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[fio.git] / eta.c

/*
 * Status and ETA code
 */
#include <unistd.h>
#include <fcntl.h>
#include <string.h>

#include "fio.h"

static char run_str[MAX_JOBS + 1];

/*
 * Sets the status of the 'td' in the printed status map.
 */
static void check_str_update(struct thread_data *td)
{
        char c = run_str[td->thread_number - 1];

        switch (td->runstate) {
        case TD_REAPED:
                c = '_';
                break;
        case TD_EXITED:
                c = 'E';
                break;
        case TD_RUNNING:
                if (td_rw(td)) {
                        if (td_random(td))
                                c = 'm';
                        else
                                c = 'M';
                } else if (td_read(td)) {
                        if (td_random(td))
                                c = 'r';
                        else
                                c = 'R';
                } else {
                        if (td_random(td))
                                c = 'w';
                        else
                                c = 'W';
                }
                break;
        case TD_VERIFYING:
                c = 'V';
                break;
        case TD_FSYNCING:
                c = 'F';
                break;
        case TD_CREATED:
                c = 'C';
                break;
        case TD_INITIALIZED:
                c = 'I';
                break;
        case TD_NOT_CREATED:
                c = 'P';
                break;
        default:
                log_err("state %d\n", td->runstate);
        }

        run_str[td->thread_number - 1] = c;
}

/*
 * Convert seconds to a printable string.
 */
static void eta_to_str(char *str, unsigned long eta_sec)
{
        unsigned int d, h, m, s;
        int disp_hour = 0;

        s = eta_sec % 60;
        eta_sec /= 60;
        m = eta_sec % 60;
        eta_sec /= 60;
        h = eta_sec % 24;
        eta_sec /= 24;
        d = eta_sec;

        if (d) {
                disp_hour = 1;
                str += sprintf(str, "%02ud:", d);
        }

        if (h || disp_hour)
                str += sprintf(str, "%02uh:", h);

        str += sprintf(str, "%02um:", m);
        str += sprintf(str, "%02us", s);
}

/*
 * Best effort calculation of the estimated pending runtime of a job.
 */
static int thread_eta(struct thread_data *td, unsigned long elapsed)
{
        unsigned long long bytes_total, bytes_done;
        unsigned long eta_sec = 0;

        bytes_total = td->total_io_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.do_verify && td->o.verify && td_write(td)) {
                if (td_rw(td))
                        bytes_total = bytes_total * 3 / 2;
                else
                        bytes_total <<= 1;
        }

        if (td->o.zone_size && td->o.zone_skip)
                bytes_total /= (td->o.zone_skip / td->o.zone_size);

        if (td->runstate == TD_RUNNING || td->runstate == TD_VERIFYING) {
                double perc, perc_t;

                bytes_done = td->io_bytes[DDIR_READ] + td->io_bytes[DDIR_WRITE];
                perc = (double) bytes_done / (double) bytes_total;
                if (perc > 1.0)
                        perc = 1.0;

                if (td->o.time_based) {
                        perc_t = (double) elapsed / (double) td->o.timeout;
                        if (perc_t < perc)
                                perc = perc_t;
                }

                eta_sec = (unsigned long) (elapsed * (1.0 / perc)) - elapsed;

                if (td->o.timeout &&
                    eta_sec > (td->o.timeout + done_secs - elapsed))
                        eta_sec = td->o.timeout + done_secs - elapsed;
        } else if (td->runstate == TD_NOT_CREATED || td->runstate == TD_CREATED
                        || td->runstate == TD_INITIALIZED) {
                int t_eta = 0, r_eta = 0;

                /*
                 * We can only guess - assume it'll run the full timeout
                 * if given, otherwise assume it'll run at the specified rate.
                 */
                if (td->o.timeout)
                        t_eta = td->o.timeout + td->o.start_delay;
                if (td->o.rate) {
                        r_eta = (bytes_total / 1024) / td->o.rate;
                        r_eta += td->o.start_delay;
                }

                if (r_eta && t_eta)
                        eta_sec = min(r_eta, t_eta);
                else if (r_eta)
                        eta_sec = r_eta;
                else if (t_eta)
                        eta_sec = t_eta;
                else
                        eta_sec = 0;
        } else {
                /*
                 * thread is already done or waiting for fsync
                 */
                eta_sec = 0;
        }

        return eta_sec;
}

static void calc_rate(unsigned long mtime, unsigned long long *io_bytes,
                      unsigned long long *prev_io_bytes, unsigned int *rate)
{
        rate[0] = (io_bytes[0] - prev_io_bytes[0]) / mtime;
        rate[1] = (io_bytes[1] - prev_io_bytes[1]) / mtime;
        prev_io_bytes[0] = io_bytes[0];
        prev_io_bytes[1] = io_bytes[1];
}

/*
 * Print status of the jobs we know about. This includes rate estimates,
 * ETA, thread state, etc.
 */
void print_thread_status(void)
{
        unsigned long elapsed = mtime_since_genesis() / 1000;
        int i, 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];
        unsigned long rate_time, disp_time, bw_avg_time, *eta_secs, eta_sec;
        struct timeval now;

        static unsigned long long rate_io_bytes[2];
        static unsigned long long disp_io_bytes[2];
        static struct timeval rate_prev_time, disp_prev_time;
        static unsigned int rate[2];
        static int linelen_last;
        static int eta_good;

        if (temp_stall_ts || terse_output || eta_print == FIO_ETA_NEVER)
                return;

        if (!isatty(STDOUT_FILENO) && (eta_print != FIO_ETA_ALWAYS))
                return;

        if (!rate_io_bytes[0] && !rate_io_bytes[1])
                fill_start_time(&rate_prev_time);
        if (!disp_io_bytes[0] && !disp_io_bytes[1])
                fill_start_time(&disp_prev_time);

        eta_secs = malloc(thread_number * sizeof(unsigned long));
        memset(eta_secs, 0, thread_number * sizeof(unsigned long));

        io_bytes[0] = io_bytes[1] = 0;
        nr_pending = nr_running = t_rate = m_rate = t_iops = m_iops = 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) {
                        nr_running++;
                        t_rate += td->o.rate;
                        m_rate += td->o.ratemin;
                        t_iops += td->o.rate_iops;
                        m_iops += td->o.rate_iops_min;
                        files_open += td->nr_open_files;
                } else if (td->runstate < TD_RUNNING)
                        nr_pending++;

                if (elapsed >= 3)
                        eta_secs[i] = thread_eta(td, elapsed);
                else
                        eta_secs[i] = INT_MAX;

                check_str_update(td);
                io_bytes[0] += td->io_bytes[0];
                io_bytes[1] += td->io_bytes[1];
        }

        if (exitall_on_terminate)
                eta_sec = INT_MAX;
        else
                eta_sec = 0;

        for_each_td(td, i) {
                if (eta_secs[i] != INT_MAX)
                        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) {
                calc_rate(rate_time, io_bytes, rate_io_bytes, rate);
                memcpy(&rate_prev_time, &now, sizeof(now));
                add_agg_sample(rate[DDIR_READ], DDIR_READ);
                add_agg_sample(rate[DDIR_WRITE], DDIR_WRITE);
        }

        disp_time = mtime_since(&disp_prev_time, &now);
        if (disp_time < 1000)
                return;

        calc_rate(disp_time, io_bytes, disp_io_bytes, rate);
        memcpy(&disp_prev_time, &now, sizeof(now));

        if (!nr_running && !nr_pending)
                return;

        printf("Jobs: %d (f=%d)", nr_running, files_open);
        if (m_rate || t_rate)
                printf(", CR=%d/%d KiB/s", t_rate, m_rate);
        else if (m_iops || t_iops)
                printf(", CR=%d/%d IOPS", t_iops, m_iops);
        if (eta_sec != INT_MAX && nr_running) {
                char perc_str[32];
                int ll;

                if (!eta_sec && !eta_good)
                        strcpy(perc_str, "-.-% done");
                else {
                        eta_good = 1;
                        perc *= 100.0;
                        sprintf(perc_str, "%3.1f%% done", perc);
                }

                ll = printf(": [%s] [%s] [%6u/%6u kb/s] [eta %s]",
                                 run_str, perc_str, rate[0], rate[1], eta_str);
                if (ll >= 0 && ll < linelen_last)
                        printf("%*s", linelen_last - ll, "");
                linelen_last = ll;
        }
        printf("\r");
        fflush(stdout);
}

void print_status_init(int thread_number)
{
        run_str[thread_number] = 'P';
}