Manjaro Auslagerungsspeicher (Swap)

Auslagerungsspeicher (Swap)

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Übersicht

Der Auslagerungsspeicher wird zur Erweiterung des für die Ausführung von Programmen verfügbaren Speichers (RAM) verwendet.

  • Ohne Auslagerungsspeicher werden bei Speichermangel die Anwendungen beendet, was zu einem Absturz des gesamten Systems führen kann.
  • Wenn dem System Auslagerungsspeicher zur Verfügung steht, kann der Kernel weniger häufig genutzte Speicherseiten von inaktiven Anwendungen / Diensten auf die Festplatte schreiben ("auslagern"), wodurch mehr echter Arbeitsspeicher für aktive Anwendungen zur Verfügung steht.


Es gibt drei verschiedene Möglichkeiten, wie der Swap in Manjaro verwaltet werden kann:

  • Eine Auslagerungs-Partition
  • Eine Auslagerungs-Datei
  • Komprimierte Auslagerung (zswap)


Dieser Artikel versucht, so umfassend wie möglich zu sein, aber noch mehr Informationen finden Sie in den unten verlinkten Artikel

Brauche ich eine Auslagerung?

Das ist eine Frage, die nicht beantwortet werden kann, ohne einen Blick auf Ihre Konfiguration zu werfen. Selbst bei reichlich verfügbarem Speicher wird dieser oft als Auffangnetz oder sogar manchmal aufgrund spezifischer Anwendungsanforderungen verwendet, also werfen Sie einen Blick auf die folgende nicht abschließende Liste:

  • Wenn Sie den Ruhezustand verwenden: ja, Sie müssen auslagern!
  • Wenn Sie Dienste haben, die nicht immer aktiv sind, aber trotzdem ständig laufen: ja, Sie müssen auslagern!
  • If you have an application that allocates virtual memory directly for temporary storage instead of RAM: yes, you need swap!
  • If you have an application that has a memory leak: yes, you need swap!
  • If you have a server with 1TB of RAM that you're using as a desktop without applications allocating virtual memory or having memory leaks: No, you don't need swap!

How Much Swap do I Need

The amount of swap you need is highly variable based on your specific applications and workload. There is no universal formula on swap size without monitoring usage over a period of time. A reasonable place to start would be:

  • For less then 4GB of physical memory (RAM), it's highly recommended that the swap space should, as a base minimum, be equal to the amount of RAM. Also, it's recommended that the swap space is maximum twice the amount of RAM depending upon the amount of disk space available for the system because of diminishing returns.
  • For more modern systems (>4GB), your swap space should be at a minimum be equal to your physical memory (RAM) size if you use hibernation, otherwise you need a minimum of ROUNDUP(SQRT(RAM)) I.E. the square root of your RAM size rounded up to the next GB. The maximum, is again twice the amount of RAM, again because of diminishing returns.
  • The only downside to having more swap space than you will actually use, is the disk space you will be reserving for it cannot be used for application or system data.

The "diminishing returns" means that if you need more swap space than twice your RAM size, you would be better off adding more RAM as Hard Disk Drive (HDD) access is about 10³ slower then RAM access, so something that would take 1 second, suddenly takes more then 15 minutes! And on a Solid State Drive (SSD) the same operation that took 1 second in RAM will still take about 1 minute on that SSD!

Taking into account all of the above, this brings us to the following table: (last 3 columns denote swap space)

       RAM   No hibernation    With Hibernation  Maximum
       1GB              1GB                 2GB      2GB
       2GB              2GB                 3GB      4GB
       3GB              3GB                 5GB      6GB
       4GB              4GB                 6GB      8GB
       RAM   No hibernation    With Hibernation  Maximum
       5GB              2GB                 7GB     10GB
       6GB              2GB                 8GB     12GB
       8GB              3GB                11GB     16GB
      12GB              3GB                15GB     24GB
      16GB              4GB                20GB     32GB
      24GB              5GB                29GB     48GB
      32GB              6GB                38GB     64GB
      64GB              8GB                72GB    128GB
     128GB             11GB               139GB    256GB
     256GB             16GB               272GB    512GB
     512GB             23GB               535GB      1TB
       1TB             32GB              1056GB      2TB
       2TB             46GB              2094GB      4TB
       4TB             64GB              4160GB      8TB
       8TB             91GB              8283GB     16TB
Note
The largest server one of the authors of this wiki has ever installed had, indeed, 8TB of RAM

Displaying Swap Information

The command swapon will display your current swap information. For example:

swapon
NAME      TYPE      SIZE   USED PRIO
/dev/sda7 partition  20G  44.3M   -2

The following script will:

  • show whether zswap is active or not and if active, give zswap parameters if run with the Template:$ic command
  • display a list of all applications / services that take up swap and how much they take up in descending order
#!/bin/bash
#Check whether running as root
if [ "$(whoami)" = 'root' ]; then
  dmesg | grep "zswap:" | grep --silent "load"
  if $? -eq 0 ; then
    # zswap is active
    echo "zswap information:"
    grep --recursive --color=none . /sys/kernel/debug/zswap/
    read -n 1 -s -r -p "Press any key to continue"
  else
    echo "[warning] zwap not active. Continuing"
  fi
else
  echo "[warning] Not running as root: skipping zswap info"
fi
for szFile in /proc/*/status ; do
  awk '/VmSwap|Name/{printf $2 "\t" $3}END{ print "" }' "$szFile"
done | sort --key 2 --numeric --reverse | more

Using a Swap Partition

A swap partition is the traditional way of managing swap. In this scenario, a dedicated partition (or partitions) are created for holding swap.

Creating and Enabling a Swap Partition

To create a swap partition, you need enough unallocated disk space to create an additional partition. If you do not have enough space, skip to the next section #Using_a_swap_file. A swap partition can be created in any disk management / partition management tool and should be set as type linuxswap.

Once you have a swap partition you will need to initialize the swap partition with mkswap. For example, if your swap partition is /dev/sda3, you could use the command:

sudo mkswap /dev/sda3

Next we need to enable the swap partition with the swapon command. Following our example above this could be done with:

sudo swapon /dev/sda3

In order to ensure that the swap is enabled at boot we can add an entry to /etc/fstab. It is best to use the UUID instead of the device name for this purpose. You can add the line to fstab manually or using the command:

sudo bash -c "echo UUID=$(lsblk -no UUID /dev/sda3) none swap defaults 0 0 >> /etc/fstab"

If you would like to have more than one swap partition, simply repeat the steps above for any additional partitions.


Note
Be sure to replace /dev/sda3 in the above commands with your actual swap partition.


Tip
If you're using a HDD (spinning rust) put the swap partition *at the beginning of the disk* as the speed of the disk is higher on the inside tracks. On an SSD this doesn't matter.

Using a Swapfile

Using a swap partition has one major disadvantage: Changing the size of swap or adding swap requires repartitioning the disk. In current Linux kernels, it is possible to use a swap file instead of a dedicated partition and as from kernel 2.6 onwards there is no performance difference any more between the two.

Creating and Enabling a Static Swapfile

Tip
There is no reason you can't have both a swap partition and a swapfile. This is an easy way to add more swap without repartitioning.


First create and intialize the file to hold the swap. For example, to create a 4GB swapfile, you could use the command:

sudo fallocate -l 4G /swapfile
sudo mkswap /swapfile


Set the appropriate permissions on the file. It should be readable and writable only by root. This can be done with the command:

sudo chmod u=rw,go= /swapfile


Next we need to enable the swapfile with the swapon command. Following our example above this could be done with:

sudo swapon /swapfile


In order to ensure that the swap is enabled at boot we can add an entry to /etc/fstab. You can add the line to fstab manually or using the command:

sudo bash -c "echo /swapfile none swap defaults 0 0 >> /etc/fstab"

Swapfiles on BTRFS

As of kernel 5.0 and higher, swapfiles are supported on btfrs. They still require some special handling in addition to the above steps.

Prior to running the fallocate step above, you should run these commands:

sudo truncate -s 0 /swapfile
sudo chattr +C /swapfile
sudo btrfs property set /swapfile compression none


These commands create an empty swapfile, disable COW for that file and ensure that compression is disabled.

Swapfiles on ZFS

zfs doesn't support swapfiles, however you can achieve a similar benefit using a zvol as a swap volume.


Detailed instructions on how to accomplish this can be found in this ZoL guide.

Automated Swap Management with systemd-swap

Note
Using systemd-swap with on btrfs/zfs or with hibernation support requires special handling beyond the scope of this article

It is possible to automatically manage the size of your swapfile using systemd-swap. It can create swap files dynamically based on memory needs. It is also an easy way to enable/manage zswap

Installing and Configuring systemd-swap

First, install and enable systemd-swap:

pamac install systemd-swap
sudo systemctl enable systemd-swap.service


Next enable dynamic swap management by creating a file /etc/systemd/swap.conf.d/myswap.conf with the following parameters:

zswap_enabled=0
zram_enabled=0
swapfc_enabled=1


If you would prefer a single command to create this file you could use:

sudo bash -c 'echo -e "zswap_enabled=0\nzram_enabled=0\nswapfc_enabled=1" > /etc/systemd/swap.conf.d/myswap.conf'

Remove Other Swap

In order for systemd-swap to be effective you need to remove any traditional swap devices you have.


To display your current swap devices you can use the command swapon. For example, my test machine displays the following:

swapon
NAME      TYPE      SIZE USED PRIO
/swapfile file        4G   0B   -2
/dev/sda3 partition 8.4G   0B   -3


In this example there are two swap devices. A swapfile and a swap partition. To turn them off we can use the command swapoff.

sudo swapoff /swapfile
sudo swapoff /dev/sda3


Next we need to remove them. The swap partition will need to be deleted using your favorite partitioning tool. You can remove the swapfile by simply deleting it.

sudo rm /swapfile


We need to also remove any lines related to swap from /etc/fstab. Edit the file with an appropriate text editor and remove or comment out the lines for the swap space. In the example above, we would remove these lines:

UUID=c2430cf1-8ea9-4422-a5c5-5a38779194c3 swap           swap    defaults,noatime 0 2
/swapfile none swap defaults 0 0


Next reboot. After the reboot, when running swapon you should see something similiar to the following:

NAME                           TYPE SIZE USED PRIO
/var/lib/systemd-swap/swapfc/1 file 512M   0B   -2


systemd-swap will add and remove swapfiles as your memory usage dictates.


Note
If you don't delete your existing swap partition it will be automatically activated by systemd even though you have removed it from fstab

Using zswap with systemd-swap

zswap is compressed swap kept in RAM. zswap keeps the most frequently used pages in RAM and writes less frequently used pages to the swap space on disk. In many workloads, this will result in increased swap performance and less wear and tear on SSDs.

To enable zswap with systemd-swap, simply alter the instructions above and set Linux Kernel parameter Template:META Error

Tuning & Performance Considerations

Although swap seems like a great way to expand memory, excessive swap use will cause severe performance degradation, as mentioned before.

There are couple of parameters that can be used to tune swap utilization. These are swappiness and vfs_cache_pressure. To see your current settings for these you can use the following commands:

cat /proc/sys/vm/swappiness
cat /proc/sys/vm/vfs_cache_pressure

swappiness controls how likely a page is to be transferred to swap. This value represents the percentage of the free memory before activating swap. The lower the value, the less swapping is used and the more memory pages are kept in physical memory where:

  • 0 disables swap
  • 60 is the default value which is ideal for a server running a lot of services
  • 100 is very aggressive swapping.

For most computers the recommended value is 10: Theoretically, this means to only start swapping when RAM usage reaches around 90 percent.

vfs_cache_pressure is a percentage value that controls the tendency of the kernel to reclaim the memory which is used for caching of directory and inode objects. The default value is 100. Increasing this value will increase the rate in which these objects are removed from the RAM cache. Decreasing it will allow these objects to be cached in memory longer, consuming additional RAM over time. Depending on your specific workload, increasing or decreasing this value too far can have significant negative impacts on system performance. Experimentation is needed to find the appropriate balance and the default value is reasonable. In general, it is more common to optimize swappiness before experimenting with vfs_cache_pressure.

To set these values you can use the command sysctl. For example, to set the swappiness value to 10 you could use:

sudo sysctl vm.swappiness=10


There is no preset defined answer on the optimal values for these parameters. Experimentation is needed to find the optimum configuration for your specific hardware and workload.


See Also

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