sigar/src/os/solaris/kstats.c

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#include "sigar.h"
#include "sigar_private.h"
#include "sigar_util.h"
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#include "sigar_os.h"
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int sigar_get_multi_kstats(sigar_t *sigar,
kstat_list_t *kl,
const char *name,
kstat_t **retval)
{
kstat_ctl_t *kc = sigar->kc;
kstat_t *ksp;
int i = 0;
int dev;
name += kl->nlen; /* e.g. "hme0" + 3 */
dev = atoi(name);
if ((kl->num == 0) || (kstat_chain_update(kc) > 0)) {
while ((ksp = kstat_lookup(kc, kl->name, i, NULL))) {
if (i+1 > kl->num) {
kl->num = i+1;
kl->ks = realloc(kl->ks, kl->num * sizeof(*kl->ks));
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}
kl->ks[i] = ksp;
i++;
}
}
if (dev >= kl->num) {
return ENXIO;
}
*retval = kl->ks[dev];
return SIGAR_OK;
}
int sigar_get_kstats(sigar_t *sigar)
{
kstat_ctl_t *kc = sigar->kc;
kstat_t *ksp;
unsigned int i, ncpu = sysconf(_SC_NPROCESSORS_CONF);
ksp = kstat_lookup(kc, "unix", -1, "vminfo");
sigar->ks.vminfo = ksp;
if (ksp) {
kstat_read(kc, ksp, &sigar->vminfo);
if (!sigar->vminfo_snaptime) {
sigar->vminfo_snaptime = ksp->ks_snaptime;
}
}
if (ncpu != sigar->ncpu) {
if (!sigar->ks.lcpu) {
/* init */
sigar->ks.lcpu = ncpu;
sigar->ks.cpu = malloc(sizeof(*(sigar->ks.cpu)) * ncpu);
sigar->ks.cpuid = malloc(sizeof(*(sigar->ks.cpuid)) * ncpu);
}
else {
if (ncpu > sigar->ks.lcpu) {
/* one or more cpus have been added */
sigar->ks.cpu = realloc(sigar->ks.cpu,
sizeof(*(sigar->ks.cpu)) * ncpu);
sigar->ks.cpuid = realloc(sigar->ks.cpuid,
sizeof(*(sigar->ks.cpuid)) * ncpu);
sigar->ks.lcpu = ncpu;
}
/* else or more cpus have been removed */
}
sigar->ncpu = ncpu;
for (i=0, ksp=kc->kc_chain; i<ncpu; ksp=ksp->ks_next) {
char *id;
if (!ksp) {
break;
}
if (strncmp(ksp->ks_name, "cpu_stat", 8)) {
continue;
}
/* from man p_online:
* ``Processor numbers are integers,
* greater than or equal to 0,
* and are defined by the hardware platform.
* Processor numbers are not necessarily contiguous,
* but "not too sparse."``
* so we maintain our own mapping in ks.cpuid[]
*/
id = ksp->ks_name;
while (!sigar_isdigit(*id)) {
id++;
}
sigar->ks.cpu[i] = ksp;
sigar->ks.cpuid[i] = atoi(id);
i++;
}
}
sigar->ks.system = kstat_lookup(kc, "unix", -1, "system_misc");
sigar->ks.syspages = kstat_lookup(kc, "unix", -1, "system_pages");
sigar->ks.mempages = kstat_lookup(kc, "bunyip", -1, "mempages");
return SIGAR_OK;
}
/*
* bincompat is not possible with certain kstat data structures between
* solaris 2.6, 2.7, 2.8, etc. alternative is to use kstat_data_lookup()
* which means everytime we want a stat, must do a linear search
* of ksp->ks_data. eek. so we meet half way and do the search for
* each key once per sigar_t instance. once the initial search has
* been done, we have a table of offsets to quickly access the stats via
* ksp->ks_data + offset. this gives us bincompat without the overhead
* of many kstat_data_lookup calls.
*/
static SIGAR_INLINE int kstat_named_offset(kstat_t *ksp, const char *name)
{
unsigned int i;
kstat_named_t *kn;
for (i=0, kn=ksp->ks_data;
i<ksp->ks_ndata;
i++, kn++)
{
if (strEQ(kn->name, name)) {
return i;
}
}
return -2; /* not found */
}
static char *kstat_keys_lo[] = {
"ipackets", /* RX_PACKETS */
"opackets", /* TX_PACKETS */
NULL
};
static char *kstat_keys_hme[] = {
"ipackets", /* RX_PACKETS */
"rbytes", /* RX_BYTES */
"ierrors", /* RX_ERRORS */
"missed", /* RX_DROPPED */
"oflo", /* RX_OVERRUNS */
"framing", /* RX_FRAME */
"opackets", /* TX_PACKETS */
"obytes", /* TX_BYTES */
"oerrors", /* TX_ERRORS */
"missed", /* TX_DROPPED */
"oflo", /* TX_OVERRUNS */
"collisions", /* TX_COLLISIONS */
"nocarrier", /* TX_CARRIER */
NULL
};
static char *kstat_keys_dmfe[] = {
"ipackets", /* RX_PACKETS */
"rbytes", /* RX_BYTES */
"ierrors", /* RX_ERRORS */
"missed", /* RX_DROPPED */
"oflo", /* RX_OVERRUNS */
"framing", /* RX_FRAME */
"opackets", /* TX_PACKETS */
"obytes", /* TX_BYTES */
"oerrors", /* TX_ERRORS */
"missed", /* TX_DROPPED */
"oflo", /* TX_OVERRUNS */
"collisions", /* TX_COLLISIONS */
"nocarrier", /* TX_CARRIER */
NULL
};
static char *kstat_keys_ge[] = {
"ipackets", /* RX_PACKETS */
"rbytes", /* RX_BYTES */
"ierrors", /* RX_ERRORS */
"drop", /* RX_DROPPED */
"toolong_errors", /* RX_OVERRUNS */
"framing", /* RX_FRAME */
"opackets", /* TX_PACKETS */
"obytes", /* TX_BYTES */
"oerrors", /* TX_ERRORS */
"drop", /* TX_DROPPED */
"toolong_errors", /* TX_OVERRUNS */
"collisions", /* TX_COLLISIONS */
"nocarrier", /* TX_CARRIER */
NULL
};
static char *kstat_keys_eri[] = {
"ipackets", /* RX_PACKETS */
"rbytes", /* RX_BYTES */
"ierrors", /* RX_ERRORS */
"drop", /* RX_DROPPED */
"rx_overflow", /* RX_OVERRUNS */
"parity_error", /* RX_FRAME */
"opackets", /* TX_PACKETS */
"obytes", /* TX_BYTES */
"oerrors", /* TX_ERRORS */
"drop", /* TX_DROPPED */
"rx_overflow", /* TX_OVERRUNS */
"collisions", /* TX_COLLISIONS */
"nocarrier", /* TX_CARRIER */
NULL
};
static char *kstat_keys_system[] = {
"boot_time",
"avenrun_1min",
"avenrun_5min",
"avenrun_15min",
NULL
};
static char *kstat_keys_mempages[] = {
"pages_anon",
"pages_exec",
"pages_vnode",
NULL
};
static char *kstat_keys_syspages[] = {
"pagesfree",
NULL
};
static char **kstat_keys[] = {
kstat_keys_lo,
kstat_keys_hme,
kstat_keys_dmfe,
kstat_keys_ge,
kstat_keys_eri,
kstat_keys_system,
kstat_keys_mempages,
kstat_keys_syspages,
};
void sigar_koffsets_lookup(kstat_t *ksp, int *offsets, int kidx)
{
int i;
char **keys = kstat_keys[kidx];
for (i=0; keys[i]; i++) {
offsets[i] = kstat_named_offset(ksp, keys[i]);
}
}