vmstat_solaris2.c

snmp的源代码,已经在我的ubuntu下编译通过

                for (i = 0; i < CPU_STATES; i++) {
                    css->css_cpu[i] +=
                        (unsigned long long) cs.cpu_sysinfo.cpu[i];
                }               /* end for */
            }                   /* end if */
        }                       /* end for */

        /*
         * Increment number of CPUs we gathered data from, for future use 
         */
        css->css_cpus = cpu_num;
    }

    /*
     * All engines running at warp speed, no problems (if there are any engines, that is) 
     */
    return (cpu_num > 0 ? 0 : -1);
}                               /* take_snapshot ends here */

/*
 * This gets called every POLL_INTERVAL seconds to update the snapshots.  It takes a new snapshot and 
 * drops the oldest one.  This way we move the time window so we always take the values over 
 * POLL_INTERVAL * POLL_VALUES seconds and update the data used every POLL_INTERVAL seconds 
 * The alarm timer is in the init function of this module (snmp_alarm_register) 
 * ARGSUSED0 
 */
static void
update_stats(unsigned int registrationNumber, void *clientarg)
{
    /*
     * The time between the samples we compare 
     */
    hrtime_t        time_diff;

    /*
     * Easier to use these than the snapshots, short hand pointers 
     */
    struct cpu_stat_snapshot *css_old, *css_new;

    /*
     * The usual stuff to count on, err, by 
     */
    int             i;

    /*
     * Kstat chain id, to check whether kstat chain changed 
     */
    kid_t           kid;

    /*
     * The sum of the CPU ticks that have passed on the different CPU states, so we can calculate 
     * the percentages of each state 
     */
    unsigned long long cpu_sum = 0;

    DEBUGMSGTL(("ucd-snmp/vmstat_solaris2.c:update_stats",
                "updating stats\n"));

    /*
     * Just in case someone added (or removed) some CPUs during operation (or other kstat chain changes) 
     */
    kid = kstat_chain_update(kstat_fd);
    if (kid != 0) {
        if (kid == -1) {
            snmp_log(LOG_WARNING,
                     "vmstat_solaris2 (update_stats): Could not update kstat chain.\n");
        } else {
            /*
             * On some machines this floods the logfile, thus commented out 
             * snmp_log(LOG_INFO, "vmstat_solaris2 (update_stats): Kstat chain changed."); 
             */
        }
    }

    /*
     * Take the current snapshot 
     */
    if (take_snapshot(&snapshot[0]) == -1) {
        snmp_log(LOG_WARNING,
                 "vmstat_solaris2 (update_stats): Something went wrong with take_snapshot.\n");
        return;
    }

    /*
     * Do we have some data we can use ?  An issue right after the start of the agent 
     */
    if (number_of_snapshots > 0) {
        /*
         * Huh, the number of CPUs changed during run time.  That is indeed s.th. worth noting, we 
         * output a humorous (more or less) syslog message and need to retake the snapshots 
         */
        if (snapshot[0].css_cpus != snapshot[1].css_cpus) {
            if (snapshot[0].css_cpus > snapshot[1].css_cpus) {
                snmp_log(LOG_NOTICE,
                         "vmstat_solaris2 (update_stats): Cool ! Number of CPUs increased, must be hot-pluggable.\n");
            } else {
                snmp_log(LOG_NOTICE,
                         "vmstat_solaris2 (update_stats): Lost at least one CPU, RIP.\n");
            }
            /*
             * Make all snapshots but the current one invalid 
             */
            number_of_snapshots = 1;
            /*
             * Move the current one in the "first" [1] slot 
             */
            memmove(&snapshot[1], &snapshot[0], sizeof snapshot[0]);
            /*
             * Erase the current one 
             */
            memset(&snapshot[0], 0, sizeof snapshot[0]);
            /*
             * Try to get a new snapshot in five seconds so we can return s.th. useful 
             */
            if (snmp_alarm_register(5, NULL, update_stats, NULL) == 0) {
                snmp_log(LOG_WARNING,
                         "vmstat_solaris2 (update_stats): snmp_alarm_register failed.\n");
            }
            return;
        }

        /*
         * Short hand pointers 
         */
        css_new = &snapshot[0];
        css_old = &snapshot[number_of_snapshots];

        /*
         * How much time has passed between the snapshots we get the values from ? 
         * Time is in nanoseconds so a few zeros here to juggle with 
         * But the hrtime is not subject to change (s.b. setting the clock), unlike the normal time 
         */
        time_diff =
            (snapshot[0].css_time -
             snapshot[number_of_snapshots].css_time) / 1000000;

        DEBUGMSGTL(("ucd-snmp/vmstat_solaris2.c:update_stats",
                    "time_diff: %lld\n", time_diff));

        /*
         * swapin and swapout are in pages, MIB wants kB/s,so we just need to get kB and seconds 
         * For the others we need to get value per second 
         * getpagesize() returns pagesize in bytes 
         * decided to use sysconf(_SC_PAGESIZE) instead to get around an #ifndef (I don't like those) 
         * that was needed b/c some old Solaris versions don't have getpagesize() 
         */
        /*
         * LINTED cast needed, really 
         */
        swapin =
            (uint_t) ((css_new->css_swapin -
                       css_old->css_swapin) * (hrtime_t) 1000 *
                      sysconf(_SC_PAGESIZE) / 1024 / time_diff);
        /*
         * LINTED cast needed, really 
         */
        swapout =
            (uint_t) ((css_new->css_swapout -
                       css_old->css_swapout) * (hrtime_t) 1000 *
                      sysconf(_SC_PAGESIZE) / 1024 / time_diff);
        /*
         * LINTED cast needed, really 
         */
        blocks_read =
            (uint_t) ((css_new->css_blocks_read -
                       css_old->css_blocks_read) * (hrtime_t) 1000 /
                      time_diff);
        /*
         * LINTED cast needed, really 
         */
        blocks_write =
            (uint_t) ((css_new->css_blocks_write -
                       css_old->css_blocks_write) * (hrtime_t) 1000 /
                      time_diff);
        /*
         * LINTED cast needed, really 
         */
        interrupts =
            (uint_t) ((css_new->css_interrupts -
                       css_old->css_interrupts) * (hrtime_t) 1000 /
                      time_diff);
        /*
         * LINTED cast needed, really 
         */
        context_sw =
            (uint_t) ((css_new->css_context_sw -
                       css_old->css_context_sw) * (hrtime_t) 1000 /
                      time_diff);

        /*
         * Loop thru all the CPU_STATES and get the differences 
         */
        for (i = 0; i < CPU_STATES; i++) {
            cpu_sum += (css_new->css_cpu[i] - css_old->css_cpu[i]);
        }

        /*
         * Now calculate the absolute percentage values 
         * Looks somewhat complicated sometimes but tries to get around using floats to increase speed 
         */
        for (i = 0; i < CPU_STATES; i++) {
            /*
             * Since we don't return fractions we use + 0.5 to get between 99 and 101 percent adding the values 
             * together, otherwise we would get less than 100 most of the time 
             */
            /*
             * LINTED has to be 'long' 
             */
            cpu_perc[i] =
                (long) (((css_new->css_cpu[i] -
                          css_old->css_cpu[i]) * 100 +
                         (cpu_sum / 2)) / cpu_sum);
        }

        /*
         * As said before, MIB wants CPU_SYSTEM which is CPU_KERNEL + CPU_WAIT 
         */
        /*
         * LINTED has to be 'long' 
         */
        cpu_perc[CPU_SYSTEM] =
            (long) ((((css_new->css_cpu[CPU_KERNEL] -
                       css_old->css_cpu[CPU_KERNEL])
                      + (css_new->css_cpu[CPU_WAIT] -
                         css_old->css_cpu[CPU_WAIT]))
                     * 100 + (cpu_sum / 2)) / cpu_sum);
    }

    /*
     * Make the current one the first one and move the whole thing one place down 
     */
    memmove(&snapshot[1], &snapshot[0],
            (size_t) (((char *) &snapshot[POLL_VALUES]) -
                      ((char *) &snapshot[0])));

    /*
     * Erase the current one 
     */
    memset(&snapshot[0], 0, sizeof snapshot[0]);

    /*
     * Only important on start up, we keep track of how many snapshots we have taken so far 
     */
    if (number_of_snapshots < POLL_VALUES) {
        number_of_snapshots++;
    }
}                               /* update_stats ends here */

/*
 * *var_extensible_vmstat starts here 
 * The guts of the module, this routine gets called to service a request 
 */
unsigned char *
var_extensible_vmstat(struct variable *vp,
                      oid * name,
                      size_t * length,
                      int exact,
                      size_t * var_len, WriteMethod ** write_method)
{
    /*
     * Needed for returning the values 
     */
    static long     long_ret;
    static char     errmsg[300];

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

    /*
     * generic check whether the options passed make sense and whether the 
     * right variable is requested 
     */
    if (header_generic(vp, name, length, exact, var_len, write_method) !=
        MATCH_SUCCEEDED) {
        return (NULL);
    }

    /*
     * The function that actually returns s.th. 
     */
    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:
        return ((u_char *) (&swapin));
    case SWAPOUT:
        return ((u_char *) (&swapout));
    case IOSENT:
        return ((u_char *) (&blocks_write));
    case IORECEIVE:
        return ((u_char *) (&blocks_read));
    case SYSINTERRUPTS:
        return ((u_char *) (&interrupts));
    case SYSCONTEXT:
        return ((u_char *) (&context_sw));
    case CPUUSER:
        return ((u_char *) (&cpu_perc[CPU_USER]));
    case CPUSYSTEM:
        return ((u_char *) (&cpu_perc[CPU_SYSTEM]));
    case CPUIDLE:
        return ((u_char *) (&cpu_perc[CPU_IDLE]));
    case CPURAWUSER:
        take_snapshot(&raw_values);
        /*
         * LINTED has to be 'long' 
         */
        long_ret =
            (long) (raw_values.css_cpu[CPU_USER] / raw_values.css_cpus);
        return ((u_char *) (&long_ret));
        /*
         * We are missing CPURAWNICE, Solaris does not account for this in the kernel so this OID can not 
         * be returned.  Also, these values will roll over sooner or later and then return inaccurate data 
         * but the MIB wants Integer32 so we cannot put a counter here 
         * (Has been changed to Counter32 in the latest MIB version!) 
         */
    case CPURAWSYSTEM:
        take_snapshot(&raw_values);
        /*
         * LINTED has to be 'long' 
         */
        long_ret =
            (long) ((raw_values.css_cpu[CPU_KERNEL] +
                     raw_values.css_cpu[CPU_WAIT]) / raw_values.css_cpus);
        return ((u_char *) (&long_ret));
    case CPURAWIDLE:
        take_snapshot(&raw_values);
        /*
         * LINTED has to be 'long' 
         */
        long_ret =
            (long) (raw_values.css_cpu[CPU_IDLE] / raw_values.css_cpus);
        return ((u_char *) (&long_ret));
    case CPURAWWAIT:
        take_snapshot(&raw_values);
        /*
         * LINTED has to be 'long' 
         */
        long_ret =
            (long) (raw_values.css_cpu[CPU_WAIT] / raw_values.css_cpus);
        return ((u_char *) (&long_ret));
    case CPURAWKERNEL:
        take_snapshot(&raw_values);
        /*
         * LINTED has to be 'long' 
         */
        long_ret =
            (long) (raw_values.css_cpu[CPU_KERNEL] / raw_values.css_cpus);
        return ((u_char *) (&long_ret));
    case IORAWSENT:
        long_ret = (long) (raw_values.css_blocks_write);
        return ((u_char *) (&long_ret));
    case IORAWRECEIVE:
        long_ret = (long) (raw_values.css_blocks_read);
        return ((u_char *) (&long_ret));

        /*
         * reserved for future use 
         */
        /*
         * case ERRORFLAG:
         * return((u_char *) (&long_ret));
         * case ERRORMSG:
         * return((u_char *) (&long_ret));
         */
    default:
        snmp_log(LOG_ERR,
                 "vmstat_solaris2: Error in request, no match for %d.\n",
		 vp->magic);
    }
    return (NULL);
}                               /* *var_extensible_vmstat ends here */

/*
 * Functions end here 
 */

/*
 * Program ends here 
 */