/*****************************************************************************
*
* Monitoring check_nwstat plugin
*
* License: GPL
* Copyright (c) 2000-2024 Monitoring Plugins Development Team
*
* Description:
*
* This file contains the check_nwstat plugin
*
* This plugin attempts to contact the MRTGEXT NLM running on a
* Novell server to gather the requested system information.
*
*
* 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 3 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, see .
*
*
*****************************************************************************/
const char *progname = "check_nwstat";
const char *copyright = "2000-2024";
const char *email = "devel@monitoring-plugins.org";
#include "common.h"
#include "netutils.h"
#include "utils.h"
enum checkvar {
NONE,
LOAD1, /* check 1 minute CPU load */
LOAD5, /* check 5 minute CPU load */
LOAD15, /* check 15 minute CPU load */
CONNS, /* check number of connections */
VPF, /* check % free space on volume */
VMF, /* check MB free space on volume */
VMU, /* check MB used space on volume */
VPU, /* check % used space on volume */
VMP, /* check MB purgeable space on volume */
VKF, /* check KB free space on volume */
LTCH, /* check long-term cache hit percentage */
CBUFF, /* check total cache buffers */
CDBUFF, /* check dirty cache buffers */
LRUM, /* check LRU sitting time in minutes */
DSDB, /* check to see if DS Database is open */
LOGINS, /* check to see if logins are enabled */
NRMH, /* check to see NRM Health Status */
PUPRB, /* check % of used packet receive buffers */
UPRB, /* check used packet receive buffers */
SAPENTRIES, /* check SAP entries */
OFILES, /* check number of open files */
VKP, /* check KB purgeable space on volume */
VPP, /* check % purgeable space on volume */
VKNP, /* check KB not yet purgeable space on volume */
VPNP, /* check % not yet purgeable space on volume */
ABENDS, /* check abended thread count */
CSPROCS, /* check number of current service processes */
TSYNC, /* check timesync status 0=no 1=yes in sync to the network */
LRUS, /* check LRU sitting time in seconds */
DCB, /* check dirty cache buffers as a percentage of the total */
TCB, /* check total cache buffers as a percentage of the original */
DSVER, /* check NDS version */
UPTIME, /* check server uptime */
NLM, /* check NLM loaded */
NRMP, /* check NRM Process Values */
NRMM, /* check NRM Memory Values */
NRMS, /* check NRM Values */
NSS1, /* check Statistics from _Admin:Manage_NSS\GeneralStats.xml */
NSS2, /* check Statistics from _Admin:Manage_NSS\BufferCache.xml */
NSS3, /* check statistics from _Admin:Manage_NSS\NameCache.xml */
NSS4, /* check statistics from _Admin:Manage_NSS\FileStats.xml */
NSS5, /* check statistics from _Admin:Manage_NSS\ObjectCache.xml */
NSS6, /* check statistics from _Admin:Manage_NSS\Thread.xml */
NSS7 /* check statistics from _Admin:Manage_NSS\AuthorizationCache.xml */
};
enum {
PORT = 9999
};
char *server_address = NULL;
char *volume_name = NULL;
char *nlm_name = NULL;
char *nrmp_name = NULL;
char *nrmm_name = NULL;
char *nrms_name = NULL;
char *nss1_name = NULL;
char *nss2_name = NULL;
char *nss3_name = NULL;
char *nss4_name = NULL;
char *nss5_name = NULL;
char *nss6_name = NULL;
char *nss7_name = NULL;
int server_port = PORT;
unsigned long warning_value = 0L;
unsigned long critical_value = 0L;
bool check_warning_value = false;
bool check_critical_value = false;
bool check_netware_version = false;
enum checkvar vars_to_check = NONE;
int sap_number = -1;
int process_arguments(int, char **);
void print_help(void);
void print_usage(void);
int main(int argc, char **argv) {
int result = STATE_UNKNOWN;
int sd;
char *send_buffer = NULL;
char recv_buffer[MAX_INPUT_BUFFER];
char *output_message = NULL;
char *temp_buffer = NULL;
char *netware_version = NULL;
int time_sync_status = 0;
int nrm_health_status = 0;
unsigned long total_cache_buffers = 0;
unsigned long dirty_cache_buffers = 0;
unsigned long open_files = 0;
unsigned long abended_threads = 0;
unsigned long max_service_processes = 0;
unsigned long current_service_processes = 0;
unsigned long free_disk_space = 0L;
unsigned long nrmp_value = 0L;
unsigned long nrmm_value = 0L;
unsigned long nrms_value = 0L;
unsigned long nss1_value = 0L;
unsigned long nss2_value = 0L;
unsigned long nss3_value = 0L;
unsigned long nss4_value = 0L;
unsigned long nss5_value = 0L;
unsigned long nss6_value = 0L;
unsigned long nss7_value = 0L;
unsigned long total_disk_space = 0L;
unsigned long used_disk_space = 0L;
unsigned long percent_used_disk_space = 0L;
unsigned long purgeable_disk_space = 0L;
unsigned long non_purgeable_disk_space = 0L;
unsigned long percent_free_space = 0;
unsigned long percent_purgeable_space = 0;
unsigned long percent_non_purgeable_space = 0;
unsigned long current_connections = 0L;
unsigned long utilization = 0L;
unsigned long cache_hits = 0;
unsigned long cache_buffers = 0L;
unsigned long lru_time = 0L;
unsigned long max_packet_receive_buffers = 0;
unsigned long used_packet_receive_buffers = 0;
unsigned long percent_used_packet_receive_buffers = 0L;
unsigned long sap_entries = 0;
char uptime[MAX_INPUT_BUFFER];
setlocale(LC_ALL, "");
bindtextdomain(PACKAGE, LOCALEDIR);
textdomain(PACKAGE);
/* Parse extra opts if any */
argv = np_extra_opts(&argc, argv, progname);
if (process_arguments(argc, argv) == ERROR)
usage4(_("Could not parse arguments"));
/* initialize alarm signal handling */
signal(SIGALRM, socket_timeout_alarm_handler);
/* set socket timeout */
alarm(socket_timeout);
/* open connection */
my_tcp_connect(server_address, server_port, &sd);
/* get OS version string */
if (check_netware_version) {
send_buffer = strdup("S19\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n"))
netware_version = strdup("");
else {
recv_buffer[strlen(recv_buffer) - 1] = 0;
xasprintf(&netware_version, _("NetWare %s: "), recv_buffer);
}
} else
netware_version = strdup("");
/* check CPU load */
if (vars_to_check == LOAD1 || vars_to_check == LOAD5 || vars_to_check == LOAD15) {
switch (vars_to_check) {
case LOAD1:
temp_buffer = strdup("1");
break;
case LOAD5:
temp_buffer = strdup("5");
break;
default:
temp_buffer = strdup("15");
break;
}
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "UTIL%s\r\n", temp_buffer);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
utilization = strtoul(recv_buffer, NULL, 10);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("UPTIME\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
recv_buffer[strlen(recv_buffer) - 1] = 0;
sprintf(uptime, _("Up %s,"), recv_buffer);
if (check_critical_value && utilization >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && utilization >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("Load %s - %s %s-min load average = %lu%%|load%s=%lu;%lu;%lu;0;100"), state_text(result), uptime,
temp_buffer, utilization, temp_buffer, utilization, warning_value, critical_value);
/* check number of user connections */
} else if (vars_to_check == CONNS) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("CONNECT\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
current_connections = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && current_connections >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && current_connections >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("Conns %s - %lu current connections|Conns=%lu;%lu;%lu;;"), state_text(result), current_connections,
current_connections, warning_value, critical_value);
/* check % long term cache hits */
} else if (vars_to_check == LTCH) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S1\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
cache_hits = atoi(recv_buffer);
if (check_critical_value && cache_hits <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && cache_hits <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s: Long term cache hits = %lu%%"), state_text(result), cache_hits);
/* check cache buffers */
} else if (vars_to_check == CBUFF) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S2\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
cache_buffers = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && cache_buffers <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && cache_buffers <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s: Total cache buffers = %lu|Cachebuffers=%lu;%lu;%lu;;"), state_text(result), cache_buffers,
cache_buffers, warning_value, critical_value);
/* check dirty cache buffers */
} else if (vars_to_check == CDBUFF) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S3\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
cache_buffers = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && cache_buffers >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && cache_buffers >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s: Dirty cache buffers = %lu|Dirty-Cache-Buffers=%lu;%lu;%lu;;"), state_text(result), cache_buffers,
cache_buffers, warning_value, critical_value);
/* check LRU sitting time in minutes */
} else if (vars_to_check == LRUM) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S5\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
lru_time = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && lru_time <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && lru_time <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s: LRU sitting time = %lu minutes"), state_text(result), lru_time);
/* check KB free space on volume */
} else if (vars_to_check == VKF) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKF%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
free_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && free_disk_space <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && free_disk_space <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu KB free on volume %s|KBFree%s=%lu;%lu;%lu;;"), (result == STATE_OK) ? "" : _("Only "),
free_disk_space, volume_name, volume_name, free_disk_space, warning_value, critical_value);
}
/* check MB free space on volume */
} else if (vars_to_check == VMF) {
xasprintf(&send_buffer, "VMF%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
free_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && free_disk_space <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && free_disk_space <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu MB free on volume %s|MBFree%s=%lu;%lu;%lu;;"), (result == STATE_OK) ? "" : _("Only "),
free_disk_space, volume_name, volume_name, free_disk_space, warning_value, critical_value);
}
/* check MB used space on volume */
} else if (vars_to_check == VMU) {
xasprintf(&send_buffer, "VMU%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
free_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && free_disk_space <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && free_disk_space <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu MB used on volume %s|MBUsed%s=%lu;%lu;%lu;;"), (result == STATE_OK) ? "" : _("Only "),
free_disk_space, volume_name, volume_name, free_disk_space, warning_value, critical_value);
}
/* check % used space on volume */
} else if (vars_to_check == VPU) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
asprintf(&send_buffer, "VMU%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
asprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
used_disk_space = strtoul(recv_buffer, NULL, 10);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
/* get total volume in MB */
asprintf(&send_buffer, "VMS%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
total_disk_space = strtoul(recv_buffer, NULL, 10);
/* calculate percent used on volume */
percent_used_disk_space = (unsigned long)(((double)used_disk_space / (double)total_disk_space) * 100.0);
if (check_critical_value && percent_used_disk_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && percent_used_disk_space >= warning_value)
result = STATE_WARNING;
asprintf(&output_message, _("%lu MB (%lu%%) used on volume %s - total %lu MB|Used space in percent on %s=%lu;%lu;%lu;0;100"),
used_disk_space, percent_used_disk_space, volume_name, total_disk_space, volume_name, percent_used_disk_space,
warning_value, critical_value);
}
/* check % free space on volume */
} else if (vars_to_check == VPF) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKF%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
free_disk_space = strtoul(recv_buffer, NULL, 10);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKS%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
total_disk_space = strtoul(recv_buffer, NULL, 10);
percent_free_space = (unsigned long)(((double)free_disk_space / (double)total_disk_space) * 100.0);
if (check_critical_value && percent_free_space <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && percent_free_space <= warning_value)
result = STATE_WARNING;
free_disk_space /= 1024;
total_disk_space /= 1024;
xasprintf(&output_message, _("%lu MB (%lu%%) free on volume %s - total %lu MB|FreeMB%s=%lu;%lu;%lu;0;100"), free_disk_space,
percent_free_space, volume_name, total_disk_space, volume_name, percent_free_space, warning_value, critical_value);
}
/* check to see if DS Database is open or closed */
} else if (vars_to_check == DSDB) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S11\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (atoi(recv_buffer) == 1)
result = STATE_OK;
else
result = STATE_WARNING;
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S13\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
temp_buffer = strtok(recv_buffer, "\r\n");
xasprintf(&output_message, _("Directory Services Database is %s (DS version %s)"), (result == STATE_OK) ? "open" : "closed",
temp_buffer);
/* check to see if logins are enabled */
} else if (vars_to_check == LOGINS) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S12\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (atoi(recv_buffer) == 1)
result = STATE_OK;
else
result = STATE_WARNING;
xasprintf(&output_message, _("Logins are %s"), (result == STATE_OK) ? _("enabled") : _("disabled"));
/* check NRM Health Status Summary*/
} else if (vars_to_check == NRMH) {
xasprintf(&send_buffer, "NRMH\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
nrm_health_status = atoi(recv_buffer);
if (nrm_health_status == 2) {
result = STATE_OK;
xasprintf(&output_message, _("CRITICAL - NRM Status is bad!"));
} else {
if (nrm_health_status == 1) {
result = STATE_WARNING;
xasprintf(&output_message, _("Warning - NRM Status is suspect!"));
}
xasprintf(&output_message, _("OK - NRM Status is good!"));
}
/* check packet receive buffers */
} else if (vars_to_check == UPRB || vars_to_check == PUPRB) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S15\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
used_packet_receive_buffers = atoi(recv_buffer);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S16\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
max_packet_receive_buffers = atoi(recv_buffer);
percent_used_packet_receive_buffers =
(unsigned long)(((double)used_packet_receive_buffers / (double)max_packet_receive_buffers) * 100.0);
if (vars_to_check == UPRB) {
if (check_critical_value && used_packet_receive_buffers >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && used_packet_receive_buffers >= warning_value)
result = STATE_WARNING;
} else {
if (check_critical_value && percent_used_packet_receive_buffers >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && percent_used_packet_receive_buffers >= warning_value)
result = STATE_WARNING;
}
xasprintf(&output_message, _("%lu of %lu (%lu%%) packet receive buffers used"), used_packet_receive_buffers,
max_packet_receive_buffers, percent_used_packet_receive_buffers);
/* check SAP table entries */
} else if (vars_to_check == SAPENTRIES) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
if (sap_number == -1)
xasprintf(&send_buffer, "S9\r\n");
else
xasprintf(&send_buffer, "S9.%d\r\n", sap_number);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
sap_entries = atoi(recv_buffer);
if (check_critical_value && sap_entries >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && sap_entries >= warning_value)
result = STATE_WARNING;
if (sap_number == -1)
xasprintf(&output_message, _("%lu entries in SAP table"), sap_entries);
else
xasprintf(&output_message, _("%lu entries in SAP table for SAP type %d"), sap_entries, sap_number);
/* check KB purgeable space on volume */
} else if (vars_to_check == VKP) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKP%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
purgeable_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && purgeable_disk_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && purgeable_disk_space >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu KB purgeable on volume %s|Purge%s=%lu;%lu;%lu;;"), (result == STATE_OK) ? "" : _("Only "),
purgeable_disk_space, volume_name, volume_name, purgeable_disk_space, warning_value, critical_value);
}
/* check MB purgeable space on volume */
} else if (vars_to_check == VMP) {
xasprintf(&send_buffer, "VMP%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
purgeable_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && purgeable_disk_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && purgeable_disk_space >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu MB purgeable on volume %s|Purge%s=%lu;%lu;%lu;;"), (result == STATE_OK) ? "" : _("Only "),
purgeable_disk_space, volume_name, volume_name, purgeable_disk_space, warning_value, critical_value);
}
/* check % purgeable space on volume */
} else if (vars_to_check == VPP) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKP%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
purgeable_disk_space = strtoul(recv_buffer, NULL, 10);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKS%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
total_disk_space = strtoul(recv_buffer, NULL, 10);
percent_purgeable_space = (unsigned long)(((double)purgeable_disk_space / (double)total_disk_space) * 100.0);
if (check_critical_value && percent_purgeable_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && percent_purgeable_space >= warning_value)
result = STATE_WARNING;
purgeable_disk_space /= 1024;
xasprintf(&output_message, _("%lu MB (%lu%%) purgeable on volume %s|Purgeable%s=%lu;%lu;%lu;0;100"), purgeable_disk_space,
percent_purgeable_space, volume_name, volume_name, percent_purgeable_space, warning_value, critical_value);
}
/* check KB not yet purgeable space on volume */
} else if (vars_to_check == VKNP) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKNP%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
non_purgeable_disk_space = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && non_purgeable_disk_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && non_purgeable_disk_space >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s%lu KB not yet purgeable on volume %s"), (result == STATE_OK) ? "" : _("Only "),
non_purgeable_disk_space, volume_name);
}
/* check % not yet purgeable space on volume */
} else if (vars_to_check == VPNP) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKNP%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Volume '%s' does not exist!"), volume_name);
result = STATE_CRITICAL;
} else {
non_purgeable_disk_space = strtoul(recv_buffer, NULL, 10);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "VKS%s\r\n", volume_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
total_disk_space = strtoul(recv_buffer, NULL, 10);
percent_non_purgeable_space = (unsigned long)(((double)non_purgeable_disk_space / (double)total_disk_space) * 100.0);
if (check_critical_value && percent_non_purgeable_space >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && percent_non_purgeable_space >= warning_value)
result = STATE_WARNING;
purgeable_disk_space /= 1024;
xasprintf(&output_message, _("%lu MB (%lu%%) not yet purgeable on volume %s"), non_purgeable_disk_space,
percent_non_purgeable_space, volume_name);
}
/* check # of open files */
} else if (vars_to_check == OFILES) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S18\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
open_files = atoi(recv_buffer);
if (check_critical_value && open_files >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && open_files >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%lu open files|Openfiles=%lu;%lu;%lu;0,0"), open_files, open_files, warning_value, critical_value);
/* check # of abended threads (Netware > 5.x only) */
} else if (vars_to_check == ABENDS) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S17\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
abended_threads = atoi(recv_buffer);
if (check_critical_value && abended_threads >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && abended_threads >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%lu abended threads|Abends=%lu;%lu;%lu;;"), abended_threads, abended_threads, warning_value,
critical_value);
/* check # of current service processes (Netware 5.x only) */
} else if (vars_to_check == CSPROCS) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S20\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
max_service_processes = atoi(recv_buffer);
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S21\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
current_service_processes = atoi(recv_buffer);
if (check_critical_value && current_service_processes >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && current_service_processes >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%lu current service processes (%lu max)|Processes=%lu;%lu;%lu;0;%lu"), current_service_processes,
max_service_processes, current_service_processes, warning_value, critical_value, max_service_processes);
/* check # Timesync Status */
} else if (vars_to_check == TSYNC) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S22\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
time_sync_status = atoi(recv_buffer);
if (time_sync_status == 0) {
result = STATE_CRITICAL;
xasprintf(&output_message, _("CRITICAL - Time not in sync with network!"));
} else {
xasprintf(&output_message, _("OK - Time in sync with network!"));
}
/* check LRU sitting time in secondss */
} else if (vars_to_check == LRUS) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S4\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
lru_time = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && lru_time <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && lru_time <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("LRU sitting time = %lu seconds"), lru_time);
/* check % dirty cacheobuffers as a percentage of the total*/
} else if (vars_to_check == DCB) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S6\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
dirty_cache_buffers = atoi(recv_buffer);
if (check_critical_value && dirty_cache_buffers <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && dirty_cache_buffers <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("Dirty cache buffers = %lu%% of the total|DCB=%lu;%lu;%lu;0;100"), dirty_cache_buffers,
dirty_cache_buffers, warning_value, critical_value);
/* check % total cache buffers as a percentage of the original*/
} else if (vars_to_check == TCB) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
send_buffer = strdup("S7\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
total_cache_buffers = atoi(recv_buffer);
if (check_critical_value && total_cache_buffers <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && total_cache_buffers <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("Total cache buffers = %lu%% of the original|TCB=%lu;%lu;%lu;0;100"), total_cache_buffers,
total_cache_buffers, warning_value, critical_value);
} else if (vars_to_check == DSVER) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S13\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
recv_buffer[strlen(recv_buffer) - 1] = 0;
xasprintf(&output_message, _("NDS Version %s"), recv_buffer);
} else if (vars_to_check == UPTIME) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "UPTIME\r\n");
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
recv_buffer[sizeof(recv_buffer) - 1] = 0;
recv_buffer[strlen(recv_buffer) - 1] = 0;
xasprintf(&output_message, _("Up %s"), recv_buffer);
} else if (vars_to_check == NLM) {
close(sd);
my_tcp_connect(server_address, server_port, &sd);
xasprintf(&send_buffer, "S24:%s\r\n", nlm_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
recv_buffer[strlen(recv_buffer) - 1] = 0;
if (strcmp(recv_buffer, "-1")) {
xasprintf(&output_message, _("Module %s version %s is loaded"), nlm_name, recv_buffer);
} else {
result = STATE_CRITICAL;
xasprintf(&output_message, _("Module %s is not loaded"), nlm_name);
}
} else if (vars_to_check == NRMP) {
xasprintf(&send_buffer, "NRMP:%s\r\n", nrmp_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nrmp_name);
result = STATE_CRITICAL;
} else {
nrmp_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nrmp_value <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nrmp_value <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nrmp_name, nrmp_value, nrmp_name, nrmp_value, warning_value,
critical_value);
}
} else if (vars_to_check == NRMM) {
xasprintf(&send_buffer, "NRMM:%s\r\n", nrmm_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nrmm_name);
result = STATE_CRITICAL;
} else {
nrmm_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nrmm_value <= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nrmm_value <= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nrmm_name, nrmm_value, nrmm_name, nrmm_value, warning_value,
critical_value);
}
} else if (vars_to_check == NRMS) {
xasprintf(&send_buffer, "NRMS:%s\r\n", nrms_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nrms_name);
result = STATE_CRITICAL;
} else {
nrms_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nrms_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nrms_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nrms_name, nrms_value, nrms_name, nrms_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS1) {
xasprintf(&send_buffer, "NSS1:%s\r\n", nss1_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss1_name);
result = STATE_CRITICAL;
} else {
nss1_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss1_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss1_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss1_name, nss1_value, nss1_name, nss1_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS2) {
xasprintf(&send_buffer, "NSS2:%s\r\n", nss2_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss2_name);
result = STATE_CRITICAL;
} else {
nss2_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss2_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss2_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss2_name, nss2_value, nss2_name, nss2_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS3) {
xasprintf(&send_buffer, "NSS3:%s\r\n", nss3_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss3_name);
result = STATE_CRITICAL;
} else {
nss3_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss3_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss3_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss3_name, nss3_value, nss3_name, nss3_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS4) {
xasprintf(&send_buffer, "NSS4:%s\r\n", nss4_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss4_name);
result = STATE_CRITICAL;
} else {
nss4_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss4_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss4_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss4_name, nss4_value, nss4_name, nss4_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS5) {
xasprintf(&send_buffer, "NSS5:%s\r\n", nss5_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss5_name);
result = STATE_CRITICAL;
} else {
nss5_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss5_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss5_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss5_name, nss5_value, nss5_name, nss5_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS6) {
xasprintf(&send_buffer, "NSS6:%s\r\n", nss6_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss6_name);
result = STATE_CRITICAL;
} else {
nss6_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss6_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss6_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss6_name, nss6_value, nss6_name, nss6_value, warning_value,
critical_value);
}
} else if (vars_to_check == NSS7) {
xasprintf(&send_buffer, "NSS7:%s\r\n", nss7_name);
result = send_tcp_request(sd, send_buffer, recv_buffer, sizeof(recv_buffer));
if (result != STATE_OK)
return result;
if (!strcmp(recv_buffer, "-1\n")) {
xasprintf(&output_message, _("CRITICAL - Value '%s' does not exist!"), nss7_name);
result = STATE_CRITICAL;
} else {
nss7_value = strtoul(recv_buffer, NULL, 10);
if (check_critical_value && nss7_value >= critical_value)
result = STATE_CRITICAL;
else if (check_warning_value && nss7_value >= warning_value)
result = STATE_WARNING;
xasprintf(&output_message, _("%s is %lu|%s=%lu;%lu;%lu;;"), nss7_name, nss7_value, nss7_name, nss7_value, warning_value,
critical_value);
}
} else {
output_message = strdup(_("Nothing to check!\n"));
result = STATE_UNKNOWN;
}
close(sd);
/* reset timeout */
alarm(0);
printf("%s%s\n", netware_version, output_message);
return result;
}
/* process command-line arguments */
int process_arguments(int argc, char **argv) {
int c;
int option = 0;
static struct option longopts[] = {{"port", required_argument, 0, 'p'}, {"timeout", required_argument, 0, 't'},
{"critical", required_argument, 0, 'c'}, {"warning", required_argument, 0, 'w'},
{"variable", required_argument, 0, 'v'}, {"hostname", required_argument, 0, 'H'},
{"osversion", no_argument, 0, 'o'}, {"version", no_argument, 0, 'V'},
{"help", no_argument, 0, 'h'}, {0, 0, 0, 0}};
/* no options were supplied */
if (argc < 2)
return ERROR;
/* backwards compatibility */
if (!is_option(argv[1])) {
server_address = argv[1];
argv[1] = argv[0];
argv = &argv[1];
argc--;
}
for (c = 1; c < argc; c++) {
if (strcmp("-to", argv[c]) == 0)
strcpy(argv[c], "-t");
else if (strcmp("-wv", argv[c]) == 0)
strcpy(argv[c], "-w");
else if (strcmp("-cv", argv[c]) == 0)
strcpy(argv[c], "-c");
}
while (1) {
c = getopt_long(argc, argv, "+hoVH:t:c:w:p:v:", longopts, &option);
if (c == -1 || c == EOF || c == 1)
break;
switch (c) {
case '?': /* print short usage statement if args not parsable */
usage5();
case 'h': /* help */
print_help();
exit(STATE_UNKNOWN);
case 'V': /* version */
print_revision(progname, NP_VERSION);
exit(STATE_UNKNOWN);
case 'H': /* hostname */
server_address = optarg;
break;
case 'o': /* display nos version */
check_netware_version = true;
break;
case 'p': /* port */
if (is_intnonneg(optarg))
server_port = atoi(optarg);
else
die(STATE_UNKNOWN, _("Server port an integer\n"));
break;
case 'v':
if (strlen(optarg) < 3)
return ERROR;
if (!strcmp(optarg, "LOAD1"))
vars_to_check = LOAD1;
else if (!strcmp(optarg, "LOAD5"))
vars_to_check = LOAD5;
else if (!strcmp(optarg, "LOAD15"))
vars_to_check = LOAD15;
else if (!strcmp(optarg, "CONNS"))
vars_to_check = CONNS;
else if (!strcmp(optarg, "LTCH"))
vars_to_check = LTCH;
else if (!strcmp(optarg, "DCB"))
vars_to_check = DCB;
else if (!strcmp(optarg, "TCB"))
vars_to_check = TCB;
else if (!strcmp(optarg, "CBUFF"))
vars_to_check = CBUFF;
else if (!strcmp(optarg, "CDBUFF"))
vars_to_check = CDBUFF;
else if (!strcmp(optarg, "LRUM"))
vars_to_check = LRUM;
else if (!strcmp(optarg, "LRUS"))
vars_to_check = LRUS;
else if (strncmp(optarg, "VPF", 3) == 0) {
vars_to_check = VPF;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VKF", 3) == 0) {
vars_to_check = VKF;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VMF", 3) == 0) {
vars_to_check = VMF;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (!strcmp(optarg, "DSDB"))
vars_to_check = DSDB;
else if (!strcmp(optarg, "LOGINS"))
vars_to_check = LOGINS;
else if (!strcmp(optarg, "NRMH"))
vars_to_check = NRMH;
else if (!strcmp(optarg, "UPRB"))
vars_to_check = UPRB;
else if (!strcmp(optarg, "PUPRB"))
vars_to_check = PUPRB;
else if (!strncmp(optarg, "SAPENTRIES", 10)) {
vars_to_check = SAPENTRIES;
if (strlen(optarg) > 10)
sap_number = atoi(optarg + 10);
else
sap_number = -1;
} else if (!strcmp(optarg, "OFILES"))
vars_to_check = OFILES;
else if (strncmp(optarg, "VKP", 3) == 0) {
vars_to_check = VKP;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VMP", 3) == 0) {
vars_to_check = VMP;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VMU", 3) == 0) {
vars_to_check = VMU;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VPU", 3) == 0) {
vars_to_check = VPU;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VPP", 3) == 0) {
vars_to_check = VPP;
volume_name = strdup(optarg + 3);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VKNP", 4) == 0) {
vars_to_check = VKNP;
volume_name = strdup(optarg + 4);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (strncmp(optarg, "VPNP", 4) == 0) {
vars_to_check = VPNP;
volume_name = strdup(optarg + 4);
if (!strcmp(volume_name, ""))
volume_name = strdup("SYS");
} else if (!strcmp(optarg, "ABENDS"))
vars_to_check = ABENDS;
else if (!strcmp(optarg, "CSPROCS"))
vars_to_check = CSPROCS;
else if (!strcmp(optarg, "TSYNC"))
vars_to_check = TSYNC;
else if (!strcmp(optarg, "DSVER"))
vars_to_check = DSVER;
else if (!strcmp(optarg, "UPTIME")) {
vars_to_check = UPTIME;
} else if (strncmp(optarg, "NLM:", 4) == 0) {
vars_to_check = NLM;
nlm_name = strdup(optarg + 4);
} else if (strncmp(optarg, "NRMP", 4) == 0) {
vars_to_check = NRMP;
nrmp_name = strdup(optarg + 4);
if (!strcmp(nrmp_name, ""))
nrmp_name = strdup("AVAILABLE_MEMORY");
} else if (strncmp(optarg, "NRMM", 4) == 0) {
vars_to_check = NRMM;
nrmm_name = strdup(optarg + 4);
if (!strcmp(nrmm_name, ""))
nrmm_name = strdup("AVAILABLE_CACHE_MEMORY");
}
else if (strncmp(optarg, "NRMS", 4) == 0) {
vars_to_check = NRMS;
nrms_name = strdup(optarg + 4);
if (!strcmp(nrms_name, ""))
nrms_name = strdup("USED_SWAP_SPACE");
}
else if (strncmp(optarg, "NSS1", 4) == 0) {
vars_to_check = NSS1;
nss1_name = strdup(optarg + 4);
if (!strcmp(nss1_name, ""))
nss1_name = strdup("CURRENTBUFFERCACHESIZE");
}
else if (strncmp(optarg, "NSS2", 4) == 0) {
vars_to_check = NSS2;
nss2_name = strdup(optarg + 4);
if (!strcmp(nss2_name, ""))
nss2_name = strdup("CACHEHITS");
}
else if (strncmp(optarg, "NSS3", 4) == 0) {
vars_to_check = NSS3;
nss3_name = strdup(optarg + 4);
if (!strcmp(nss3_name, ""))
nss3_name = strdup("CACHEGITPERCENT");
}
else if (strncmp(optarg, "NSS4", 4) == 0) {
vars_to_check = NSS4;
nss4_name = strdup(optarg + 4);
if (!strcmp(nss4_name, ""))
nss4_name = strdup("CURRENTOPENCOUNT");
}
else if (strncmp(optarg, "NSS5", 4) == 0) {
vars_to_check = NSS5;
nss5_name = strdup(optarg + 4);
if (!strcmp(nss5_name, ""))
nss5_name = strdup("CACHEMISSES");
}
else if (strncmp(optarg, "NSS6", 4) == 0) {
vars_to_check = NSS6;
nss6_name = strdup(optarg + 4);
if (!strcmp(nss6_name, ""))
nss6_name = strdup("PENDINGWORKSCOUNT");
}
else if (strncmp(optarg, "NSS7", 4) == 0) {
vars_to_check = NSS7;
nss7_name = strdup(optarg + 4);
if (!strcmp(nss7_name, ""))
nss7_name = strdup("CACHESIZE");
}
else
return ERROR;
break;
case 'w': /* warning threshold */
warning_value = strtoul(optarg, NULL, 10);
check_warning_value = true;
break;
case 'c': /* critical threshold */
critical_value = strtoul(optarg, NULL, 10);
check_critical_value = true;
break;
case 't': /* timeout */
socket_timeout = atoi(optarg);
if (socket_timeout <= 0)
return ERROR;
}
}
return OK;
}
void print_help(void) {
char *myport;
xasprintf(&myport, "%d", PORT);
print_revision(progname, NP_VERSION);
printf("Copyright (c) 1999 Ethan Galstad \n");
printf(COPYRIGHT, copyright, email);
printf("%s\n", _("This plugin attempts to contact the MRTGEXT NLM running on a"));
printf("%s\n", _("Novell server to gather the requested system information."));
printf("\n\n");
print_usage();
printf(UT_HELP_VRSN);
printf(UT_EXTRA_OPTS);
printf(UT_HOST_PORT, 'p', myport);
printf(" %s\n", "-v, --variable=STRING");
printf(" %s\n", _("Variable to check. Valid variables include:"));
printf(" %s\n", _("LOAD1 = 1 minute average CPU load"));
printf(" %s\n", _("LOAD5 = 5 minute average CPU load"));
printf(" %s\n", _("LOAD15 = 15 minute average CPU load"));
printf(" %s\n", _("CSPROCS = number of current service processes (NW 5.x only)"));
printf(" %s\n", _("ABENDS = number of abended threads (NW 5.x only)"));
printf(" %s\n", _("UPTIME = server uptime"));
printf(" %s\n", _("LTCH = percent long term cache hits"));
printf(" %s\n", _("CBUFF = current number of cache buffers"));
printf(" %s\n", _("CDBUFF = current number of dirty cache buffers"));
printf(" %s\n", _("DCB = dirty cache buffers as a percentage of the total"));
printf(" %s\n", _("TCB = dirty cache buffers as a percentage of the original"));
printf(" %s\n", _("OFILES = number of open files"));
printf(" %s\n", _(" VMF = MB of free space on Volume "));
printf(" %s\n", _(" VMU = MB used space on Volume "));
printf(" %s\n", _(" VPU = percent used space on Volume "));
printf(" %s\n", _(" VMP = MB of purgeable space on Volume "));
printf(" %s\n", _(" VPF = percent free space on volume "));
printf(" %s\n", _(" VKF = KB of free space on volume "));
printf(" %s\n", _(" VPP = percent purgeable space on volume "));
printf(" %s\n", _(" VKP = KB of purgeable space on volume "));
printf(" %s\n", _(" VPNP = percent not yet purgeable space on volume "));
printf(" %s\n", _(" VKNP = KB of not yet purgeable space on volume "));
printf(" %s\n", _(" LRUM = LRU sitting time in minutes"));
printf(" %s\n", _(" LRUS = LRU sitting time in seconds"));
printf(" %s\n", _(" DSDB = check to see if DS Database is open"));
printf(" %s\n", _(" DSVER = NDS version"));
printf(" %s\n", _(" UPRB = used packet receive buffers"));
printf(" %s\n", _(" PUPRB = percent (of max) used packet receive buffers"));
printf(" %s\n", _(" SAPENTRIES = number of entries in the SAP table"));
printf(" %s\n", _(" SAPENTRIES = number of entries in the SAP table for SAP type "));
printf(" %s\n", _(" TSYNC = timesync status"));
printf(" %s\n", _(" LOGINS = check to see if logins are enabled"));
printf(" %s\n", _(" CONNS = number of currently licensed connections"));
printf(" %s\n", _(" NRMH = NRM Summary Status"));
printf(" %s\n", _(" NRMP = Returns the current value for a NRM health item"));
printf(" %s\n", _(" NRMM = Returns the current memory stats from NRM"));
printf(" %s\n", _(" NRMS = Returns the current Swapfile stats from NRM"));
printf(" %s\n", _(" NSS1 = Statistics from _Admin:Manage_NSS\\GeneralStats.xml"));
printf(" %s\n", _(" NSS3 = Statistics from _Admin:Manage_NSS\\NameCache.xml"));
printf(" %s\n", _(" NSS4 = Statistics from _Admin:Manage_NSS\\FileStats.xml"));
printf(" %s\n", _(" NSS5 = Statistics from _Admin:Manage_NSS\\ObjectCache.xml"));
printf(" %s\n", _(" NSS6 = Statistics from _Admin:Manage_NSS\\Thread.xml"));
printf(" %s\n", _(" NSS7 = Statistics from _Admin:Manage_NSS\\AuthorizationCache.xml"));
printf(" %s\n", _(" NLM: = check if NLM is loaded and report version"));
printf(" %s\n", _(" (e.g. NLM:TSANDS.NLM)"));
printf("\n");
printf(" %s\n", "-w, --warning=INTEGER");
printf(" %s\n", _("Threshold which will result in a warning status"));
printf(" %s\n", "-c, --critical=INTEGER");
printf(" %s\n", _("Threshold which will result in a critical status"));
printf(" %s\n", "-o, --osversion");
printf(" %s\n", _("Include server version string in results"));
printf(UT_CONN_TIMEOUT, DEFAULT_SOCKET_TIMEOUT);
printf("\n");
printf("%s\n", _("Notes:"));
printf(" %s\n", _("- This plugin requires that the MRTGEXT.NLM file from James Drews' MRTG"));
printf(" %s\n", _(" extension for NetWare be loaded on the Novell servers you wish to check."));
printf(" %s\n", _(" (available from http://www.engr.wisc.edu/~drews/mrtg/)"));
printf(" %s\n", _("- Values for critical thresholds should be lower than warning thresholds"));
printf(" %s\n", _(" when the following variables are checked: VPF, VKF, LTCH, CBUFF, DCB, "));
printf(" %s\n", _(" TCB, LRUS and LRUM."));
printf(UT_SUPPORT);
}
void print_usage(void) {
printf("%s\n", _("Usage:"));
printf("%s -H host [-p port] [-v variable] [-w warning] [-c critical] [-t timeout]\n", progname);
}