static unsigned int cycles_wrap;
#endif
#endif
-int tsc_reliable = 0;
+bool tsc_reliable = false;
struct tv_valid {
- uint64_t last_cycles;
- int last_tv_valid;
int warned;
};
#ifdef ARCH_HAVE_CPU_CLOCK
nsecs = multiples * nsecs_for_max_cycles;
nsecs += ((t & max_cycles_mask) * clock_mult) >> clock_shift;
#endif
- tv->last_cycles = t;
- tv->last_tv_valid = 1;
-
tp->tv_sec = nsecs / 1000000000ULL;
tp->tv_nsec = nsecs % 1000000000ULL;
break;
(unsigned long long) maxc, mean, S);
max_ticks = MAX_CLOCK_SEC * cycles_per_msec * 1000ULL;
- max_mult = ULLONG_MAX / max_ticks;
- dprint(FD_TIME, "\n\nmax_ticks=%llu, __builtin_clzll=%d, max_mult=%llu\n",
- max_ticks, __builtin_clzll(max_ticks), max_mult);
+ max_mult = ULLONG_MAX / max_ticks;
+ dprint(FD_TIME, "\n\nmax_ticks=%llu, __builtin_clzll=%d, "
+ "max_mult=%llu\n", max_ticks,
+ __builtin_clzll(max_ticks), max_mult);
/*
* Find the largest shift count that will produce
dprint(FD_TIME, "tmp=%llu, sft=%u\n", tmp, sft);
}
- clock_shift = sft;
- clock_mult = (1ULL << sft) * 1000000 / cycles_per_msec;
- dprint(FD_TIME, "clock_shift=%u, clock_mult=%llu\n", clock_shift, clock_mult);
+ clock_shift = sft;
+ clock_mult = (1ULL << sft) * 1000000 / cycles_per_msec;
+ dprint(FD_TIME, "clock_shift=%u, clock_mult=%llu\n", clock_shift,
+ clock_mult);
- // Find the greatest power of 2 clock ticks that is less than the ticks in MAX_CLOCK_SEC_2STAGE
+ /*
+ * Find the greatest power of 2 clock ticks that is less than the
+ * ticks in MAX_CLOCK_SEC_2STAGE
+ */
max_cycles_shift = max_cycles_mask = 0;
tmp = MAX_CLOCK_SEC * 1000ULL * cycles_per_msec;
- dprint(FD_TIME, "tmp=%llu, max_cycles_shift=%u\n", tmp, max_cycles_shift);
+ dprint(FD_TIME, "tmp=%llu, max_cycles_shift=%u\n", tmp,
+ max_cycles_shift);
while (tmp > 1) {
tmp >>= 1;
max_cycles_shift++;
dprint(FD_TIME, "tmp=%llu, max_cycles_shift=%u\n", tmp, max_cycles_shift);
}
- // if use use (1ULL << max_cycles_shift) * 1000 / cycles_per_msec here we will
- // have a discontinuity every (1ULL << max_cycles_shift) cycles
- nsecs_for_max_cycles = ((1ULL << max_cycles_shift) * clock_mult) >> clock_shift;
+ /*
+ * if use use (1ULL << max_cycles_shift) * 1000 / cycles_per_msec
+ * here we will have a discontinuity every
+ * (1ULL << max_cycles_shift) cycles
+ */
+ nsecs_for_max_cycles = ((1ULL << max_cycles_shift) * clock_mult)
+ >> clock_shift;
- // Use a bitmask to calculate ticks % (1ULL << max_cycles_shift)
+ /* Use a bitmask to calculate ticks % (1ULL << max_cycles_shift) */
for (tmp = 0; tmp < max_cycles_shift; tmp++)
max_cycles_mask |= 1ULL << tmp;
- dprint(FD_TIME, "max_cycles_shift=%u, 2^max_cycles_shift=%llu, nsecs_for_max_cycles=%llu, max_cycles_mask=%016llx\n",
- max_cycles_shift, (1ULL << max_cycles_shift),
- nsecs_for_max_cycles, max_cycles_mask);
+ dprint(FD_TIME, "max_cycles_shift=%u, 2^max_cycles_shift=%llu, "
+ "nsecs_for_max_cycles=%llu, "
+ "max_cycles_mask=%016llx\n",
+ max_cycles_shift, (1ULL << max_cycles_shift),
+ nsecs_for_max_cycles, max_cycles_mask);
cycles_start = get_cpu_clock();
dprint(FD_TIME, "cycles_start=%llu\n", cycles_start);
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)
defined(CONFIG_SFAA)
#define CLOCK_ENTRIES_DEBUG 100000
-#define CLOCK_ENTRIES_TEST 10000
+#define CLOCK_ENTRIES_TEST 1000
struct clock_entry {
uint32_t seq;