############################################################################### # COMMAND CONFIGURATION # # $Id$ # # SYNTAX: # command[]= # # = A short name used to identify the command # = The actual command line. The command line doesn't have to # be surrounded in quotes, but may contain quotes as needed within # the command line. Take care to use single quotes at the # outer edges of commands or you will have command line # expansion problems when the command is executed by the shell. # Any valid shell command can be used. Multiple commands can # be separated with semicolons, piping is allowed. The # command line can contain macros, but not are macros are valid # at all time (notifications, service checks, etc). See the # HTML documentaion for more informationon on using macros in # commands. # # Note: Service check, service notification, host check, host notification, # service event handler, and host event handler functions are all defined # here. ############################################################################### # Service notification command - send email with problem summary command[notify-by-email]=/bin/printf "$OUTPUT$" | /bin/mail -s '$SERVICESTATE$ alert for $HOSTALIAS$/$SERVICEDESC$' $CONTACTEMAIL$ # Service notification command - send email to alphanumeric pager # gateway The notify-by-epager command assumes that each contact has a # pager email gateway, and that the address has been entered into the # appropriate contact field instead of an actual pager number. # (i.e. 'pagejoe@nowhere.com' routes mail to Joe's alphanumeric pager) command[notify-by-epager]=/bin/echo "$OUTPUT$" | /bin/mail -s '$HOSTALIAS$/$SERVICEDESC$ is $SERVICESTATE$' $CONTACTPAGER$ # Host notification commands (one for email, one for alphanumeric # pager with email gateway) command[host-notify-by-email]=/bin/echo -e "***** Nagios *****\n\nHost "$HOSTALIAS$" is $HOSTSTATE$!\n\nDate/Time: $DATETIME$\n" | /bin/mail -s 'Host $HOSTNAME$ is $HOSTSTATE$!' $CONTACTEMAIL$ command[host-notify-by-epager]=/bin/echo '$HOSTALIAS$ is $HOSTSTATE$!' | /bin/mail -s 'Host $HOSTNAME$ is $HOSTSTATE$!' $CONTACTPAGER$ # These are some example service check commands. See the HTML # documentation on the plugins for examples of how to configure # command definitions. command[check_tcp]=@libexecdir@/check_tcp -H $HOSTADDRESS$ -p $ARG1$ command[check_udp]=@libexecdir@/check_udp -H $HOSTADDRESS$ -p $ARG1$ command[check_ftp]=@libexecdir@/check_ftp -H $HOSTADDRESS$ command[check_pop]=@libexecdir@/check_pop -H $HOSTADDRESS$ command[check_smtp]=@libexecdir@/check_smtp -H $HOSTADDRESS$ command[check_nntp]=@libexecdir@/check_nntp -H $HOSTADDRESS$ command[check_telnet]=@libexecdir@/check_tcp -H $HOSTADDRESS$ -p 23 command[check_users]=@libexecdir@/check_users -w $ARG1$ -c $ARG2$ command[check_hpjd]=@libexecdir@/check_hpjd -H $HOSTADDRESS$ -C public command[check_mrtg]=@libexecdir@/check_mrtg $ARG1$ 10 AVG $ARG2$ $ARG3$ $ARG4$ $ARG5$ $ARG6$ command[traffic_average]=@libexecdir@/check_mrtgtraf $ARG1$ 10 AVG $ARG2$ $ARG3$ $ARG4$ $ARG5$ command[check_load]=@libexecdir@/check_load $ARG1$ $ARG2$ $ARG3$ $ARG4$ $ARG5$ $ARG6$ command[check_disk]=@libexecdir@/check_disk -w 85% -c 95% -p $ARG1$ command[check_dns]=@libexecdir@/check_dns -H www.yahoo.com -s $HOSTADDRESS$ command[check_http]=@libexecdir@/check_http -H $HOSTADDRESS$ -I $HOSTADDRESS$ command[check_http2]=@libexecdir@/check_http -H $ARG1$ -I $HOSTADDRESS$ -w $ARG2$ -c $ARG3$ command[check_pgsql]=@libexecdir@/check_pgsql -H $HOSTADDRESS$ command[check_ping]=@libexecdir@/check_ping -H $HOSTADDRESS$ -w 10:20% -c 60:100% command[check_procs]=@libexecdir@/check_procs -w $ARG1$ -c $ARG2$ command[check_procs_zombie]=@libexecdir@/check_procs -w $ARG1$ -c $ARG2$ -s Z command[check_procs_httpd]=@libexecdir@/check_procs -w 5:$ARG1$ -c 1:$ARG2$ -C httpd command[check_vsz]=@libexecdir@/check_vsz -w 8096 -c 16182 -C httpd # An example of using check_by_ssh as an active service check command[ssh_disk]=@libexecdir@/check_by_ssh -H $HOSTADDRESS$ -C '@libexecdir@/check_disk -w 85% -c 95% -p $ARG1$' # # UCD_SNMP equivalents for some of the commands above # command[snmp_load]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o .1.3.6.1.4.1.2021.10.1.5.1,.1.3.6.1.4.1.2021.10.1.5.2,.1.3.6.1.4.1.2021.10.1.5.3 -w :$ARG2$,:$ARG3$,:$ARG4$ -w :$ARG5$,:$ARG6$,:$ARG7$ -l load command[snmp_cpustats]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o .1.3.6.1.4.1.2021.11.9.0,.1.3.6.1.4.1.2021.11.10.0,.1.3.6.1.4.1.2021.11.11.0 -l 'CPU usage (user system idle)' -u '%' command[snmp_procname]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o 1.3.6.1.4.1.2021.2.1.5.$ARG2$ -w $ARG3$:$ARG4$ -c $ARG5$:$ARG6$ command[snmp_disk]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o 1.3.6.1.4.1.2021.9.1.7.$ARG1$,1.3.6.1.4.1.2021.9.1.9.$ARG1$ -w $ARG2$:,:$ARG3$ -c $ARG4$:,:$ARG5$ -u 'kB free (','% used)' -l 'disk space' command[snmp_mem]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o .1.3.6.1.4.1.2021.4.6.0,.1.3.6.1.4.1.2021.4.5.0 -w $ARG2$: -c $ARG3$: command[snmp_swap]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o .1.3.6.1.4.1.2021.4.4.0,.1.3.6.1.4.1.2021.4.3.0 -w $ARG2$: -c $ARG3$: # # Slightly more generic SNMP OIDs # note: using partial textual OIDs here - use numeric oids if you don't have MIBDIRS defined per Net-SNMP (net-snmp.org) command[snmp_procs]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrSystem.hrSystemProcesses -w :$ARG2$ -c :$ARG3$ -l processes command[snmp_users]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrSystem.hrSystemNumUsers -w :$ARG2$ -c :$ARG3$ -l users command[snmp_mem2]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageUsed.101,host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageSize.101 -w $ARG2$ -c $ARG3$ command[snmp_swap2]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageUsed.102,host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageSize.102 -w $ARG2$ -c $ARG3$ command[snmp_mem]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageUsed.101,host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageSize.101 -w $ARG2$ -c $ARG3$ command[snmp_swap]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageUsed.102,host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageSize.102 -w $ARG2$ -c $ARG3$ command[snmp_disk2]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o host.hrStorage.hrStorageTable.hrStorageEntry.hrStorageUsed.$ARG2$ -w $ARG3$ -c $ARG4$ command[snmp_tcpopen]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o tcp.tcpCurrEstab.0 -w $ARG2$ -c $ARG3$ command[snmp_tcpstats]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C $ARG1$ -o tcp.tcpActiveOpens.0,tcp.tcpPassiveOpens.0,tcp.tcpInSegs.0,tcp.tcpOutSegs.0,tcp.tcpRetransSegs.0 -l 'TCP stats' # Some snmp based network device checks (requires Net::SNMP perl module) # check all admin-up interfaces command[check_ifstatus]=@libexecdir@/check_ifstatus -H $HOSTADDRESS$ -C public # check particular interface by snmp ifIndex key command[check_ifoperstatus]=@libexecdir@/check_ifoperstatus -H $HOSTADDRESS$ -C public -k $ARG1$ # check particular interface by snmp ifDescr value (verify uniqueness before using) command[check_ifoperstatus]=@libexecdir@/check_ifoperstatus -H $HOSTADDRESS$ -C public -d $ARG1$ # verify all you BGP session on a device are running (only returns warning due to some hardcoded option - to be fixed soon) command[check_snmp_bgpstate]=@libexecdir@/check_bgpstate -H $HOSTADDRESS$ -C public # # SNMP NetApp checks (Jason Truong) # # #command[check_netapp_uptime]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C public -o .1.3.6.1.2.1.1.3.0 --delimiter=')' -l "Uptime is" # #command[check_netapp_cpuload]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C public -o .1.3.6.1.4.1.789.1.2.1.3.0 -w 90 -c 95 -u '%' -l "CPU LOAD " # #command[check_netapp_numdisks]=@libexecdir@/check_snmp -H $HOSTADDRESS$ -C public -o .1.3.6.1.4.1.789.1.6.4.1.0,.1.3.6.1.4.1.789.1.6.4.2.0,.1.3.6.1.4.1.789.1.6.4.8.0,.1.3.6.1.4.1.789.1.6.4.7.0 -u 'Total Disks','Active','Spare','Failed' -l "" # # # SNMP Compaq Insight Agent (oids courtesy of vol) # # the following 4 return the following codes: other=1, ok=2, degraded=3, failed=4 # #command[check_compaq_thermalCondition]=@libexec@/check_snmp -H $HOSTADDRESS$ -C public -o .1.3.6.1.4.1.232.6.2.1.0,.1.3.6.1.4.1.232.6.2.2.0,.1.3.6.1.4.1.232.6.2.3.0,.1.3.6.1.4.1.232.6.2.4.0 -u 'ThermalCondition','ThermalTemp','ThermalSystem','ThermalCPUFan' -w 2:2,2:2,2:2,2:2 -c 1:2,1:2,1:2,1:2 -l "Thermal status " # # # This command checks to see if a host is "alive" by pinging it. The # check must result in a 100% packet loss or 5 second (5000ms) round # trip average to produce an error. # This command checks to see if a host is "alive" by pinging it. command[check-host-alive]=@libexecdir@/check_ping -H $HOSTADDRESS$ -w 5000,100% -c 5000,100% -p 1 # This command checks to see if a printer is "alive" by pinging it. command[check-printer-alive]=@libexecdir@/check_ping -H $HOSTADDRESS$ -w 5000,100% -c 5000,100% -p 1 # This command checks to see if a switch is "alive" by pinging it. command[check-switch-alive]=@libexecdir@/check_ping $HOSTADDRESS$ -w 5000,100% -c 5000,100% -p 1 # This command checks to see if a router is "alive" by pinging it. command[check-router-alive]=@libexecdir@/check_ping -H $HOSTADDRESS$ -w 5000,100% -c 5000,100% -p 1 # Check if a host is alive by doing a fast ping instead of a regular ping command[check-fast-alive]=@libexecdir@/check_fping -H $HOSTADDRESS$ # Check if the IMAP service is alive (default port=143) command[check-imap]=@libexecdir@/check_imap $HOSTADDRESS$ # Check RPC services command[check-rpc]=@libexecdir@/check_rpc -H $HOSTADDRESS$ -C $ARG1$ # Check if the NFS server is running (version 2 and version 3) command[check-nfs]=@libexecdir@/check_rpc -H $HOSTADDRESS$ -C nfs -c2,3 # Check game servers/bin/ps -axo 'stat uid ppid comm args' command[check_quake]=@libexecdir@/check_game qs $HOSTADDRESS$ command[check_unreal]=@libexecdir@/check_game uns $HOSTADDRESS$ -p $ARG1$ -pf 8 # Check a port that should be open command[check_nmap]=@libexecdir@/check_nmap -H $HOSTADDRESS$ -t 30 -p $ARG1$ # Check a port that should be open and another that *could* be open, # but no warning is given if optional port is closed. command[check_nmap_optional]=@libexecdir@/check_nmap -H $HOSTADDRESS$ -t 60 -p $ARG1$ -o $ARG2$ # Specify range to nmap command[check_nmap_range]=@libexecdir@/check_nmap -H $HOSTADDRESS$ -t 60 -p $ARG1$ -r $ARG2$ # Specify both optional and range command[check_nmap_opt_range]=@libexecdir@/check_nmap -H $HOSTADDRESS$ -t 60 -p $ARG1$ -o $ARG2$ -r$ARG3$ # Check Radius command[check_radius]=@libexecdir@/check_radius $ARG1$ $ARG2$ $HOSTADDRESS$ 1812 $ARG3$ # Check HTTP proxy # This is a command for checking squid or other proxy servers which uses check # http to ensure an HTTP 200 comes back ..... i.e. squid actually # serves the page and not an error message. command[check_squid]=@libexecdir@/check_http -H $HOSTADDRESS$ -p $ARG1$ -u $ARG2$ -e 'HTTP/1.0 200 OK' ## Check RealAudio url command[check_real_url]=@libexecdir@/check_real $HOSTADDRESS$ -p $ARG1$ -wt $ARG2$ -ct $ARG3$ -to 5 -u $ARG4$ ## Check RealAudio server response command[check_real]=@libexecdir@/check_real $HOSTADDRESS$ -p $ARG1$ -wt $ARG2$ -ct $ARG3$ -to 5 # Still have to write sample entries for the following: # # check_ldap # check_nwstat # check_overcr