sensors plugin: malloc + memset -> calloc

[collectd.git] / src / disk.c

/**
 * collectd - src/disk.c
 * Copyright (C) 2005-2012  Florian octo Forster
 * Copyright (C) 2009       Manuel Sanmartin
 *
 * 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; only version 2 of the License is applicable.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even 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 St, Fifth Floor, Boston, MA  02110-1301 USA
 *
 * Authors:
 *   Florian octo Forster <octo at collectd.org>
 *   Manuel Sanmartin
 **/

#include "collectd.h"
#include "common.h"
#include "plugin.h"
#include "utils_ignorelist.h"

#if HAVE_MACH_MACH_TYPES_H
#  include <mach/mach_types.h>
#endif
#if HAVE_MACH_MACH_INIT_H
#  include <mach/mach_init.h>
#endif
#if HAVE_MACH_MACH_ERROR_H
#  include <mach/mach_error.h>
#endif
#if HAVE_MACH_MACH_PORT_H
#  include <mach/mach_port.h>
#endif
#if HAVE_COREFOUNDATION_COREFOUNDATION_H
#  include <CoreFoundation/CoreFoundation.h>
#endif
#if HAVE_IOKIT_IOKITLIB_H
#  include <IOKit/IOKitLib.h>
#endif
#if HAVE_IOKIT_IOTYPES_H
#  include <IOKit/IOTypes.h>
#endif
#if HAVE_IOKIT_STORAGE_IOBLOCKSTORAGEDRIVER_H
#  include <IOKit/storage/IOBlockStorageDriver.h>
#endif
#if HAVE_IOKIT_IOBSD_H
#  include <IOKit/IOBSD.h>
#endif
#if KERNEL_FREEBSD
#include <devstat.h>
#include <libgeom.h>
#endif

#if HAVE_LIMITS_H
# include <limits.h>
#endif
#ifndef UINT_MAX
#  define UINT_MAX 4294967295U
#endif

#if HAVE_STATGRAB_H
# include <statgrab.h>
#endif

#if HAVE_PERFSTAT
# ifndef _AIXVERSION_610
# include <sys/systemcfg.h>
# endif
# include <sys/protosw.h>
# include <libperfstat.h>
#endif

#if HAVE_IOKIT_IOKITLIB_H
static mach_port_t io_master_port = MACH_PORT_NULL;
/* This defaults to false for backwards compatibility. Please fix in the next
 * major version. */
static _Bool use_bsd_name = 0;
/* #endif HAVE_IOKIT_IOKITLIB_H */

#elif KERNEL_LINUX
typedef struct diskstats
{
        char *name;

        /* This overflows in roughly 1361 years */
        unsigned int poll_count;

        derive_t read_sectors;
        derive_t write_sectors;

        derive_t read_bytes;
        derive_t write_bytes;

        derive_t read_ops;
        derive_t write_ops;
        derive_t read_time;
        derive_t write_time;

        derive_t avg_read_time;
        derive_t avg_write_time;

        struct diskstats *next;
} diskstats_t;

static diskstats_t *disklist;
/* #endif KERNEL_LINUX */
#elif KERNEL_FREEBSD
static struct gmesh geom_tree;
/* #endif KERNEL_FREEBSD */

#elif HAVE_LIBKSTAT
#define MAX_NUMDISK 1024
extern kstat_ctl_t *kc;
static kstat_t *ksp[MAX_NUMDISK];
static int numdisk = 0;
/* #endif HAVE_LIBKSTAT */

#elif defined(HAVE_LIBSTATGRAB)
/* #endif HAVE_LIBKSTATGRAB */

#elif HAVE_PERFSTAT
static perfstat_disk_t * stat_disk;
static int numdisk;
static int pnumdisk;
/* #endif HAVE_PERFSTAT */

#else
# error "No applicable input method."
#endif

#if HAVE_LIBUDEV
#include <libudev.h>

static char *conf_udev_name_attr = NULL;
static struct udev *handle_udev;
#endif

static const char *config_keys[] =
{
        "Disk",
        "UseBSDName",
        "IgnoreSelected",
        "UdevNameAttr"
};
static int config_keys_num = STATIC_ARRAY_SIZE (config_keys);

static ignorelist_t *ignorelist = NULL;

static int disk_config (const char *key, const char *value)
{
  if (ignorelist == NULL)
    ignorelist = ignorelist_create (/* invert = */ 1);
  if (ignorelist == NULL)
    return (1);

  if (strcasecmp ("Disk", key) == 0)
  {
    ignorelist_add (ignorelist, value);
  }
  else if (strcasecmp ("IgnoreSelected", key) == 0)
  {
    int invert = 1;
    if (IS_TRUE (value))
      invert = 0;
    ignorelist_set_invert (ignorelist, invert);
  }
  else if (strcasecmp ("UseBSDName", key) == 0)
  {
#if HAVE_IOKIT_IOKITLIB_H
    use_bsd_name = IS_TRUE (value) ? 1 : 0;
#else
    WARNING ("disk plugin: The \"UseBSDName\" option is only supported "
        "on Mach / Mac OS X and will be ignored.");
#endif
  }
  else if (strcasecmp ("UdevNameAttr", key) == 0)
  {
#if HAVE_LIBUDEV
    if (conf_udev_name_attr != NULL)
    {
      free (conf_udev_name_attr);
      conf_udev_name_attr = NULL;
    }
    if ((conf_udev_name_attr = strdup (value)) == NULL)
      return (1);
#else
    WARNING ("disk plugin: The \"UdevNameAttr\" option is only supported "
        "if collectd is built with libudev support");
#endif
  }
  else
  {
    return (-1);
  }

  return (0);
} /* int disk_config */

static int disk_init (void)
{
#if HAVE_IOKIT_IOKITLIB_H
        kern_return_t status;

        if (io_master_port != MACH_PORT_NULL)
        {
                mach_port_deallocate (mach_task_self (),
                                io_master_port);
                io_master_port = MACH_PORT_NULL;
        }

        status = IOMasterPort (MACH_PORT_NULL, &io_master_port);
        if (status != kIOReturnSuccess)
        {
                ERROR ("IOMasterPort failed: %s",
                                mach_error_string (status));
                io_master_port = MACH_PORT_NULL;
                return (-1);
        }
/* #endif HAVE_IOKIT_IOKITLIB_H */

#elif KERNEL_LINUX
        /* do nothing */
/* #endif KERNEL_LINUX */

#elif KERNEL_FREEBSD
        int rv;

        rv = geom_gettree(&geom_tree);
        if (rv != 0) {
                ERROR ("geom_gettree() failed, returned %d", rv);
                return (-1);
        }
        rv = geom_stats_open();
        if (rv != 0) {
                ERROR ("geom_stats_open() failed, returned %d", rv);
                return (-1);
        }
/* #endif KERNEL_FREEBSD */

#elif HAVE_LIBKSTAT
        kstat_t *ksp_chain;

        numdisk = 0;

        if (kc == NULL)
                return (-1);

        for (numdisk = 0, ksp_chain = kc->kc_chain;
                        (numdisk < MAX_NUMDISK) && (ksp_chain != NULL);
                        ksp_chain = ksp_chain->ks_next)
        {
                if (strncmp (ksp_chain->ks_class, "disk", 4)
                                && strncmp (ksp_chain->ks_class, "partition", 9))
                        continue;
                if (ksp_chain->ks_type != KSTAT_TYPE_IO)
                        continue;
                ksp[numdisk++] = ksp_chain;
        }
#endif /* HAVE_LIBKSTAT */

        return (0);
} /* int disk_init */

static void disk_submit (const char *plugin_instance,
                const char *type,
                derive_t read, derive_t write)
{
        value_t values[2];
        value_list_t vl = VALUE_LIST_INIT;

        /* Both `ignorelist' and `plugin_instance' may be NULL. */
        if (ignorelist_match (ignorelist, plugin_instance) != 0)
          return;

        values[0].derive = read;
        values[1].derive = write;

        vl.values = values;
        vl.values_len = 2;
        sstrncpy (vl.host, hostname_g, sizeof (vl.host));
        sstrncpy (vl.plugin, "disk", sizeof (vl.plugin));
        sstrncpy (vl.plugin_instance, plugin_instance,
                        sizeof (vl.plugin_instance));
        sstrncpy (vl.type, type, sizeof (vl.type));

        plugin_dispatch_values (&vl);
} /* void disk_submit */

#if KERNEL_LINUX
static void submit_in_progress (char const *disk_name, gauge_t in_progress)
{
        value_t v;
        value_list_t vl = VALUE_LIST_INIT;

        if (ignorelist_match (ignorelist, disk_name) != 0)
          return;

        v.gauge = in_progress;

        vl.values = &v;
        vl.values_len = 1;
        sstrncpy (vl.host, hostname_g, sizeof (vl.host));
        sstrncpy (vl.plugin, "disk", sizeof (vl.plugin));
        sstrncpy (vl.plugin_instance, disk_name, sizeof (vl.plugin_instance));
        sstrncpy (vl.type, "pending_operations", sizeof (vl.type));

        plugin_dispatch_values (&vl);
}

static void submit_io_time (char const *plugin_instance, derive_t io_time, derive_t weighted_time)
{
        value_t values[2];
        value_list_t vl = VALUE_LIST_INIT;

        if (ignorelist_match (ignorelist, plugin_instance) != 0)
          return;

        values[0].derive = io_time;
        values[1].derive = weighted_time;

        vl.values = values;
        vl.values_len = 2;
        sstrncpy (vl.host, hostname_g, sizeof (vl.host));
        sstrncpy (vl.plugin, "disk", sizeof (vl.plugin));
        sstrncpy (vl.plugin_instance, plugin_instance, sizeof (vl.plugin_instance));
        sstrncpy (vl.type, "disk_io_time", sizeof (vl.type));

        plugin_dispatch_values (&vl);
}


static counter_t disk_calc_time_incr (counter_t delta_time, counter_t delta_ops)
{
        double interval = CDTIME_T_TO_DOUBLE (plugin_get_interval ());
        double avg_time = ((double) delta_time) / ((double) delta_ops);
        double avg_time_incr = interval * avg_time;

        return ((counter_t) (avg_time_incr + .5));
}
#endif

#if HAVE_LIBUDEV
/**
 * Attempt to provide an rename disk instance from an assigned udev attribute.
 *
 * On success, it returns a strduped char* to the desired attribute value.
 * Otherwise it returns NULL.
 */

static char *disk_udev_attr_name (struct udev *udev, char *disk_name, const char *attr)
{
        struct udev_device *dev;
        const char *prop;
        char *output = NULL;

        dev = udev_device_new_from_subsystem_sysname (udev, "block", disk_name);
        if (dev != NULL)
        {
                prop = udev_device_get_property_value (dev, attr);
                if (prop) {
                        output = strdup (prop);
                        DEBUG ("disk plugin: renaming %s => %s", disk_name, output);
                }
                udev_device_unref (dev);
        }
        return output;
}
#endif

#if HAVE_IOKIT_IOKITLIB_H
static signed long long dict_get_value (CFDictionaryRef dict, const char *key)
{
        signed long long val_int;
        CFNumberRef      val_obj;
        CFStringRef      key_obj;

        /* `key_obj' needs to be released. */
        key_obj = CFStringCreateWithCString (kCFAllocatorDefault, key,
                        kCFStringEncodingASCII);
        if (key_obj == NULL)
        {
                DEBUG ("CFStringCreateWithCString (%s) failed.", key);
                return (-1LL);
        }
        
        /* get => we don't need to release (== free) the object */
        val_obj = (CFNumberRef) CFDictionaryGetValue (dict, key_obj);

        CFRelease (key_obj);

        if (val_obj == NULL)
        {
                DEBUG ("CFDictionaryGetValue (%s) failed.", key);
                return (-1LL);
        }

        if (!CFNumberGetValue (val_obj, kCFNumberSInt64Type, &val_int))
        {
                DEBUG ("CFNumberGetValue (%s) failed.", key);
                return (-1LL);
        }

        return (val_int);
}
#endif /* HAVE_IOKIT_IOKITLIB_H */

static int disk_read (void)
{
#if HAVE_IOKIT_IOKITLIB_H
        io_registry_entry_t     disk;
        io_registry_entry_t     disk_child;
        io_iterator_t           disk_list;
        CFMutableDictionaryRef  props_dict, child_dict;
        CFDictionaryRef         stats_dict;
        CFStringRef             tmp_cf_string_ref;
        kern_return_t           status;

        signed long long read_ops, read_byt, read_tme;
        signed long long write_ops, write_byt, write_tme;

        int  disk_major, disk_minor;
        char disk_name[DATA_MAX_NAME_LEN];
        char child_disk_name_bsd[DATA_MAX_NAME_LEN], props_disk_name_bsd[DATA_MAX_NAME_LEN];

        /* Get the list of all disk objects. */
        if (IOServiceGetMatchingServices (io_master_port, IOServiceMatching (kIOBlockStorageDriverClass), &disk_list) != kIOReturnSuccess) {
                ERROR ("disk plugin: IOServiceGetMatchingServices failed.");
                return (-1);
        }

        while ((disk = IOIteratorNext (disk_list)) != 0) {
                props_dict = NULL;
                stats_dict = NULL;
                child_dict = NULL;

                /* get child of disk entry and corresponding property dictionary */
                if ((status = IORegistryEntryGetChildEntry (disk, kIOServicePlane, &disk_child)) != kIOReturnSuccess) {
                        /* This fails for example for DVD/CD drives, which we want to ignore anyway */
                        DEBUG ("IORegistryEntryGetChildEntry (disk) failed: 0x%08x", status);
                        IOObjectRelease (disk);
                        continue;
                }
                if (IORegistryEntryCreateCFProperties (disk_child, (CFMutableDictionaryRef *) &child_dict, kCFAllocatorDefault, kNilOptions) != kIOReturnSuccess || child_dict == NULL) {
                        ERROR ("disk plugin: IORegistryEntryCreateCFProperties (disk_child) failed.");
                        IOObjectRelease (disk_child);
                        IOObjectRelease (disk);
                        continue;
                }

                /* extract name and major/minor numbers */
                memset (child_disk_name_bsd, 0, sizeof (child_disk_name_bsd));
                tmp_cf_string_ref = (CFStringRef) CFDictionaryGetValue (child_dict, CFSTR(kIOBSDNameKey));
                if (tmp_cf_string_ref) {
                        assert (CFGetTypeID (tmp_cf_string_ref) == CFStringGetTypeID ());
                        CFStringGetCString (tmp_cf_string_ref, child_disk_name_bsd, sizeof (child_disk_name_bsd), kCFStringEncodingUTF8);
                }
                disk_major = (int) dict_get_value (child_dict, kIOBSDMajorKey);
                disk_minor = (int) dict_get_value (child_dict, kIOBSDMinorKey);
                DEBUG ("disk plugin: child_disk_name_bsd=\"%s\" major=%d minor=%d", child_disk_name_bsd, disk_major, disk_minor);
                CFRelease (child_dict);
                IOObjectRelease (disk_child);

                /* get property dictionary of the disk entry itself */
                if (IORegistryEntryCreateCFProperties (disk, (CFMutableDictionaryRef *) &props_dict, kCFAllocatorDefault, kNilOptions) != kIOReturnSuccess || props_dict == NULL) {
                        ERROR ("disk-plugin: IORegistryEntryCreateCFProperties failed.");
                        IOObjectRelease (disk);
                        continue;
                }

                /* extract name and stats dictionary */
                memset (props_disk_name_bsd, 0, sizeof (props_disk_name_bsd));
                tmp_cf_string_ref = (CFStringRef) CFDictionaryGetValue (props_dict, CFSTR(kIOBSDNameKey));
                if (tmp_cf_string_ref) {
                        assert (CFGetTypeID (tmp_cf_string_ref) == CFStringGetTypeID ());
                        CFStringGetCString (tmp_cf_string_ref, props_disk_name_bsd, sizeof (props_disk_name_bsd), kCFStringEncodingUTF8);
                }
                stats_dict = (CFDictionaryRef) CFDictionaryGetValue (props_dict, CFSTR (kIOBlockStorageDriverStatisticsKey));
                if (stats_dict == NULL) {
                        ERROR ("disk plugin: CFDictionaryGetValue (%s) failed.", kIOBlockStorageDriverStatisticsKey);
                        CFRelease (props_dict);
                        IOObjectRelease (disk);
                        continue;
                }
                DEBUG ("disk plugin: props_disk_name_bsd=\"%s\"", props_disk_name_bsd);

                /* choose name */
                if (use_bsd_name) {
                        if (child_disk_name_bsd[0] != 0)
                                sstrncpy (disk_name, child_disk_name_bsd, sizeof (disk_name));
                        else if (props_disk_name_bsd[0] != 0)
                                sstrncpy (disk_name, props_disk_name_bsd, sizeof (disk_name));
                        else {
                                ERROR ("disk plugin: can't find bsd disk name.");
                                ssnprintf (disk_name, sizeof (disk_name), "%i-%i", disk_major, disk_minor);
                        }
                }
                else
                        ssnprintf (disk_name, sizeof (disk_name), "%i-%i", disk_major, disk_minor);

                /* extract the stats */
                read_ops  = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsReadsKey);
                read_byt  = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsBytesReadKey);
                read_tme  = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsTotalReadTimeKey);
                write_ops = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsWritesKey);
                write_byt = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsBytesWrittenKey);
                write_tme = dict_get_value (stats_dict, kIOBlockStorageDriverStatisticsTotalWriteTimeKey);
                CFRelease (props_dict);
                IOObjectRelease (disk);

                /* and submit */
                DEBUG ("disk plugin: disk_name = \"%s\"", disk_name);
                if ((read_byt != -1LL) || (write_byt != -1LL))
                        disk_submit (disk_name, "disk_octets", read_byt, write_byt);
                if ((read_ops != -1LL) || (write_ops != -1LL))
                        disk_submit (disk_name, "disk_ops", read_ops, write_ops);
                if ((read_tme != -1LL) || (write_tme != -1LL))
                        disk_submit (disk_name, "disk_time", read_tme / 1000, write_tme / 1000);

        }
        IOObjectRelease (disk_list);
/* #endif HAVE_IOKIT_IOKITLIB_H */

#elif KERNEL_FREEBSD
        int retry, dirty;

        void *snap = NULL;
        struct devstat *snap_iter;

        struct gident *geom_id;

        const char *disk_name;
        long double read_time, write_time;

        for (retry = 0, dirty = 1; retry < 5 && dirty == 1; retry++) {
                if (snap != NULL)
                        geom_stats_snapshot_free(snap);

                /* Get a fresh copy of stats snapshot */
                snap = geom_stats_snapshot_get();
                if (snap == NULL) {
                        ERROR("disk plugin: geom_stats_snapshot_get() failed.");
                        return (-1);
                }

                /* Check if we have dirty read from this snapshot */
                dirty = 0;
                geom_stats_snapshot_reset(snap);
                while ((snap_iter = geom_stats_snapshot_next(snap)) != NULL) {
                        if (snap_iter->id == NULL)
                                continue;
                        geom_id = geom_lookupid(&geom_tree, snap_iter->id);

                        /* New device? refresh GEOM tree */
                        if (geom_id == NULL) {
                                geom_deletetree(&geom_tree);
                                if (geom_gettree(&geom_tree) != 0) {
                                        ERROR("disk plugin: geom_gettree() failed");
                                        geom_stats_snapshot_free(snap);
                                        return (-1);
                                }
                                geom_id = geom_lookupid(&geom_tree, snap_iter->id);
                        }
                        /*
                         * This should be rare: the device come right before we take the
                         * snapshot and went away right after it.  We will handle this
                         * case later, so don't mark dirty but silently ignore it.
                         */
                        if (geom_id == NULL)
                                continue;

                        /* Only collect PROVIDER data */
                        if (geom_id->lg_what != ISPROVIDER)
                                continue;

                        /* Only collect data when rank is 1 (physical devices) */
                        if (((struct gprovider *)(geom_id->lg_ptr))->lg_geom->lg_rank != 1)
                                continue;

                        /* Check if this is a dirty read quit for another try */
                        if (snap_iter->sequence0 != snap_iter->sequence1) {
                                dirty = 1;
                                break;
                        }
                }
        }

        /* Reset iterator */
        geom_stats_snapshot_reset(snap);
        for (;;) {
                snap_iter = geom_stats_snapshot_next(snap);
                if (snap_iter == NULL)
                        break;

                if (snap_iter->id == NULL)
                        continue;
                geom_id = geom_lookupid(&geom_tree, snap_iter->id);
                if (geom_id == NULL)
                        continue;
                if (geom_id->lg_what != ISPROVIDER)
                        continue;
                if (((struct gprovider *)(geom_id->lg_ptr))->lg_geom->lg_rank != 1)
                        continue;
                /* Skip dirty reads, if present */
                if (dirty && (snap_iter->sequence0 != snap_iter->sequence1))
                        continue;

                disk_name = ((struct gprovider *)geom_id->lg_ptr)->lg_name;

                if ((snap_iter->bytes[DEVSTAT_READ] != 0) || (snap_iter->bytes[DEVSTAT_WRITE] != 0)) {
                        disk_submit(disk_name, "disk_octets",
                                        (derive_t)snap_iter->bytes[DEVSTAT_READ],
                                        (derive_t)snap_iter->bytes[DEVSTAT_WRITE]);
                }

                if ((snap_iter->operations[DEVSTAT_READ] != 0) || (snap_iter->operations[DEVSTAT_WRITE] != 0)) {
                        disk_submit(disk_name, "disk_ops",
                                        (derive_t)snap_iter->operations[DEVSTAT_READ],
                                        (derive_t)snap_iter->operations[DEVSTAT_WRITE]);
                }

                read_time = devstat_compute_etime(&snap_iter->duration[DEVSTAT_READ], NULL);
                write_time = devstat_compute_etime(&snap_iter->duration[DEVSTAT_WRITE], NULL);
                if ((read_time != 0) || (write_time != 0)) {
                        disk_submit (disk_name, "disk_time",
                                        (derive_t)(read_time*1000), (derive_t)(write_time*1000));
                }
        }
        geom_stats_snapshot_free(snap);

#elif KERNEL_LINUX
        FILE *fh;
        char buffer[1024];
        
        char *fields[32];
        int numfields;
        int fieldshift = 0;

        int minor = 0;

        derive_t read_sectors  = 0;
        derive_t write_sectors = 0;

        derive_t read_ops      = 0;
        derive_t read_merged   = 0;
        derive_t read_time     = 0;
        derive_t write_ops     = 0;
        derive_t write_merged  = 0;
        derive_t write_time    = 0;
        gauge_t in_progress    = NAN;
        derive_t io_time       = 0;
        derive_t weighted_time = 0;
        int is_disk = 0;

        diskstats_t *ds, *pre_ds;

        if ((fh = fopen ("/proc/diskstats", "r")) == NULL)
        {
                fh = fopen ("/proc/partitions", "r");
                if (fh == NULL)
                {
                        ERROR ("disk plugin: fopen (/proc/{diskstats,partitions}) failed.");
                        return (-1);
                }

                /* Kernel is 2.4.* */
                fieldshift = 1;
        }

#if HAVE_LIBUDEV
        handle_udev = udev_new();
#endif

        while (fgets (buffer, sizeof (buffer), fh) != NULL)
        {
                char *disk_name;
                char *output_name;

                numfields = strsplit (buffer, fields, 32);

                if ((numfields != (14 + fieldshift)) && (numfields != 7))
                        continue;

                minor = atoll (fields[1]);

                disk_name = fields[2 + fieldshift];

                for (ds = disklist, pre_ds = disklist; ds != NULL; pre_ds = ds, ds = ds->next)
                        if (strcmp (disk_name, ds->name) == 0)
                                break;

                if (ds == NULL)
                {
                        if ((ds = (diskstats_t *) calloc (1, sizeof (diskstats_t))) == NULL)
                                continue;

                        if ((ds->name = strdup (disk_name)) == NULL)
                        {
                                free (ds);
                                continue;
                        }

                        if (pre_ds == NULL)
                                disklist = ds;
                        else
                                pre_ds->next = ds;
                }

                is_disk = 0;
                if (numfields == 7)
                {
                        /* Kernel 2.6, Partition */
                        read_ops      = atoll (fields[3]);
                        read_sectors  = atoll (fields[4]);
                        write_ops     = atoll (fields[5]);
                        write_sectors = atoll (fields[6]);
                }
                else if (numfields == (14 + fieldshift))
                {
                        read_ops  =  atoll (fields[3 + fieldshift]);
                        write_ops =  atoll (fields[7 + fieldshift]);

                        read_sectors  = atoll (fields[5 + fieldshift]);
                        write_sectors = atoll (fields[9 + fieldshift]);

                        if ((fieldshift == 0) || (minor == 0))
                        {
                                is_disk = 1;
                                read_merged  = atoll (fields[4 + fieldshift]);
                                read_time    = atoll (fields[6 + fieldshift]);
                                write_merged = atoll (fields[8 + fieldshift]);
                                write_time   = atoll (fields[10+ fieldshift]);

                                in_progress = atof (fields[11 + fieldshift]);

                                io_time       = atof (fields[12 + fieldshift]);
                                weighted_time = atof (fields[13 + fieldshift]);
                        }
                }
                else
                {
                        DEBUG ("numfields = %i; => unknown file format.", numfields);
                        continue;
                }

                {
                        derive_t diff_read_sectors;
                        derive_t diff_write_sectors;

                /* If the counter wraps around, it's only 32 bits.. */
                        if (read_sectors < ds->read_sectors)
                                diff_read_sectors = 1 + read_sectors
                                        + (UINT_MAX - ds->read_sectors);
                        else
                                diff_read_sectors = read_sectors - ds->read_sectors;
                        if (write_sectors < ds->write_sectors)
                                diff_write_sectors = 1 + write_sectors
                                        + (UINT_MAX - ds->write_sectors);
                        else
                                diff_write_sectors = write_sectors - ds->write_sectors;

                        ds->read_bytes += 512 * diff_read_sectors;
                        ds->write_bytes += 512 * diff_write_sectors;
                        ds->read_sectors = read_sectors;
                        ds->write_sectors = write_sectors;
                }

                /* Calculate the average time an io-op needs to complete */
                if (is_disk)
                {
                        derive_t diff_read_ops;
                        derive_t diff_write_ops;
                        derive_t diff_read_time;
                        derive_t diff_write_time;

                        if (read_ops < ds->read_ops)
                                diff_read_ops = 1 + read_ops
                                        + (UINT_MAX - ds->read_ops);
                        else
                                diff_read_ops = read_ops - ds->read_ops;
                        DEBUG ("disk plugin: disk_name = %s; read_ops = %"PRIi64"; "
                                        "ds->read_ops = %"PRIi64"; diff_read_ops = %"PRIi64";",
                                        disk_name,
                                        read_ops, ds->read_ops, diff_read_ops);

                        if (write_ops < ds->write_ops)
                                diff_write_ops = 1 + write_ops
                                        + (UINT_MAX - ds->write_ops);
                        else
                                diff_write_ops = write_ops - ds->write_ops;

                        if (read_time < ds->read_time)
                                diff_read_time = 1 + read_time
                                        + (UINT_MAX - ds->read_time);
                        else
                                diff_read_time = read_time - ds->read_time;

                        if (write_time < ds->write_time)
                                diff_write_time = 1 + write_time
                                        + (UINT_MAX - ds->write_time);
                        else
                                diff_write_time = write_time - ds->write_time;

                        if (diff_read_ops != 0)
                                ds->avg_read_time += disk_calc_time_incr (
                                                diff_read_time, diff_read_ops);
                        if (diff_write_ops != 0)
                                ds->avg_write_time += disk_calc_time_incr (
                                                diff_write_time, diff_write_ops);

                        ds->read_ops = read_ops;
                        ds->read_time = read_time;
                        ds->write_ops = write_ops;
                        ds->write_time = write_time;
                } /* if (is_disk) */

                /* Don't write to the RRDs if we've just started.. */
                ds->poll_count++;
                if (ds->poll_count <= 2)
                {
                        DEBUG ("disk plugin: (ds->poll_count = %i) <= "
                                        "(min_poll_count = 2); => Not writing.",
                                        ds->poll_count);
                        continue;
                }

                if ((read_ops == 0) && (write_ops == 0))
                {
                        DEBUG ("disk plugin: ((read_ops == 0) && "
                                        "(write_ops == 0)); => Not writing.");
                        continue;
                }

                output_name = disk_name;

#if HAVE_LIBUDEV
                char *alt_name = disk_udev_attr_name (handle_udev, disk_name, conf_udev_name_attr);
                if (alt_name != NULL)
                        output_name = alt_name;
#endif

                if ((ds->read_bytes != 0) || (ds->write_bytes != 0))
                        disk_submit (output_name, "disk_octets",
                                        ds->read_bytes, ds->write_bytes);

                if ((ds->read_ops != 0) || (ds->write_ops != 0))
                        disk_submit (output_name, "disk_ops",
                                        read_ops, write_ops);

                if ((ds->avg_read_time != 0) || (ds->avg_write_time != 0))
                        disk_submit (output_name, "disk_time",
                                        ds->avg_read_time, ds->avg_write_time);

                if (is_disk)
                {
                        disk_submit (output_name, "disk_merged",
                                        read_merged, write_merged);
                        submit_in_progress (output_name, in_progress);
                        submit_io_time (output_name, io_time, weighted_time);
                } /* if (is_disk) */

#if HAVE_LIBUDEV
                /* release udev-based alternate name, if allocated */
                sfree (alt_name);
#endif
        } /* while (fgets (buffer, sizeof (buffer), fh) != NULL) */

#if HAVE_LIBUDEV
        udev_unref(handle_udev);
#endif

        fclose (fh);
/* #endif defined(KERNEL_LINUX) */

#elif HAVE_LIBKSTAT
# if HAVE_KSTAT_IO_T_WRITES && HAVE_KSTAT_IO_T_NWRITES && HAVE_KSTAT_IO_T_WTIME
#  define KIO_ROCTETS reads
#  define KIO_WOCTETS writes
#  define KIO_ROPS    nreads
#  define KIO_WOPS    nwrites
#  define KIO_RTIME   rtime
#  define KIO_WTIME   wtime
# elif HAVE_KSTAT_IO_T_NWRITTEN && HAVE_KSTAT_IO_T_WRITES && HAVE_KSTAT_IO_T_WTIME
#  define KIO_ROCTETS nread
#  define KIO_WOCTETS nwritten
#  define KIO_ROPS    reads
#  define KIO_WOPS    writes
#  define KIO_RTIME   rtime
#  define KIO_WTIME   wtime
# else
#  error "kstat_io_t does not have the required members"
# endif
        static kstat_io_t kio;
        int i;

        if (kc == NULL)
                return (-1);

        for (i = 0; i < numdisk; i++)
        {
                if (kstat_read (kc, ksp[i], &kio) == -1)
                        continue;

                if (strncmp (ksp[i]->ks_class, "disk", 4) == 0)
                {
                        disk_submit (ksp[i]->ks_name, "disk_octets",
                                        kio.KIO_ROCTETS, kio.KIO_WOCTETS);
                        disk_submit (ksp[i]->ks_name, "disk_ops",
                                        kio.KIO_ROPS, kio.KIO_WOPS);
                        /* FIXME: Convert this to microseconds if necessary */
                        disk_submit (ksp[i]->ks_name, "disk_time",
                                        kio.KIO_RTIME, kio.KIO_WTIME);
                }
                else if (strncmp (ksp[i]->ks_class, "partition", 9) == 0)
                {
                        disk_submit (ksp[i]->ks_name, "disk_octets",
                                        kio.KIO_ROCTETS, kio.KIO_WOCTETS);
                        disk_submit (ksp[i]->ks_name, "disk_ops",
                                        kio.KIO_ROPS, kio.KIO_WOPS);
                }
        }
/* #endif defined(HAVE_LIBKSTAT) */

#elif defined(HAVE_LIBSTATGRAB)
        sg_disk_io_stats *ds;
# if HAVE_LIBSTATGRAB_0_90
        size_t disks;
# else
        int disks;
#endif
        int counter;
        char name[DATA_MAX_NAME_LEN];
        
        if ((ds = sg_get_disk_io_stats(&disks)) == NULL)
                return (0);
                
        for (counter=0; counter < disks; counter++) {
                strncpy(name, ds->disk_name, sizeof(name));
                name[sizeof(name)-1] = '\0'; /* strncpy doesn't terminate longer strings */
                disk_submit (name, "disk_octets", ds->read_bytes, ds->write_bytes);
                ds++;
        }
/* #endif defined(HAVE_LIBSTATGRAB) */

#elif defined(HAVE_PERFSTAT)
        derive_t read_sectors;
        derive_t write_sectors;
        derive_t read_time;
        derive_t write_time;
        derive_t read_ops;
        derive_t write_ops;
        perfstat_id_t firstpath;
        int rnumdisk;
        int i;

        if ((numdisk = perfstat_disk(NULL, NULL, sizeof(perfstat_disk_t), 0)) < 0) 
        {
                char errbuf[1024];
                WARNING ("disk plugin: perfstat_disk: %s",
                                sstrerror (errno, errbuf, sizeof (errbuf)));
                return (-1);
        }

        if (numdisk != pnumdisk || stat_disk==NULL) {
                if (stat_disk!=NULL) 
                        free(stat_disk);
                stat_disk = (perfstat_disk_t *)calloc(numdisk, sizeof(perfstat_disk_t));
        } 
        pnumdisk = numdisk;

        firstpath.name[0]='\0';
        if ((rnumdisk = perfstat_disk(&firstpath, stat_disk, sizeof(perfstat_disk_t), numdisk)) < 0) 
        {
                char errbuf[1024];
                WARNING ("disk plugin: perfstat_disk : %s",
                                sstrerror (errno, errbuf, sizeof (errbuf)));
                return (-1);
        }

        for (i = 0; i < rnumdisk; i++) 
        {
                read_sectors = stat_disk[i].rblks*stat_disk[i].bsize;
                write_sectors = stat_disk[i].wblks*stat_disk[i].bsize;
                disk_submit (stat_disk[i].name, "disk_octets", read_sectors, write_sectors);

                read_ops = stat_disk[i].xrate;
                write_ops = stat_disk[i].xfers - stat_disk[i].xrate;
                disk_submit (stat_disk[i].name, "disk_ops", read_ops, write_ops);

                read_time = stat_disk[i].rserv;
                read_time *= ((double)(_system_configuration.Xint)/(double)(_system_configuration.Xfrac)) / 1000000.0;
                write_time = stat_disk[i].wserv;
                write_time *= ((double)(_system_configuration.Xint)/(double)(_system_configuration.Xfrac)) / 1000000.0;
                disk_submit (stat_disk[i].name, "disk_time", read_time, write_time);
        }
#endif /* defined(HAVE_PERFSTAT) */

        return (0);
} /* int disk_read */

void module_register (void)
{
  plugin_register_config ("disk", disk_config,
      config_keys, config_keys_num);
  plugin_register_init ("disk", disk_init);
  plugin_register_read ("disk", disk_read);
} /* void module_register */