softraid0 at root
softraid device emulates a Host Bus
Adapter (HBA) that provides RAID and other I/O related services. The
softraid device provides a scaffold to implement
more complex I/O transformation disciplines. For example, one can tie chunks
together into a mirroring discipline. There really is no limit on what type
of discipline one can write as long as it fits the SCSI model.
softraid supports a
A discipline is a collection of functions that provides specific I/O
functionality. This includes I/O path, bring-up, failure recovery, and
statistical information gathering. Essentially a discipline is a lower level
driver that provides the I/O transformation for the softraid device.
A volume is a virtual disk device that is made up of a collection of chunks.
A chunk is a partition or storage area of fstype “RAID”. disklabel(8) is used to alter the fstype.
softraid supports the following
- RAID 0
- A striping discipline. It segments data over a number of chunks to increase performance. RAID 0 does not provide for data loss (redundancy).
- RAID 1
- A mirroring
discipline. It copies data across more than one chunk to provide for data
loss. Read performance is increased, though at the cost of write speed.
Unlike traditional RAID 1,
softraidsupports the use of more than two chunks in a RAID 1 setup.
- RAID 5
- A striping discipline with floating parity across all chunks. It stripes data across chunks and provides parity to prevent data loss of a single chunk failure. Read performance is increased; write performance does incur additional overhead.
- An encrypting discipline. It encrypts data on a single chunk to provide for data confidentiality. CRYPTO does not provide redundancy.
- A concatenating discipline. It writes data to each chunk in sequence to provide increased capacity. CONCAT does not provide redundancy.
installboot(8) may be used to install
boot(8) in the boot storage area of the
softraid volume. Boot support is currently limited
to the CRYPTO and RAID 1 disciplines on amd64, i386, and sparc64 platforms.
On sparc64, bootable chunks must be RAID partitions using the letter
‘a’. At the
boot(8) prompt, softraid volumes have names beginning with
‘sr’ and can be booted from like a normal disk device. CRYPTO
volumes will require a decryption passphrase or keydisk at boot time.
An example to create a 3 chunk RAID 1 from scratch is as follows:
Initialize the partition tables of all disks:
# fdisk -iy wd1 # fdisk -iy wd2 # fdisk -iy wd3
Now create RAID partitions on all disks:
# printf "a\n\n\n\nRAID\nw\nq\n\n" | disklabel -E wd1 # printf "a\n\n\n\nRAID\nw\nq\n\n" | disklabel -E wd2 # printf "a\n\n\n\nRAID\nw\nq\n\n" | disklabel -E wd3
Assemble the RAID volume:
# bioctl -c 1 -l /dev/wd1a,/dev/wd2a,/dev/wd3a softraid0
The console will show what device was added to the system:
scsibus0 at softraid0: 1 targets sd0 at scsibus0 targ 0 lun 0: <OPENBSD, SR RAID 1, 001> SCSI2 sd0: 1MB, 0 cyl, 255 head, 63 sec, 512 bytes/sec, 3714 sec total
It is good practice to wipe the front of the disk before using it:
# dd if=/dev/zero of=/dev/rsd0c bs=1m count=1
Initialize the partition table and create a filesystem on the new RAID volume:
# fdisk -iy sd0 # printf "a\n\n\n\n4.2BSD\nw\nq\n\n" | disklabel -E sd0 # newfs /dev/rsd0a
The RAID volume is now ready to be used as a normal disk device. See bioctl(8) for more information on configuration of RAID sets.
Install boot(8) on the RAID volume:
# installboot sd0
At the boot(8) prompt, load the /bsd kernel from the RAID volume:
boot> boot sr0a:/bsd
bio(4), bioctl(8), boot_sparc64(8), disklabel(8), fdisk(8), installboot(8), newfs(8)
softraid driver first appeared in
The driver relies on underlying hardware to properly fail chunks.
The RAID 1 discipline does not initialize the mirror upon creation. This is by design because all sectors that are read are written first. There is no point in wasting a lot of time syncing random data.
The RAID 5 discipline does not initialize parity upon creation, instead parity is only updated upon write.
Currently there is no automated mechanism to recover from failed disks.
Certain RAID levels can protect against some data loss due to component failure. RAID is not a substitute for good backup practices.