/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 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 #define INTRSTAT_COLUMN_OFFS 14 #define INTRSTAT_COLUMNS_PER_CPU 15 #define INTRSTAT_CPUS_PER_LINE(w) \ (((w) - INTRSTAT_COLUMN_OFFS) / INTRSTAT_COLUMNS_PER_CPU) static dtrace_hdl_t *g_dtp; static int *g_present; static int g_max_cpus; static int g_start, g_end; static int g_header; static long g_sleeptime = 1; static hrtime_t g_interval = NANOSEC; static int g_intr; static psetid_t g_pset = PS_NONE; static processorid_t *g_pset_cpus; static uint_t g_pset_ncpus; static int g_cpus_per_line = INTRSTAT_CPUS_PER_LINE(80); static const char *g_pname = "intrstat"; static const char *g_prog = "interrupt-start" "/arg0 != NULL/" "{" " self->ts = vtimestamp;" "}" "" "interrupt-complete" "/self->ts/" "{" " this->devi = (struct dev_info *)arg0;" " @counts[stringof(`devnamesp[this->devi->devi_major].dn_name)," " this->devi->devi_instance] = count();" " @times[stringof(`devnamesp[this->devi->devi_major].dn_name)," " this->devi->devi_instance] = sum(vtimestamp - self->ts);" " self->ts = 0;" "}"; static void usage(void) { (void) fprintf(stderr, "usage: intrstat [ -C psrset | -c cpulist ] " "[interval [ count]]\n"); exit(EXIT_FAILURE); } static void fatal(const char *fmt, ...) { va_list ap; va_start(ap, fmt); (void) fprintf(stderr, "%s: ", g_pname); (void) vfprintf(stderr, fmt, ap); if (fmt[strlen(fmt) - 1] != '\n') (void) fprintf(stderr, ": %s\n", dtrace_errmsg(g_dtp, dtrace_errno(g_dtp))); exit(EXIT_FAILURE); } /*ARGSUSED*/ static void intr(int signo) { g_intr++; } static void status(void) {} static void set_width(void) { struct winsize win; if (!isatty(fileno(stdout))) return; if (ioctl(fileno(stdout), TIOCGWINSZ, &win) == -1) return; if (win.ws_col == 0) { /* * If TIOCGWINSZ returned 0 for the columns, just return -- * thereby using the default value of g_cpus_per_line. (This * happens, e.g., when running over a tip line.) */ return; } g_cpus_per_line = INTRSTAT_CPUS_PER_LINE(win.ws_col); if (g_cpus_per_line < 1) g_cpus_per_line = 1; } static void print_header() { int i, j; char c[256]; if (!g_header) return; (void) printf("\n%12s |", "device"); for (i = g_start, j = 0; i < g_max_cpus; i++) { if (!g_present[i]) continue; (void) sprintf(c, "cpu%d", i); (void) printf(" %9s %%tim", c); if (++j >= g_cpus_per_line) break; } (void) printf("\n-------------+"); while (j--) (void) printf("---------------"); (void) printf("\n"); g_header = 0; } /*ARGSUSED*/ static int walk(dtrace_aggdata_t *data, void *arg) { dtrace_aggdesc_t *aggdesc = data->dtada_desc; dtrace_recdesc_t *nrec, *irec; char *name, c[256]; int32_t *instance; static dtrace_aggdata_t *count; int i, j; if (count == NULL) { count = data; return (DTRACE_AGGWALK_NEXT); } nrec = &aggdesc->dtagd_rec[1]; irec = &aggdesc->dtagd_rec[2]; name = data->dtada_data + nrec->dtrd_offset; /* LINTED - alignment */ instance = (int32_t *)(data->dtada_data + irec->dtrd_offset); for (i = g_start, j = 0; i < g_max_cpus && j < g_cpus_per_line; i++) { /* LINTED - alignment */ uint64_t time = *((uint64_t *)(data->dtada_percpu[i])); /* LINTED - alignment */ uint64_t n = *((uint64_t *)(count->dtada_percpu[i])); if (!g_present[i]) continue; if (j++ == 0) { print_header(); (void) snprintf(c, sizeof (c), "%s#%d", name, *instance); (void) printf("%12s |", c); } (void) printf(" %9lld %4.1f", (unsigned long long)((double)n / ((double)g_interval / (double)NANOSEC)), ((double)time * (double)100.0) / (double)g_interval); } (void) printf(j ? "\n" : ""); g_end = i; count = NULL; return (DTRACE_AGGWALK_NEXT); } static void select_cpu(processorid_t cpu) { if (g_pset != PS_NONE) fatal("cannot specify both a processor set and a processor\n"); if (cpu < 0 || cpu >= g_max_cpus) fatal("cpu %d out of range\n", cpu); if (p_online(cpu, P_STATUS) == -1) { if (errno != EINVAL) fatal("could not get status for cpu %d", cpu); fatal("cpu %d not present\n", cpu); } g_present[cpu] = 1; } static void select_cpus(processorid_t low, processorid_t high) { if (g_pset != PS_NONE) fatal("cannot specify both a processor set and processors\n"); if (low < 0 || low >= g_max_cpus) fatal("invalid cpu '%d'\n", low); if (high < 0 || high >= g_max_cpus) fatal("invalid cpu '%d'\n", high); if (low >= high) fatal("invalid range '%d' to '%d'\n", low, high); do { if (p_online(low, P_STATUS) != -1) g_present[low] = 1; } while (++low <= high); } static void select_pset(psetid_t pset) { processorid_t i; if (pset < 0) fatal("processor set %d is out of range\n", pset); /* * Only one processor set can be specified. */ if (g_pset != PS_NONE) fatal("at most one processor set may be specified\n"); /* * One cannot select processors _and_ a processor set. */ for (i = 0; i < g_max_cpus; i++) if (g_present[i]) break; if (i != g_max_cpus) fatal("cannot specify both a processor and a processor set\n"); g_pset = pset; g_pset_ncpus = g_max_cpus; if (pset_info(g_pset, NULL, &g_pset_ncpus, g_pset_cpus) == -1) fatal("invalid processor set: %d\n", g_pset); if (g_pset_ncpus == 0) fatal("processor set %d empty\n", g_pset); for (i = 0; i < g_pset_ncpus; i++) g_present[g_pset_cpus[i]] = 1; } static void check_pset(void) { uint_t ncpus = g_max_cpus; processorid_t i; if (g_pset == PS_NONE) return; if (pset_info(g_pset, NULL, &ncpus, g_pset_cpus) == -1) { if (errno == EINVAL) fatal("processor set %d destroyed\n", g_pset); fatal("couldn't get info for processor set %d", g_pset); } if (ncpus == 0) fatal("processor set %d empty\n", g_pset); if (ncpus == g_pset_ncpus) { for (i = 0; i < g_pset_ncpus; i++) { if (!g_present[g_pset_cpus[i]]) break; } /* * If the number of CPUs hasn't changed, and every CPU * in the processor set is also selected, we know that the * processor set itself hasn't changed. */ if (i == g_pset_ncpus) return; } /* * If we're here, we have a new processor set. First, we need * to zero out the present array. */ bzero(g_present, sizeof (processorid_t) * g_max_cpus); g_pset_ncpus = ncpus; for (i = 0; i < g_pset_ncpus; i++) g_present[g_pset_cpus[i]] = 1; } int main(int argc, char **argv) { dtrace_prog_t *prog; dtrace_proginfo_t info; int err, i, indefinite = 1; long iter; processorid_t id; struct sigaction act; struct itimerspec ts; struct sigevent ev; sigset_t set; timer_t tid; char *end; char c; hrtime_t last, now; dtrace_optval_t statustime; (void) sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = set_width; (void) sigaction(SIGWINCH, &act, NULL); (void) sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = intr; (void) sigaction(SIGUSR1, &act, NULL); (void) sigemptyset(&act.sa_mask); act.sa_flags = 0; act.sa_handler = status; (void) sigaction(SIGUSR2, &act, NULL); act.sa_handler = set_width; (void) sigaction(SIGWINCH, &act, NULL); set_width(); (void) sigemptyset(&set); (void) sigaddset(&set, SIGUSR1); (void) sigaddset(&set, SIGWINCH); (void) sigprocmask(SIG_BLOCK, &set, NULL); ev.sigev_notify = SIGEV_SIGNAL; ev.sigev_signo = SIGUSR1; if (timer_create(CLOCK_REALTIME, &ev, &tid) == -1) fatal("cannot create CLOCK_HIGHRES timer"); g_max_cpus = sysconf(_SC_CPUID_MAX) + 1; if ((g_present = malloc(sizeof (processorid_t) * g_max_cpus)) == NULL) fatal("could not allocate g_present array\n"); bzero(g_present, sizeof (processorid_t) * g_max_cpus); g_pset_cpus = malloc(sizeof (processorid_t) * g_max_cpus); if (g_pset_cpus == NULL) fatal("could not allocate g_pset_cpus"); bzero(g_pset_cpus, sizeof (processorid_t) * g_max_cpus); while ((c = getopt(argc, argv, "c:C:")) != EOF) { switch (c) { case 'c': { /* * We allow CPUs to be specified as an optionally * comma separated list of either CPU IDs or ranges * of CPU IDs. */ char *s = strtok(optarg, ","); while (s != NULL) { id = strtoul(s, &end, 0); if (id == ULONG_MAX && errno == ERANGE) { *end = '\0'; fatal("invalid cpu '%s'\n", s); } if (*(s = end) != '\0') { processorid_t p; if (*s != '-') fatal("invalid cpu '%s'\n", s); p = strtoul(++s, &end, 0); if (*end != '\0' || (p == ULONG_MAX && errno == ERANGE)) fatal("invalid cpu '%s'\n", s); select_cpus(id, p); } else { select_cpu(id); } s = strtok(NULL, ","); } break; } case 'C': { psetid_t pset = strtoul(optarg, &end, 0); if (*end != '\0' || (pset == ULONG_MAX && errno == ERANGE)) fatal("invalid processor set '%s'\n", optarg); select_pset(pset); break; } default: usage(); } } if (optind != argc) { g_sleeptime = strtol(argv[optind], &end, 10); if (*end != NULL || g_sleeptime == 0) fatal("invalid interval '%s'\n", argv[1]); if (g_sleeptime <= 0) fatal("interval must be greater than zero.\n"); if (g_sleeptime == LONG_MAX && errno == ERANGE) fatal("invalid interval '%s'\n", argv[optind]); if (++optind != argc) { char *s = argv[optind]; iter = strtol(s, &end, 0); indefinite = 0; if (*end != '\0' || iter <= 0 || (iter == LONG_MAX && errno == ERANGE)) fatal("invalid count '%s'\n", s); } } ts.it_value.tv_sec = g_sleeptime; ts.it_value.tv_nsec = 0; ts.it_interval.tv_sec = g_sleeptime; ts.it_interval.tv_nsec = 0; if (timer_settime(tid, TIMER_RELTIME, &ts, NULL) == -1) fatal("cannot set time on CLOCK_REALTIME timer"); for (i = 0; i < g_max_cpus && !g_present[i]; i++) continue; if (i == g_max_cpus) { for (i = 0; i < g_max_cpus; i++) g_present[i] = p_online(i, P_STATUS) == -1 ? 0 : 1; } if ((g_dtp = dtrace_open(DTRACE_VERSION, 0, &err)) == NULL) { fatal("cannot open dtrace library: %s\n", dtrace_errmsg(NULL, err)); } if ((prog = dtrace_program_strcompile(g_dtp, g_prog, DTRACE_PROBESPEC_NAME, 0, 0, NULL)) == NULL) fatal("invalid program"); if (dtrace_program_exec(g_dtp, prog, &info) == -1) fatal("failed to enable probes"); if (dtrace_setopt(g_dtp, "aggsize", "128k") == -1) fatal("failed to set 'aggsize'"); if (dtrace_setopt(g_dtp, "aggrate", "0") == -1) fatal("failed to set 'aggrate'"); if (dtrace_setopt(g_dtp, "aggpercpu", 0) == -1) fatal("failed to set 'aggpercpu'"); if (dtrace_go(g_dtp) != 0) fatal("dtrace_go()"); last = gethrtime(); if (dtrace_getopt(g_dtp, "statusrate", &statustime) == -1) fatal("failed to get 'statusrate'"); if (statustime < ((dtrace_optval_t)g_sleeptime * NANOSEC)) { ev.sigev_notify = SIGEV_SIGNAL; ev.sigev_signo = SIGUSR2; if (timer_create(CLOCK_REALTIME, &ev, &tid) == -1) fatal("cannot create status timer"); ts.it_value.tv_sec = statustime / NANOSEC; ts.it_value.tv_nsec = statustime % NANOSEC; ts.it_interval = ts.it_value; if (timer_settime(tid, TIMER_RELTIME, &ts, NULL) == -1) fatal("cannot set time on status timer"); } (void) sigemptyset(&set); while (indefinite || iter) { (void) sigsuspend(&set); (void) dtrace_status(g_dtp); if (g_intr == 0) continue; iter--; g_intr--; check_pset(); now = gethrtime(); g_interval = now - last; last = now; if (dtrace_aggregate_snap(g_dtp) != 0) fatal("failed to add to aggregate"); g_start = g_end = 0; do { g_header = 1; if (dtrace_aggregate_walk_keyvarsorted(g_dtp, walk, NULL) != 0) fatal("failed to sort aggregate"); if (g_start == g_end) break; } while ((g_start = g_end) < g_max_cpus); dtrace_aggregate_clear(g_dtp); } return (0); }