Install Arch Linux with Fake RAID
The purpose of this guide is to enable use of a RAID set created by the on-board BIOS RAID controller and thereby allow dual-booting of Linux and Windows from partitions inside the RAID set using GRUB. When using so-called "fake RAID" or "host RAID", the disc sets are reached from
/dev/mapper/chipsetName_randomName and not
- 1 What is "fake RAID"
- 2 History
- 3 Preparation
- 4 Boot the installer
- 5 MBR Install Example Using mdadm on and Intel FakeRAID
- 6 Load dmraid
- 7 Perform traditional installation
- 8 Install the bootloader
- 9 Troubleshooting
- 10 See also
What is "fake RAID"
- Operating system-based RAID doesn't always protect the boot process and is generally impractical on desktop versions of Windows. Hardware RAID controllers are expensive and proprietary. To fill this gap, cheap "RAID controllers" were introduced that do not contain a RAID controller chip, but simply a standard disk controller chip with special firmware and drivers. During early stage boot-up, the RAID is implemented by the firmware. When a protected-mode operating system kernel such as Linux or a modern version of Microsoft Windows is loaded, the drivers take over.
- These controllers are described by their manufacturers as RAID controllers, and it is rarely made clear to purchasers that the burden of RAID processing is borne by the host computer's central processing unit -- not the RAID controller itself -- thus introducing the aforementioned CPU overhead which hardware controllers do not suffer from. Firmware controllers often can only use certain types of hard drives in their RAID arrays (e.g. SATA for Intel Matrix RAID, as there is neither SCSI nor PATA support in modern Intel ICH southbridges; however, motherboard makers implement RAID controllers outside of the southbridge on some motherboards). Before their introduction, a "RAID controller" implied that the controller did the processing, and the new type has become known in technically knowledgeable circles as "fake RAID" even though the RAID itself is implemented correctly. Adaptec calls them "host RAID".
See also FakeRaidHowto @ Community Ubuntu Documentation for more information.
Despite the terminology, "fake RAID" via RAID) instead of dmraid or you will find yourself unable to rebuild an array in case of a drive failure - or unable to retrieve information from your array in case of a motherboard failure without a lot of additional work.is a robust software RAID implementation that offers a solid system to mirror or stripe data across multiple disks with negligible overhead for any modern system. dmraid is comparable to mdadm (pure Linux software RAID) with the added benefit of being able to completely rebuild a drive after a failure before the system is ever booted. However, be aware that not all BIOS RAID implementations support drive rebuilding. Instead they rely on non-linux software to perform the rebuild. If your system cannot rebuild a drive in the BIOS RAID setup utility, you are strongly encouraged to use mdraid (pure Linux Software Raid via mdadm - see
In Linux 2.4, the ATARAID kernel framework provided support for fake RAID (software RAID assisted by the BIOS). For Linux 2.6 the device-mapper framework can, among other nice things like LVM and EVMS, do the same kind of work as ATARAID in 2.4. Whilst the new code handling the RAID I/O still runs in the kernel, device-mapper is generally configured by a userspace application. It was clear that when using the device-mapper for RAID, detection would go to userspace.
Heinz Maulshagen created the dmraid tool to detect RAID sets and create mappings for them. The controllers supported are (mostly cheap) fake RAID IDE/SATA controllers which contain BIOS functions. Common examples include: Promise FastTrak controllers; HighPoint HPT37x; Intel Matrix RAID; Silicon Image Medley; and NVIDIA nForce.
- Open up any needed guides (Installation guide) on another machine. If you do not have access to another machine, print it out.
- Download the latest Arch Linux install image.
- Backup all important files since everything on the target partitions will be destroyed.
Configure RAID sets
- Enter your BIOS setup and enable the RAID controller.
- The BIOS may contain an option to configure SATA drives as "IDE", "AHCI", or "RAID"; ensure "RAID" is selected.
- Save and exit the BIOS setup. During boot, enter the RAID setup utility.
- The RAID utility is usually either accessible via the boot menu (often F8, F10 or CTRL+I) or whilst the RAID controller is initializing.
- Use the RAID setup utility to create preferred stripe/mirror sets.
Boot the installer
See Installation guide#Pre-installation for details.
MBR Install Example Using mdadm on and Intel FakeRAID
This is here because I spent hours making this work because there is so much information out there on different ways to do it, plus outdated information. It may need integrated into this page better, with more explanation and Arch Linux WIKI syntax but I am wrapping this up ATM. This is a basic command line dump that shows a successful RAID setup using the MBR partition structure.
It looks like once you create the Array in the intel util it writes the raid metadata. So assembling/creating an array does not need to happen. I named my array ZERO in the intel util and you can see it in this example.
I am leaving the entire install example as it shows when to configure things during the install. You are going to have to modify some things to make them work, do not copy and paste!
ls /dev/md/ parted /dev/md/ZERO_0 mklabel msdos mkpart primary ext4 1MiB 100MiB set 1 boot on mkpart primary ext4 100MiB 16.5GiB mkpart primary linux-swap 16.5GiB 100%
Just to see changes:
fdisk -l /dev/md/ZERO_0
Create Filesystem/swap/activate swap
mkfs.ext4 /dev/md/ZERO_0p1 mkfs.ext4 /dev/md/ZERO_0p2 mkswap /dev/md/ZERO_0p3 swapon /dev/md/ZERO_0p3 mount /dev/md/ZERO_0p2 /mnt mkdir -p /mnt/boot mount /dev/md/ZERO_0p1 /mnt/boot/ nano /etc/pacman.conf
Uncomment multilib on x64 (why not)(do it after chroot too)
pacstrap -i /mnt base base-devel genfstab -U /mnt > /mnt/etc/fstab cat /mnt/etc/fstab nano /mnt/etc/fstab
replace UUIDs with (This may be optional):
/dev/md/ZERO_0p1 /dev/md/ZERO_0p2 /dev/md/ZERO_0p3 mdadm --detail --scan >> /mnt/etc/mdadm.conf
Chroot in for config
arch-chroot /mnt /bin/bash nano /etc/locale.gen
locale-gen en_US en_US.UTF-8 tzselect ln -sf /usr/share/zoneinfo/America/Chicago /etc/localtime
Work on some grub stuff
pacman -Sv grub nano /etc/default/grub
- Uncomment GRUB_DISABLE_LINUX_UUID=true
cat /etc/mdadm.conf nano /etc/mkinitcpio.conf
Add mdadm_udev to HOOKS=
HOOKS="base udev autodetect modconf block mdadm_udev filesystems keyboard fsck"
Add /sbin/mdmon to BINARIES<ref>https://bbs.archlinux.org/viewtopic.php?id=137058</ref>
mkinitcpio -p linux
grub-install --recheck /dev/md/ZERO_0 grub-mkconfig -o /boot/grub/grub.cfg
echo your-hostname > /etc/hostname nano /etc/hosts systemctl enable firstname.lastname@example.org exit umount -R /mnt reboot
Load device-mapper and find RAID sets:
# modprobe dm_mod # dmraid -ay # ls -la /dev/mapper/
dmraid -aycould fail after boot to Arch Linux Release: 2011.08.19 as image file with initial ramdisk environment does not support dmraid. You could use an older Release: 2010.05. Note that you must correct your kernel name and initrd name in grubs menu.lst after installing as these releases use different naming
/dev/mapper/control <- Created by device-mapper; if present, device-mapper is likely functioning /dev/mapper/sil_aiageicechah <- A RAID set on a Silicon Image SATA RAID controller /dev/mapper/sil_aiageicechah1 <- First partition on this RAID Set
If there is only one file (
/dev/mapper/control), check if your controller chipset module is loaded with
lsmod. If it is, then dmraid does not support this controller or there are no RAID sets on the system (check RAID BIOS setup again). If correct, then you may be forced to use software RAID (this means no dual-booted RAID system on this controller).
If your chipset module is NOT loaded, load it now. For example:
# modprobe sata_sil
/lib/modules/`uname -r`/kernel/drivers/ata/ for available drivers.
To test the RAID sets:
# dmraid -tay
Perform traditional installation
Switch to tty2 and start the installer:
Partition the RAID set
- Under Prepare Hard Drive choose Manually partition hard drives since the Auto-prepare option will not find your RAID sets.
- Choose OTHER and type in your RAID set's full path (e.g.
/dev/mapper/sil_aiageicechah). Switch back to tty1 to check your spelling.
- Create the proper partitions the normal way.
Mounting the filesystem
If -- and this is probably the case -- you do not find your newly created partitions under Manually configure block devices, filesystems and mountpoints:
- Switch back to tty1.
- Deactivate all device-mapper nodes:
# dmsetup remove_all
- Reactivate the newly-created RAID nodes:
# dmraid -ay # ls -la /dev/mapper
- Switch to tty2, re-enter the Manually configure block devices, filesystems and mountpoints menu and the partitions should be available.
Install and configure Arch
- tty1: chroot and grub-install
- tty2: /arch/setup
- tty3: cfdisk for a reference in spelling, partition table and geometry of the RAID set
Re-activate the installer (tty2) and proceed as normal with the following exceptions:
- Select Packages
- Ensure dmraid is marked for installation
- Configure System
- Add dm_mod to the MODULES line in
mkinitcpio.conf. If using a mirrored (RAID 1) array, additionally add dm_mirror
- Add chipset_module_driver to the MODULES line if necessary
- Add dmraid to the HOOKS line in
mkinitcpio.conf; preferably after sata but before filesystems
- Add dm_mod to the MODULES line in
Install the bootloader
See GRUB2 for details on configuring GRUB2. grub-bios works out of the box with dm-raid partitions:
$ grub-install --target=i386-pc --recheck --debug /dev/mapper/sil_aiageicechah
GRUB_DISABLE_LINUX_UUID=trueis not set, grub2 will generate lines with
root=UUID=...resulting in mounting one side of a mirrored RAID 1 array.
(Optional) Installif you have other OS like windows.
$ grub-mkconfig -o /boot/grub/grub.cfg
That's all, grub-mkconfig will generate the configure automatically. You could edit
/etc/default/grub to modify the configure (timeout, color, etc) before grub-mkconfig.
Booting with degraded array
One drawback of the fake RAID approach on GNU/Linux is that dmraid is currently unable to handle degraded arrays, and will refuse to activate. In this scenario, one must resolve the problem from within another OS (e.g. Windows) or via the BIOS/chipset RAID utility.
Alternatively, if using a mirrored (RAID 1) array, users may temporarily bypass dmraid during the boot process and boot from a single drive:
- Edit the kernel line from the GRUB menu
- Remove references to dmraid devices (e.g. change
disablehooks=dmraidto prevent a kernel panic when dmraid discovers the degraded array
- Remove references to dmraid devices (e.g. change
- Boot the system
Error: Unable to determine major/minor number of root device
If you experience a boot failure after kernel update where the boot process is unable to determine major/minor number of root device, this might just be a timing problem (i.e.
dmraid -ay might be called before /dev/sd* is fully set up and detected). This can effect both the normal and LTS kernel images. Booting the 'Fallback' kernel image should work. The error will look something like this:
Activating dmraid arrays... no block devices found Waiting 10 seconds for device /dev/mapper/nvidia_baaccajap5 Root device '/dev/mapper/nvidia_baaccajap5' doesn't exist attempting to create it. Error: Unable to determine major/minor number of root device '/dev/mapper/nvidia_baaccajap5'
To work around this problem:
- boot the Fallback kernel
- insert the
sleephook in the
udevhook like this:
HOOKS="base udev sleep autodetect block dmraid filesystems"
- rebuild the kernel image and reboot
dmraid mirror fails to activate
Does everything above work correctly the first time, but then when you reboot dmraid cannot find the array?
This is because Linux software raid (mdadm) has already attempted to mount the fakeraid array during system init and left it in an umountable state. To prevent mdadm from running, move the udev rule that is responsible out of the way:
# cd /lib/udev/rules.d # mkdir disabled # mv 64-md-raid.rules disabled/ # reboot
No block devices for partitions on existing RAID array
If your existing array, set up before attempting to install arch, appears in
/dev/mapper/raidnamehere, but does not have any partitions (
raidnamehere1, etc) re-check the status of your RAID partitions.
Arch may not create block devices for partitions that work in another OS if there are certain, even minor, problems.
is useful to diagnose and repair most problems. Unfortunately, you may have to repartition from scratch.