Union File System
Overview
This directory contains the NuttX Union File System. The Union file system is provides a mechanism to overlay two different, mounted file systems so that they appear as one. In general this works like this:
Mount file system 1 at some location, say
/mnt/file1
Mount file system 2 at some location, say
/mnt/file2
Call
mount()
to combine and overly/mnt/file1
andmnt/file2
as a new mount point, say/mnt/unionfs
.
/mnt/file1
and /mnt/file2
will disappear and be replaced by the single
mountpoint /mnt/unionfs
. The previous contents under /mnt/file1
and
/mnt/file2
will appear merged under /mnt/unionfs
. Files at the same
relative path in file system1 will take presence. If another file of the
same name and same relative location exists in file system 2, it will
not be visible because it will be occluded by the file in file system1.
See include/nutts/unionfs.h
for additional information.
The Union File System is enabled by selecting the CONFIG_FS_UNIONFS
option
in the NuttX configuration file.
Disclaimer: This Union File System was certainly inspired by UnionFS (http://en.wikipedia.org/wiki/UnionFS) and the similarity in naming is unavoidable. However, other than that, the NuttX Union File System has no relationship with the UnioinFS project in specification, usage, design, or implementation.
Uses of the Union File System
The original motivation for this file was for the use of the built-in function file system (BINFS) with a web server. In that case, the built in functions provide CGI programs. But the BINFS file system cannot hold content. Fixed content would need to be retained in a more standard file system such as ROMFS. With this Union File System, you can overly the BINFS mountpoint on the ROMFS mountpoint, providing a single directory that appears to contain the executables from the BINFS file system along with the web content from the ROMFS file system.
Another possible use for the Union File System could be to augment or replace files in a FLASH file system. For example, suppose that you have a product that ships with content in a ROMFS file system provided by the on-board FLASH. Later, you overlay that ROMFS file system with additional files from an SD card by using the Union File System to overlay, and perhaps replace, the ROMFS files.
Another use case might be to overlay a read-only file system like ROMFS with a writable file system (like a RAM disk). This should then give to a readable/write-able file system with some fixed content.
Prefixes
And optional prefix may be provided with each of the file systems combined in by the Union File System. For example, suppose that:
File system 1 is a ROMFS file system with prefix == NULL,
File system 2 is a BINFS file system with prefix == “cgin-bin”, and
The union file system is mounted at
/mnt/www
.
Then the content in the in the ROMFS file system would appear at
/mnt/www
and the content of the BINFS file system would appear at
/mnt/www/cgi-gin
.
Example Configurations
boards/sim/sim/sim/unionfs
- This is a simulator configuration that uses the Union File System test at apps/examples/unionfs. That test overlays two small ROMFS file systems with many conflicts in directories and file names. This is a good platform for testing the Union file System and apps/examples/unionfs is a good example of how to configure the Union File System.boards/arm/lpc17xx_40xx/lincoln60/thttpd-binfs
- This is an example using the THTTPD web server. It server up content from a Union File System with fixed content provided by a ROMFS file system and CGI content provided by a BINFS file system.You can see how the Union File System content directory is configured by logic in apps/example/thttpd/.
boards/arm/lpc17xx_40xx/olimex-lpc1766stk/thttpd-binfs
- This is essentially the same as the lincoln60 configuration. It does not work, however, because the LPC1766 has insufficient RAM to support the THTTPD application in this configuration.
See the documentation pages for each of these board for additional information about these configurations.