Server IP : 172.16.15.8 / Your IP : 18.119.141.115 Web Server : Apache System : Linux zeus.vwu.edu 4.18.0-553.27.1.el8_10.x86_64 #1 SMP Wed Nov 6 14:29:02 UTC 2024 x86_64 User : apache ( 48) PHP Version : 7.2.24 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON Directory (0755) : /tmp/../etc/ |
[ Home ] | [ C0mmand ] | [ Upload File ] |
---|
# ==================================================================== # Configuration for the watchdog daemon. For more information on the # parameters in this file use the command 'man watchdog.conf' # ==================================================================== # =================== The hardware timer settings ==================== # # For this daemon to be effective it really needs some hardware timer # to back up any reboot actions. If you have a server then see if it # has IPMI support. Otherwise for Intel-based machines try the iTCO_wdt # module, otherwise (or if that fails) then see if any of the following # module load and work: # # it87_wdt it8712f_wdt w83627hf_wdt w83877f_wdt w83977f_wdt # # If all else fails then 'softdog' is better than no timer at all! # Or work your way through the modules listed under: # # /lib/modules/`uname -r`/kernel/drivers/watchdog/ # # To see if they load, present /dev/watchdog, and are capable of # resetting the system on time-out. # Uncomment this to use the watchdog device driver access "file". #watchdog-device = /dev/watchdog # Uncomment and edit this line for hardware timeout values that differ # from the default of one minute. #watchdog-timeout = 60 # If your watchdog trips by itself when the first timeout interval # elapses then try uncommenting the line below and changing the # value to 'yes'. #watchdog-refresh-use-settimeout = auto # If you have a buggy watchdog device (e.g. some IPMI implementations) # try uncommenting this line and setting it to 'yes'. #watchdog-refresh-ignore-errors = no # ====================== Other system settings ======================== # # Interval between tests. Should be a couple of seconds shorter than # the hardware time-out value. #interval = 1 # The number of intervals skipped before a log message is written (i.e. # a multiplier for 'interval' in terms of syslog messages) #logtick = 1 # Directory for log files (probably best not to change this) #log-dir = /var/log/watchdog # Email address for sending the reboot reason. This needs sendmail to # be installed and properly configured. Maybe you should just enable # syslog forwarding instead? #admin = root # Lock the daemon in to memory as a real-time process. This greatly # decreases the chance that watchdog won't be scheduled before your # machine is really loaded. realtime = yes priority = 1 # ====================== How to handle errors ======================= # # If you have a custom binary/script to handle errors then uncomment # this line and provide the path. For 'v1' test binary files they also # handle error cases. #repair-binary = /usr/sbin/repair #repair-timeout = 60 # The retry-timeout and repair limit are used to handle errors in a # more robust manner. Errors must persist for longer than this to # action a repair or reboot, and if repair-maximum attempts are # made without the test passing a reboot is initiated anyway. #retry-timeout = 60 #repair-maximum = 1 # Configure the delay on reboot from sending SIGTERM to all processes # and to following up with SIGKILL for any that are ignoring the polite # request to stop. #sigterm-delay = 5 # ====================== User-specified tests ======================== # # Specify the directory for auto-added 'v1' test programs (any executable # found in the 'test-directory should be listed). #test-directory = /etc/watchdog.d # Specify any v0 custom tests here. Multiple lines are permitted, but # having any 'v1' programs/scripts discovered in the 'test-directory' is # the better way. #test-binary = # Specify the time-out value for a test error to be reported. #test-timeout = 60 # ====================== Typical tests =============================== # # Specify any IPv4 numeric addresses to be probed. # NOTE: You should check you have permission to ping any machine before # using it as a test. Also remember if the target goes down then this # machine will reboot as a result! #ping = 172.16.0.1 #ping = 192.168.1.1 # Set the number of ping attempts in each 'interval' of time. Default # is 3 and it completes on the first successful ping. # NOTE: Round-trip delay has to be less than 'interval' / 'ping-count' # for test success, but this is unlikely to be exceeded except possibly # on satellite links (very unlikely case!). #ping-count = 3 # Specify any network interface to be checked for activity. #interface = eth0 # Specify any files to be checked for presence, and if desired, checked # that they have been updated more recently than 'change' seconds. #file = /var/log/syslog #change = 1407 # Uncomment to enable load average tests for 1, 5 and 15 minute # averages. Setting one of these values to '0' disables it. These # values will hopefully never reboot your machine during normal use # (if your machine is really hung, the loadavg will go much higher # than 25 in most cases). #max-load-1 = 24 #max-load-5 = 18 #max-load-15 = 12 # Check available memory on the machine. # # The min-memory check is a passive test from reading the file # /proc/meminfo and computed from MemFree + Buffers + Cached # If this is below a few tens of MB you are likely to have problems. # # The allocatable-memory is an active test checking it can be paged # in to use. # # Maximum swap should be based on normal use, probably a large part of # available swap but paging 1GB of swap can take tens of seconds. # # NOTE: This is the number of pages, to get the real size, check how # large the pagesize is on your machine (typically 4kB for x86 hardware). #min-memory = 1 #allocatable-memory = 1 #max-swap = 0 # Check for over-temperature. Typically the temperature-sensor is a # 'virtual file' under /sys and it contains the temperature in # milli-Celsius. Usually these are generated by the 'sensors' package, # but take care as device enumeration may not be fixed. #temperature-sensor = #max-temperature = 90 # Check for a running process/daemon by its PID file. For example, # check if rsyslogd is still running by enabling the following line: #pidfile = /var/run/rsyslogd.pid