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https://github.com/ceph/ceph
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Signed-off-by: John Wilkins <john.wilkins@inktank.com>
616 lines
24 KiB
ReStructuredText
616 lines
24 KiB
ReStructuredText
=========================
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Monitoring OSDs and PGs
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=========================
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High availability and high reliability require a fault-tolerant approach to
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managing hardware and software issues. Ceph has no single point-of-failure, and
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can service requests for data in a "degraded" mode. Ceph's `data placement`_
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introduces a layer of indirection to ensure that data doesn't bind directly to
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particular OSD addresses. This means that tracking down system faults requires
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finding the `placement group`_ and the underlying OSDs at root of the problem.
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.. tip:: A fault in one part of the cluster may prevent you from accessing a
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particular object, but that doesn't mean that you can't access other objects.
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When you run into a fault, don't panic. Just follow the steps for monitoring
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your OSDs and placement groups. Then, begin troubleshooting.
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Ceph is generally self-repairing. However, when problems persist, monitoring
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OSDs and placement groups will help you identify the problem.
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Monitoring OSDs
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===============
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An OSD's status is either in the cluster (``in``) or out of the cluster
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(``out``); and, it is either up and running (``up``), or it is down and not
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running (``down``). If an OSD is ``up``, it may be either ``in`` the cluster
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(you can read and write data) or it is ``out`` of the cluster. If it was
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``in`` the cluster and recently moved ``out`` of the cluster, Ceph will migrate
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placement groups to other OSDs. If an OSD is ``out`` of the cluster, CRUSH will
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not assign placement groups to the OSD. If an OSD is ``down``, it should also be
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``out``.
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.. note:: If an OSD is ``down`` and ``in``, there is a problem and the cluster
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will not be in a healthy state.
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.. ditaa:: +----------------+ +----------------+
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| OSD #n In | | OSD #n Up |
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+----------------+ +----------------+
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^ ^
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| |
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v v
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+----------------+ +----------------+
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| OSD #n Out | | OSD #n Down |
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+----------------+ +----------------+
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If you execute a command such as ``ceph health``, ``ceph -s`` or ``ceph -w``,
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you may notice that the cluster does not always echo back ``HEALTH OK``. Don't
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panic. With respect to OSDs, you should expect that the cluster will **NOT**
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echo ``HEALTH OK`` in a few expected circumstances:
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#. You haven't started the cluster yet (it won't respond).
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#. You have just started or restarted the cluster and it's not ready yet,
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because the placement groups are getting created and the OSDs are in
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the process of peering.
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#. You just added or removed an OSD.
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#. You just have modified your cluster map.
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An important aspect of monitoring OSDs is to ensure that when the cluster
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is up and running that all OSDs that are ``in`` the cluster are ``up`` and
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running, too. To see if all OSDs are running, execute::
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ceph osd stat
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The result should tell you the map epoch (eNNNN), the total number of OSDs (x),
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how many are ``up`` (y) and how many are ``in`` (z). ::
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eNNNN: x osds: y up, z in
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If the number of OSDs that are ``in`` the cluster is more than the number of
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OSDs that are ``up``, execute the following command to identify the ``ceph-osd``
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daemons that aren't running::
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ceph osd tree
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::
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dumped osdmap tree epoch 1
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# id weight type name up/down reweight
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-1 2 pool openstack
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-3 2 rack dell-2950-rack-A
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-2 2 host dell-2950-A1
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0 1 osd.0 up 1
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1 1 osd.1 down 1
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.. tip:: The ability to search through a well-designed CRUSH hierarchy may help
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you troubleshoot your cluster by identifying the physcial locations faster.
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If an OSD is ``down``, start it::
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sudo /etc/init.d/ceph -a start osd.1
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See `OSD Not Running`_ for problems associated with OSDs that stopped, or won't
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restart.
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PG Sets
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=======
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When CRUSH assigns placement groups to OSDs, it looks at the number of replicas
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for the pool and assigns the placement group to OSDs such that each replica of
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the placement group gets assigned to a different OSD. For example, if the pool
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requires three replicas of a placement group, CRUSH may assign them to
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``osd.1``, ``osd.2`` and ``osd.3`` respectively. CRUSH actually seeks a
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pseudo-random placement that will take into account failure domains you set in
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your `CRUSH map`_, so you will rarely see placement groups assigned to nearest
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neighbor OSDs in a large cluster. We refer to the set of OSDs that should
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contain the replicas of a particular placement group as the **Acting Set**. In
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some cases, an OSD in the Acting Set is ``down`` or otherwise not able to
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service requests for objects in the placement group. When these situations
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arise, don't panic. Common examples include:
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- You added or removed an OSD. Then, CRUSH reassigned the placement group to
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other OSDs--thereby changing the composition of the Acting Set and spawning
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the migration of data with a "backfill" process.
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- An OSD was ``down``, was restared, and is now ``recovering``.
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- An OSD in the Acting Set is ``down`` or unable to service requests,
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and another OSD has temporarily assumed its duties.
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Ceph processes a client request using the **Up Set**, which is the set of OSDs
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that will actually handle the requests. In most cases, the Up Set and the Acting
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Set are virtually identical. When they are not, it may indicate that Ceph is
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migrating data, an OSD is recovering, or that there is a problem (i.e., Ceph
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usually echoes a "HEALTH WARN" state with a "stuck stale" message in such
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scenarios).
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To retrieve a list of placement groups, execute::
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ceph pg dump
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To view which OSDs are within the Acting Set or the Up Set for a given placement
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group, execute::
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ceph pg map {pg-num}
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The result should tell you the osdmap epoch (eNNN), the placement group number
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({pg-num}), the OSDs in the Up Set (up[]), and the OSDs in the acting set
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(acting[]). ::
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osdmap eNNN pg {pg-num} -> up [0,1,2] acting [0,1,2]
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.. note:: If the Up Set and Acting Set do not match, this may be an indicator
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that the cluster rebalancing itself or of a potential problem with
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the cluster.
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Peering
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=======
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Before you can write data to a placement group, it must be in an ``active``
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state, and it **should** be in a ``clean`` state. For Ceph to determine the
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current state of a placement group, the primary OSD of the placement group
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(i.e., the first OSD in the acting set), peers with the secondary and tertiary
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OSDs to establish agreement on the current state of the placement group
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(assuming a pool with 3 replicas of the PG).
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.. ditaa:: +---------+ +---------+ +-------+
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| OSD 1 | | OSD 2 | | OSD 3 |
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+---------+ +---------+ +-------+
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| Request To | |
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| Peer | |
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|-------------->| |
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|<--------------| |
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| Peering |
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| Request To |
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| Peer |
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|----------------------------->|
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|<-----------------------------|
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| Peering |
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The OSDs also report their status to the monitor. See `Configuring Monitor/OSD
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Interaction`_ for details. To troubleshoot peering issues, see `Peering
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Failure`_.
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Monitoring Placement Group States
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=================================
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If you execute a command such as ``ceph health``, ``ceph -s`` or ``ceph -w``,
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you may notice that the cluster does not always echo back ``HEALTH OK``. After
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you check to see if the OSDs are running, you should also check placement group
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states. You should expect that the cluster will **NOT** echo ``HEALTH OK`` in a
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number of placement group peering-related circumstances:
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#. You have just created a pool and placement groups haven't peered yet.
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#. The placement groups are recovering.
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#. You have just added an OSD to or removed an OSD from the cluster.
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#. You have just modified your CRUSH map and your placement groups are migrating.
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#. There is inconsistent data in different replicas of a placement group.
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#. Ceph is scrubbing a placement group's replicas.
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If one of the foregoing circumstances causes Ceph to echo ``HEALTH WARN``, don't
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panic. In many cases, the cluster will recover on its own. In some cases, you
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may need to take action. An important aspect of monitoring placement groups is
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to ensure that when the cluster is up and running that all placement groups are
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``active``, and preferably in the ``clean`` state. To see the status of all
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placement groups, execute::
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ceph pg stat
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The result should tell you the placement group map version (vNNNNNN), the total
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number of placement groups (x), and how many placement groups are in a
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particular state such as ``active+clean`` (y). ::
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vNNNNNN: x pgs: y active+clean; z bytes data, aa MB used, bb GB / cc GB avail
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.. note:: It is common for Ceph to report multiple states for placement groups.
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In addition to the placement group states, Ceph will also echo back the amount
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of data used (aa), the amount of storage capacity remaining (bb), and the total
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storage capacity for the placement group. These numbers can be important in a
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few cases:
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- You are reaching your ``near full ratio`` or ``full ratio``.
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- Your data isn't getting distributed across the cluster due to an
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error in your CRUSH configuration.
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.. topic:: Placement Group IDs
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Placement group IDs consist of the pool number (not pool name) followed
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by a period (.) and the placement group ID--a hexadecimal number. You
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can view pool numbers and their names from the output of ``ceph osd
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lspools``. The default pool names ``data``, ``metadata`` and ``rbd``
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correspond to pool numbers ``0``, ``1`` and ``2`` respectively. A fully
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qualified placement group ID has the following form::
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{pool-num}.{pg-id}
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And it typically looks like this::
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0.1f
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To retrieve a list of placement groups, execute the following::
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ceph pg dump
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You can also format the output in JSON format and save it to a file::
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ceph pg dump -o {filename} --format=json
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To query a particular placement group, execute the following::
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ceph pg {poolnum}.{pg-id} query
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Ceph will output the query in JSON format.
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.. code-block:: javascript
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{
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"state": "active+clean",
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"up": [
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1,
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0
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],
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"acting": [
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1,
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0
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],
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"info": {
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"pgid": "1.e",
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"last_update": "4'1",
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"last_complete": "4'1",
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"log_tail": "0'0",
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"last_backfill": "MAX",
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"purged_snaps": "[]",
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"history": {
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"epoch_created": 1,
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"last_epoch_started": 537,
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"last_epoch_clean": 537,
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"last_epoch_split": 534,
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"same_up_since": 536,
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"same_interval_since": 536,
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"same_primary_since": 536,
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"last_scrub": "4'1",
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"last_scrub_stamp": "2013-01-25 10:12:23.828174"
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},
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"stats": {
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"version": "4'1",
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"reported": "536'782",
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"state": "active+clean",
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"last_fresh": "2013-01-25 10:12:23.828271",
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"last_change": "2013-01-25 10:12:23.828271",
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"last_active": "2013-01-25 10:12:23.828271",
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"last_clean": "2013-01-25 10:12:23.828271",
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"last_unstale": "2013-01-25 10:12:23.828271",
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"mapping_epoch": 535,
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"log_start": "0'0",
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"ondisk_log_start": "0'0",
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"created": 1,
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"last_epoch_clean": 1,
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"parent": "0.0",
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"parent_split_bits": 0,
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"last_scrub": "4'1",
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"last_scrub_stamp": "2013-01-25 10:12:23.828174",
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"log_size": 128,
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"ondisk_log_size": 128,
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"stat_sum": {
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"num_bytes": 205,
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"num_objects": 1,
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"num_object_clones": 0,
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"num_object_copies": 0,
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"num_objects_missing_on_primary": 0,
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"num_objects_degraded": 0,
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"num_objects_unfound": 0,
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"num_read": 1,
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"num_read_kb": 0,
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"num_write": 3,
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"num_write_kb": 1
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},
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"stat_cat_sum": {
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},
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"up": [
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1,
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0
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],
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"acting": [
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1,
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0
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]
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},
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"empty": 0,
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"dne": 0,
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"incomplete": 0
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},
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"recovery_state": [
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{
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"name": "Started\/Primary\/Active",
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"enter_time": "2013-01-23 09:35:37.594691",
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"might_have_unfound": [
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],
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"scrub": {
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"scrub_epoch_start": "536",
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"scrub_active": 0,
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"scrub_block_writes": 0,
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"finalizing_scrub": 0,
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"scrub_waiting_on": 0,
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"scrub_waiting_on_whom": [
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]
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}
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},
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{
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"name": "Started",
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"enter_time": "2013-01-23 09:35:31.581160"
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}
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]
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}
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The following subsections describe common states in greater detail.
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Creating
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--------
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When you create a pool, it will create the number of placement groups you
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specified. Ceph will echo ``creating`` when it is creating one or more
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placement groups. Once they are created, the OSDs that are part of a placement
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group's Acting Set will peer. Once peering is complete, the placement group
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status should be ``active+clean``, which means a Ceph client can begin writing
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to the placement group.
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.. ditaa::
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/-----------\ /-----------\ /-----------\
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| Creating |------>| Peering |------>| Active |
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\-----------/ \-----------/ \-----------/
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Peering
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-------
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When Ceph is Peering a placement group, Ceph is bringing the OSDs that
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store the replicas of the placement group into **agreement about the state**
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of the objects and metadata in the placement group. When Ceph completes peering,
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this means that the OSDs that store the placement group agree about the current
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state of the placement group. However, completion of the peering process does
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**NOT** mean that each replica has the latest contents.
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.. topic:: Authoratative History
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Ceph will **NOT** acknowledge a write operation to a client, until
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all OSDs of the acting set persist the write operation. This practice
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ensures that at least one member of the acting set will have a record
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of every acknowledged write operation since the last successful
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peering operation.
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With an accurate record of each acknowledged write operation, Ceph can
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construct and disseminate a new authoritative history of the placement
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group--a complete, and fully ordered set of operations that, if performed,
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would bring an OSD’s copy of a placement group up to date.
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Active
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------
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Once Ceph completes the peering process, a placement group may become
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``active``. The ``active`` state means that the data in the placement group is
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generally available in the primary placement group and the replicas for read
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and write operations.
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Clean
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-----
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When a placement group is in the ``clean`` state, the primary OSD and the
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replica OSDs have successfully peered and there are no stray replicas for the
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placement group. Ceph replicated all objects in the placement group the correct
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number of times.
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Degraded
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--------
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When a client writes an object to the primary OSD, the primary OSD is
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responsible for writing the replicas to the replica OSDs. After the primary OSD
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writes the object to storage, the placement group will remain in a ``degraded``
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state until the primary OSD has received an acknowledgement from the replica
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OSDs that Ceph created the replica objects successfully.
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The reason a placement group can be ``active+degraded`` is that an OSD may be
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``active`` even though it doesn't hold all of the objects yet. If an OSD goes
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``down``, Ceph marks each placement group assigned to the OSD as ``degraded``.
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The OSDs must peer again when the OSD comes back online. However, a client can
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still write a new object to a ``degraded`` placement group if it is ``active``.
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If an OSD is ``down`` and the ``degraded`` condition persists, Ceph may mark the
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``down`` OSD as ``out`` of the cluster and remap the data from the ``down`` OSD
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to another OSD. The time between being marked ``down`` and being marked ``out``
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is controlled by ``mon osd down out interval``, which is set to ``300`` seconds
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by default.
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A placement group can also be ``degraded``, because Ceph cannot find one or more
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objects that Ceph thinks should be in the placement group. While you cannot
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read or write to unfound objects, you can still access all of the other objects
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in the ``degraded`` placement group.
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Recovering
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----------
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Ceph was designed for fault-tolerance at a scale where hardware and software
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problems are ongoing. When an OSD goes ``down``, its contents may fall behind
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the current state of other replicas in the placement groups. When the OSD is
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back ``up``, the contents of the placement groups must be updated to reflect the
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current state. During that time period, the OSD may reflect a ``recovering``
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state.
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Recovery isn't always trivial, because a hardware failure might cause a
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cascading failure of multiple OSDs. For example, a network switch for a rack or
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cabinet may fail, which can cause the OSDs of a number of host machines to fall
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behind the current state of the cluster. Each one of the OSDs must recover once
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the fault is resolved.
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Ceph provides a number of settings to balance the resource contention between
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new service requests and the need to recover data objects and restore the
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placement groups to the current state. The ``osd recovery delay start`` setting
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allows an OSD to restart, re-peer and even process some replay requests before
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starting the recovery process. The ``osd recovery threads`` setting limits the
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number of threads for the recovery process (1 thread by default). The ``osd
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recovery thread timeout`` sets a thread timeout, because multiple OSDs may fail,
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restart and re-peer at staggered rates. The ``osd recovery max active`` setting
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limits the number of recovery requests an OSD will entertain simultaneously to
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prevent the OSD from failing to serve . The ``osd recovery max chunk`` setting
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limits the size of the recovered data chunks to prevent network congestion.
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Back Filling
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------------
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When a new OSD joins the cluster, CRUSH will reassign placement groups from OSDs
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in the cluster to the newly added OSD. Forcing the new OSD to accept the
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reassigned placement groups immediately can put excessive load on the new OSD.
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Back filling the OSD with the placement groups allows this process to begin in
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the background. Once backfilling is complete, the new OSD will begin serving
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requests when it is ready.
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During the backfill operations, you may see one of several states:
|
||
``backfill_wait`` indicates that a backfill operation is pending, but isn't
|
||
underway yet; ``backfill`` indicates that a backfill operation is underway;
|
||
and, ``backfill_too_full`` indicates that a backfill operation was requested,
|
||
but couldn't be completed due to insufficient storage capacity.
|
||
|
||
Ceph provides a number of settings to manage the load spike associated with
|
||
reassigning placement groups to an OSD (especially a new OSD). By default,
|
||
``osd_max_backfills`` sets the maximum number of concurrent backfills to or from
|
||
an OSD to 10. The ``osd backfill full ratio`` enables an OSD to refuse a
|
||
backfill request if the OSD is approaching its its full ratio (85%, by default).
|
||
If an OSD refuses a backfill request, the ``osd backfill retry interval``
|
||
enables an OSD to retry the request (after 10 seconds, by default). OSDs can
|
||
also set ``osd backfill scan min`` and ``osd backfill scan max`` to manage scan
|
||
intervals (64 and 512, by default).
|
||
|
||
|
||
Remapped
|
||
--------
|
||
|
||
When the Acting Set that services a placement group changes, the data migrates
|
||
from the old acting set to the new acting set. It may take some time for a new
|
||
primary OSD to service requests. So it may ask the old primary to continue to
|
||
service requests until the placement group migration is complete. Once data
|
||
migration completes, the mapping uses the primary OSD of the new acting set.
|
||
|
||
|
||
Stale
|
||
-----
|
||
|
||
While Ceph uses heartbeats to ensure that hosts and daemons are running, the
|
||
``ceph-osd`` daemons may also get into a ``stuck`` state where they aren't
|
||
reporting statistics in a timely manner (e.g., a temporary network fault). By
|
||
default, OSD daemons report their placement group, up thru, boot and failure
|
||
statistics every half second (i.e., ``0.5``), which is more frequent than the
|
||
heartbeat thresholds. If the **Primary OSD** of a placement group's acting set
|
||
fails to report to the monitor or if other OSDs have reported the primary OSD
|
||
``down``, the monitors will mark the placement group ``stale``.
|
||
|
||
When you start your cluster, it is common to see the ``stale`` state until
|
||
the peering process completes. After your cluster has been running for awhile,
|
||
seeing placement groups in the ``stale`` state indicates that the primary OSD
|
||
for those placement groups is ``down`` or not reporting placement group statistics
|
||
to the monitor.
|
||
|
||
|
||
Identifying Troubled PGs
|
||
========================
|
||
|
||
As previously noted, a placement group isn't necessarily problematic just
|
||
because its state isn't ``active+clean``. Generally, Ceph's ability to self
|
||
repair may not be working when placement groups get stuck. The stuck states
|
||
include:
|
||
|
||
- **Unclean**: Placement groups contain objects that are not replicated the
|
||
desired number of times. They should be recovering.
|
||
- **Inactive**: Placement groups cannot process reads or writes because they
|
||
are waiting for an OSD with the most up-to-date data to come back ``up``.
|
||
- **Stale**: Placement groups are in an unknown state, because the OSDs that
|
||
host them have not reported to the monitor cluster in a while (configured
|
||
by ``mon osd report timeout``).
|
||
|
||
To identify stuck placement groups, execute the following::
|
||
|
||
ceph pg dump_stuck [unclean|inactive|stale]
|
||
|
||
See `Placement Group Subsystem`_ for additional details. To troubleshoot
|
||
stuck placement groups, see `Troubleshooting PG Errors`_.
|
||
|
||
|
||
Finding an Object Location
|
||
==========================
|
||
|
||
To store object data in the Ceph Object Store, a Ceph client must:
|
||
|
||
#. Set an object name
|
||
#. Specify a `pool`_
|
||
|
||
The Ceph client retrieves the latest cluster map and the CRUSH algorithm
|
||
calculates how to map the object to a `placement group`_, and then calculates
|
||
how to assign the placement group to an OSD dynamically. To find the object
|
||
location, all you need is the object name and the pool name. For example::
|
||
|
||
ceph osd map {poolname} {object-name}
|
||
|
||
.. topic:: Excercise: Locate an Object
|
||
|
||
As an exercise, lets create an object. Specify an object name, a path to a
|
||
test file containing some object data and a pool name using the
|
||
``rados put`` command on the command line. For example::
|
||
|
||
rados put {object-name} {file-path} --pool=data
|
||
rados put test-object-1 testfile.txt --pool=data
|
||
|
||
To verify that the Ceph Object Store stored the object, execute the following::
|
||
|
||
rados -p data ls
|
||
|
||
Now, identify the object location::
|
||
|
||
ceph osd map {pool-name} {object-name}
|
||
ceph osd map data test-object-1
|
||
|
||
Ceph should output the object's location. For example::
|
||
|
||
osdmap e537 pool 'data' (0) object 'test-object-1' -> pg 0.d1743484 (0.4) -> up [1,0] acting [1,0]
|
||
|
||
To remove the test object, simply delete it using the ``rados rm`` command.
|
||
For example::
|
||
|
||
rados rm test-object-1 --pool=data
|
||
|
||
|
||
As the cluster evolves, the object location may change dynamically. One benefit
|
||
of Ceph's dynamic rebalancing is that Ceph relieves you from having to perform
|
||
the migration manually. See the `Architecture`_ section for details.
|
||
|
||
.. _data placement: ../data-placement
|
||
.. _pool: ../pools
|
||
.. _placement group: ../placement-groups
|
||
.. _Architecture: ../../../architecture
|
||
.. _OSD Not Running: ../../troubleshooting/troubleshooting-osd#osd-not-running
|
||
.. _Troubleshooting PG Errors: ../../troubleshooting/troubleshooting-pg#troubleshooting-pg-errors
|
||
.. _Peering Failure: ../../troubleshooting/troubleshooting-pg#failures-osd-peering
|
||
.. _CRUSH map: ../crush-map
|
||
.. _Configuring Monitor/OSD Interaction: ../../configuration/mon-osd-interaction/
|
||
.. _Placement Group Subsystem: ../control#placement-group-subsystem
|