WATCHDOG(8) System Manager's Manual WATCHDOG(8)
watchdog - a software watchdog daemon
watchdog [-F|--foreground] [-f|--force] [-c filename|--config-file filename] [-v|--verbose] [-s|--sync] [-b|--softboot] [-q|--no-action]
The Linux kernel can reset the system if serious problems are detected. This can be implemented via special watchdog hardware, or via a
slightly less reliable software-only watchdog inside the kernel. Either way, there needs to be a daemon that tells the kernel the system is
working fine. If the daemon stops doing that, the system is reset.
watchdog is such a daemon. It opens /dev/watchdog, and keeps writing to it often enough to keep the kernel from resetting, at least once
per minute. Each write delays the reboot time another minute. After a minute of inactivity the watchdog hardware will cause the reset. In
the case of the software watchdog the ability to reboot will depend on the state of the machines and interrupts.
The watchdog daemon can be stopped without causing a reboot if the device /dev/watchdog is closed correctly, unless your kernel is compiled
with the CONFIG_WATCHDOG_NOWAYOUT option enabled.
The watchdog daemon does several tests to check the system status:
o Is the process table full?
o Is there enough free memory?
o Are some files accessible?
o Have some files changed within a given interval?
o Is the average work load too high?
o Has a file table overflow occurred?
o Is a process still running? The process is specified by a pid file.
o Do some IP addresses answer to ping?
o Do network interfaces receive traffic?
o Is the temperature too high? (Temperature data not always available.)
o Execute a user defined command to do arbitrary tests.
o Execute one or more test/repair commands found in /etc/watchdog.d. These commands are called with the argument test or repair.
If any of these checks fail watchdog will cause a shutdown. Should any of these tests except the user defined binary last longer than one
minute the machine will be rebooted, too.
Available command line options are the following:
Set verbose mode. Only implemented if compiled with SYSLOG feature. This mode will log each several infos in LOG_DAEMON with prior-
ity LOG_INFO. This is useful if you want to see exactly what happened until the watchdog rebooted the system. Currently it logs the
temperature (if available), the load average, the change date of the files it checks and how often it went to sleep.
Try to synchronize the filesystem every time the process is awake. Note that the system is rebooted if for any reason the synchro-
nizing lasts longer than a minute.
Soft-boot the system if an error occurs during the main loop, e.g. if a given file is not accessible via the stat(2) call. Note that
this does not apply to the opening of /dev/watchdog and /proc/loadavg, which are opened before the main loop starts.
Run in foreground mode, useful for running under systemd (for example).
Force the usage of the interval given or the maximal load average given in the config file.
-c config-file, --config-file config-file
Use config-file as the configuration file instead of the default /etc/watchdog.conf.
Do not reboot or halt the machine. This is for testing purposes. All checks are executed and the results are logged as usual, but no
action is taken. Also your hardware card or the kernel software watchdog driver is not enabled. Temperature checking is also dis-
abled since this triggers the hardware watchdog on some cards.
After watchdog starts, it puts itself into the background and then tries all checks specified in its configuration file in turn. Between
each two tests it will write to the kernel device to prevent a reset. After finishing all tests watchdog goes to sleep for some time. The
kernel drivers expects a write to the watchdog device every minute. Otherwise the system will be reset. As a default watchdog will sleep
for only 1 second so it triggers the device early enough.
Under high system load watchdog might be swapped out of memory and may fail to make it back in in time. Under these circumstances the Linux
kernel will reset the machine. To make sure you won't get unnecessary reboots make sure you have the variable realtime set to yes in the
configuration file watchdog.conf. This adds real time support to watchdog: it will lock itself into memory and there should be no problem
even under the highest of loads.
On system running out of memory the kernel will try to free enough memory by killing process. The watchdog daemon itself is exempted from
this so-called out-of-memory killer.
Also you can specify a maximal allowed load average. Once this load average is reached the system is rebooted. You may specify maximal load
averages for 1 minute, 5 minutes or 15 minutes. The default values is to disable this test. Be careful not to set this parameter too low.
To set a value less then the predefined minimal value of 2, you have to use the -f option.
You can also specify a minimal amount of virtual memory you want to have available as free. As soon as more virtual memory is used action
is taken by watchdog. Note, however, that watchdog does not distinguish between different types of memory usage. It just checks for free
If you have a watchdog card with temperature sensor you can specify the maximal allowed temperature. Once this temperature is reached the
system is halted. The default value is 120. There is no unit conversion so make sure you use the same unit as your hardware. watchdog will
issue warnings once the temperature increases 90%, 95% and 98% of this temperature.
When using file mode watchdog will try to stat(2) the given files. Errors returned by stat will not cause a reboot. For a reboot the stat
call has to last at least one minute. This may happen if the file is located on an NFS mounted filesystem. If your system relies on an NFS
mounted filesystem you might try this option. However, in such a case the sync option may not work if the NFS server is not answering.
watchdog can read the pid from a pid file and see whether the process still exists. If not, action is taken by watchdog. So you can for
instance restart the server from your repair-binary. See the Systemd section below for additinal information.
watchdog will try periodically to fork itself to see whether the process table is full. This process will leave a zombie process until
watchdog wakes up again and catches it; this is harmless, don't worry about it.
In ping mode watchdog tries to ping the given IP addresses. These addresses do not have to be a single machine. It is possible to ping to a
broadcast address instead to see if at least one machine in a subnet is still living.
Do not use this broadcast ping unless your MIS person a) knows about it and b) has given you explicit permission to use it!
watchdog will send out three ping packages and wait up to <interval> seconds for the reply with <interval> being the time it goes to sleep
between two times triggering the watchdog device. Thus a unreachable network will not cause a hard reset but a soft reboot.
You can also test passively for an unreachable network by just monitoring a given interface for traffic. If no traffic arrives the network
is considered unreachable causing a soft reboot or action from the repair binary.
To start the watchdog when network is available see the Systemd section below.
watchdog can run an external command for user-defined tests. A return code not equal 0 means an error occured and watchdog should react. If
the external command is killed by an uncaught signal this is considered an error by watchdog too. The command may take longer than the
time slice defined for the kernel device without a problem. However, error messages are generated into the syslog facility. If you have
enabled softboot on error the machine will be rebooted if the binary doesn't exit in half the time watchdog sleeps between two tries trig-
gering the kernel device.
If you specify a repair binary it will be started instead of shutting down the system. If this binary is not able to fix the problem watch-
dog will still cause a reboot afterwards.
If the machine is halted an email is sent to notify a human that the machine is going down. Starting with version 4.4 watchdog will also
notify the human in charge if the machine is rebooted.
A soft reboot (i.e. controlled shutdown and reboot) is initiated for every error that is found. Since there might be no more processes
available, watchdog does it all by himself. That means:
1. Kill all processes with SIGTERM.
2. After a short pause kill all remaining processes with SIGKILL.
3. Record a shutdown entry in wtmp.
4. Save the random seed from /dev/urandom. If the device is non-existant or there is no filename for saving this step is skipped.
5. Turn off accounting.
6. Turn off quota and swap.
7. Unmount all partitions except the root partition.
8. Remount the root partition read-only.
9. Shut down all network interfaces.
10. Finally reboot.
If the return code of the check binary is not zero watchdog will assume an error and reboot the system. Be careful with this if you are
using the real-time properties of watchdog since watchdog will wait for the return of this binary before proceeding. An positive exit code
is interpreted as an system error code (see errno.h for details). Negative values are special to watchdog:
-1 Reboot the system. This is not exactly an error message but a command to watchdog. If the return code is -1 watchdog will not try
to run a shutdown script instead.
-2 Reset the system. This is not exactly an error message but a command to watchdog. If the return code is -2 watchdog will simply
refuse to write the kernel device again.
-3 Maximum load average exceeded.
-4 The temperature inside is too high.
-5 /proc/loadavg contains no (or not enough) data.
-6 The given file was not changed in the given interval.
-7 /proc/meminfo contains invalid data.
-8 Child process was killed by a signal.
-9 Child process did not return in time.
-10 Free for personal use.
With enforcing SELinux policy please use the /usr/libexec/watchdog/scripts/ for your test-binary configuration.
The repair binary is started with one parameter: the error number that caused watchdog to initiate the boot process. After trying to repair
the system the binary should exit with 0 if the system was successfully repaired and thus there is no need to boot anymore. A return value
not equal 0 tells watchdog to reboot. The return code of the repair binary should be the error number of the error causing watchdog to
reboot. Be careful with this if you are using the real-time properties since watchdog will wait for the return of this binary before pro-
With enforcing SELinux policy please use the /usr/libexec/watchdog/scripts/ for your repair-binary configuration.
Executables placed in the test directory are discovered by watchdog on startup and are automatically executed. They are bounded time-wise
by the test-timeout directive in watchdog.conf.
These executables are called with either "test" as the first argument (if a test is being performed) or "repair" as the first argument (if
a repair for a previously-failed "test" operation on is being performed).
The as with test binaries and repair binaries, expected exit codes for a successful test or repair operation is always zero.
If an executable's test operation fails, the same executable is automatically called with the "repair" argument as well as the return code
of the previously-failed test operation.
For example, if the following execution returns 42:
The watchdog daemon will attempt to repair the problem by calling:
/etc/watchdog.d/my-test repair 42
This enables administrators and application developers to make intelligent test/repair commands. If the "repair" operation is not required
(or is not likely to succeed), it is important that the author of the command return a non-zero value so the machine will still reboot as
Note that the watchdog daemon may interpret and act upon any of the reserved return codes noted in the Check Binary section prior to call-
ing a given command in "repair" mode.
To start watchdog after the network is available:
systemctl disable watchdog
systemctl enable NetworkManager-wait-online
systemctl enable watchdog-ping
When using custom service pid check with custom service systemd unit file please be aware the "Requires=" does dependent service deactiva-
tion. Using "Before=watchdog.service" or "Before=watchdog-ping.service" in the custom service unit file may be the desired operation
instead. See systemd.unit documentation for more details.
The directories /etc/watchdog.d/ and /usr/libexec/watchdog/scripts/ are recognized locations for custom executables.
None known so far.
The original code is an example written by Alan Cox <firstname.lastname@example.org>, the author of the kernel driver. All additions were written
by Michael Meskes <email@example.com>. Johnie Ingram <firstname.lastname@example.org> had the idea of testing the load average. He also took over the
Debian specific work. Dave Cinege <email@example.com> brought up some hardware watchdog issues and helped testing this stuff.
The watchdog device.
The pid file of the running watchdog.
4th Berkeley Distribution January 2005 WATCHDOG(8)