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authorKarl DeBisschop <kdebisschop@users.sourceforge.net>2003-08-06 12:11:21 (GMT)
committerKarl DeBisschop <kdebisschop@users.sourceforge.net>2003-08-06 12:11:21 (GMT)
commit48c14d20bd4112826e4ac7775b847f8015c3c610 (patch)
treeebac1785d58073ac432bd08cbd45fbbbbbad7cfc /plugins/check_nwstat.c
parent43efd2700d6e918e15b370f18f9ca70bb9a93a1a (diff)
downloadmonitoring-plugins-48c14d20bd4112826e4ac7775b847f8015c3c610.tar.gz
markup for translation
git-svn-id: https://nagiosplug.svn.sourceforge.net/svnroot/nagiosplug/nagiosplug/trunk@649 f882894a-f735-0410-b71e-b25c423dba1c
Diffstat (limited to 'plugins/check_nwstat.c')
-rw-r--r--plugins/check_nwstat.c1003
1 files changed, 518 insertions, 485 deletions
diff --git a/plugins/check_nwstat.c b/plugins/check_nwstat.c
index 5dbde9c..94f0543 100644
--- a/plugins/check_nwstat.c
+++ b/plugins/check_nwstat.c
@@ -1,136 +1,66 @@
1/****************************************************************************** 1/******************************************************************************
2 * 2
3 * Program: NetWare statistics plugin for Nagios 3 This program is free software; you can redistribute it and/or modify
4 * License: GPL 4 it under the terms of the GNU General Public License as published by
5 * 5 the Free Software Foundation; either version 2 of the License, or
6 * License Information: 6 (at your option) any later version.
7 * 7
8 * This program is free software; you can redistribute it and/or modify 8 This program is distributed in the hope that it will be useful,
9 * it under the terms of the GNU General Public License as published by 9 but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * the Free Software Foundation; either version 2 of the License, or 10 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * (at your option) any later version. 11 GNU General Public License for more details.
12 * 12
13 * This program is distributed in the hope that it will be useful, 13 You should have received a copy of the GNU General Public License
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of 14 along with this program; if not, write to the Free Software
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
16 * GNU General Public License for more details. 16
17 * 17******************************************************************************/
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
21 *
22 * $Id$
23 *
24 *****************************************************************************/
25 18
26const char *progname = "check_nwstat"; 19const char *progname = "check_nwstat";
27#define REVISION "$Revision$" 20const char *revision = "$Revision$";
28#define COPYRIGHT "Copyright (c) 1999-2001 Ethan Galstad" 21const char *copyright = "2000-2003";
29 22const char *email = "nagiosplug-devel@lists.sourceforge.net";
30#define SUMMARY "\
31This plugin attempts to contact the MRTGEXT NLM running on a Novell server\n\
32to gather the requested system information.\n"
33
34#define OPTIONS "\
35-H host [-v variable] [-w warning] [-c critical]\n\
36 [-p port] [-t timeout]"
37
38#define LONGOPTIONS "\
39-H, --hostname=HOST\n\
40 Name of the host to check\n\
41-v, --variable=STRING\n\
42 Variable to check. Valid variables include:\n\
43 LOAD1 = 1 minute average CPU load\n\
44 LOAD5 = 5 minute average CPU load\n\
45 LOAD15 = 15 minute average CPU load\n\
46 CONNS = number of currently licensed connections\n\
47 VPF<vol> = percent free space on volume <vol>\n\
48 VKF<vol> = KB of free space on volume <vol>\n\
49 LTCH = percent long term cache hits\n\
50 CBUFF = current number of cache buffers\n\
51 CDBUFF = current number of dirty cache buffers\n\
52 LRUM = LRU sitting time in minutes\n\
53 DSDB = check to see if DS Database is open\n\
54 DSVER = NDS version\n\
55 LOGINS = check to see if logins are enabled\n\
56 UPRB = used packet receive buffers\n\
57 PUPRB = percent (of max) used packet receive buffers\n\
58 SAPENTRIES = number of entries in the SAP table\n\
59 SAPENTRIES<n> = number of entries in the SAP table for SAP type <n>\n\
60 OFILES = number of open files\n\
61 VPP<vol> = percent purgeable space on volume <vol>\n\
62 VKP<vol> = KB of purgeable space on volume <vol>\n\
63 VPNP<vol> = percent not yet purgeable space on volume <vol>\n\
64 VKNP<vol> = KB of not yet purgeable space on volume <vol>\n\
65 ABENDS = number of abended threads (NW 5.x only)\n\
66 CSPROCS = number of current service processes (NW 5.x only)\n\
67 TSYNC = timesync status \n\
68 LRUS = LRU sitting time in seconds\n\
69 DCB = dirty cache buffers as a percentage of the total\n\
70 TCB = dirty cache buffers as a percentage of the original\n\
71 UPTIME = server uptime\n\
72 NLM:<nlm> = check if NLM is loaded and report version (e.g. \"NLM:TSANDS.NLM\")\n\
73-w, --warning=INTEGER\n\
74 Threshold which will result in a warning status\n\
75-c, --critical=INTEGER\n\
76 Threshold which will result in a critical status\n\
77-p, --port=INTEGER\n\
78 Optional port number (default: %d)\n\
79-t, --timeout=INTEGER\n\
80 Seconds before connection attempt times out (default: %d)\n\
81-o, --osversion\n\
82 Include server version string in results\n\
83-h, --help\n\
84 Print this help screen\n\
85-V, --version\n\
86 Print version information\n"
87
88#define DESCRIPTION "\
89Notes:\n\
90- This plugin requres that the MRTGEXT.NLM file from James Drews' MRTG\n\
91 extension for NetWare be loaded on the Novell servers you wish to check.\n\
92 (available from http://www.engr.wisc.edu/~drews/mrtg/)\n\
93- Values for critical thresholds should be lower than warning thresholds\n\
94 when the following variables are checked: VPF, VKF, LTCH, CBUFF, DCB, \n\
95 TCB, LRUS and LRUM.\n"
96 23
97#include "config.h"
98#include "common.h" 24#include "common.h"
99#include "netutils.h" 25#include "netutils.h"
100#include "utils.h" 26#include "utils.h"
101 27
102#define CHECK_NONE 0 28enum checkvar {
103#define CHECK_LOAD1 1 /* check 1 minute CPU load */ 29 NONE,
104#define CHECK_LOAD5 2 /* check 5 minute CPU load */ 30 LOAD1, /* check 1 minute CPU load */
105#define CHECK_LOAD15 3 /* check 15 minute CPU load */ 31 LOAD5, /* check 5 minute CPU load */
106#define CHECK_CONNS 4 /* check number of connections */ 32 LOAD15, /* check 15 minute CPU load */
107#define CHECK_VPF 5 /* check % free space on volume */ 33 CONNS, /* check number of connections */
108#define CHECK_VKF 6 /* check KB free space on volume */ 34 VPF, /* check % free space on volume */
109#define CHECK_LTCH 7 /* check long-term cache hit percentage */ 35 VKF, /* check KB free space on volume */
110#define CHECK_CBUFF 8 /* check total cache buffers */ 36 LTCH, /* check long-term cache hit percentage */
111#define CHECK_CDBUFF 9 /* check dirty cache buffers */ 37 CBUFF, /* check total cache buffers */
112#define CHECK_LRUM 10 /* check LRU sitting time in minutes */ 38 CDBUFF, /* check dirty cache buffers */
113#define CHECK_DSDB 11 /* check to see if DS Database is open */ 39 LRUM, /* check LRU sitting time in minutes */
114#define CHECK_LOGINS 12 /* check to see if logins are enabled */ 40 DSDB, /* check to see if DS Database is open */
115#define CHECK_PUPRB 13 /* check % of used packet receive buffers */ 41 LOGINS, /* check to see if logins are enabled */
116#define CHECK_UPRB 14 /* check used packet receive buffers */ 42 PUPRB, /* check % of used packet receive buffers */
117#define CHECK_SAPENTRIES 15 /* check SAP entries */ 43 UPRB, /* check used packet receive buffers */
118#define CHECK_OFILES 16 /* check number of open files */ 44 SAPENTRIES, /* check SAP entries */
119#define CHECK_VKP 17 /* check KB purgeable space on volume */ 45 OFILES, /* check number of open files */
120#define CHECK_VPP 18 /* check % purgeable space on volume */ 46 VKP, /* check KB purgeable space on volume */
121#define CHECK_VKNP 19 /* check KB not yet purgeable space on volume */ 47 VPP, /* check % purgeable space on volume */
122#define CHECK_VPNP 20 /* check % not yet purgeable space on volume */ 48 VKNP, /* check KB not yet purgeable space on volume */
123#define CHECK_ABENDS 21 /* check abended thread count */ 49 VPNP, /* check % not yet purgeable space on volume */
124#define CHECK_CSPROCS 22 /* check number of current service processes */ 50 ABENDS, /* check abended thread count */
125#define CHECK_TSYNC 23 /* check timesync status 0=no 1=yes in sync to the network */ 51 CSPROCS, /* check number of current service processes */
126#define CHECK_LRUS 24 /* check LRU sitting time in seconds */ 52 TSYNC, /* check timesync status 0=no 1=yes in sync to the network */
127#define CHECK_DCB 25 /* check dirty cache buffers as a percentage of the total */ 53 LRUS, /* check LRU sitting time in seconds */
128#define CHECK_TCB 26 /* check total cache buffers as a percentage of the original */ 54 DCB, /* check dirty cache buffers as a percentage of the total */
129#define CHECK_DSVER 27 /* check NDS version */ 55 TCB, /* check total cache buffers as a percentage of the original */
130#define CHECK_UPTIME 28 /* check server uptime */ 56 DSVER, /* check NDS version */
131#define CHECK_NLM 29 /* check NLM loaded */ 57 UPTIME, /* check server uptime */
132 58 NLM /* check NLM loaded */
133#define PORT 9999 59};
60
61enum {
62 PORT = 9999
63};
134 64
135char *server_address=NULL; 65char *server_address=NULL;
136char *volume_name=NULL; 66char *volume_name=NULL;
@@ -141,14 +71,15 @@ unsigned long critical_value=0L;
141int check_warning_value=FALSE; 71int check_warning_value=FALSE;
142int check_critical_value=FALSE; 72int check_critical_value=FALSE;
143int check_netware_version=FALSE; 73int check_netware_version=FALSE;
144unsigned long vars_to_check=CHECK_NONE; 74enum checkvar vars_to_check = NONE;
145int sap_number=-1; 75int sap_number=-1;
146 76
147int process_arguments(int, char **); 77int process_arguments(int, char **);
148void print_usage(void); 78void print_usage(void);
149void print_help(void); 79void print_help(void);
150 80
151int main(int argc, char **argv){ 81int
82main(int argc, char **argv) {
152 int result; 83 int result;
153 char *send_buffer=NULL; 84 char *send_buffer=NULL;
154 char recv_buffer[MAX_INPUT_BUFFER]; 85 char recv_buffer[MAX_INPUT_BUFFER];
@@ -156,33 +87,33 @@ int main(int argc, char **argv){
156 char *temp_buffer=NULL; 87 char *temp_buffer=NULL;
157 char *netware_version=NULL; 88 char *netware_version=NULL;
158 89
159 int total_cache_buffers=0;
160 int dirty_cache_buffers=0;
161 int time_sync_status=0; 90 int time_sync_status=0;
162 int open_files=0; 91 unsigned long total_cache_buffers=0;
163 int abended_threads=0; 92 unsigned long dirty_cache_buffers=0;
164 int max_service_processes=0; 93 unsigned long open_files=0;
165 int current_service_processes=0; 94 unsigned long abended_threads=0;
95 unsigned long max_service_processes=0;
96 unsigned long current_service_processes=0;
166 unsigned long free_disk_space=0L; 97 unsigned long free_disk_space=0L;
167 unsigned long total_disk_space=0L; 98 unsigned long total_disk_space=0L;
168 unsigned long purgeable_disk_space=0L; 99 unsigned long purgeable_disk_space=0L;
169 unsigned long non_purgeable_disk_space=0L; 100 unsigned long non_purgeable_disk_space=0L;
170 int percent_free_space=0; 101 unsigned long percent_free_space=0;
171 int percent_purgeable_space=0; 102 unsigned long percent_purgeable_space=0;
172 int percent_non_purgeable_space=0; 103 unsigned long percent_non_purgeable_space=0;
173 unsigned long current_connections=0L; 104 unsigned long current_connections=0L;
174 unsigned long utilization=0L; 105 unsigned long utilization=0L;
175 int cache_hits=0; 106 unsigned long cache_hits=0;
176 unsigned long cache_buffers=0L; 107 unsigned long cache_buffers=0L;
177 unsigned long lru_time=0L; 108 unsigned long lru_time=0L;
178 char uptime[MAX_INPUT_BUFFER]; 109 unsigned long max_packet_receive_buffers=0;
179 int max_packet_receive_buffers=0; 110 unsigned long used_packet_receive_buffers=0;
180 int used_packet_receive_buffers=0;
181 unsigned long percent_used_packet_receive_buffers=0L; 111 unsigned long percent_used_packet_receive_buffers=0L;
182 int sap_entries=0; 112 unsigned long sap_entries=0;
113 char uptime[MAX_INPUT_BUFFER];
183 114
184 if(process_arguments(argc,argv)==ERROR) 115 if (process_arguments(argc,argv)==ERROR)
185 usage("Could not parse arguments\n"); 116 usage(_("Could not parse arguments\n"));
186 117
187 /* initialize alarm signal handling */ 118 /* initialize alarm signal handling */
188 signal(SIGALRM,socket_timeout_alarm_handler); 119 signal(SIGALRM,socket_timeout_alarm_handler);
@@ -192,536 +123,567 @@ int main(int argc, char **argv){
192 123
193 /* get OS version string */ 124 /* get OS version string */
194 if (check_netware_version==TRUE) { 125 if (check_netware_version==TRUE) {
195 send_buffer = strscpy(send_buffer,"S19\r\n"); 126 send_buffer = strdup ("S19\r\n");
196 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 127 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
197 if(result!=STATE_OK) 128 if (result!=STATE_OK)
198 return result; 129 return result;
199 if(!strcmp(recv_buffer,"-1\n")) 130 if (!strcmp(recv_buffer,"-1\n"))
200 asprintf(&netware_version,""); 131 asprintf (&netware_version, "%s", "");
201 else { 132 else {
202 recv_buffer[strlen(recv_buffer)-1]=0; 133 recv_buffer[strlen(recv_buffer)-1]=0;
203 asprintf(&netware_version,"NetWare %s: ",recv_buffer); 134 asprintf (&netware_version,_("NetWare %s: "),recv_buffer);
204 } 135 }
205 } else 136 } else
206 asprintf(&netware_version,""); 137 asprintf (&netware_version, "%s", "");
207 138
208 139
209 /* check CPU load */ 140 /* check CPU load */
210 if (vars_to_check==CHECK_LOAD1 || vars_to_check==CHECK_LOAD5 || vars_to_check==CHECK_LOAD15) { 141 if (vars_to_check==LOAD1 || vars_to_check==LOAD5 || vars_to_check==LOAD15) {
211 142
212 switch(vars_to_check){ 143 switch(vars_to_check) {
213 case CHECK_LOAD1: 144 case LOAD1:
214 temp_buffer = strscpy(temp_buffer,"1"); 145 temp_buffer = strdup ("1");
215 break; 146 break;
216 case CHECK_LOAD5: 147 case LOAD5:
217 temp_buffer = strscpy(temp_buffer,"5"); 148 temp_buffer = strdup ("5");
218 break; 149 break;
219 default: 150 default:
220 temp_buffer = strscpy(temp_buffer,"15"); 151 temp_buffer = strdup ("15");
221 break; 152 break;
222 } 153 }
223 154
224 asprintf(&send_buffer,"UTIL%s\r\n",temp_buffer); 155 asprintf (&send_buffer,"UTIL%s\r\n",temp_buffer);
225 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 156 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
226 if(result!=STATE_OK) 157 if (result!=STATE_OK)
227 return result; 158 return result;
228 utilization=strtoul(recv_buffer,NULL,10); 159 utilization=strtoul(recv_buffer,NULL,10);
229 send_buffer = strscpy(send_buffer,"UPTIME\r\n"); 160 send_buffer = strdup ("UPTIME\r\n");
230 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 161 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
231 if(result!=STATE_OK) 162 if (result!=STATE_OK)
232 return result; 163 return result;
233 recv_buffer[strlen(recv_buffer)-1]=0; 164 recv_buffer[strlen(recv_buffer)-1]=0;
234 sprintf(uptime,"Up %s,",recv_buffer); 165 sprintf(uptime,_("Up %s,"),recv_buffer);
235 166
236 if(check_critical_value==TRUE && utilization >= critical_value) 167 if (check_critical_value==TRUE && utilization >= critical_value)
237 result=STATE_CRITICAL; 168 result=STATE_CRITICAL;
238 else if(check_warning_value==TRUE && utilization >= warning_value) 169 else if (check_warning_value==TRUE && utilization >= warning_value)
239 result=STATE_WARNING; 170 result=STATE_WARNING;
240 171
241 asprintf(&output_message,"Load %s - %s %s-min load average = %lu%%",(result==STATE_OK)?"ok":"problem",uptime,temp_buffer,utilization); 172 asprintf (&output_message,
173 _("Load %s - %s %s-min load average = %lu%%"),
174 state_text(result),
175 uptime,
176 temp_buffer,
177 utilization);
242 178
243 /* check number of user connections */ 179 /* check number of user connections */
244 } else if (vars_to_check==CHECK_CONNS) { 180 } else if (vars_to_check==CONNS) {
245 181
246 send_buffer = strscpy(send_buffer,"CONNECT\r\n"); 182 send_buffer = strdup ("CONNECT\r\n");
247 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 183 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
248 if(result!=STATE_OK) 184 if (result!=STATE_OK)
249 return result; 185 return result;
250 current_connections=strtoul(recv_buffer,NULL,10); 186 current_connections=strtoul(recv_buffer,NULL,10);
251 187
252 if(check_critical_value==TRUE && current_connections >= critical_value) 188 if (check_critical_value==TRUE && current_connections >= critical_value)
253 result=STATE_CRITICAL; 189 result=STATE_CRITICAL;
254 else if(check_warning_value==TRUE && current_connections >= warning_value) 190 else if (check_warning_value==TRUE && current_connections >= warning_value)
255 result=STATE_WARNING; 191 result=STATE_WARNING;
256 asprintf(&output_message,"Conns %s - %lu current connections",(result==STATE_OK)?"ok":"problem",current_connections);
257 192
258 /* check % long term cache hits */ 193 asprintf (&output_message,
259 } else if (vars_to_check==CHECK_LTCH) { 194 _("Conns %s - %lu current connections"),
195 state_text(result),
196 current_connections);
197
198 /* check % long term cache hits */
199 } else if (vars_to_check==LTCH) {
260 200
261 send_buffer = strscpy(send_buffer,"S1\r\n"); 201 send_buffer = strdup ("S1\r\n");
262 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 202 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
263 if(result!=STATE_OK) 203 if (result!=STATE_OK)
264 return result; 204 return result;
265 cache_hits=atoi(recv_buffer); 205 cache_hits=atoi(recv_buffer);
266 206
267 if(check_critical_value==TRUE && cache_hits <= critical_value) 207 if (check_critical_value==TRUE && cache_hits <= critical_value)
268 result=STATE_CRITICAL; 208 result=STATE_CRITICAL;
269 else if(check_warning_value==TRUE && cache_hits <= warning_value) 209 else if (check_warning_value==TRUE && cache_hits <= warning_value)
270 result=STATE_WARNING; 210 result=STATE_WARNING;
271 asprintf(&output_message,"Long term cache hits = %d%%",cache_hits);
272 211
273 /* check cache buffers */ 212 asprintf (&output_message,
274 } else if (vars_to_check==CHECK_CBUFF) { 213 _("%s: Long term cache hits = %lu%%"),
214 state_text(result),
215 cache_hits);
275 216
276 send_buffer = strscpy(send_buffer,"S2\r\n"); 217 /* check cache buffers */
218 } else if (vars_to_check==CBUFF) {
219
220 send_buffer = strdup ("S2\r\n");
277 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 221 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
278 if(result!=STATE_OK) 222 if (result!=STATE_OK)
279 return result; 223 return result;
280 cache_buffers=strtoul(recv_buffer,NULL,10); 224 cache_buffers=strtoul(recv_buffer,NULL,10);
281 225
282 if(check_critical_value==TRUE && cache_buffers <= critical_value) 226 if (check_critical_value==TRUE && cache_buffers <= critical_value)
283 result=STATE_CRITICAL; 227 result=STATE_CRITICAL;
284 else if(check_warning_value==TRUE && cache_buffers <= warning_value) 228 else if (check_warning_value==TRUE && cache_buffers <= warning_value)
285 result=STATE_WARNING; 229 result=STATE_WARNING;
286 asprintf(&output_message,"Total cache buffers = %lu",cache_buffers);
287 230
288 /* check dirty cache buffers */ 231 asprintf (&output_message,
289 } else if (vars_to_check==CHECK_CDBUFF) { 232 _("%s: Total cache buffers = %lu"),
233 state_text(result),
234 cache_buffers);
235
236 /* check dirty cache buffers */
237 } else if (vars_to_check==CDBUFF) {
290 238
291 send_buffer = strscpy(send_buffer,"S3\r\n"); 239 send_buffer = strdup ("S3\r\n");
292 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 240 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
293 if(result!=STATE_OK) 241 if (result!=STATE_OK)
294 return result; 242 return result;
295 cache_buffers=strtoul(recv_buffer,NULL,10); 243 cache_buffers=strtoul(recv_buffer,NULL,10);
296 244
297 if(check_critical_value==TRUE && cache_buffers >= critical_value) 245 if (check_critical_value==TRUE && cache_buffers >= critical_value)
298 result=STATE_CRITICAL; 246 result=STATE_CRITICAL;
299 else if(check_warning_value==TRUE && cache_buffers >= warning_value) 247 else if (check_warning_value==TRUE && cache_buffers >= warning_value)
300 result=STATE_WARNING; 248 result=STATE_WARNING;
301 asprintf(&output_message,"Dirty cache buffers = %lu",cache_buffers);
302 249
303 /* check LRU sitting time in minutes */ 250 asprintf (&output_message,
304 } else if (vars_to_check==CHECK_LRUM) { 251 _("%s: Dirty cache buffers = %lu"),
252 state_text(result),
253 cache_buffers);
254
255 /* check LRU sitting time in minutes */
256 } else if (vars_to_check==LRUM) {
305 257
306 send_buffer = strscpy(send_buffer,"S5\r\n"); 258 send_buffer = strdup ("S5\r\n");
307 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 259 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
308 if(result!=STATE_OK) 260 if (result!=STATE_OK)
309 return result; 261 return result;
310 lru_time=strtoul(recv_buffer,NULL,10); 262 lru_time=strtoul(recv_buffer,NULL,10);
311 263
312 if(check_critical_value==TRUE && lru_time <= critical_value) 264 if (check_critical_value==TRUE && lru_time <= critical_value)
313 result=STATE_CRITICAL; 265 result=STATE_CRITICAL;
314 else if(check_warning_value==TRUE && lru_time <= warning_value) 266 else if (check_warning_value==TRUE && lru_time <= warning_value)
315 result=STATE_WARNING; 267 result=STATE_WARNING;
316 asprintf(&output_message,"LRU sitting time = %lu minutes",lru_time);
317 268
269 asprintf (&output_message,
270 _("%s: LRU sitting time = %lu minutes"),
271 state_text(result),
272 lru_time);
318 273
319 /* check KB free space on volume */
320 } else if (vars_to_check==CHECK_VKF) {
321 274
322 asprintf(&send_buffer,"VKF%s\r\n",volume_name); 275 /* check KB free space on volume */
276 } else if (vars_to_check==VKF) {
277
278 asprintf (&send_buffer,"VKF%s\r\n",volume_name);
323 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 279 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
324 if(result!=STATE_OK) 280 if (result!=STATE_OK)
325 return result; 281 return result;
326 282
327 if (!strcmp(recv_buffer,"-1\n")) { 283 if (!strcmp(recv_buffer,"-1\n")) {
328 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 284 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
329 result=STATE_CRITICAL; 285 result=STATE_CRITICAL;
330 } else { 286 } else {
331 free_disk_space=strtoul(recv_buffer,NULL,10); 287 free_disk_space=strtoul(recv_buffer,NULL,10);
332 if(check_critical_value==TRUE && free_disk_space <= critical_value) 288 if (check_critical_value==TRUE && free_disk_space <= critical_value)
333 result=STATE_CRITICAL; 289 result=STATE_CRITICAL;
334 else if(check_warning_value==TRUE && free_disk_space <= warning_value) 290 else if (check_warning_value==TRUE && free_disk_space <= warning_value)
335 result=STATE_WARNING; 291 result=STATE_WARNING;
336 asprintf(&output_message,"%s%lu KB free on volume %s",(result==STATE_OK)?"":"Only ",free_disk_space,volume_name); 292 asprintf (&output_message,
293 _("%s%lu KB free on volume %s"),
294 (result==STATE_OK)?"":_("Only "),
295 free_disk_space,
296 volume_name);
337 } 297 }
338 298
339 /* check % free space on volume */ 299 /* check % free space on volume */
340 } else if (vars_to_check==CHECK_VPF) { 300 } else if (vars_to_check==VPF) {
341 301
342 asprintf(&send_buffer,"VKF%s\r\n",volume_name); 302 asprintf (&send_buffer,"VKF%s\r\n",volume_name);
343 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 303 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
344 if(result!=STATE_OK) 304 if (result!=STATE_OK)
345 return result; 305 return result;
346 306
347 if(!strcmp(recv_buffer,"-1\n")){ 307 if (!strcmp(recv_buffer,"-1\n")) {
348 308
349 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 309 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
350 result=STATE_CRITICAL; 310 result=STATE_CRITICAL;
351 311
352 } else { 312 } else {
353 313
354 free_disk_space=strtoul(recv_buffer,NULL,10); 314 free_disk_space=strtoul(recv_buffer,NULL,10);
355 315
356 asprintf(&send_buffer,"VKS%s\r\n",volume_name); 316 asprintf (&send_buffer,"VKS%s\r\n",volume_name);
357 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 317 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
358 if(result!=STATE_OK) 318 if (result!=STATE_OK)
359 return result; 319 return result;
360 total_disk_space=strtoul(recv_buffer,NULL,10); 320 total_disk_space=strtoul(recv_buffer,NULL,10);
361 321
362 percent_free_space=(int)(((double)free_disk_space/(double)total_disk_space)*100.0); 322 percent_free_space=(int)(((double)free_disk_space/(double)total_disk_space)*100.0);
363 323
364 if(check_critical_value==TRUE && percent_free_space <= critical_value) 324 if (check_critical_value==TRUE && percent_free_space <= critical_value)
365 result=STATE_CRITICAL; 325 result=STATE_CRITICAL;
366 else if(check_warning_value==TRUE && percent_free_space <= warning_value) 326 else if (check_warning_value==TRUE && percent_free_space <= warning_value)
367 result=STATE_WARNING; 327 result=STATE_WARNING;
368 free_disk_space/=1024; 328 free_disk_space/=1024;
369 asprintf(&output_message,"%lu MB (%d%%) free on volume %s",free_disk_space,percent_free_space,volume_name); 329 asprintf (&output_message,_("%lu MB (%lu%%) free on volume %s"),free_disk_space,percent_free_space,volume_name);
370 } 330 }
371 331
372 /* check to see if DS Database is open or closed */ 332 /* check to see if DS Database is open or closed */
373 } else if(vars_to_check==CHECK_DSDB) { 333 } else if (vars_to_check==DSDB) {
374 334
375 send_buffer = strscpy(send_buffer,"S11\r\n"); 335 send_buffer = strdup ("S11\r\n");
376 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 336 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
377 if(result!=STATE_OK) 337 if (result!=STATE_OK)
378 return result; 338 return result;
379 if(atoi(recv_buffer)==1) 339 if (atoi(recv_buffer)==1)
380 result=STATE_OK; 340 result=STATE_OK;
381 else 341 else
382 result=STATE_WARNING; 342 result=STATE_WARNING;
383 343
384 send_buffer = strscpy(send_buffer,"S13\r\n"); 344 send_buffer = strdup ("S13\r\n");
385 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 345 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
386 temp_buffer=strtok(recv_buffer,"\r\n"); 346 temp_buffer=strtok(recv_buffer,"\r\n");
387 347
388 asprintf(&output_message,"Directory Services Database is %s (DS version %s)",(result==STATE_OK)?"open":"closed",temp_buffer); 348 asprintf (&output_message,_("Directory Services Database is %s (DS version %s)"),(result==STATE_OK)?"open":"closed",temp_buffer);
389 349
390 /* check to see if logins are enabled */ 350 /* check to see if logins are enabled */
391 } else if (vars_to_check==CHECK_LOGINS) { 351 } else if (vars_to_check==LOGINS) {
392 352
393 send_buffer = strscpy(send_buffer,"S12\r\n"); 353 send_buffer = strdup ("S12\r\n");
394 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 354 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
395 if(result!=STATE_OK) 355 if (result!=STATE_OK)
396 return result; 356 return result;
397 if(atoi(recv_buffer)==1) 357 if (atoi(recv_buffer)==1)
398 result=STATE_OK; 358 result=STATE_OK;
399 else 359 else
400 result=STATE_WARNING; 360 result=STATE_WARNING;
401 361
402 asprintf(&output_message,"Logins are %s",(result==STATE_OK)?"enabled":"disabled"); 362 asprintf (&output_message,_("Logins are %s"),(result==STATE_OK)?_("enabled"):_("disabled"));
403 363
404 /* check packet receive buffers */ 364 /* check packet receive buffers */
405 } else if (vars_to_check==CHECK_UPRB || vars_to_check==CHECK_PUPRB) { 365 } else if (vars_to_check==UPRB || vars_to_check==PUPRB) {
406 366
407 asprintf(&send_buffer,"S15\r\n",volume_name); 367 asprintf (&send_buffer,"S15\r\n");
408 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 368 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
409 if(result!=STATE_OK) 369 if (result!=STATE_OK)
410 return result; 370 return result;
411 371
412 used_packet_receive_buffers=atoi(recv_buffer); 372 used_packet_receive_buffers=atoi(recv_buffer);
413 373
414 asprintf(&send_buffer,"S16\r\n",volume_name); 374 asprintf (&send_buffer,"S16\r\n");
415 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 375 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
416 if(result!=STATE_OK) 376 if (result!=STATE_OK)
417 return result; 377 return result;
418 378
419 max_packet_receive_buffers=atoi(recv_buffer); 379 max_packet_receive_buffers=atoi(recv_buffer);
420 380
421 percent_used_packet_receive_buffers=(unsigned long)(((double)used_packet_receive_buffers/(double)max_packet_receive_buffers)*100.0); 381 percent_used_packet_receive_buffers=(unsigned long)(((double)used_packet_receive_buffers/(double)max_packet_receive_buffers)*100.0);
422 382
423 if(vars_to_check==CHECK_UPRB){ 383 if (vars_to_check==UPRB) {
424 if(check_critical_value==TRUE && used_packet_receive_buffers >= critical_value) 384 if (check_critical_value==TRUE && used_packet_receive_buffers >= critical_value)
425 result=STATE_CRITICAL; 385 result=STATE_CRITICAL;
426 else if(check_warning_value==TRUE && used_packet_receive_buffers >= warning_value) 386 else if (check_warning_value==TRUE && used_packet_receive_buffers >= warning_value)
427 result=STATE_WARNING; 387 result=STATE_WARNING;
428 } else { 388 } else {
429 if(check_critical_value==TRUE && percent_used_packet_receive_buffers >= critical_value) 389 if (check_critical_value==TRUE && percent_used_packet_receive_buffers >= critical_value)
430 result=STATE_CRITICAL; 390 result=STATE_CRITICAL;
431 else if(check_warning_value==TRUE && percent_used_packet_receive_buffers >= warning_value) 391 else if (check_warning_value==TRUE && percent_used_packet_receive_buffers >= warning_value)
432 result=STATE_WARNING; 392 result=STATE_WARNING;
433 } 393 }
434 394
435 asprintf(&output_message,"%d of %d (%lu%%) packet receive buffers used",used_packet_receive_buffers,max_packet_receive_buffers,percent_used_packet_receive_buffers); 395 asprintf (&output_message,_("%lu of %lu (%lu%%) packet receive buffers used"),used_packet_receive_buffers,max_packet_receive_buffers,percent_used_packet_receive_buffers);
436 396
437 /* check SAP table entries */ 397 /* check SAP table entries */
438 } else if (vars_to_check==CHECK_SAPENTRIES) { 398 } else if (vars_to_check==SAPENTRIES) {
439 399
440 if(sap_number==-1) 400 if (sap_number==-1)
441 asprintf(&send_buffer,"S9\r\n"); 401 asprintf (&send_buffer,"S9\r\n");
442 else 402 else
443 asprintf(&send_buffer,"S9.%d\r\n",sap_number); 403 asprintf (&send_buffer,"S9.%d\r\n",sap_number);
444 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 404 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
445 if(result!=STATE_OK) 405 if (result!=STATE_OK)
446 return result; 406 return result;
447 407
448 sap_entries=atoi(recv_buffer); 408 sap_entries=atoi(recv_buffer);
449 409
450 if(check_critical_value==TRUE && sap_entries >= critical_value) 410 if (check_critical_value==TRUE && sap_entries >= critical_value)
451 result=STATE_CRITICAL; 411 result=STATE_CRITICAL;
452 else if(check_warning_value==TRUE && sap_entries >= warning_value) 412 else if (check_warning_value==TRUE && sap_entries >= warning_value)
453 result=STATE_WARNING; 413 result=STATE_WARNING;
454 414
455 if(sap_number==-1) 415 if (sap_number==-1)
456 asprintf(&output_message,"%d entries in SAP table",sap_entries); 416 asprintf (&output_message,_("%lu entries in SAP table"),sap_entries);
457 else 417 else
458 asprintf(&output_message,"%d entries in SAP table for SAP type %d",sap_entries,sap_number); 418 asprintf (&output_message,_("%lu entries in SAP table for SAP type %d"),sap_entries,sap_number);
459 419
460 /* check KB purgeable space on volume */ 420 /* check KB purgeable space on volume */
461 } else if (vars_to_check==CHECK_VKP) { 421 } else if (vars_to_check==VKP) {
462 422
463 asprintf(&send_buffer,"VKP%s\r\n",volume_name); 423 asprintf (&send_buffer,"VKP%s\r\n",volume_name);
464 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 424 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
465 if(result!=STATE_OK) 425 if (result!=STATE_OK)
466 return result; 426 return result;
467 427
468 if (!strcmp(recv_buffer,"-1\n")) { 428 if (!strcmp(recv_buffer,"-1\n")) {
469 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 429 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
470 result=STATE_CRITICAL; 430 result=STATE_CRITICAL;
471 } else { 431 } else {
472 purgeable_disk_space=strtoul(recv_buffer,NULL,10); 432 purgeable_disk_space=strtoul(recv_buffer,NULL,10);
473 if(check_critical_value==TRUE && purgeable_disk_space >= critical_value) 433 if (check_critical_value==TRUE && purgeable_disk_space >= critical_value)
474 result=STATE_CRITICAL; 434 result=STATE_CRITICAL;
475 else if(check_warning_value==TRUE && purgeable_disk_space >= warning_value) 435 else if (check_warning_value==TRUE && purgeable_disk_space >= warning_value)
476 result=STATE_WARNING; 436 result=STATE_WARNING;
477 asprintf(&output_message,"%s%lu KB purgeable on volume %s",(result==STATE_OK)?"":"Only ",purgeable_disk_space,volume_name); 437 asprintf (&output_message,_("%s%lu KB purgeable on volume %s"),(result==STATE_OK)?"":_("Only "),purgeable_disk_space,volume_name);
478 } 438 }
479 439
480 /* check % purgeable space on volume */ 440 /* check % purgeable space on volume */
481 } else if (vars_to_check==CHECK_VPP) { 441 } else if (vars_to_check==VPP) {
482 442
483 asprintf(&send_buffer,"VKP%s\r\n",volume_name); 443 asprintf (&send_buffer,"VKP%s\r\n",volume_name);
484 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 444 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
485 if(result!=STATE_OK) 445 if (result!=STATE_OK)
486 return result; 446 return result;
487 447
488 if(!strcmp(recv_buffer,"-1\n")){ 448 if (!strcmp(recv_buffer,"-1\n")) {
489 449
490 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 450 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
491 result=STATE_CRITICAL; 451 result=STATE_CRITICAL;
492 452
493 } else { 453 } else {
494 454
495 purgeable_disk_space=strtoul(recv_buffer,NULL,10); 455 purgeable_disk_space=strtoul(recv_buffer,NULL,10);
496 456
497 asprintf(&send_buffer,"VKS%s\r\n",volume_name); 457 asprintf (&send_buffer,"VKS%s\r\n",volume_name);
498 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 458 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
499 if(result!=STATE_OK) 459 if (result!=STATE_OK)
500 return result; 460 return result;
501 total_disk_space=strtoul(recv_buffer,NULL,10); 461 total_disk_space=strtoul(recv_buffer,NULL,10);
502 462
503 percent_purgeable_space=(int)(((double)purgeable_disk_space/(double)total_disk_space)*100.0); 463 percent_purgeable_space=(int)(((double)purgeable_disk_space/(double)total_disk_space)*100.0);
504 464
505 if(check_critical_value==TRUE && percent_purgeable_space >= critical_value) 465 if (check_critical_value==TRUE && percent_purgeable_space >= critical_value)
506 result=STATE_CRITICAL; 466 result=STATE_CRITICAL;
507 else if(check_warning_value==TRUE && percent_purgeable_space >= warning_value) 467 else if (check_warning_value==TRUE && percent_purgeable_space >= warning_value)
508 result=STATE_WARNING; 468 result=STATE_WARNING;
509 purgeable_disk_space/=1024; 469 purgeable_disk_space/=1024;
510 asprintf(&output_message,"%lu MB (%d%%) purgeable on volume %s",purgeable_disk_space,percent_purgeable_space,volume_name); 470 asprintf (&output_message,_("%lu MB (%lu%%) purgeable on volume %s"),purgeable_disk_space,percent_purgeable_space,volume_name);
511 } 471 }
512 472
513 /* check KB not yet purgeable space on volume */ 473 /* check KB not yet purgeable space on volume */
514 } else if (vars_to_check==CHECK_VKNP) { 474 } else if (vars_to_check==VKNP) {
515 475
516 asprintf(&send_buffer,"VKNP%s\r\n",volume_name); 476 asprintf (&send_buffer,"VKNP%s\r\n",volume_name);
517 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 477 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
518 if(result!=STATE_OK) 478 if (result!=STATE_OK)
519 return result; 479 return result;
520 480
521 if (!strcmp(recv_buffer,"-1\n")) { 481 if (!strcmp(recv_buffer,"-1\n")) {
522 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 482 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
523 result=STATE_CRITICAL; 483 result=STATE_CRITICAL;
524 } else { 484 } else {
525 non_purgeable_disk_space=strtoul(recv_buffer,NULL,10); 485 non_purgeable_disk_space=strtoul(recv_buffer,NULL,10);
526 if(check_critical_value==TRUE && non_purgeable_disk_space >= critical_value) 486 if (check_critical_value==TRUE && non_purgeable_disk_space >= critical_value)
527 result=STATE_CRITICAL; 487 result=STATE_CRITICAL;
528 else if(check_warning_value==TRUE && non_purgeable_disk_space >= warning_value) 488 else if (check_warning_value==TRUE && non_purgeable_disk_space >= warning_value)
529 result=STATE_WARNING; 489 result=STATE_WARNING;
530 asprintf(&output_message,"%s%lu KB not yet purgeable on volume %s",(result==STATE_OK)?"":"Only ",non_purgeable_disk_space,volume_name); 490 asprintf (&output_message,_("%s%lu KB not yet purgeable on volume %s"),(result==STATE_OK)?"":_("Only "),non_purgeable_disk_space,volume_name);
531 } 491 }
532 492
533 /* check % not yet purgeable space on volume */ 493 /* check % not yet purgeable space on volume */
534 } else if (vars_to_check==CHECK_VPNP) { 494 } else if (vars_to_check==VPNP) {
535 495
536 asprintf(&send_buffer,"VKNP%s\r\n",volume_name); 496 asprintf (&send_buffer,"VKNP%s\r\n",volume_name);
537 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 497 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
538 if(result!=STATE_OK) 498 if (result!=STATE_OK)
539 return result; 499 return result;
540 500
541 if(!strcmp(recv_buffer,"-1\n")){ 501 if (!strcmp(recv_buffer,"-1\n")) {
542 502
543 asprintf(&output_message,"Error: Volume '%s' does not exist!",volume_name); 503 asprintf (&output_message,_("Error: Volume '%s' does not exist!"),volume_name);
544 result=STATE_CRITICAL; 504 result=STATE_CRITICAL;
545 505
546 } else { 506 } else {
547 507
548 non_purgeable_disk_space=strtoul(recv_buffer,NULL,10); 508 non_purgeable_disk_space=strtoul(recv_buffer,NULL,10);
549 509
550 asprintf(&send_buffer,"VKS%s\r\n",volume_name); 510 asprintf (&send_buffer,"VKS%s\r\n",volume_name);
551 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 511 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
552 if(result!=STATE_OK) 512 if (result!=STATE_OK)
553 return result; 513 return result;
554 total_disk_space=strtoul(recv_buffer,NULL,10); 514 total_disk_space=strtoul(recv_buffer,NULL,10);
555 515
556 percent_non_purgeable_space=(int)(((double)non_purgeable_disk_space/(double)total_disk_space)*100.0); 516 percent_non_purgeable_space=(int)(((double)non_purgeable_disk_space/(double)total_disk_space)*100.0);
557 517
558 if(check_critical_value==TRUE && percent_non_purgeable_space >= critical_value) 518 if (check_critical_value==TRUE && percent_non_purgeable_space >= critical_value)
559 result=STATE_CRITICAL; 519 result=STATE_CRITICAL;
560 else if(check_warning_value==TRUE && percent_non_purgeable_space >= warning_value) 520 else if (check_warning_value==TRUE && percent_non_purgeable_space >= warning_value)
561 result=STATE_WARNING; 521 result=STATE_WARNING;
562 purgeable_disk_space/=1024; 522 purgeable_disk_space/=1024;
563 asprintf(&output_message,"%lu MB (%d%%) not yet purgeable on volume %s",non_purgeable_disk_space,percent_non_purgeable_space,volume_name); 523 asprintf (&output_message,_("%lu MB (%lu%%) not yet purgeable on volume %s"),non_purgeable_disk_space,percent_non_purgeable_space,volume_name);
564 } 524 }
565 525
566 /* check # of open files */ 526 /* check # of open files */
567 } else if (vars_to_check==CHECK_OFILES) { 527 } else if (vars_to_check==OFILES) {
568 528
569 asprintf(&send_buffer,"S18\r\n"); 529 asprintf (&send_buffer,"S18\r\n");
570 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 530 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
571 if(result!=STATE_OK) 531 if (result!=STATE_OK)
572 return result; 532 return result;
573 533
574 open_files=atoi(recv_buffer); 534 open_files=atoi(recv_buffer);
575 535
576 if(check_critical_value==TRUE && open_files >= critical_value) 536 if (check_critical_value==TRUE && open_files >= critical_value)
577 result=STATE_CRITICAL; 537 result=STATE_CRITICAL;
578 else if(check_warning_value==TRUE && open_files >= warning_value) 538 else if (check_warning_value==TRUE && open_files >= warning_value)
579 result=STATE_WARNING; 539 result=STATE_WARNING;
580 540
581 asprintf(&output_message,"%d open files",open_files); 541 asprintf (&output_message,_("%lu open files"),open_files);
582 542
583 /* check # of abended threads (Netware 5.x only) */ 543 /* check # of abended threads (Netware 5.x only) */
584 } else if (vars_to_check==CHECK_ABENDS) { 544 } else if (vars_to_check==ABENDS) {
585 545
586 asprintf(&send_buffer,"S17\r\n"); 546 asprintf (&send_buffer,"S17\r\n");
587 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 547 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
588 if(result!=STATE_OK) 548 if (result!=STATE_OK)
589 return result; 549 return result;
590 550
591 abended_threads=atoi(recv_buffer); 551 abended_threads=atoi(recv_buffer);
592 552
593 if(check_critical_value==TRUE && abended_threads >= critical_value) 553 if (check_critical_value==TRUE && abended_threads >= critical_value)
594 result=STATE_CRITICAL; 554 result=STATE_CRITICAL;
595 else if(check_warning_value==TRUE && abended_threads >= warning_value) 555 else if (check_warning_value==TRUE && abended_threads >= warning_value)
596 result=STATE_WARNING; 556 result=STATE_WARNING;
597 557
598 asprintf(&output_message,"%d abended threads",abended_threads); 558 asprintf (&output_message,_("%lu abended threads"),abended_threads);
599 559
600 /* check # of current service processes (Netware 5.x only) */ 560 /* check # of current service processes (Netware 5.x only) */
601 } else if (vars_to_check==CHECK_CSPROCS) { 561 } else if (vars_to_check==CSPROCS) {
602 562
603 asprintf(&send_buffer,"S20\r\n"); 563 asprintf (&send_buffer,"S20\r\n");
604 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 564 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
605 if(result!=STATE_OK) 565 if (result!=STATE_OK)
606 return result; 566 return result;
607 567
608 max_service_processes=atoi(recv_buffer); 568 max_service_processes=atoi(recv_buffer);
609 569
610 asprintf(&send_buffer,"S21\r\n"); 570 asprintf (&send_buffer,"S21\r\n");
611 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 571 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
612 if(result!=STATE_OK) 572 if (result!=STATE_OK)
613 return result; 573 return result;
614 574
615 current_service_processes=atoi(recv_buffer); 575 current_service_processes=atoi(recv_buffer);
616 576
617 if(check_critical_value==TRUE && current_service_processes >= critical_value) 577 if (check_critical_value==TRUE && current_service_processes >= critical_value)
618 result=STATE_CRITICAL; 578 result=STATE_CRITICAL;
619 else if(check_warning_value==TRUE && current_service_processes >= warning_value) 579 else if (check_warning_value==TRUE && current_service_processes >= warning_value)
620 result=STATE_WARNING; 580 result=STATE_WARNING;
621 581
622 asprintf(&output_message,"%d current service processes (%d max)",current_service_processes,max_service_processes); 582 asprintf (&output_message,
583 _("%lu current service processes (%lu max)"),
584 current_service_processes,
585 max_service_processes);
623 586
624 /* check # Timesync Status */ 587 /* check # Timesync Status */
625 } else if (vars_to_check==CHECK_TSYNC) { 588 } else if (vars_to_check==TSYNC) {
626 589
627 asprintf(&send_buffer,"S22\r\n"); 590 asprintf (&send_buffer,"S22\r\n");
628 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 591 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
629 if(result!=STATE_OK) 592 if (result!=STATE_OK)
630 return result; 593 return result;
631 594
632 time_sync_status=atoi(recv_buffer); 595 time_sync_status=atoi(recv_buffer);
633 596
634 if(time_sync_status==0) { 597 if (time_sync_status==0) {
635 result=STATE_CRITICAL; 598 result=STATE_CRITICAL;
636 asprintf(&output_message,"Critical: Time not in sync with network!"); 599 asprintf (&output_message,_("Critical: Time not in sync with network!"));
637 } 600 }
638 else { 601 else {
639 asprintf(&output_message,"OK! Time in sync with network!"); 602 asprintf (&output_message,_("OK! Time in sync with network!"));
640 } 603 }
641 604
642 /* check LRU sitting time in secondss */ 605 /* check LRU sitting time in secondss */
643 } else if (vars_to_check==CHECK_LRUS) { 606 } else if (vars_to_check==LRUS) {
644 607
645 send_buffer = strscpy(send_buffer,"S4\r\n"); 608 send_buffer = strdup ("S4\r\n");
646 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 609 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
647 if(result!=STATE_OK) 610 if (result!=STATE_OK)
648 return result; 611 return result;
649 lru_time=strtoul(recv_buffer,NULL,10); 612 lru_time=strtoul(recv_buffer,NULL,10);
650 613
651 if(check_critical_value==TRUE && lru_time <= critical_value) 614 if (check_critical_value==TRUE && lru_time <= critical_value)
652 result=STATE_CRITICAL; 615 result=STATE_CRITICAL;
653 else if(check_warning_value==TRUE && lru_time <= warning_value) 616 else if (check_warning_value==TRUE && lru_time <= warning_value)
654 result=STATE_WARNING; 617 result=STATE_WARNING;
655 asprintf(&output_message,"LRU sitting time = %lu seconds",lru_time); 618 asprintf (&output_message,_("LRU sitting time = %lu seconds"),lru_time);
656 619
657 620
658 /* check % dirty cache buffers as a percentage of the total*/ 621 /* check % dirty cacheobuffers as a percentage of the total*/
659 } else if (vars_to_check==CHECK_DCB) { 622 } else if (vars_to_check==DCB) {
660 623
661 send_buffer = strscpy(send_buffer,"S6\r\n"); 624 send_buffer = strdup ("S6\r\n");
662 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 625 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
663 if(result!=STATE_OK) 626 if (result!=STATE_OK)
664 return result; 627 return result;
665 dirty_cache_buffers=atoi(recv_buffer); 628 dirty_cache_buffers=atoi(recv_buffer);
666 629
667 if(check_critical_value==TRUE && dirty_cache_buffers <= critical_value) 630 if (check_critical_value==TRUE && dirty_cache_buffers <= critical_value)
668 result=STATE_CRITICAL; 631 result=STATE_CRITICAL;
669 else if(check_warning_value==TRUE && dirty_cache_buffers <= warning_value) 632 else if (check_warning_value==TRUE && dirty_cache_buffers <= warning_value)
670 result=STATE_WARNING; 633 result=STATE_WARNING;
671 asprintf(&output_message,"dirty cache buffers = %d%% of the total",dirty_cache_buffers); 634 asprintf (&output_message,_("dirty cache buffers = %lu%% of the total"),dirty_cache_buffers);
672 635
673 /* check % total cache buffers as a percentage of the original*/ 636 /* check % total cache buffers as a percentage of the original*/
674 } else if (vars_to_check==CHECK_TCB) { 637 } else if (vars_to_check==TCB) {
675 638
676 send_buffer = strscpy(send_buffer,"S7\r\n"); 639 send_buffer = strdup ("S7\r\n");
677 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 640 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
678 if(result!=STATE_OK) 641 if (result!=STATE_OK)
679 return result; 642 return result;
680 total_cache_buffers=atoi(recv_buffer); 643 total_cache_buffers=atoi(recv_buffer);
681 644
682 if(check_critical_value==TRUE && total_cache_buffers <= critical_value) 645 if (check_critical_value==TRUE && total_cache_buffers <= critical_value)
683 result=STATE_CRITICAL; 646 result=STATE_CRITICAL;
684 else if(check_warning_value==TRUE && total_cache_buffers <= warning_value) 647 else if (check_warning_value==TRUE && total_cache_buffers <= warning_value)
685 result=STATE_WARNING; 648 result=STATE_WARNING;
686 asprintf(&output_message,"total cache buffers = %d%% of the original",total_cache_buffers); 649 asprintf (&output_message,_("total cache buffers = %lu%% of the original"),total_cache_buffers);
687 650
688 } else if (vars_to_check==CHECK_DSVER) { 651 } else if (vars_to_check==DSVER) {
689 asprintf(&send_buffer,"S13\r\n"); 652 asprintf (&send_buffer,"S13\r\n");
690 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 653 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
691 if(result!=STATE_OK) 654 if (result!=STATE_OK)
692 return result; 655 return result;
693 656
694 recv_buffer[strlen(recv_buffer)-1]=0; 657 recv_buffer[strlen(recv_buffer)-1]=0;
695 658
696 asprintf(&output_message,"NDS Version %s",recv_buffer); 659 asprintf (&output_message,_("NDS Version %s"),recv_buffer);
697 660
698 } else if (vars_to_check==CHECK_UPTIME) { 661 } else if (vars_to_check==UPTIME) {
699 asprintf(&send_buffer,"UPTIME\r\n"); 662 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
700 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 663 if (result!=STATE_OK)
701 if(result!=STATE_OK)
702 return result; 664 return result;
703 665
704 recv_buffer[strlen(recv_buffer)-1]=0; 666 recv_buffer[strlen(recv_buffer)-1]=0;
705 667
706 asprintf(&output_message,"Up %s",recv_buffer); 668 asprintf (&output_message,_("Up %s"),recv_buffer);
707 669
708 } else if (vars_to_check==CHECK_NLM) { 670 } else if (vars_to_check==NLM) {
709 asprintf(&send_buffer,"S24:%s\r\n",nlm_name); 671 asprintf (&send_buffer,"S24:%s\r\n",nlm_name);
710 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer)); 672 result=process_tcp_request(server_address,server_port,send_buffer,recv_buffer,sizeof(recv_buffer));
711 if(result!=STATE_OK) 673 if (result!=STATE_OK)
712 return result; 674 return result;
713 675
714 recv_buffer[strlen(recv_buffer)-1]=0; 676 recv_buffer[strlen(recv_buffer)-1]=0;
715 if(strcmp(recv_buffer,"-1")) { 677 if (strcmp(recv_buffer,"-1")) {
716 asprintf(&output_message,"Module %s version %s is loaded",nlm_name,recv_buffer); 678 asprintf (&output_message,_("Module %s version %s is loaded"),nlm_name,recv_buffer);
717 } else { 679 } else {
718 result=STATE_CRITICAL; 680 result=STATE_CRITICAL;
719 asprintf(&output_message,"Module %s is not loaded",nlm_name); 681 asprintf (&output_message,_("Module %s is not loaded"),nlm_name);
720 } 682 }
721 683
722 } else { 684 } else {
723 685
724 output_message = strscpy(output_message,"Nothing to check!\n"); 686 output_message = strdup (_("Nothing to check!\n"));
725 result=STATE_UNKNOWN; 687 result=STATE_UNKNOWN;
726 688
727 } 689 }
@@ -733,29 +695,28 @@ int main(int argc, char **argv){
733 695
734 return result; 696 return result;
735} 697}
736 698
737
738/* process command-line arguments */ 699/* process command-line arguments */
739int process_arguments(int argc, char **argv){ 700int process_arguments(int argc, char **argv) {
740 int c; 701 int c;
741 702
742 int option_index = 0; 703 int option_index = 0;
743 static struct option long_options[] = 704 static struct option long_options[] =
744 { 705 {
745 {"port", required_argument,0,'p'}, 706 {"port", required_argument,0,'p'},
746 {"timeout", required_argument,0,'t'}, 707 {"timeout", required_argument,0,'t'},
747 {"critical", required_argument,0,'c'}, 708 {"critical", required_argument,0,'c'},
748 {"warning", required_argument,0,'w'}, 709 {"warning", required_argument,0,'w'},
749 {"variable", required_argument,0,'v'}, 710 {"variable", required_argument,0,'v'},
750 {"hostname", required_argument,0,'H'}, 711 {"hostname", required_argument,0,'H'},
751 {"osversion",no_argument, 0,'o'}, 712 {"osversion",no_argument, 0,'o'},
752 {"version", no_argument, 0,'V'}, 713 {"version", no_argument, 0,'V'},
753 {"help", no_argument, 0,'h'}, 714 {"help", no_argument, 0,'h'},
754 {0,0,0,0} 715 {0,0,0,0}
755 }; 716 };
756 717
757 /* no options were supplied */ 718 /* no options were supplied */
758 if(argc<2) return ERROR; 719 if (argc<2) return ERROR;
759 720
760 /* backwards compatibility */ 721 /* backwards compatibility */
761 if (! is_option(argv[1])) { 722 if (! is_option(argv[1])) {
@@ -766,7 +727,7 @@ int process_arguments(int argc, char **argv){
766 } 727 }
767 728
768 for (c=1;c<argc;c++) { 729 for (c=1;c<argc;c++) {
769 if(strcmp("-to",argv[c])==0) 730 if (strcmp("-to",argv[c])==0)
770 strcpy(argv[c],"-t"); 731 strcpy(argv[c],"-t");
771 else if (strcmp("-wv",argv[c])==0) 732 else if (strcmp("-wv",argv[c])==0)
772 strcpy(argv[c],"-w"); 733 strcpy(argv[c],"-w");
@@ -774,7 +735,7 @@ int process_arguments(int argc, char **argv){
774 strcpy(argv[c],"-c"); 735 strcpy(argv[c],"-c");
775 } 736 }
776 737
777 while (1){ 738 while (1) {
778 c = getopt_long(argc,argv,"+hoVH:t:c:w:p:v:",long_options,&option_index); 739 c = getopt_long(argc,argv,"+hoVH:t:c:w:p:v:",long_options,&option_index);
779 740
780 if (c==-1||c==EOF||c==1) 741 if (c==-1||c==EOF||c==1)
@@ -790,7 +751,7 @@ int process_arguments(int argc, char **argv){
790 print_help(); 751 print_help();
791 exit(STATE_OK); 752 exit(STATE_OK);
792 case 'V': /* version */ 753 case 'V': /* version */
793 print_revision(progname,"$Revision$"); 754 print_revision(progname, revision);
794 exit(STATE_OK); 755 exit(STATE_OK);
795 case 'H': /* hostname */ 756 case 'H': /* hostname */
796 server_address=optarg; 757 server_address=optarg;
@@ -802,100 +763,100 @@ int process_arguments(int argc, char **argv){
802 if (is_intnonneg(optarg)) 763 if (is_intnonneg(optarg))
803 server_port=atoi(optarg); 764 server_port=atoi(optarg);
804 else 765 else
805 terminate(STATE_UNKNOWN,"Server port an integer (seconds)\nType '%s -h' for additional help\n",progname); 766 terminate(STATE_UNKNOWN,_("Server port an integer (seconds)\nType '%s -h' for additional help\n"),progname);
806 break; 767 break;
807 case 'v': 768 case 'v':
808 if(strlen(optarg)<3) 769 if (strlen(optarg)<3)
809 return ERROR; 770 return ERROR;
810 if(!strcmp(optarg,"LOAD1")) 771 if (!strcmp(optarg,"LOAD1"))
811 vars_to_check=CHECK_LOAD1; 772 vars_to_check=LOAD1;
812 else if(!strcmp(optarg,"LOAD5")) 773 else if (!strcmp(optarg,"LOAD5"))
813 vars_to_check=CHECK_LOAD5; 774 vars_to_check=LOAD5;
814 else if(!strcmp(optarg,"LOAD15")) 775 else if (!strcmp(optarg,"LOAD15"))
815 vars_to_check=CHECK_LOAD15; 776 vars_to_check=LOAD15;
816 else if(!strcmp(optarg,"CONNS")) 777 else if (!strcmp(optarg,"CONNS"))
817 vars_to_check=CHECK_CONNS; 778 vars_to_check=CONNS;
818 else if(!strcmp(optarg,"LTCH")) 779 else if (!strcmp(optarg,"LTCH"))
819 vars_to_check=CHECK_LTCH; 780 vars_to_check=LTCH;
820 else if(!strcmp(optarg,"DCB")) 781 else if (!strcmp(optarg,"DCB"))
821 vars_to_check=CHECK_DCB; 782 vars_to_check=DCB;
822 else if(!strcmp(optarg,"TCB")) 783 else if (!strcmp(optarg,"TCB"))
823 vars_to_check=CHECK_TCB; 784 vars_to_check=TCB;
824 else if(!strcmp(optarg,"CBUFF")) 785 else if (!strcmp(optarg,"CBUFF"))
825 vars_to_check=CHECK_CBUFF; 786 vars_to_check=CBUFF;
826 else if(!strcmp(optarg,"CDBUFF")) 787 else if (!strcmp(optarg,"CDBUFF"))
827 vars_to_check=CHECK_CDBUFF; 788 vars_to_check=CDBUFF;
828 else if(!strcmp(optarg,"LRUM")) 789 else if (!strcmp(optarg,"LRUM"))
829 vars_to_check=CHECK_LRUM; 790 vars_to_check=LRUM;
830 else if(!strcmp(optarg,"LRUS")) 791 else if (!strcmp(optarg,"LRUS"))
831 vars_to_check=CHECK_LRUS; 792 vars_to_check=LRUS;
832 else if(strncmp(optarg,"VPF",3)==0){ 793 else if (strncmp(optarg,"VPF",3)==0) {
833 vars_to_check=CHECK_VPF; 794 vars_to_check=VPF;
834 volume_name = strscpy(volume_name,optarg+3); 795 volume_name = strdup (optarg+3);
835 if(!strcmp(volume_name,"")) 796 if (!strcmp(volume_name,""))
836 volume_name = strscpy(volume_name,"SYS"); 797 volume_name = strdup ("SYS");
837 } 798 }
838 else if(strncmp(optarg,"VKF",3)==0){ 799 else if (strncmp(optarg,"VKF",3)==0) {
839 vars_to_check=CHECK_VKF; 800 vars_to_check=VKF;
840 volume_name = strscpy(volume_name,optarg+3); 801 volume_name = strdup (optarg+3);
841 if(!strcmp(volume_name,"")) 802 if (!strcmp(volume_name,""))
842 volume_name = strscpy(volume_name,"SYS"); 803 volume_name = strdup ("SYS");
843 } 804 }
844 else if(!strcmp(optarg,"DSDB")) 805 else if (!strcmp(optarg,"DSDB"))
845 vars_to_check=CHECK_DSDB; 806 vars_to_check=DSDB;
846 else if(!strcmp(optarg,"LOGINS")) 807 else if (!strcmp(optarg,"LOGINS"))
847 vars_to_check=CHECK_LOGINS; 808 vars_to_check=LOGINS;
848 else if(!strcmp(optarg,"UPRB")) 809 else if (!strcmp(optarg,"UPRB"))
849 vars_to_check=CHECK_UPRB; 810 vars_to_check=UPRB;
850 else if(!strcmp(optarg,"PUPRB")) 811 else if (!strcmp(optarg,"PUPRB"))
851 vars_to_check=CHECK_PUPRB; 812 vars_to_check=PUPRB;
852 else if(!strncmp(optarg,"SAPENTRIES",10)){ 813 else if (!strncmp(optarg,"SAPENTRIES",10)) {
853 vars_to_check=CHECK_SAPENTRIES; 814 vars_to_check=SAPENTRIES;
854 if(strlen(optarg)>10) 815 if (strlen(optarg)>10)
855 sap_number=atoi(optarg+10); 816 sap_number=atoi(optarg+10);
856 else 817 else
857 sap_number=-1; 818 sap_number=-1;
858 } 819 }
859 else if(!strcmp(optarg,"OFILES")) 820 else if (!strcmp(optarg,"OFILES"))
860 vars_to_check=CHECK_OFILES; 821 vars_to_check=OFILES;
861 else if(strncmp(optarg,"VKP",3)==0){ 822 else if (strncmp(optarg,"VKP",3)==0) {
862 vars_to_check=CHECK_VKP; 823 vars_to_check=VKP;
863 volume_name = strscpy(volume_name,optarg+3); 824 volume_name = strdup (optarg+3);
864 if(!strcmp(volume_name,"")) 825 if (!strcmp(volume_name,""))
865 volume_name = strscpy(volume_name,"SYS"); 826 volume_name = strdup ("SYS");
866 } 827 }
867 else if(strncmp(optarg,"VPP",3)==0){ 828 else if (strncmp(optarg,"VPP",3)==0) {
868 vars_to_check=CHECK_VPP; 829 vars_to_check=VPP;
869 volume_name = strscpy(volume_name,optarg+3); 830 volume_name = strdup (optarg+3);
870 if(!strcmp(volume_name,"")) 831 if (!strcmp(volume_name,""))
871 volume_name = strscpy(volume_name,"SYS"); 832 volume_name = strdup ("SYS");
872 } 833 }
873 else if(strncmp(optarg,"VKNP",4)==0){ 834 else if (strncmp(optarg,"VKNP",4)==0) {
874 vars_to_check=CHECK_VKNP; 835 vars_to_check=VKNP;
875 volume_name = strscpy(volume_name,optarg+4); 836 volume_name = strdup (optarg+4);
876 if(!strcmp(volume_name,"")) 837 if (!strcmp(volume_name,""))
877 volume_name = strscpy(volume_name,"SYS"); 838 volume_name = strdup ("SYS");
878 } 839 }
879 else if(strncmp(optarg,"VPNP",4)==0){ 840 else if (strncmp(optarg,"VPNP",4)==0) {
880 vars_to_check=CHECK_VPNP; 841 vars_to_check=VPNP;
881 volume_name = strscpy(volume_name,optarg+4); 842 volume_name = strdup (optarg+4);
882 if(!strcmp(volume_name,"")) 843 if (!strcmp(volume_name,""))
883 volume_name = strscpy(volume_name,"SYS"); 844 volume_name = strdup("SYS");
845 }
846 else if (!strcmp(optarg,"ABENDS"))
847 vars_to_check=ABENDS;
848 else if (!strcmp(optarg,"CSPROCS"))
849 vars_to_check=CSPROCS;
850 else if (!strcmp(optarg,"TSYNC"))
851 vars_to_check=TSYNC;
852 else if (!strcmp(optarg,"DSVER"))
853 vars_to_check=DSVER;
854 else if (!strcmp(optarg,"UPTIME"))
855 vars_to_check=UPTIME;
856 else if (strncmp(optarg,"NLM:",4)==0) {
857 vars_to_check=NLM;
858 nlm_name=strdup (optarg+4);
884 } 859 }
885 else if(!strcmp(optarg,"ABENDS"))
886 vars_to_check=CHECK_ABENDS;
887 else if(!strcmp(optarg,"CSPROCS"))
888 vars_to_check=CHECK_CSPROCS;
889 else if(!strcmp(optarg,"TSYNC"))
890 vars_to_check=CHECK_TSYNC;
891 else if(!strcmp(optarg,"DSVER"))
892 vars_to_check=CHECK_DSVER;
893 else if(!strcmp(optarg,"UPTIME"))
894 vars_to_check=CHECK_UPTIME;
895 else if(strncmp(optarg,"NLM:",4)==0) {
896 vars_to_check=CHECK_NLM;
897 nlm_name=strscpy(nlm_name,optarg+4);
898 }
899 else 860 else
900 return ERROR; 861 return ERROR;
901 break; 862 break;
@@ -909,7 +870,7 @@ int process_arguments(int argc, char **argv){
909 break; 870 break;
910 case 't': /* timeout */ 871 case 't': /* timeout */
911 socket_timeout=atoi(optarg); 872 socket_timeout=atoi(optarg);
912 if(socket_timeout<=0) 873 if (socket_timeout<=0)
913 return ERROR; 874 return ERROR;
914 } 875 }
915 876
@@ -917,25 +878,97 @@ int process_arguments(int argc, char **argv){
917 878
918 return OK; 879 return OK;
919} 880}
920 881
921
922void print_usage(void) 882void print_usage(void)
923{ 883{
924 printf 884 printf (_("\
925 ("Usage:\n" 885Usage: %s -H host [-p port] [-v variable] [-w warning] [-c critical]\n\
926 " %s %s\n" 886 [-t timeout].\n"), progname);
927 " %s (-h | --help) for detailed help\n" 887 printf (_(UT_HLP_VRS), progname, progname);
928 " %s (-V | --version) for version information\n",
929 progname, OPTIONS, progname, progname);
930} 888}
931 889
932void print_help(void) 890void print_help(void)
933{ 891{
934 print_revision (progname, REVISION); 892 char *myport;
935 printf ("%s\n\n%s\n", COPYRIGHT, SUMMARY); 893 asprintf (&myport, "%d", PORT);
894
895 print_revision (progname, revision);
896
897 printf (_("Copyright (c) 1999-2001 Ethan Galstad <nagios@nagios.org>\n"));
898 printf (_(COPYRIGHT), copyright, email);
899
900 printf (_("\
901Usage: %s This plugin attempts to contact the MRTGEXT NLM running\n\
902on a Novell server to gather the requested system information.\n\n"),
903 progname);
904
936 print_usage(); 905 print_usage();
937 printf 906
938 ("\nOptions:\n" LONGOPTIONS "\n" DESCRIPTION "\n", 907 printf (_(UT_HELP_VRSN));
939 PORT, DEFAULT_SOCKET_TIMEOUT); 908
940 support (); 909 printf (_(UT_HOST_PORT), 'p', myport);
910
911 printf (_("\
912 -v, --variable=STRING\n\
913 Variable to check. Valid variables include:\n\
914 LOAD1 = 1 minute average CPU load\n\
915 LOAD5 = 5 minute average CPU load\n\
916 LOAD15 = 15 minute average CPU load\n\
917 CSPROCS = number of current service processes (NW 5.x only)\n\
918 ABENDS = number of abended threads (NW 5.x only)\n\
919 UPTIME = server uptime\n"));
920
921 printf (_("\
922 LTCH = percent long term cache hits\n\
923 CBUFF = current number of cache buffers\n\
924 CDBUFF = current number of dirty cache buffers\n\
925 DCB = dirty cache buffers as a percentage of the total\n\
926 TCB = dirty cache buffers as a percentage of the original\n"));
927
928 printf (_("\
929 OFILES = number of open files\n\
930 VPF<vol> = percent free space on volume <vol>\n\
931 VKF<vol> = KB of free space on volume <vol>\n\
932 VPP<vol> = percent purgeable space on volume <vol>\n\
933 VKP<vol> = KB of purgeable space on volume <vol>\n\
934 VPNP<vol> = percent not yet purgeable space on volume <vol>\n\
935 VKNP<vol> = KB of not yet purgeable space on volume <vol>\n"));
936
937 printf (_("\
938 LRUM = LRU sitting time in minutes\n\
939 LRUS = LRU sitting time in seconds\n\
940 DSDB = check to see if DS Database is open\n\
941 DSVER = NDS version\n\
942 UPRB = used packet receive buffers\n\
943 PUPRB = percent (of max) used packet receive buffers\n\
944 SAPENTRIES = number of entries in the SAP table\n\
945 SAPENTRIES<n> = number of entries in the SAP table for SAP type <n>\n"));
946
947 printf (_("\
948 TSYNC = timesync status \n\
949 LOGINS = check to see if logins are enabled\n\
950 CONNS = number of currently licensed connections\n\
951 NLM:<nlm> = check if NLM is loaded and report version\n\
952 (e.g. \"NLM:TSANDS.NLM\")\n"));
953
954 printf (_("\
955 -w, --warning=INTEGER\n\
956 Threshold which will result in a warning status\n\
957 -c, --critical=INTEGER\n\
958 Threshold which will result in a critical status\n\
959 -o, --osversion\n\
960 Include server version string in results\n"));
961
962 printf (_(UT_TIMEOUT), DEFAULT_SOCKET_TIMEOUT);
963
964 printf (_("\n\
965Notes:\n\
966- This plugin requres that the MRTGEXT.NLM file from James Drews' MRTG\n\
967 extension for NetWare be loaded on the Novell servers you wish to check.\n\
968 (available from http://www.engr.wisc.edu/~drews/mrtg/)\n\
969- Values for critical thresholds should be lower than warning thresholds\n\
970 when the following variables are checked: VPF, VKF, LTCH, CBUFF, DCB, \n\
971 TCB, LRUS and LRUM.\n"));
972
973 printf (_(UT_SUPPORT));
941} 974}