Swap: Difference between revisions
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[[Swap]] refers to using storage for data that does not fit into |
[[Swap]] refers to using storage for volatile data that does not fit into memory. |
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The XO-1 has only 256 MiB of DRAM (see [[Hardware specifications]]); adding swap space may allow running more simultaneous instances of more complicated applications. |
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= Introduction = |
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''Note:'' It's confusing because besides its 256 of RAM memory, the XO-1 also uses flash memory as storage: in the XO-1's 1 GB of built-in NAND Flash and on an external USB flash drive or SD card. |
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The XO-1 has only 256 MiB of memory (see [[Hardware specifications]]); adding swap space may allow running more simultaneous instances of more complicated applications. |
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== Swap broken in early software releases == |
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The XO-1.5, XO-1.75 and XO-4 have more memory, so swap space is rarely needed, except for special situations. |
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Swap on [[Secure Digital card]]s was broken in XO software releases before 2008. When the bug is present, the XO forcibly unmounts the SD card at suspend, which loses the swap file, and breaks all applications that touched the swap, most notoriously X11. It also often overwrites the first blocks of your SD card with zeros or gibberish, which makes them no longer work until you reformat them entirely. NOT FUN! |
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The SD suspend bug(s) (<trac>6532</trac>)was fixed in Joyride releases 2263 and later and in Build 710 or later which corresponds to [[Release_notes/8.1.2|Release 8.1.2]]. Having the bug fixed allows an SD card to be used as swap space (for demand paging), making your small RAM seem larger and your XO more responsive. |
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The recipe below WILL NOT WORK if you have the XO's original software release, or the "Update.1" release. |
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== How to swap (page) to an SD card == |
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Get a [[Secure Digital card]]. |
Get a [[Secure Digital card]]. |
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You can use a throwaway |
You can use a throwaway SD card, these are available for |
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very little. We say throwaway because swapping to it |
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will tend to burn it up faster than its "usual" lifetime for photos |
will tend to burn it up faster than its "usual" lifetime for photos |
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and such. You will still be able to use |
and such. You will still be able to use the rest of the card for |
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file storage; |
file storage; about 512 MB will be for swap space. Plug it into the |
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SD card slot on the XO. You'll have to keep it plugged in the whole |
SD card slot on the XO. You'll have to keep it plugged in the whole |
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time while you're swapping to it; you can't remove it the way you |
time while you're swapping to it; you can't remove it the way you |
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remove a USB |
remove a USB drive or a non-swap SD card. When it starts to slow down |
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after a few years, you can copy any still-interesting user files off |
after a few years, you can copy any still-interesting user files off |
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it, throw it away, and put in a new |
it, throw it away, and put in a new SD card. |
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larger). |
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= How much swap? = |
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=== Swapping to a partition === |
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You can dedicate a partition on a USB flash drive or SD card to use as swap. |
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In the examples below we use 64 MiB of swap. This is a reasonable amount for ordinary interactive use of an XO-1, and can substantially improve user experience when demand is high. |
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In the [[Terminal activity]] or a [[console]], become [[root]]. |
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Type <tt>mount</tt> (and press Enter after this and all other commands), make sure the SD card is mounted at <tt>/dev/mmcblk0p1</tt>, |
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in a "vfat" filesystem. |
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As an example of the improvement, on 13.2.0 one can open many Sugar activities without closing the previous activity, and then switch between them with <tt>alt-tab</tt>. Without swap this is impractical. |
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Go into the Journal, find the SD card at the lower left (it may be hidden by the Frame), hover over it, choose Unmount. Go back to the terminal. |
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Special situations may require more swap. |
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Type <tt>mount</tt>, make sure <tt>/dev/mmcblk0p1</tt> is not mounted any more. Type |
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<tt>yum install parted</tt> since the partition editor is not part of the OLPC system software (you'll need to be on the Internet to do this). |
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Run <tt>/sbin/parted /dev/mmcblk0</tt>. Type <tt>print</tt> to see the |
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current configuration. On my 1GB SD card it looked like this: |
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The device you use may have ample space, so using more is reasonable. |
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Number Start End Size Type File system Flags |
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1 127kB 1018MB 1018MB primary fat16 |
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= Swap to a file on a device = |
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Type <tt>resize 1 0 512</tt> to shrink this filesystem down to 512MB. If it |
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A file on a filesystem on an SD card or USB drive can be used for swap. |
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asks you whether to use FAT32, say no if your card is 2GB or less. Then type <tt>mkpartfs |
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primary linux-swap 512 1018</tt>. That'll make a second partition for |
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swapping to, and format it as a Linux swap partition. (If your SD card is a different |
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size, adjust these numbers to give you larger or smaller partitions that fit.) Type <tt>print</tt> |
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and for a 1GB card it should look roughly like this: |
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Advantages: |
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Number Start End Size Type File system Flags |
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* avoids dedicating a partition on external device, |
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1 32.3kB 512MB 512MB primary fat16 |
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* avoids repartitioning, |
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2 512MB 1018MB 506MB primary linux-swap |
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Disadvantages: |
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Type <tt>quit</tt> to exit parted. |
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* the XO may hang if the device is removed without first turning off swap<ref name="hang">once the system is using a resource for swap, it relies on it heavily, and if the resource is lost the system may hang, so you have to make sure it isn't lost, or if it is lost use the power button to reboot.</ref>, |
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* slightly less efficient<ref>swap to a file on a filesystem is less efficient than swap to partition, but not notably so; the extra CPU cost of remapping the swap I/O is minimal, and at the time the swap is used the system is already under demand.</ref>. |
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Recipe for Sugar: |
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Now you're back to the shell. |
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* download [http://dev.laptop.org/~quozl/MakeSwap-3.xo MakeSwap-3.xo], |
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* insert an SD card<ref name="covering">if a child is to be using the laptop with swap, then it may be appropriate to cover the slot with adhesive so that the card is not easily removed.</ref> with a FAT filesystem<ref>MakeSwap does not work with anything other than FAT formatted cards. SD cards are FAT formatted and optimised by the manufacturer, so if you have reformatted them you will need to use other instructions.</ref>, |
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* run the activity, wait for it to say it is done, then quit, |
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* the activity can be safely run again (it does nothing new), or erased (swap continues to be available). |
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Recipe for GNOME: |
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Type <tt>/sbin/swapon /dev/mmcblk0p2</tt> to add this second partition as a swap device. To have this partition used as swap when the system boots, add this line to <tt>/etc/rc.local</tt>. |
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* remove all other SD cards or USB drives, (to make the following simplest), |
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* insert the SD card or USB drive<ref name="sd_better">it is best to use an SD card rather than a USB drive</ref>, |
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* in Terminal, as [[Root]], copy and paste the commands: |
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# find the SD card or USB drive and make a file name for it |
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D=/run/media/olpc/ |
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E="$D$(ls $D)" |
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F=$E/swap |
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# create a 64 MiB file |
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dd if=/dev/zero of="$F" bs=1M count=64 |
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# mark the file as a swap file |
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sudo mkswap "$F" |
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# start using the file |
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sudo swapon $F |
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* to verify the swapfile is being used: |
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sudo swapon -s |
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* to safely remove the device, |
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sudo swapoff -a |
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* repeat the steps each time you reboot, |
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Last tested with 13.2.1. Does not work exactly the same way on earlier releases. |
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The Hal daemon is smart enough to mount filesystems when it sees an SD |
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card appear, but it's not smart enough to start using freshly |
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available swap space. For the moment, you'll have to enter <tt>/sbin/swapon |
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/dev/mmcblk0p2</tt> each time after you insert the card. (Similarly, it |
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won't automatically do a <tt>/sbin/swapoff</tt> if you try to eject the SD card, but removing swap from a running system is not a good idea.) I'm sure somebody will eventually come up with a Hal script or something to automate this. |
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= Swap to an entire device = |
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An entire SD card or USB drive can be used for swap. |
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It's less efficient, but you can swap to a file within a file system instead of dedicating a partition to swap. |
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There are many Linux guides to doing this, here's one way that puts a 256 MB swap file on a USB flash drive. |
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Advantages: |
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* insert the SD card or USB flash drive |
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* suited to use with a child<ref name="covering" />, |
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* open the [[Journal]], which "mounts" the USB drive to make its filesystem available |
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* hover over the Journal's icon for the drive at the lower left and the Journal will show the path to where it's mounted, something like <tt>/mount/''VOLUME_NAME''</tt> |
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* in a terminal, enter the commands |
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dd if=/dev/zero of=/media/''VOLUME_NAME''/swapfile bs=1M count=256 |
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sync |
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sudo mkswap /media/''VOLUME_NAME''/swapfile |
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sudo swapon /media/''VOLUME_NAME''/swapfile |
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* enter <tt>swapon -s</tt> to verify the swapfile is being used. |
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Disadvantages: |
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As in the guide for using a swap partition, you'll have to enter <tt>sudo swapon /media/''VOLUME_NAME''/swapfile</tt> each time you start, and you mustn't remove the drive without entering <tt>sudo swapoff /media/''VOLUME_NAME''/swapfile</tt>. |
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* need to repartition the device, which loses all files, and may affect performance of the device, |
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* the device should not be removed once inserted<ref name="hang" />. |
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Recipe: |
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== Swap to network block device == |
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* in the [[Terminal activity]], become [[root]], then install the gparted package: |
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yum install -y gparted |
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* insert the SD card or USB drive, and use gparted (Applications -> System Tools -> GParted Partition Editor) to delete the manufacturer's partition and add a linux-swap partition, then add it to the filesystem table: |
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eval $(blkid -o export /dev/mmcblk1p1) # get the UUID |
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echo UUID=$UUID swap swap defaults 0 0 >> /etc/fstab # add to table |
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swapon -a -v # turn on swap |
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Last tested with 13.2.0. |
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Joyride 2311, and most other builds, contain the network block device driver as a module. In unusual situations that demand this, it is possible to swap to a file on another system over network connection. |
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= Swap to a file on another system, using the network block device = |
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Swap can be added as a file on another system, with access over network connection using the network block device driver, which is available as a module. |
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Advantages: |
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* swap space can be added when needed rather than always available, |
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* additional swap space can be added at any time, |
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* no damage to endurance of SD card or USB drive, |
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Disadvantages: |
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* the XO may hang<ref name="hang" /> if the other system is shutdown, or the network connection is lost, without first turning off swap, |
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* the network may be loaded, |
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* disk space is needed on the other system. |
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Setup the other system: |
Setup the other system: |
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# install the nbd package |
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# create 512Mb empty file |
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yum install -y nbd |
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dd if=/dev/zero of=/tmp/xo-swap bs=1048576 count=512 |
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# create a 64 MiB empty file |
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# provide it over network block device protocol |
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dd if=/dev/zero of=/root/xo-swap bs=1048576 count=64 |
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nbd-server 1234 /tmp/xo-swap |
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# provide it over network block device protocol on port 1234 |
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nbd-server 1234 /root/xo-swap |
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Setup the XO: |
Setup the XO: |
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# install the nbd package |
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# load the network block device module |
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yum install -y nbd |
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modprobe nbd |
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# load the network block device module |
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modprobe nbd |
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# (you may need to install the nbd client package) |
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nbd-client 10.0.0.1 1234 /dev/nbd0 |
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# attach the network block device to the remote system |
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nbd-client 10.0.0.1 1234 /dev/nbd0 |
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# make swap space on the block device |
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mkswap /dev/nbd0 |
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# make swap space on the block device |
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mkswap /dev/nbd0 |
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# enable swap space |
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swapon /dev/nbd0 |
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# enable swap space |
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swapon /dev/nbd0 |
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Last tested with 13.2.0. |
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= Swap to a file on internal device = |
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Swap won't attach to a file on internal storage on XO-1, because of a limitation of the filesystem driver, but this can be bypassed using a loopback block device. |
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Advantages: |
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Caution: the XO may hang if the network connection is lost. |
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* no additional hardware or network required. |
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Disadvantages: |
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* the XO-1 will become slower over months instead of years<ref>the XO-1 internal storage is rated for 100,000 writes per cell, the filesystem will try to spread that across the whole device, so using the internal storage as swap will shorten the life of the internal storage, and it will become ''permanently'' slower much earlier than planned by the designers.</ref>. |
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Recipe: |
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== Earlier commentary about swapping == |
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# set the name of the swap file |
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FILE=/var/swap |
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# create the file and preallocate the space |
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dd if=/dev/zero of=$FILE bs=1M count=64 |
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# write the swap signature pattern into the file |
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/sbin/mkswap $FILE |
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# create a loopback block device representing the file |
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LOOP=$(losetup --show --find $FILE) |
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# turn on swap through the loopback device |
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swapon $LOOP |
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Last tested on 13.2.0. |
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:Swapping to a partition would overcome this??? |
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= Monitoring = |
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Swap on the internal memory doesn't work either, it causes system freezes. Swap doesn't even like attaching to a jffs2 file, but can be forced by using a loopback device. The internal flash chip is only rated for 100,000 writes/cell. JFFS2 will try to spread that across the whole chip, even then swap write patterns are likely bad for it. Try the following at your own risk. |
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* the {{Code|swapon -a}} and {{Code|free}} commands are helpful for confirming that swap is available, |
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su |
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* using a USB drive with an indicator is helpful for assessing when swap is being accessed, |
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dd if=/dev/zero of=/var/swap count=128000 |
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* the {{Code|top}} command is helpful for seeing how much swap and memory demand is happening. |
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/sbin/mkswap /var/swap |
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= Notes = |
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#!/bin/sh |
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{{reflist}} |
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if [ `cat /proc/swaps | wc -l` == 1 ] ;then |
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loopdev=`su -c "/sbin/losetup -f"` |
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su -c "/sbin/losetup $loopdev /var/swap" |
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su -c "/sbin/swapon $loopdev" |
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fi |
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[[Category:HowTo]] |
[[Category:HowTo]] |
Latest revision as of 01:28, 17 July 2014
Swap refers to using storage for volatile data that does not fit into memory.
Introduction
The XO-1 has only 256 MiB of memory (see Hardware specifications); adding swap space may allow running more simultaneous instances of more complicated applications.
The XO-1.5, XO-1.75 and XO-4 have more memory, so swap space is rarely needed, except for special situations.
Get a Secure Digital card. You can use a throwaway SD card, these are available for very little. We say throwaway because swapping to it will tend to burn it up faster than its "usual" lifetime for photos and such. You will still be able to use the rest of the card for file storage; about 512 MB will be for swap space. Plug it into the SD card slot on the XO. You'll have to keep it plugged in the whole time while you're swapping to it; you can't remove it the way you remove a USB drive or a non-swap SD card. When it starts to slow down after a few years, you can copy any still-interesting user files off it, throw it away, and put in a new SD card.
How much swap?
In the examples below we use 64 MiB of swap. This is a reasonable amount for ordinary interactive use of an XO-1, and can substantially improve user experience when demand is high.
As an example of the improvement, on 13.2.0 one can open many Sugar activities without closing the previous activity, and then switch between them with alt-tab. Without swap this is impractical.
Special situations may require more swap.
The device you use may have ample space, so using more is reasonable.
Swap to a file on a device
A file on a filesystem on an SD card or USB drive can be used for swap.
Advantages:
- avoids dedicating a partition on external device,
- avoids repartitioning,
Disadvantages:
- the XO may hang if the device is removed without first turning off swap<ref name="hang">once the system is using a resource for swap, it relies on it heavily, and if the resource is lost the system may hang, so you have to make sure it isn't lost, or if it is lost use the power button to reboot.</ref>,
- slightly less efficient<ref>swap to a file on a filesystem is less efficient than swap to partition, but not notably so; the extra CPU cost of remapping the swap I/O is minimal, and at the time the swap is used the system is already under demand.</ref>.
Recipe for Sugar:
- download MakeSwap-3.xo,
- insert an SD card<ref name="covering">if a child is to be using the laptop with swap, then it may be appropriate to cover the slot with adhesive so that the card is not easily removed.</ref> with a FAT filesystem<ref>MakeSwap does not work with anything other than FAT formatted cards. SD cards are FAT formatted and optimised by the manufacturer, so if you have reformatted them you will need to use other instructions.</ref>,
- run the activity, wait for it to say it is done, then quit,
- the activity can be safely run again (it does nothing new), or erased (swap continues to be available).
Recipe for GNOME:
- remove all other SD cards or USB drives, (to make the following simplest),
- insert the SD card or USB drive<ref name="sd_better">it is best to use an SD card rather than a USB drive</ref>,
- in Terminal, as Root, copy and paste the commands:
# find the SD card or USB drive and make a file name for it D=/run/media/olpc/ E="$D$(ls $D)" F=$E/swap # create a 64 MiB file dd if=/dev/zero of="$F" bs=1M count=64 # mark the file as a swap file sudo mkswap "$F" # start using the file sudo swapon $F
- to verify the swapfile is being used:
sudo swapon -s
- to safely remove the device,
sudo swapoff -a
- repeat the steps each time you reboot,
Last tested with 13.2.1. Does not work exactly the same way on earlier releases.
Swap to an entire device
An entire SD card or USB drive can be used for swap.
Advantages:
- suited to use with a child<ref name="covering" />,
Disadvantages:
- need to repartition the device, which loses all files, and may affect performance of the device,
- the device should not be removed once inserted<ref name="hang" />.
Recipe:
- in the Terminal activity, become root, then install the gparted package:
yum install -y gparted
- insert the SD card or USB drive, and use gparted (Applications -> System Tools -> GParted Partition Editor) to delete the manufacturer's partition and add a linux-swap partition, then add it to the filesystem table:
eval $(blkid -o export /dev/mmcblk1p1) # get the UUID echo UUID=$UUID swap swap defaults 0 0 >> /etc/fstab # add to table swapon -a -v # turn on swap
Last tested with 13.2.0.
Swap to a file on another system, using the network block device
Swap can be added as a file on another system, with access over network connection using the network block device driver, which is available as a module.
Advantages:
- swap space can be added when needed rather than always available,
- additional swap space can be added at any time,
- no damage to endurance of SD card or USB drive,
Disadvantages:
- the XO may hang<ref name="hang" /> if the other system is shutdown, or the network connection is lost, without first turning off swap,
- the network may be loaded,
- disk space is needed on the other system.
Setup the other system:
# install the nbd package yum install -y nbd # create a 64 MiB empty file dd if=/dev/zero of=/root/xo-swap bs=1048576 count=64 # provide it over network block device protocol on port 1234 nbd-server 1234 /root/xo-swap
Setup the XO:
# install the nbd package yum install -y nbd # load the network block device module modprobe nbd # attach the network block device to the remote system nbd-client 10.0.0.1 1234 /dev/nbd0 # make swap space on the block device mkswap /dev/nbd0 # enable swap space swapon /dev/nbd0
Last tested with 13.2.0.
Swap to a file on internal device
Swap won't attach to a file on internal storage on XO-1, because of a limitation of the filesystem driver, but this can be bypassed using a loopback block device.
Advantages:
- no additional hardware or network required.
Disadvantages:
- the XO-1 will become slower over months instead of years<ref>the XO-1 internal storage is rated for 100,000 writes per cell, the filesystem will try to spread that across the whole device, so using the internal storage as swap will shorten the life of the internal storage, and it will become permanently slower much earlier than planned by the designers.</ref>.
Recipe:
# set the name of the swap file FILE=/var/swap # create the file and preallocate the space dd if=/dev/zero of=$FILE bs=1M count=64 # write the swap signature pattern into the file /sbin/mkswap $FILE # create a loopback block device representing the file LOOP=$(losetup --show --find $FILE) # turn on swap through the loopback device swapon $LOOP
Last tested on 13.2.0.
Monitoring
- the swapon -a and free commands are helpful for confirming that swap is available,
- using a USB drive with an indicator is helpful for assessing when swap is being accessed,
- the top command is helpful for seeing how much swap and memory demand is happening.