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Synthetic file system

In computer science, a synthetic file system is a hierarchical interface to non-file objects that appear as if they were regular files in the tree of the disk-based filesystem. These non-file objects may be accessed with the same system calls or utility programs as regular files and directories. The common term for both regular files and the non-file objects is node.

The benefit of synthetic file systems is that well known file system semantics can be reused for a universal and easily implementable approach to interprocess communication. Clients can use such a file system to perform simple file operations on its nodes, and do not have to implement complex message encoding and passing methods and other aspects of protocol engineering. For most operations, common file utilities can be used, so even scripting is quite easy.

This is commonly known as everything is a file and is generally regarded to have originated from Unix.


/proc filesystem

In the Unix-world, there is commonly a special filesystem mounted at /proc. This filesystem is implemented within the kernel and publishes information about processes. For each process, there is a directory (named by the process ID), containing detailed information about the process: status, open files, memory maps, mounts, etc.

/proc first appeared in Unix 8th Edition, and its functionality was greatly expanded in Plan 9 from Bell Labs.

Linux /sys filesystem

The /sys filesystem on Linux is a counterpart to /proc, which provides a lot of (non-process related) detailed information about the in-kernel status to userspace, e.g. devices, busses and loaded modules.


ObexFS is a FUSE-based filesystem that provides access to OBEX objects via a filesystem. Applications can work on remote objects via the OBEX protocol as if they were simply (local) files.

Plan 9 file servers

On the Plan 9 from Bell Labs operating system family, the concept of 9P synthetic filesystem is used as a generic IPC method. Contrary to most other operating systems, Plan 9's design is heavily distributed: while in other OS worlds, there are many (and often large) libraries and frameworks for common things, Plan 9 encapsulates them into fileservers. The most important benefit is that applications can be much simpler and that services run network and platform agnostic - they can reside on virtually any host and platform in the network, and virtually any kind of network, as long the fileserver can be mounted by the application.

Plan 9 drives this concept expansively: most operating system services, e.g. hardware access and networking stack are presented as fileservers. This way it is trivial to use these resources remotely (e.g. one host directly accessing another host's block devices or network interfaces) without the need of additional protocols.

Other implementations of the 9P file system protocol also exists for many other systems and environments.

Embedded systems

Debugging embedded systems or even system-on-chip (SoC) devices is widely known to be difficult.[citation needed] Several protocols have been implemented to provide direct access to in-chip devices, but they tend to be proprietary, complex and hard to handle.

Based on 9P, Plan 9's network filesystem, studies suggest using synthetic filesystems as universal access scheme to that information. The major benefit is that 9P is very simple and so quite easy to implement in hardware and can be easily used and over virtually any kind of network (from a serial link up to the internet).

Arguments for using synthetic filesystems

The major point might be flexibility and easy access to service-oriented architectures. Once a noticeable number of applications use this scheme, the overall overhead (code, resource consumption, maintenance work) can be reduced significantly

Many general arguments for SOAs also apply here.

Arguments against synthetic filesystems

Filesytem semantics do not fit all application scenarios. For example complex remote procedure calls with many parameters tend to be hard to map to filesystem schemes,[citation needed] and may require application redesign.

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