mirror of
https://github.com/ceph/ceph
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6fc92dc981
Cleaner and easier. Also implicitly documents the config set command, which hadn't been explicitly called out in the docs before. Signed-off-by: John Spray <john.spray@redhat.com>
568 lines
23 KiB
ReStructuredText
568 lines
23 KiB
ReStructuredText
=================================
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Troubleshooting Monitors
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=================================
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.. index:: monitor, high availability
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When a cluster encounters monitor-related troubles there's a tendency to
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panic, and some times with good reason. You should keep in mind that losing
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a monitor, or a bunch of them, don't necessarily mean that your cluster is
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down, as long as a majority is up, running and with a formed quorum.
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Regardless of how bad the situation is, the first thing you should do is to
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calm down, take a breath and try answering our initial troubleshooting script.
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Initial Troubleshooting
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========================
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**Are the monitors running?**
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First of all, we need to make sure the monitors are running. You would be
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amazed by how often people forget to run the monitors, or restart them after
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an upgrade. There's no shame in that, but let's try not losing a couple of
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hours chasing an issue that is not there.
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**Are you able to connect to the monitor's servers?**
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Doesn't happen often, but sometimes people do have ``iptables`` rules that
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block accesses to monitor servers or monitor ports. Usually leftovers from
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monitor stress-testing that were forgotten at some point. Try ssh'ing into
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the server and, if that succeeds, try connecting to the monitor's port
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using you tool of choice (telnet, nc,...).
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**Does ceph -s run and obtain a reply from the cluster?**
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If the answer is yes then your cluster is up and running. One thing you
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can take for granted is that the monitors will only answer to a ``status``
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request if there is a formed quorum.
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If ``ceph -s`` blocked however, without obtaining a reply from the cluster
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or showing a lot of ``fault`` messages, then it is likely that your monitors
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are either down completely or just a portion is up -- a portion that is not
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enough to form a quorum (keep in mind that a quorum if formed by a majority
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of monitors).
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**What if ceph -s doesn't finish?**
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If you haven't gone through all the steps so far, please go back and do.
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For those running on Emperor 0.72-rc1 and forward, you will be able to
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contact each monitor individually asking them for their status, regardless
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of a quorum being formed. This can be achieved using ``ceph ping mon.ID``,
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ID being the monitor's identifier. You should perform this for each monitor
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in the cluster. In section `Understanding mon_status`_ we will explain how
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to interpret the output of this command.
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For the rest of you who don't tread on the bleeding edge, you will need to
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ssh into the server and use the monitor's admin socket. Please jump to
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`Using the monitor's admin socket`_.
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For other specific issues, keep on reading.
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Using the monitor's admin socket
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=================================
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The admin socket allows you to interact with a given daemon directly using a
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Unix socket file. This file can be found in your monitor's ``run`` directory.
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By default, the admin socket will be kept in ``/var/run/ceph/ceph-mon.ID.asok``
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but this can vary if you defined it otherwise. If you don't find it there,
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please check your ``ceph.conf`` for an alternative path or run::
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ceph-conf --name mon.ID --show-config-value admin_socket
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Please bear in mind that the admin socket will only be available while the
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monitor is running. When the monitor is properly shutdown, the admin socket
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will be removed. If however the monitor is not running and the admin socket
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still persists, it is likely that the monitor was improperly shutdown.
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Regardless, if the monitor is not running, you will not be able to use the
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admin socket, with ``ceph`` likely returning ``Error 111: Connection Refused``.
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Accessing the admin socket is as simple as telling the ``ceph`` tool to use
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the ``asok`` file. In pre-Dumpling Ceph, this can be achieved by::
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ceph --admin-daemon /var/run/ceph/ceph-mon.<id>.asok <command>
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while in Dumpling and beyond you can use the alternate (and recommended)
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format::
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ceph daemon mon.<id> <command>
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Using ``help`` as the command to the ``ceph`` tool will show you the
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supported commands available through the admin socket. Please take a look
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at ``config get``, ``config show``, ``mon_status`` and ``quorum_status``,
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as those can be enlightening when troubleshooting a monitor.
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Understanding mon_status
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=========================
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``mon_status`` can be obtained through the ``ceph`` tool when you have
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a formed quorum, or via the admin socket if you don't. This command will
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output a multitude of information about the monitor, including the same
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output you would get with ``quorum_status``.
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Take the following example of ``mon_status``::
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{ "name": "c",
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"rank": 2,
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"state": "peon",
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"election_epoch": 38,
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"quorum": [
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1,
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2],
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"outside_quorum": [],
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"extra_probe_peers": [],
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"sync_provider": [],
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"monmap": { "epoch": 3,
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"fsid": "5c4e9d53-e2e1-478a-8061-f543f8be4cf8",
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"modified": "2013-10-30 04:12:01.945629",
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"created": "2013-10-29 14:14:41.914786",
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"mons": [
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{ "rank": 0,
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"name": "a",
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"addr": "127.0.0.1:6789\/0"},
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{ "rank": 1,
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"name": "b",
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"addr": "127.0.0.1:6790\/0"},
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{ "rank": 2,
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"name": "c",
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"addr": "127.0.0.1:6795\/0"}]}}
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A couple of things are obvious: we have three monitors in the monmap (*a*, *b*
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and *c*), the quorum is formed by only two monitors, and *c* is in the quorum
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as a *peon*.
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Which monitor is out of the quorum?
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The answer would be **a**.
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Why?
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Take a look at the ``quorum`` set. We have two monitors in this set: *1*
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and *2*. These are not monitor names. These are monitor ranks, as established
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in the current monmap. We are missing the monitor with rank 0, and according
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to the monmap that would be ``mon.a``.
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By the way, how are ranks established?
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Ranks are (re)calculated whenever you add or remove monitors and follow a
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simple rule: the **greater** the ``IP:PORT`` combination, the **lower** the
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rank is. In this case, considering that ``127.0.0.1:6789`` is lower than all
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the remaining ``IP:PORT`` combinations, ``mon.a`` has rank 0.
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Most Common Monitor Issues
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===========================
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Have Quorum but at least one Monitor is down
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---------------------------------------------
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When this happens, depending on the version of Ceph you are running,
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you should be seeing something similar to::
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$ ceph health detail
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[snip]
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mon.a (rank 0) addr 127.0.0.1:6789/0 is down (out of quorum)
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How to troubleshoot this?
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First, make sure ``mon.a`` is running.
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Second, make sure you are able to connect to ``mon.a``'s server from the
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other monitors' servers. Check the ports as well. Check ``iptables`` on
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all your monitor nodes and make sure you are not dropping/rejecting
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connections.
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If this initial troubleshooting doesn't solve your problems, then it's
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time to go deeper.
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First, check the problematic monitor's ``mon_status`` via the admin
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socket as explained in `Using the monitor's admin socket`_ and
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`Understanding mon_status`_.
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Considering the monitor is out of the quorum, its state should be one of
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``probing``, ``electing`` or ``synchronizing``. If it happens to be either
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``leader`` or ``peon``, then the monitor believes to be in quorum, while
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the remaining cluster is sure it is not; or maybe it got into the quorum
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while we were troubleshooting the monitor, so check you ``ceph -s`` again
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just to make sure. Proceed if the monitor is not yet in the quorum.
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What if the state is ``probing``?
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This means the monitor is still looking for the other monitors. Every time
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you start a monitor, the monitor will stay in this state for some time
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while trying to find the rest of the monitors specified in the ``monmap``.
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The time a monitor will spend in this state can vary. For instance, when on
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a single-monitor cluster, the monitor will pass through the probing state
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almost instantaneously, since there are no other monitors around. On a
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multi-monitor cluster, the monitors will stay in this state until they
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find enough monitors to form a quorum -- this means that if you have 2 out
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of 3 monitors down, the one remaining monitor will stay in this state
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indefinitively until you bring one of the other monitors up.
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If you have a quorum, however, the monitor should be able to find the
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remaining monitors pretty fast, as long as they can be reached. If your
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monitor is stuck probing and you have gone through with all the communication
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troubleshooting, then there is a fair chance that the monitor is trying
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to reach the other monitors on a wrong address. ``mon_status`` outputs the
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``monmap`` known to the monitor: check if the other monitor's locations
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match reality. If they don't, jump to
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`Recovering a Monitor's Broken monmap`_; if they do, then it may be related
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to severe clock skews amongst the monitor nodes and you should refer to
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`Clock Skews`_ first, but if that doesn't solve your problem then it is
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the time to prepare some logs and reach out to the community (please refer
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to `Preparing your logs`_ on how to best prepare your logs).
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What if state is ``electing``?
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This means the monitor is in the middle of an election. These should be
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fast to complete, but at times the monitors can get stuck electing. This
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is usually a sign of a clock skew among the monitor nodes; jump to
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`Clock Skews`_ for more infos on that. If all your clocks are properly
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synchronized, it is best if you prepare some logs and reach out to the
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community. This is not a state that is likely to persist and aside from
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(*really*) old bugs there is not an obvious reason besides clock skews on
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why this would happen.
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What if state is ``synchronizing``?
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This means the monitor is synchronizing with the rest of the cluster in
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order to join the quorum. The synchronization process is as faster as
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smaller your monitor store is, so if you have a big store it may
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take a while. Don't worry, it should be finished soon enough.
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However, if you notice that the monitor jumps from ``synchronizing`` to
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``electing`` and then back to ``synchronizing``, then you do have a
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problem: the cluster state is advancing (i.e., generating new maps) way
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too fast for the synchronization process to keep up. This used to be a
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thing in early Cuttlefish, but since then the synchronization process was
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quite refactored and enhanced to avoid just this sort of behavior. If this
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happens in later versions let us know. And bring some logs
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(see `Preparing your logs`_).
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What if state is ``leader`` or ``peon``?
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This should not happen. There is a chance this might happen however, and
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it has a lot to do with clock skews -- see `Clock Skews`_. If you are not
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suffering from clock skews, then please prepare your logs (see
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`Preparing your logs`_) and reach out to us.
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Recovering a Monitor's Broken monmap
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-------------------------------------
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This is how a ``monmap`` usually looks like, depending on the number of
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monitors::
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epoch 3
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fsid 5c4e9d53-e2e1-478a-8061-f543f8be4cf8
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last_changed 2013-10-30 04:12:01.945629
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created 2013-10-29 14:14:41.914786
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0: 127.0.0.1:6789/0 mon.a
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1: 127.0.0.1:6790/0 mon.b
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2: 127.0.0.1:6795/0 mon.c
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This may not be what you have however. For instance, in some versions of
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early Cuttlefish there was this one bug that could cause your ``monmap``
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to be nullified. Completely filled with zeros. This means that not even
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``monmaptool`` would be able to read it because it would find it hard to
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make sense of only-zeros. Some other times, you may end up with a monitor
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with a severely outdated monmap, thus being unable to find the remaining
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monitors (e.g., say ``mon.c`` is down; you add a new monitor ``mon.d``,
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then remove ``mon.a``, then add a new monitor ``mon.e`` and remove
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``mon.b``; you will end up with a totally different monmap from the one
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``mon.c`` knows).
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In this sort of situations, you have two possible solutions:
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Scrap the monitor and create a new one
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You should only take this route if you are positive that you won't
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lose the information kept by that monitor; that you have other monitors
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and that they are running just fine so that your new monitor is able
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to synchronize from the remaining monitors. Keep in mind that destroying
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a monitor, if there are no other copies of its contents, may lead to
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loss of data.
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Inject a monmap into the monitor
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Usually the safest path. You should grab the monmap from the remaining
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monitors and inject it into the monitor with the corrupted/lost monmap.
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These are the basic steps:
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1. Is there a formed quorum? If so, grab the monmap from the quorum::
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$ ceph mon getmap -o /tmp/monmap
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2. No quorum? Grab the monmap directly from another monitor (this
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assumes the monitor you are grabbing the monmap from has id ID-FOO
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and has been stopped)::
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$ ceph-mon -i ID-FOO --extract-monmap /tmp/monmap
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3. Stop the monitor you are going to inject the monmap into.
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4. Inject the monmap::
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$ ceph-mon -i ID --inject-monmap /tmp/monmap
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5. Start the monitor
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Please keep in mind that the ability to inject monmaps is a powerful
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feature that can cause havoc with your monitors if misused as it will
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overwrite the latest, existing monmap kept by the monitor.
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Clock Skews
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------------
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Monitors can be severely affected by significant clock skews across the
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monitor nodes. This usually translates into weird behavior with no obvious
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cause. To avoid such issues, you should run a clock synchronization tool
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on your monitor nodes.
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What's the maximum tolerated clock skew?
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By default the monitors will allow clocks to drift up to ``0.05 seconds``.
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Can I increase the maximum tolerated clock skew?
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This value is configurable via the ``mon-clock-drift-allowed`` option, and
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although you *CAN* it doesn't mean you *SHOULD*. The clock skew mechanism
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is in place because clock skewed monitor may not properly behave. We, as
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developers and QA afficcionados, are comfortable with the current default
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value, as it will alert the user before the monitors get out hand. Changing
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this value without testing it first may cause unforeseen effects on the
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stability of the monitors and overall cluster healthiness, although there is
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no risk of dataloss.
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How do I know there's a clock skew?
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The monitors will warn you in the form of a ``HEALTH_WARN``. ``ceph health
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detail`` should show something in the form of::
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mon.c addr 10.10.0.1:6789/0 clock skew 0.08235s > max 0.05s (latency 0.0045s)
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That means that ``mon.c`` has been flagged as suffering from a clock skew.
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What should I do if there's a clock skew?
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Synchronize your clocks. Running an NTP client may help. If you are already
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using one and you hit this sort of issues, check if you are using some NTP
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server remote to your network and consider hosting your own NTP server on
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your network. This last option tends to reduce the amount of issues with
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monitor clock skews.
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Client Can't Connect or Mount
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------------------------------
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Check your IP tables. Some OS install utilities add a ``REJECT`` rule to
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``iptables``. The rule rejects all clients trying to connect to the host except
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for ``ssh``. If your monitor host's IP tables have such a ``REJECT`` rule in
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place, clients connecting from a separate node will fail to mount with a timeout
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error. You need to address ``iptables`` rules that reject clients trying to
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connect to Ceph daemons. For example, you would need to address rules that look
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like this appropriately::
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REJECT all -- anywhere anywhere reject-with icmp-host-prohibited
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You may also need to add rules to IP tables on your Ceph hosts to ensure
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that clients can access the ports associated with your Ceph monitors (i.e., port
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6789 by default) and Ceph OSDs (i.e., 6800 through 7300 by default). For
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example::
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iptables -A INPUT -m multiport -p tcp -s {ip-address}/{netmask} --dports 6789,6800:7300 -j ACCEPT
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Monitor Store Failures
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======================
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Symptoms of store corruption
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----------------------------
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Ceph monitor stores the `cluster map`_ in a key/value store such as LevelDB. If
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a monitor fails due to the key/value store corruption, following error messages
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might be found in the monitor log::
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Corruption: error in middle of record
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or::
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Corruption: 1 missing files; e.g.: /var/lib/ceph/mon/mon.0/store.db/1234567.ldb
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Recovery using healthy monitor(s)
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---------------------------------
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If there is any survivers, we can always `replace`_ the corrupted one with a
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new one. And after booting up, the new joiner will sync up with a healthy
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peer, and once it is fully sync'ed, it will be able to serve the clients.
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Recovery using OSDs
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-------------------
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But what if all monitors fail at the same time? Since users are encouraged to
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deploy at least three monitors in a Ceph cluster, the chance of simultaneous
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failure is rare. But unplanned power-downs in a data center with improperly
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configured disk/fs settings could fail the underlying filesystem, and hence
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kill all the monitors. In this case, we can recover the monitor store with the
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information stored in OSDs.::
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ms=/tmp/mon-store
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mkdir $ms
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# collect the cluster map from OSDs
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for host in $hosts; do
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rsync -avz $ms user@host:$ms
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rm -rf $ms
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ssh user@host <<EOF
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for osd in /var/lib/osd/osd-*; do
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ceph-objectstore-tool --data-path \$osd --op update-mon-db --mon-store-path $ms
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done
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EOF
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rsync -avz user@host:$ms $ms
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done
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# rebuild the monitor store from the collected map, if the cluster does not
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# use cephx authentication, we can skip the following steps to update the
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# keyring with the caps, and there is no need to pass the "--keyring" option.
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# i.e. just use "ceph-monstore-tool /tmp/mon-store rebuild" instead
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ceph-authtool /path/to/admin.keyring -n mon. \
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--cap mon 'allow *'
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ceph-authtool /path/to/admin.keyring -n client.admin \
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--cap mon 'allow *' --cap osd 'allow *' --cap mds 'allow *'
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ceph-monstore-tool /tmp/mon-store rebuild -- --keyring /path/to/admin.keyring
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# backup corrupted store.db just in case
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mv /var/lib/ceph/mon/mon.0/store.db /var/lib/ceph/mon/mon.0/store.db.corrupted
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mv /tmp/mon-store/store.db /var/lib/ceph/mon/mon.0/store.db
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chown -R ceph:ceph /var/lib/ceph/mon/mon.0/store.db
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The steps above
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#. collect the map from all OSD hosts,
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#. then rebuild the store,
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#. fill the entities in keyring file with appropriate caps
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#. replace the corrupted store on ``mon.0`` with the recovered copy.
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Known limitations
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~~~~~~~~~~~~~~~~~
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Following information are not recoverable using the steps above:
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- **some added keyrings**: all the OSD keyrings added using ``ceph auth add`` command
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are recovered from the OSD's copy. And the ``client.admin`` keyring is imported
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using ``ceph-monstore-tool``. But the MDS keyrings and other keyrings are missing
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in the recovered monitor store. You might need to re-add them manually.
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- **pg settings**: the ``full ratio`` and ``nearfull ratio`` settings configured using
|
|
``ceph pg set_full_ratio`` and ``ceph pg set_nearfull_ratio`` will be lost.
|
|
|
|
- **MDS Maps**: the MDS maps are lost.
|
|
|
|
|
|
Everything Failed! Now What?
|
|
=============================
|
|
|
|
Reaching out for help
|
|
----------------------
|
|
|
|
You can find us on IRC at #ceph and #ceph-devel at OFTC (server irc.oftc.net)
|
|
and on ``ceph-devel@vger.kernel.org`` and ``ceph-users@lists.ceph.com``. Make
|
|
sure you have grabbed your logs and have them ready if someone asks: the faster
|
|
the interaction and lower the latency in response, the better chances everyone's
|
|
time is optimized.
|
|
|
|
|
|
Preparing your logs
|
|
---------------------
|
|
|
|
Monitor logs are, by default, kept in ``/var/log/ceph/ceph-mon.FOO.log*``. We
|
|
may want them. However, your logs may not have the necessary information. If
|
|
you don't find your monitor logs at their default location, you can check
|
|
where they should be by running::
|
|
|
|
ceph-conf --name mon.FOO --show-config-value log_file
|
|
|
|
The amount of information in the logs are subject to the debug levels being
|
|
enforced by your configuration files. If you have not enforced a specific
|
|
debug level then Ceph is using the default levels and your logs may not
|
|
contain important information to track down you issue.
|
|
A first step in getting relevant information into your logs will be to raise
|
|
debug levels. In this case we will be interested in the information from the
|
|
monitor.
|
|
Similarly to what happens on other components, different parts of the monitor
|
|
will output their debug information on different subsystems.
|
|
|
|
You will have to raise the debug levels of those subsystems more closely
|
|
related to your issue. This may not be an easy task for someone unfamiliar
|
|
with troubleshooting Ceph. For most situations, setting the following options
|
|
on your monitors will be enough to pinpoint a potential source of the issue::
|
|
|
|
debug mon = 10
|
|
debug ms = 1
|
|
|
|
If we find that these debug levels are not enough, there's a chance we may
|
|
ask you to raise them or even define other debug subsystems to obtain infos
|
|
from -- but at least we started off with some useful information, instead
|
|
of a massively empty log without much to go on with.
|
|
|
|
Do I need to restart a monitor to adjust debug levels?
|
|
------------------------------------------------------
|
|
|
|
No. You may do it in one of two ways:
|
|
|
|
You have quorum
|
|
|
|
Either inject the debug option into the monitor you want to debug::
|
|
|
|
ceph tell mon.FOO config set debug_mon 10/10
|
|
|
|
or into all monitors at once::
|
|
|
|
ceph tell mon.* config set debug_mon 10/10
|
|
|
|
No quourm
|
|
|
|
Use the monitor's admin socket and directly adjust the configuration
|
|
options::
|
|
|
|
ceph daemon mon.FOO config set debug_mon 10/10
|
|
|
|
|
|
Going back to default values is as easy as rerunning the above commands
|
|
using the debug level ``1/10`` instead. You can check your current
|
|
values using the admin socket and the following commands::
|
|
|
|
ceph daemon mon.FOO config show
|
|
|
|
or::
|
|
|
|
ceph daemon mon.FOO config get 'OPTION_NAME'
|
|
|
|
|
|
Reproduced the problem with appropriate debug levels. Now what?
|
|
----------------------------------------------------------------
|
|
|
|
Ideally you would send us only the relevant portions of your logs.
|
|
We realise that figuring out the corresponding portion may not be the
|
|
easiest of tasks. Therefore, we won't hold it to you if you provide the
|
|
full log, but common sense should be employed. If your log has hundreds
|
|
of thousands of lines, it may get tricky to go through the whole thing,
|
|
specially if we are not aware at which point, whatever your issue is,
|
|
happened. For instance, when reproducing, keep in mind to write down
|
|
current time and date and to extract the relevant portions of your logs
|
|
based on that.
|
|
|
|
Finally, you should reach out to us on the mailing lists, on IRC or file
|
|
a new issue on the `tracker`_.
|
|
|
|
.. _cluster map: ../../architecture#cluster-map
|
|
.. _replace: ../operation/add-or-rm-mons
|
|
.. _tracker: http://tracker.ceph.com/projects/ceph/issues/new
|