* Clock functions
*/
-#include <unistd.h>
#include <math.h>
-#include <sys/time.h>
-#include <time.h>
#include "fio.h"
-#include "smalloc.h"
-
-#include "hash.h"
#include "os/os.h"
#if defined(ARCH_HAVE_CPU_CLOCK)
#ifndef ARCH_CPU_CLOCK_CYCLES_PER_USEC
-static unsigned long cycles_per_msec;
+static unsigned long long cycles_per_msec;
static unsigned long long cycles_start;
static unsigned long long clock_mult;
static unsigned long long max_cycles_mask;
static unsigned int cycles_wrap;
#endif
#endif
-int tsc_reliable = 0;
+bool tsc_reliable = false;
struct tv_valid {
int warned;
c_s = get_cpu_clock();
do {
__fio_gettime(&e);
+ c_e = get_cpu_clock();
- elapsed = utime_since(&s, &e);
- if (elapsed >= 1280) {
- c_e = get_cpu_clock();
+ elapsed = ntime_since(&s, &e);
+ if (elapsed >= 1280000)
break;
- }
} while (1);
fio_clock_source = old_cs;
- return (c_e - c_s) * 1000 / elapsed;
+ return (c_e - c_s) * 1000000 / elapsed;
}
#define NR_TIME_ITERS 50
avg /= samples;
cycles_per_msec = avg;
- dprint(FD_TIME, "avg: %llu\n", (unsigned long long) avg);
- dprint(FD_TIME, "min=%llu, max=%llu, mean=%f, S=%f\n",
+ dprint(FD_TIME, "min=%llu, max=%llu, mean=%f, S=%f, N=%d\n",
(unsigned long long) minc,
- (unsigned long long) maxc, mean, S);
+ (unsigned long long) maxc, mean, S, NR_TIME_ITERS);
+ dprint(FD_TIME, "trimmed mean=%llu, N=%d\n", (unsigned long long) avg, samples);
max_ticks = MAX_CLOCK_SEC * cycles_per_msec * 1000ULL;
max_mult = ULLONG_MAX / max_ticks;
}
#endif // ARCH_HAVE_CPU_CLOCK
-#ifndef CONFIG_TLS_THREAD
-void fio_local_clock_init(int is_thread)
+#if defined(ARCH_HAVE_CPU_CLOCK) && !defined(CONFIG_TLS_THREAD)
+void fio_local_clock_init(void)
{
struct tv_valid *t;
free(data);
}
#else
-void fio_local_clock_init(int is_thread)
+void fio_local_clock_init(void)
{
}
#endif
if (fio_clock_source == fio_clock_source_inited)
return;
-#ifndef CONFIG_TLS_THREAD
+#if defined(ARCH_HAVE_CPU_CLOCK) && !defined(CONFIG_TLS_THREAD)
if (pthread_key_create(&tv_tls_key, kill_tv_tls_key))
log_err("fio: can't create TLS key\n");
#endif
fio_clock_source_inited = fio_clock_source;
if (calibrate_cpu_clock())
- tsc_reliable = 0;
+ tsc_reliable = false;
/*
* If the arch sets tsc_reliable != 0, then it must be good enough
fio_clock_source = CS_CPUCLOCK;
} else if (fio_clock_source == CS_CPUCLOCK)
log_info("fio: clocksource=cpu may not be reliable\n");
+ dprint(FD_TIME, "gettime: clocksource=%d\n", (int) fio_clock_source);
}
uint64_t ntime_since(const struct timespec *s, const struct timespec *e)
return nsec + (sec * 1000000000LL);
}
+uint64_t ntime_since_now(const struct timespec *s)
+{
+ struct timespec now;
+
+ fio_gettime(&now, NULL);
+ return ntime_since(s, &now);
+}
+
uint64_t utime_since(const struct timespec *s, const struct timespec *e)
{
int64_t sec, usec;
}
#if defined(FIO_HAVE_CPU_AFFINITY) && defined(ARCH_HAVE_CPU_CLOCK) && \
- defined(CONFIG_SFAA)
+ defined(CONFIG_SYNC_SYNC) && defined(CONFIG_CMP_SWAP)
#define CLOCK_ENTRIES_DEBUG 100000
-#define CLOCK_ENTRIES_TEST 10000
+#define CLOCK_ENTRIES_TEST 1000
struct clock_entry {
uint32_t seq;
pthread_t thread;
int cpu;
int debug;
- pthread_mutex_t lock;
- pthread_mutex_t started;
+ struct fio_sem lock;
unsigned long nr_entries;
uint32_t *seq;
struct clock_entry *entries;
};
-static inline uint32_t atomic32_inc_return(uint32_t *seq)
+static inline uint32_t atomic32_compare_and_swap(uint32_t *ptr, uint32_t old,
+ uint32_t new)
{
- return 1 + __sync_fetch_and_add(seq, 1);
+ return __sync_val_compare_and_swap(ptr, old, new);
}
static void *clock_thread_fn(void *data)
struct clock_thread *t = data;
struct clock_entry *c;
os_cpu_mask_t cpu_mask;
- uint32_t last_seq;
unsigned long long first;
int i;
goto err;
}
- pthread_mutex_lock(&t->lock);
- pthread_mutex_unlock(&t->started);
+ fio_sem_down(&t->lock);
first = get_cpu_clock();
- last_seq = 0;
c = &t->entries[0];
for (i = 0; i < t->nr_entries; i++, c++) {
uint32_t seq;
c->cpu = t->cpu;
do {
- seq = atomic32_inc_return(t->seq);
- if (seq < last_seq)
+ seq = *t->seq;
+ if (seq == UINT_MAX)
break;
+ __sync_synchronize();
tsc = get_cpu_clock();
- } while (seq != *t->seq);
+ } while (seq != atomic32_compare_and_swap(t->seq, seq, seq + 1));
+
+ if (seq == UINT_MAX)
+ break;
c->seq = seq;
c->tsc = tsc;
* The most common platform clock breakage is returning zero
* indefinitely. Check for that and return failure.
*/
- if (!t->entries[i - 1].tsc && !t->entries[0].tsc)
+ if (i > 1 && !t->entries[i - 1].tsc && !t->entries[0].tsc)
goto err;
fio_cpuset_exit(&cpu_mask);
t->seq = &seq;
t->nr_entries = nr_entries;
t->entries = &entries[i * nr_entries];
- pthread_mutex_init(&t->lock, NULL);
- pthread_mutex_init(&t->started, NULL);
- pthread_mutex_lock(&t->lock);
+ __fio_sem_init(&t->lock, FIO_SEM_LOCKED);
if (pthread_create(&t->thread, NULL, clock_thread_fn, t)) {
failed++;
nr_cpus = i;
for (i = 0; i < nr_cpus; i++) {
struct clock_thread *t = &cthreads[i];
- pthread_mutex_lock(&t->started);
- }
-
- for (i = 0; i < nr_cpus; i++) {
- struct clock_thread *t = &cthreads[i];
-
- pthread_mutex_unlock(&t->lock);
+ fio_sem_up(&t->lock);
}
for (i = 0; i < nr_cpus; i++) {
pthread_join(t->thread, &ret);
if (ret)
failed++;
+ __fio_sem_remove(&t->lock);
}
free(cthreads);