/* -----------------------------------------------------------------------------
* (c) The GHC Team 2006
*
* Initialization and use of the PAPI performance monitoring library
*
*
* For adding events or add your processor counters modify
*
* init_countable_events
* papi_report
*
* ---------------------------------------------------------------------------*/
#ifdef USE_PAPI /* ugly */
#include <papi.h>
/* The posix symbols get defined in a header included from papi.h.
* undefind them here to allow redefinition in PosixSource.h */
#undef _POSIX_SOURCE
#undef _POSIX_C_SOURCE
#undef _XOPEN_SOURCE
#include "PosixSource.h"
#include "Rts.h"
#include "RtsUtils.h"
#include "Stats.h"
#include "Papi.h"
// used to protect the aggregated counters
#ifdef THREADED_RTS
static Mutex papi_counter_mutex;
#endif
struct _papi_events {
int event_code;
const char * event_name;
};
/* Beware, these counters are Opteron specific
* I obtained the numbers using the papi_avail
* and papi_native_avail utilities.
* This is certainly not the official PAPI way
* of doing things.
*/
#define FR_BR 0x40000040
#define FR_BR_MIS 0x40000041
#define FR_BR_MISCOMPARE 0x40000048
#define DC_ACCESS 0x40000019
#define DC_MISS 0x4000001a
#define FR_DISPATCH_STALLS 0x40000054
#define FR_DISPATCH_STALLS_BR 0x40000055
#define FR_DISPATCH_STALLS_FULL_REORDER 0x40000058
#define FR_DISPATCH_STALLS_FULL_RESERVATION 0x40000059
#define FR_DISPATCH_STALLS_FULL_LS 0x4000005b
#define DC_L2_REFILL_MOES 0x40001e1b
#define DC_SYS_REFILL_MOES 0x40001e1c
/* This is bad, it should be in a header */
#define BIG_STRING_LEN 512
#define PAPI_CHECK(CALL) \
if((papi_error=(CALL)) != PAPI_OK) { \
debugBelch("PAPI function failed in module %s at line %d with error code %d\n", \
__FILE__,__LINE__,papi_error); \
}
/* While PAPI reporting is going on this flag is on */
int papi_is_reporting;
/* Event sets and counter arrays for GC and mutator */
int MutatorEvents = PAPI_NULL;
int GCEvents = PAPI_NULL;
int papi_error;
/* Arbitrary, to avoid using malloc */
#define MAX_PAPI_EVENTS 10
static char papiNativeEventNames[MAX_PAPI_EVENTS][PAPI_MAX_STR_LEN];
static nat n_papi_events = 0;
/* Events counted during GC and Mutator execution */
/* There's a trailing comma, do all C compilers accept that? */
static struct _papi_events papi_events[MAX_PAPI_EVENTS];
long_long MutatorCounters[MAX_PAPI_EVENTS];
long_long GC0Counters[MAX_PAPI_EVENTS];
long_long GC1Counters[MAX_PAPI_EVENTS];
long_long start_mutator_cycles;
long_long mutator_cycles = 0;
long_long start_gc_cycles;
long_long gc0_cycles = 0;
long_long gc1_cycles = 0;
static long_long papi_counter(long_long values[],int event);
static void papi_add_events(int EventSet);
static nat max_hardware_counters = 2;
/* If you want to add events to count, extend the
* init_countable_events and the papi_report function.
* Be aware that your processor can count a limited number
* of events simultaneously, you can turn on multiplexing
* to increase that number, though.
*/
static void papi_add_event(const char *name, int code)
{
if (n_papi_events >= max_hardware_counters) {
errorBelch("too many PAPI events for this CPU (max: %d)",
max_hardware_counters);
stg_exit(EXIT_FAILURE);
}
papi_events[n_papi_events].event_code = code;
papi_events[n_papi_events].event_name = name;
n_papi_events++;
}
static void
init_countable_events(void)
{
max_hardware_counters = PAPI_num_counters();
#define PAPI_ADD_EVENT(EVENT) papi_add_event(#EVENT,EVENT)
if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_BRANCH) {
PAPI_ADD_EVENT(FR_BR);
PAPI_ADD_EVENT(FR_BR_MIS);
/* Docs are wrong? Opteron does not count indirect branch misses exclusively */
PAPI_ADD_EVENT(FR_BR_MISCOMPARE);
} else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_STALLS) {
PAPI_ADD_EVENT(FR_DISPATCH_STALLS);
PAPI_ADD_EVENT(FR_DISPATCH_STALLS_BR);
PAPI_ADD_EVENT(FR_DISPATCH_STALLS_FULL_LS);
} else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_CACHE_L1) {
PAPI_ADD_EVENT(PAPI_L1_DCA);
PAPI_ADD_EVENT(PAPI_L1_DCM);
} else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_CACHE_L2) {
PAPI_ADD_EVENT(PAPI_L2_DCA);
PAPI_ADD_EVENT(PAPI_L2_DCM);
} else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_CB_EVENTS) {
PAPI_ADD_EVENT(DC_L2_REFILL_MOES);
PAPI_ADD_EVENT(DC_SYS_REFILL_MOES);
PAPI_ADD_EVENT(FR_BR_MIS);
} else if (RtsFlags.PapiFlags.eventType==PAPI_USER_EVENTS) {
nat i;
char *name;
char *asciiEventCode;
int code;
for (i = 0; i < RtsFlags.PapiFlags.numUserEvents; i++) {
if(RtsFlags.PapiFlags.userEventsKind[i] == PAPI_PRESET_EVENT_KIND) {
name = RtsFlags.PapiFlags.userEvents[i];
PAPI_CHECK(PAPI_event_name_to_code(name, &code))
}
else { // PAPI_NATIVE_EVENT_KIND
asciiEventCode = RtsFlags.PapiFlags.userEvents[i];
name = papiNativeEventNames[i];
code = strtol(asciiEventCode, NULL, 16 /* hex number expected */);
PAPI_CHECK(PAPI_event_code_to_name(code, name))
}
papi_add_event(name, code);
}
} else {
// PAPI_ADD_EVENT(PAPI_L1_DCA); // L1 data cache accesses
// PAPI_ADD_EVENT(PAPI_L1_ICR); // L1 instruction cache reads
// PAPI_ADD_EVENT(PAPI_L1_ICM); // L1 instruction cache misses
// PAPI_ADD_EVENT(PAPI_L1_STM); // L1 store misses
// PAPI_ADD_EVENT(PAPI_L1_DCM); // L1 data cache misses
// PAPI_ADD_EVENT(PAPI_L1_LDM); // L1 load misses
// PAPI_ADD_EVENT(PAPI_L2_TCM); // L2 cache misses
// PAPI_ADD_EVENT(PAPI_L2_STM); // L2 store misses
// PAPI_ADD_EVENT(PAPI_L2_DCW); // L2 data cache writes
// PAPI_ADD_EVENT(PAPI_L2_DCR); // L2 data cache reads
// PAPI_ADD_EVENT(PAPI_L2_TCW); // L2 cache writes
// PAPI_ADD_EVENT(PAPI_L2_TCR); // L2 cache reads
// PAPI_ADD_EVENT(PAPI_CA_CLN); // exclusive access to clean cache line
// PAPI_ADD_EVENT(PAPI_TLB_DM); // TLB misses
PAPI_ADD_EVENT(PAPI_TOT_INS); // Total instructions
PAPI_ADD_EVENT(PAPI_TOT_CYC); // Total instructions
// PAPI_ADD_EVENT(PAPI_CA_SHR); // exclusive access to shared cache line
// PAPI_ADD_EVENT(PAPI_RES_STL); // Cycles stalled on any resource
}
// We might also consider:
// PAPI_BR_MSP Conditional branch instructions mispredicted
// PAPI_RES_STL Cycles stalled on any resource
};
static void
papi_report_event(const char *name, StgWord64 value)
{
static char temp[BIG_STRING_LEN];
showStgWord64(value,temp,rtsTrue/*commas*/);
statsPrintf(" %15s %15s\n", name, temp);
}
/* This function reports counters for GC and mutator */
static void
papi_report(long_long counters[])
{
nat i;
/* Report the value of a counter as a percentage of another counter */
#define PAPI_REPORT_PCT(EVENTSET,EVENT,EVENTTOT) \
statsPrintf(" " #EVENT " %% of " #EVENTTOT " : %.1f%%\n", \
papi_counter(EVENTSET,EVENT)*100.0/papi_counter(EVENTSET,EVENTTOT))
for (i = 0; i < n_papi_events; i++)
{
papi_report_event(papi_events[i].event_name, counters[i]);
}
if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_BRANCH) {
PAPI_REPORT_PCT(counters,FR_BR_MIS,FR_BR);
PAPI_REPORT_PCT(counters,FR_BR_MISCOMPARE,FR_BR);
}
else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_CACHE_L1) {
PAPI_REPORT_PCT(counters,PAPI_L1_DCM,PAPI_L1_DCA);
}
else if (RtsFlags.PapiFlags.eventType==PAPI_FLAG_CACHE_L2) {
PAPI_REPORT_PCT(counters,PAPI_L2_DCM,PAPI_L2_DCA);
}
}
void
papi_stats_report (void)
{
statsPrintf(" Mutator CPU counters\n");
papi_report_event("CYCLES", mutator_cycles);
papi_report(MutatorCounters);
statsPrintf("\n GC(0) CPU counters\n");
papi_report_event("CYCLES", gc0_cycles);
papi_report(GC0Counters);
statsPrintf("\n GC(1) CPU counters\n");
papi_report_event("CYCLES", gc1_cycles);
papi_report(GC1Counters);
}
void
papi_init_eventset (int *event_set)
{
PAPI_register_thread();
PAPI_CHECK( PAPI_create_eventset(event_set));
papi_add_events(*event_set);
}
void
papi_init (void)
{
/* Initialise the performance tracking library */
int ver;
if ((ver = PAPI_library_init(PAPI_VER_CURRENT)) != PAPI_VER_CURRENT) {
if (ver > 0) {
errorBelch("PAPI_library_init: wrong version: %x", ver);
stg_exit(EXIT_FAILURE);
} else {
sysErrorBelch("PAPI_library_init");
stg_exit(EXIT_FAILURE);
}
}
#ifdef THREADED_RTS
{
int err;
if ((err = PAPI_thread_init(osThreadId)) < 0) {
barf("PAPI_thread_init: %d",err);
}
initMutex(&papi_counter_mutex);
}
#endif
init_countable_events();
papi_init_eventset(&MutatorEvents);
papi_init_eventset(&GCEvents);
}
/* Extract the value corresponding to an event */
static long_long
papi_counter(long_long values[],int event)
{
nat i;
for(i=0;i<n_papi_events;i++) {
if(papi_events[i].event_code==event) {
return values[i];
}
}
/* Passed a wrong event? */
debugBelch("Event %d is not part of event set\n",event);
return 0;
}
/* Add the events of papi_events into an event set */
static void
papi_add_events(int EventSet)
{
nat i;
for(i=0;i<n_papi_events;i++) {
if((papi_error=PAPI_add_event(EventSet,
papi_events[i].event_code))
!= PAPI_OK)
debugBelch("Failed adding %s to event set with error code %d\n",
papi_events[i].event_name,papi_error);
}
}
/* We should be using elapsed cycles
* to be consistent with time metric chosen in Stats.c (Elapsed time).
* This is an approximation to the cycles that the program spends.
* Note that the counters, in contrast, are virtual and user space.
*/
#define PAPI_cycles PAPI_get_virt_cyc
void
papi_start_mutator_count(void)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_start(MutatorEvents));
start_mutator_cycles = PAPI_cycles();
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_stop_mutator_count(void)
{
ACQUIRE_LOCK(&papi_counter_mutex);
mutator_cycles += PAPI_cycles() - start_mutator_cycles;
PAPI_CHECK( PAPI_accum(MutatorEvents,MutatorCounters));
PAPI_CHECK( PAPI_stop(MutatorEvents,NULL));
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_start_gc_count(void)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_start(GCEvents));
start_gc_cycles = PAPI_cycles();
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_stop_gc0_count(void)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_accum(GCEvents,GC0Counters));
PAPI_CHECK( PAPI_stop(GCEvents,NULL));
gc0_cycles += PAPI_cycles() - start_gc_cycles;
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_stop_gc1_count(void)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_accum(GCEvents,GC1Counters));
PAPI_CHECK( PAPI_stop(GCEvents,NULL));
gc1_cycles += PAPI_cycles() - start_gc_cycles;
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_thread_start_gc1_count(int event_set)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_start(event_set));
RELEASE_LOCK(&papi_counter_mutex);
}
void
papi_thread_stop_gc1_count(int event_set)
{
ACQUIRE_LOCK(&papi_counter_mutex);
PAPI_CHECK( PAPI_accum(event_set,GC1Counters));
PAPI_CHECK( PAPI_stop(event_set,NULL));
RELEASE_LOCK(&papi_counter_mutex);
}
#endif /* USE_PAPI */