cbd67ebdb1
For more detail, see the doc migration spec. http://specs.openstack.org/openstack/docs-specs/specs/pike/os-manuals-migration.html Co-Authored-By: Eduardo Gonzalez <dabarren@gmail.com> Change-Id: I3a7c0ed204ee1e9060b5325f20622afe9a5e3040
361 lines
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ReStructuredText
361 lines
10 KiB
ReStructuredText
.. _ceph-guide:
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=============
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Ceph in Kolla
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=============
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The out-of-the-box Ceph deployment requires 3 hosts with at least one block
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device on each host that can be dedicated for sole use by Ceph. However, with
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tweaks to the Ceph cluster you can deploy a **healthy** cluster with a single
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host and a single block device.
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Requirements
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============
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* A minimum of 3 hosts for a vanilla deploy
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* A minimum of 1 block device per host
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Preparation
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===========
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To prepare a disk for use as a
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`Ceph OSD <http://docs.ceph.com/docs/master/man/8/ceph-osd/>`_ you must add a
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special partition label to the disk. This partition label is how Kolla detects
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the disks to format and bootstrap. Any disk with a matching partition label
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will be reformatted so use caution.
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To prepare an OSD as a storage drive, execute the following operations:
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::
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# <WARNING ALL DATA ON $DISK will be LOST!>
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# where $DISK is /dev/sdb or something similar
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parted $DISK -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_BOOTSTRAP 1 -1
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The following shows an example of using parted to configure ``/dev/sdb`` for
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usage with Kolla.
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::
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parted /dev/sdb -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_BOOTSTRAP 1 -1
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parted /dev/sdb print
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Model: VMware, VMware Virtual S (scsi)
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Disk /dev/sdb: 10.7GB
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Sector size (logical/physical): 512B/512B
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Partition Table: gpt
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Number Start End Size File system Name Flags
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1 1049kB 10.7GB 10.7GB KOLLA_CEPH_OSD_BOOTSTRAP
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Using an external journal drive
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-------------------------------
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The steps documented above created a journal partition of 5 GByte
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and a data partition with the remaining storage capacity on the same tagged
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drive.
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It is a common practice to place the journal of an OSD on a separate
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journal drive. This section documents how to use an external journal drive.
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Prepare the storage drive in the same way as documented above:
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::
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# <WARNING ALL DATA ON $DISK will be LOST!>
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# where $DISK is /dev/sdb or something similar
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parted $DISK -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_BOOTSTRAP_FOO 1 -1
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To prepare the journal external drive execute the following command:
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::
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# <WARNING ALL DATA ON $DISK will be LOST!>
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# where $DISK is /dev/sdc or something similar
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parted $DISK -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_BOOTSTRAP_FOO_J 1 -1
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.. note::
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Use different suffixes (``_42``, ``_FOO``, ``_FOO42``, ..) to use different external
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journal drives for different storage drives. One external journal drive can only
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be used for one storage drive.
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.. note::
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The partition labels ``KOLLA_CEPH_OSD_BOOTSTRAP`` and ``KOLLA_CEPH_OSD_BOOTSTRAP_J``
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are not working when using external journal drives. It is required to use
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suffixes (``_42``, ``_FOO``, ``_FOO42``, ..). If you want to setup only one
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storage drive with one external journal drive it is also necessary to use a suffix.
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Configuration
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=============
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Edit the [storage] group in the inventory which contains the hostname of the
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hosts that have the block devices you have prepped as shown above.
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::
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[storage]
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controller
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compute1
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Enable Ceph in ``/etc/kolla/globals.yml``:
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::
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enable_ceph: "yes"
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RadosGW is optional, enable it in ``/etc/kolla/globals.yml``:
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::
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enable_ceph_rgw: "yes"
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RGW requires a healthy cluster in order to be successfully deployed. On initial
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start up, RGW will create several pools. The first pool should be in an
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operational state to proceed with the second one, and so on. So, in the case of
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an **all-in-one** deployment, it is necessary to change the default number of
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copies for the pools before deployment. Modify the file
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``/etc/kolla/config/ceph.conf`` and add the contents::
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[global]
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osd pool default size = 1
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osd pool default min size = 1
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Deployment
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==========
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Finally deploy the Ceph-enabled OpenStack:
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::
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kolla-ansible deploy -i path/to/inventory
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Using a Cache Tier
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==================
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An optional `cache tier <http://docs.ceph.com/docs/jewel/rados/operations/cache-tiering/>`_
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can be deployed by formatting at least one cache device and enabling cache.
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tiering in the globals.yml configuration file.
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To prepare an OSD as a cache device, execute the following operations:
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::
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# <WARNING ALL DATA ON $DISK will be LOST!>
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# where $DISK is /dev/sdb or something similar
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parted $DISK -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_CACHE_BOOTSTRAP 1 -1
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Enable the Ceph cache tier in ``/etc/kolla/globals.yml``:
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::
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enable_ceph: "yes"
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ceph_enable_cache: "yes"
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# Valid options are [ forward, none, writeback ]
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ceph_cache_mode: "writeback"
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After this run the playbooks as you normally would. For example:
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::
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kolla-ansible deploy -i path/to/inventory
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Setting up an Erasure Coded Pool
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================================
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`Erasure code <http://docs.ceph.com/docs/jewel/rados/operations/erasure-code/>`_
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is the new big thing from Ceph. Kolla has the ability to setup your Ceph pools
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as erasure coded pools. Due to technical limitations with Ceph, using erasure
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coded pools as OpenStack uses them requires a cache tier. Additionally, you
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must make the choice to use an erasure coded pool or a replicated pool
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(the default) when you initially deploy. You cannot change this without
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completely removing the pool and recreating it.
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To enable erasure coded pools add the following options to your
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``/etc/kolla/globals.yml`` configuration file:
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::
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# A requirement for using the erasure-coded pools is you must setup a cache tier
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# Valid options are [ erasure, replicated ]
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ceph_pool_type: "erasure"
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# Optionally, you can change the profile
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#ceph_erasure_profile: "k=4 m=2 ruleset-failure-domain=host"
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Managing Ceph
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=============
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Check the Ceph status for more diagnostic information. The sample output below
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indicates a healthy cluster:
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::
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docker exec ceph_mon ceph -s
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cluster 5fba2fbc-551d-11e5-a8ce-01ef4c5cf93c
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health HEALTH_OK
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monmap e1: 1 mons at {controller=10.0.0.128:6789/0}
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election epoch 2, quorum 0 controller
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osdmap e18: 2 osds: 2 up, 2 in
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pgmap v27: 64 pgs, 1 pools, 0 bytes data, 0 objects
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68676 kB used, 20390 MB / 20457 MB avail
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64 active+clean
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If Ceph is run in an **all-in-one** deployment or with less than three storage
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nodes, further configuration is required. It is necessary to change the default
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number of copies for the pool. The following example demonstrates how to change
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the number of copies for the pool to 1:
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::
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docker exec ceph_mon ceph osd pool set rbd size 1
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All the pools must be modified if Glance, Nova, and Cinder have been deployed.
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An example of modifying the pools to have 2 copies:
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::
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for p in images vms volumes backups; do docker exec ceph_mon ceph osd pool set ${p} size 2; done
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If using a cache tier, these changes must be made as well:
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::
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for p in images vms volumes backups; do docker exec ceph_mon ceph osd pool set ${p}-cache size 2; done
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The default pool Ceph creates is named **rbd**. It is safe to remove this pool:
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::
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docker exec ceph_mon ceph osd pool delete rbd rbd --yes-i-really-really-mean-it
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Troubleshooting
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===============
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Deploy fails with 'Fetching Ceph keyrings ... No JSON object could be decoded'
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------------------------------------------------------------------------------
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If an initial deploy of Ceph fails, perhaps due to improper configuration or
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similar, the cluster will be partially formed and will need to be reset for a
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successful deploy.
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In order to do this the operator should remove the `ceph_mon_config` volume
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from each Ceph monitor node:
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::
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ansible \
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-i ansible/inventory/multinode \
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-a 'docker volume rm ceph_mon_config' \
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ceph-mon
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=====================
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Simple 3 Node Example
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=====================
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This example will show how to deploy Ceph in a very simple setup using 3
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storage nodes. 2 of those nodes (kolla1 and kolla2) will also provide other
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services like control, network, compute, and monitoring. The 3rd
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(kolla3) node will only act as a storage node.
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This example will only focus on the Ceph aspect of the deployment and assumes
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that you can already deploy a fully functional environment using 2 nodes that
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does not employ Ceph yet. So we will be adding to the existing multinode
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inventory file you already have.
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Each of the 3 nodes are assumed to have two disk, ``/dev/sda`` (40GB)
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and ``/dev/sdb`` (10GB). Size is not all that important... but for now make
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sure each sdb disk are of the same size and are at least 10GB. This example
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will use a single disk (/dev/sdb) for both Ceph data and journal. It will not
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implement caching.
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Here is the top part of the multinode inventory file used in the example
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environment before adding the 3rd node for Ceph:
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::
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[control]
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# These hostname must be resolvable from your deployment host
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[network]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[compute]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[monitoring]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[storage]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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Configuration
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=============
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To prepare the 2nd disk (/dev/sdb) of each nodes for use by Ceph you will need
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to add a partition label to it as shown below:
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::
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# <WARNING ALL DATA ON /dev/sdb will be LOST!>
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parted /dev/sdb -s -- mklabel gpt mkpart KOLLA_CEPH_OSD_BOOTSTRAP 1 -1
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Make sure to run this command on each of the 3 nodes or the deployment will
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fail.
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Next, edit the multinode inventory file and make sure the 3 nodes are listed
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under [storage]. In this example I will add kolla3.ducourrier.com to the
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existing inventory file:
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::
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[control]
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# These hostname must be resolvable from your deployment host
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[network]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[compute]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[monitoring]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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[storage]
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kolla1.ducourrier.com
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kolla2.ducourrier.com
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kolla3.ducourrier.com
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It is now time to enable Ceph in the environment by editing the
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``/etc/kolla/globals.yml`` file:
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::
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enable_ceph: "yes"
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enable_ceph_rgw: "yes"
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enable_cinder: "yes"
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glance_backend_file: "no"
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glance_backend_ceph: "yes"
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Finally deploy the Ceph-enabled configuration:
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::
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kolla-ansible deploy -i path/to/inventory-file
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