/* * 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" struct seek_bkt { struct rb_node rb_node; long long sectors; int nseeks; }; /* Seeks per second */ struct sps_bkt { double t_start, t_last; unsigned long nseeks; }; struct seeki { FILE *rfp, *wfp, *cfp, *sps_fp; struct rb_root root; struct sps_bkt sps; long long tot_seeks; double total_sectors; long long last_start, last_end; }; static FILE *seek_open(char *str, char rw) { FILE *fp; char *oname; if (seek_name == NULL) return NULL; oname = malloc(strlen(seek_name) + strlen(str) + 32); sprintf(oname, "%s_%s_%c.dat", seek_name, str, rw); if ((fp = my_fopen(oname, "w")) == NULL) perror(oname); else add_file(fp, oname); return fp; } static void __insert(struct rb_root *root, long long sectors) { struct seek_bkt *sbp; struct rb_node *parent = NULL; struct rb_node **p = &root->rb_node; while (*p) { parent = *p; sbp = rb_entry(parent, struct seek_bkt, rb_node); if (sectors < sbp->sectors) p = &(*p)->rb_left; else if (sectors > sbp->sectors) p = &(*p)->rb_right; else { sbp->nseeks++; return; } } sbp = malloc(sizeof(struct seek_bkt)); sbp->nseeks = 1; sbp->sectors = sectors; rb_link_node(&sbp->rb_node, parent, p); rb_insert_color(&sbp->rb_node, root); } static void __destroy(struct rb_node *n) { if (n) { struct seek_bkt *sbp = rb_entry(n, struct seek_bkt, rb_node); __destroy(n->rb_left); __destroy(n->rb_right); free(sbp); } } static void sps_emit(struct seeki *sip) { double tstamp, s_p_s; struct sps_bkt *sps = &sip->sps; double delta = sps->t_last - sps->t_start; if ((sps->nseeks == 1) || (delta < DBL_EPSILON)) { s_p_s = (double)(sps->nseeks); tstamp = sps->t_start; } else { s_p_s = (double)(sps->nseeks) / delta; tstamp = sps->t_start + (delta / 2); } fprintf(sip->sps_fp, "%15.9lf %.2lf\n", sps->t_start, s_p_s); sps->t_start = 0; sps->nseeks = 0; } static void sps_add(struct seeki *sip, double t) { if (sip->sps_fp) { struct sps_bkt *sps = &sip->sps; if (sps->nseeks != 0 && ((t - sps->t_start) >= 1.0)) sps_emit(sip); sps->t_last = t; if (sps->nseeks == 0) { sps->t_start = t; sps->nseeks = 1; } else sps->nseeks++; } } static int __median(struct rb_node *n, long long sofar, long long target, long long *rvp) { struct seek_bkt *sbp; sbp = rb_entry(n, struct seek_bkt, rb_node); if ((sofar + sbp->nseeks) >= target) { *rvp = sbp->sectors; return 1; } if (n->rb_left && __median(n->rb_left, sofar, target, rvp)) return 1; if (n->rb_right && __median(n->rb_right, sofar, target, rvp)) return 1; return 0; } static void __mode(struct rb_node *n, struct mode *mp) { struct seek_bkt *sbp; if (n->rb_left) __mode(n->rb_left, mp); if (n->rb_right) __mode(n->rb_right, mp); sbp = rb_entry(n, struct seek_bkt, rb_node); if (mp->modes == NULL) { mp->modes = malloc(sizeof(long long)); mp->nmds = 0; } else if (sbp->nseeks > mp->most_seeks) mp->nmds = 0; else if (sbp->nseeks == mp->most_seeks) mp->modes = realloc(mp->modes, (mp->nmds + 1) * sizeof(long long)); else return; mp->most_seeks = sbp->nseeks; mp->modes[mp->nmds++] = sbp->sectors; } long long seek_dist(struct seeki *sip, struct io *iop) { long long dist; long long start = BIT_START(iop), end = BIT_END(iop); if (seek_absolute) dist = start - sip->last_end; else { /* Some overlap means no seek */ if (((sip->last_start <= start) && (start <= sip->last_end)) || ((sip->last_start <= end) && (end <= sip->last_end))) dist = 0; else if (start > sip->last_end) dist = start - sip->last_end; else dist = start - sip->last_start; } sip->last_start = start; sip->last_end = end; return dist; } void *seeki_alloc(char *str) { struct seeki *sip = malloc(sizeof(struct seeki)); sip->rfp = seek_open(str, 'r'); sip->wfp = seek_open(str, 'w'); sip->cfp = seek_open(str, 'c'); sip->tot_seeks = 0; sip->total_sectors = 0.0; sip->last_start = sip->last_end = 0; memset(&sip->root, 0, sizeof(sip->root)); if (sps_name) { char *oname; memset(&sip->sps, 0, sizeof(sip->sps)); oname = malloc(strlen(sps_name) + strlen(str) + 32); sprintf(oname, "%s_%s.dat", sps_name, str); if ((sip->sps_fp = my_fopen(oname, "w")) == NULL) perror(oname); else add_file(sip->sps_fp, oname); } else sip->sps_fp = NULL; return sip; } void seeki_free(void *param) { struct seeki *sip = param; if (sip->sps_fp && sip->sps.nseeks != 0) sps_emit(sip); /* * Associated files are cleaned up by seek_clean */ __destroy(sip->root.rb_node); free(sip); } void seeki_add(void *handle, struct io *iop) { struct seeki *sip = handle; char rw = IOP_READ(iop) ? 'r' : 'w'; long long dist = seek_dist(sip, iop); double tstamp = BIT_TIME(iop->t.time); FILE *fp = IOP_READ(iop) ? sip->rfp : sip->wfp; if (fp) fprintf(fp, "%15.9lf %13lld %c\n", tstamp, dist, rw); if (sip->cfp) fprintf(sip->cfp, "%15.9lf %13lld %c\n", tstamp, dist, rw); dist = llabs(dist); sip->tot_seeks++; sip->total_sectors += dist; __insert(&sip->root, dist); sps_add(sip, tstamp); } long long seeki_nseeks(void *handle) { return ((struct seeki *)handle)->tot_seeks; } double seeki_mean(void *handle) { struct seeki *sip = handle; return sip->total_sectors / sip->tot_seeks; } long long seeki_median(void *handle) { long long rval = 0LL; struct seeki *sip = handle; if (sip->root.rb_node) (void)__median(sip->root.rb_node, 0LL, sip->tot_seeks / 2, &rval); return rval; } int seeki_mode(void *handle, struct mode *mp) { struct seeki *sip = handle; struct rb_root *root = &sip->root; memset(mp, 0, sizeof(struct mode)); if (root->rb_node) __mode(root->rb_node, mp); return mp->nmds; }