/* * blktrace output analysis: generate a timeline & gather statistics * * Copyright (C) 2006 Alan D. Brunelle * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include #include "globals.h" typedef struct avg_info *ai_dip_t; ai_dip_t dip_q2q_dm_avg(struct d_info *dip) { return &dip->avgs.q2q_dm; } ai_dip_t dip_q2a_dm_avg(struct d_info *dip) { return &dip->avgs.q2a_dm; } ai_dip_t dip_q2c_dm_avg(struct d_info *dip) { return &dip->avgs.q2c_dm; } ai_dip_t dip_q2q_avg(struct d_info *dip) { return &dip->avgs.q2q; } ai_dip_t dip_q2c_avg(struct d_info *dip) { return &dip->avgs.q2c; } ai_dip_t dip_q2a_avg(struct d_info *dip) { return &dip->avgs.q2a; } ai_dip_t dip_q2g_avg(struct d_info *dip) { return &dip->avgs.q2g; } ai_dip_t dip_s2g_avg(struct d_info *dip) { return &dip->avgs.s2g; } ai_dip_t dip_g2i_avg(struct d_info *dip) { return &dip->avgs.g2i; } ai_dip_t dip_q2m_avg(struct d_info *dip) { return &dip->avgs.q2m; } ai_dip_t dip_i2d_avg(struct d_info *dip) { return &dip->avgs.i2d; } ai_dip_t dip_d2c_avg(struct d_info *dip) { return &dip->avgs.d2c; } typedef struct avg_info *ai_pip_t; ai_pip_t pip_q2q_dm_avg(struct p_info *pip) { return &pip->avgs.q2q_dm; } ai_pip_t pip_q2a_dm_avg(struct p_info *pip) { return &pip->avgs.q2a_dm; } ai_pip_t pip_q2c_dm_avg(struct p_info *pip) { return &pip->avgs.q2c_dm; } ai_pip_t pip_q2q_avg(struct p_info *pip) { return &pip->avgs.q2q; } ai_pip_t pip_q2c_avg(struct p_info *pip) { return &pip->avgs.q2c; } ai_pip_t pip_q2a_avg(struct p_info *pip) { return &pip->avgs.q2a; } ai_pip_t pip_q2g_avg(struct p_info *pip) { return &pip->avgs.q2g; } ai_pip_t pip_s2g_avg(struct p_info *pip) { return &pip->avgs.s2g; } ai_pip_t pip_g2i_avg(struct p_info *pip) { return &pip->avgs.g2i; } ai_pip_t pip_q2m_avg(struct p_info *pip) { return &pip->avgs.q2m; } ai_pip_t pip_i2d_avg(struct p_info *pip) { return &pip->avgs.i2d; } ai_pip_t pip_d2c_avg(struct p_info *pip) { return &pip->avgs.d2c; } void output_section_hdr(FILE *ofp, char *hdr) { fprintf(ofp, "==================== "); fprintf(ofp, "%s", hdr); fprintf(ofp, " ====================\n\n"); } void output_hdr(FILE *ofp, char *hdr) { fprintf(ofp, "%15s %13s %13s %13s %11s\n", hdr, "MIN", "AVG", "MAX", "N" ); fprintf(ofp, "--------------- ------------- ------------- ------------- -----------\n"); } void __output_avg(FILE *ofp, char *hdr, struct avg_info *ap, int do_easy) { if (ap->n > 0) { ap->avg = BIT_TIME(ap->total) / (double)ap->n; fprintf(ofp, "%-15s %13.9f %13.9f %13.9f %11d\n", hdr, BIT_TIME(ap->min), ap->avg, BIT_TIME(ap->max), ap->n); if (do_easy && easy_parse_avgs) { fprintf(xavgs_ofp, "%s %.9lf %.9lf %.9lf %d\n", hdr, BIT_TIME(ap->min), ap->avg, BIT_TIME(ap->max), ap->n); } } } static inline char *avg2string(struct avg_info *ap, char *string) { if (ap->n > 0) sprintf(string, "%13.9f", ap->avg); else sprintf(string, " "); return string; } struct __oda { FILE *ofp; ai_dip_t (*func)(struct d_info *); }; void __output_dip_avg(struct d_info *dip, void *arg) { struct __oda *odap = arg; ai_dip_t ap = odap->func(dip); if (ap->n > 0) { char dev_info[15]; ap->avg = BIT_TIME(ap->total) / (double)ap->n; __output_avg(odap->ofp, make_dev_hdr(dev_info, 15, dip, 1), ap, 0); } } void output_dip_avg(FILE *ofp, char *hdr, ai_dip_t (*func)(struct d_info *)) { struct __oda oda = { .ofp = ofp, .func = func}; output_hdr(ofp, hdr); dip_foreach_out(__output_dip_avg, &oda); fprintf(ofp, "\n"); } struct __q2d { FILE *ofp; void *q2d_all; int n; }; void __output_q2d_histo(struct d_info *dip, void *arg) { struct __q2d *q2dp = arg; if (q2d_ok(dip->q2d_priv)) { char dev_info[15]; FILE *ofp = q2dp->ofp; fprintf(q2dp->ofp, "%10s | ", make_dev_hdr(dev_info, 15, dip, 1)); q2d_display(ofp, dip->q2d_priv); q2d_acc(q2dp->q2d_all, dip->q2d_priv); q2dp->n++; } } void output_q2d_histo(FILE *ofp) { struct __q2d __q2d = { .ofp = ofp, .q2d_all = q2d_alloc(), .n = 0 }; fprintf(ofp, "%10s | ", "DEV"); q2d_display_header(ofp); fprintf(ofp, "--------- | "); q2d_display_dashes(ofp); dip_foreach_out(__output_q2d_histo, &__q2d); if (__q2d.n) { fprintf(ofp, "========== | "); q2d_display_dashes(ofp); fprintf(ofp, "%10s | ", "AVG"); q2d_display(ofp, __q2d.q2d_all); fprintf(ofp, "\n"); } q2d_free(__q2d.q2d_all); } int n_merges = 0; struct { unsigned long long nq, nd, blkmin, blkmax, total; } merge_data; void __output_dip_merge_ratio(struct d_info *dip, void *arg) { double blks_avg; char dev_info[15]; double ratio, q2c_n, d2c_n; if (dip->n_qs == 0 || dip->n_ds == 0) return; else if (dip->n_qs < dip->n_ds) dip->n_qs = dip->n_ds; q2c_n = dip->n_qs; d2c_n = dip->n_ds; if (q2c_n > 0.0 && d2c_n > 0.0) { if (q2c_n < d2c_n) ratio = 1.0; else ratio = q2c_n / d2c_n; blks_avg = (double)dip->avgs.blks.total / d2c_n; fprintf((FILE *)arg, "%10s | %8llu %8llu %7.1lf | %8llu %8llu %8llu %8llu\n", make_dev_hdr(dev_info, 15, dip, 1), (unsigned long long)dip->n_qs, (unsigned long long)dip->n_ds, ratio, (unsigned long long)dip->avgs.blks.min, (unsigned long long)blks_avg, (unsigned long long)dip->avgs.blks.max, (unsigned long long)dip->avgs.blks.total); if (easy_parse_avgs) { fprintf(xavgs_ofp, "DMI %s %llu %llu %.9lf %llu %llu %llu %llu\n", make_dev_hdr(dev_info, 15, dip, 0), (unsigned long long)dip->n_qs, (unsigned long long)dip->n_ds, ratio, (unsigned long long)dip->avgs.blks.min, (unsigned long long)blks_avg, (unsigned long long)dip->avgs.blks.max, (unsigned long long)dip->avgs.blks.total); } if (n_merges++ == 0) { merge_data.blkmin = dip->avgs.blks.min; merge_data.blkmax = dip->avgs.blks.max; } merge_data.nq += dip->n_qs; merge_data.nd += dip->n_ds; merge_data.total += dip->avgs.blks.total; if (dip->avgs.blks.min < merge_data.blkmin) merge_data.blkmin = dip->avgs.blks.min; if (dip->avgs.blks.max > merge_data.blkmax) merge_data.blkmax = dip->avgs.blks.max; } } void output_dip_merge_ratio(FILE *ofp) { fprintf(ofp, "%10s | %8s %8s %7s | %8s %8s %8s %8s\n", "DEV", "#Q", "#D", "Ratio", "BLKmin", "BLKavg", "BLKmax", "Total"); fprintf(ofp, "---------- | -------- -------- ------- | -------- -------- -------- --------\n"); dip_foreach_out(__output_dip_merge_ratio, ofp); if (n_merges > 1) { fprintf(ofp, "---------- | -------- -------- ------- | -------- -------- -------- --------\n"); fprintf(ofp, "%10s | %8s %8s %7s | %8s %8s %8s %8s\n", "DEV", "#Q", "#D", "Ratio", "BLKmin", "BLKavg", "BLKmax", "Total"); fprintf((FILE *)ofp, "%10s | %8llu %8llu %7.1lf | %8llu %8llu %8llu %8llu\n", "TOTAL", merge_data.nq, merge_data.nd, (float)merge_data.nq / (float)merge_data.nd, merge_data.blkmin, merge_data.total / merge_data.nd, merge_data.blkmax, merge_data.total); } fprintf(ofp, "\n"); } struct __ohead_data { __u64 total; int n; }; struct ohead_data { FILE *ofp; struct __ohead_data q2g, g2i, q2m, i2d, d2c, q2c; }; #define __update_odp(odp, dip, fld) \ do { \ (odp)-> fld .total += dip->avgs. fld . total; \ (odp)-> fld .n += dip->avgs. fld . n; \ } while (0) void __output_dip_prep_ohead(struct d_info *dip, void *arg) { if (dip->avgs.q2c.n > 0 && dip->avgs.q2c.total > 0) { char dev_info[15]; struct ohead_data *odp = arg; double q2c_total = (double)(dip->avgs.q2c.total); fprintf(odp->ofp, "%10s | %8.4lf%% %8.4lf%% %8.4lf%% %8.4lf%% %8.4lf%%\n", make_dev_hdr(dev_info, 15, dip, 1), 100.0 * (double)(dip->avgs.q2g.total) / q2c_total, 100.0 * (double)(dip->avgs.g2i.total) / q2c_total, 100.0 * (double)(dip->avgs.q2m.total) / q2c_total, 100.0 * (double)(dip->avgs.i2d.total) / q2c_total, 100.0 * (double)(dip->avgs.d2c.total) / q2c_total); __update_odp(odp, dip, q2g); __update_odp(odp, dip, g2i); __update_odp(odp, dip, q2m); __update_odp(odp, dip, i2d); __update_odp(odp, dip, d2c); __update_odp(odp, dip, q2c); } } #define OD_AVG(od, fld, q2c) \ (od. fld .n == 0) ? (double)0.0 : \ (100.0 * ((double)((od). fld . total) / q2c)) void output_dip_prep_ohead(FILE *ofp) { double q2c; struct ohead_data od; memset(&od, 0, sizeof(od)); od.ofp = ofp; fprintf(ofp, "%10s | %9s %9s %9s %9s %9s\n", "DEV", "Q2G", "G2I", "Q2M", "I2D", "D2C"); fprintf(ofp, "---------- | --------- --------- --------- --------- ---------\n"); dip_foreach_out(__output_dip_prep_ohead, &od); if (od.q2g.n == 0 && od.g2i.n == 0 && od.q2m.n == 0 && od.i2d.n == 0 && od.d2c.n == 0) goto out; q2c = od.q2c.total; fprintf(ofp, "---------- | --------- --------- --------- --------- ---------\n"); fprintf(ofp, "%10s | %8.4lf%% %8.4lf%% %8.4lf%% %8.4lf%% %8.4lf%%\n", "Overall", OD_AVG(od, q2g, q2c), OD_AVG(od, g2i, q2c), OD_AVG(od, q2m, q2c), OD_AVG(od, i2d, q2c), OD_AVG(od, d2c, q2c)); out: fprintf(ofp, "\n"); } struct seek_mode_info { struct seek_mode_info *next; long long mode; int nseeks; }; struct o_seek_info { long long nseeks, median; double mean; struct seek_mode_info *head; } seek_info; int n_seeks; void output_seek_mode_info(FILE *ofp, struct o_seek_info *sip) { struct seek_mode_info *p, *this, *new_list = NULL; while ((this = sip->head) != NULL) { sip->head = this->next; this->next = NULL; if (new_list == NULL || this->nseeks > new_list->nseeks) new_list = this; else if (this->nseeks == new_list->nseeks) { for (p = new_list; p != NULL; p = p->next) if (p->mode == this->mode) break; if (p) this->nseeks += p->nseeks; else this->next = new_list; new_list = this; } } fprintf(ofp, "%10s | %15lld %15.1lf %15lld | %lld(%d)", "Average", sip->nseeks, sip->mean / sip->nseeks, sip->median / sip->nseeks, new_list->mode, new_list->nseeks); if (new_list->next) { int i = 0; for (p = new_list->next; p != NULL; p = p->next) i++; fprintf(ofp, "\n%10s %15s %15s %15s ...(%d more)\n", "", "", "", "", i); } } void add_seek_mode_info(struct o_seek_info *sip, struct mode *mp) { int i; long long *lp = mp->modes; struct seek_mode_info *smip; n_seeks++; for (i = 0; i < mp->nmds; i++, lp++) { for (smip = sip->head; smip; smip = smip->next) { if (smip->mode == *lp) { smip->nseeks += mp->most_seeks; break; } } if (!smip) { struct seek_mode_info *new = malloc(sizeof(*new)); new->next = sip->head; sip->head = new; new->mode = *lp; new->nseeks = mp->most_seeks; add_buf(new); } } } static void do_output_dip_seek_info(struct d_info *dip, FILE *ofp, int is_q2q) { double mean; int i, nmodes; long long nseeks; char dev_info[15]; long long median; struct mode m; void *handle = is_q2q ? dip->q2q_handle : dip->seek_handle; nseeks = seeki_nseeks(handle); if (nseeks > 0) { mean = seeki_mean(handle); median = seeki_median(handle); nmodes = seeki_mode(handle, &m); fprintf(ofp, "%10s | %15lld %15.1lf %15lld | %lld(%d)", make_dev_hdr(dev_info, 15, dip, 1), nseeks, mean, median, nmodes > 0 ? m.modes[0] : 0, m.most_seeks); if (nmodes > 2) fprintf(ofp, "\n%10s %15s %15s %15s ...(%d more)\n", "", "", "", "", nmodes-1); else { for (i = 1; i < nmodes; i++) fprintf(ofp, " %lld", m.modes[i]); fprintf(ofp, "\n"); } if (easy_parse_avgs) { char *rec = is_q2q ? "QSK" : "DSK"; fprintf(xavgs_ofp, "%s %s %lld %.9lf %lld %lld %d", rec, make_dev_hdr(dev_info, 15, dip, 0), nseeks, mean, median, nmodes > 0 ? m.modes[0] : 0, m.most_seeks); for (i = 1; i < nmodes; i++) fprintf(xavgs_ofp, " %lld", m.modes[i]); fprintf(xavgs_ofp, "\n"); } seek_info.nseeks += nseeks; seek_info.mean += (nseeks * mean); seek_info.median += (nseeks * median); add_seek_mode_info(&seek_info, &m); free(m.modes); } } void __output_dip_seek_info(struct d_info *dip, void *arg) { do_output_dip_seek_info(dip, (FILE *)arg, 0); } void __output_dip_q2q_seek_info(struct d_info *dip, void *arg) { do_output_dip_seek_info(dip, (FILE *)arg, 1); } void output_dip_seek_info(FILE *ofp) { n_seeks = 1; memset(&seek_info, 0, sizeof(seek_info)); fprintf(ofp, "%10s | %15s %15s %15s | %-15s\n", "DEV", "NSEEKS", "MEAN", "MEDIAN", "MODE"); fprintf(ofp, "---------- | --------------- --------------- --------------- | ---------------\n"); dip_foreach_out(__output_dip_seek_info, ofp); if (n_seeks > 1) { fprintf(ofp, "---------- | --------------- --------------- --------------- | ---------------\n"); fprintf(ofp, "%10s | %15s %15s %15s | %-15s\n", "Overall", "NSEEKS", "MEAN", "MEDIAN", "MODE"); output_seek_mode_info(ofp, &seek_info); fprintf(ofp, "\n"); } fprintf(ofp, "\n"); } void output_dip_q2q_seek_info(FILE *ofp) { n_seeks = 1; memset(&seek_info, 0, sizeof(seek_info)); fprintf(ofp, "%10s | %15s %15s %15s | %-15s\n", "DEV", "NSEEKS", "MEAN", "MEDIAN", "MODE"); fprintf(ofp, "---------- | --------------- --------------- --------------- | ---------------\n"); dip_foreach_out(__output_dip_q2q_seek_info, ofp); if (n_seeks > 1) { fprintf(ofp, "---------- | --------------- --------------- --------------- | ---------------\n"); fprintf(ofp, "%10s | %15s %15s %15s | %-15s\n", "Overall", "NSEEKS", "MEAN", "MEDIAN", "MODE"); output_seek_mode_info(ofp, &seek_info); fprintf(ofp, "\n"); } fprintf(ofp, "\n"); } struct __opa { FILE *ofp; ai_pip_t (*func)(struct p_info *); }; void __output_pip_avg(struct p_info *pip, void *arg) { struct __opa *opap = arg; ai_pip_t ap = opap->func(pip); if (ap->n > 0) { char proc_name[15]; snprintf(proc_name, 15, "%s", pip->name); ap->avg = BIT_TIME(ap->total) / (double)ap->n; __output_avg(opap->ofp, proc_name, ap, 0); } } void output_pip_avg(FILE *ofp, char *hdr, ai_pip_t (*func)(struct p_info *)) { struct __opa opa = { .ofp = ofp, .func = func }; output_hdr(ofp, hdr); pip_foreach_out(__output_pip_avg, &opa); fprintf(ofp, "\n"); } int n_plugs; struct plug_info { long n_plugs, n_unplugs_t; double t_percent; } plug_info; void __dip_output_plug(struct d_info *dip, void *arg) { char dev_info[15]; FILE *ofp = arg; double delta, pct; if (dip->is_plugged) dip_unplug(dip->device, dip->end_time, 0); if ((dip->nplugs + dip->nplugs_t) > 0) { delta = dip->end_time - dip->start_time; pct = 100.0 * (dip->plugged_time / delta); fprintf(ofp, "%10s | %10d(%10d) | %13.9lf%%\n", make_dev_hdr(dev_info, 15, dip, 1), dip->nplugs, dip->nplugs_t, pct); if (easy_parse_avgs) { fprintf(xavgs_ofp, "PLG %s %d %d %.9lf\n", make_dev_hdr(dev_info, 15, dip, 0), dip->nplugs, dip->nplugs_t, pct); } n_plugs++; plug_info.n_plugs += dip->nplugs; plug_info.n_unplugs_t += dip->nplugs_t; plug_info.t_percent += pct; } } void __dip_output_plug_all(FILE *ofp, struct plug_info *p) { fprintf(ofp, "---------- | ---------- ---------- | ----------------\n"); fprintf(ofp, "%10s | %10s %10s | %s\n", "Overall", "# Plugs", "# Timer Us", "% Time Q Plugged"); fprintf(ofp, "%10s | %10ld(%10ld) | %13.9lf%%\n", "Average", p->n_plugs / n_plugs, p->n_unplugs_t / n_plugs, p->t_percent / n_plugs); } __u64 n_nios_uplugs, n_nios_uplugs_t; struct nios_plug_info { __u64 tot_nios_up, tot_nios_up_t; } nios_plug_info; void __dip_output_plug_nios(struct d_info *dip, void *arg) { char dev_info[15]; FILE *ofp = arg; double a_nios_uplug = 0.0, a_nios_uplug_t = 0.0; if (dip->nios_up && dip->nplugs) { a_nios_uplug = (double)dip->nios_up / (double)dip->nplugs; n_nios_uplugs += dip->nplugs; nios_plug_info.tot_nios_up += dip->nios_up; } if (dip->nios_upt && dip->nplugs_t) { a_nios_uplug_t = (double)dip->nios_upt / (double)dip->nplugs_t; n_nios_uplugs_t += dip->nplugs_t; nios_plug_info.tot_nios_up_t += dip->nios_upt; } fprintf(ofp, "%10s | %10.1lf %10.1lf\n", make_dev_hdr(dev_info, 15, dip, 1), a_nios_uplug, a_nios_uplug_t); if (easy_parse_avgs) { fprintf(xavgs_ofp, "UPG %s %.9lf %.9lf\n", make_dev_hdr(dev_info, 15, dip, 0), a_nios_uplug, a_nios_uplug_t); } } void __dip_output_uplug_all(FILE *ofp, struct nios_plug_info *p) { double ios_unp = 0.0, ios_unp_to = 0.0; if (n_nios_uplugs) ios_unp = (double)p->tot_nios_up / (double)n_nios_uplugs; if (n_nios_uplugs_t) ios_unp_to = (double)p->tot_nios_up_t / (double)n_nios_uplugs_t; fprintf(ofp, "---------- | ---------- ----------\n"); fprintf(ofp, "%10s | %10s %10s\n", "Overall", "IOs/Unp", "IOs/Unp(to)"); fprintf(ofp, "%10s | %10.1lf %10.1lf\n", "Average", ios_unp, ios_unp_to); } void output_plug_info(FILE *ofp) { fprintf(ofp, "%10s | %10s %10s | %s\n", "DEV", "# Plugs", "# Timer Us", "% Time Q Plugged"); fprintf(ofp, "---------- | ---------- ---------- | ----------------\n"); dip_foreach_out(__dip_output_plug, ofp); if (n_plugs > 1) __dip_output_plug_all(ofp, &plug_info); fprintf(ofp, "\n"); fprintf(ofp, "%10s | %10s %10s\n", "DEV", "IOs/Unp", "IOs/Unp(to)"); fprintf(ofp, "---------- | ---------- ----------\n"); dip_foreach_out(__dip_output_plug_nios, ofp); if (n_nios_uplugs || n_nios_uplugs_t) __dip_output_uplug_all(ofp, &nios_plug_info); fprintf(ofp, "\n"); } int n_actQs; struct actQ_info { __u64 t_qs; __u64 t_act_qs; } actQ_info; void __dip_output_actQ(struct d_info *dip, void *arg) { if (dip->n_qs > 0 && !remapper_dev(dip->device)) { char dev_info[15]; double a_actQs = (double)dip->t_act_q / (double)dip->n_qs; fprintf((FILE *)arg, "%10s | %13.1lf\n", make_dev_hdr(dev_info, 15, dip, 1), a_actQs); if (easy_parse_avgs) { fprintf(xavgs_ofp, "ARQ %s %.9lf\n", make_dev_hdr(dev_info, 15, dip, 0), a_actQs); } n_actQs++; actQ_info.t_qs += dip->n_qs; actQ_info.t_act_qs += dip->t_act_q; } } void __dip_output_actQ_all(FILE *ofp, struct actQ_info *p) { fprintf(ofp, "---------- | -------------\n"); fprintf(ofp, "%10s | %13s\n", "Overall", "Avgs Reqs @ Q"); fprintf(ofp, "%10s | %13.1lf\n", "Average", (double)p->t_act_qs / (double)p->t_qs); } void output_actQ_info(FILE *ofp) { fprintf(ofp, "%10s | %13s\n", "DEV", "Avg Reqs @ Q"); fprintf(ofp, "---------- | -------------\n"); dip_foreach_out(__dip_output_actQ, ofp); if (n_actQs > 1) __dip_output_actQ_all(ofp, &actQ_info); fprintf(ofp, "\n"); } void output_histos(void) { int i; FILE *ofp; char fname[256]; if (output_name == NULL) return; sprintf(fname, "%s_qhist.dat", output_name); ofp = my_fopen(fname, "w"); if (!ofp) { perror(fname); return; } fprintf(ofp, "# BTT histogram data\n"); fprintf(ofp, "# Q buckets\n"); for (i = 0; i < (N_HIST_BKTS-1); i++) fprintf(ofp, "%4d %lld\n", (i+1), (long long)q_histo[i]); fprintf(ofp, "\n# Q bucket for > %d\n%4d %lld\n", (int)N_HIST_BKTS-1, N_HIST_BKTS-1, (long long)q_histo[N_HIST_BKTS-1]); fclose(ofp); sprintf(fname, "%s_dhist.dat", output_name); ofp = my_fopen(fname, "w"); if (!ofp) { perror(fname); return; } fprintf(ofp, "# D buckets\n"); for (i = 0; i < (N_HIST_BKTS-1); i++) fprintf(ofp, "%4d %lld\n", (i+1), (long long)d_histo[i]); fprintf(ofp, "\n# D bucket for > %d\n%4d %lld\n", (int)N_HIST_BKTS-1, N_HIST_BKTS-1, (long long)d_histo[N_HIST_BKTS-1]); fclose(ofp); } int output_avgs(FILE *ofp) { if (output_all_data) { if (exes == NULL || *exes != '\0') { output_section_hdr(ofp, "Per Process"); output_pip_avg(ofp, "Q2Qdm", pip_q2q_dm_avg); output_pip_avg(ofp, "Q2Adm", pip_q2a_dm_avg); output_pip_avg(ofp, "Q2Cdm", pip_q2c_dm_avg); fprintf(ofp, "\n"); output_pip_avg(ofp, "Q2Q", pip_q2q_avg); output_pip_avg(ofp, "Q2A", pip_q2a_avg); output_pip_avg(ofp, "Q2G", pip_q2g_avg); output_pip_avg(ofp, "S2G", pip_s2g_avg); output_pip_avg(ofp, "G2I", pip_g2i_avg); output_pip_avg(ofp, "Q2M", pip_q2m_avg); output_pip_avg(ofp, "I2D", pip_i2d_avg); output_pip_avg(ofp, "D2C", pip_d2c_avg); output_pip_avg(ofp, "Q2C", pip_q2c_avg); } output_section_hdr(ofp, "Per Device"); output_dip_avg(ofp, "Q2Qdm", dip_q2q_dm_avg); output_dip_avg(ofp, "Q2Adm", dip_q2a_dm_avg); output_dip_avg(ofp, "Q2Cdm", dip_q2c_dm_avg); fprintf(ofp, "\n"); output_dip_avg(ofp, "Q2Q", dip_q2q_avg); output_dip_avg(ofp, "Q2A", dip_q2a_avg); output_dip_avg(ofp, "Q2G", dip_q2g_avg); output_dip_avg(ofp, "S2G", dip_s2g_avg); output_dip_avg(ofp, "G2I", dip_g2i_avg); output_dip_avg(ofp, "Q2M", dip_q2m_avg); output_dip_avg(ofp, "I2D", dip_i2d_avg); output_dip_avg(ofp, "D2C", dip_d2c_avg); output_dip_avg(ofp, "Q2C", dip_q2c_avg); } output_section_hdr(ofp, "All Devices"); output_hdr(ofp, "ALL"); __output_avg(ofp, "Q2Qdm", &all_avgs.q2q_dm, 0); __output_avg(ofp, "Q2Adm", &all_avgs.q2a_dm, 0); __output_avg(ofp, "Q2Cdm", &all_avgs.q2c_dm, 0); fprintf(ofp, "\n"); __output_avg(ofp, "Q2Q", &all_avgs.q2q, 1); __output_avg(ofp, "Q2A", &all_avgs.q2a, 1); __output_avg(ofp, "Q2G", &all_avgs.q2g, 1); __output_avg(ofp, "S2G", &all_avgs.s2g, 1); __output_avg(ofp, "G2I", &all_avgs.g2i, 1); __output_avg(ofp, "Q2M", &all_avgs.q2m, 1); __output_avg(ofp, "I2D", &all_avgs.i2d, 1); __output_avg(ofp, "M2D", &all_avgs.m2d, 1); __output_avg(ofp, "D2C", &all_avgs.d2c, 1); __output_avg(ofp, "Q2C", &all_avgs.q2c, 1); fprintf(ofp, "\n"); output_section_hdr(ofp, "Device Overhead"); output_dip_prep_ohead(ofp); output_section_hdr(ofp, "Device Merge Information"); output_dip_merge_ratio(ofp); output_section_hdr(ofp, "Device Q2Q Seek Information"); output_dip_q2q_seek_info(ofp); output_section_hdr(ofp, "Device D2D Seek Information"); output_dip_seek_info(ofp); output_section_hdr(ofp, "Plug Information"); output_plug_info(ofp); output_section_hdr(ofp, "Active Requests At Q Information"); output_actQ_info(ofp); output_histos(); if (output_all_data) { output_section_hdr(ofp, "Q2D Histogram"); output_q2d_histo(ofp); } return 0; } void __output_ranges(FILE *ofp, struct list_head *head_p, float base) { struct range_info *rip; struct list_head *p; float limit = base + 0.4; __list_for_each(p, head_p) { rip = list_entry(p, struct range_info, head); fprintf(ofp, "%13.9lf %5.1f\n", BIT_TIME(rip->start), base); fprintf(ofp, "%13.9lf %5.1f\n", BIT_TIME(rip->start), limit); fprintf(ofp, "%13.9lf %5.1f\n", BIT_TIME(rip->end), limit); fprintf(ofp, "%13.9lf %5.1f\n", BIT_TIME(rip->end), base); } } int output_regions(FILE *ofp, char *header, struct region_info *reg, float base) { if (list_len(®->qranges) == 0 && list_len(®->cranges) == 0) return 0; fprintf(ofp, "# %16s : q activity\n", header); __output_ranges(ofp, ®->qranges, base); fprintf(ofp, "\n"); fprintf(ofp, "# %16s : c activity\n", header); __output_ranges(ofp, ®->cranges, base + 0.5); fprintf(ofp, "\n"); return 1; } struct __od { FILE *ofp; float base; }; void __output_dev(struct d_info *dip, void *arg) { char header[128]; struct __od *odp = arg; sprintf(header, "%d,%d", MAJOR(dip->device), MINOR(dip->device)); if (output_regions(odp->ofp, header, &dip->regions, odp->base)) odp->base += 1.0; } float output_devs(FILE *ofp, float base) { struct __od od = { .ofp = ofp, .base = base }; fprintf(ofp, "# Per device\n" ); dip_foreach_out(__output_dev, &od); return od.base; } static inline int exe_match(char *exe, char *name) { return (exe == NULL) || (strstr(name, exe) != NULL); } struct __op { FILE *ofp; float base; }; void __output_procs(struct p_info *pip, void *arg) { struct __op *opp = arg; output_regions(opp->ofp, pip->name, &pip->regions, opp->base); opp->base += 1.0; } float output_procs(FILE *ofp, float base) { struct __op op = { .ofp = ofp, .base = base }; fprintf(ofp, "# Per process\n" ); pip_foreach_out(__output_procs, &op); return op.base; } int output_ranges(FILE *ofp) { float base = 0.0; fprintf(ofp, "# %s\n", "Total System"); if (output_regions(ofp, "Total System", &all_regions, base)) base += 1.0; if (n_devs > 1) base = output_devs(ofp, base); base = output_procs(ofp, base); return 0; }