#include "fio.h"
-static char run_str[MAX_JOBS + 1];
+static char run_str[REAL_MAX_JOBS + 1];
/*
* Sets the status of the 'td' in the printed status map.
break;
case TD_RUNNING:
if (td_rw(td)) {
- if (td_random(td))
- c = 'm';
- else
- c = 'M';
+ if (td_random(td)) {
+ if (td->o.rwmix[DDIR_READ] == 100)
+ c = 'r';
+ else if (td->o.rwmix[DDIR_WRITE] == 100)
+ c = 'w';
+ else
+ c = 'm';
+ } else {
+ if (td->o.rwmix[DDIR_READ] == 100)
+ c = 'R';
+ else if (td->o.rwmix[DDIR_WRITE] == 100)
+ c = 'W';
+ else
+ c = 'M';
+ }
} else if (td_read(td)) {
if (td_random(td))
c = 'r';
bytes_total = td->total_io_size;
+ if (td->o.fill_device && td->o.size == -1ULL) {
+ if (!td->fill_device_size || td->fill_device_size == -1ULL)
+ return 0;
+
+ bytes_total = td->fill_device_size;
+ }
+
/*
* if writing, bytes_total will be twice the size. If mixing,
* assume a 50/50 split and thus bytes_total will be 50% larger.
if (td->o.zone_size && td->o.zone_skip)
bytes_total /= (td->o.zone_skip / td->o.zone_size);
- if (td->o.fill_device && td->o.size == -1ULL)
- return 0;
-
if (td->runstate == TD_RUNNING || td->runstate == TD_VERIFYING) {
double perc, perc_t;
* if given, otherwise assume it'll run at the specified rate.
*/
if (td->o.timeout) {
- t_eta = td->o.timeout + td->o.start_delay;
+ t_eta = td->o.timeout + td->o.start_delay +
+ td->o.ramp_time;
if (in_ramp_time(td)) {
unsigned long ramp_left;
- ramp_left = mtime_since_now(&td->start);
+ ramp_left = mtime_since_now(&td->epoch);
ramp_left = (ramp_left + 999) / 1000;
if (ramp_left <= t_eta)
t_eta -= ramp_left;
}
}
if (td->o.rate[0] || td->o.rate[1]) {
- r_eta = (bytes_total / 1024) / (td->o.rate[0] + td->o.rate[1]);
+ r_eta = (bytes_total / 1024) /
+ (td->o.rate[0] + td->o.rate[1]);
r_eta += td->o.start_delay;
}
* Print status of the jobs we know about. This includes rate estimates,
* ETA, thread state, etc.
*/
-void print_thread_status(void)
+int calc_thread_status(struct jobs_eta *je, int force)
{
- unsigned long elapsed = (mtime_since_genesis() + 999) / 1000;
- int i, nr_ramp, nr_running, nr_pending, t_rate, m_rate;
- int t_iops, m_iops, files_open;
struct thread_data *td;
- char eta_str[128];
- double perc = 0.0;
- unsigned long long io_bytes[2], io_iops[2];
- unsigned long rate_time, disp_time, bw_avg_time, *eta_secs, eta_sec;
+ int i;
+ unsigned long rate_time, disp_time, bw_avg_time, *eta_secs;
+ unsigned long long io_bytes[2];
+ unsigned long long io_iops[2];
struct timeval now;
static unsigned long long rate_io_bytes[2];
static unsigned long long disp_io_bytes[2];
static unsigned long long disp_io_iops[2];
static struct timeval rate_prev_time, disp_prev_time;
- static unsigned int rate[2], iops[2];
- static int linelen_last;
- static int eta_good;
int i2p = 0;
- if (temp_stall_ts || terse_output || eta_print == FIO_ETA_NEVER)
- return;
+ if (!force) {
+ if (temp_stall_ts || terse_output || eta_print == FIO_ETA_NEVER)
+ return 0;
- if (!isatty(STDOUT_FILENO) && (eta_print != FIO_ETA_ALWAYS))
- return;
+ if (!isatty(STDOUT_FILENO) && (eta_print != FIO_ETA_ALWAYS))
+ return 0;
+ }
if (!rate_io_bytes[0] && !rate_io_bytes[1])
fill_start_time(&rate_prev_time);
eta_secs = malloc(thread_number * sizeof(unsigned long));
memset(eta_secs, 0, thread_number * sizeof(unsigned long));
+ je->elapsed_sec = (mtime_since_genesis() + 999) / 1000;
+
io_bytes[0] = io_bytes[1] = 0;
io_iops[0] = io_iops[1] = 0;
- nr_pending = nr_running = t_rate = m_rate = t_iops = m_iops = 0;
- nr_ramp = 0;
bw_avg_time = ULONG_MAX;
- files_open = 0;
for_each_td(td, i) {
if (td->o.bw_avg_time < bw_avg_time)
bw_avg_time = td->o.bw_avg_time;
if (td->runstate == TD_RUNNING || td->runstate == TD_VERIFYING
|| td->runstate == TD_FSYNCING
|| td->runstate == TD_PRE_READING) {
- nr_running++;
- t_rate += td->o.rate[0] + td->o.rate[1];
- m_rate += td->o.ratemin[0] + td->o.ratemin[1];
- t_iops += td->o.rate_iops[0] + td->o.rate_iops[1];
- m_iops += td->o.rate_iops_min[0] + td->o.rate_iops_min[1];
- files_open += td->nr_open_files;
+ je->nr_running++;
+ je->t_rate += td->o.rate[0] + td->o.rate[1];
+ je->m_rate += td->o.ratemin[0] + td->o.ratemin[1];
+ je->t_iops += td->o.rate_iops[0] + td->o.rate_iops[1];
+ je->m_iops += td->o.rate_iops_min[0] +
+ td->o.rate_iops_min[1];
+ je->files_open += td->nr_open_files;
} else if (td->runstate == TD_RAMP) {
- nr_running++;
- nr_ramp++;
+ je->nr_running++;
+ je->nr_ramp++;
} else if (td->runstate < TD_RUNNING)
- nr_pending++;
+ je->nr_pending++;
- if (elapsed >= 3)
+ if (je->elapsed_sec >= 3)
eta_secs[i] = thread_eta(td);
else
eta_secs[i] = INT_MAX;
}
if (exitall_on_terminate)
- eta_sec = INT_MAX;
+ je->eta_sec = INT_MAX;
else
- eta_sec = 0;
+ je->eta_sec = 0;
for_each_td(td, i) {
if (!i2p && is_power_of_2(td->o.kb_base))
i2p = 1;
if (exitall_on_terminate) {
- if (eta_secs[i] < eta_sec)
- eta_sec = eta_secs[i];
+ if (eta_secs[i] < je->eta_sec)
+ je->eta_sec = eta_secs[i];
} else {
- if (eta_secs[i] > eta_sec)
- eta_sec = eta_secs[i];
+ if (eta_secs[i] > je->eta_sec)
+ je->eta_sec = eta_secs[i];
}
}
free(eta_secs);
- if (eta_sec != INT_MAX && elapsed) {
- perc = (double) elapsed / (double) (elapsed + eta_sec);
- eta_to_str(eta_str, eta_sec);
- }
-
fio_gettime(&now, NULL);
rate_time = mtime_since(&rate_prev_time, &now);
if (write_bw_log && rate_time > bw_avg_time && !in_ramp_time(td)) {
- calc_rate(rate_time, io_bytes, rate_io_bytes, rate);
+ calc_rate(rate_time, io_bytes, rate_io_bytes, je->rate);
memcpy(&rate_prev_time, &now, sizeof(now));
- add_agg_sample(rate[DDIR_READ], DDIR_READ, 0);
- add_agg_sample(rate[DDIR_WRITE], DDIR_WRITE, 0);
+ add_agg_sample(je->rate[DDIR_READ], DDIR_READ, 0);
+ add_agg_sample(je->rate[DDIR_WRITE], DDIR_WRITE, 0);
}
disp_time = mtime_since(&disp_prev_time, &now);
- if (disp_time < 1000)
- return;
- calc_rate(disp_time, io_bytes, disp_io_bytes, rate);
- calc_iops(disp_time, io_iops, disp_io_iops, iops);
+ /*
+ * Allow a little slack, the target is to print it every 1000 msecs
+ */
+ if (!force && disp_time < 900)
+ return 0;
+
+ calc_rate(disp_time, io_bytes, disp_io_bytes, je->rate);
+ calc_iops(disp_time, io_iops, disp_io_iops, je->iops);
memcpy(&disp_prev_time, &now, sizeof(now));
- if (!nr_running && !nr_pending)
- return;
+ if (!force && !je->nr_running && !je->nr_pending)
+ return 0;
+
+ je->nr_threads = thread_number;
+ memcpy(je->run_str, run_str, thread_number * sizeof(char));
+
+ return 1;
+}
+
+void display_thread_status(struct jobs_eta *je)
+{
+ static int linelen_last;
+ static int eta_good;
+ char output[512], *p = output;
+ char eta_str[128];
+ double perc = 0.0;
+ int i2p = 0;
- printf("Jobs: %d (f=%d)", nr_running, files_open);
- if (m_rate || t_rate) {
+ if (je->eta_sec != INT_MAX && je->elapsed_sec) {
+ perc = (double) je->elapsed_sec / (double) (je->elapsed_sec + je->eta_sec);
+ eta_to_str(eta_str, je->eta_sec);
+ }
+
+ p += sprintf(p, "Jobs: %d (f=%d)", je->nr_running, je->files_open);
+ if (je->m_rate || je->t_rate) {
char *tr, *mr;
- mr = num2str(m_rate, 4, 0, i2p);
- tr = num2str(t_rate, 4, 0, i2p);
- printf(", CR=%s/%s KB/s", tr, mr);
+ mr = num2str(je->m_rate, 4, 0, i2p);
+ tr = num2str(je->t_rate, 4, 0, i2p);
+ p += sprintf(p, ", CR=%s/%s KB/s", tr, mr);
free(tr);
free(mr);
- } else if (m_iops || t_iops)
- printf(", CR=%d/%d IOPS", t_iops, m_iops);
- if (eta_sec != INT_MAX && nr_running) {
+ } else if (je->m_iops || je->t_iops)
+ p += sprintf(p, ", CR=%d/%d IOPS", je->t_iops, je->m_iops);
+ if (je->eta_sec != INT_MAX && je->nr_running) {
char perc_str[32];
char *iops_str[2];
char *rate_str[2];
int l;
- if ((!eta_sec && !eta_good) || nr_ramp == nr_running)
+ if ((!je->eta_sec && !eta_good) || je->nr_ramp == je->nr_running)
strcpy(perc_str, "-.-% done");
else {
eta_good = 1;
sprintf(perc_str, "%3.1f%% done", perc);
}
- rate_str[0] = num2str(rate[0], 5, 10, i2p);
- rate_str[1] = num2str(rate[1], 5, 10, i2p);
+ rate_str[0] = num2str(je->rate[0], 5, 10, i2p);
+ rate_str[1] = num2str(je->rate[1], 5, 10, i2p);
- iops_str[0] = num2str(iops[0], 4, 1, 0);
- iops_str[1] = num2str(iops[1], 4, 1, 0);
+ iops_str[0] = num2str(je->iops[0], 4, 1, 0);
+ iops_str[1] = num2str(je->iops[1], 4, 1, 0);
- l = printf(": [%s] [%s] [%s/%s /s] [%s/%s iops] [eta %s]",
- run_str, perc_str, rate_str[0], rate_str[1],
- iops_str[0], iops_str[1], eta_str);
+ l = sprintf(p, ": [%s] [%s] [%s/%s /s] [%s/%s iops] [eta %s]",
+ je->run_str, perc_str, rate_str[0],
+ rate_str[1], iops_str[0], iops_str[1], eta_str);
+ p += l;
if (l >= 0 && l < linelen_last)
- printf("%*s", linelen_last - l, "");
+ p += sprintf(p, "%*s", linelen_last - l, "");
linelen_last = l;
free(rate_str[0]);
free(iops_str[0]);
free(iops_str[1]);
}
- printf("\r");
+ p += sprintf(p, "\r");
+
+ printf("%s", output);
fflush(stdout);
}
-void print_status_init(int thread_number)
+void print_thread_status(void)
+{
+ struct jobs_eta *je;
+ size_t size;
+
+ if (!thread_number)
+ return;
+
+ size = sizeof(*je) + thread_number * sizeof(char) + 1;
+ je = malloc(size);
+ memset(je, 0, size);
+
+ if (calc_thread_status(je, 0))
+ display_thread_status(je);
+
+ free(je);
+}
+
+void print_status_init(int thr_number)
{
- run_str[thread_number] = 'P';
+ run_str[thr_number] = 'P';
}