mirror of
https://github.com/ceph/ceph
synced 2024-12-26 05:25:09 +00:00
dd1b5eb38c
Signed-off-by: Pere Diaz Bou <pdiazbou@redhat.com>
377 lines
14 KiB
ReStructuredText
377 lines
14 KiB
ReStructuredText
=======================
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Developing with cephadm
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=======================
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There are several ways to develop with cephadm. Which you use depends
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on what you're trying to accomplish.
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vstart --cephadm
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================
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- Start a cluster with vstart, with cephadm configured
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- Manage any additional daemons with cephadm
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- Requires compiled ceph binaries
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In this case, the mon and manager at a minimum are running in the usual
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vstart way, not managed by cephadm. But cephadm is enabled and the local
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host is added, so you can deploy additional daemons or add additional hosts.
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This works well for developing cephadm itself, because any mgr/cephadm
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or cephadm/cephadm code changes can be applied by kicking ceph-mgr
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with ``ceph mgr fail x``. (When the mgr (re)starts, it loads the
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cephadm/cephadm script into memory.)
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::
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MON=1 MGR=1 OSD=0 MDS=0 ../src/vstart.sh -d -n -x --cephadm
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- ``~/.ssh/id_dsa[.pub]`` is used as the cluster key. It is assumed that
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this key is authorized to ssh with no passphrase to root@`hostname`.
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- cephadm does not try to manage any daemons started by vstart.sh (any
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nonzero number in the environment variables). No service spec is defined
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for mon or mgr.
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- You'll see health warnings from cephadm about stray daemons--that's because
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the vstart-launched daemons aren't controlled by cephadm.
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- The default image is ``quay.io/ceph-ci/ceph:master``, but you can change
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this by passing ``-o container_image=...`` or ``ceph config set global container_image ...``.
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cstart and cpatch
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=================
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The ``cstart.sh`` script will launch a cluster using cephadm and put the
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conf and keyring in your build dir, so that the ``bin/ceph ...`` CLI works
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(just like with vstart). The ``ckill.sh`` script will tear it down.
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- A unique but stable fsid is stored in ``fsid`` (in the build dir).
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- The mon port is random, just like with vstart.
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- The container image is ``quay.io/ceph-ci/ceph:$tag`` where $tag is
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the first 8 chars of the fsid.
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- If the container image doesn't exist yet when you run cstart for the
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first time, it is built with cpatch.
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There are a few advantages here:
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- The cluster is a "normal" cephadm cluster that looks and behaves
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just like a user's cluster would. In contrast, vstart and teuthology
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clusters tend to be special in subtle (and not-so-subtle) ways (e.g.
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having the ``lockdep`` turned on).
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To start a test cluster::
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sudo ../src/cstart.sh
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The last line of the output will be a line you can cut+paste to update
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the container image. For instance::
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sudo ../src/script/cpatch -t quay.io/ceph-ci/ceph:8f509f4e
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By default, cpatch will patch everything it can think of from the local
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build dir into the container image. If you are working on a specific
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part of the system, though, can you get away with smaller changes so that
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cpatch runs faster. For instance::
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sudo ../src/script/cpatch -t quay.io/ceph-ci/ceph:8f509f4e --py
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will update the mgr modules (minus the dashboard). Or::
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sudo ../src/script/cpatch -t quay.io/ceph-ci/ceph:8f509f4e --core
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will do most binaries and libraries. Pass ``-h`` to cpatch for all options.
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Once the container is updated, you can refresh/restart daemons by bouncing
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them with::
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sudo systemctl restart ceph-`cat fsid`.target
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When you're done, you can tear down the cluster with::
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sudo ../src/ckill.sh # or,
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sudo ../src/cephadm/cephadm rm-cluster --force --fsid `cat fsid`
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cephadm bootstrap --shared_ceph_folder
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======================================
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Cephadm can also be used directly without compiled ceph binaries.
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Run cephadm like so::
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sudo ./cephadm bootstrap --mon-ip 127.0.0.1 \
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--ssh-private-key /home/<user>/.ssh/id_rsa \
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--skip-mon-network \
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--skip-monitoring-stack --single-host-defaults \
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--skip-dashboard \
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--shared_ceph_folder /home/<user>/path/to/ceph/
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- ``~/.ssh/id_rsa`` is used as the cluster key. It is assumed that
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this key is authorized to ssh with no passphrase to root@`hostname`.
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Source code changes made in the ``pybind/mgr/`` directory then
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require a daemon restart to take effect.
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Kcli: a virtualization management tool to make easy orchestrators development
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=============================================================================
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`Kcli <https://github.com/karmab/kcli>`_ is meant to interact with existing
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virtualization providers (libvirt, KubeVirt, oVirt, OpenStack, VMware vSphere,
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GCP and AWS) and to easily deploy and customize VMs from cloud images.
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It allows you to setup an environment with several vms with your preferred
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configuration (memory, cpus, disks) and OS flavor.
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main advantages:
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----------------
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- Fast. Typically you can have a completely new Ceph cluster ready to debug
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and develop orchestrator features in less than 5 minutes.
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- "Close to production" lab. The resulting lab is close to "real" clusters
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in QE labs or even production. It makes it easy to test "real things" in
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an almost "real" environment.
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- Safe and isolated. Does not depend of the things you have installed in
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your machine. And the vms are isolated from your environment.
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- Easy to work "dev" environment. For "not compilated" software pieces,
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for example any mgr module. It is an environment that allow you to test your
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changes interactively.
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Installation:
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-------------
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Complete documentation in `kcli installation <https://kcli.readthedocs.io/en/latest/#installation>`_
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but we suggest to use the container image approach.
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So things to do:
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- 1. Review `requeriments <https://kcli.readthedocs.io/en/latest/#libvirt-hypervisor-requisites>`_
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and install/configure whatever is needed to meet them.
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- 2. get the kcli image and create one alias for executing the kcli command
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::
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# podman pull quay.io/karmab/kcli
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# alias kcli='podman run --net host -it --rm --security-opt label=disable -v $HOME/.ssh:/root/.ssh -v $HOME/.kcli:/root/.kcli -v /var/lib/libvirt/images:/var/lib/libvirt/images -v /var/run/libvirt:/var/run/libvirt -v $PWD:/workdir -v /var/tmp:/ignitiondir quay.io/karmab/kcli'
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.. note:: This assumes that /var/lib/libvirt/images is your default libvirt pool.... Adjust if using a different path
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.. note:: Once you have used your kcli tool to create and use different labs, we
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suggest you stick to a given container tag and update your kcli alias.
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Why? kcli uses a rolling release model and sticking to a specific
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container tag will improve overall stability.
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what we want is overall stability.
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Test your kcli installation:
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----------------------------
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See the kcli `basic usage workflow <https://kcli.readthedocs.io/en/latest/#basic-workflow>`_
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Create a Ceph lab cluster
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-------------------------
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In order to make this task simple, we are going to use a "plan".
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A "plan" is a file where you can define a set of vms with different settings.
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You can define hardware parameters (cpu, memory, disks ..), operating system and
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it also allows you to automate the installation and configuration of any
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software you want to have.
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There is a `repository <https://github.com/karmab/kcli-plans>`_ with a collection of
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plans that can be used for different purposes. And we have predefined plans to
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install Ceph clusters using Ceph ansible or cephadm, so let's create our first Ceph
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cluster using cephadm::
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# kcli create plan -u https://github.com/karmab/kcli-plans/blob/master/ceph/ceph_cluster.yml
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This will create a set of three vms using the plan file pointed by the url.
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After a few minutes, let's check the cluster:
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* Take a look to the vms created::
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# kcli list vms
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* Enter in the bootstrap node::
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# kcli ssh ceph-node-00
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* Take a look to the ceph cluster installed::
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[centos@ceph-node-00 ~]$ sudo -i
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[root@ceph-node-00 ~]# cephadm version
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[root@ceph-node-00 ~]# cephadm shell
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[ceph: root@ceph-node-00 /]# ceph orch host ls
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Create a Ceph cluster to make easy developing in mgr modules (Orchestrators and Dashboard)
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------------------------------------------------------------------------------------------
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The cephadm kcli plan (and cephadm) are prepared to do that.
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The idea behind this method is to replace several python mgr folders in each of
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the ceph daemons with the source code folders in your host machine.
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This "trick" will allow you to make changes in any orchestrator or dashboard
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module and test them intermediately. (only needed to disable/enable the mgr module)
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So in order to create a ceph cluster for development purposes you must use the
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same cephadm plan but with a new parameter pointing to your Ceph source code folder::
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# kcli create plan -u https://github.com/karmab/kcli-plans/blob/master/ceph/ceph_cluster.yml -P ceph_dev_folder=/home/mycodefolder/ceph
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Ceph Dashboard development
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--------------------------
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Ceph dashboard module is not going to be loaded if previously you have not
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generated the frontend bundle.
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For now, in order load properly the Ceph Dashboardmodule and to apply frontend
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changes you have to run "ng build" on your laptop::
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# Start local frontend build with watcher (in background):
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sudo dnf install -y nodejs
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cd <path-to-your-ceph-repo>
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cd src/pybind/mgr/dashboard/frontend
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sudo chown -R <your-user>:root dist node_modules
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NG_CLI_ANALYTICS=false npm ci
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npm run build -- --deleteOutputPath=false --watch &
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After saving your changes, the frontend bundle will be built again.
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When completed, you'll see::
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"Localized bundle generation complete."
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Then you can reload your Dashboard browser tab.
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Cephadm DiD (Docker in Docker) box development environment
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==========================================================
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As kcli has a long startup time, we created an alternative which is faster using
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Docker inside Docker. This approach has its downsides too as we have to
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simulate the creation of osds and addition of devices with loopback devices.
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Cephadm's DiD environment is a command which requires little to setup. The setup
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requires you to get the required docker images for what we call boxes and ceph.
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A box is the first layer of docker containers which can be either a seed or a
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host. A seed is the main box which holds cephadm and where you bootstrap the
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cluster. On the other hand, you have hosts with an ssh server setup so you can
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add those hosts to the cluster. The second layer, managed by cephadm, inside the
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seed box, requires the ceph image.
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.. warning:: This development environment is still experimental and can have unexpected
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behaviour. Please take a look at the road map and the known issues section
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to see what the development progress.
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Requirements
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------------
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* `docker-compose <https://docs.docker.com/compose/install/>`_
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* lvm
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Setup
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-----
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In order to setup Cephadm's box run::
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cd src/cephadm/box
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sudo ln -sf "$PWD"/box.py /usr/bin/box
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sudo box -v cluster setup
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.. note:: It is recommended to run box with verbose (-v).
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After getting all needed images we can create a simple cluster without osds and hosts with::
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sudo box -v cluster start
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If you want to deploy the cluster with more osds and hosts::
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# 3 osds and 3 hosts by default
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sudo box -v cluster start --extended
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# explicitly change number of hosts and osds
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sudo box -v cluster start --extended --osds 5 --hosts 5
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Without the extended option, explicitly adding either more hosts or osds won't change the state
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of the cluster.
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.. note:: Cluster start will try to setup even if cluster setup was not called.
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.. note:: Osds are created with loopback devices and hence, sudo is needed to
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create loopback devices capable of holding osds.
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.. note:: Each osd will require 5GiB of space.
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After bootstraping the cluster you can go inside the seed box in which you'll be
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able to run cehpadm commands::
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box -v cluster sh
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[root@8d52a7860245] cephadm --help
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...
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If you want to navigate to the dashboard you can find the ip address after running::
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docker ps
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docker inspect <container-id> | grep IPAddress
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The address will be https://$IPADDRESS:8443
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You can also find the hostname and ip of each box container with::
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sudo box cluster list
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and you'll see something like::
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IP Name Hostname
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172.30.0.2 box_hosts_1 6283b7b51d91
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172.30.0.3 box_hosts_3 3dcf7f1b25a4
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172.30.0.4 box_seed_1 8d52a7860245
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172.30.0.5 box_hosts_2 c3c7b3273bf1
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To remove the cluster and clean up run::
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box cluster down
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If you just want to clean up the last cluster created run::
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box cluster cleanup
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To check all available commands run::
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box --help
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Known issues
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------------
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* If you get permission issues with cephadm because it cannot infer the keyring
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and configuration, please run cephadm like this example::
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cephadm shell --config /etc/ceph/ceph.conf --keyring /etc/ceph/ceph.kerying
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* Docker containers run with the --privileged flag enabled which has been seen
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to make some computers log out.
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* Sometimes when starting a cluster the osds won't get deployed because cephadm
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takes a while to update the state. If this happens wait and call::
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box -v osd deploy --vg vg1
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Road map
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------------
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* Run containers without --privileged
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* Enable ceph-volume to mark loopback devices as a valid block device in
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the inventory.
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* Make DiD ready to run dashboard CI tests (including cluster expansion).
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Note regarding network calls from CLI handlers
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==============================================
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Executing any cephadm CLI commands like ``ceph orch ls`` will block the
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mon command handler thread within the MGR, thus preventing any concurrent
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CLI calls. Note that pressing ``^C`` will not resolve this situation,
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as *only* the client will be aborted, but not execution of the command
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within the orchestrator manager module itself. This means, cephadm will
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be completely unresponsive until the execution of the CLI handler is
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fully completed. Note that even ``ceph orch ps`` will not respond while
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another handler is executing.
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This means we should do very few synchronous calls to remote hosts.
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As a guideline, cephadm should do at most ``O(1)`` network calls in CLI handlers.
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Everything else should be done asynchronously in other threads, like ``serve()``.
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Note regarding different variables used in the code
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===================================================
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* a ``service_type`` is something like mon, mgr, alertmanager etc defined
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in ``ServiceSpec``
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* a ``service_id`` is the name of the service. Some services don't have
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names.
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* a ``service_name`` is ``<service_type>.<service_id>``
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* a ``daemon_type`` is the same as the service_type, except for ingress,
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which has the haproxy and keepalived daemon types.
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* a ``daemon_id`` is typically ``<service_id>.<hostname>.<random-string>``.
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(Not the case for e.g. OSDs. OSDs are always called OSD.N)
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* a ``daemon_name`` is ``<daemon_type>.<daemon_id>``
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