DPDK  19.02.0
examples/performance-thread/common/lthread_diag.c
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2015 Intel Corporation
*/
#include <rte_log.h>
#include <rte_common.h>
#include "lthread_diag.h"
#include "lthread_queue.h"
#include "lthread_pool.h"
#include "lthread_objcache.h"
#include "lthread_sched.h"
#include "lthread_diag_api.h"
/* dummy ref value of default diagnostic callback */
static uint64_t dummy_ref;
#define DIAG_SCHED_STATS_FORMAT \
"core %d\n%33s %12s %12s %12s %12s\n"
#define DIAG_CACHE_STATS_FORMAT \
"%20s %12lu %12lu %12lu %12lu %12lu\n"
#define DIAG_QUEUE_STATS_FORMAT \
"%20s %12lu %12lu %12lu\n"
/*
* texts used in diagnostic events,
* corresponding diagnostic mask bit positions are given as comment
*/
const char *diag_event_text[] = {
"LTHREAD_CREATE ", /* 00 */
"LTHREAD_EXIT ", /* 01 */
"LTHREAD_JOIN ", /* 02 */
"LTHREAD_CANCEL ", /* 03 */
"LTHREAD_DETACH ", /* 04 */
"LTHREAD_FREE ", /* 05 */
"LTHREAD_SUSPENDED ", /* 06 */
"LTHREAD_YIELD ", /* 07 */
"LTHREAD_RESCHEDULED", /* 08 */
"LTHREAD_SLEEP ", /* 09 */
"LTHREAD_RESUMED ", /* 10 */
"LTHREAD_AFFINITY ", /* 11 */
"LTHREAD_TMR_START ", /* 12 */
"LTHREAD_TMR_DELETE ", /* 13 */
"LTHREAD_TMR_EXPIRED", /* 14 */
"COND_CREATE ", /* 15 */
"COND_DESTROY ", /* 16 */
"COND_WAIT ", /* 17 */
"COND_SIGNAL ", /* 18 */
"COND_BROADCAST ", /* 19 */
"MUTEX_CREATE ", /* 20 */
"MUTEX_DESTROY ", /* 21 */
"MUTEX_LOCK ", /* 22 */
"MUTEX_TRYLOCK ", /* 23 */
"MUTEX_BLOCKED ", /* 24 */
"MUTEX_UNLOCKED ", /* 25 */
"SCHED_CREATE ", /* 26 */
"SCHED_SHUTDOWN " /* 27 */
};
/*
* set diagnostic ,ask
*/
void lthread_diagnostic_set_mask(DIAG_USED uint64_t mask)
{
#if LTHREAD_DIAG
diag_mask = mask;
#else
RTE_LOG(INFO, LTHREAD,
"LTHREAD_DIAG is not set, see lthread_diag_api.h\n");
#endif
}
/*
* Check consistency of the scheduler stats
* Only sensible run after the schedulers are stopped
* Count the number of objects lying in caches and queues
* and available in the qnode pool.
* This should be equal to the total capacity of all
* qnode pools.
*/
void
_sched_stats_consistency_check(void);
void
_sched_stats_consistency_check(void)
{
#if LTHREAD_DIAG
int i;
struct lthread_sched *sched;
uint64_t count = 0;
uint64_t capacity = 0;
for (i = 0; i < LTHREAD_MAX_LCORES; i++) {
sched = schedcore[i];
if (sched == NULL)
continue;
/* each of these queues consumes a stub node */
count += 8;
count += DIAG_COUNT(sched->ready, size);
count += DIAG_COUNT(sched->pready, size);
count += DIAG_COUNT(sched->lthread_cache, available);
count += DIAG_COUNT(sched->stack_cache, available);
count += DIAG_COUNT(sched->tls_cache, available);
count += DIAG_COUNT(sched->per_lthread_cache, available);
count += DIAG_COUNT(sched->cond_cache, available);
count += DIAG_COUNT(sched->mutex_cache, available);
/* the node pool does not consume a stub node */
if (sched->qnode_pool->fast_alloc != NULL)
count++;
count += DIAG_COUNT(sched->qnode_pool, available);
capacity += DIAG_COUNT(sched->qnode_pool, capacity);
}
if (count != capacity) {
RTE_LOG(CRIT, LTHREAD,
"Scheduler caches are inconsistent\n");
} else {
RTE_LOG(INFO, LTHREAD,
"Scheduler caches are ok\n");
}
#endif
}
#if LTHREAD_DIAG
/*
* Display node pool stats
*/
static inline void
_qnode_pool_display(DIAG_USED struct qnode_pool *p)
{
printf(DIAG_CACHE_STATS_FORMAT,
p->name,
DIAG_COUNT(p, rd),
DIAG_COUNT(p, wr),
DIAG_COUNT(p, available),
DIAG_COUNT(p, prealloc),
DIAG_COUNT(p, capacity));
fflush(stdout);
}
#endif
#if LTHREAD_DIAG
/*
* Display queue stats
*/
static inline void
_lthread_queue_display(DIAG_USED struct lthread_queue *q)
{
#if DISPLAY_OBJCACHE_QUEUES
printf(DIAG_QUEUE_STATS_FORMAT,
q->name,
DIAG_COUNT(q, rd),
DIAG_COUNT(q, wr),
DIAG_COUNT(q, size));
fflush(stdout);
#else
printf("%s: queue stats disabled\n",
q->name);
#endif
}
#endif
#if LTHREAD_DIAG
/*
* Display objcache stats
*/
static inline void
_objcache_display(DIAG_USED struct lthread_objcache *c)
{
printf(DIAG_CACHE_STATS_FORMAT,
c->name,
DIAG_COUNT(c, rd),
DIAG_COUNT(c, wr),
DIAG_COUNT(c, available),
DIAG_COUNT(c, prealloc),
DIAG_COUNT(c, capacity));
_lthread_queue_display(c->q);
fflush(stdout);
}
#endif
/*
* Display sched stats
*/
void
lthread_sched_stats_display(void)
{
#if LTHREAD_DIAG
int i;
struct lthread_sched *sched;
for (i = 0; i < LTHREAD_MAX_LCORES; i++) {
sched = schedcore[i];
if (sched != NULL) {
printf(DIAG_SCHED_STATS_FORMAT,
sched->lcore_id,
"rd",
"wr",
"present",
"nb preallocs",
"capacity");
_lthread_queue_display(sched->ready);
_lthread_queue_display(sched->pready);
_qnode_pool_display(sched->qnode_pool);
_objcache_display(sched->lthread_cache);
_objcache_display(sched->stack_cache);
_objcache_display(sched->tls_cache);
_objcache_display(sched->per_lthread_cache);
_objcache_display(sched->cond_cache);
_objcache_display(sched->mutex_cache);
fflush(stdout);
}
}
_sched_stats_consistency_check();
#else
RTE_LOG(INFO, LTHREAD,
"lthread diagnostics disabled\n"
"hint - set LTHREAD_DIAG in lthread_diag_api.h\n");
#endif
}
/*
* Defafult diagnostic callback
*/
static uint64_t
_lthread_diag_default_cb(uint64_t time, struct lthread *lt, int diag_event,
uint64_t diag_ref, const char *text, uint64_t p1, uint64_t p2)
{
uint64_t _p2;
int lcore = (int) rte_lcore_id();
switch (diag_event) {
case LT_DIAG_LTHREAD_CREATE:
case LT_DIAG_MUTEX_CREATE:
case LT_DIAG_COND_CREATE:
_p2 = dummy_ref;
break;
default:
_p2 = p2;
break;
}
printf("%"PRIu64" %d %8.8lx %8.8lx %s %8.8lx %8.8lx\n",
time,
lcore,
(uint64_t) lt,
diag_ref,
text,
p1,
_p2);
return dummy_ref++;
}
/*
* plug in default diag callback with mask off
*/
RTE_INIT(_lthread_diag_ctor)
{
diag_cb = _lthread_diag_default_cb;
diag_mask = 0;
}
/*
* enable diagnostics
*/
void lthread_diagnostic_enable(DIAG_USED diag_callback cb,
DIAG_USED uint64_t mask)
{
#if LTHREAD_DIAG
if (cb == NULL)
diag_cb = _lthread_diag_default_cb;
else
diag_cb = cb;
diag_mask = mask;
#else
RTE_LOG(INFO, LTHREAD,
"LTHREAD_DIAG is not set, see lthread_diag_api.h\n");
#endif
}