Difference between revisions of "Install Bubba 2 on RAID-1 volumes"
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<h1> Introduction </h1> | |||
<p>As you may know, Bubba devices support RAID for home storage. However the install procedure does not offer the possibility to have your system partitions (root and swap) on raid. Besides the technical challenge, there are a few good reasons to raidify the system partitions. First it protects your fine-and-many-hours-spent tuned configuration of your device from hard drive failure. And second it gives your bubba a much better fault-tolerant design. | |||
As you may know, Bubba devices support RAID for home storage. However the install procedure does not offer the possibility to have your system partitions (root and swap) on raid. Besides the technical challenge, there are a few good reasons to raidify the system partitions. First it protects your fine-and-many-hours-spent tuned configuration of your device from hard drive failure. And second it gives your bubba a much better fault-tolerant design. | </p><p>The goal of this how-to is to perform a plain standard software system installation on your bubba. You will have however the possibility to copy the data from your home partition. So with a backup of your settings from the web interface, you should get everything back. | ||
</p> | |||
The goal of this how-to is to perform a plain standard software system installation on your bubba. You will have however the possibility to copy the data from your home partition. So with a backup of your settings from the web interface, you should get everything back. | <h1> <span style="color:#FF0000">Big red warning</span> </h1> | ||
<p>This procedures involves commands changing u-boot variables. U-boot is the bootloader of the bubba device, located on a flash chip of the board. Although everything explained here has been carefully tested (at least by myself), you might mess things up and not be able to boot your bubba without a serial console cable (USB rescue rescue system won't fix it). Don't worry though, you will have plenty of verifications before doing the sensible stuff, and the risk is quite low. Nevertheless, you've been warned !! | |||
</p><p>In addition, <span style="color:#FF0000">these modifications prevent you from using the usb rescue disk</span>, because your system won't boot after a rescued installed software. The u-boot utils are not available in the rescue system, so you can't restore the modifications you've made to boot the raid array. I am currently working on a workaround, but as of today <u>it doesn't work</u>. | |||
</p> | |||
This procedures involves commands changing u-boot variables. U-boot is the bootloader of the bubba device, located on a flash chip of the board. Although everything explained here has been carefully tested (at least by myself), you might mess things up and not be able to boot your bubba without a serial console cable (USB rescue rescue system won't fix it). Don't worry though, you will have plenty of verifications before doing the sensible stuff, and the risk is quite low. Nevertheless, you've been warned !! | <h1> Prerequisites </h1> | ||
<p>This how-to has been tested only on <b>Bubba Two</b>. It would probably work on a bubba 3, with a proper configuration of u-boot stuff. If anyone owns a B3 and have validated that part, you're welcome to add it to this page. | |||
In addition, <span style="color:#FF0000">these modifications prevent you from using the usb rescue disk</span>, because your system won't boot after a rescued installed software. The u-boot utils are not available in the rescue system, so you can't restore the modifications you've made to boot the raid array. I am currently working on a workaround, but as of today <u>it doesn't work</u>. | </p><p>This how-to applies to the bubba release 2.4RC1 for the bubba 2. I think it will probably work with future releases too. You will need : | ||
</p> | |||
<ul><li>A working bubba two with 2.4RC1 software | |||
</li><li>An install/rescue USB stick with 2.4RC1 software on it | |||
This how-to has been tested only on | </li><li>An external esata hard drive, ideally the same model as your system disk (or at least the same size) | ||
</li><li>Screwdrivers to open the bubba and the external disk box (we will need to swap them). | |||
This how-to applies to the bubba release 2.4RC1 for the bubba 2. I think it will probably work with future releases too. You will need : | </li></ul> | ||
<h1> Principles </h1> | |||
<p>The procedure is divided in several parts : | |||
</p> | |||
<ul><li>Preparing the new disk to receive the raid volumes, create them and copy the software and data on it. | |||
</li></ul> | |||
<p>In this step, from the running bubba system, we will partition the new hard drive with 4 partitions (/boot (50Mo), / (10Go), swap (1Go) and /home with the rest). We need to make a separate and small /boot raid partition because for an unknown reason u-boot refuses to boot on a 10Go root raid partition. Then we will create the four RAID-1 arrays with the newly created partitions ; these arrays will be in a degraded state because we will add the other disk later. We won't change the kernel or the initrd, so the arrays will need to be configured to allow the kernel to detect them directly during its boot sequence. | |||
</p><p>After creating the LVM volume for the data, we will format the arrays and extract the bubba filesystem from the install USB key on them. All these steps are greatly inspired by the standard install script from excito (apart from the raid part). | |||
</p><p>Then we will need to adjust <tt>/etc/fstab</tt> to reflect the disk configuration | |||
The procedure is divided in several parts : | </p> | ||
<ul><li>Modifying the boot behavior of the device | |||
</li></ul> | |||
<p>The boot modification is quite simple : we just need to change the kernel boot parameter <tt>root=/dev/sda1</tt> to <tt>root=/dev/md0</tt>. It is stored in the u-boot environnment as the <tt>diskdev</tt> parameter. | |||
In this step, from the running bubba system, we will partition the new hard drive with 4 partitions (/boot (50Mo), / (10Go), swap (1Go) and /home with the rest). We need to make a separate and small /boot raid partition because for an unknown reason u-boot refuses to boot on a 10Go root raid partition. Then we will create the four RAID-1 arrays with the newly created partitions ; these arrays will be in a degraded state because we will add the other disk later. We won't change the kernel or the initrd, so the arrays will need to be configured to allow the kernel to detect them directly during its boot sequence. | </p> | ||
<ul><li>Powering off, physically swapping the disks and reboot | |||
After creating the LVM volume for the data, we will format the arrays and extract the bubba filesystem from the install USB key on them. All these steps are greatly inspired by the standard install script from excito (apart from the raid part). | </li></ul> | ||
<p>I didn't manage to get u-boot to boot from a differend disk than the one plugged inside the bubba. So we need to place our newly configured disk inside the device. The old disk will go inside the external disk box. After everyhing is closed and plugged, we restart the bubba which should boot on the newly created RAID arrays. | |||
Then we will need to adjust <tt>/etc/fstab</tt> to reflect the disk configuration | </p> | ||
<ul><li>Reconfiguring the old system disk and add it to the RAID arrays. | |||
</li></ul> | |||
<p>The final step is to repartition the old disk and add the partitions to the RAID arrays. The system will then automatically sync the drives, which concludes the setup. | |||
The boot modification is quite simple : we just need to change the kernel boot parameter <tt>root=/dev/sda1</tt> to <tt>root=/dev/md0</tt>. It is stored in the u-boot environnment as the <tt>diskdev</tt> parameter. | </p> | ||
<h1> Tasks </h1> | |||
<p>All the commands below need to be run in a ssh session as root. | |||
</p> | |||
I didn't manage to get u-boot to boot from a differend disk than the one plugged inside the bubba. So we need to place our newly configured disk inside the device. The old disk will go inside the external disk box. After everyhing is closed and plugged, we restart the bubba which should boot on the newly created RAID arrays. | <h2> Preparing the new disk </h2> | ||
<h3> Partitions and raid arrays </h3> | |||
<ul><li>Plug/turn on the external disk. We assume from now that it has been detected as <tt>/dev/sdb</tt>. | |||
</li><li>Create the partitions with the following command : | |||
The final step is to repartition the old disk and add the partitions to the RAID arrays. The system will then automatically sync the drives, which concludes the setup. | </li></ul> | ||
<pre class="_fck_mw_lspace">root@b2:~# sfdisk -uM /dev/sdb << EOF | |||
,50,fd | |||
,10240,fd | |||
All the commands below need to be run in a ssh session as root. | ,1024,fd | ||
,,fd | |||
EOF | |||
</pre> | |||
<ul><li>Create the four arrays with the previously created partition : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md0 /dev/sdb1 missing | |||
mdadm: array /dev/md0 started. | |||
root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md1 /dev/sdb2 missing | |||
mdadm: array /dev/md1 started. | |||
root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md2 /dev/sdb3 missing | |||
mdadm: array /dev/md2 started. | |||
root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md3 /dev/sdb4 missing | |||
mdadm: array /dev/md3 started. | |||
</pre> | |||
<ul><li>Create the LVM data volume : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# pvcreate /dev/md3 | |||
Physical volume "/dev/md3" successfully created | |||
root@b2:~# vgcreate bubba2 /dev/md3 | |||
Volume group "bubba2" successfully created | |||
root@b2:~# lvcreate -l 100%FREE --name storage bubba2 | |||
Logical volume "storage" created | |||
</pre> | |||
<h3> Filesystem and data </h3> | |||
<ul><li>Format the swap array : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mkswap /dev/md2 | |||
</pre> | |||
<ul><li>Format and mount the system array: | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mkfs.ext3 -q -L "Bubba root" /dev/md1 | |||
root@b2:~# tune2fs -c0 -i0 /dev/md1 | |||
root@b2:~# mkdir /mnt/bubba | |||
root@b2:~# mount /dev/md1 /mnt/bubba | |||
</pre> | |||
<ul><li>Format and mount the /boot array: | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mkfs.ext2 -q -L "Bubba boot" /dev/md0 | |||
root@b2:~# tune2fs -c0 -i0 /dev/md0 | |||
root@b2:~# mkdir /mnt/bubba/boot | |||
root@b2:~# mount /dev/md0 /mnt/bubba/boot | |||
</pre> | |||
<ul><li>Format and mount the data array: | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mkfs.ext3 -q -L "Bubba home" /dev/mapper/bubba2-storage | |||
root@b2:~# tune2fs -c0 -i0 /dev/mapper/bubba2-storage | |||
root@b2:~# mkdir /mnt/bubba/home | |||
root@b2:~# mount /dev/mapper/bubba2-storage /mnt/bubba/home | |||
</pre> | |||
<ul><li>Plug in the USB install/rescue key. Assuming it is <tt>/dev/sdc</tt>, mount it and extract the OS : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mkdir /mnt/usb | |||
root@b2:~# mount /dev/sdc1 /mnt/usb | |||
root@b2:~# tar zxf /mnt/usb/install/payload/*.tar.gz -C /mnt/bubba | |||
</pre> | |||
<ul><li>[Optional] : copy your data from home to the new disk : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# cp -a /home /mnt/bubba | |||
</pre> | |||
<h3> Adjusting configuration </h3> | |||
<ul><li>Edit <tt>/mnt/bubba/etc/fstab</tt> with your favorite editor so it contains : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">/dev/md1 / ext3 noatime,defaults 0 1 | |||
/dev/md0 /boot ext2 noatime,defaults 0 2 | |||
/dev/mapper/bubba2-storage /home ext3 defaults 0 2 | |||
/dev/md2 none swap sw 0 0 | |||
usbfs /proc/bus/usb usbfs defaults 0 0 | |||
/proc /proc proc defaults 0 0 | |||
</pre> | |||
<ul><li>Create a soft link in /boot : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">ln -s . /mnt/bubba/boot/boot | |||
</pre> | |||
<h2> Changing u-boot variables </h2> | |||
<ul><li>Install the uboot-envtools package : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# aptitude install uboot-envtools | |||
</pre> | |||
<ul><li>Create the configuration file for the uboot env tools : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# cat > /etc/fw_env.config << EOF | |||
# MTD definition for Bubba|2 | |||
# MTD device name Device offset Env. size Flash sector size | |||
/dev/mtd0 0x050000 0x002000 0x010000 | |||
/dev/mtd0 0x060000 0x002000 0x010000 | |||
EOF | |||
</pre> | |||
<ul><li>Test the uboot configuration ; The command should output something like : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# fw_printenv | |||
baudrate=115200 | |||
loads_echo=1 | |||
...... | |||
</pre> | |||
<p><span style="color:#FF0000"><b>WARNING : </b></span> You must not see the following output : | |||
</p> | |||
<pre class="_fck_mw_lspace">root@b2:~# fw_printenv | |||
Warning: Bad CRC, using default environment | |||
bootcmd=bootp; setenv bootargs root=/dev/nfs nfsroot=${serverip}:${rootpath} ip=${ipaddr}:${serverip}:${gatewayip}:${netmask}:${hostname}::off; bootm | |||
bootdelay=5 | |||
baudrate=115200 | |||
</pre> | |||
<p>If you do go check <tt>/etc/fw_env.config</tt>, with the content above. If it looks OK, then your system is different for a non obvious reason, and you cannot continue before fixing this issue. | |||
</p> | |||
<ul><li>Modify the <tt>diskdev</tt> variable : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# fw_setenv diskdev /dev/md1 | |||
</pre> | |||
<p>If the above command fails, read carefully the error. Do not turn off or reboot your device before being sure that your bootloader will still work (if <tt>/etc/fw_env.config</tt> is correct with the above , there are no reasons that <tt>fw_setenv</tt> would break anything. Worst case scenario the environment will be reset on the next reboot). If in doubt ask on the forum ! | |||
<span style="color:#FF0000"> | </p> | ||
<ul><li>Check that the environment is correct : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# fw_printenv diskdev | |||
diskdev=/dev/md1 | |||
</pre> | |||
<ul><li>If everything looks OK, turn off the bubba : | |||
</li></ul> | |||
If you do go check <tt>/etc/fw_env.config</tt>, with the content above. If it looks OK, then your system is different for a non obvious reason, and you cannot continue before fixing this issue. | <pre class="_fck_mw_lspace">root@b2:~# /usr/lib/web-admin/backend.pl power_off | ||
</pre> | |||
<ul><li>Once the bubba is off, you can turn off the external drive. | |||
</li></ul> | |||
<h2> Swapping disks and first boot </h2> | |||
<ul><li>Open the bubba and the external drive box, and swap the disks. | |||
If the above command fails, read carefully the error. Do not turn off or reboot your device before being sure that your bootloader will still work (if <tt>/etc/fw_env.config</tt> is correct with the above , there are no reasons that <tt>fw_setenv</tt> would break anything. Worst case scenario the environment will be reset on the next reboot). If in doubt ask on the forum ! | </li><li>Turn on the bubba first | ||
</li><li>If everything works, you should be able to configure your bubba as usual after a reinstall | |||
</li></ul> | |||
<p>You'll notice that the LED flashes quickly after the boot : that's because of the degraded RAID arrays. | |||
</p> | |||
<h2> Reconfiguring old system disk </h2> | |||
<ul><li>Turn on the external drive ; we'll assume it to be on <tt>/dev/sdc</tt>. | |||
</li><li>Partition the hard drive: | |||
<ul><li>If the disks models differs : | |||
</li></ul> | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# sfdisk -uM /dev/sdb << EOF | |||
,50,fd | |||
,10240,fd | |||
,1024,fd | |||
,,fd | |||
EOF | |||
</pre> | |||
<ul><li><ul><li>Or, if the models are identical | |||
You'll notice that the LED flashes quickly after the boot : that's because of the degraded RAID arrays. | </li></ul> | ||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# sfdisk -d /dev/sda | sfdisk /dev/sdb | |||
</pre> | |||
<ul><li>Add the newly created partitions to the raid arrays : | |||
</li></ul> | |||
<pre class="_fck_mw_lspace">root@b2:~# mdadm -a /dev/md0 /dev/sdb1 | |||
root@b2:~# mdadm -a /dev/md1 /dev/sdb2 | |||
root@b2:~# mdadm -a /dev/md2 /dev/sdb3 | |||
root@b2:~# mdadm -a /dev/md3 /dev/sdb4 | |||
</pre> | |||
<p>The arrays will begin to sync right away ; you can watch th progress in <tt>/proc/mdstat</tt> : | |||
</p> | |||
<pre class="_fck_mw_lspace">root@b2:~# cat /proc/mdstat | |||
Personalities : [raid0] [raid1] | |||
md1 : active raid1 sdb2[2] sda2[0] | |||
10490368 blocks [2/1] [U_] | |||
[====>................] recovery = 24.0% (2518400/10490368) finish=3.3min speed=40208K/sec | |||
md2 : active raid1 sdb3[2] sda3[0] | |||
1052160 blocks [2/1] [U_] | |||
resync=DELAYED | |||
md3 : active raid1 sdb4[2] sda4[0] | |||
476785024 blocks [2/1] [U_] | |||
resync=DELAYED | |||
The arrays will begin to sync right away ; you can watch th progress in <tt>/proc/mdstat</tt> : | |||
md0 : active raid1 sdb1[1] sda1[0] | |||
56128 blocks [2/2] [UU] | |||
unused devices: <none> | |||
</pre> | |||
<h1> Conclusion and what's left to do </h1> | |||
<p>If you've got that far, you owns a complete RAID-1 protected bubba, which is great (at least that's what I think) ! | |||
</p><p>There are still some work to do : | |||
</p> | |||
<ul><li>Understand why u-boot needs a small ext2 boot partition insteadof the default big root ext3 partition<br /> | |||
</li><li>Make uboot-envtools available from the USB rescue system to allow to restore u-boot environment to classic behavior<br /> | |||
</li></ul> | |||
If you've got that far, you owns a complete RAID-1 protected bubba, which is great (at least that's what I think) ! | |||
There are still some work to do : | |||
Latest revision as of 18:14, 27 June 2013
Introduction
As you may know, Bubba devices support RAID for home storage. However the install procedure does not offer the possibility to have your system partitions (root and swap) on raid. Besides the technical challenge, there are a few good reasons to raidify the system partitions. First it protects your fine-and-many-hours-spent tuned configuration of your device from hard drive failure. And second it gives your bubba a much better fault-tolerant design.
The goal of this how-to is to perform a plain standard software system installation on your bubba. You will have however the possibility to copy the data from your home partition. So with a backup of your settings from the web interface, you should get everything back.
Big red warning
This procedures involves commands changing u-boot variables. U-boot is the bootloader of the bubba device, located on a flash chip of the board. Although everything explained here has been carefully tested (at least by myself), you might mess things up and not be able to boot your bubba without a serial console cable (USB rescue rescue system won't fix it). Don't worry though, you will have plenty of verifications before doing the sensible stuff, and the risk is quite low. Nevertheless, you've been warned !!
In addition, these modifications prevent you from using the usb rescue disk, because your system won't boot after a rescued installed software. The u-boot utils are not available in the rescue system, so you can't restore the modifications you've made to boot the raid array. I am currently working on a workaround, but as of today it doesn't work.
Prerequisites
This how-to has been tested only on Bubba Two. It would probably work on a bubba 3, with a proper configuration of u-boot stuff. If anyone owns a B3 and have validated that part, you're welcome to add it to this page.
This how-to applies to the bubba release 2.4RC1 for the bubba 2. I think it will probably work with future releases too. You will need :
- A working bubba two with 2.4RC1 software
- An install/rescue USB stick with 2.4RC1 software on it
- An external esata hard drive, ideally the same model as your system disk (or at least the same size)
- Screwdrivers to open the bubba and the external disk box (we will need to swap them).
Principles
The procedure is divided in several parts :
- Preparing the new disk to receive the raid volumes, create them and copy the software and data on it.
In this step, from the running bubba system, we will partition the new hard drive with 4 partitions (/boot (50Mo), / (10Go), swap (1Go) and /home with the rest). We need to make a separate and small /boot raid partition because for an unknown reason u-boot refuses to boot on a 10Go root raid partition. Then we will create the four RAID-1 arrays with the newly created partitions ; these arrays will be in a degraded state because we will add the other disk later. We won't change the kernel or the initrd, so the arrays will need to be configured to allow the kernel to detect them directly during its boot sequence.
After creating the LVM volume for the data, we will format the arrays and extract the bubba filesystem from the install USB key on them. All these steps are greatly inspired by the standard install script from excito (apart from the raid part).
Then we will need to adjust /etc/fstab to reflect the disk configuration
- Modifying the boot behavior of the device
The boot modification is quite simple : we just need to change the kernel boot parameter root=/dev/sda1 to root=/dev/md0. It is stored in the u-boot environnment as the diskdev parameter.
- Powering off, physically swapping the disks and reboot
I didn't manage to get u-boot to boot from a differend disk than the one plugged inside the bubba. So we need to place our newly configured disk inside the device. The old disk will go inside the external disk box. After everyhing is closed and plugged, we restart the bubba which should boot on the newly created RAID arrays.
- Reconfiguring the old system disk and add it to the RAID arrays.
The final step is to repartition the old disk and add the partitions to the RAID arrays. The system will then automatically sync the drives, which concludes the setup.
Tasks
All the commands below need to be run in a ssh session as root.
Preparing the new disk
Partitions and raid arrays
- Plug/turn on the external disk. We assume from now that it has been detected as /dev/sdb.
- Create the partitions with the following command :
root@b2:~# sfdisk -uM /dev/sdb << EOF ,50,fd ,10240,fd ,1024,fd ,,fd EOF
- Create the four arrays with the previously created partition :
root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md0 /dev/sdb1 missing mdadm: array /dev/md0 started. root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md1 /dev/sdb2 missing mdadm: array /dev/md1 started. root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md2 /dev/sdb3 missing mdadm: array /dev/md2 started. root@b2:~# mdadm --create --metadata=0.9 --level=1 --raid-devices=2 /dev/md3 /dev/sdb4 missing mdadm: array /dev/md3 started.
- Create the LVM data volume :
root@b2:~# pvcreate /dev/md3 Physical volume "/dev/md3" successfully created root@b2:~# vgcreate bubba2 /dev/md3 Volume group "bubba2" successfully created root@b2:~# lvcreate -l 100%FREE --name storage bubba2 Logical volume "storage" created
Filesystem and data
- Format the swap array :
root@b2:~# mkswap /dev/md2
- Format and mount the system array:
root@b2:~# mkfs.ext3 -q -L "Bubba root" /dev/md1 root@b2:~# tune2fs -c0 -i0 /dev/md1 root@b2:~# mkdir /mnt/bubba root@b2:~# mount /dev/md1 /mnt/bubba
- Format and mount the /boot array:
root@b2:~# mkfs.ext2 -q -L "Bubba boot" /dev/md0 root@b2:~# tune2fs -c0 -i0 /dev/md0 root@b2:~# mkdir /mnt/bubba/boot root@b2:~# mount /dev/md0 /mnt/bubba/boot
- Format and mount the data array:
root@b2:~# mkfs.ext3 -q -L "Bubba home" /dev/mapper/bubba2-storage root@b2:~# tune2fs -c0 -i0 /dev/mapper/bubba2-storage root@b2:~# mkdir /mnt/bubba/home root@b2:~# mount /dev/mapper/bubba2-storage /mnt/bubba/home
- Plug in the USB install/rescue key. Assuming it is /dev/sdc, mount it and extract the OS :
root@b2:~# mkdir /mnt/usb root@b2:~# mount /dev/sdc1 /mnt/usb root@b2:~# tar zxf /mnt/usb/install/payload/*.tar.gz -C /mnt/bubba
- [Optional] : copy your data from home to the new disk :
root@b2:~# cp -a /home /mnt/bubba
Adjusting configuration
- Edit /mnt/bubba/etc/fstab with your favorite editor so it contains :
/dev/md1 / ext3 noatime,defaults 0 1 /dev/md0 /boot ext2 noatime,defaults 0 2 /dev/mapper/bubba2-storage /home ext3 defaults 0 2 /dev/md2 none swap sw 0 0 usbfs /proc/bus/usb usbfs defaults 0 0 /proc /proc proc defaults 0 0
- Create a soft link in /boot :
ln -s . /mnt/bubba/boot/boot
Changing u-boot variables
- Install the uboot-envtools package :
root@b2:~# aptitude install uboot-envtools
- Create the configuration file for the uboot env tools :
root@b2:~# cat > /etc/fw_env.config << EOF # MTD definition for Bubba|2 # MTD device name Device offset Env. size Flash sector size /dev/mtd0 0x050000 0x002000 0x010000 /dev/mtd0 0x060000 0x002000 0x010000 EOF
- Test the uboot configuration ; The command should output something like :
root@b2:~# fw_printenv baudrate=115200 loads_echo=1 ......
WARNING : You must not see the following output :
root@b2:~# fw_printenv Warning: Bad CRC, using default environment bootcmd=bootp; setenv bootargs root=/dev/nfs nfsroot=${serverip}:${rootpath} ip=${ipaddr}:${serverip}:${gatewayip}:${netmask}:${hostname}::off; bootm bootdelay=5 baudrate=115200
If you do go check /etc/fw_env.config, with the content above. If it looks OK, then your system is different for a non obvious reason, and you cannot continue before fixing this issue.
- Modify the diskdev variable :
root@b2:~# fw_setenv diskdev /dev/md1
If the above command fails, read carefully the error. Do not turn off or reboot your device before being sure that your bootloader will still work (if /etc/fw_env.config is correct with the above , there are no reasons that fw_setenv would break anything. Worst case scenario the environment will be reset on the next reboot). If in doubt ask on the forum !
- Check that the environment is correct :
root@b2:~# fw_printenv diskdev diskdev=/dev/md1
- If everything looks OK, turn off the bubba :
root@b2:~# /usr/lib/web-admin/backend.pl power_off
- Once the bubba is off, you can turn off the external drive.
Swapping disks and first boot
- Open the bubba and the external drive box, and swap the disks.
- Turn on the bubba first
- If everything works, you should be able to configure your bubba as usual after a reinstall
You'll notice that the LED flashes quickly after the boot : that's because of the degraded RAID arrays.
Reconfiguring old system disk
- Turn on the external drive ; we'll assume it to be on /dev/sdc.
- Partition the hard drive:
- If the disks models differs :
root@b2:~# sfdisk -uM /dev/sdb << EOF ,50,fd ,10240,fd ,1024,fd ,,fd EOF
- Or, if the models are identical
root@b2:~# sfdisk -d /dev/sda | sfdisk /dev/sdb
- Add the newly created partitions to the raid arrays :
root@b2:~# mdadm -a /dev/md0 /dev/sdb1 root@b2:~# mdadm -a /dev/md1 /dev/sdb2 root@b2:~# mdadm -a /dev/md2 /dev/sdb3 root@b2:~# mdadm -a /dev/md3 /dev/sdb4
The arrays will begin to sync right away ; you can watch th progress in /proc/mdstat :
root@b2:~# cat /proc/mdstat Personalities : [raid0] [raid1] md1 : active raid1 sdb2[2] sda2[0] 10490368 blocks [2/1] [U_] [====>................] recovery = 24.0% (2518400/10490368) finish=3.3min speed=40208K/sec md2 : active raid1 sdb3[2] sda3[0] 1052160 blocks [2/1] [U_] resync=DELAYED md3 : active raid1 sdb4[2] sda4[0] 476785024 blocks [2/1] [U_] resync=DELAYED md0 : active raid1 sdb1[1] sda1[0] 56128 blocks [2/2] [UU] unused devices: <none>
Conclusion and what's left to do
If you've got that far, you owns a complete RAID-1 protected bubba, which is great (at least that's what I think) !
There are still some work to do :
- Understand why u-boot needs a small ext2 boot partition insteadof the default big root ext3 partition
- Make uboot-envtools available from the USB rescue system to allow to restore u-boot environment to classic behavior