/* * pcp_def_metrics.c: Functions used by sadf to define PCP metrics * (C) 2019-2023 by Sebastien GODARD (sysstat orange.fr) * *************************************************************************** * 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 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., * * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA * *************************************************************************** */ #include "common.h" #include "sa.h" #include "pcp_def_metrics.h" #ifdef HAVE_PCP #include #include #ifdef HAVE_PCP_IMPL_H #include #endif #endif /* HAVE_PCP */ /* *************************************************************************** * Define PCP metrics for per-CPU interrupts statistics. * * IN: * @a Activity structure with statistics. * @cpu CPU number (0 is cpu0, 1 is cpu1, etc.) *************************************************************************** */ void pcp_def_percpu_int_metrics(struct activity *a, int cpu) { #ifdef HAVE_PCP char buf[64]; struct sa_item *list = a->item_list; static pmInDom indom = PM_INDOM_NULL; static int inst = 0; if (indom == PM_INDOM_NULL) { /* Create domain */ indom = pmInDom_build(60, 40); /* Create metric */ pmiAddMetric("kernel.percpu.interrupts", pmiID(60, 4, 1), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); } /* Create instance for each interrupt for the current CPU */ while (list != NULL) { snprintf(buf, sizeof(buf), "%s::cpu%d", list->item_name, cpu); buf[sizeof(buf) - 1] = '\0'; pmiAddInstance(indom, buf, inst++); list = list->next; } #endif /* HAVE_PCP */ } /* * ************************************************************************** * Define PCP metrics for global CPU statistics. *************************************************************************** */ void pcp_def_global_cpu_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("kernel.all.cpu.user", pmiID(60, 0, 20), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.nice", pmiID(60, 0, 21), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.sys", pmiID(60, 0, 22), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.idle", pmiID(60, 0, 23), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.iowait", pmiID(60, 0, 25), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.steal", pmiID(60, 0, 55), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.irq.hard", pmiID(60, 0, 54), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.irq.soft", pmiID(60, 0, 53), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.irq.total", pmiID(60, 0, 34), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.guest", pmiID(60, 0, 60), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.all.cpu.guest_nice", pmiID(60, 0, 81), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); #endif /* HAVE_PCP */ } #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for per-CPU statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_percpu_metrics(pmInDom indom) { pmiAddMetric("kernel.percpu.cpu.user", pmiID(60, 0, 0), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.nice", pmiID(60, 0, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.sys", pmiID(60, 0, 2), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.idle", pmiID(60, 0, 3), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.iowait", pmiID(60, 0, 30), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.steal", pmiID(60, 0, 58), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.irq.hard", pmiID(60, 0, 57), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.irq.soft", pmiID(60, 0, 56), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.irq.total", pmiID(60, 0, 35), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.guest", pmiID(60, 0, 61), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("kernel.percpu.cpu.guest_nice", pmiID(60, 0, 83), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); } #endif /* HAVE_PCP */ /* * ************************************************************************** * Define PCP metrics for global CPU softnet statistics. *************************************************************************** */ void pcp_def_global_softnet_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.softnet.processed", pmiID(60, 57, 0), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.dropped", pmiID(60, 57, 1), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.time_squeeze", pmiID(60, 57, 2), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.received_rps", pmiID(60, 57, 4), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.flow_limit", pmiID(60, 57, 5), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.backlog_length", pmiID(60, 57, 12), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for per-CPU softnet statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_percpu_softnet_metrics(pmInDom indom) { pmiAddMetric("network.softnet.percpu.processed", pmiID(60, 57, 6), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.percpu.dropped", pmiID(60, 57, 7), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.percpu.time_squeeze", pmiID(60, 57, 8), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.percpu.received_rps", pmiID(60, 57, 10), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.percpu.flow_limit", pmiID(60, 57, 11), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.softnet.percpu.backlog_length", pmiID(60, 57, 13), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); } #endif /* HAVE_PCP */ #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for CPU frequency statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_pwr_cpufreq_metrics(pmInDom indom) { pmiAddMetric("hinv.cpu.clock", pmiID(60, 18, 0), PM_TYPE_FLOAT, indom, PM_SEM_DISCRETE, pmiUnits(0, -1, 0, 0, PM_TIME_USEC, 0)); } #endif /* HAVE_PCP */ /* ***********************************************global**************************** * Define PCP metrics for CPU related statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_cpu_metrics(struct activity *a) { #ifdef HAVE_PCP int i, first = TRUE, create = FALSE; char buf[64]; static pmInDom indom = PM_INDOM_NULL; for (i = 0; (i < a->nr_ini) && (i < a->bitmap->b_size + 1); i++) { /* * Should current CPU (including CPU "all") be displayed? * NB: Offline not tested (they may be turned off and on within * the same file. */ if (!(a->bitmap->b_array[i >> 3] & (1 << (i & 0x07)))) /* CPU not selected */ continue; if (!i) { if (a->id == A_CPU) { /* This is CPU "all" */ pcp_def_global_cpu_metrics(); } else if (a->id == A_NET_SOFT) { /* Create metrics for A_NET_SOFT */ pcp_def_global_softnet_metrics(); } } else { /* This is not CPU "all" */ if (indom == PM_INDOM_NULL) { /* Create domain */ indom = pmInDom_build(60, 0); create = TRUE; } if (create) { /* Create instance for current CPU */ sprintf(buf, "cpu%d", i - 1); pmiAddInstance(indom, buf, i - 1); } if (a->id == A_IRQ) { /* Create per-CPU interrupts metrics */ pcp_def_percpu_int_metrics(a, i - 1); } else if (first) { if (a->id == A_CPU) { /* Create metrics for A_CPU */ pcp_def_percpu_metrics(indom); } else if (a->id == A_PWR_CPU) { /* Create metric for A_PWR_CPU */ pcp_def_pwr_cpufreq_metrics(indom); } else if (a->id == A_NET_SOFT) { /* Create metrics for A_NET_SOFT */ pcp_def_percpu_softnet_metrics(indom); } first = FALSE; } } } #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for task creation and context switch statistics. *************************************************************************** */ void pcp_def_pcsw_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("kernel.all.pswitch", pmiID(60, 0, 13), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("kernel.all.sysfork", pmiID(60, 0, 14), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for interrupts statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_irq_metrics(struct activity *a) { #ifdef HAVE_PCP int first = TRUE, inst = 0; struct sa_item *list = a->item_list; pmInDom indom; if (!(a->bitmap->b_array[0] & 1)) /* CPU "all" not selected: Nothing to do here */ return; /* Create domain */ indom = pmiInDom(60, 4); /* Create instances and metrics for each interrupts for CPU "all" */ while (list != NULL) { if (!strcmp(list->item_name, K_LOWERSUM)) { /* * Create metric for interrupt "sum" for CPU "all". * Interrupt "sum" appears at most once in list. * No need to create an instance for it: It has a specific metric name. */ pmiAddMetric("kernel.all.intr", pmiID(60, 0, 12), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); } else { if (first) { /* Create metric for a common interrupt for CPU "all" if not already done */ pmiAddMetric("kernel.all.interrupts.total", pmiID(60, 4, 0), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); first = FALSE; } /* Create instance */ pmiAddInstance(indom, list->item_name, inst++); } list = list->next; } #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for swapping statistics. *************************************************************************** */ void pcp_def_swap_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("swap.pagesin", pmiID(60, 0, 8), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("swap.pagesout", pmiID(60, 0, 9), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for paging statistics. *************************************************************************** */ void pcp_def_paging_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("mem.vmstat.pgpgin", pmiID(60, 28, 6), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgpgout", pmiID(60, 28, 7), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgfault", pmiID(60, 28, 16), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgmajfault", pmiID(60, 28, 17), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgfree", pmiID(60, 28, 13), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgscan_kswapd_total", pmiID(60, 28, 177), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgscan_direct_total", pmiID(60, 28, 176), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("mem.vmstat.pgsteal_total", pmiID(60, 28, 178), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for I/O and transfer rate statistics. *************************************************************************** */ void pcp_def_io_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("disk.all.total", pmiID(60, 0, 29), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.all.read", pmiID(60, 0, 24), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.all.write", pmiID(60, 0, 25), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.all.discard", pmiID(60, 0, 96), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.all.read_bytes", pmiID(60, 0, 41), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.all.write_bytes", pmiID(60, 0, 42), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.all.discard_bytes", pmiID(60, 0, 98), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); #endif /* HAVE_PCP */ } /* * ************************************************************************** * Define PCP metrics for RAM memory utilization. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_ram_memory_metrics(struct activity *a) { #ifdef HAVE_PCP pmiAddMetric("hinv.physmem", pmiID(60, 1, 9), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_DISCRETE, pmiUnits(1, 0, 0, PM_SPACE_MBYTE, 0, 0)); pmiAddMetric("mem.physmem", pmiID(60, 1, 0), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_DISCRETE, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.free", pmiID(60, 1, 2), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.available", pmiID(60, 1, 58), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.used", pmiID(60, 1, 1), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.bufmem", pmiID(60, 1, 4), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.cached", pmiID(60, 1, 5), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.committed_AS", pmiID(60, 1, 26), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.active", pmiID(60, 1, 14), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.inactive", pmiID(60, 1, 15), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.dirty", pmiID(60, 1, 22), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); if (DISPLAY_MEM_ALL(a->opt_flags)) { pmiAddMetric("mem.util.anonpages", pmiID(60, 1, 30), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.slab", pmiID(60, 1, 25), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.kernelStack", pmiID(60, 1, 43), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.pageTables", pmiID(60, 1, 27), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.vmallocUsed", pmiID(60, 1, 51), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); } #endif /* HAVE_PCP */ } /* * ************************************************************************** * Define PCP metrics for swap memory utilization. *************************************************************************** */ void pcp_def_swap_memory_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("mem.util.swapFree", pmiID(60, 1, 21), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.swapTotal", pmiID(60, 1, 20), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("mem.util.swapCached", pmiID(60, 1, 13), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for memory statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_memory_metrics(struct activity *a) { #ifdef HAVE_PCP if (DISPLAY_MEMORY(a->opt_flags)) { pcp_def_ram_memory_metrics(a); } if (DISPLAY_SWAP(a->opt_flags)) { pcp_def_swap_memory_metrics(); } #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for kernel tables statistics. *************************************************************************** */ void pcp_def_ktables_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("vfs.dentry.count", pmiID(60, 27, 5), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("vfs.files.count", pmiID(60, 27, 0), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("vfs.inodes.count", pmiID(60, 27, 3), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("kernel.all.nptys", pmiID(60, 72, 3), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for queue and load statistics. *************************************************************************** */ void pcp_def_queue_metrics(void) { #ifdef HAVE_PCP pmInDom indom; pmiAddMetric("kernel.all.runnable", pmiID(60, 2, 2), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("kernel.all.nprocs", pmiID(60, 2, 3), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("kernel.all.blocked", pmiID(60, 0, 16), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); indom = pmiInDom(60, 2); pmiAddMetric("kernel.all.load", pmiID(60, 2, 0), PM_TYPE_FLOAT, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddInstance(indom, "1 minute", 1); pmiAddInstance(indom, "5 minute", 5); pmiAddInstance(indom, "15 minute", 15); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for disks statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_disk_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst = 0; struct sa_item *list = a->item_list; /* Create domain */ indom = pmInDom_build(60, 1); /* Create instances */ while (list != NULL) { pmiAddInstance(indom, list->item_name, inst++); list = list->next; } } pmiAddMetric("disk.dev.read", pmiID(60, 0, 4), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.dev.write", pmiID(60, 0, 5), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.dev.total", pmiID(60, 0, 28), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("disk.dev.total_bytes", pmiID(60, 0, 37), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.dev.read_bytes", pmiID(60, 0, 38), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.dev.write_bytes", pmiID(60, 0, 39), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.dev.discard_bytes", pmiID(60, 0, 90), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("disk.dev.read_rawactive", pmiID(60, 0, 72), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("disk.dev.write_rawactive", pmiID(60, 0, 73), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("disk.dev.total_rawactive", pmiID(60, 0, 79), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("disk.dev.discard_rawactive", pmiID(60, 0, 92), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("disk.dev.avactive", pmiID(60, 0, 46), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); pmiAddMetric("disk.dev.aveq", pmiID(60, 0, 47), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_MSEC, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for network interfaces (errors) statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_net_dev_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst = 0; struct sa_item *list = a->item_list; /* Create domain */ indom = pmInDom_build(60, 3); /* Create instances */ while (list != NULL) { pmiAddInstance(indom, list->item_name, inst++); list = list->next; } } if (a->id == A_NET_DEV) { /* Create metrics for A_NET_DEV */ pmiAddMetric("network.interface.in.packets", pmiID(60, 3, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.packets", pmiID(60, 3, 9), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.in.bytes", pmiID(60, 3, 0), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("network.interface.out.bytes", pmiID(60, 3, 8), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("network.interface.in.compressed", pmiID(60, 3, 6), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.compressed", pmiID(60, 3, 15), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.in.mcasts", pmiID(60, 3, 7), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); } else { /* Create metrics for A_NET_EDEV */ pmiAddMetric("network.interface.in.errors", pmiID(60, 3, 2), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.errors", pmiID(60, 3, 10), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.collisions", pmiID(60, 3, 13), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.in.drops", pmiID(60, 3, 3), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.drops", pmiID(60, 3, 11), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.carrier", pmiID(60, 3, 14), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.in.frame", pmiID(60, 3, 5), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.in.fifo", pmiID(60, 3, 4), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.interface.out.fifo", pmiID(60, 3, 12), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); } #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for serial lines statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_serial_metrics(struct activity *a) { #ifdef HAVE_PCP int i; pmInDom indom; char buf[64]; /* Create domain */ indom = pmInDom_build(60, 35); /* Create metrics */ pmiAddMetric("tty.serial.rx", pmiID(60, 74, 0), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("tty.serial.tx", pmiID(60, 74, 1), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("tty.serial.frame", pmiID(60, 74, 2), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("tty.serial.parity", pmiID(60, 74, 3), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("tty.serial.brk", pmiID(60, 74, 4), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("tty.serial.overrun", pmiID(60, 74, 5), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 0, 0, 0, 0)); for (i = 0; i < a->nr_ini; i++) { /* Create instances */ sprintf(buf, "serial%d", i); pmiAddInstance(indom, buf, i); } #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for NFS client statistics. *************************************************************************** */ void pcp_def_net_nfs_metrics(void) { #ifdef HAVE_PCP pmInDom indom; pmiAddMetric("rpc.client.rpccnt", pmiID(60, 7, 20), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.client.rpcretrans", pmiID(60, 7, 21), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); indom = pmiInDom(60, 7); pmiAddInstance(indom, "read", 6); pmiAddInstance(indom, "write", 8); pmiAddInstance(indom, "access", 18); pmiAddInstance(indom, "getattr", 4); pmiAddMetric("nfs.client.reqs", pmiID(60, 7, 4), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for NFS server statistics. *************************************************************************** */ void pcp_def_net_nfsd_metrics(void) { #ifdef HAVE_PCP pmInDom indom; pmiAddMetric("rpc.server.rpccnt", pmiID(60, 7, 30), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.rpcbadclnt", pmiID(60, 7, 34), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.netcnt", pmiID(60, 7, 44), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.netudpcnt", pmiID(60, 7, 45), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.nettcpcnt", pmiID(60, 7, 46), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.rchits", pmiID(60, 7, 35), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("rpc.server.rcmisses", pmiID(60, 7, 36), PM_TYPE_U32, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); indom = pmiInDom(60, 7); pmiAddInstance(indom, "read", 6); pmiAddInstance(indom, "write", 8); pmiAddInstance(indom, "access", 18); pmiAddInstance(indom, "getattr", 4); pmiAddMetric("nfs.server.reqs", pmiID(60, 7, 12), PM_TYPE_U32, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for network sockets statistics. *************************************************************************** */ void pcp_def_net_sock_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.sockstat.total", pmiID(60, 11, 9), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.tcp.inuse", pmiID(60, 11, 0), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.udp.inuse", pmiID(60, 11, 3), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.raw.inuse", pmiID(60, 11, 6), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.frag.inuse", pmiID(60, 11, 15), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.tcp.tw", pmiID(60, 11, 11), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for IP network statistics. *************************************************************************** */ void pcp_def_net_ip_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.ip.inreceives", pmiID(60, 14, 2), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.forwdatagrams", pmiID(60, 14, 5), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.indelivers", pmiID(60, 14, 8), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.outrequests", pmiID(60, 14, 9), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.reasmreqds", pmiID(60, 14, 13), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.reasmoks", pmiID(60, 14, 14), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.fragoks", pmiID(60, 14, 16), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.fragcreates", pmiID(60, 14, 18), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for IP network errors statistics. *************************************************************************** */ void pcp_def_net_eip_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.ip.inhdrerrors", pmiID(60, 14, 3), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.inaddrerrors", pmiID(60, 14, 4), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.inunknownprotos", pmiID(60, 14, 6), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.indiscards", pmiID(60, 14, 7), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.outdiscards", pmiID(60, 14, 10), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.outnoroutes", pmiID(60, 14, 11), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.reasmfails", pmiID(60, 14, 15), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip.fragfails", pmiID(60, 14, 17), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for ICMP network statistics. *************************************************************************** */ void pcp_def_net_icmp_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.icmp.inmsgs", pmiID(60, 14, 20), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outmsgs", pmiID(60, 14, 33), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inechos", pmiID(60, 14, 27), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inechoreps", pmiID(60, 14, 28), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outechos", pmiID(60, 14, 40), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outechoreps", pmiID(60, 14, 41), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.intimestamps", pmiID(60, 14, 29), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.intimestampreps", pmiID(60, 14, 30), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outtimestamps", pmiID(60, 14, 42), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outtimestampreps", pmiID(60, 14, 43), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inaddrmasks", pmiID(60, 14, 31), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inaddrmaskreps", pmiID(60, 14, 32), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outaddrmasks", pmiID(60, 14, 44), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outaddrmaskreps", pmiID(60, 14, 45), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for ICMP network errors statistics. *************************************************************************** */ void pcp_def_net_eicmp_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.icmp.inerrors", pmiID(60, 14, 21), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outerrors", pmiID(60, 14, 34), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.indestunreachs", pmiID(60, 14, 22), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outdestunreachs", pmiID(60, 14, 35), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.intimeexcds", pmiID(60, 14, 23), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outtimeexcds", pmiID(60, 14, 36), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inparmprobs", pmiID(60, 14, 24), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outparmprobs", pmiID(60, 14, 37), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.insrcquenchs", pmiID(60, 14, 25), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outsrcquenchs", pmiID(60, 14, 38), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.inredirects", pmiID(60, 14, 27), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp.outredirects", pmiID(60, 14, 39), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for TCP network statistics. *************************************************************************** */ void pcp_def_net_tcp_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.tcp.activeopens", pmiID(60, 14, 54), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.passiveopens", pmiID(60, 14, 55), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.insegs", pmiID(60, 14, 59), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.outsegs", pmiID(60, 14, 60), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for TCP network errors statistics. *************************************************************************** */ void pcp_def_net_etcp_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.tcp.attemptfails", pmiID(60, 14, 56), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.estabresets", pmiID(60, 14, 57), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.retranssegs", pmiID(60, 14, 61), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.inerrs", pmiID(60, 14, 62), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.tcp.outrsts", pmiID(60, 14, 63), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for UDP network statistics. *************************************************************************** */ void pcp_def_net_udp_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.udp.indatagrams", pmiID(60, 14, 70), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp.outdatagrams", pmiID(60, 14, 74), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp.noports", pmiID(60, 14, 71), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp.inerrors", pmiID(60, 14, 72), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for IPv6 network sockets statistics. *************************************************************************** */ void pcp_def_net_sock6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.sockstat.tcp6.inuse", pmiID(60, 73, 0), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.udp6.inuse", pmiID(60, 73, 1), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.raw6.inuse", pmiID(60, 73, 3), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.sockstat.frag6.inuse", pmiID(60, 73, 4), PM_TYPE_32, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for IPv6 network statistics. *************************************************************************** */ void pcp_def_net_ip6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.ip6.inreceives", pmiID(60, 58, 0), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.outforwdatagrams", pmiID(60, 58, 9), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.indelivers", pmiID(60, 58, 8), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.outrequests", pmiID(60, 58, 10), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.reasmreqds", pmiID(60, 58, 14), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.reasmoks", pmiID(60, 58, 15), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.inmcastpkts", pmiID(60, 58, 20), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.outmcastpkts", pmiID(60, 58, 21), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.fragoks", pmiID(60, 58, 17), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.fragcreates", pmiID(60, 58, 19), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for IPv6 network errors statistics. *************************************************************************** */ void pcp_def_net_eip6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.ip6.inhdrerrors", pmiID(60, 58, 1), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.inaddrerrors", pmiID(60, 58, 4), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.inunknownprotos", pmiID(60, 58, 5), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.intoobigerrors", pmiID(60, 58, 2), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.indiscards", pmiID(60, 58, 7), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.outdiscards", pmiID(60, 58, 11), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.innoroutes", pmiID(60, 58, 3), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.outnoroutes", pmiID(60, 58, 12), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.reasmfails", pmiID(60, 58, 16), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.fragfails", pmiID(60, 58, 18), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.ip6.intruncatedpkts", pmiID(60, 58, 6), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for ICMPv6 network statistics. *************************************************************************** */ void pcp_def_net_icmp6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.icmp6.inmsgs", pmiID(60, 58, 32), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outmsgs", pmiID(60, 58, 34), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inechos", pmiID(60, 58, 41), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inechoreplies", pmiID(60, 58, 42), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outechoreplies", pmiID(60, 58, 57), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.ingroupmembqueries", pmiID(60, 58, 43), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.ingroupmembresponses", pmiID(60, 58, 44), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outgroupmembresponses", pmiID(60, 58, 59), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.ingroupmembreductions", pmiID(60, 58, 45), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outgroupmembreductions", pmiID(60, 58, 60), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inroutersolicits", pmiID(60, 58, 46), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outroutersolicits", pmiID(60, 58, 61), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inrouteradvertisements", pmiID(60, 58, 47), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inneighborsolicits", pmiID(60, 58, 48), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outneighborsolicits", pmiID(60, 58, 63), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inneighboradvertisements", pmiID(60, 58, 49), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outneighboradvertisements", pmiID(60, 58, 64), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for ICMPv6 network errors statistics. *************************************************************************** */ void pcp_def_net_eicmp6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.icmp6.inerrors", pmiID(60, 58, 33), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.indestunreachs", pmiID(60, 58, 37), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outdestunreachs", pmiID(60, 58, 52), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.intimeexcds", pmiID(60, 58, 39), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outtimeexcds", pmiID(60, 58, 54), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inparmproblems", pmiID(60, 58, 40), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outparmproblems", pmiID(60, 58, 55), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inredirects", pmiID(60, 58, 50), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outredirects", pmiID(60, 58, 65), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.inpkttoobigs", pmiID(60, 58, 38), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.icmp6.outpkttoobigs", pmiID(60, 58, 53), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for UDPv6 network statistics. *************************************************************************** */ void pcp_def_net_udp6_metrics(void) { #ifdef HAVE_PCP pmiAddMetric("network.udp6.indatagrams", pmiID(60, 58, 67), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp6.outdatagrams", pmiID(60, 58, 70), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp6.noports", pmiID(60, 58, 68), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("network.udp6.inerrors", pmiID(60, 58, 69), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for huge pages statistics. *************************************************************************** */ void pcp_def_huge_metrics() { #ifdef HAVE_PCP pmiAddMetric("mem.util.hugepagesTotalBytes", pmiID(60, 1, 60), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("mem.util.hugepagesFreeBytes", pmiID(60, 1, 61), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("mem.util.hugepagesRsvdBytes", pmiID(60, 1, 62), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("mem.util.hugepagesSurpBytes", pmiID(60, 1, 63), PM_TYPE_U64, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for fan statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_pwr_fan_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst; char buf[16]; /* Create domain */ indom = pmInDom_build(34, 0); for (inst = 0; inst < a->item_list_sz; inst++) { sprintf(buf, "fan%d", inst + 1); pmiAddInstance(indom, buf, inst); } } pmiAddMetric("power.fan.rpm", pmiID(34, 0, 0), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.fan.drpm", pmiID(34, 0, 1), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.fan.device", pmiID(34, 0, 2), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for temperature statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_pwr_temp_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst; char buf[16]; /* Create domain */ indom = pmInDom_build(34, 1); for (inst = 0; inst < a->item_list_sz; inst++) { sprintf(buf, "temp%d", inst + 1); pmiAddInstance(indom, buf, inst); } } pmiAddMetric("power.temp.celsius", pmiID(34, 1, 0), PM_TYPE_FLOAT, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.temp.percent", pmiID(34, 1, 1), PM_TYPE_FLOAT, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.temp.device", pmiID(34, 1, 2), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for voltage inputs statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_pwr_in_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst; char buf[16]; /* Create domain */ indom = pmInDom_build(34, 2); for (inst = 0; inst < a->item_list_sz; inst++) { sprintf(buf, "in%d", inst); pmiAddInstance(indom, buf, inst); } } pmiAddMetric("power.in.voltage", pmiID(34, 2, 0), PM_TYPE_FLOAT, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.in.percent", pmiID(34, 2, 1), PM_TYPE_FLOAT, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.in.device", pmiID(34, 2, 2), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* * ************************************************************************** * Define PCP metrics for battery statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_pwr_bat_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst = 0; struct sa_item *list = a->item_list; /* Create domain */ indom = pmInDom_build(34, 4); /* Create instances */ while (list != NULL) { pmiAddInstance(indom, list->item_name, inst++); list = list->next; } } pmiAddMetric("power.bat.capacity", pmiID(34, 4, 0), PM_TYPE_U32, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.bat.status", pmiID(34, 4, 2), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for USB devices statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_pwr_usb_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst; char buf[16]; /* Create domain */ indom = pmInDom_build(34, 3); for (inst = 0; inst < a->item_list_sz; inst++) { sprintf(buf, "usb%d", inst); pmiAddInstance(indom, buf, inst); } } pmiAddMetric("power.usb.bus", pmiID(34, 3, 0), PM_TYPE_U32, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.usb.vendorId", pmiID(34, 3, 1), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.usb.productId", pmiID(34, 3, 2), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.usb.maxpower", pmiID(34, 3, 3), PM_TYPE_U32, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.usb.manufacturer", pmiID(34, 3, 4), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("power.usb.productName", pmiID(34, 3, 5), PM_TYPE_STRING, indom, PM_SEM_DISCRETE, pmiUnits(0, 0, 0, 0, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for filesystem statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_filesystem_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst = 0; struct sa_item *list = a->item_list; /* Create domain */ indom = pmInDom_build(60, 5); /* Create instances */ while (list != NULL) { pmiAddInstance(indom, list->item_name, inst++); list = list->next; } } pmiAddMetric("filesys.capacity", pmiID(60, 5, 1), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("filesys.free", pmiID(60, 5, 3), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("filesys.used", pmiID(60, 5, 2), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); pmiAddMetric("filesys.full", pmiID(60, 5, 8), PM_TYPE_DOUBLE, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("filesys.maxfiles", pmiID(60, 5, 4), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("filesys.freefiles", pmiID(60, 5, 6), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("filesys.usedfiles", pmiID(60, 5, 5), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("filesys.avail", pmiID(60, 5, 10), PM_TYPE_U64, indom, PM_SEM_INSTANT, pmiUnits(1, 0, 0, PM_SPACE_KBYTE, 0, 0)); #endif /* HAVE_PCP */ } /* *************************************************************************** * Define PCP metrics for Fibre Channel HBA statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_fchost_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { int inst = 0; struct sa_item *list = a->item_list; /* Create domain */ indom = pmInDom_build(60, 39); /* Create instances */ while (list != NULL) { pmiAddInstance(indom, list->item_name, inst++); list = list->next; } } pmiAddMetric("fchost.in.frames", pmiID(60, 91, 0), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("fchost.out.frames", pmiID(60, 91, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 0, 1, 0, 0, PM_COUNT_ONE)); pmiAddMetric("fchost.in.bytes", pmiID(60, 91, 2), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); pmiAddMetric("fchost.out.bytes", pmiID(60, 91, 3), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(1, 0, 0, PM_SPACE_BYTE, 0, 0)); #endif /* HAVE_PCP */ } #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for pressure-stall CPU statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_psicpu_metrics(pmInDom indom) { pmiAddMetric("kernel.all.pressure.cpu.some.total", pmiID(60, 83, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_USEC, 0)); pmiAddMetric("kernel.all.pressure.cpu.some.avg", pmiID(60, 83, 0), PM_TYPE_FLOAT, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); } #endif /* HAVE_PCP */ #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for pressure-stall I/O statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_psiio_metrics(pmInDom indom) { pmiAddMetric("kernel.all.pressure.io.some.total", pmiID(60, 85, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_USEC, 0)); pmiAddMetric("kernel.all.pressure.io.some.avg", pmiID(60, 85, 0), PM_TYPE_FLOAT, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("kernel.all.pressure.io.full.total", pmiID(60, 85, 3), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_USEC, 0)); pmiAddMetric("kernel.all.pressure.io.full.avg", pmiID(60, 85, 2), PM_TYPE_FLOAT, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); } #endif /* HAVE_PCP */ #ifdef HAVE_PCP /* * ************************************************************************** * Define PCP metrics for pressure-stall memory statistics. * * IN * @indom Instance domain. *************************************************************************** */ void pcp_def_psimem_metrics(pmInDom indom) { pmiAddMetric("kernel.all.pressure.memory.some.total", pmiID(60, 84, 1), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_USEC, 0)); pmiAddMetric("kernel.all.pressure.memory.some.avg", pmiID(60, 84, 0), PM_TYPE_FLOAT, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); pmiAddMetric("kernel.all.pressure.memory.full.total", pmiID(60, 84, 3), PM_TYPE_U64, indom, PM_SEM_COUNTER, pmiUnits(0, 1, 0, 0, PM_TIME_USEC, 0)); pmiAddMetric("kernel.all.pressure.memory.full.avg", pmiID(60, 84, 2), PM_TYPE_FLOAT, PM_INDOM_NULL, PM_SEM_INSTANT, pmiUnits(0, 0, 0, 0, 0, 0)); } #endif /* HAVE_PCP */ /* *************************************************************************** * Define PCP metrics for pressure-stall statistics. * * IN: * @a Activity structure with statistics. *************************************************************************** */ void pcp_def_psi_metrics(struct activity *a) { #ifdef HAVE_PCP static pmInDom indom = PM_INDOM_NULL; if (indom == PM_INDOM_NULL) { /* Create domain */ indom = pmInDom_build(60, 37); pmiAddInstance(indom, "10 second", 10); pmiAddInstance(indom, "1 minute", 60); pmiAddInstance(indom, "5 minute", 300); } if (a->id == A_PSI_CPU) { /* Create metrics for A_PSI_CPU */ pcp_def_psicpu_metrics(indom); } else if (a->id == A_PSI_IO) { /* Create metrics for A_PSI_IO */ pcp_def_psiio_metrics(indom); } else { /* Create metrics for A_PSI_MEM */ pcp_def_psimem_metrics(indom); } #endif /* HAVE_PCP */ }