tools/oomkill_example.txt - platform/external/bcc - Git at Google

 Demonstrations of oomkill, the Linux eBPF/bcc version.


 oomkill is a simple program that traces the Linux out-of-memory (OOM) killer,
 and shows basic details on one line per OOM kill:

 # ./oomkill
 Tracing oom_kill_process()... Ctrl-C to end.
 21:03:39 Triggered by PID 3297 ("ntpd"), OOM kill of PID 22516 ("perl"), 3850642 pages, loadavg: 0.99 0.39 0.30 3/282 22724
 21:03:48 Triggered by PID 22517 ("perl"), OOM kill of PID 22517 ("perl"), 3850642 pages, loadavg: 0.99 0.41 0.30 2/282 22932

 The first line shows that PID 22516, with process name "perl", was OOM killed
 when it reached 3850642 pages (usually 4 Kbytes per page). This OOM kill
 happened to be triggered by PID 3297, process name "ntpd", doing some memory
 allocation.

 The system log (dmesg) shows pages of details and system context about an OOM
 kill. What it currently lacks, however, is context on how the system had been
 changing over time. I've seen OOM kills where I wanted to know if the system
 was at steady state at the time, or if there had been a recent increase in
 workload that triggered the OOM event. oomkill provides some context: at the
 end of the line is the load average information from /proc/loadavg. For both
 of the oomkills here, we can see that the system was getting busier at the
 time (a higher 1 minute "average" of 0.99, compared to the 15 minute "average"
 of 0.30).

 oomkill can also be the basis of other tools and customizations. For example,
 you can edit it to include other task_struct details from the target PID at
 the time of the OOM kill.


 The following commands can be used to test this program, and invoke a memory
 consuming process that exhausts system memory and is OOM killed:

 sysctl -w vm.overcommit_memory=1              # always overcommit
 perl -e 'while (1) { $a .= "A" x 1024; }'     # eat all memory

 WARNING: This exhausts system memory after disabling some overcommit checks.
 Only test in a lab environment.
	Demonstrations of oomkill, the Linux eBPF/bcc version.


	oomkill is a simple program that traces the Linux out-of-memory (OOM) killer,
	and shows basic details on one line per OOM kill:

	# ./oomkill
	Tracing oom_kill_process()... Ctrl-C to end.
	21:03:39 Triggered by PID 3297 ("ntpd"), OOM kill of PID 22516 ("perl"), 3850642 pages, loadavg: 0.99 0.39 0.30 3/282 22724
	21:03:48 Triggered by PID 22517 ("perl"), OOM kill of PID 22517 ("perl"), 3850642 pages, loadavg: 0.99 0.41 0.30 2/282 22932

	The first line shows that PID 22516, with process name "perl", was OOM killed
	when it reached 3850642 pages (usually 4 Kbytes per page). This OOM kill
	happened to be triggered by PID 3297, process name "ntpd", doing some memory
	allocation.

	The system log (dmesg) shows pages of details and system context about an OOM
	kill. What it currently lacks, however, is context on how the system had been
	changing over time. I've seen OOM kills where I wanted to know if the system
	was at steady state at the time, or if there had been a recent increase in
	workload that triggered the OOM event. oomkill provides some context: at the
	end of the line is the load average information from /proc/loadavg. For both
	of the oomkills here, we can see that the system was getting busier at the
	time (a higher 1 minute "average" of 0.99, compared to the 15 minute "average"
	of 0.30).

	oomkill can also be the basis of other tools and customizations. For example,
	you can edit it to include other task_struct details from the target PID at
	the time of the OOM kill.


	The following commands can be used to test this program, and invoke a memory
	consuming process that exhausts system memory and is OOM killed:

	sysctl -w vm.overcommit_memory=1 # always overcommit
	perl -e 'while (1) { $a .= "A" x 1024; }' # eat all memory

	WARNING: This exhausts system memory after disabling some overcommit checks.
	Only test in a lab environment.