Difference between revisions of "Deploy Hyper-Converged Ceph Cluster"

With Proxmox VE you have the benefit of an easy to use installation wizard for Ceph. Click on one of your cluster nodes and navigate to the Ceph section in the menu tree. If Ceph is not already installed, you will see a prompt offering to do so.

The wizard is divided into multiple sections, where each needs to finish successfully, in order to use Ceph.

First you need to chose which Ceph version you want to install. Prefer the one from your other nodes, or the newest if this is the first node you install Ceph.

After starting the installation, the wizard will download and install all the required packages from Proxmox VE’s Ceph repository.

After finishing the installation step, you will need to create a configuration. This step is only needed once per cluster, as this configuration is distributed automatically to all remaining cluster members through Proxmox VE’s clustered configuration file system (pmxcfs).

The configuration step includes the following settings:

You have two more options which are considered advanced and therefore should only changed if you know what you are doing.

Additionally, you need to choose your first monitor node. This step is required.

That’s it. You should now see a success page as the last step, with further instructions on how to proceed. Your system is now ready to start using Ceph. To get started, you will need to create some additional monitors, OSDs and at least one pool.

The rest of this chapter will guide you through getting the most out of your Proxmox VE based Ceph setup. This includes the aforementioned tips and more, such as CephFS, which is a helpful addition to your new Ceph cluster.

Alternatively to the the recommended Proxmox VE Ceph installation wizard available in the web interface, you can use the following CLI command on each node:

This sets up an apt package repository in /etc/apt/sources.list.d/ceph.list and installs the required software.

Use the Proxmox VE Ceph installation wizard (recommended) or run the following command on one node:

This creates an initial configuration at /etc/pve/ceph.conf with a dedicated network for Ceph. This file is automatically distributed to all Proxmox VE nodes, using pmxcfs. The command also creates a symbolic link at /etc/ceph/ceph.conf, which points to that file. Thus, you can simply run Ceph commands without the need to specify a configuration file.

On each node where you want to place a monitor (three monitors are recommended), create one by using the Ceph → Monitor tab in the GUI or run:

To remove a Ceph Monitor via the GUI, first select a node in the tree view and go to the Ceph → Monitor panel. Select the MON and click the Destroy button.

To remove a Ceph Monitor via the CLI, first connect to the node on which the MON is running. Then execute the following command:

Multiple Managers can be installed, but only one Manager is active at any given time.

To remove a Ceph Manager via the GUI, first select a node in the tree view and go to the Ceph → Monitor panel. Select the Manager and click the Destroy button.

To remove a Ceph Monitor via the CLI, first connect to the node on which the Manager is running. Then execute the following command:

You can create an OSD either via the Proxmox VE web interface or via the CLI using pveceph. For example:

If the disk was in use before (for example, for ZFS or as an OSD) you first need to zap all traces of that usage. To remove the partition table, boot sector and any other OSD leftover, you can use the following command:

Starting with the Ceph Kraken release, a new Ceph OSD storage type was introduced called Bluestore
[Ceph Bluestore https://ceph.com/community/new-luminous-bluestore/]
. This is the default when creating OSDs since Ceph Luminous.

If you want to use a separate DB/WAL device for your OSDs, you can specify it through the -db_dev and -wal_dev options. The WAL is placed with the DB, if not specified separately.

You can directly choose the size of those with the -db_size and -wal_size parameters respectively. If they are not given, the following values (in order) will be used:

Before Ceph Luminous, Filestore was used as the default storage type for Ceph OSDs. Starting with Ceph Nautilus, Proxmox VE does not support creating such OSDs with pveceph anymore. If you still want to create filestore OSDs, use ceph-volume directly.

To remove an OSD via the GUI, first select a Proxmox VE node in the tree view and go to the Ceph → OSD panel. Then select the OSD to destroy and click the OUT button. Once the OSD status has changed from in to out, click the STOP button. Finally, after the status has changed from up to down, select Destroy from the More drop-down menu.

To remove an OSD via the CLI run the following commands.

The following command destroys the OSD. Specify the -cleanup option to additionally destroy the partition table.

You can create and edit pools from the command line or the web interface of any Proxmox VE host under Ceph → Pools.

When no options are given, we set a default of 128 PGs, a size of 3 replicas and a min_size of 2 replicas, to ensure no data loss occurs if any OSD fails.

It is advised that you either enable the PG-Autoscaler or calculate the PG number based on your setup. You can find the formula and the PG calculator
[PG calculator https://web.archive.org/web/20210301111112/http://ceph.com/pgcalc/]
online. From Ceph Nautilus onward, you can change the number of PGs
[Placement Groups https://docs.ceph.com/en/quincy/rados/operations/placement-groups/]
after the setup.

The PG autoscaler
[Automated Scaling https://docs.ceph.com/en/quincy/rados/operations/placement-groups/#automated-scaling]
can automatically scale the PG count for a pool in the background. Setting the Target Size or Target Ratio advanced parameters helps the PG-Autoscaler to make better decisions.

Erasure coding (EC) is a form of ‘forward error correction’ codes that allows to recover from a certain amount of data loss. Erasure coded pools can offer more usable space compared to replicated pools, but they do that for the price of performance.

For comparison: in classic, replicated pools, multiple replicas of the data are stored (size) while in erasure coded pool, data is split into k data chunks with additional m coding (checking) chunks. Those coding chunks can be used to recreate data should data chunks be missing.

The number of coding chunks, m, defines how many OSDs can be lost without losing any data. The total amount of objects stored is k + m.

To destroy a pool via the GUI, select a node in the tree view and go to the Ceph → Pools panel. Select the pool to destroy and click the Destroy button. To confirm the destruction of the pool, you need to enter the pool name.

Run the following command to destroy a pool. Specify the -remove_storages to also remove the associated storage.

The PG autoscaler allows the cluster to consider the amount of (expected) data stored in each pool and to choose the appropriate pg_num values automatically. It is available since Ceph Nautilus.

You may need to activate the PG autoscaler module before adjustments can take effect.

The autoscaler is configured on a per pool basis and has the following modes:

The scaling factor can be adjusted to facilitate future data storage with the target_size, target_size_ratio and the pg_num_min options.

You can find a more in-depth introduction to the PG autoscaler on Ceph’s Blog - New in Nautilus: PG merging and autotuning.

CephFS needs at least one Metadata Server to be configured and running, in order to function. You can create an MDS through the Proxmox VE web GUI’s Node -> CephFS panel or from the command line with:

Multiple metadata servers can be created in a cluster, but with the default settings, only one can be active at a time. If an MDS or its node becomes unresponsive (or crashes), another standby MDS will get promoted to active. You can speed up the handover between the active and standby MDS by using the hotstandby parameter option on creation, or if you have already created it you may set/add:

in the respective MDS section of /etc/pve/ceph.conf. With this enabled, the specified MDS will remain in a warm state, polling the active one, so that it can take over faster in case of any issues.

Since Luminous (12.2.x) you can have multiple active metadata servers running at once, but this is normally only useful if you have a high amount of clients running in parallel. Otherwise the MDS is rarely the bottleneck in a system. If you want to set this up, please refer to the Ceph documentation.
[Configuring multiple active MDS daemons https://docs.ceph.com/en/quincy/cephfs/multimds/]

With Proxmox VE’s integration of CephFS, you can easily create a CephFS using the web interface, CLI or an external API interface. Some prerequisites are required for this to work:

After this is complete, you can simply create a CephFS through either the Web GUI’s Node -> CephFS panel or the command-line tool pveceph, for example:

This creates a CephFS named cephfs, using a pool for its data named cephfs_data with 128 placement groups and a pool for its metadata named cephfs_metadata with one quarter of the data pool’s placement groups (32). Check the Proxmox VE managed Ceph pool chapter or visit the Ceph documentation for more information regarding an appropriate placement group number (pg_num) for your setup
[placement_groups]
. Additionally, the --add-storage parameter will add the CephFS to the Proxmox VE storage configuration after it has been created successfully.

To completely and gracefully remove a CephFS, the following steps are necessary:

After these steps, the CephFS should be completely removed and if you have other CephFS instances, the stopped metadata servers can be started again to act as standbys.

One of the most common maintenance tasks in Ceph is to replace the disk of an OSD. If a disk is already in a failed state, then you can go ahead and run through the steps in Destroy OSDs. Ceph will recreate those copies on the remaining OSDs if possible. This rebalancing will start as soon as an OSD failure is detected or an OSD was actively stopped.

To replace a functioning disk from the GUI, go through the steps in Destroy OSDs. The only addition is to wait until the cluster shows HEALTH_OK before stopping the OSD to destroy it.

On the command line, use the following commands:

You can check with the command below if the OSD can be safely removed.

Once the above check tells you that it is safe to remove the OSD, you can continue with the following commands:

Replace the old disk with the new one and use the same procedure as described in Create OSDs.

It is good practice to run fstrim (discard) regularly on VMs and containers. This releases data blocks that the filesystem isn’t using anymore. It reduces data usage and resource load. Most modern operating systems issue such discard commands to their disks regularly. You only need to ensure that the Virtual Machines enable the disk discard option.

Ceph ensures data integrity by scrubbing placement groups. Ceph checks every object in a PG for its health. There are two forms of Scrubbing, daily cheap metadata checks and weekly deep data checks. The weekly deep scrub reads the objects and uses checksums to ensure data integrity. If a running scrub interferes with business (performance) needs, you can adjust the time when scrubs
[Ceph scrubbing https://docs.ceph.com/en/quincy/rados/configuration/osd-config-ref/#scrubbing]
are executed.