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| =Introduction=
| | <!--PVE_IMPORT_START_MARKER--> |
| ZFS is a combined file system and logical volume manager designed by Sun Microsystems. Starting with Proxmox VE 3.4, the native Linux kernel port of the ZFS filesystem is introduced as optional file-system and also as an additional selection for the root file-system (by using Proxmox VE ISO installer proxmox-ve_3.3-0317e201-17-rc1.iso or higher). There is no need for manually compiling ZFS, all packages are included (for both kernel branches, 2.6.32 and 3.10).
| | <!-- Do not edit - this is autogenerated content --> |
| | | {{#pvedocs:pve-storage-zfspool-plain.html}} |
| By using ZFS, its possible to achieve maximal enterprise features with low budget hardware but also high performance systems by leveraging SSD caching or even SSD only setups. ZFS can replace cost intense hardware raid cards by moderate CPU and memory load combined with easy management.
| | [[Category:Reference Documentation]] |
|
| | <pvehide> |
| In the first release, there are two ways to use ZFS on Proxmox VE:
| | Storage pool type: zfspool |
| *as an local directory, supports all storage content types (instead of ext3 or ext4)
| | This backend allows you to access local ZFS pools (or ZFS file systems |
| *as zvol block-storage, currently supporting kvm images in raw format (new ZFS storage plugin)
| | inside such pools). |
| **The advantage of zvol is the snapshot capability on fs-level (fast)
| | Configuration |
| | | The backend supports the common storage properties content, nodes, |
| This articles describes how to use ZFS on Proxmox VE.
| | disable, and the following ZFS specific properties: |
| | | pool |
| ==General ZFS advantages==
| | Select the ZFS pool/filesystem. All allocations are done within that |
| *Easy configuration and management with Proxmox VE GUI and CLI.
| | pool. |
| *Reliable
| | blocksize |
| *Protection against data corruption
| | Set ZFS blocksize parameter. |
| *Data compression on file-system level
| | sparse |
| *Snapshots
| | Use ZFS thin-provisioning. A sparse volume is a volume whose |
| *Copy-on-write clone
| | reservation is not equal to the volume size. |
| *Various raid levels: RAID0, RAID1, RAID10, RAIDZ-1, RAIDZ-2 and RAIDZ-3
| | mountpoint |
| *Can use SSD for cache
| | The mount point of the ZFS pool/filesystem. Changing this does not |
| *Self healing
| | affect the mountpoint property of the dataset seen by zfs. |
| *Continuous integrity checking
| | Defaults to /<pool>. |
| *Designed for high storage capacities
| | Configuration Example (/etc/pve/storage.cfg) |
| *Protection against data corruption
| | zfspool: vmdata |
| *Asynchrony replication over network
| | pool tank/vmdata |
| *Open Source
| | content rootdir,images |
| *Encryption
| | sparse |
| *...
| | File naming conventions |
| | | The backend uses the following naming scheme for VM images: |
| =Hardware=
| | vm-<VMID>-<NAME> // normal VM images |
| ZFS depends heavily on memory, so you need at least 4GB to start. In practice, use as much you can get for your hardware/budget. To prevent data corruption, the use of high quality ECC RAM is very recommended.
| | base-<VMID>-<NAME> // template VM image (read-only) |
| | | subvol-<VMID>-<NAME> // subvolumes (ZFS filesystem for containers) |
| If you use a dedicated cache and/or log disk, you should use a enterprise class SSD (e.g. Intel SSD DC S3700 Series). This can increase the overall performance quite significantly.
| | <VMID> |
| | | This specifies the owner VM. |
| =Installation as root file-system=
| | <NAME> |
| [[Image:Screen-ISO-Install-ZFS.png|thumb]] | | This can be an arbitrary name (ascii) without white space. The |
| When you install with Proxmox-VE installer grater than 3.4. you can choose what FS you prefer.
| | backend uses disk[N] as default, where [N] is replaced by an |
| | | integer to make the name unique. |
| =Administration=
| | Storage Features |
| ==Create a ZPool==
| | ZFS is probably the most advanced storage type regarding snapshot and |
| To create a zfspool, at least one disk is needed. The ashift should have the same sector-size (2 power of ashift) or larger as the underlying disk.
| | cloning. The backend uses ZFS datasets for both VM images (format |
| zpool create -f -o ashift=12 <pool-name> <device>
| | raw) and container data (format subvol). ZFS properties are |
| To activate the compression
| | inherited from the parent dataset, so you can simply set defaults |
| zfs set compression=lz4 <pool-name>
| | on the parent dataset. |
| | | Table 1. Storage features for backend zfs |
| ====RAID-0====
| | Content types |
| Minimum 1 Disk
| | Image formats |
| zpool create -f -o ashift=12 <pool-name> <device1> <device2>
| | Shared |
| ====RAID-1====
| | Snapshots |
| Minimum 2 Disks
| | Clones |
| zpool create -f -o ashift=12 <pool-name> mirror <device1> <device2>
| | images rootdir |
| ====RAID-10====
| | raw subvol |
| Minimum 4 Disks
| | no |
| zpool create -f -o ashift=12 <pool-name> mirror <device1> <device2> mirror <device3> <device4>
| | yes |
| ====RAIDZ-1====
| | yes |
| Minimum 3 Disks
| | Examples |
| zpool create -f -o ashift=12 <pool-name> raidz1 <device1> <device2> <device3>
| | It is recommended to create an extra ZFS file system to store your VM images: |
| ====RAIDZ-2====
| | # zfs create tank/vmdata |
| Minimum 4 Disks
| | To enable compression on that newly allocated file system: |
| zpool create -f -o ashift=12 <pool-name> raidz2 <device1> <device2> <device3> <device4>
| | # zfs set compression=on tank/vmdata |
| ====Cache (L2ARC)====
| | You can get a list of available ZFS filesystems with: |
| It is possible to use a dedicated cache drive partition to increase the performance (use SSD).
| | # pvesm zfsscan |
| zpool create -f -o ashift=12 <pool-name> <device> cache <cache_device>
| | See Also |
| ====Log (ZIL)====
| | Storage |
| It is possible to use a dedicated cache drive partition to increase the performance(SSD).
| | ZFS on Linux |
| zpool create -f -o ashift=12 <pool-name> <device> log <log_device>
| | </pvehide> |
| ====Cache and Log on one Disk====
| | <!--PVE_IMPORT_END_MARKER--> |
| It is possible to create ZIL and L2ARC on one SSD. First partition the SSD in 2 partition with parted or gdisk (important: use GPT partition table).
| |
| | |
| '''Important: identify device with /dev/disk/by-id/scsi-*<device>'''
| |
| zpool create -f -o ashift=12 <pool-name> <device> cache <device1.part1> log <device1.part2>
| |
| | |
| ==Changing a failed Device==
| |
| zpool replace -f <pool-name> <old device> <new-device>
| |
| ==Using ZFS Storage Plugin via Proxmox VE GUI==
| |
| If the zpool is created, you can use it on Proxmox VE GUI and CLI.
| |
| ===Adding a ZFS storage via GUI===
| |
| [[Image:Screen-Add-ZFS1.png|thumb]] [[Image:Screen-Add-ZFS2.png|thumb]]
| |
| Go to Datacenter/Storage and use the ZFSStorage plugin to add your zpool (select ZFS).
| |
| | |
| *ID is for identification of the Storage
| |
| *the checkbox ZFS Pool shows all existing pools (use CLI to create more)
| |
| *Thin provisioning: allocate not all space immediately by creating virtual disks
| |
| | |
| ===Adding a ZFS storage via CLI===
| |
| To create it by CLI use
| |
| pvesm add <storage-name> -type zfspool -pool <pool-name>
| |
| | |
| ==Limit ZFS memory usage==
| |
| It is good to use max 50-70 percent of the system memory for ZFS arc to prevent performance shortage of the host. ZFS uses all available memory, including swap.
| |
| | |
| Use your preferred editor to change the config in /etc/modprobe.d/zfs.conf and insert:
| |
| options zfs zfs_arc_max=4299967296
| |
| This example setting limits the usage to 4GB.
| |
| | |
| =Misc=
| |
| ==QEMU tuning==
| |
| see thread on proxmox forum, per user Nemesiz:
| |
| *pool:
| |
| zfs set primarycache=all tank
| |
| *kvm config:
| |
| * change cache to Write Back
| |
| :You can do it using web GUI or manually. Example:
| |
| ide0: data_zfs:100/vm-100-disk-1.raw,cache=writeback
| |
| if not set this happened:
| |
| <pre>
| |
| qm start 4016
| |
| kvm: -drive file=/data/pve-storage/images/4016/vm-4016-disk-1.raw,if=none,id=drive-virtio1,aio=native,cache=none: could not open disk image /data/pve-storage/images/4016/vm-4016-disk-1.raw: Invalid argument
| |
| </pre>
| |
| | |
| ==Example configurations for running Proxmox VE with ZFS==
| |
| ===Install on a high performance system===
| |
| As of 2013 and later, high performance servers have 16-64 cores, 256GB-1TB RAM and potentially many 2.5" disks and/or a PCIe based SSD with half a million IOPS. High performance systems benefit from a number of custom settings, for example enabling compression typically improves performance.
| |
| | |
| * If you have a good number of disks keep organized by using aliases. Edit /etc/zfs/vdev_id.conf to prepare aliases for disk devices found in /dev/disk/by-id/ :
| |
| # run 'udevadm trigger' after updating this file
| |
| alias a0 scsi-36848f690e856b10018cdf39854055206
| |
| alias b0 scsi-36848f690e856b10018cdf3ce573fdeb6
| |
| alias a1 scsi-36848f690e856b10018cdf40f5b277cbc
| |
| alias b1 scsi-36848f690e856b10018cdf43a5db1b99b
| |
| alias a2 scsi-36848f690e856b10018cdf4575f652ad0
| |
| alias b2 scsi-36848f690e856b10018cdf47761587cec
| |
| | |
| Use flash for caching/logs. If you have only one SSD, use parted of gdisk to create a small partition for the ZIL (ZFS intent log) and a larger one for the L2ARC (ZFS read cache on disk). Make sure that the ZIL is on the first partition. In our case we have a Express Flash PCIe SSD with 175GB capacity and setup a ZIL with 25GB and a L2ARC cache partition of 150GB.
| |
| *edit /etc/modprobe.d/zfs.conf to apply several tuning options for high performance servers:
| |
| | |
| # ZFS tuning for a proxmox machine that reserves 64GB for ZFS
| |
| #
| |
| # Don't let ZFS use less than 4GB and more than 64GB
| |
| options zfs zfs_arc_min=4294967296
| |
| options zfs zfs_arc_max=68719476736
| |
| #
| |
| # disabling prefetch is no longer required
| |
| options zfs l2arc_noprefetch=0
| |
| | |
| *create a zpool of striped mirrors (equivalent to RAID10) with log device and cache and always enable compression:
| |
| | |
| zpool create -o compression=on -f tank mirror a0 b0 mirror a1 b1 mirror a2 b2 log /dev/rssda1 cache /dev/rssda2
| |
| | |
| *check the status of the newly created pool:
| |
| | |
| <pre>
| |
| root@proxmox:/# zpool status
| |
| pool: tank
| |
| state: ONLINE
| |
| scan: none requested
| |
| config:
| |
| | |
| NAME STATE READ WRITE CKSUM
| |
| tank ONLINE 0 0 0
| |
| mirror-0 ONLINE 0 0 0
| |
| a0 ONLINE 0 0 0
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| b0 ONLINE 0 0 0
| |
| mirror-1 ONLINE 0 0 0
| |
| a1 ONLINE 0 0 0
| |
| b1 ONLINE 0 0 0
| |
| mirror-2 ONLINE 0 0 0
| |
| a2 ONLINE 0 0 0
| |
| b2 ONLINE 0 0 0
| |
| logs
| |
| rssda1 ONLINE 0 0 0
| |
| cache
| |
| rssda2 ONLINE 0 0 0
| |
| | |
| errors: No known data errors
| |
| </pre>
| |
| | |
| Using PVE 2.3 on a 2013 high performance system with ZFS you can install Windows Server 2012 Datacenter Edition with GUI in just under 4 minutes.
| |
| | |
| =Troubleshooting and known issues=
| |
| ==Grub boot ZFS problem==
| |
| *Symptoms: stuck at boot with an blinking prompt.
| |
| *Reason: If you ZFS raid it could happen that your mainboard does not initial all your disks correctly and Grub will wait for all RAID disk members - and fails. It can happen with more than 2 disks in ZFS RAID configuration - we saw this on some boards with ZFS RAID-0/RAID-10
| |
| ==ZFS mounting workaround==
| |
| The default ZFS mount -a script runs too late in the boot process for most system scripts. The following helps to mount ZFS correctly. This is only necessary if you do not use ZFS as root file-system and if you use ZFS as an additional directory storage.
| |
| | |
| 2014-01-22: the info below came from this excellent wiki page: http://wiki.complete.org/ConvertingToZFS
| |
| | |
| *Edit /etc/default/zfs and set ZFS_MOUNT='yes'
| |
| | |
| *edit /etc/insserv.conf,
| |
| :and at the end of the $local_fs line,
| |
| :add zfs-mount (without a plus). | |
| <pre>
| |
| # | |
| # All local file-systems are mounted (done during boot phase)
| |
| #
| |
| $local_fs +mountall +mountall-bootclean +mountoverflowtmp +umountfs
| |
| </pre> | |
| | |
| edit /etc/init.d/zfs-mount and find three lines near the top, changing them like this:
| |
| <pre>
| |
| # Required-Start:
| |
| # Required-Stop:
| |
| # Default-Start: S
| |
| </pre> | |
| ''note remove the Required-Start and -Stop entries.''
| |
| | |
| *Activating init.d changes Then run:
| |
| <pre>
| |
| insserv -v -d zfs-mount
| |
| </pre>
| |
| | |
| I had an issue with pve storage on ZFS, before pve would start before ZFS and create directories at the ZFS mount point. To fix that start single user mode and remove the directories [ make sure they are empty.... ].
| |
| | |
| also see https://github.com/zfsonlinux/pkg-zfs/issues/101
| |
| | |
| =Glossary=
| |
| *ZPool is the logical unit of the underlying disks, what zfs use.
| |
| *ZVol is an emulated Block Device provided by ZFS
| |
| *ZIL is ZFS Intent Log
| |
| *ARC is Adaptive Replacement Cache and located in Ram
| |
| *L2ARC is Layer2 Adaptive Replacement Cache and should be on an fast device (like SSD).
| |
| | |
| =Further readings about ZFS=
| |
| *http://zfsonlinux.org/faq.html
| |
| *http://wiki.complete.org/ConvertingToZFS
| |
| *http://hub.opensolaris.org/bin/download/Community+Group+zfs/docs/zfslast.pdf
| |
| | |
| and this has some very important information to know before implementing zfs on a production system.
| |
| *http://www.solarisinternals.com/wiki/index.php/ZFS_Best_Practices_Guide
| |
| | |
| Very well written manual pages
| |
| man zfs
| |
| man zpool
| |
| | |
| [[Category:HOWTO]] [[Category:Installation]] [[Category:Technology]]
| |