Data and metadata are checksummed by default, the checksum is calculated before write and verifed after reading the blocks from devices. The whole metadata block has a checksum stored inline in the b-tree node header, each data block has a detached checksum stored in the checksum tree. There are several checksum algorithms supported. The default and backward compatible is *crc32c*. Since kernel 5.5 there are three more with different characteristics and trade-offs regarding speed and strength. The following list may help you to decide which one to select. CRC32C (32bit digest) default, best backward compatibility, very fast, modern CPUs have instruction-level support, not collision-resistant but still good error detection capabilities XXHASH (64bit digest) can be used as CRC32C successor, very fast, optimized for modern CPUs utilizing instruction pipelining, good collision resistance and error detection SHA256 (256bit digest):: a cryptographic-strength hash, relatively slow but with possible CPU instruction acceleration or specialized hardware cards, FIPS certified and in wide use BLAKE2b (256bit digest) a cryptographic-strength hash, relatively fast with possible CPU acceleration using SIMD extensions, not standardized but based on BLAKE which was a SHA3 finalist, in wide use, the algorithm used is BLAKE2b-256 that's optimized for 64bit platforms The *digest size* affects overall size of data block checksums stored in the filesystem. The metadata blocks have a fixed area up to 256 bits (32 bytes), so there's no increase. Each data block has a separate checksum stored, with additional overhead of the b-tree leaves. Approximate relative performance of the algorithms, measured against CRC32C using reference software implementations on a 3.5GHz intel CPU: ======== ============ ======= ================ Digest Cycles/4KiB Ratio Implementation ======== ============ ======= ================ CRC32C 1700 1.00 CPU instruction XXHASH 2500 1.44 reference impl. SHA256 105000 61 reference impl. SHA256 36000 21 libgcrypt/AVX2 SHA256 63000 37 libsodium/AVX2 BLAKE2b 22000 13 reference impl. BLAKE2b 19000 11 libgcrypt/AVX2 BLAKE2b 19000 11 libsodium/AVX2 ======== ============ ======= ================ Many kernels are configured with SHA256 as built-in and not as a module. The accelerated versions are however provided by the modules and must be loaded explicitly (**modprobe sha256**) before mounting the filesystem to make use of them. You can check in */sys/fs/btrfs/FSID/checksum* which one is used. If you see *sha256-generic*, then you may want to unmount and mount the filesystem again, changing that on a mounted filesystem is not possible. Check the file */proc/crypto*, when the implementation is built-in, you'd find .. code-block:: none name : sha256 driver : sha256-generic module : kernel priority : 100 ... while accelerated implementation is e.g. .. code-block:: none name : sha256 driver : sha256-avx2 module : sha256_ssse3 priority : 170 ...