DragonFly BSD project leader Matthew Dillon created the project in 2003 as a fork of FreeBSD 4.x-based code, because he and other DragonFly BSD developers disagreed with the FreeBSD 5.x path.
With its 6.x branch having been released, FreeBSD has moved on. But so has DragonFly BSD.
DragonFly BSD's last major release, version 1.4 moved the OS away from the FreeBSD PORTS package management system to the PKGSRC system that is used by the NetBSD OS. The new DragonFly BSD 1.6 boasts improved PKGSRC integration than the last release with more than 93 percent of the more than 6,000 packages in the repository able to build on DragonFly BSD.
Wireless support is also improved with what the release notes term a " massive reorganization and rewrite of the 802_11 subsystem."
Although the wireless improvements are notable, Dillon told internetnews.com that the most surprising aspect about them is the fact that someone else did the work.
"The 802_11 work was primarily done by Sepherosa Ziehau, who is a top-notch programmer," Dillon said.
There are at least two other notable aspects of the 1.6 release, according to Dillon.
"First, the sheer number of bugs that have been fixed, in particular a number of old filesystem-related bugs that we inherited from FreeBSD," Dillon said. "That isn't to say that all FS bugs have been fixed, but there can't be more then two or three left to find now.
"Second, I was able to accomplish a considerable amount of under-the-hood infrastructure work," Dillon continued.
The infrastructure work includes work on pluggable scheduler framework, and what Dillon referred to as some "major surgery" on the buffer cache and device I/O subsystem.
"I changed the buffer cache and device I/O over from using block numbers to using 64 bit byte-granular offsets," Dillon explained. "It might not sound like a big thing, but it's huge insofar as being able to integrate a range-based cache coherency mechanism into the system."
The next major release of DragonFly BSD is set for December and will focus on userland VFS (virtual file system) support .
"The requirements for making a robust userland VFS interface are a subset of the requirements for general clustering, so it moves us along towards our clustering goals," Dillon said.
The improved userland VFS could also enable DragonFly BSD to potentially port Sun's ZFS (Zettabyte file system) and integrate directly in the DragonFly BSD kernel.
ZFS is Sun's next-generation 128-bit file system, which includes storage virtualization capability, as well as enhanced error detection and correction capabilities. It is available under an open source license.
"I can't promise ZFS in December because I do not yet know how large a job it is going to be," Dillon admitted. "We will just have to see how far I get in the work over the next few months."
This article was originally published on internetnews.com.