agent/mibgroup/ucd-snmp/vmstat_bsdi4.c - vendor/opensource/netsnmp - Git at Google

 /*
  * vmstat_bsdi4.c
  */

 #include <net-snmp/net-snmp-config.h>

 /*
  * Ripped from /usr/scr/usr.bin/vmstat/vmstat.c (covering all bases)
  */
 #include <sys/param.h>
 #include <sys/time.h>
 #include <sys/proc.h>
 #include <sys/dkstat.h>
 #include <sys/buf.h>
 #include <sys/uio.h>
 #include <sys/namei.h>
 #include <sys/malloc.h>
 #include <sys/signal.h>
 #include <sys/fcntl.h>
 #include <sys/ioctl.h>
 #include <sys/sysctl.h>
 #include <sys/vmmeter.h>

 #include <vm/vm_param.h>
 #include <vm/vm_extern.h>

 #include <time.h>
 #include <nlist.h>
 #include <kvm.h>
 #include <errno.h>
 #include <unistd.h>
 #include <stdio.h>
 #include <ctype.h>
 #include <stdlib.h>
 #include <string.h>
 #include <paths.h>
 #include <limits.h>


 #include <net-snmp/net-snmp-includes.h>
 #include <net-snmp/agent/net-snmp-agent-includes.h>
 #include <net-snmp/agent/auto_nlist.h>

 #include "util_funcs.h"
 #include "vmstat.h"

 /*
  * CPU percentage
  */
 #define CPU_PRC         100
 #define BOOTTIME_SYMBOL	"boottime"

 FindVarMethod var_extensible_vmstat;

 void
 init_vmstat_bsdi4(void)
 {

     struct variable2 extensible_vmstat_variables[] = {
         {MIBINDEX, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
          {MIBINDEX}},
         {ERRORNAME, ASN_OCTET_STR, RONLY, var_extensible_vmstat, 1,
          {ERRORNAME}},
         {SWAPIN, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {SWAPIN}},
         {SWAPOUT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {SWAPOUT}},
         {IOSENT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {IOSENT}},
         {IORECEIVE, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
          {IORECEIVE}},
         {SYSINTERRUPTS, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
          {SYSINTERRUPTS}},
         {SYSCONTEXT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
          {SYSCONTEXT}},
         {CPUUSER, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {CPUUSER}},
         {CPUSYSTEM, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
          {CPUSYSTEM}},
         {CPUIDLE, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {CPUIDLE}},
         {CPURAWUSER, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWUSER}},
         {CPURAWNICE, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWNICE}},
         {CPURAWSYSTEM, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWSYSTEM}},
         {CPURAWIDLE, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWIDLE}},
         {CPURAWKERNEL, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWKERNEL}},
         {CPURAWINTR, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
          {CPURAWINTR}},
         /*
          * Future use:
          */
         /*
          * {ERRORFLAG, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {ERRORFLAG }},
          * {ERRORMSG, ASN_OCTET_STR, RONLY, var_extensible_vmstat, 1, {ERRORMSG }}
          */
     };

     /*
      * Define the OID pointer to the top of the mib tree that we're
      * registering underneath
      */
     oid             vmstat_variables_oid[] = { NETSNMP_UCDAVIS_MIB, 11 };

     /*
      * register ourselves with the agent to handle our mib tree
      */
     REGISTER_MIB("ucd-snmp/vmstat", extensible_vmstat_variables, variable2,
                  vmstat_variables_oid);

 }


 long
 getuptime(void)
 {
     static time_t   now, boottime;
     time_t          uptime;

     if (boottime == 0)
         auto_nlist(BOOTTIME_SYMBOL, (char *) &boottime, sizeof(boottime));

     time(&now);
     uptime = now - boottime;

     return (uptime);
 }

 unsigned char  *
 var_extensible_vmstat(struct variable *vp,
                       oid * name,
                       size_t * length,
                       int exact,
                       size_t * var_len, WriteMethod ** write_method)
 {

     int             loop;

     time_t          time_new = getuptime();
     static time_t   time_old;
     static time_t   time_diff;

     static long     cpu_old[CPUSTATES];
     static long     cpu_new[CPUSTATES];
     static long     cpu_diff[CPUSTATES];
     static long     cpu_total;
     long            cpu_sum;
     double          cpu_prc;

     static struct vmmeter mem_old, mem_new;
     int             mem_mib[] = { CTL_VM, VM_CNT };
     size_t          mem_size = sizeof(struct vmmeter);
     int             cpu_mib[] = { CTL_KERN, KERN_CPUSTATS };
     size_t          cpu_size = sizeof(struct cpustats);

     static long     long_ret;
     static char     errmsg[300];

     long_ret = 0;               /* set to 0 as default */

     if (header_generic(vp, name, length, exact, var_len, write_method))
         return (NULL);

     /*
      * Update structures (only if time has passed)
      */
     if (time_new != time_old) {
         time_diff = time_new - time_old;
         time_old = time_new;

         /*
          * CPU usage
          */
         sysctl(cpu_mib, 2, &cpu_new, &cpu_size, NULL, 0);

         cpu_total = 0;

         for (loop = 0; loop < CPUSTATES; loop++) {
             cpu_diff[loop] = cpu_new[loop] - cpu_old[loop];
             cpu_old[loop] = cpu_new[loop];
             cpu_total += cpu_diff[loop];
         }

         if (cpu_total == 0)
             cpu_total = 1;

         /*
          * Memory info
          */
         mem_old = mem_new;
         sysctl(mem_mib, 2, &mem_new, &mem_size, NULL, 0);
     }

     /*
      * Rate macro
      */
 #define rate(x) (((x)+ time_diff/2) / time_diff)

     /*
      * Page-to-kb macro
      */
 #define ptok(p) ((p) * (mem_new.v_page_size >> 10))

     switch (vp->magic) {
     case MIBINDEX:
         long_ret = 1;
         return ((u_char *) (&long_ret));
     case ERRORNAME:            /* dummy name */
         sprintf(errmsg, "systemStats");
         *var_len = strlen(errmsg);
         return ((u_char *) (errmsg));
     case SWAPIN:
         long_ret = ptok(mem_new.v_swpin - mem_old.v_swpin);
         long_ret = rate(long_ret);
         return ((u_char *) (&long_ret));
     case SWAPOUT:
         long_ret = ptok(mem_new.v_swpout - mem_old.v_swpout);
         long_ret = rate(long_ret);
         return ((u_char *) (&long_ret));
     case IOSENT:
 #if NETSNMP_NO_DUMMY_VALUES
         return NULL;
 #endif
         long_ret = -1;
         return ((u_char *) (&long_ret));
     case IORECEIVE:
 #if NETSNMP_NO_DUMMY_VALUES
         return NULL;
 #endif
         long_ret = -1;
         return ((u_char *) (&long_ret));
     case SYSINTERRUPTS:
         long_ret = rate(mem_new.v_intr - mem_old.v_intr);
         return ((u_char *) (&long_ret));
     case SYSCONTEXT:
         long_ret = rate(mem_new.v_swtch - mem_old.v_swtch);
         return ((u_char *) (&long_ret));
     case CPUUSER:
         cpu_sum = cpu_diff[CP_USER] + cpu_diff[CP_NICE];
         cpu_prc = (float) cpu_sum / (float) cpu_total;
         long_ret = cpu_prc * CPU_PRC;
         return ((u_char *) (&long_ret));
     case CPUSYSTEM:
         cpu_sum = cpu_diff[CP_SYS] + cpu_diff[CP_INTR];
         cpu_prc = (float) cpu_sum / (float) cpu_total;
         long_ret = cpu_prc * CPU_PRC;
         return ((u_char *) (&long_ret));
     case CPUIDLE:
         cpu_sum = cpu_diff[CP_IDLE];
         cpu_prc = (float) cpu_sum / (float) cpu_total;
         long_ret = cpu_prc * CPU_PRC;
         return ((u_char *) (&long_ret));
     case CPURAWUSER:
         long_ret = cpu_new[CP_USER];
         return ((u_char *) (&long_ret));
     case CPURAWNICE:
         long_ret = cpu_new[CP_NICE];
         return ((u_char *) (&long_ret));
     case CPURAWSYSTEM:
         long_ret = cpu_new[CP_SYS] + cpu_new[CP_INTR];
         return ((u_char *) (&long_ret));
     case CPURAWIDLE:
         long_ret = cpu_new[CP_IDLE];
         return ((u_char *) (&long_ret));
     case CPURAWKERNEL:
         long_ret = cpu_new[CP_SYS];
         return ((u_char *) (&long_ret));
     case CPURAWINTR:
         long_ret = cpu_new[CP_INTR];
         return ((u_char *) (&long_ret));
         /*
          * reserved for future use
          */
         /*
          * case ERRORFLAG:
          * return((u_char *) (&long_ret));
          * case ERRORMSG:
          * return((u_char *) (&long_ret));
          */
     }
     return NULL;
 }
	/*
	* vmstat_bsdi4.c
	*/

	#include <net-snmp/net-snmp-config.h>

	/*
	* Ripped from /usr/scr/usr.bin/vmstat/vmstat.c (covering all bases)
	*/
	#include <sys/param.h>
	#include <sys/time.h>
	#include <sys/proc.h>
	#include <sys/dkstat.h>
	#include <sys/buf.h>
	#include <sys/uio.h>
	#include <sys/namei.h>
	#include <sys/malloc.h>
	#include <sys/signal.h>
	#include <sys/fcntl.h>
	#include <sys/ioctl.h>
	#include <sys/sysctl.h>
	#include <sys/vmmeter.h>

	#include <vm/vm_param.h>
	#include <vm/vm_extern.h>

	#include <time.h>
	#include <nlist.h>
	#include <kvm.h>
	#include <errno.h>
	#include <unistd.h>
	#include <stdio.h>
	#include <ctype.h>
	#include <stdlib.h>
	#include <string.h>
	#include <paths.h>
	#include <limits.h>


	#include <net-snmp/net-snmp-includes.h>
	#include <net-snmp/agent/net-snmp-agent-includes.h>
	#include <net-snmp/agent/auto_nlist.h>

	#include "util_funcs.h"
	#include "vmstat.h"

	/*
	* CPU percentage
	*/
	#define CPU_PRC 100
	#define BOOTTIME_SYMBOL "boottime"

	FindVarMethod var_extensible_vmstat;

	void
	init_vmstat_bsdi4(void)
	{

	struct variable2 extensible_vmstat_variables[] = {
	{MIBINDEX, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
	{MIBINDEX}},
	{ERRORNAME, ASN_OCTET_STR, RONLY, var_extensible_vmstat, 1,
	{ERRORNAME}},
	{SWAPIN, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {SWAPIN}},
	{SWAPOUT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {SWAPOUT}},
	{IOSENT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {IOSENT}},
	{IORECEIVE, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
	{IORECEIVE}},
	{SYSINTERRUPTS, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
	{SYSINTERRUPTS}},
	{SYSCONTEXT, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
	{SYSCONTEXT}},
	{CPUUSER, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {CPUUSER}},
	{CPUSYSTEM, ASN_INTEGER, RONLY, var_extensible_vmstat, 1,
	{CPUSYSTEM}},
	{CPUIDLE, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {CPUIDLE}},
	{CPURAWUSER, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWUSER}},
	{CPURAWNICE, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWNICE}},
	{CPURAWSYSTEM, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWSYSTEM}},
	{CPURAWIDLE, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWIDLE}},
	{CPURAWKERNEL, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWKERNEL}},
	{CPURAWINTR, ASN_COUNTER, RONLY, var_extensible_vmstat, 1,
	{CPURAWINTR}},
	/*
	* Future use:
	*/
	/*
	* {ERRORFLAG, ASN_INTEGER, RONLY, var_extensible_vmstat, 1, {ERRORFLAG }},
	* {ERRORMSG, ASN_OCTET_STR, RONLY, var_extensible_vmstat, 1, {ERRORMSG }}
	*/
	};

	/*
	* Define the OID pointer to the top of the mib tree that we're
	* registering underneath
	*/
	oid vmstat_variables_oid[] = { NETSNMP_UCDAVIS_MIB, 11 };

	/*
	* register ourselves with the agent to handle our mib tree
	*/
	REGISTER_MIB("ucd-snmp/vmstat", extensible_vmstat_variables, variable2,
	vmstat_variables_oid);

	}


	long
	getuptime(void)
	{
	static time_t now, boottime;
	time_t uptime;

	if (boottime == 0)
	auto_nlist(BOOTTIME_SYMBOL, (char *) &boottime, sizeof(boottime));

	time(&now);
	uptime = now - boottime;

	return (uptime);
	}

	unsigned char *
	var_extensible_vmstat(struct variable *vp,
	oid * name,
	size_t * length,
	int exact,
	size_t * var_len, WriteMethod ** write_method)
	{

	int loop;

	time_t time_new = getuptime();
	static time_t time_old;
	static time_t time_diff;

	static long cpu_old[CPUSTATES];
	static long cpu_new[CPUSTATES];
	static long cpu_diff[CPUSTATES];
	static long cpu_total;
	long cpu_sum;
	double cpu_prc;

	static struct vmmeter mem_old, mem_new;
	int mem_mib[] = { CTL_VM, VM_CNT };
	size_t mem_size = sizeof(struct vmmeter);
	int cpu_mib[] = { CTL_KERN, KERN_CPUSTATS };
	size_t cpu_size = sizeof(struct cpustats);

	static long long_ret;
	static char errmsg[300];

	long_ret = 0; /* set to 0 as default */

	if (header_generic(vp, name, length, exact, var_len, write_method))
	return (NULL);

	/*
	* Update structures (only if time has passed)
	*/
	if (time_new != time_old) {
	time_diff = time_new - time_old;
	time_old = time_new;

	/*
	* CPU usage
	*/
	sysctl(cpu_mib, 2, &cpu_new, &cpu_size, NULL, 0);

	cpu_total = 0;

	for (loop = 0; loop < CPUSTATES; loop++) {
	cpu_diff[loop] = cpu_new[loop] - cpu_old[loop];
	cpu_old[loop] = cpu_new[loop];
	cpu_total += cpu_diff[loop];
	}

	if (cpu_total == 0)
	cpu_total = 1;

	/*
	* Memory info
	*/
	mem_old = mem_new;
	sysctl(mem_mib, 2, &mem_new, &mem_size, NULL, 0);
	}

	/*
	* Rate macro
	*/
	#define rate(x) (((x)+ time_diff/2) / time_diff)

	/*
	* Page-to-kb macro
	*/
	#define ptok(p) ((p) * (mem_new.v_page_size >> 10))

	switch (vp->magic) {
	case MIBINDEX:
	long_ret = 1;
	return ((u_char *) (&long_ret));
	case ERRORNAME: /* dummy name */
	sprintf(errmsg, "systemStats");
	*var_len = strlen(errmsg);
	return ((u_char *) (errmsg));
	case SWAPIN:
	long_ret = ptok(mem_new.v_swpin - mem_old.v_swpin);
	long_ret = rate(long_ret);
	return ((u_char *) (&long_ret));
	case SWAPOUT:
	long_ret = ptok(mem_new.v_swpout - mem_old.v_swpout);
	long_ret = rate(long_ret);
	return ((u_char *) (&long_ret));
	case IOSENT:
	#if NETSNMP_NO_DUMMY_VALUES
	return NULL;
	#endif
	long_ret = -1;
	return ((u_char *) (&long_ret));
	case IORECEIVE:
	#if NETSNMP_NO_DUMMY_VALUES
	return NULL;
	#endif
	long_ret = -1;
	return ((u_char *) (&long_ret));
	case SYSINTERRUPTS:
	long_ret = rate(mem_new.v_intr - mem_old.v_intr);
	return ((u_char *) (&long_ret));
	case SYSCONTEXT:
	long_ret = rate(mem_new.v_swtch - mem_old.v_swtch);
	return ((u_char *) (&long_ret));
	case CPUUSER:
	cpu_sum = cpu_diff[CP_USER] + cpu_diff[CP_NICE];
	cpu_prc = (float) cpu_sum / (float) cpu_total;
	long_ret = cpu_prc * CPU_PRC;
	return ((u_char *) (&long_ret));
	case CPUSYSTEM:
	cpu_sum = cpu_diff[CP_SYS] + cpu_diff[CP_INTR];
	cpu_prc = (float) cpu_sum / (float) cpu_total;
	long_ret = cpu_prc * CPU_PRC;
	return ((u_char *) (&long_ret));
	case CPUIDLE:
	cpu_sum = cpu_diff[CP_IDLE];
	cpu_prc = (float) cpu_sum / (float) cpu_total;
	long_ret = cpu_prc * CPU_PRC;
	return ((u_char *) (&long_ret));
	case CPURAWUSER:
	long_ret = cpu_new[CP_USER];
	return ((u_char *) (&long_ret));
	case CPURAWNICE:
	long_ret = cpu_new[CP_NICE];
	return ((u_char *) (&long_ret));
	case CPURAWSYSTEM:
	long_ret = cpu_new[CP_SYS] + cpu_new[CP_INTR];
	return ((u_char *) (&long_ret));
	case CPURAWIDLE:
	long_ret = cpu_new[CP_IDLE];
	return ((u_char *) (&long_ret));
	case CPURAWKERNEL:
	long_ret = cpu_new[CP_SYS];
	return ((u_char *) (&long_ret));
	case CPURAWINTR:
	long_ret = cpu_new[CP_INTR];
	return ((u_char *) (&long_ret));
	/*
	* reserved for future use
	*/
	/*
	* case ERRORFLAG:
	* return((u_char *) (&long_ret));
	* case ERRORMSG:
	* return((u_char *) (&long_ret));
	*/
	}
	return NULL;
	}