Add Ubuntu 16.10 (Yakkety) HOWTO

This is just a copy of the 16.04 instructions, with the relevant
updates made.
Richard Laager 2016-05-25 18:34:30 -05:00
parent dd4c68f61c
commit 2e97301abd
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Ubuntu-16.10-Root-on-ZFS.md Normal file

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### For Development Only
**Yakkety is still under development. Do not use this for production installations yet.** Use [[Ubuntu 16.04 Root on ZFS]] instead.
### Caution
* This HOWTO uses a whole physical disk.
* Do not use these instructions for dual-booting.
* Backup your data. Any existing data will be lost.
### System Requirements
* [64-bit Ubuntu 16.10 Yakkety Live CD](http://cdimage.ubuntu.com/daily-live/current/yakkety-desktop-amd64.iso) (*not* the alternate installer)
* 64-bit computer (amd64, a.k.a. x86_64) computer
* A drive which presents 512B logical sectors. Installing on a drive which presents 4KiB logical sectors (a "4Kn" drive) should work with UEFI partitioning, but this has not been tested.
Computers that have less than 2 GiB of memory run ZFS slowly. 4 GiB of memory is recommended for normal performance in basic workloads. If you wish to use deduplication, you will need [massive amounts of RAM](http://wiki.freebsd.org/ZFSTuningGuide#Deduplication). Enabling deduplication is a permanent change that cannot be easily reverted.
## Step 1: Prepare The Install Environment
1.1 Boot the Ubuntu Live CD, select Try Linux, and open a terminal (press Ctrl-Alt-T).
1.2 Optional: Install the OpenSSH server in the Live CD environment:
If you have a second system, using SSH to access the target system can be convenient and allows copy-and-paste.
$ sudo apt-get --yes install openssh-server
Set a password on the “ubuntu” (Live CD user) account:
$ passwd
**Hint:** You can find your IP address with `ip addr show scope global`. Then, from your main machine, connect with: `ssh ubuntu@IP`
1.3 Become root:
# sudo -i
1.4 Install ZFS in the Live CD environment:
# apt-add-repository universe
# apt-get update
# apt-get install --yes debootstrap gdisk zfs-initramfs
## Step 2: Disk Formatting
2.1 If you are re-using any disks which were previously in an MD array, zero the MD superblock now to avoid corruption if MD were to try to assemble the old array.
# mdadm --zero-superblock --force /dev/disk/by-id/scsi-SATA_disk1
2.2 Partition your disk:
Run this if you need legacy (BIOS) booting:
# sgdisk -a1 -n2:34:2047 -t2:EF02 /dev/disk/by-id/scsi-SATA_disk1
Run this for UEFI booting (for use now or in the future):
# sgdisk -n3:1M:+512M -t3:EF00 /dev/disk/by-id/scsi-SATA_disk1
Run these in all cases:
# sgdisk -n9:-8M:0 -t9:BF07 /dev/disk/by-id/scsi-SATA_disk1
# sgdisk -n1:0:0 -t1:BF01 /dev/disk/by-id/scsi-SATA_disk1
Always use the long `/dev/disk/by-id/*` aliases with ZFS. Using the `/dev/sd*` device nodes directly can cause sporadic import failures, especially on systems that have more than one storage pool.
**Hints:**
* `# ls -la /dev/disk/by-id` will list the aliases.
* Are you doing this in a virtual machine? If your virtual disk is missing from `/dev/disk/by-id`, use /dev/vda if you are using KVM with virtio; otherwise, read the [troubleshooting](https://github.com/rlaager/zfs/wiki/HOWTO-Install-Ubuntu-to-a-Native-ZFS-Root-Filesystem#troubleshooting) section.
2.3 Create the root pool on the ZFS partition:
# zpool create -o ashift=12 \
-O atime=off -O canmount=off -O compression=lz4 -O normalization=formD \
-O mountpoint=/ -R /mnt rpool /dev/disk/by-id/scsi-SATA_disk1-part1
The use of ashift=12 is recommended here because many drives today have 4KiB (or larger) physical sectors, even though they present 512B logical sectors. Also, a future replacement drive may have 4KiB physical sectors (in which case ashift=12 is desirable) or 4KiB logical sectors (in which case ashift=12 is required).
Setting `normalization=formD` eliminates some corner cases relating to UTF-8 filename normalization. It also implies `utf8only=on`, which means that only UTF-8 filenames are allowed. If you care to support non-UTF-8 filenames, do not use this option. For a discussion of why requiring UTF-8 filenames may be a bad idea, see [The problems with enforced UTF-8 only filenames](http://utcc.utoronto.ca/~cks/space/blog/linux/ForcedUTF8Filenames).
**Hints:**
* The root pool does not have to be a single disk; it can have a mirror or raidz topology. In that case, repeat the partitioning commands for all the disks which will be part of the pool. Then, create the pool using `zpool create ... rpool mirror /dev/disk/by-id/scsi-SATA_disk1-part1 /dev/disk/by-id/scsi-SATA_disk2-part1` (or replace `mirror` with `raidz`, `raidz2`, or `raidz3` and list the partitions from additional disks). Later, install GRUB to all the disks. This is trivial for MBR booting; the UEFI equivalent is currently left as an exercise for the reader.
* The pool name is arbitrary. On systems that can automatically install to ZFS, the root pool is named `rpool` by default. If you work with multiple systems, it might be wise to use something like `hostname`, `hostname0`, or `hostname-1` instead.
## Step 3: System Installation
3.1 Create a filesystem dataset to act as a container:
# zfs create -o canmount=off -o mountpoint=none rpool/ROOT
On Solaris systems, the root filesystem is cloned and the suffix is incremented for major system changes through `pkg image-update` or `beadm`. Similar functionality for APT is possible but currently unimplemented. Even without such a tool, it can still be used for manually created clones.
3.2 Create a filesystem dataset for the root filesystem of the Ubuntu system:
# zfs create -o canmount=noauto -o mountpoint=/ rpool/ROOT/ubuntu
# zfs mount rpool/ROOT/ubuntu
With ZFS, it is not normally necessary to use a mount command (either `mount` or `zfs mount`). This situation is an exception because of `canmount=noauto`.
3.3 Create datasets:
# zfs create -o setuid=off rpool/home
# zfs create -o mountpoint=/root rpool/home/root
# zfs create -o canmount=off -o setuid=off -o exec=off rpool/var
# zfs create -o com.sun:auto-snapshot=false rpool/var/cache
# zfs create rpool/var/log
# zfs create rpool/var/spool
# zfs create -o com.sun:auto-snapshot=false -o exec=on rpool/var/tmp
If you use /srv on this system:
# zfs create rpool/srv
If this system will have games installed:
# zfs create rpool/var/games
If this system will store local email in /var/mail:
# zfs create rpool/var/mail
If this system will use NFS (locking):
# zfs create -o com.sun:auto-snapshot=false \
-o mountpoint=/var/lib/nfs rpool/var/nfs
The primary goal of this dataset layout is to separate the OS (at `rpool/ROOT/ubuntu`) from user data. This allows the root filesystem to be rolled back without rolling back user data like logs (in `/var/log`). This will be especially important if/when a `beadm` or similar utility is integrated. Since we are creating multiple datasets anyway, it is trivial to add some restrictions (for extra security) at the same time. The `com.sun.auto-snapshot` setting is used by some ZFS snapshot utilities to exclude transient data.
3.4 Install the minimal system:
# chmod 1777 /mnt/var/tmp
# debootstrap yakkety /mnt
# zfs set devices=off rpool
The `debootstrap` command leaves the new system in an unconfigured state. An alternative to using `debootstrap` is to copy the entirety of a working Ubuntu system into the new ZFS root.
## Step 4: System Configuration
4.1 Configure the hostname (change `HOSTNAME` to the desired hostname).
# echo HOSTNAME > /mnt/etc/hostname
# vi /mnt/etc/hosts
Add a line like this:
127.0.1.1 HOSTNAME
or if the system has a real name in DNS:
127.0.1.1 FQDN HOSTNAME
**Hint:** Use `nano` if you find `vi` confusing.
4.2 Edit the `/mnt/etc/network/interfaces.d/eth0` file so that it contains something like this:
auto eth0
iface eth0 inet dhcp
Customize this file if the interface is not named eth0 or if new system is not a DHCP client on the LAN.
4.3 Bind the virtual filesystems from the LiveCD environment to the new system and `chroot` into it:
# mount --rbind /dev /mnt/dev
# mount --rbind /proc /mnt/proc
# mount --rbind /sys /mnt/sys
# chroot /mnt /bin/bash --login
**Note:** This is using `--rbind`, not `--bind`.
4.4 Configure a basic system environment:
# locale-gen en_US.UTF-8
Even if you prefer a non-English system language, always ensure that `en_US.UTF-8` is available.
# echo 'LANG="en_US.UTF-8"' > /etc/default/locale
# dpkg-reconfigure tzdata
# vi /etc/apt/sources.list
deb http://archive.ubuntu.com/ubuntu yakkety main universe
deb-src http://archive.ubuntu.com/ubuntu yakkety main universe
deb http://security.ubuntu.com/ubuntu yakkety-security main universe
deb-src http://security.ubuntu.com/ubuntu yakkety-security main universe
deb http://archive.ubuntu.com/ubuntu yakkety-updates main universe
deb-src http://archive.ubuntu.com/ubuntu yakkety-updates main universe
# ln -s /proc/mounts /etc/mtab
# apt-get update
# apt-get install --yes ubuntu-minimal
4.5 Install ZFS in the chroot environment for the new system:
# apt-get install --yes --no-install-recommends linux-image-generic
# apt-get install --yes zfs-initramfs
4.6 Install GRUB
Choose one of the following options:
4.6a Install GRUB for legacy (MBR) booting
# apt-get install --yes grub-pc
4.6b Install GRUB for UEFI booting
# apt-get install dosfstools
# mkdosfs -F 32 -n EFI /dev/disk/by-id/scsi-SATA_disk1-part3
# mkdir /boot/efi
# echo PARTUUID=$(blkid -s PARTUUID -o value \
/dev/disk/by-id/scsi-SATA_disk1-part3) \
/boot/efi vfat defaults 0 1 >> /etc/fstab
# mount /boot/efi
# modprobe efivars
# apt-get install --yes grub-efi-amd64
4.7 Setup system groups:
# addgroup --system lpadmin
# addgroup --system sambashare
4.8 Set a root password
# passwd
## Step 5: GRUB Installation
For extra verification, manually install GRUB again to be certain that the system is bootable.
5.1 Verify that the ZFS root filesystem is recognized:
# grub-probe /
zfs
5.2 Verify that the ZFS module is installed:
# ls /boot/grub/*/zfs.mod
5.3 Refresh the initrd files:
# update-initramfs -c -k all
update-initramfs: Generating /boot/initrd.img-4.4.0-21-generic
5.4 Optional (but highly recommended): Make debugging GRUB easier:
# vi /etc/default/grub
Comment out GRUB_HIDDEN_TIMEOUT=0
Remove quiet and splash from GRUB_CMDLINE_LINUX_DEFAULT
Uncomment GRUB_TERMINAL=console
Save and quit.
Later, once the system has rebooted twice and you are sure everything is working, you can undo these changes, if desired.
5.5 Update the boot configuration:
# update-grub
Generating grub configuration file ...
Found linux image: /boot/vmlinuz-4.4.0-21-generic
Found initrd image: /boot/initrd.img-4.4.0-21-generic
done
5.6 Install the boot loader
5.6a For legacy (MBR) booting, install GRUB to the MBR like this:
# grub-install /dev/disk/by-id/scsi-SATA_disk1
Installing for i386-pc platform.
Installation finished. No error reported.
Do not reboot the computer until you get exactly that result message. Note that you are installing GRUB to the whole disk, not a partition.
If you are creating a mirror, repeat the grub-install command for each disk in the pool.
5.6b For UEFI booting, install GRUB like this:
# grub-install --target=x86_64-efi --efi-directory=/boot/efi \
--bootloader-id=ubuntu --recheck --no-floppy
## Step 6: First Boot
6.1 Snapshot the initial installation:
# zfs snapshot rpool/ROOT/ubuntu@install
In the future, you will likely want to take snapshots before each upgrade, and remove old snapshots (including this one) at some point to save space.
6.2 Exit from the `chroot` environment back to the LiveCD environment:
# exit
6.3 Run these commands in the LiveCD environment to unmount all filesystems:
# mount | grep -v zfs | tac | awk '/\/mnt/ {print $3}' | xargs -i{} umount -lf {}
# zpool export rpool
6.4 Reboot:
# reboot
6.5 Wait for the newly installed system to boot normally. Login as root.
6.6 Add a user account on the new system:
Choose one of the following options:
6.6a Create an unencrypted (regular) home directory:
# zfs create rpool/home/YOURUSERNAME
# adduser YOURUSERNAME
# cp -a /etc/skel/.[!.]* /home/YOURUSERNAME
# chown -R YOURUSERNAME:YOURUSERNAME /home/YOURUSERNAME
6.6b Create an encrypted home directory:
# apt-get install ecryptfs-utils
# zfs create -o compression=off -o mountpoint=/home/.ecryptfs/YOURUSERNAME \
rpool/home/temp-YOURUSERNAME
# adduser --encrypt-home YOURUSERNAME
# zfs rename rpool/home/temp-YOURUSERNAME rpool/home/YOURUSERNAME
The temporary name for the dataset is required to work-around [a bug in ecryptfs-setup-private](https://bugs.launchpad.net/ubuntu/+source/ecryptfs-utils/+bug/1574174). Otherwise, it will fail with an error saying the home directory is already mounted; that check is not specific enough in the pattern it uses.
**Note:** Automatically mounted snapshots (i.e. the `.zfs/snapshots` directory) will not work through ecryptfs. You can do another ecryptfs mount manually if you need to access files in a snapshot. A script to automate the mounting should be possible, but has not yet been implemented.
6.7 Add your user account to the default set of groups for an administrator:
# usermod -a -G adm,cdrom,dip,lpadmin,plugdev,sambashare,sudo YOURUSERNAME
## Step 7: Configure Swap
7.1 Create a volume dataset (zvol) for use as a swap device:
# zfs create -V 4G -b $(getconf PAGESIZE) -o compression=zle \
-o logbias=throughput -o sync=always \
-o primarycache=metadata -o secondarycache=none \
-o com.sun:auto-snapshot=false rpool/swap
You can adjust the size (the `4G` part) to your needs.
The compression algorithm is set to `zle` because it is the cheapest available algorithm. As this guide recommends `ashift=12` (4 kiB blocks on disk), the common case of a 4 kiB page size means that no compression algorithm can reduce I/O. The exception is all-zero pages, which are dropped by ZFS; but some form of compression has to be enabled to get this behavior.
7.2 Configure the swap device:
Choose one of the following options. If you are going to do an encrypted home directory later, you should use encrypted swap.
7.2a Create an unencrypted (regular) swap device:
**Caution**: Always use long `/dev/zvol` aliases in configuration files. Never use a short `/dev/zdX` device name.
# mkswap -f /dev/zvol/rpool/swap
# echo /dev/zvol/rpool/swap none swap defaults 0 0 >> /etc/fstab
7.2b Create an encrypted swap device:
# echo cryptswap1 /dev/zvol/rpool/swap /dev/urandom \
swap,cipher=aes-xts-plain64:sha256,size=512 >> /etc/crypttab
# systemctl daemon-reload
# systemctl start systemd-cryptsetup@cryptswap1.service
# echo /dev/mapper/cryptswap1 none swap defaults 0 0 >> /etc/fstab
7.3 Enable the swap device:
# swapon -av
## Step 8: Full Software Installation
8.1 Upgrade the minimal system:
# apt-get dist-upgrade --yes
8.2 Install a regular set of software:
Choose one of the following options:
8.2a Install a command-line environment only:
# apt-get install --yes ubuntu-standard
8.2b Install a full GUI environment:
# apt-get install --yes ubuntu-desktop
**Hint**: If you are installing a full GUI environment, you will likely want to manage your network with NetworkManager. In that case, `rm /etc/network/interfaces.d/eth0`.
8.3 Optional: Disable log compression:
As `/var/log` is already compressed by ZFS, logrotates compression is going to burn CPU and disk I/O for (in most cases) very little gain. Also, if you are making snapshots of `/var/log`, logrotates compression will actually waste space, as the uncompressed data will live on in the snapshot. You can edit the files in `/etc/logrotate.d` by hand to comment out `compress`, or use this loop (copy-and-paste highly recommended):
# for file in /etc/logrotate.d/* ; do
if grep -Eq "(^|[^#y])compress" "$file" ; then
sed -i -r "s/(^|[^#y])(compress)/\1#\2/" "$file"
fi
done
8.4 Reboot:
# reboot
### Step 9: Final Cleanup
9.1 Wait for the system to boot normally. Login using the account you created. Ensure the system (including networking) works normally.
9.2 Optional: Delete the snapshot of the initial installation:
$ sudo zfs destroy rpool/ROOT/ubuntu@install
9.3 Optional: Disable the root password
$ sudo usermod -p '*' root
9.4 Optional (not recommended):
If you really like the graphical boot process, you can re-enable it now. It will make debugging boot problems more difficult, though.
$ sudo vi /etc/default/grub
Uncomment GRUB_HIDDEN_TIMEOUT=0
Add quiet and splash to GRUB_CMDLINE_LINUX_DEFAULT
Comment out GRUB_TERMINAL=console
Save and quit.
$ sudo update-grub
## Troubleshooting
### MPT2SAS
Most problem reports for this tutorial involve `mpt2sas` hardware that does slow asynchronous drive initialization, like some IBM M1015 or OEM-branded cards that have been flashed to the reference LSI firmware.
The basic problem is that disks on these controllers are not visible to the Linux kernel until after the regular system is started, and ZoL does not hotplug pool members. See https://github.com/zfsonlinux/zfs/issues/330.
Most LSI cards are perfectly compatible with ZoL, but there is no known fix if your card has this glitch. Please use different equipment until the `mpt2sas` incompatibility is diagnosed and fixed, or donate an affected part if you want solution sooner.
### Areca
Systems that require the `arcsas` blob driver should add it to the `/etc/initramfs-tools/modules` file and run `update-initramfs -c -k all`.
Upgrade or downgrade the Areca driver if something like `RIP: 0010:[<ffffffff8101b316>] [<ffffffff8101b316>] native_read_tsc+0x6/0x20` appears anywhere in kernel log. ZoL is unstable on systems that emit this error message.
### VMware
* Set `disk.EnableUUID = "TRUE"` in the vmx file or vsphere configuration. Doing this ensures that `/dev/disk` aliases are created in the guest.
### QEMU/KVM/XEN
* In the `/etc/default/grub` file, enable the `GRUB_TERMINAL=console` line and remove the `splash` option from the `GRUB_CMDLINE_LINUX_DEFAULT` line. Plymouth can cause boot errors in these virtual environments that are difficult to diagnose.
* Set a unique serial number on each virtual disk (e.g.: `-drive if=none,id=disk1,file=disk1.qcow2,serial=1234567890`).

@ -4,9 +4,10 @@ For Ubuntu 12.04 and 14.04, ZFS packages are provided by the [official zfs-nativ
If you want to use ZFS as your root filesystem, see these instructions:
* [[Ubuntu 16.04 Root on ZFS]]
* [[Ubuntu 16.10 Root on ZFS]] (development only; not for production use yet)
For troubleshooting root-on-ZFS installations on 12.04 and 14.04:
* [[Ubuntu ZFS mountall FAQ and troubleshooting]]
[ubuntu-wiki]: https://wiki.ubuntu.com/Kernel/Reference/ZFS
[ubuntu-ppa]: https://launchpad.net/~zfs-native/+archive/ubuntu/stable
[ubuntu-ppa]: https://launchpad.net/~zfs-native/+archive/ubuntu/stable