Linux file systems have evolved over the years, and here's a look at file system types Credit: Andreas Lehner / Flickr While it may not be obvious to the casual user, Linux file systems have evolved significantly over the last decade or so to make them more resistant to corruption and performance problems. Most Linux systems today use a file system type called ext4. The “ext” part stands for “extended” and the 4 indicates that this is the 4th generation of this file system type. Features added over time include the ability to provide increasingly larger file systems (currently as large as 1,000,000 TiB) and much larger files (up to 16 TiB), more resistance to system crashes and less fragmentation (scattering single files as chunks in multiple locations) which improves performance. The ext4 file system type also came with other improvements to performance, scalability and capacity. Metadata and journal checksums were implemented for reliability. Timestamps now track changes down to nanoseconds for better file time-stamping (e.g., file creation and last updates). And, with two additional bits in the timestamp field, the year 2038 problem (when the digitally stored date/time fields will roll over from maximum to zero) has been put off for more than 400 years (to 2446). File system types To determine the type of file system on a Linux system, use the df command. The T option in the command shown below provides the file system type. The h makes the disk sizes “human-readable”; in other words, adjusting the reported units (such as M and G) in a way that makes the most sense to the people reading them. $ df -hT | head -10 Filesystem Type Size Used Avail Use% Mounted on udev devtmpfs 2.9G 0 2.9G 0% /dev tmpfs tmpfs 596M 1.5M 595M 1% /run /dev/sda1 ext4 110G 50G 55G 48% / /dev/sdb2 ext4 457G 642M 434G 1% /apps tmpfs tmpfs 3.0G 0 3.0G 0% /dev/shm tmpfs tmpfs 5.0M 4.0K 5.0M 1% /run/lock tmpfs tmpfs 3.0G 0 3.0G 0% /sys/fs/cgroup /dev/loop0 squashfs 89M 89M 0 100% /snap/core/7270 /dev/loop2 squashfs 142M 142M 0 100% /snap/hexchat/42 Notice that the / (root) and /apps file systems are both ext4 file systems while /dev is a devtmpfs file system – one with automated device nodes populated by the kernel. Some of the other file systems shown are tmpfs – temporary file systems that reside in memory and/or swap partitions and squashfs – file systems that are read-only compressed file systems and are used for snap packages. There’s also proc file systems that stores information on running processes. $ df -T /proc Filesystem Type 1K-blocks Used Available Use% Mounted on proc proc 0 0 0 - /proc There are a number of other file system types that you might encounter as you’re moving around the overall file system. When you’ve moved into a directory, for example, and want to ask about the related file system, you can run a command like this: $ cd /dev/mqueue; df -T . Filesystem Type 1K-blocks Used Available Use% Mounted on mqueue mqueue 0 0 0 - /dev/mqueue $ cd /sys; df -T . Filesystem Type 1K-blocks Used Available Use% Mounted on sysfs sysfs 0 0 0 - /sys $ cd /sys/kernel/security; df -T . Filesystem Type 1K-blocks Used Available Use% Mounted on securityfs securityfs 0 0 0 - /sys/kernel/security As with other Linux commands, the . in these commands refers to the current location in the overall file system. These and other unique file-system types provide some special functions. For example, securityfs provides file system support for security modules. Linux file systems need to be resistant to corruption, have the ability to survive system crashes and provide fast and reliable performance. The improvements provided by the generations of ext file systems and the new generation on purpose-specific file system types have made Linux systems easier to manage and more reliable. Related content how-to How to find files on Linux There are many options you can use to find files on Linux, including searching by file name (or partial name), age, owner, group, size, type and inode number. By Sandra Henry Stocker Jun 24, 2024 8 mins Linux opinion Linux in your car: Red Hat’s milestone collaboration with exida With contributions from Red Hat and critical collaborators, the safety and security of automotive vehicles has reached a new level of reliability. 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