/******************************************************************************

 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 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., 675 Mass Ave, Cambridge, MA 02139, USA.

 $Id$
 
*****************************************************************************/

const char *progname = "check_disk";
const char *program_name = "check_disk";  /* Required for coreutils libs */
const char *revision = "$Revision$";
const char *copyright = "1999-2005";
const char *email = "nagiosplug-devel@lists.sourceforge.net";

 /*
  * Additional inode code by Jorgen Lundman <lundman@lundman.net>
  */


#include "common.h"
#if HAVE_INTTYPES_H
# include <inttypes.h>
#endif
#include <assert.h>
#include "popen.h"
#include "utils.h"
#include <stdarg.h>
#include "../lib/fsusage.h"
#include "../lib/mountlist.h"
#if HAVE_LIMITS_H
# include <limits.h>
#endif

/* If nonzero, show inode information. */
static int inode_format;

/* If nonzero, show even filesystems with zero size or
   uninteresting types. */
static int show_all_fs = 1;

/* If nonzero, show only local filesystems.  */
static int show_local_fs = 0;

/* If positive, the units to use when printing sizes;
   if negative, the human-readable base.  */
/* static int output_block_size; */

/* If nonzero, invoke the `sync' system call before getting any usage data.
   Using this option can make df very slow, especially with many or very
   busy disks.  Note that this may make a difference on some systems --
   SunOs4.1.3, for one.  It is *not* necessary on Linux.  */
/* static int require_sync = 0; */

/* A filesystem type to display. */

struct name_list
{
  char *name;
  int found;
  int found_len;
  uintmax_t w_df;
  uintmax_t c_df;
  double w_dfp;
  double c_dfp;
  double w_idfp;
  double c_idfp;
  struct name_list *name_next;
};

/* Linked list of filesystem types to display.
   If `fs_select_list' is NULL, list all types.
   This table is generated dynamically from command-line options,
   rather than hardcoding into the program what it thinks are the
   valid filesystem types; let the user specify any filesystem type
   they want to, and if there are any filesystems of that type, they
   will be shown.

   Some filesystem types:
   4.2 4.3 ufs nfs swap ignore io vm efs dbg */

/* static struct name_list *fs_select_list; */

/* Linked list of filesystem types to omit.
   If the list is empty, don't exclude any types.  */

static struct name_list *fs_exclude_list;

static struct name_list *dp_exclude_list;

static struct name_list *path_select_list;

static struct name_list *dev_select_list;

/* Linked list of mounted filesystems. */
static struct mount_entry *mount_list;

/* For long options that have no equivalent short option, use a
   non-character as a pseudo short option, starting with CHAR_MAX + 1.  */
enum
{
  SYNC_OPTION = CHAR_MAX + 1,
  NO_SYNC_OPTION,
  BLOCK_SIZE_OPTION
};

#ifdef _AIX
 #pragma alloca
#endif

int process_arguments (int, char **);
void print_path (const char *mypath);
int validate_arguments (uintmax_t, uintmax_t, double, double, double, double, char *);
int check_disk (double usp, uintmax_t free_disk, double uisp);
int walk_name_list (struct name_list *list, const char *name);
void print_help (void);
void print_usage (void);

uintmax_t w_df = 0;
uintmax_t c_df = 0;
double w_dfp = -1.0;
double c_dfp = -1.0;
double w_idfp = -1.0;
double c_idfp = -1.0;
char *path;
char *exclude_device;
char *units;
uintmax_t mult = 1024 * 1024;
int verbose = 0;
int erronly = FALSE;
int display_mntp = FALSE;

/* Linked list of mounted filesystems. */
static struct mount_entry *mount_list;



int
main (int argc, char **argv)
{
  double usp = -1.0, uisp = -1.0;
  int result = STATE_UNKNOWN;
  int disk_result = STATE_UNKNOWN;
  char file_system[MAX_INPUT_BUFFER];
  char *output;
  char *details;
  char *perf;
  uintmax_t psize;
  float free_space, free_space_pct, total_space, inode_space_pct;

  struct mount_entry *me;
  struct fs_usage fsp;
  struct name_list *temp_list;

  output = strdup (" - free space:");
  details = strdup ("");
  perf = strdup ("");

  setlocale (LC_ALL, "");
  bindtextdomain (PACKAGE, LOCALEDIR);
  textdomain (PACKAGE);

  mount_list = read_filesystem_list (0);

  if (process_arguments (argc, argv) == ERROR)
    usage4 (_("Could not parse arguments"));

  /* if a list of paths has been selected, preseed the list with
   * the longest matching filesystem name by iterating across
   * the mountlist once ahead of time.  this will allow a query on
   * "/var/log" to return information about "/var" if no "/var/log"
   * filesystem exists, etc.  this is the default behavior already
   * with df-based checks, but for systems with their own space
   * checking routines, this should make them more consistent.
   */
  if(path_select_list){
    for (me = mount_list; me; me = me->me_next) {
      walk_name_list(path_select_list, me->me_mountdir);
      walk_name_list(path_select_list, me->me_devname);
    }
    /* now pretend we never saw anything, but keep found_len.
     * thus future searches will only match the best match */
    for (temp_list = path_select_list; temp_list; temp_list=temp_list->name_next){
      temp_list->found=0;
    }
  }

  /* for every mount entry */
  for (me = mount_list; me; me = me->me_next) {
    /* if there's a list of paths to select, the current mount
     * entry matches in path or device name, get fs usage */
    if (path_select_list &&
         (walk_name_list (path_select_list, me->me_mountdir) ||
          walk_name_list (path_select_list, me->me_devname) ) ) {
      get_fs_usage (me->me_mountdir, me->me_devname, &fsp);
    /* else if there's a list of paths/devices to select (but
     * we didn't match above) skip to the next mount entry */
    } else if (dev_select_list || path_select_list) {
      continue;
    /* skip remote filesystems if we're not interested in them */
    } else if (me->me_remote && show_local_fs) {
      continue;
    /* skip pseudo fs's if we haven't asked for all fs's */
    } else if (me->me_dummy && !show_all_fs) {
      continue;
    /* skip excluded fstypes */
    } else if (fs_exclude_list && walk_name_list (fs_exclude_list, me->me_type)) {
      continue;
    /* skip excluded fs's */  
    } else if (dp_exclude_list && 
             (walk_name_list (dp_exclude_list, me->me_devname) ||
              walk_name_list (dp_exclude_list, me->me_mountdir))) {
      continue;
    /* otherwise, get fs usage */
    } else {
      get_fs_usage (me->me_mountdir, me->me_devname, &fsp);
    }

    if (fsp.fsu_blocks && strcmp ("none", me->me_mountdir)) {
      usp = (double)(fsp.fsu_blocks - fsp.fsu_bavail) * 100 / fsp.fsu_blocks;
                        uisp = (double)(fsp.fsu_files - fsp.fsu_ffree) * 100 / fsp.fsu_files;
      disk_result = check_disk (usp, fsp.fsu_bavail, uisp);


      result = max_state (disk_result, result);
      psize = fsp.fsu_blocks*fsp.fsu_blocksize/mult;


                        /* Moved this computation up here so we can add it
                         * to perf */
                        inode_space_pct = (float)fsp.fsu_ffree*100/fsp.fsu_files;


      asprintf (&perf, "%s %s", perf,
                perfdata ((!strcmp(file_system, "none") || display_mntp) ? me->me_devname : me->me_mountdir,
                          psize-(fsp.fsu_bavail*fsp.fsu_blocksize/mult), units,
                          TRUE, min ((uintmax_t)psize-(uintmax_t)w_df, (uintmax_t)((1.0-w_dfp/100.0)*psize)),
                          TRUE, min ((uintmax_t)psize-(uintmax_t)c_df, (uintmax_t)((1.0-c_dfp/100.0)*psize)),
                                            TRUE, inode_space_pct,

                          TRUE, psize));
      if (disk_result==STATE_OK && erronly && !verbose)
        continue;

      free_space = (float)fsp.fsu_bavail*fsp.fsu_blocksize/mult;
      free_space_pct = (float)fsp.fsu_bavail*100/fsp.fsu_blocks;
      total_space = (float)fsp.fsu_blocks*fsp.fsu_blocksize/mult;
      if (disk_result!=STATE_OK || verbose>=0)
        asprintf (&output, ("%s %s %.0f %s (%.0f%% inode=%.0f%%);"),
                  output,
                  (!strcmp(file_system, "none") || display_mntp) ? me->me_devname : me->me_mountdir,
                  free_space,
                  units,
            free_space_pct,
            inode_space_pct);

      asprintf (&details, _("%s\n\
%.0f of %.0f %s (%.0f%% inode=%.0f%%) free on %s (type %s mounted on %s) warn:%lu crit:%lu warn%%:%.0f%% crit%%:%.0f%%"),
                details, free_space, total_space, units, free_space_pct, inode_space_pct,
                me->me_devname, me->me_type, me->me_mountdir,
                (unsigned long)w_df, (unsigned long)c_df, w_dfp, c_dfp);

    }

  }

  asprintf (&output, "%s|%s", output, perf);

  if (verbose > 2)
    asprintf (&output, "%s%s", output, details);

  /* Override result if paths specified and not found */
  temp_list = path_select_list;
  while (temp_list) {
    if (!temp_list->found) {
      asprintf (&output, _("%s [%s not found]"), output, temp_list->name);
      result = STATE_CRITICAL;
    }
    temp_list = temp_list->name_next;
  }

  printf ("DISK %s%s\n", state_text (result), output);
  return result;
}



/* process command-line arguments */
int
process_arguments (int argc, char **argv)
{
  int c;
  struct name_list *se;
  struct name_list **pathtail = &path_select_list;
  struct name_list **fstail = &fs_exclude_list;
  struct name_list **dptail = &dp_exclude_list;
  struct name_list *temp_list;
  int result = OK;

  unsigned long l;

  int option = 0;
  static struct option longopts[] = {
    {"timeout", required_argument, 0, 't'},
    {"warning", required_argument, 0, 'w'},
    {"critical", required_argument, 0, 'c'},
    {"iwarning", required_argument, 0, 'W'},
    /* Dang, -C is taken. We might want to reshuffle this. */
    {"icritical", required_argument, 0, 'K'},
    {"local", required_argument, 0, 'l'},
    {"kilobytes", required_argument, 0, 'k'},
    {"megabytes", required_argument, 0, 'm'},
    {"units", required_argument, 0, 'u'},
    {"path", required_argument, 0, 'p'},
    {"partition", required_argument, 0, 'p'},
    {"exclude_device", required_argument, 0, 'x'},
    {"exclude-type", required_argument, 0, 'X'},
    {"mountpoint", no_argument, 0, 'M'},
    {"errors-only", no_argument, 0, 'e'},
    {"verbose", no_argument, 0, 'v'},
    {"quiet", no_argument, 0, 'q'},
    {"clear", no_argument, 0, 'C'},
    {"version", no_argument, 0, 'V'},
    {"help", no_argument, 0, 'h'},
    {0, 0, 0, 0}
  };

  if (argc < 2)
    return ERROR;

  se = (struct name_list *) malloc (sizeof (struct name_list));
  se->name = strdup ("iso9660");
  se->name_next = NULL;
  se->found = 0;
  se->found_len = 0;
  *fstail = se;
  fstail = &se->name_next;

  for (c = 1; c < argc; c++)
    if (strcmp ("-to", argv[c]) == 0)
      strcpy (argv[c], "-t");

  while (1) {
    c = getopt_long (argc, argv, "+?VqhveCt:c:w:K:W:u:p:x:X:mklM", longopts, &option);

    if (c == -1 || c == EOF)
      break;

    switch (c) {
    case 't':                 /* timeout period */
      if (is_integer (optarg)) {
        timeout_interval = atoi (optarg);
        break;
      }
      else {
        usage2 (_("Timeout interval must be a positive integer"), optarg);
      }
    case 'w':                 /* warning threshold */
      if (is_intnonneg (optarg)) {
        w_df = atoi (optarg);
        break;
      }
      else if (strpbrk (optarg, ",:") &&
               strstr (optarg, "%") &&
               sscanf (optarg, "%lu%*[:,]%lf%%", &l, &w_dfp) == 2) {
        w_df = (uintmax_t)l;
        break;
      }
      else if (strstr (optarg, "%") && sscanf (optarg, "%lf%%", &w_dfp) == 1) {
        break;
      }
      else {
        usage4 (_("Warning threshold must be integer or percentage!"));
      }
    case 'c':                 /* critical threshold */
      if (is_intnonneg (optarg)) {
        c_df = atoi (optarg);
        break;
      }
      else if (strpbrk (optarg, ",:") &&
               strstr (optarg, "%") &&
               sscanf (optarg, "%lu%*[,:]%lf%%", &l, &c_dfp) == 2) {
        c_df = (uintmax_t)l;
        break;
      }
      else if (strstr (optarg, "%") && sscanf (optarg, "%lf%%", &c_dfp) == 1) {
        break;
      }
      else {
        usage4 (_("Critical threshold must be integer or percentage!"));
      }


                case 'W':                                                                       /* warning inode threshold */
                        if (strstr (optarg, "%") && sscanf (optarg, "%lf%%", &w_idfp) == 1) {
                        break;
                        }
                        else {
                      usage (_("Warning inode threshold must be percentage!\n"));
                  }
                case 'K':                                                                       /* kritical inode threshold */
                        if (strstr (optarg, "%") && sscanf (optarg, "%lf%%", &c_idfp) == 1) {
                        break;
                        }
                        else {
                      usage (_("Critical inode threshold must be percentage!\n"));
                       }
    case 'u':
      if (units)
        free(units);
      if (! strcmp (optarg, "bytes")) {
        mult = (uintmax_t)1;
        units = strdup ("B");
      } else if (! strcmp (optarg, "kB")) {
        mult = (uintmax_t)1024;
        units = strdup ("kB");
      } else if (! strcmp (optarg, "MB")) {
        mult = (uintmax_t)1024 * 1024;
        units = strdup ("MB");
      } else if (! strcmp (optarg, "GB")) {
        mult = (uintmax_t)1024 * 1024 * 1024;
        units = strdup ("GB");
      } else if (! strcmp (optarg, "TB")) {
        mult = (uintmax_t)1024 * 1024 * 1024 * 1024;
        units = strdup ("TB");
      } else {
        die (STATE_UNKNOWN, _("unit type %s not known\n"), optarg);
      }
      if (units == NULL)
        die (STATE_UNKNOWN, _("failed allocating storage for '%s'\n"), "units");
      break;
    case 'k': /* display mountpoint */
      mult = 1024;
      if (units)
        free(units);
      units = strdup ("kB");
      break;
    case 'm': /* display mountpoint */
      mult = 1024 * 1024;
      if (units)
        free(units);
      units = strdup ("MB");
      break;
    case 'l':
      show_local_fs = 1;      
      break;
    case 'p':                 /* select path */
      se = (struct name_list *) malloc (sizeof (struct name_list));
      se->name = optarg;
      se->name_next = NULL;
      se->w_df = w_df;
      se->c_df = c_df;
      se->w_dfp = w_dfp;
      se->c_dfp = c_dfp;
      se->found = 0;
      se->found_len = 0;
      *pathtail = se;
      pathtail = &se->name_next;
      break;
    case 'x':                 /* exclude path or partition */
      se = (struct name_list *) malloc (sizeof (struct name_list));
      se->name = optarg;
      se->name_next = NULL;

                        /* If you don't clear the w_fd etc values here, they
                         * get processed when you walk the list and assigned
                         * to the global w_df!
                         */
                        se->w_df = 0;
                        se->c_df = 0;
                        se->w_dfp = 0;
                        se->c_dfp = 0;
      se->found = 0;
      se->found_len = 0;
      *dptail = se;
      dptail = &se->name_next;
      break;
    case 'X':                 /* exclude file system type */
      se = (struct name_list *) malloc (sizeof (struct name_list));
      se->name = optarg;
      se->name_next = NULL;
                        /* If you don't clear the w_fd etc values here, they
                         * get processed when you walk the list and assigned
                         * to the global w_df!
                         */
                        se->w_df = 0;
                        se->c_df = 0;
                        se->w_dfp = 0;
                        se->c_dfp = 0;
      se->found = 0;
      se->found_len = 0;
      *fstail = se;
      fstail = &se->name_next;
      break;
    case 'v':                 /* verbose */
      verbose++;
      break;
    case 'q':                 /* verbose */
      verbose--;
      break;
    case 'e':
      erronly = TRUE;
      break;
    case 'M': /* display mountpoint */
      display_mntp = TRUE;
      break;
    case 'C':
      w_df = 0;
      c_df = 0;
      w_dfp = -1.0;
      c_dfp = -1.0;
      break;
    case 'V':                 /* version */
      print_revision (progname, revision);
      exit (STATE_OK);
    case 'h':                 /* help */
      print_help ();
      exit (STATE_OK);
    case '?':                 /* help */
      usage (_("Unknown argument"));
    }
  }

  /* Support for "check_disk warn crit [fs]" with thresholds at used level */
  c = optind;
  if (w_dfp < 0 && argc > c && is_intnonneg (argv[c]))
    w_dfp = (100.0 - atof (argv[c++]));

  if (c_dfp < 0 && argc > c && is_intnonneg (argv[c]))
    c_dfp = (100.0 - atof (argv[c++]));

  if (argc > c && path == NULL) {
    se = (struct name_list *) malloc (sizeof (struct name_list));
    se->name = strdup (argv[c++]);
    se->name_next = NULL;
    se->w_df = w_df;
    se->c_df = c_df;
    se->w_dfp = w_dfp;
    se->c_dfp = c_dfp;
    se->found =0;
    se->found_len = 0;
    *pathtail = se;
  }

  if (path_select_list) {
    temp_list = path_select_list;
    while (temp_list) {
      if (validate_arguments (temp_list->w_df,
                              temp_list->c_df,
                              temp_list->w_dfp,
                              temp_list->c_dfp,
                              temp_list->w_idfp,
                              temp_list->c_idfp,
                              temp_list->name) == ERROR)
        result = ERROR;
      temp_list = temp_list->name_next;
    }
    return result;
  } else {
    return validate_arguments (w_df, c_df, w_dfp, c_dfp, w_idfp, c_idfp, NULL);
  }
}



void
print_path (const char *mypath) 
{
  if (mypath == NULL)
    printf ("\n");
  else
    printf (_(" for %s\n"), mypath);

  return;
}



int
validate_arguments (uintmax_t w, uintmax_t c, double wp, double cp, double iwp, double icp, char *mypath)
{
  if (w < 0 && c < 0 && wp < 0.0 && cp < 0.0) {
    printf (_("INPUT ERROR: No thresholds specified"));
    print_path (mypath);
    return ERROR;
  }
  else if ((wp >= 0.0 || cp >= 0.0) &&
           (wp < 0.0 || cp < 0.0 || wp > 100.0 || cp > 100.0 || cp > wp)) {
    printf (_("\
INPUT ERROR: C_DFP (%f) should be less than W_DFP (%.1f) and both should be between zero and 100 percent, inclusive"),
            cp, wp);
    print_path (mypath);
    return ERROR;
  }
  else if ((iwp >= 0.0 || icp >= 0.0) &&
           (iwp < 0.0 || icp < 0.0 || iwp > 100.0 || icp > 100.0 || icp > iwp)) {
    printf (_("\
INPUT ERROR: C_IDFP (%f) should be less than W_IDFP (%.1f) and both should be between zero and 100 percent, inclusive"),
            icp, iwp);
    print_path (mypath);
    return ERROR;
  }
  else if ((w > 0 || c > 0) && (w == 0 || c == 0 || c > w)) {
    printf (_("\
INPUT ERROR: C_DF (%lu) should be less than W_DF (%lu) and both should be greater than zero"),
            (unsigned long)c, (unsigned long)w);
    print_path (mypath);
    return ERROR;
  }
  
  if (units == NULL) {
    units = strdup ("MB");
    mult = (uintmax_t)1024 * 1024;
  }
  return OK;
}



int

check_disk (double usp, uintmax_t free_disk, double uisp)
{
       int result = STATE_UNKNOWN;
       /* check the percent used space against thresholds */
       if (usp >= 0.0 && c_dfp >=0.0 && usp >= (100.0 - c_dfp))
               result = STATE_CRITICAL;
       else if (uisp >= 0.0 && c_idfp >=0.0 && uisp >= (100.0 - c_idfp))
               result = STATE_CRITICAL;
       else if (c_df > 0 && free_disk <= c_df)
               result = STATE_CRITICAL;
       else if (usp >= 0.0 && w_dfp >=0.0 && usp >= (100.0 - w_dfp))
               result = STATE_WARNING;
       else if (uisp >= 0.0 && w_idfp >=0.0 && uisp >= (100.0 - w_idfp))
               result = STATE_WARNING;
       else if (w_df > 0 && free_disk <= w_df)
               result = STATE_WARNING;
       else if (usp >= 0.0)
    result = STATE_OK;
  return result;
}



int
walk_name_list (struct name_list *list, const char *name)
{
  int name_len;
  name_len = strlen(name);
  while (list) {
    /* if the paths match up to the length of the mount path,
     * AND if the mount path name is longer than the longest
     * found match, we have a new winner */
    if (name_len >= list->found_len && 
        ! strncmp(list->name, name, name_len)) {
      list->found = 1;
      list->found_len = name_len;
      /* if required for name_lists that have not saved w_df, etc (eg exclude lists) */
      if (list->w_df) w_df = list->w_df;
      if (list->c_df) c_df = list->c_df;
      if (list->w_dfp>=0.0) w_dfp = list->w_dfp;
      if (list->c_dfp>=0.0) c_dfp = list->c_dfp;
      return TRUE;
    }
    list = list->name_next;
  }
  return FALSE;
}



void
print_help (void)
{
  print_revision (progname, revision);

  printf ("Copyright (c) 1999 Ethan Galstad <nagios@nagios.org>\n");
  printf (COPYRIGHT, copyright, email);

  printf (_("This plugin checks the amount of used disk space on a mounted file system"));
  printf (_("and generates an alert if free space is less than one of the threshold values"));

  printf ("\n\n");

  print_usage ();

  printf (_(UT_HELP_VRSN));

  printf (" %s\n", "-w, --warning=INTEGER");
  printf ("    %s\n", _("Exit with WARNING status if less than INTEGER units of disk are free"));
  printf (" %s\n", "-w, --warning=PERCENT%");
  printf ("    %s\n", _("Exit with WARNING status if less than PERCENT of disk space is free"));
  printf (" %s\n", "-W, --iwarning=PERCENT%");
  printf ("    %s\n", _("Exit with WARNING status if less than PERCENT of inode space is free"));
  printf (" %s\n", "-K, --icritical=PERCENT%");
  printf ("    %s\n", _("Exit with CRITICAL status if less than PERCENT of inode space is free"));
  printf (" %s\n", "-c, --critical=INTEGER");
  printf ("    %s\n", _("Exit with CRITICAL status if less than INTEGER units of disk are free"));
  printf (" %s\n", "-c, --critical=PERCENT%");
  printf ("    %s\n", _("Exit with CRITCAL status if less than PERCENT of disk space is free"));
  printf (" %s\n", "-C, --clear");
  printf ("    %s\n", _("Clear thresholds"));
  printf (" %s\n", "-u, --units=STRING");
  printf ("    %s\n", _("Choose bytes, kB, MB, GB, TB (default: MB)"));
  printf (" %s\n", "-k, --kilobytes");
  printf ("    %s\n", _("Same as '--units kB'"));
  printf (" %s\n", "-m, --megabytes");
  printf ("    %s\n", _("Same as '--units MB'"));
  printf (" %s\n", "-l, --local");
  printf ("    %s\n", _("Only check local filesystems"));
  printf (" %s\n", "-p, --path=PATH, --partition=PARTITION");
  printf ("    %s\n", _("Path or partition (may be repeated)"));
  printf (" %s\n", "-x, --exclude_device=PATH <STRING>");
  printf ("    %s\n", _("Ignore device (only works if -p unspecified)"));
  printf (" %s\n", _("-X, --exclude-type=TYPE <STRING>"));
  printf ("    %s\n", _("Ignore all filesystems of indicated type (may be repeated)"));
  printf (" %s\n", "-m, --mountpoint");
  printf ("    %s\n", _("Display the mountpoint instead of the partition"));
  printf (" %s\n", "-e, --errors-only");
  printf ("    %s\n", _("Display only devices/mountpoints with errors"));
  printf (_(UT_TIMEOUT), DEFAULT_SOCKET_TIMEOUT);
  printf (_(UT_VERBOSE));
  printf ("\n");
  printf ("%s\n", _("Examples:"));
  printf (" %s\n", "check_disk -w 10% -c 5% -p /tmp -p /var -C -w 100000 -c 50000 -p /");
  printf ("    %s\n", _("Checks /tmp and /var at 10% and 5%, and / at 100MB and 50MB"));
  printf (_(UT_SUPPORT));
}



void
print_usage (void)
{
  printf (_("Usage:"));
  printf (" %s -w limit -c limit [-p path | -x device] [-t timeout]", progname);
  printf ("[-m] [-e] [-W limit] [-K limit] [-v] [-q]\n");
}