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Is there a way to tell Linux that it shouldn't swap out a particular processes' memory to disk?

Its a Java app, so ideally I'm hoping for a way to do this from the command line.

I'm aware that you can set the global swappiness to 0, but is this wise?

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Unix used to honor the "sticky bit" if you did a "chmod +S" on an app, but I don't think that works any more. – Paul Tomblin Feb 23 '09 at 16:00
    
Sorry, I mean "chmod +t", but I just looked and Linux ignores the sticky bit. – Paul Tomblin Feb 23 '09 at 16:02
    
    
@Hello71: That's a nice blog post, but it discusses Microsoft Windows. I don't see how it applies to this question except maybe in the most general, operating system principles kind of way. – Robert Harvey Feb 11 '11 at 2:23
    
looks similar to me :- stackoverflow.com/questions/13452587/… – Pradeep Goswami Dec 18 '15 at 6:29
up vote 20 down vote accepted

You can do this via the mlockall(2) system call under Linux; this will work for the whole process, but do read about the argument you need to pass.

Do you really need to pull the whole thing in-core? If it's a java app, you would presumably lock the whole JVM in-core. I don't know of a command-line method for doing this, but you could write a trivial program to call fork, call mlockall, then exec.

You might also look to see if one of the access pattern notifications in madvise(2) meets your needs. Advising the VM subsystem about a better paging strategy might work out better if it's applicable for you.

Note that a long time ago now under SunOS, there was a mechanism similar to madvise called vadvise(2).

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@sanity did you try this? How did it work out for you? I was considering doing something similar. – Bill K Oct 27 '10 at 18:30
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@Mat appears to be right... OK... what about something like writing something to call via JNI that calls mlockall? That starts to feel pretty hackish though... – Thomas Kammeyer Jun 25 '12 at 16:09
    
That could probably work. But I wouldn't try it :) – Mat Jun 26 '12 at 6:13
    
If you don't want to mess arround with custom JNI libraries you could probablly use JNA to call mlockall directly. – plugwash Nov 3 '15 at 12:58

If you wish to change the swappiness for a process add it to a cgroup and set the value for that cgroup:

http://unix.stackexchange.com/questions/10214/per-process-swapiness-for-linux#10227

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Except in extremely unusual circumstances, asking this question means that You're Doing It Wrong(tm).

Seriously, if Linux wants to swap and you're trying to keep your process in memory then you're putting an unreasonable demand on the OS. If your app is that important then 1) buy more memory, 2) remove other apps/daemons from the machine, or dedicate a machine to your app, and/or 3) invest in a really fast disk subsystem. These steps are reasonable for an important app. If you can't justify them, then you probably can't justify wiring memory and starving other processes either.

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If it were cryptographically-related, it's entirely reasonable to want to stay in memory. gnome-keyring, for instance, takes quite a few steps to keep important bits of itself off of swap. (Other than that, reasonable observations.) – Paul Fisher Feb 23 '09 at 17:37
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Good point, Paul. I do feel that this qualifies as an unusual circumstance. – dwc Feb 23 '09 at 17:54
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It's quite usual in banking and payment card industry with all the strong cryptography requirements. – Aleksander Adamowski Mar 24 '10 at 15:05
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See the following advice ("recommendation MEM06-C - Ensure that sensitive data is not written out to disk") from CERT that applies to C programs on POSIX and Windows: securecoding.cert.org/confluence/display/seccode/… It's pretty standard stuff when secure coding is required. Similar stuff is needed for Java. – Aleksander Adamowski Mar 24 '10 at 15:32
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What about UI-related processes that don't use much memory? EG the desktop manager's panels, that sort of thing? user interface stuff should be ready to go at all times, or at least more ready than stuff that's basically batch processing. Ideally apps would be built so that their interface had a higher real-memory priority than their guts, so that it would still be possible to, EG scan through the menus while the app was busy doing something. Some apps do work this way but it requires multithreading. but apps that are just launchers etc. should be given higher memory "stickiness". – intuited May 22 '10 at 21:08

You can do that by the mlock family of syscalls. I'm not sure, however, if you can do it for a different process.

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I would be careful how much of the total system memory is locked though. I suspect that you could bring down the system through trashing if you weren't careful. – Dana the Sane Feb 23 '09 at 16:04

As super user you can 'nice' it to the highest priority level -20 and hope that's enough to keep it from being swapped out. It usually is. Positive numbers lower scheduling priority. Normal users cannot nice upwards (negative nos.)

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unless I'm mistaken, this will only affect the CPU time the process is granted, not its tendency towards main memory usage. – intuited May 22 '10 at 21:28
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@intuited: I believe he means that the VM subsystem will also look at the nice value to decide how important a process is, and not swap it out. Sounds plausible; I don't know if Linux really does this, though. – sleske Feb 9 '11 at 2:30
    
ionice might also be useful here – fread2281 Jun 3 '15 at 1:02

Why do you want to do this?
If you are trying to increase performance of this app then you are probably on the wrong track. The OS will swap out a process to increase memory for disk cache - even if there is free RAM, the kernel knows best (actauly the samrt guys that wrote the scheduler know best).
If you have a process that needs responsiveness (it's swapped out while not used and you need it to restart quickly) then nice it to high priority, mlock, or using a real time kernel might help.

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There exist a class of applications in which you never want them to swap. One such class is a database. Databases will use memory as caches and buffers for their disk areas, and it makes absolutely no sense that these are ever put to swap. The particular memory may hold some relevant data that is not needed for a week until one day when a client asks for it. Without the caching/swapping, the database would simply find the relevant record on disk, which would be quite fast; but with swapping, your service might suddenly be taking a long time to respond.

mysqld includes code to use the OS / system call memlock. On Linux, since at least 2.6.9, this system call will work for non-root processes that have the CAP_IPC_LOCK capability[1]. When using memlock(), the process must still work within the bounds of the LimitMEMLOCK limit. [2]. One of the (few) good things about systemd is that you can grant the mysqld process these capabilities, without requiring a special program. If can also set the rlimits as you'd expect with ulimit. Here is an override file for mysqld that does the requisite steps, including a few others that you might need for a process such as a database:

[Service]
# Prevent mysql from swapping
CapabilityBoundingSet=CAP_IPC_LOCK

# Let mysqld lock all memory to core (don't swap)
LimitMEMLOCK=-1 

# do not kills this process if low on memory
OOMScoreAdjust=-900 

# Use higher io scheduling
IOSchedulingClass=realtime    

Type=simple    
ExecStart=
ExecStart=/usr/sbin/mysqld --memlock $MYSQLD_OPTS

Note The standard community mysql currently ships with Type=forking and adds --daemonize in the option to the service on the ExecStart line. This is inherently less stable than the above method.

UPDATE I am not 100% happy with this solution. After several days of runtime, I noticed the process still had enormous amounts of swap! Examining /proc/XXXX/smaps, I note the following:

  • The largest contributor of swap is from a stack segment! 437 MB and fluctuating. This presents obvious performance issues. It also indicates stack-based memory leak.
  • There are zero Locked pages. This indicates the memlock option in MySQL (or Linux) is broken. In this case, it wouldn't matter much because MySQL can't memlock stack.
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