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always indent using tab, the rendered html looks good, but it helps with editor to highlight the codeblock properly. Signed-off-by: Kefu Chai <kchai@redhat.com>
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ReStructuredText
200 lines
7.0 KiB
ReStructuredText
===================
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Monitor bootstrap
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===================
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Terminology:
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* ``cluster``: a set of monitors
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* ``quorum``: an active set of monitors consisting of a majority of the cluster
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In order to initialize a new monitor, it must always be fed:
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#. a logical name
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#. secret keys
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#. a cluster fsid (uuid)
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In addition, a monitor needs to know two things:
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#. what address to bind to
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#. who its peers are (if any)
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There are a range of ways to do both.
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Logical id
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==========
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The logical id should be unique across the cluster. It will be
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appended to ``mon.`` to logically describe the monitor in the Ceph
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cluster. For example, if the logical id is ``foo``, the monitor's
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name will be ``mon.foo``.
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For most users, there is no more than one monitor per host, which
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makes the short hostname logical choice.
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Secret keys
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===========
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The ``mon.`` secret key is stored a ``keyring`` file in the ``mon data`` directory. It can be generated
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with a command like::
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ceph-authtool --create-keyring /path/to/keyring --gen-key -n mon.
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When creating a new monitor cluster, the keyring should also contain a ``client.admin`` key that can be used
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to administer the system::
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ceph-authtool /path/to/keyring --gen-key -n client.admin --set-uid=0 --cap mon 'allow *' --cap osd 'allow *' --cap mds 'allow'
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The resulting keyring is fed to ``ceph-mon --mkfs`` with the ``--keyring <keyring>`` command-line argument.
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Cluster fsid
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============
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The cluster fsid is a normal uuid, like that generated by the ``uuidgen`` command. It
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can be provided to the monitor in two ways:
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#. via the ``--fsid <uuid>`` command-line argument (or config file option)
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#. via a monmap provided to the new monitor via the ``--monmap <path>`` command-line argument.
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Monitor address
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===============
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The monitor address can be provided in several ways.
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#. via the ``--public-addr <ip[:port]>`` command-line option (or config file option)
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#. via the ``--public-network <cidr>`` command-line option (or config file option)
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#. via the monmap provided via ``--monmap <path>``, if it includes a monitor with our name
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#. via the bootstrap monmap (provided via ``--inject-monmap <path>`` or generated from ``--mon-host <list>``) if it includes a monitor with no name (``noname-<something>``) and an address configured on the local host.
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Peers
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=====
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The monitor peers are provided in several ways:
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#. via the initial monmap, provided via ``--monmap <filename>``
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#. via the bootstrap monmap generated from ``--mon-host <list>``
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#. via the bootstrap monmap generated from ``[mon.*]`` sections with ``mon addr`` in the config file
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#. dynamically via the admin socket
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However, these methods are not completely interchangeable because of
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the complexity of creating a new monitor cluster without danger of
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races.
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Cluster creation
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================
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There are three basic approaches to creating a cluster:
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#. Create a new cluster by specifying the monitor names and addresses ahead of time.
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#. Create a new cluster by specifying the monitor names ahead of time, and dynamically setting the addresses as ``ceph-mon`` daemons configure themselves.
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#. Create a new cluster by specifying the monitor addresses ahead of time.
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Names and addresses
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-------------------
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Generate a monmap using ``monmaptool`` with the names and addresses of the initial
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monitors. The generated monmap will also include a cluster fsid. Feed that monmap
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to each monitor daemon::
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ceph-mon --mkfs -i <name> --monmap <initial_monmap> --keyring <initial_keyring>
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When the daemons start, they will know exactly who they and their peers are.
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Addresses only
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--------------
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The initial monitor addresses can be specified with the ``mon host`` configuration value,
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either via a config file or the command-line argument. This method has the advantage that
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a single global config file for the cluster can have a line like::
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mon host = a.foo.com, b.foo.com, c.foo.com
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and will also serve to inform any ceph clients or daemons who the monitors are.
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The ``ceph-mon`` daemons will need to be fed the initial keyring and cluster fsid to
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initialize themselves:
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ceph-mon --mkfs -i <name> --fsid <uuid> --keyring <initial_keyring>
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When the daemons first start up, they will share their names with each other and form a
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new cluster.
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Names only
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----------
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In dynamic "cloud" environments, the cluster creator may not (yet)
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know what the addresses of the monitors are going to be. Instead,
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they may want machines to configure and start themselves in parallel
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and, as they come up, form a new cluster on their own. The problem is
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that the monitor cluster relies on strict majorities to keep itself
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consistent, and in order to "create" a new cluster, it needs to know
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what the *initial* set of monitors will be.
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This can be done with the ``mon initial members`` config option, which
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should list the ids of the initial monitors that are allowed to create
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the cluster::
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mon initial members = foo, bar, baz
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The monitors can then be initialized by providing the other pieces of
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information (they keyring, cluster fsid, and a way of determining
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their own address). For example::
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ceph-mon --mkfs -i <name> --mon-initial-hosts 'foo,bar,baz' --keyring <initial_keyring> --public-addr <ip>
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When these daemons are started, they will know their own address, but
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not their peers. They can learn those addresses via the admin socket::
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ceph daemon mon.<id> add_bootstrap_peer_hint <peer ip>
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Once they learn enough of their peers from the initial member set,
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they will be able to create the cluster.
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Cluster expansion
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=================
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Cluster expansion is slightly less demanding than creation, because
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the creation of the initial quorum is not an issue and there is no
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worry about creating separately independent clusters.
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New nodes can be forced to join an existing cluster in two ways:
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#. by providing no initial monitor peers addresses, and feeding them dynamically.
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#. by specifying the ``mon initial members`` config option to prevent the new nodes from forming a new, independent cluster, and feeding some existing monitors via any available method.
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Initially peerless expansion
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----------------------------
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Create a new monitor and give it no peer addresses other than it's own. For
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example::
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ceph-mon --mkfs -i <myid> --fsid <fsid> --keyring <mon secret key> --public-addr <ip>
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Once the daemon starts, you can give it one or more peer addresses to join with::
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ceph daemon mon.<id> add_bootstrap_peer_hint <peer ip>
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This monitor will never participate in cluster creation; it can only join an existing
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cluster.
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Expanding with initial members
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------------------------------
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You can feed the new monitor some peer addresses initially and avoid badness by also
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setting ``mon initial members``. For example::
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ceph-mon --mkfs -i <myid> --fsid <fsid> --keyring <mon secret key> --public-addr <ip> --mon-host foo,bar,baz
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When the daemon is started, ``mon initial members`` must be set via the command line or config file::
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ceph-mon -i <myid> --mon-initial-members foo,bar,baz
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to prevent any risk of split-brain.
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