Difference between revisions of "ZFS Install Guide"
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== Kernel Configuration == | == Kernel Configuration == | ||
| − | Tested with kernel 3.7.1. | + | Tested with kernel 3.2.34, 3.7.1. |
When you get up to the kernel, make sure that you disable the CFQ scheduler, and turn | When you get up to the kernel, make sure that you disable the CFQ scheduler, and turn | ||
Revision as of 06:52, 29 December 2012
This tutorial will show you how to install Funtoo on ZFS (rootfs).
This tutorial is meant to be an "overlay" over the Regular Funtoo Installation. Follow the normal installation and only use this guide for steps 2, 3, and 8.
Contents |
Setting up your environment
In order for us to install Funtoo on ZFS, you will need an environment that provides the ZFS userspace tools. We will be downloading two things, System Rescue CD 3.1.2, and the zfs srm (System Rescue Module). This is just a file that when combined with System Rescue CD, gives you ZFS functionality.
Download System Rescue CD 3.1.2
Download the ZFS System Rescue Module
Name: SystemRescueCd-x86-3.1.2 (350 MiB) Release Date: 2012-12-05 md5sum 3c1ddfe5f26bb2f979a2ed9dfb504ee3 sha1sum 217cf7a81380d894b2433c59451787c16bc0af2f sha256sum ec0a995875e64ff9816a043737e5cbbb689b7f596b48679116f0a779f3dce673 Name: zfs-3.2.34-std312-amd64.tar.bz2 md5sum 448d3eb40eb0c253962baa423a072103
Once you place the iso on your usb flash drive, extract the modules from the tarball, and place the .srm and .md5 at the root of your usb. Further instructions can be found here.
We will now start to partition the system. Open up a terminal, and type in the following (We will assume it's a fresh drive for simplicity).
Creating partitions
We will be creating two partitions, /boot, and the remaining disk space will be for ZFS.
(All commands will be ran as root).
fdisk (MBR Style)
Create Partition 1 (boot):
Command: n ↵ Partition type: ↵ Partition number: ↵ First sector: ↵ Last sector: +250M ↵
Create Partition 2 (ZFS):
Command: n ↵ Partition type: ↵ Partition number: ↵ First sector: ↵ Last sector: ↵ Command: t ↵ Partition number: 2 ↵ Hex code (type L to list codes): bf ↵ Command: p ↵ Disk /dev/sda: 1000.2 GB, 1000204886016 bytes 255 heads, 63 sectors/track, 121601 cylinders, total 1953525168 sectors Units = sectors of 1 * 512 = 512 bytes Sector size (logical/physical): 512 bytes / 512 bytes I/O size (minimum/optimal): 512 bytes / 512 bytes Disk identifier: 0x3e954df7 Device Boot Start End Blocks Id System /dev/sda1 2048 514047 256000 83 Linux /dev/sda2 514048 1953525167 976505560 bf Solaris
gdisk (GPT Style)
Create Partition 1 (boot):
Command: n ↵ Partition Number: ↵ First sector: ↵ Last sector: +250M ↵ Hex Code: ↵
Create Partition 2 (BIOS Boot Partition):
Command: n ↵ Partition Number: ↵ First sector: ↵ Last sector: +32M ↵ Hex Code: EF02 ↵
Only make the above BIOS Boot Partition if you are using GRUB 2 on GPT. If you are using the extlinux bootloader, this partition is not necessary. The below instructions continue as if you did not create this partition and assumes you are using extlinux as the bootloader.
Create Partition 2 (ZFS):
Command: n ↵ Partition Number: ↵ First sector: ↵ Last sector: ↵ Hex Code: bf01 ↵ Command: p ↵ Disk /dev/sda: 1953525168 sectors, 931.5 GiB Logical sector size: 512 bytes Disk identifier (GUID): C0C1E56A-B24F-492F-95DB-2E227676F228 Partition table holds up to 128 entries First usable sector is 34, last usable sector is 1953525134 Partitions will be aligned on 2048-sector boundaries Total free space is 2014 sectors (1007.0 KiB) Number Start (sector) End (sector) Size Code Name 1 2048 514047 250.0 MiB 8300 Linux filesystem 2 514048 1953525134 931.3 GiB BF01 Solaris /usr & Mac ZFS
Format your boot volume
# mkfs.ext4 /dev/sda1
Create the zpool
We will first create the pool. The pool will be named `rpool` and the disk will be aligned to 4096 (using ashift=12)
# zpool create -f -o ashift=12 -o cachefile= -O compression=on -m none -R /mnt/funtoo rpool /dev/sda2
Create the zfs datasets
We will now create some datasets. For this installation, we will create a small but future proof amount of datasets. We will have a dataset for the OS (/), /home, /var, /usr/portage, /usr/src, and your swap.
# zfs create -o mountpoint=none rpool/ROOT # zfs create -o mountpoint=/ rpool/ROOT/funtoo # zfs create -o mountpoint=none rpool/FUNTOO # zfs create -o mountpoint=/usr/portage rpool/FUNTOO/portage # zfs create -o mountpoint=/usr/src rpool/FUNTOO/src # zfs create -o mountpoint=/var rpool/FUNTOO/var # zfs create -o mountpoint=/home rpool/HOME
Create your swap dataset
Make your swap +1G greater than your RAM. An 8G machine would have 9G of RAM (This is kinda big though).
# zfs create -o sync=always -o primarycache=metadata -o secondarycache=none -V 9G rpool/swap
Format your swap dataset
# mkswap -f /dev/zvol/rpool/swap # swapon /dev/zvol/rpool/swap
Alright that finishes the creation of the zpool and zfs datasets.
Check to make sure everything appears fine:
# zpool status # zfs list
Copy the zpool.cache file to your new environment.
# mkdir -p /mnt/funtoo/etc/zfs # cp /etc/zfs/zpool.cache /mnt/funtoo/etc/zfs
Make an empty mtab file
# touch /mnt/funtoo/etc/mtab
Now we will continue to install funtoo.
Installing Funtoo
Make a directory for your boot partition and mount it
# mkdir /mnt/funtoo/boot # mount /dev/sda1 /mnt/funtoo/boot
Everything is currently mounted in /mnt/funtoo. So download and install the funtoo stage3 and continue installation as normal.
Then chroot into your new funtoo environment:
# cd /mnt/funtoo # mount --bind /proc ./proc # mount --bind /dev ./dev # mount --bind /sys ./sys # env -i HOME=/root TERM=$TERM chroot . bash -l
and finally sync your portage tree
# emerge --sync
Kernel Configuration
Tested with kernel 3.2.34, 3.7.1.
When you get up to the kernel, make sure that you disable the CFQ scheduler, and turn on No-op (It's the default one once you disable all schedulers). The reason for this is because ZFS has its own scheduler and the CFQ one conflicts with it.
Go to your kernel config, and make sure you have the following: (there should be a /usr/src/linux symlink as well)
ZLIB_INFLATE/DEFLATE must be compiled into the kernel (not as a module). > ZLIB_INFLATE [=y], ZLIB_DEFLATE [=y] General setup ---> > [*] Initial RAM filesystem and RAM disk (initramfs/initrd) support > () Initramfs source file(s) [*] Enable loadable module support ---> [*] Module unloading Enable the block layer ---> IO Schedulers ---> < > Deadline I/O scheduler < > CFQ I/O scheduler Default I/O scheduler (No-op) Device Drivers ---> > Generic Driver Options ---> >> [*] Maintain a devtmpfs filesystem to mount at /dev >> [*] Automount devtmpfs at /dev, after the kernel mounted the rootfs * All other drivers required to see your PATA/SATA drives must be compiled in.
Continue and compile/install your kernel:
# make bzImage modules # make install # make modules_install
Installing the ZFS userspace tools
# emerge -av =sys-kernel/spl =sys-fs/zfs =sys-fs/zfs-kmod
Check to make sure that the zfs tools are working, the zpool.cache file that you copied before should be displayed.
# zpool status # zfs list
If everything worked, continue.
Create the initramfs
There are two ways to do this, you can use genkernel, or you can use my zfs initramfs creator. I will show you both.
Bliss Initramfs Creator
Make sure that you have cpio installed (Funtoo has this by default) Make sure you compile sys-apps/busybox with the static flag.
# echo "sys-apps/busybox static" >> /etc/portage/package.use # emerge -av sys-apps/busybox
Clone my creator which is located at: git://github.com/fearedbliss/Bliss-Initramfs-Creator.github
# git clone git://github.com/fearedbliss/Bliss-Initramfs-Creator.git
Then go into this new directory, run the script as root, and place it into /boot
# cd Bliss-Initramfs-Creator # ./createInit # mv initrd-zfs.img /boot
Once you do this just go to your bootloader config, and add it in there.
Example: kernel name is: vmlinuz-3.7.1-ALL initramfs name is: initrd-zfs.img pool name is: rpool
extlinux.conf:
LABEL funtoo MENU LABEL Funtoo 3.7.1-ALL KERNEL /boot/vmlinuz-3.7.1-ALL INITRD /boot/initrd-zfs.img APPEND pool_name=rpool
genkernel
# emerge -av sys-kernel/genkernel # genkernel --zfs initramfs
Example: kernel name is: vmlinuz-3.7.1-ALL initramfs name is: initramfs-genkernel-x86_64-3.7.1-ALL pool name is: rpool
extlinux.conf:
LABEL funtoo MENU LABEL Funtoo 3.7.1-ALL KERNEL /boot/vmlinuz-3.7.1-ALL INITRD /boot/initramfs-genkernel-x86_64-3.7.1-ALL APPEND real_root=ZFS=rpool/ROOT/funtoo dozfs=force
Final configuration
Add the zfs tools to openrc
# rc-update add zfs boot
Add filesystems to /etc/fstab
# nano /etc/fstab
# <fs> <mountpoint> <type> <opts> <dump/pass>
/dev/sda1 /boot ext4 defaults 1 2
/dev/zvol/rpool/swap none swap sw 0 0
That should be enough to get your system to boot on ZFS.
Extra: After reboot
After you restart your machine and your inside your desktop, continue to set up anything you need in terms of /etc configurations. Once you have everything the way you like it, take a snapshot of your system. You will be using this snapshot to revert back to this state if anything ever happens to your system down the road. The snapshots are cheap, and almost instant. To take the snapshot of your rootfs, type the following:
# zfs snapshot rpool/ROOT/funtoo@install
To see if your snapshot was taken, type:
# zfs list -t snapshot
If your machine ever fails and you need to get back to this state, just type:
# zfs rollback rpool/ROOT/funtoo@install
Enjoy your new install on ZFS :)
