Btrfs is a filesystem (like FAT, NTFS, and ext4), but has some distinct advantages:

  • Increased storage - thanks to compression and file deduplication, Btrfs can save you considerable amounts of storage. I have 517G of files on my Deck’s SSD, but it only uses up 410G of storage to hold those files. Compressing your filesystem can also shorten load times, especially for slower memory devices like the SD card.

  • Snapshotting - save snapshots of the file system and easily roll back if there’s a problem.

Converting to Btrfs is easy to do, and doesn’t require having you to resetup/reconfigure your deck. The linked gitlab project will do the conversion, keep all your existing files and settings, and set all the Btrfs configurations for you. The file conversion will persist through updates, and it will setup automatic deduplication of files on the drive. It also allows the Deck to automatically mount Btrfs converted SD cards, and to format new cards in the same format.

Only potential downside I know of is that Btrfs is case sensitive, where the default ext4 on the Deck uses casefolding. Basically this means that Btrfs will treat File.txt and file.txt as two different files. I’ve never run into any issues with this, but I’ve heard it can cause issues with some specific mods that inconsistently capitalize their files. There’s also always some risk whenever you make dramatic changes to your filesystem, but I haven’t really heard of anyone having problems with this. You do have to make sure you have at least 10-20% of your storage free (and a min of 10-20GB free for smaller drives) to make sure it has room for the conversion.

Overall I’ve been using Btrfs for over 6+ months on my deck, and it’s been great. I highly recommend it. I’m not an expert on it, but I’ll do my best to answer any questions on it.

  • Yote.zip@pawb.social
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    1 year ago

    I noticed this guide recommends compress-force=zstd, which sets the ZSTD compression to level 3. There’s a BTRFS benchmark and ZFS benchmark of the ZSTD levels which can give a rough idea of how ZSTD performs for transparent filesystem compression. Note that almost all of ZSTD’s compression gains happen starting at level 1, and levels after that have very minor improvements.

    Also keep in mind that ZSTD levels only affect how long it takes to write new data to the filesystem. ZSTD is somewhat unique as a compression algorithm in that as you increase compression effort, the decompression effort stays the same. You could compress everything with level 15 and it will decompress just as fast as level 1 (~generally). Setting higher ZSTD levels could arguably make more sense for a gaming drive because the data is usually write-once, read-many. I don’t know at what level the Steam Deck CPU will start limiting your I/O though.

    BTRFS compression is enabled per-file, so you can change ZSTD levels at any time and old data will still be compressed with your previous algorithm. To recompress using a new level, change your /etc/fstab/ ZSTD level and remount the partition, then run a defrag to poke the data into recompression.