Install earlyoom package, and enable it by default. If both RAM and swap go below 10% free, earlyoom issues SIGTERM to the process with the largest oom_score. If both RAM and swap go below 5% free, earlyoom issues SIGKILL to the process with the largest oom_score. The idea is to recover from out of memory situations sooner, rather than the typical complete system hang in which the user has no other choice but to force power off.
- Name: Chris Murphy
- Email: email@example.com
- Targeted release: Fedora 32
- Last updated: 2020-02-10
- Tracker bug: #1801398
- Release notes tracker: #447
Workstation working group has discussed "better interactivity in low-memory situations" for some months:
Certain workloads have heavy memory demands, quickly consume all of RAM, and start to heavily page out to swap. (Heavy paging, is often called "swap thrashing" for added descriptive effect, probably because it's noticeable and annoying). Incidental swap usage is a good thing, it frees up memory for active pages used by a process. Heavy swap usage quickly leads to a very negative UX, because it's slow, even on modern SSDs. Due to installer defaults, the swap partition is made the same size as available memory (at install time), which can be huge. This just extends swap thrashing time.
On the one hand, we want this resource hungry job to complete. On the other hand, we want our system to be responsive while that other work is going on. But once the GUI stutters or even comes to an apparent stand still (hang), we're really wishing the kernel oom-killer would kick in and free up memory, so we can start over (maybe using memory or thread limiting options - which arguably should be more intelligently figured out, and that too is a work in progress but beyond the scope of this feature).
However, once in a heavy swap scenario, it's relatively common the system gets stuck in it, where GUI interactivity is terrible to non-existent, and also the kernel oom-killer doesn't trigger. From a certain point of view, this is working as intended. The kernel oom-killer is concerned about keeping the kernel running. It's not at all concerned about user space responsiveness.
Instead of the system becoming completely unresponsive for tens of minutes, hours or days, this feature expects that an offending process (determined by oom_score, same as the kernel oom-killer) will be killed off within seconds or a few minutes.
This is an incremental improvement in user experience, but admittedly still suboptimal. There is additional work on-going to improve the user experience further.
Workstation working group discussion specific to enabling earlyoom by default https://pagure.io/fedora-workstation/issue/119
Other in-progress solutions:
Background information on this complicated problem:
Suboptimal behavior if the system has no swap (this is not a default setup, but still needs improvement): https://pagure.io/fedora-workstation/issue/119#comment-618480
Benefit to Fedora
There are two major benefits to Fedora:
- improved user experience by more quickly regaining control over one's system, rather than having to force power off in low-memory situations where there's aggressive swapping. Once a system becomes unresponsive, it's completely reasonable for the user to assume the system is lost, but that includes high potential for data loss.
- reducing forced poweroff as the main work around will increase data collection, improving understanding of low memory situations and how to handle them better
- earlyoom first sends SIGTERM to the chosen process, so it has a chance of a proper shutdown, unlike the kernel's oom-killer
- Proposal owners:
b. Modify to include:
# enable earlyoom by default on workstation enable earlyoom.service
- Other developers:
Restricted to Workstation edition, unless other editions/spins want to opt-in.
- Release engineering: #9141 (a check of an impact with Release Engineering is needed)
- Policies and guidelines: N/A
- Trademark approval: N/A
earlyoom.service will be enabled on upgrade. An upgraded system should exhibit the same behaviors as a clean installed system.
How To Test
- Fedora 30/31 users can test today, any edition or spin:
And then attempt to cause an out of memory situation. Examples:
- Fedora Workstation 32 (and Rawhide) users will see this service is already enabled. It can be toggled with where start means earlyoom is running, and stop means earlyoom is not running.
- The most egregious instances this change is trying to mitigate:
a. RAM is completely used
b. Swap is completely used
c. System becomes unresponsive to the user as swap thrashing has ensued
--> earlyoom disabled, the user often gives up and forces power off (in cmurf's limited testing, this condition lasts >30 minutes with no kernel triggered oom killer and no recovery)
--> earlyoom enabled, the system likely still becomes unresponsive but oom killer is triggered in much less time (seconds or a few minutes, in cmurf's testing, after less than 10% RAM and 10% swap is remaining)
- earlyoom starts sending SIGTERM once both memory and swap are below their respective PERCENT setting, default 10%. It sends SIGKILL once both are below their respective KILL_PERCENT setting, default 5%. The user shouldn't need to do anything differently than if the kernel oom-killer had triggered. The system journal will contain messages showing what was killed and why:
Jan 04 16:05:42 fmac.local earlyoom: low memory! at or below SIGTERM limits: mem 10 %, swap 10 % Jan 04 16:05:42 fmac.local earlyoom: sending SIGTERM to process 27421 "chrome": badness 305, VmRSS 42 MiB
- What gets killed? The process with the highest oom_score (badness), found in which is dynamically computed. This is the same metric used by the kernel oom-killer.
- The package includes configuration file /etc/default/earlyoom which sets option causing a memory report to be entered into the journal every minute.
earlyoom package has no dependencies
- Contingency mechanism: Owner will revert all changes
- Contingency deadline: Final freeze
- Blocks release? No
- Blocks product? No
Earlyoom service is enabled by default. In low-memory situations, it will first send SIGTERM to a chosen process based on oom_score, and if the low-memory situation continues to degrade it will then send SIGKILL to a chosen process.
To revert to previous behavior using the kernel oom-killer:
And to customize see.