Rafal Jaworowski and Semihalf have been awarded a grant to provide FreeBSD with support for the flattened device tree (FDT) technology. This project allows for describing hardware resources of a computer system and their dependencies in a platform-neutral and portable way.
The main consumers of this functionality are embedded systems whose hardware resources assignment cannot be probed or self-discovered.
The FDT idea is inherited from Open Firmware IEEE 1275 device-tree notion (part of the regular Open Firmware implementation), and among other deployments is used as a basis for Power.org's embedded platform reference specification (ePAPR).
"Thanks to this project, embedded FreeBSD platforms will grow in a uniform and extensible way of representing hardware devices, compliant with industry standards (ePAPR, Open Firmware), independent of architecture and platform (portable across ARM, MIPS, PowerPC etc.)," said Rafal Jaworowski, FreeBSD Developer.
Semihalf is a privately owned company, based in Krakow, Poland. They specialize in embedded systems design and development, with expertise in both software and hardware. Among their portfolio are FreeBSD ports to high-end embedded processors (including multi-core) with a wide range of peripheral drivers (storage, networking, pattern matching, security engines etc.); most of this work is publicly available from the FreeBSD repository.
This project will complete by February 2010.
Thursday, October 22, 2009
Another New Funded Project
Wednesday, October 21, 2009
New Funded Project
The FreeBSD Foundation is pleased to announce a new funded project!
Pawel Jakub Dawidek has been awarded a grant to implement storage replication software that will enable users to use the FreeBSD operating system for highly available configurations where data has to be shared across the cluster nodes. The project is partly being funded by OMCnet Internet Service GmbH and TransIP BV.
The software will allow for synchronous block-level replication of any storage media (GEOM providers, using FreeBSD nomenclature) over the TCP/IP network and for fast failure recovery. HAST will provide storage using GEOM infrastructure, which means it will be file system and application independent and could be combined with any existing GEOM class. In case of a master node failure, the cluster will be able to switch to the slave node, check and mount UFS file system or import ZFS pool and continue to work without missing a single bit of data.
"High-availability is the number one requirement for any serious use of any operating system," said Pawel Jakub Dawidek, FreeBSD Developer. "Highly available storage is one of the key components in such environments. I strongly believe there are many FreeBSD users that have been waiting a long time for this functionality. I'll do my best to deliver software that matches FreeBSD quality and that will satisfy the needs of our users."
Pawel has been an active FreeBSD committer since 2003. During this period, he has touched almost every part of the kernel. But, his main interest in FreeBSD is storage and security related topics. Pawel is the author of various GEOM classes (eli, mirror, gate, label, journal, hsec, etc.), geom(8) utility, various open crypto improvements as well as port of the ZFS file system from OpenSolaris to FreeBSD.
The project will complete by February 2010.