/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "cpucmds.h" static struct options { int debug; int dotitle; int dohelp; int dotick; int dosoaker; int doperiod; char *pgmname; uint_t mseconds; uint_t nsamples; uint_t nsets; uint_t mseconds_rest; cpc_setgrp_t *master; } __options; /* * States for soaker threads. */ #define SOAK_PAUSE 0 #define SOAK_RUN 1 struct tstate { processorid_t cpuid; int chip_id; cpc_setgrp_t *sgrp; int status; thread_t tid; int soak_state; mutex_t soak_lock; cond_t soak_cv; }; static const struct options *opts = (const struct options *)&__options; static cpc_t *cpc; struct tstate *gstate; static int ncpus; static int max_chip_id; static int *chip_designees; /* cpuid of CPU which counts for phs chip */ static int smt = 0; /* If set, cpustat needs to be SMT-aware. */ static pcinfo_t fxinfo = { 0, "FX", NULL }; /* FX scheduler class info */ /*ARGSUSED*/ static void cpustat_errfn(const char *fn, int subcode, const char *fmt, va_list ap) { (void) fprintf(stderr, "%s: ", opts->pgmname); if (opts->debug) (void) fprintf(stderr, "%s: ", fn); (void) vfprintf(stderr, fmt, ap); } static int cpustat(void); static int get_chipid(kstat_ctl_t *kc, processorid_t cpuid); static void *soaker(void *arg); #if !defined(TEXT_DOMAIN) #define TEXT_DOMAIN "SYS_TEST" #endif int main(int argc, char *argv[]) { struct options *opts = &__options; int c, errcnt = 0, ret; cpc_setgrp_t *sgrp; char *errstr; double period; char *endp; struct rlimit rl; (void) setlocale(LC_ALL, ""); (void) textdomain(TEXT_DOMAIN); if ((opts->pgmname = strrchr(argv[0], '/')) == NULL) opts->pgmname = argv[0]; else opts->pgmname++; /* Make sure we can open enough files */ rl.rlim_max = rl.rlim_cur = RLIM_INFINITY; if (setrlimit(RLIMIT_NOFILE, &rl) != 0) { errstr = strerror(errno); (void) fprintf(stderr, gettext("%s: setrlimit failed - %s\n"), opts->pgmname, errstr); } if ((cpc = cpc_open(CPC_VER_CURRENT)) == NULL) { errstr = strerror(errno); (void) fprintf(stderr, gettext("%s: cannot access performance " "counters - %s\n"), opts->pgmname, errstr); return (1); } (void) cpc_seterrhndlr(cpc, cpustat_errfn); strtoset_errfn = cpustat_errfn; /* * Check to see if cpustat needs to be SMT-aware. */ smt = smt_limited_cpc_hw(cpc); /* * Establish some defaults */ opts->mseconds = 5000; opts->nsamples = UINT_MAX; opts->dotitle = 1; if ((opts->master = cpc_setgrp_new(cpc, smt)) == NULL) { (void) fprintf(stderr, gettext("%s: out of heap\n"), opts->pgmname); return (1); } while ((c = getopt(argc, argv, "Dc:hntsp:")) != EOF && errcnt == 0) switch (c) { case 'D': /* enable debugging */ opts->debug++; break; case 'c': /* specify statistics */ if ((sgrp = cpc_setgrp_newset(opts->master, optarg, &errcnt)) != NULL) opts->master = sgrp; break; case 'n': /* no titles */ opts->dotitle = 0; break; case 'p': /* periodic behavior */ opts->doperiod = 1; period = strtod(optarg, &endp); if (*endp != '\0') { (void) fprintf(stderr, gettext("%s: invalid " "parameter \"%s\"\n"), opts->pgmname, optarg); errcnt++; } break; case 's': /* run soaker thread */ opts->dosoaker = 1; break; case 't': /* print %tick */ opts->dotick = 1; break; case 'h': /* help */ opts->dohelp = 1; break; case '?': default: errcnt++; break; } switch (argc - optind) { case 0: break; case 2: opts->nsamples = strtol(argv[optind + 1], &endp, 10); if (*endp != '\0') { (void) fprintf(stderr, gettext("%s: invalid argument \"%s\"\n"), opts->pgmname, argv[optind + 1]); errcnt++; break; } /*FALLTHROUGH*/ case 1: opts->mseconds = (uint_t)(strtod(argv[optind], &endp) * 1000.0); if (*endp != '\0') { (void) fprintf(stderr, gettext("%s: invalid argument \"%s\"\n"), opts->pgmname, argv[optind]); errcnt++; } break; default: errcnt++; break; } if (opts->nsamples == 0 || opts->mseconds == 0) errcnt++; if (errcnt != 0 || opts->dohelp || (opts->nsets = cpc_setgrp_numsets(opts->master)) == 0) { (void) fprintf(opts->dohelp ? stdout : stderr, gettext( "Usage:\n\t%s [-c events] [-p period] [-nstD] " "[interval [count]]\n\n" "\t-c events specify processor events to be monitored\n" "\t-n\t suppress titles\n" "\t-p period cycle through event list periodically\n" "\t-s\t run user soaker thread for system-only events\n" "\t-t\t include %s register\n" "\t-D\t enable debug mode\n" "\t-h\t print extended usage information\n\n" "\tUse cputrack(1) to monitor per-process statistics.\n"), opts->pgmname, CPC_TICKREG_NAME); if (opts->dohelp) { (void) putchar('\n'); (void) capabilities(cpc, stdout); exit(0); } exit(2); } /* * If the user requested periodic behavior, calculate the rest time * between cycles. */ if (opts->doperiod) { opts->mseconds_rest = (uint_t)((period * 1000.0) - (opts->mseconds * opts->nsets)); if ((int)opts->mseconds_rest < 0) opts->mseconds_rest = 0; if (opts->nsamples != UINT_MAX) opts->nsamples *= opts->nsets; } cpc_setgrp_reset(opts->master); (void) setvbuf(stdout, NULL, _IOLBF, 0); /* * If no system-mode only sets were created, no soaker threads will be * needed. */ if (opts->dosoaker == 1 && cpc_setgrp_has_sysonly(opts->master) == 0) opts->dosoaker = 0; ret = cpustat(); (void) cpc_close(cpc); return (ret); } static void print_title(cpc_setgrp_t *sgrp) { (void) printf("%7s %3s %5s ", "time", "cpu", "event"); if (opts->dotick) (void) printf("%9s ", CPC_TICKREG_NAME); (void) printf("%s\n", cpc_setgrp_gethdr(sgrp)); } static void print_sample(processorid_t cpuid, cpc_buf_t *buf, int nreq, const char *setname, int sibling) { char line[1024]; int ccnt; int i; uint64_t val; uint64_t tick; hrtime_t hrtime; hrtime = cpc_buf_hrtime(cpc, buf); tick = cpc_buf_tick(cpc, buf); ccnt = snprintf(line, sizeof (line), "%7.3f %3d %5s ", mstimestamp(hrtime), (int)cpuid, "tick"); if (opts->dotick) ccnt += snprintf(line + ccnt, sizeof (line) - ccnt, "%9" PRId64 " ", tick); for (i = 0; i < nreq; i++) { (void) cpc_buf_get(cpc, buf, i, &val); ccnt += snprintf(line + ccnt, sizeof (line) - ccnt, "%9" PRId64 " ", val); } if (opts->nsets > 1) ccnt += snprintf(line + ccnt, sizeof (line) - ccnt, " # %s\n", setname); else ccnt += snprintf(line + ccnt, sizeof (line) - ccnt, "\n"); if (sibling) { /* * This sample is being printed for a "sibling" CPU -- that is, * a CPU which does not have its own CPC set bound. It is being * measured via a set bound to another CPU sharing its physical * processor. */ int designee = chip_designees[gstate[cpuid].chip_id]; char *p; if ((p = strrchr(line, '#')) == NULL) p = strrchr(line, '\n'); if (p != NULL) { *p = '\0'; ccnt = strlen(line); ccnt += snprintf(line + ccnt, sizeof (line) - ccnt, "# counter shared with CPU %d\n", designee); } } if (ccnt > sizeof (line)) ccnt = sizeof (line); if (ccnt > 0) (void) write(1, line, ccnt); /* * If this CPU is the chip designee for any other CPUs, print a line for * them here. */ if (smt && (sibling == 0)) { for (i = 0; i < ncpus; i++) { if ((i != cpuid) && (gstate[i].cpuid != -1) && (chip_designees[gstate[i].chip_id] == cpuid)) print_sample(i, buf, nreq, setname, 1); } } } static void print_total(int ncpus, cpc_buf_t *buf, int nreq, const char *setname) { int i; uint64_t val; (void) printf("%7.3f %3d %5s ", mstimestamp(cpc_buf_hrtime(cpc, buf)), ncpus, "total"); if (opts->dotick) (void) printf("%9" PRId64 " ", cpc_buf_tick(cpc, buf)); for (i = 0; i < nreq; i++) { (void) cpc_buf_get(cpc, buf, i, &val); (void) printf("%9" PRId64 " ", val); } if (opts->nsets > 1) (void) printf(" # %s", setname); (void) fputc('\n', stdout); } #define NSECS_PER_MSEC 1000000ll #define NSECS_PER_SEC 1000000000ll static void * gtick(void *arg) { struct tstate *state = arg; char *errstr; uint_t nsamples; uint_t sample_cnt = 1; hrtime_t ht, htdelta, restdelta; cpc_setgrp_t *sgrp = state->sgrp; cpc_set_t *this = cpc_setgrp_getset(sgrp); const char *name = cpc_setgrp_getname(sgrp); cpc_buf_t **data1, **data2, **scratch; cpc_buf_t *tmp; int nreqs; thread_t tid; htdelta = NSECS_PER_MSEC * opts->mseconds; restdelta = NSECS_PER_MSEC * opts->mseconds_rest; ht = gethrtime(); /* * If this CPU is SMT, we run one gtick() thread per _physical_ CPU, * instead of per cpu_t. The following check returns if it detects that * this cpu_t has not been designated to do the counting for this * physical CPU. */ if (smt && chip_designees[state->chip_id] != state->cpuid) return (NULL); /* * If we need to run a soaker thread on this CPU, start it here. */ if (opts->dosoaker) { if (cond_init(&state->soak_cv, USYNC_THREAD, NULL) != 0) goto bad; if (mutex_init(&state->soak_lock, USYNC_THREAD, NULL) != 0) goto bad; (void) mutex_lock(&state->soak_lock); state->soak_state = SOAK_PAUSE; if (thr_create(NULL, 0, soaker, state, NULL, &tid) != 0) goto bad; while (state->soak_state == SOAK_PAUSE) (void) cond_wait(&state->soak_cv, &state->soak_lock); (void) mutex_unlock(&state->soak_lock); /* * If the soaker needs to pause for the first set, stop it now. */ if (cpc_setgrp_sysonly(sgrp) == 0) { (void) mutex_lock(&state->soak_lock); state->soak_state = SOAK_PAUSE; (void) mutex_unlock(&state->soak_lock); } } if (cpc_bind_cpu(cpc, state->cpuid, this, 0) == -1) goto bad; for (nsamples = opts->nsamples; nsamples; nsamples--, sample_cnt++) { hrtime_t htnow; struct timespec ts; nreqs = cpc_setgrp_getbufs(sgrp, &data1, &data2, &scratch); ht += htdelta; htnow = gethrtime(); if (ht <= htnow) continue; ts.tv_sec = (time_t)((ht - htnow) / NSECS_PER_SEC); ts.tv_nsec = (suseconds_t)((ht - htnow) % NSECS_PER_SEC); (void) nanosleep(&ts, NULL); if (opts->nsets == 1) { /* * If we're dealing with one set, buffer usage is: * * data1 = most recent data snapshot * data2 = previous data snapshot * scratch = used for diffing data1 and data2 * * Save the snapshot from the previous sample in data2 * before putting the current sample in data1. */ tmp = *data1; *data1 = *data2; *data2 = tmp; if (cpc_set_sample(cpc, this, *data1) != 0) goto bad; cpc_buf_sub(cpc, *scratch, *data1, *data2); print_sample(state->cpuid, *scratch, nreqs, name, 0); } else { /* * More than one set is in use (multiple -c options * given). Buffer usage in this case is: * * data1 = total counts for this set since program began * data2 = unused * scratch = most recent data snapshot */ name = cpc_setgrp_getname(sgrp); nreqs = cpc_setgrp_getbufs(sgrp, &data1, &data2, &scratch); if (cpc_set_sample(cpc, this, *scratch) != 0) goto bad; cpc_buf_add(cpc, *data1, *data1, *scratch); if (cpc_unbind(cpc, this) != 0) (void) fprintf(stderr, gettext("%s: error " "unbinding on cpu %d - %s\n"), opts->pgmname, state->cpuid, strerror(errno)); this = cpc_setgrp_nextset(sgrp); print_sample(state->cpuid, *scratch, nreqs, name, 0); /* * If periodic behavior was requested, rest here. */ if (opts->doperiod && opts->mseconds_rest > 0 && (sample_cnt % opts->nsets) == 0) { /* * Stop the soaker while the tool rests. */ if (opts->dosoaker) { (void) mutex_lock(&state->soak_lock); if (state->soak_state == SOAK_RUN) state->soak_state = SOAK_PAUSE; (void) mutex_unlock(&state->soak_lock); } htnow = gethrtime(); ht += restdelta; ts.tv_sec = (time_t)((ht - htnow) / NSECS_PER_SEC); ts.tv_nsec = (suseconds_t)((ht - htnow) % NSECS_PER_SEC); (void) nanosleep(&ts, NULL); } /* * Start or stop the soaker if needed. */ if (opts->dosoaker) { (void) mutex_lock(&state->soak_lock); if (cpc_setgrp_sysonly(sgrp) && state->soak_state == SOAK_PAUSE) { /* * Soaker is paused but the next set is * sysonly: start the soaker. */ state->soak_state = SOAK_RUN; (void) cond_signal(&state->soak_cv); } else if (cpc_setgrp_sysonly(sgrp) == 0 && state->soak_state == SOAK_RUN) /* * Soaker is running but the next set * counts user events: stop the soaker. */ state->soak_state = SOAK_PAUSE; (void) mutex_unlock(&state->soak_lock); } if (cpc_bind_cpu(cpc, state->cpuid, this, 0) != 0) goto bad; } } if (cpc_unbind(cpc, this) != 0) (void) fprintf(stderr, gettext("%s: error unbinding on" " cpu %d - %s\n"), opts->pgmname, state->cpuid, strerror(errno)); /* * We're done, so stop the soaker if needed. */ if (opts->dosoaker) { (void) mutex_lock(&state->soak_lock); if (state->soak_state == SOAK_RUN) state->soak_state = SOAK_PAUSE; (void) mutex_unlock(&state->soak_lock); } return (NULL); bad: state->status = 3; errstr = strerror(errno); (void) fprintf(stderr, gettext("%s: cpu%d - %s\n"), opts->pgmname, state->cpuid, errstr); return (NULL); } static int cpustat(void) { cpc_setgrp_t *accum; cpc_set_t *start; int c, i, retval; int lwps = 0; psetid_t mypset, cpupset; char *errstr; cpc_buf_t **data1, **data2, **scratch; int nreqs; kstat_ctl_t *kc; ncpus = (int)sysconf(_SC_NPROCESSORS_CONF); if ((gstate = calloc(ncpus, sizeof (*gstate))) == NULL) { (void) fprintf(stderr, gettext( "%s: out of heap\n"), opts->pgmname); return (1); } max_chip_id = sysconf(_SC_CPUID_MAX); if ((chip_designees = malloc(max_chip_id * sizeof (int))) == NULL) { (void) fprintf(stderr, gettext( "%s: out of heap\n"), opts->pgmname); return (1); } for (i = 0; i < max_chip_id; i++) chip_designees[i] = -1; if (smt) { if ((kc = kstat_open()) == NULL) { (void) fprintf(stderr, gettext( "%s: kstat_open() failed: %s\n"), opts->pgmname, strerror(errno)); return (1); } } if (opts->dosoaker) if (priocntl(0, 0, PC_GETCID, &fxinfo) == -1) { (void) fprintf(stderr, gettext( "%s: couldn't get FX scheduler class: %s\n"), opts->pgmname, strerror(errno)); return (1); } /* * Only include processors that are participating in the system */ for (c = 0, i = 0; i < ncpus; c++) { switch (p_online(c, P_STATUS)) { case P_ONLINE: case P_NOINTR: if (smt) { gstate[i].chip_id = get_chipid(kc, c); if (gstate[i].chip_id != -1 && chip_designees[gstate[i].chip_id] == -1) chip_designees[gstate[i].chip_id] = c; } gstate[i++].cpuid = c; break; case P_OFFLINE: case P_POWEROFF: case P_FAULTED: case P_SPARE: gstate[i++].cpuid = -1; break; default: gstate[i++].cpuid = -1; (void) fprintf(stderr, gettext("%s: cpu%d in unknown state\n"), opts->pgmname, c); break; case -1: break; } } /* * Examine the processor sets; if we're in one, only attempt * to report on the set we're in. */ if (pset_bind(PS_QUERY, P_PID, P_MYID, &mypset) == -1) { errstr = strerror(errno); (void) fprintf(stderr, gettext("%s: pset_bind - %s\n"), opts->pgmname, errstr); } else { for (i = 0; i < ncpus; i++) { struct tstate *this = &gstate[i]; if (this->cpuid == -1) continue; if (pset_assign(PS_QUERY, this->cpuid, &cpupset) == -1) { errstr = strerror(errno); (void) fprintf(stderr, gettext("%s: pset_assign - %s\n"), opts->pgmname, errstr); continue; } if (mypset != cpupset) this->cpuid = -1; } } if (opts->dotitle) print_title(opts->master); zerotime(); for (i = 0; i < ncpus; i++) { struct tstate *this = &gstate[i]; if (this->cpuid == -1) continue; this->sgrp = cpc_setgrp_clone(opts->master); if (this->sgrp == NULL) { this->cpuid = -1; continue; } if (thr_create(NULL, 0, gtick, this, THR_BOUND|THR_NEW_LWP, &this->tid) == 0) lwps++; else { (void) fprintf(stderr, gettext("%s: cannot create thread for cpu%d\n"), opts->pgmname, this->cpuid); this->status = 4; } } if (lwps != 0) for (i = 0; i < ncpus; i++) (void) thr_join(gstate[i].tid, NULL, NULL); if ((accum = cpc_setgrp_clone(opts->master)) == NULL) { (void) fprintf(stderr, gettext("%s: out of heap\n"), opts->pgmname); return (1); } retval = 0; for (i = 0; i < ncpus; i++) { struct tstate *this = &gstate[i]; if (this->cpuid == -1) continue; cpc_setgrp_accum(accum, this->sgrp); cpc_setgrp_free(this->sgrp); this->sgrp = NULL; if (this->status != 0) retval = 1; } cpc_setgrp_reset(accum); start = cpc_setgrp_getset(accum); do { nreqs = cpc_setgrp_getbufs(accum, &data1, &data2, &scratch); print_total(lwps, *data1, nreqs, cpc_setgrp_getname(accum)); } while (cpc_setgrp_nextset(accum) != start); cpc_setgrp_free(accum); accum = NULL; free(gstate); return (retval); } static int get_chipid(kstat_ctl_t *kc, processorid_t cpuid) { kstat_t *ksp; kstat_named_t *k; if ((ksp = kstat_lookup(kc, "cpu_info", cpuid, NULL)) == NULL) return (-1); if (kstat_read(kc, ksp, NULL) == -1) { (void) fprintf(stderr, gettext("%s: kstat_read() failed for cpu %d: %s\n"), opts->pgmname, cpuid, strerror(errno)); return (-1); } if ((k = (kstat_named_t *)kstat_data_lookup(ksp, "chip_id")) == NULL) { (void) fprintf(stderr, gettext("%s: chip_id not found for cpu %d: %s\n"), opts->pgmname, cpuid, strerror(errno)); return (-1); } return (k->value.i32); } static void * soaker(void *arg) { struct tstate *state = arg; pcparms_t pcparms; fxparms_t *fx = (fxparms_t *)pcparms.pc_clparms; if (processor_bind(P_LWPID, P_MYID, state->cpuid, NULL) != 0) (void) fprintf(stderr, gettext("%s: couldn't bind soaker " "thread to cpu%d: %s\n"), opts->pgmname, state->cpuid, strerror(errno)); /* * Put the soaker thread in the fixed priority (FX) class so it runs * at the lowest possible global priority. */ pcparms.pc_cid = fxinfo.pc_cid; fx->fx_upri = 0; fx->fx_uprilim = 0; fx->fx_tqsecs = fx->fx_tqnsecs = FX_TQDEF; if (priocntl(P_LWPID, P_MYID, PC_SETPARMS, &pcparms) != 0) (void) fprintf(stderr, gettext("%s: couldn't put soaker " "thread in FX sched class: %s\n"), opts->pgmname, strerror(errno)); /* * Let the parent thread know we're ready to roll. */ (void) mutex_lock(&state->soak_lock); state->soak_state = SOAK_RUN; (void) cond_signal(&state->soak_cv); (void) mutex_unlock(&state->soak_lock); for (;;) { spin: (void) mutex_lock(&state->soak_lock); if (state->soak_state == SOAK_RUN) { (void) mutex_unlock(&state->soak_lock); goto spin; } while (state->soak_state == SOAK_PAUSE) (void) cond_wait(&state->soak_cv, &state->soak_lock); (void) mutex_unlock(&state->soak_lock); } /*NOTREACHED*/ return (NULL); }