btt/iostat.c - platform/external/blktrace - Git at Google

 /*
  * blktrace output analysis: generate a timeline & gather statistics
  *
  * Copyright (C) 2006 Alan D. Brunelle <Alan.Brunelle@hp.com>
  *
  *  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 <stdio.h>
 #include <unistd.h>
 #include "globals.h"

 #define INC_STAT(dip, fld)						\
 	do {								\
 		(dip)->stats. fld ++;					\
 		(dip)->all_stats. fld ++;				\
 	} while (0)

 #define DEC_STAT(dip, fld)						\
 	do {								\
 		(dip)->stats. fld --;					\
 		(dip)->all_stats. fld --;				\
 	} while (0)

 #define ADD_STAT(dip, fld, val)						\
 	do {								\
 		__u64 __v = (val);					\
 		(dip)->stats. fld += __v;				\
 		(dip)->all_stats. fld += __v;				\
 	} while (0)

 #define SUB_STAT(dip, fld, val)						\
 	do {								\
 		__u64 __v = (val);					\
 		(dip)->stats. fld -= __v;				\
 		(dip)->all_stats. fld -= __v;				\
 	} while (0)

 __u64 last_start, iostat_last_stamp;
 __u64 iostat_interval = 1000000000;
 char *iostat_name = NULL;
 FILE *iostat_ofp = NULL;

 static void dump_hdr(void)
 {
 	fprintf(iostat_ofp, "Device:       rrqm/s   wrqm/s     r/s     w/s    "
 			    "rsec/s    wsec/s     rkB/s     wkB/s "
 			    "avgrq-sz avgqu-sz   await   svctm  %%util   Stamp\n");
 }

 static void update_tot_qusz(struct d_info *dip, double now)
 {
 	dip->stats.tot_qusz += ((now - dip->stats.last_qu_change) *
 						dip->stats.cur_qusz);
 	dip->all_stats.tot_qusz += ((now - dip->all_stats.last_qu_change) *
 						dip->all_stats.cur_qusz);

 	dip->stats.last_qu_change = dip->all_stats.last_qu_change = now;
 }

 static void update_idle_time(struct d_info *dip, double now, int force)
 {
 	if (dip->stats.cur_dev == 0 || force) {
 		dip->stats.idle_time += (now - dip->stats.last_dev_change);
 		dip->all_stats.idle_time +=
 				       (now - dip->all_stats.last_dev_change);
 	}
 	dip->stats.last_dev_change = dip->all_stats.last_dev_change = now;
 }

 void __dump_stats(__u64 stamp, int all, struct d_info *dip, struct stats_t *asp)
 {
 	char hdr[16];
 	struct stats *sp;
 	double dt, nios, avgrq_sz, p_util, nrqm, await, svctm;
 	double now = TO_SEC(stamp);

 	if (all) {
 		dt = (double)stamp / 1.0e9;
 		sp = &dip->all_stats;
 	} else {
 		dt = (double)(stamp-last_start) / 1.0e9;
 		sp = &dip->stats;
 	}

 	nios = (double)(sp->ios[0] + sp->ios[1]);
 	nrqm = (double)(sp->rqm[0] + sp->rqm[1]);
 	update_idle_time(dip, now, 1);
 	update_tot_qusz(dip, now);

 	if (nios > 0.0) {
 		avgrq_sz = (double)(sp->sec[0] + sp->sec[1]) / nios;
 		svctm = TO_MSEC(sp->svctm) / nios;
 	} else
 		avgrq_sz = svctm = 0.0;

 	await = ((nios + nrqm) > 0.0) ? TO_MSEC(sp->wait) / (nios+nrqm) : 0.0;
 	p_util = (sp->idle_time <= dt) ? 100.0 * (1.0 - (sp->idle_time / dt)) :
 	                                 0.0;

 	/*
 	 * For AWAIT: nios should be the same as number of inserts
 	 * and we add in nrqm (number of merges), which should give
 	 * us the total number of IOs sent to the block IO layer.
 	 */
 	fprintf(iostat_ofp, "%-11s ", make_dev_hdr(hdr, 11, dip, 1));
 	fprintf(iostat_ofp, "%8.2lf ", (double)sp->rqm[1] / dt);
 	fprintf(iostat_ofp, "%8.2lf ", (double)sp->rqm[0] / dt);
 	fprintf(iostat_ofp, "%7.2lf ", (double)sp->ios[1] / dt);
 	fprintf(iostat_ofp, "%7.2lf ", (double)sp->ios[0] / dt);
 	fprintf(iostat_ofp, "%9.2lf ", (double)sp->sec[1] / dt);
 	fprintf(iostat_ofp, "%9.2lf ", (double)sp->sec[0] / dt);
 	fprintf(iostat_ofp, "%9.2lf ", (double)(sp->sec[1] / 2) / dt);
 	fprintf(iostat_ofp, "%9.2lf ", (double)(sp->sec[0] / 2) / dt);
 	fprintf(iostat_ofp, "%8.2lf ", avgrq_sz);
 	fprintf(iostat_ofp, "%8.2lf ", (double)sp->tot_qusz / dt);
 	fprintf(iostat_ofp, "%7.2lf ", await);
 	fprintf(iostat_ofp, "%7.2lf ", svctm);
 	fprintf(iostat_ofp, "%6.2lf", p_util);
 	if (all)
 		fprintf(iostat_ofp, "%8s\n", "TOTAL");
 	else {
 		fprintf(iostat_ofp, "%8.2lf\n", TO_SEC(stamp));
 		sp->rqm[0] = sp->rqm[1] = 0;
 		sp->ios[0] = sp->ios[1] = 0;
 		sp->sec[0] = sp->sec[1] = 0;
 		sp->wait = sp->svctm = 0;

 		sp->tot_qusz = sp->idle_time = 0.0;
 	}

 	if (asp) {
 		int i;

 		asp->n += 1.0;
 		for (i = 0; i < 2; i++) {
 			asp->rqm_s[i] += ((double)sp->rqm[i] / dt);
 			asp->ios_s[i] += ((double)sp->ios[i] / dt);
 			asp->sec_s[i] += ((double)sp->sec[i] / dt);
 		}
 		asp->avgrq_sz += avgrq_sz;
 		asp->avgqu_sz += (double)sp->tot_qusz / dt;
 		asp->await += await;
 		asp->svctm += svctm;
 		asp->p_util += p_util;
 	}
 }

 static void __dump_stats_t(__u64 stamp, struct stats_t *asp, int all)
 {
 	if (asp->n < 2.0) return;	// What's the point?

 	fprintf(iostat_ofp, "%-11s ", "TOTAL");
 	fprintf(iostat_ofp, "%8.2lf ", asp->rqm_s[0]);
 	fprintf(iostat_ofp, "%8.2lf ", asp->rqm_s[1]);
 	fprintf(iostat_ofp, "%7.2lf ", asp->ios_s[0]);
 	fprintf(iostat_ofp, "%7.2lf ", asp->ios_s[1]);
 	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[0]);
 	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[1]);
 	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[0] / 2.0);
 	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[1] / 2.0);
 	fprintf(iostat_ofp, "%8.2lf ", asp->avgrq_sz / asp->n);
 	fprintf(iostat_ofp, "%8.2lf ", asp->avgqu_sz / asp->n);
 	fprintf(iostat_ofp, "%7.2lf ", asp->await / asp->n);
 	fprintf(iostat_ofp, "%7.2lf ", asp->svctm / asp->n);
 	fprintf(iostat_ofp, "%6.2lf", asp->p_util / asp->n);
 	if (all)
 		fprintf(iostat_ofp, "%8s\n", "TOTAL");
 	else
 		fprintf(iostat_ofp, "%8.2lf\n", TO_SEC(stamp));
 }

 void iostat_init(void)
 {
 	last_start = (__u64)-1;
 	if (iostat_ofp)
 		dump_hdr();
 }

 void iostat_dump_stats(__u64 stamp, int all)
 {
 	struct d_info *dip;
 	struct stats_t as;

 	memset(&as, 0, sizeof(struct stats_t));
 	if (all)
 		dump_hdr();

 	if (devices == NULL) {
 		struct list_head *p;

 		__list_for_each(p, &all_devs) {
 			dip = list_entry(p, struct d_info, all_head);
 			__dump_stats(stamp, all, dip, &as);
 		}
 	} else {
 		int i;
 		unsigned int mjr, mnr;
 		char *p = devices;

 		while (p && ((i = sscanf(p, "%u,%u", &mjr, &mnr)) == 2)) {
 			dip = __dip_find((__u32)((mjr << MINORBITS) | mnr));
 			__dump_stats(stamp, all, dip, &as);

 			p = strchr(p, ';');
 			if (p) p++;
 		}
 	}

 	__dump_stats_t(stamp, &as, all);

 	if (!all && iostat_ofp)
 		fprintf(iostat_ofp, "\n");
 }

 void iostat_check_time(__u64 stamp)
 {
 	if (iostat_ofp) {
 		if (last_start == (__u64)-1)
 			last_start = stamp;
 		else if ((stamp - last_start) >= iostat_interval) {
 			iostat_dump_stats(stamp, 0);
 			last_start = stamp;
 		}

 		iostat_last_stamp = stamp;
 	}
 }

 void iostat_getrq(struct io *iop)
 {
 	update_tot_qusz(iop->dip, TO_SEC(iop->t.time));
 	INC_STAT(iop->dip, cur_qusz);
 }

 void iostat_merge(struct io *iop)
 {
 	INC_STAT(iop->dip, rqm[IOP_RW(iop)]);
 }

 void iostat_issue(struct io *iop)
 {
 	int rw = IOP_RW(iop);
 	struct d_info *dip = iop->dip;
 	double now = TO_SEC(iop->t.time);

 	INC_STAT(dip, ios[rw]);
 	ADD_STAT(dip, sec[rw], iop->t.bytes >> 9);

 	update_idle_time(dip, now, 0);
 	INC_STAT(dip, cur_dev);
 }

 void iostat_complete(struct io *q_iop, struct io *c_iop)
 {
 	double now = TO_SEC(c_iop->t.time);
 	struct d_info *dip = q_iop->dip;

 	if (q_iop->i_time != (__u64)-1)
 		ADD_STAT(c_iop->dip, wait, tdelta(q_iop->i_time,c_iop->t.time));
 	else if (q_iop->m_time != (__u64)-1)
 		ADD_STAT(c_iop->dip, wait, tdelta(q_iop->m_time,c_iop->t.time));

 	update_tot_qusz(dip, now);
 	DEC_STAT(dip, cur_qusz);

 	update_idle_time(dip, now, 0);
 	DEC_STAT(dip, cur_dev);

 	ADD_STAT(dip, svctm, tdelta(q_iop->t.time, c_iop->t.time));
 }
	/*
	* blktrace output analysis: generate a timeline & gather statistics
	*
	* Copyright (C) 2006 Alan D. Brunelle <Alan.Brunelle@hp.com>
	*
	* 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 <stdio.h>
	#include <unistd.h>
	#include "globals.h"

	#define INC_STAT(dip, fld) \
	do { \
	(dip)->stats. fld ++; \
	(dip)->all_stats. fld ++; \
	} while (0)

	#define DEC_STAT(dip, fld) \
	do { \
	(dip)->stats. fld --; \
	(dip)->all_stats. fld --; \
	} while (0)

	#define ADD_STAT(dip, fld, val) \
	do { \
	__u64 __v = (val); \
	(dip)->stats. fld += __v; \
	(dip)->all_stats. fld += __v; \
	} while (0)

	#define SUB_STAT(dip, fld, val) \
	do { \
	__u64 __v = (val); \
	(dip)->stats. fld -= __v; \
	(dip)->all_stats. fld -= __v; \
	} while (0)

	__u64 last_start, iostat_last_stamp;
	__u64 iostat_interval = 1000000000;
	char *iostat_name = NULL;
	FILE *iostat_ofp = NULL;

	static void dump_hdr(void)
	{
	fprintf(iostat_ofp, "Device: rrqm/s wrqm/s r/s w/s "
	"rsec/s wsec/s rkB/s wkB/s "
	"avgrq-sz avgqu-sz await svctm %%util Stamp\n");
	}

	static void update_tot_qusz(struct d_info *dip, double now)
	{
	dip->stats.tot_qusz += ((now - dip->stats.last_qu_change) *
	dip->stats.cur_qusz);
	dip->all_stats.tot_qusz += ((now - dip->all_stats.last_qu_change) *
	dip->all_stats.cur_qusz);

	dip->stats.last_qu_change = dip->all_stats.last_qu_change = now;
	}

	static void update_idle_time(struct d_info *dip, double now, int force)
	{
	if (dip->stats.cur_dev == 0 \|\| force) {
	dip->stats.idle_time += (now - dip->stats.last_dev_change);
	dip->all_stats.idle_time +=
	(now - dip->all_stats.last_dev_change);
	}
	dip->stats.last_dev_change = dip->all_stats.last_dev_change = now;
	}

	void __dump_stats(__u64 stamp, int all, struct d_info dip, struct stats_t asp)
	{
	char hdr[16];
	struct stats *sp;
	double dt, nios, avgrq_sz, p_util, nrqm, await, svctm;
	double now = TO_SEC(stamp);

	if (all) {
	dt = (double)stamp / 1.0e9;
	sp = &dip->all_stats;
	} else {
	dt = (double)(stamp-last_start) / 1.0e9;
	sp = &dip->stats;
	}

	nios = (double)(sp->ios[0] + sp->ios[1]);
	nrqm = (double)(sp->rqm[0] + sp->rqm[1]);
	update_idle_time(dip, now, 1);
	update_tot_qusz(dip, now);

	if (nios > 0.0) {
	avgrq_sz = (double)(sp->sec[0] + sp->sec[1]) / nios;
	svctm = TO_MSEC(sp->svctm) / nios;
	} else
	avgrq_sz = svctm = 0.0;

	await = ((nios + nrqm) > 0.0) ? TO_MSEC(sp->wait) / (nios+nrqm) : 0.0;
	p_util = (sp->idle_time <= dt) ? 100.0 * (1.0 - (sp->idle_time / dt)) :
	0.0;

	/*
	* For AWAIT: nios should be the same as number of inserts
	* and we add in nrqm (number of merges), which should give
	* us the total number of IOs sent to the block IO layer.
	*/
	fprintf(iostat_ofp, "%-11s ", make_dev_hdr(hdr, 11, dip, 1));
	fprintf(iostat_ofp, "%8.2lf ", (double)sp->rqm[1] / dt);
	fprintf(iostat_ofp, "%8.2lf ", (double)sp->rqm[0] / dt);
	fprintf(iostat_ofp, "%7.2lf ", (double)sp->ios[1] / dt);
	fprintf(iostat_ofp, "%7.2lf ", (double)sp->ios[0] / dt);
	fprintf(iostat_ofp, "%9.2lf ", (double)sp->sec[1] / dt);
	fprintf(iostat_ofp, "%9.2lf ", (double)sp->sec[0] / dt);
	fprintf(iostat_ofp, "%9.2lf ", (double)(sp->sec[1] / 2) / dt);
	fprintf(iostat_ofp, "%9.2lf ", (double)(sp->sec[0] / 2) / dt);
	fprintf(iostat_ofp, "%8.2lf ", avgrq_sz);
	fprintf(iostat_ofp, "%8.2lf ", (double)sp->tot_qusz / dt);
	fprintf(iostat_ofp, "%7.2lf ", await);
	fprintf(iostat_ofp, "%7.2lf ", svctm);
	fprintf(iostat_ofp, "%6.2lf", p_util);
	if (all)
	fprintf(iostat_ofp, "%8s\n", "TOTAL");
	else {
	fprintf(iostat_ofp, "%8.2lf\n", TO_SEC(stamp));
	sp->rqm[0] = sp->rqm[1] = 0;
	sp->ios[0] = sp->ios[1] = 0;
	sp->sec[0] = sp->sec[1] = 0;
	sp->wait = sp->svctm = 0;

	sp->tot_qusz = sp->idle_time = 0.0;
	}

	if (asp) {
	int i;

	asp->n += 1.0;
	for (i = 0; i < 2; i++) {
	asp->rqm_s[i] += ((double)sp->rqm[i] / dt);
	asp->ios_s[i] += ((double)sp->ios[i] / dt);
	asp->sec_s[i] += ((double)sp->sec[i] / dt);
	}
	asp->avgrq_sz += avgrq_sz;
	asp->avgqu_sz += (double)sp->tot_qusz / dt;
	asp->await += await;
	asp->svctm += svctm;
	asp->p_util += p_util;
	}
	}

	static void __dump_stats_t(__u64 stamp, struct stats_t *asp, int all)
	{
	if (asp->n < 2.0) return; // What's the point?

	fprintf(iostat_ofp, "%-11s ", "TOTAL");
	fprintf(iostat_ofp, "%8.2lf ", asp->rqm_s[0]);
	fprintf(iostat_ofp, "%8.2lf ", asp->rqm_s[1]);
	fprintf(iostat_ofp, "%7.2lf ", asp->ios_s[0]);
	fprintf(iostat_ofp, "%7.2lf ", asp->ios_s[1]);
	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[0]);
	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[1]);
	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[0] / 2.0);
	fprintf(iostat_ofp, "%9.2lf ", asp->sec_s[1] / 2.0);
	fprintf(iostat_ofp, "%8.2lf ", asp->avgrq_sz / asp->n);
	fprintf(iostat_ofp, "%8.2lf ", asp->avgqu_sz / asp->n);
	fprintf(iostat_ofp, "%7.2lf ", asp->await / asp->n);
	fprintf(iostat_ofp, "%7.2lf ", asp->svctm / asp->n);
	fprintf(iostat_ofp, "%6.2lf", asp->p_util / asp->n);
	if (all)
	fprintf(iostat_ofp, "%8s\n", "TOTAL");
	else
	fprintf(iostat_ofp, "%8.2lf\n", TO_SEC(stamp));
	}

	void iostat_init(void)
	{
	last_start = (__u64)-1;
	if (iostat_ofp)
	dump_hdr();
	}

	void iostat_dump_stats(__u64 stamp, int all)
	{
	struct d_info *dip;
	struct stats_t as;

	memset(&as, 0, sizeof(struct stats_t));
	if (all)
	dump_hdr();

	if (devices == NULL) {
	struct list_head *p;

	__list_for_each(p, &all_devs) {
	dip = list_entry(p, struct d_info, all_head);
	__dump_stats(stamp, all, dip, &as);
	}
	} else {
	int i;
	unsigned int mjr, mnr;
	char *p = devices;

	while (p && ((i = sscanf(p, "%u,%u", &mjr, &mnr)) == 2)) {
	dip = __dip_find((__u32)((mjr << MINORBITS) \| mnr));
	__dump_stats(stamp, all, dip, &as);

	p = strchr(p, ';');
	if (p) p++;
	}
	}

	__dump_stats_t(stamp, &as, all);

	if (!all && iostat_ofp)
	fprintf(iostat_ofp, "\n");
	}

	void iostat_check_time(__u64 stamp)
	{
	if (iostat_ofp) {
	if (last_start == (__u64)-1)
	last_start = stamp;
	else if ((stamp - last_start) >= iostat_interval) {
	iostat_dump_stats(stamp, 0);
	last_start = stamp;
	}

	iostat_last_stamp = stamp;
	}
	}

	void iostat_getrq(struct io *iop)
	{
	update_tot_qusz(iop->dip, TO_SEC(iop->t.time));
	INC_STAT(iop->dip, cur_qusz);
	}

	void iostat_merge(struct io *iop)
	{
	INC_STAT(iop->dip, rqm[IOP_RW(iop)]);
	}

	void iostat_issue(struct io *iop)
	{
	int rw = IOP_RW(iop);
	struct d_info *dip = iop->dip;
	double now = TO_SEC(iop->t.time);

	INC_STAT(dip, ios[rw]);
	ADD_STAT(dip, sec[rw], iop->t.bytes >> 9);

	update_idle_time(dip, now, 0);
	INC_STAT(dip, cur_dev);
	}

	void iostat_complete(struct io q_iop, struct io c_iop)
	{
	double now = TO_SEC(c_iop->t.time);
	struct d_info *dip = q_iop->dip;

	if (q_iop->i_time != (__u64)-1)
	ADD_STAT(c_iop->dip, wait, tdelta(q_iop->i_time,c_iop->t.time));
	else if (q_iop->m_time != (__u64)-1)
	ADD_STAT(c_iop->dip, wait, tdelta(q_iop->m_time,c_iop->t.time));

	update_tot_qusz(dip, now);
	DEC_STAT(dip, cur_qusz);

	update_idle_time(dip, now, 0);
	DEC_STAT(dip, cur_dev);

	ADD_STAT(dip, svctm, tdelta(q_iop->t.time, c_iop->t.time));
	}