Get rid of reopen_files()

[fio.git] / stat.c

#include <stdio.h>
#include <string.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <dirent.h>
#include <libgen.h>
#include <math.h>

#include "fio.h"

static struct itimerval itimer;
static struct list_head disk_list = LIST_HEAD_INIT(disk_list);
static dev_t last_dev;

/*
 * Cheesy number->string conversion, complete with carry rounding error.
 */
static char *num2str(unsigned long num, int maxlen, int base)
{
        /*
         * could be passed in for 10^3 base, but every caller expects
         * 2^10 base right now.
         */
        const unsigned int thousand = 1024;
        char postfix[] = { 'K', 'M', 'G', 'P', 'E' };
        char *buf;
        int i;

        buf = malloc(128);

        for (i = 0; base > 1; i++)
                base /= thousand;

        do {
                int len, carry = 0;

                len = sprintf(buf, "%'lu", num);
                if (len <= maxlen) {
                        buf[len] = postfix[i];
                        buf[len + 1] = '\0';
                        return buf;
                }

                if ((num % thousand) >= (thousand / 2))
                        carry = 1;

                num /= thousand;
                num += carry;
                i++;
        } while (i <= 5);

        return buf;
}

static int get_io_ticks(struct disk_util *du, struct disk_util_stat *dus)
{
        unsigned in_flight;
        char line[256];
        FILE *f;
        char *p;

        f = fopen(du->path, "r");
        if (!f)
                return 1;

        p = fgets(line, sizeof(line), f);
        if (!p) {
                fclose(f);
                return 1;
        }

        if (sscanf(p, "%u %u %llu %u %u %u %llu %u %u %u %u\n", &dus->ios[0], &dus->merges[0], &dus->sectors[0], &dus->ticks[0], &dus->ios[1], &dus->merges[1], &dus->sectors[1], &dus->ticks[1], &in_flight, &dus->io_ticks, &dus->time_in_queue) != 11) {
                fclose(f);
                return 1;
        }

        fclose(f);
        return 0;
}

static void update_io_tick_disk(struct disk_util *du)
{
        struct disk_util_stat __dus, *dus, *ldus;
        struct timeval t;

        if (get_io_ticks(du, &__dus))
                return;

        dus = &du->dus;
        ldus = &du->last_dus;

        dus->sectors[0] += (__dus.sectors[0] - ldus->sectors[0]);
        dus->sectors[1] += (__dus.sectors[1] - ldus->sectors[1]);
        dus->ios[0] += (__dus.ios[0] - ldus->ios[0]);
        dus->ios[1] += (__dus.ios[1] - ldus->ios[1]);
        dus->merges[0] += (__dus.merges[0] - ldus->merges[0]);
        dus->merges[1] += (__dus.merges[1] - ldus->merges[1]);
        dus->ticks[0] += (__dus.ticks[0] - ldus->ticks[0]);
        dus->ticks[1] += (__dus.ticks[1] - ldus->ticks[1]);
        dus->io_ticks += (__dus.io_ticks - ldus->io_ticks);
        dus->time_in_queue += (__dus.time_in_queue - ldus->time_in_queue);

        fio_gettime(&t, NULL);
        du->msec += mtime_since(&du->time, &t);
        memcpy(&du->time, &t, sizeof(t));
        memcpy(ldus, &__dus, sizeof(__dus));
}

void update_io_ticks(void)
{
        struct list_head *entry;
        struct disk_util *du;

        list_for_each(entry, &disk_list) {
                du = list_entry(entry, struct disk_util, list);
                update_io_tick_disk(du);
        }
}

static int disk_util_exists(dev_t dev)
{
        struct list_head *entry;
        struct disk_util *du;

        list_for_each(entry, &disk_list) {
                du = list_entry(entry, struct disk_util, list);

                if (du->dev == dev)
                        return 1;
        }

        return 0;
}

static void disk_util_add(dev_t dev, char *path)
{
        struct disk_util *du, *__du;
        struct list_head *entry;

        du = malloc(sizeof(*du));
        memset(du, 0, sizeof(*du));
        INIT_LIST_HEAD(&du->list);
        sprintf(du->path, "%s/stat", path);
        du->name = strdup(basename(path));
        du->dev = dev;

        list_for_each(entry, &disk_list) {
                __du = list_entry(entry, struct disk_util, list);

                if (!strcmp(du->name, __du->name)) {
                        free(du->name);
                        free(du);
                        return;
                }
        }

        fio_gettime(&du->time, NULL);
        get_io_ticks(du, &du->last_dus);

        list_add_tail(&du->list, &disk_list);
}

static int check_dev_match(dev_t dev, char *path)
{
        unsigned int major, minor;
        char line[256], *p;
        FILE *f;

        f = fopen(path, "r");
        if (!f) {
                perror("open path");
                return 1;
        }

        p = fgets(line, sizeof(line), f);
        if (!p) {
                fclose(f);
                return 1;
        }

        if (sscanf(p, "%u:%u", &major, &minor) != 2) {
                fclose(f);
                return 1;
        }

        if (((major << 8) | minor) == dev) {
                fclose(f);
                return 0;
        }

        fclose(f);
        return 1;
}

static int find_block_dir(dev_t dev, char *path)
{
        struct dirent *dir;
        struct stat st;
        int found = 0;
        DIR *D;

        D = opendir(path);
        if (!D)
                return 0;

        while ((dir = readdir(D)) != NULL) {
                char full_path[256];

                if (!strcmp(dir->d_name, ".") || !strcmp(dir->d_name, ".."))
                        continue;

                sprintf(full_path, "%s/%s", path, dir->d_name);

                if (!strcmp(dir->d_name, "dev")) {
                        if (!check_dev_match(dev, full_path)) {
                                found = 1;
                                break;
                        }
                }

                if (lstat(full_path, &st) == -1) {
                        perror("stat");
                        break;
                }

                if (!S_ISDIR(st.st_mode) || S_ISLNK(st.st_mode))
                        continue;

                found = find_block_dir(dev, full_path);
                if (found) {
                        strcpy(path, full_path);
                        break;
                }
        }

        closedir(D);
        return found;
}

void init_disk_util(struct thread_data *td)
{
        struct fio_file *f;
        struct stat st;
        char foo[PATH_MAX], tmp[PATH_MAX];
        dev_t dev;
        char *p;

        if (!td->do_disk_util || (td->io_ops->flags & FIO_DISKLESSIO))
                return;

        /*
         * Just use the same file, they are on the same device.
         */
        f = &td->files[0];
        if (!stat(f->file_name, &st)) {
                if (S_ISBLK(st.st_mode))
                        dev = st.st_rdev;
                else
                        dev = st.st_dev;
        } else {
                /*
                 * must be a file, open "." in that path
                 */
                strncpy(foo, f->file_name, PATH_MAX - 1);
                p = dirname(foo);
                if (stat(p, &st)) {
                        perror("disk util stat");
                        return;
                }

                dev = st.st_dev;
        }

        if (disk_util_exists(dev))
                return;

        /*
         * for an fs without a device, we will repeatedly stat through
         * sysfs which can take oodles of time for thousands of files. so
         * cache the last lookup and compare with that before going through
         * everything again.
         */
        if (dev == last_dev)
                return;

        last_dev = dev;
                
        sprintf(foo, "/sys/block");
        if (!find_block_dir(dev, foo))
                return;

        /*
         * If there's a ../queue/ directory there, we are inside a partition.
         * Check if that is the case and jump back. For loop/md/dm etc we
         * are already in the right spot.
         */
        sprintf(tmp, "%s/../queue", foo);
        if (!stat(tmp, &st)) {
                p = dirname(foo);
                sprintf(tmp, "%s/queue", p);
                if (stat(tmp, &st)) {
                        log_err("unknown sysfs layout\n");
                        return;
                }
                strncpy(tmp, p, PATH_MAX - 1);
                sprintf(foo, "%s", tmp);
        }

        if (td->ioscheduler)
                td->sysfs_root = strdup(foo);

        disk_util_add(dev, foo);
}

void disk_util_timer_arm(void)
{
        itimer.it_value.tv_sec = 0;
        itimer.it_value.tv_usec = DISK_UTIL_MSEC * 1000;
        setitimer(ITIMER_REAL, &itimer, NULL);
}

void update_rusage_stat(struct thread_data *td)
{
        struct thread_stat *ts = &td->ts;

        getrusage(RUSAGE_SELF, &ts->ru_end);

        ts->usr_time += mtime_since(&ts->ru_start.ru_utime, &ts->ru_end.ru_utime);
        ts->sys_time += mtime_since(&ts->ru_start.ru_stime, &ts->ru_end.ru_stime);
        ts->ctx += ts->ru_end.ru_nvcsw + ts->ru_end.ru_nivcsw - (ts->ru_start.ru_nvcsw + ts->ru_start.ru_nivcsw);
        
        memcpy(&ts->ru_start, &ts->ru_end, sizeof(ts->ru_end));
}

static int calc_lat(struct io_stat *is, unsigned long *min, unsigned long *max,
                    double *mean, double *dev)
{
        double n = is->samples;

        if (is->samples == 0)
                return 0;

        *min = is->min_val;
        *max = is->max_val;

        n = (double) is->samples;
        *mean = is->mean;

        if (n > 1.0)
                *dev = sqrt(is->S / (n - 1.0));
        else
                *dev = -1.0;

        return 1;
}

static void show_group_stats(struct group_run_stats *rs, int id)
{
        char *p1, *p2, *p3, *p4;
        const char *ddir_str[] = { "   READ", "  WRITE" };
        int i;

        fprintf(f_out, "\nRun status group %d (all jobs):\n", id);

        for (i = 0; i <= DDIR_WRITE; i++) {
                if (!rs->max_run[i])
                        continue;

                p1 = num2str(rs->io_kb[i], 6, 1);
                p2 = num2str(rs->agg[i], 6, 1);
                p3 = num2str(rs->min_bw[i], 6, 1);
                p4 = num2str(rs->max_bw[i], 6, 1);

                fprintf(f_out, "%s: io=%siB, aggrb=%siB/s, minb=%siB/s, maxb=%siB/s, mint=%llumsec, maxt=%llumsec\n", ddir_str[i], p1, p2, p3, p4, rs->min_run[0], rs->max_run[0]);

                free(p1);
                free(p2);
                free(p3);
                free(p4);
        }
}

static void show_disk_util(void)
{
        struct disk_util_stat *dus;
        struct list_head *entry, *next;
        struct disk_util *du;
        double util;

        fprintf(f_out, "\nDisk stats (read/write):\n");

        list_for_each(entry, &disk_list) {
                du = list_entry(entry, struct disk_util, list);
                dus = &du->dus;

                util = (double) 100 * du->dus.io_ticks / (double) du->msec;
                if (util > 100.0)
                        util = 100.0;

                fprintf(f_out, "  %s: ios=%u/%u, merge=%u/%u, ticks=%u/%u, in_queue=%u, util=%3.2f%%\n", du->name, dus->ios[0], dus->ios[1], dus->merges[0], dus->merges[1], dus->ticks[0], dus->ticks[1], dus->time_in_queue, util);
        }

        /*
         * now free the list
         */
        list_for_each_safe(entry, next, &disk_list) {
                list_del(entry);
                du = list_entry(entry, struct disk_util, list);
                free(du->name);
                free(du);
        }
}

static void stat_calc_dist(struct thread_stat *ts, double *io_u_dist)
{
        int i;

        /*
         * Do depth distribution calculations
         */
        for (i = 0; i < FIO_IO_U_MAP_NR; i++) {
                io_u_dist[i] = (double) ts->io_u_map[i] / (double) ts->total_io_u;
                io_u_dist[i] *= 100.0;
        }
}

static void stat_calc_lat(struct thread_stat *ts, double *io_u_lat)
{
        int i;

        /*
         * Do latency distribution calculations
         */
        for (i = 0; i < FIO_IO_U_LAT_NR; i++) {
                io_u_lat[i] = (double) ts->io_u_lat[i] / (double) ts->total_io_u;
                io_u_lat[i] *= 100.0;
        }
}

static void show_ddir_status(struct group_run_stats *rs, struct thread_stat *ts,
                             int ddir)
{
        const char *ddir_str[] = { "read ", "write" };
        unsigned long min, max;
        unsigned long long bw;
        double mean, dev;
        char *io_p, *bw_p;

        if (!ts->runtime[ddir])
                return;

        bw = ts->io_bytes[ddir] / ts->runtime[ddir];
        io_p = num2str(ts->io_bytes[ddir] >> 10, 6, 1);
        bw_p = num2str(bw, 6, 1);

        fprintf(f_out, "  %s: io=%siB, bw=%siB/s, runt=%6lumsec\n", ddir_str[ddir], io_p, bw_p, ts->runtime[ddir]);

        free(io_p);
        free(bw_p);

        if (calc_lat(&ts->slat_stat[ddir], &min, &max, &mean, &dev))
                fprintf(f_out, "    slat (msec): min=%5lu, max=%5lu, avg=%5.02f, stdev=%5.02f\n", min, max, mean, dev);

        if (calc_lat(&ts->clat_stat[ddir], &min, &max, &mean, &dev))
                fprintf(f_out, "    clat (msec): min=%5lu, max=%5lu, avg=%5.02f, stdev=%5.02f\n", min, max, mean, dev);

        if (calc_lat(&ts->bw_stat[ddir], &min, &max, &mean, &dev)) {
                double p_of_agg;

                p_of_agg = mean * 100 / (double) rs->agg[ddir];
                fprintf(f_out, "    bw (KiB/s) : min=%5lu, max=%5lu, per=%3.2f%%, avg=%5.02f, stdev=%5.02f\n", min, max, p_of_agg, mean, dev);
        }
}

static void show_thread_status(struct thread_stat *ts,
                               struct group_run_stats *rs)
{
        double usr_cpu, sys_cpu;
        unsigned long runtime;
        double io_u_dist[FIO_IO_U_MAP_NR];
        double io_u_lat[FIO_IO_U_LAT_NR];

        if (!(ts->io_bytes[0] + ts->io_bytes[1]))
                return;

        if (!ts->error)
                fprintf(f_out, "%s: (groupid=%d, jobs=%d): err=%2d: pid=%d\n", ts->name, ts->groupid, ts->members, ts->error, ts->pid);
        else
                fprintf(f_out, "%s: (groupid=%d, jobs=%d): err=%2d (%s): pid=%d\n", ts->name, ts->groupid, ts->members, ts->error, ts->verror, ts->pid);

        if (ts->description)
                fprintf(f_out, "  Description  : [%s]\n", ts->description);

        if (ts->io_bytes[DDIR_READ])
                show_ddir_status(rs, ts, DDIR_READ);
        if (ts->io_bytes[DDIR_WRITE])
                show_ddir_status(rs, ts, DDIR_WRITE);

        runtime = ts->total_run_time;
        if (runtime) {
                double runt = (double) runtime;

                usr_cpu = (double) ts->usr_time * 100 / runt;
                sys_cpu = (double) ts->sys_time * 100 / runt;
        } else {
                usr_cpu = 0;
                sys_cpu = 0;
        }

        fprintf(f_out, "  cpu          : usr=%3.2f%%, sys=%3.2f%%, ctx=%lu\n", usr_cpu, sys_cpu, ts->ctx);

        stat_calc_dist(ts, io_u_dist);
        stat_calc_lat(ts, io_u_lat);

        fprintf(f_out, "  IO depths    : 1=%3.1f%%, 2=%3.1f%%, 4=%3.1f%%, 8=%3.1f%%, 16=%3.1f%%, 32=%3.1f%%, >=64=%3.1f%%\n", io_u_dist[0], io_u_dist[1], io_u_dist[2], io_u_dist[3], io_u_dist[4], io_u_dist[5], io_u_dist[6]);

        fprintf(f_out, "     lat (msec): 2=%3.1f%%, 4=%3.1f%%, 10=%3.1f%%, 20=%3.1f%%, 50=%3.1f%%, 100=%3.1f%%\n", io_u_lat[0], io_u_lat[1], io_u_lat[2], io_u_lat[3], io_u_lat[4], io_u_lat[5]);
        fprintf(f_out, "     lat (msec): 250=%3.1f%%, 500=%3.1f%%, 750=%3.1f%%, 1000=%3.1f%%, >=2000=%3.1f%%\n", io_u_lat[6], io_u_lat[7], io_u_lat[8], io_u_lat[9], io_u_lat[10]);
}

static void show_ddir_status_terse(struct thread_stat *ts,
                                   struct group_run_stats *rs, int ddir)
{
        unsigned long min, max;
        unsigned long long bw;
        double mean, dev;

        bw = 0;
        if (ts->runtime[ddir])
                bw = ts->io_bytes[ddir] / ts->runtime[ddir];

        fprintf(f_out, ";%llu;%llu;%lu", ts->io_bytes[ddir] >> 10, bw, ts->runtime[ddir]);

        if (calc_lat(&ts->slat_stat[ddir], &min, &max, &mean, &dev))
                fprintf(f_out, ";%lu;%lu;%f;%f", min, max, mean, dev);
        else
                fprintf(f_out, ";%lu;%lu;%f;%f", 0UL, 0UL, 0.0, 0.0);

        if (calc_lat(&ts->clat_stat[ddir], &min, &max, &mean, &dev))
                fprintf(f_out, ";%lu;%lu;%f;%f", min, max, mean, dev);
        else
                fprintf(f_out, ";%lu;%lu;%f;%f", 0UL, 0UL, 0.0, 0.0);

        if (calc_lat(&ts->bw_stat[ddir], &min, &max, &mean, &dev)) {
                double p_of_agg;

                p_of_agg = mean * 100 / (double) rs->agg[ddir];
                fprintf(f_out, ";%lu;%lu;%f%%;%f;%f", min, max, p_of_agg, mean, dev);
        } else
                fprintf(f_out, ";%lu;%lu;%f%%;%f;%f", 0UL, 0UL, 0.0, 0.0, 0.0);
}


static void show_thread_status_terse(struct thread_stat *ts,
                                     struct group_run_stats *rs)
{
        double io_u_dist[FIO_IO_U_MAP_NR];
        double io_u_lat[FIO_IO_U_LAT_NR];
        double usr_cpu, sys_cpu;

        fprintf(f_out, "%s;%d;%d", ts->name, ts->groupid, ts->error);

        show_ddir_status_terse(ts, rs, 0);
        show_ddir_status_terse(ts, rs, 1);

        if (ts->total_run_time) {
                double runt = (double) ts->total_run_time;

                usr_cpu = (double) ts->usr_time * 100 / runt;
                sys_cpu = (double) ts->sys_time * 100 / runt;
        } else {
                usr_cpu = 0;
                sys_cpu = 0;
        }

        fprintf(f_out, ";%f%%;%f%%;%lu", usr_cpu, sys_cpu, ts->ctx);

        stat_calc_dist(ts, io_u_dist);
        stat_calc_lat(ts, io_u_lat);

        fprintf(f_out, ";%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%", io_u_dist[0], io_u_dist[1], io_u_dist[2], io_u_dist[3], io_u_dist[4], io_u_dist[5], io_u_dist[6]);

        fprintf(f_out, ";%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%\n", io_u_lat[0], io_u_lat[1], io_u_lat[2], io_u_lat[3], io_u_lat[4], io_u_lat[5]);
        fprintf(f_out, ";%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%;%3.1f%%", io_u_lat[6], io_u_lat[7], io_u_lat[8], io_u_lat[9], io_u_lat[10]);

        if (ts->description)
                fprintf(f_out, ";%s", ts->description);

        fprintf(f_out, "\n");
}

static void __sum_stat(struct io_stat *dst, struct io_stat *src, int nr)
{
        double mean, S;

        dst->min_val = min(dst->min_val, src->min_val);
        dst->max_val = max(dst->max_val, src->max_val);
        dst->samples += src->samples;

        /*
         * Needs a new method for calculating stddev, we cannot just
         * average them we do below for nr > 1
         */
        if (nr == 1) {
                mean = src->mean;
                S = src->S;
        } else {
                mean = ((src->mean * (double) (nr - 1)) + dst->mean) / ((double) nr);
                S = ((src->S * (double) (nr - 1)) + dst->S) / ((double) nr);
        }

        dst->mean = mean;
        dst->S = S;
}

static void sum_stat(struct io_stat *dst, struct io_stat *src, int nr)
{
        __sum_stat(&dst[DDIR_READ], &src[DDIR_READ], nr);
        __sum_stat(&dst[DDIR_WRITE], &src[DDIR_WRITE], nr);
}

void show_run_stats(void)
{
        struct group_run_stats *runstats, *rs;
        struct thread_data *td;
        struct thread_stat *threadstats, *ts;
        int i, j, k, nr_ts, last_ts, members;

        runstats = malloc(sizeof(struct group_run_stats) * (groupid + 1));

        for (i = 0; i < groupid + 1; i++) {
                rs = &runstats[i];

                memset(rs, 0, sizeof(*rs));
                rs->min_bw[0] = rs->min_run[0] = ~0UL;
                rs->min_bw[1] = rs->min_run[1] = ~0UL;
        }

        /*
         * find out how many threads stats we need. if group reporting isn't
         * enabled, it's one-per-td.
         */
        nr_ts = 0;
        last_ts = -1;
        for_each_td(td, i) {
                if (!td->group_reporting) {
                        nr_ts++;
                        continue;
                }
                if (last_ts == td->groupid)
                        continue;

                last_ts = td->groupid;
                nr_ts++;
        }

        threadstats = malloc(nr_ts * sizeof(struct thread_stat));

        for (i = 0; i < nr_ts; i++) {
                ts = &threadstats[i];

                memset(ts, 0, sizeof(*ts));
                ts->clat_stat[0].min_val = -1UL;
                ts->clat_stat[1].min_val = -1UL;
                ts->slat_stat[0].min_val = -1UL;
                ts->slat_stat[1].min_val = -1UL;
                ts->bw_stat[0].min_val = -1UL;
                ts->bw_stat[1].min_val = -1UL;
        }

        j = 0;
        last_ts = -1;
        members = 0;
        for_each_td(td, i) {
                ts = &threadstats[j];

                members++;
                ts->members++;

                if (!ts->groupid) {
                        /*
                         * These are per-group shared already
                         */
                        ts->name = td->name;
                        ts->description = td->description;
                        ts->groupid = td->groupid;

                        /*
                         * first pid in group, not very useful...
                         */
                        ts->pid = td->pid;
                }

                if (td->error && !ts->error) {
                        ts->error = td->error;
                        ts->verror = td->verror;
                }

                sum_stat(ts->clat_stat, td->ts.clat_stat, members);
                sum_stat(ts->slat_stat, td->ts.slat_stat, members);
                sum_stat(ts->bw_stat, td->ts.bw_stat, members);

                ts->stat_io_bytes[0] += td->ts.stat_io_bytes[0];
                ts->stat_io_bytes[1] += td->ts.stat_io_bytes[1];

                ts->usr_time += td->ts.usr_time;
                ts->sys_time += td->ts.sys_time;
                ts->ctx += td->ts.ctx;

                for (k = 0; k < FIO_IO_U_MAP_NR; k++)
                        ts->io_u_map[k] += td->ts.io_u_map[k];
                for (k = 0; k < FIO_IO_U_LAT_NR; k++)
                        ts->io_u_lat[k] += td->ts.io_u_lat[k];

                ts->total_io_u += td->ts.total_io_u;
                ts->io_bytes[0] += td->ts.io_bytes[0];
                ts->io_bytes[1] += td->ts.io_bytes[1];

                if (ts->runtime[0] < td->ts.runtime[0])
                        ts->runtime[0] = td->ts.runtime[0];
                if (ts->runtime[1] < td->ts.runtime[1])
                        ts->runtime[1] = td->ts.runtime[1];

                ts->total_run_time += td->ts.total_run_time;

                if (!td->group_reporting) {
                        members = 0;
                        j++;
                        continue;
                }
                if (last_ts == td->groupid)
                        continue;

                if (last_ts != -1) {
                        members = 0;
                        j++;
                }

                last_ts = td->groupid;
        }

        for (i = 0; i < nr_ts; i++) {
                unsigned long long rbw, wbw;

                ts = &threadstats[i];
                rs = &runstats[ts->groupid];

                if (ts->runtime[0] < rs->min_run[0] || !rs->min_run[0])
                        rs->min_run[0] = ts->runtime[0];
                if (ts->runtime[0] > rs->max_run[0])
                        rs->max_run[0] = ts->runtime[0];
                if (ts->runtime[1] < rs->min_run[1] || !rs->min_run[1])
                        rs->min_run[1] = ts->runtime[1];
                if (ts->runtime[1] > rs->max_run[1])
                        rs->max_run[1] = ts->runtime[1];

                rbw = wbw = 0;
                if (ts->runtime[0])
                        rbw = ts->io_bytes[0] / (unsigned long long) ts->runtime[0];
                if (ts->runtime[1])
                        wbw = ts->io_bytes[1] / (unsigned long long) ts->runtime[1];

                if (rbw < rs->min_bw[0])
                        rs->min_bw[0] = rbw;
                if (wbw < rs->min_bw[1])
                        rs->min_bw[1] = wbw;
                if (rbw > rs->max_bw[0])
                        rs->max_bw[0] = rbw;
                if (wbw > rs->max_bw[1])
                        rs->max_bw[1] = wbw;

                rs->io_kb[0] += ts->io_bytes[0] >> 10;
                rs->io_kb[1] += ts->io_bytes[1] >> 10;
        }

        for (i = 0; i < groupid + 1; i++) {
                rs = &runstats[i];

                if (rs->max_run[0])
                        rs->agg[0] = (rs->io_kb[0]*1024) / rs->max_run[0];
                if (rs->max_run[1])
                        rs->agg[1] = (rs->io_kb[1]*1024) / rs->max_run[1];
        }

        /*
         * don't overwrite last signal output
         */
        if (!terse_output)
                printf("\n");

        for (i = 0; i < nr_ts; i++) {
                ts = &threadstats[i];
                rs = &runstats[ts->groupid];

                if (terse_output)
                        show_thread_status_terse(ts, rs);
                else
                        show_thread_status(ts, rs);
        }

        if (!terse_output) {
                for (i = 0; i < groupid + 1; i++)
                        show_group_stats(&runstats[i], i);

                show_disk_util();
        }

        free(runstats);
        free(threadstats);
}

static inline void add_stat_sample(struct io_stat *is, unsigned long data)
{
        double val = data;
        double delta;

        if (data > is->max_val)
                is->max_val = data;
        if (data < is->min_val)
                is->min_val = data;

        delta = val - is->mean;
        is->mean += delta / (is->samples + 1.0);
        is->S += delta * (val - is->mean);

        is->samples++;
}

static void __add_log_sample(struct io_log *iolog, unsigned long val,
                             enum fio_ddir ddir, unsigned long time)
{
        if (iolog->nr_samples == iolog->max_samples) {
                int new_size = sizeof(struct io_sample) * iolog->max_samples*2;

                iolog->log = realloc(iolog->log, new_size);
                iolog->max_samples <<= 1;
        }

        iolog->log[iolog->nr_samples].val = val;
        iolog->log[iolog->nr_samples].time = time;
        iolog->log[iolog->nr_samples].ddir = ddir;
        iolog->nr_samples++;
}

static void add_log_sample(struct thread_data *td, struct io_log *iolog,
                           unsigned long val, enum fio_ddir ddir)
{
        __add_log_sample(iolog, val, ddir, mtime_since_now(&td->epoch));
}

void add_agg_sample(unsigned long val, enum fio_ddir ddir)
{
        struct io_log *iolog = agg_io_log[ddir];

        __add_log_sample(iolog, val, ddir, mtime_since_genesis());
}

void add_clat_sample(struct thread_data *td, enum fio_ddir ddir,
                     unsigned long msec)
{
        struct thread_stat *ts = &td->ts;

        add_stat_sample(&ts->clat_stat[ddir], msec);

        if (ts->clat_log)
                add_log_sample(td, ts->clat_log, msec, ddir);
}

void add_slat_sample(struct thread_data *td, enum fio_ddir ddir,
                     unsigned long msec)
{
        struct thread_stat *ts = &td->ts;

        add_stat_sample(&ts->slat_stat[ddir], msec);

        if (ts->slat_log)
                add_log_sample(td, ts->slat_log, msec, ddir);
}

void add_bw_sample(struct thread_data *td, enum fio_ddir ddir,
                   struct timeval *t)
{
        struct thread_stat *ts = &td->ts;
        unsigned long spent = mtime_since(&ts->stat_sample_time[ddir], t);
        unsigned long rate;

        if (spent < td->bw_avg_time)
                return;

        rate = (td->this_io_bytes[ddir] - ts->stat_io_bytes[ddir]) / spent;
        add_stat_sample(&ts->bw_stat[ddir], rate);

        if (ts->bw_log)
                add_log_sample(td, ts->bw_log, rate, ddir);

        fio_gettime(&ts->stat_sample_time[ddir], NULL);
        ts->stat_io_bytes[ddir] = td->this_io_bytes[ddir];
}