkBegin()
{
if (eventlog_enabled)
postEventNoCap(EVENT_CONC_MARK_BEGIN);
}
void traceConcMarkEnd(StgWord32 marked_obj_count)
{
if (eventlog_enabled)
postConcMarkEnd(marked_obj_count);
}
void traceConcSyncBegin()
{
if (eventlog_enabled)
postEventNoCap(EVENT_CONC_SYNC_BEGIN);
}
void traceConcSyncEnd()
{
if (eventlog_enabled)
postEventNoCap(EVENT_CONC_SYNC_END);
}
void traceConcSweepBegin()
{
if (eventlog_enabled)
postEventNoCap(EVENT_CONC_SWEEP_BEGIN);
}
void traceConcSweepEnd()
{
if (eventlog_enabled)
postEventNoCap(EVENT_CONC_SWEEP_END);
}
void traceConcUpdRemSetFlush(Capability *cap)
{
if (eventlog_enabled)
postConcUpdRemSetFlush(cap);
}
void traceNonmovingHeapCensus(uint32_t log_blk_size,
const struct NonmovingAllocCensus *census)
{
if (eventlog_enabled && TRACE_nonmoving_gc)
postNonmovingHeapCensus(log_blk_size, census);
}
void traceThreadStatus_ (StgTSO *tso USED_IF_DEBUG)
{
#if defined(DEBUG)
if (RtsFlags.TraceFlags.tracing == TRACE_STDERR) {
printThreadStatus(tso);
} else
#endif
{
/* nothing - no event for this one yet */
}
}
#if defined(DEBUG)
void traceBegin (const char *str, ...)
{
va_list ap;
va_start(ap,str);
ACQUIRE_LOCK(&trace_utx);
tracePreface();
vdebugBelch(str,ap);
va_end(ap);
}
void traceEnd (void)
{
debugBelch("\n");
RELEASE_LOCK(&trace_utx);
}
#endif /* DEBUG */
#endif /* TRACING */
// If DTRACE is enabled, but neither DEBUG nor TRACING, we need a C land
// wrapper for the user-msg probe (as we can't expand that in PrimOps.cmm)
//
#if !defined(DEBUG) && !defined(TRACING) && defined(DTRACE)
void dtraceUserMsgWrapper(Capability *cap, char *msg)
{
dtraceUserMsg(cap->no, msg);
}
void dtraceUserMarkerWrapper(Capability *cap, char *msg)
{
dtraceUserMarker(cap->no, msg);
}
#endif /* !defined(DEBUG) && !defined(TRACING) && defined(DTRACE) */
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