Troubleshooting discoveryedit
In most cases, the discovery and election process completes quickly, and the master node remains elected for a long period of time.
If your cluster doesn’t have a stable master, many of its features won’t work correctly and Elasticsearch will report errors to clients and in its logs. You must fix the master node’s instability before addressing these other issues. It will not be possible to solve any other issues while there is no elected master node or the elected master node is unstable.
If your cluster has a stable master but some nodes can’t discover or join it, these nodes will report errors to clients and in their logs. You must address the obstacles preventing these nodes from joining the cluster before addressing other issues. It will not be possible to solve any other issues reported by these nodes while they are unable to join the cluster.
If the cluster has no elected master node for more than a few seconds, the master is unstable, or some nodes are unable to discover or join a stable master, then Elasticsearch will record information in its logs explaining why. If the problems persist for more than a few minutes, Elasticsearch will record additional information in its logs. To properly troubleshoot discovery and election problems, collect and analyse logs covering at least five minutes from all nodes.
The following sections describe some common discovery and election problems.
No master is electededit
When a node wins the master election, it logs a message containing
elected-as-master
and all nodes log a message containing
master node changed
identifying the new elected master node.
If there is no elected master node and no node can win an election, all
nodes will repeatedly log messages about the problem using a logger called
org.elasticsearch.cluster.coordination.ClusterFormationFailureHelper
. By
default, this happens every 10 seconds.
Master elections only involve master-eligible nodes, so focus your attention on the master-eligible nodes in this situation. These nodes' logs will indicate the requirements for a master election, such as the discovery of a certain set of nodes. The Health API on these nodes will also provide useful information about the situation.
If the logs or the health report indicate that Elasticsearch can’t discover enough nodes to form a quorum, you must address the reasons preventing Elasticsearch from discovering the missing nodes. The missing nodes are needed to reconstruct the cluster metadata. Without the cluster metadata, the data in your cluster is meaningless. The cluster metadata is stored on a subset of the master-eligible nodes in the cluster. If a quorum can’t be discovered, the missing nodes were the ones holding the cluster metadata.
Ensure there are enough nodes running to form a quorum and that every node can communicate with every other node over the network. Elasticsearch will report additional details about network connectivity if the election problems persist for more than a few minutes. If you can’t start enough nodes to form a quorum, start a new cluster and restore data from a recent snapshot. Refer to Quorum-based decision making for more information.
If the logs or the health report indicate that Elasticsearch has discovered a possible quorum of nodes, the typical reason that the cluster can’t elect a master is that one of the other nodes can’t discover a quorum. Inspect the logs on the other master-eligible nodes and ensure that they have all discovered enough nodes to form a quorum.
If the logs suggest that discovery or master elections are failing due to timeouts or network-related issues then narrow down the problem as follows.
-
GC pauses are recorded in the GC logs that Elasticsearch emits by default, and also
usually by the
JvmMonitorService
in the main node logs. Use these logs to confirm whether or not GC is resulting in delays. - VM pauses also affect other processes on the same host. A VM pause also typically causes a discontinuity in the system clock, which Elasticsearch will report in its logs.
- Packet captures will reveal system-level and network-level faults, especially if you capture the network traffic simultaneously at all relevant nodes. You should be able to observe any retransmissions, packet loss, or other delays on the connections between the nodes.
-
Long waits for particular threads to be available can be identified by taking stack dumps (for example, using
jstack
) or a profiling trace (for example, using Java Flight Recorder) in the few seconds leading up to the relevant log message.The Nodes hot threads API sometimes yields useful information, but bear in mind that this API also requires a number of
transport_worker
andgeneric
threads across all the nodes in the cluster. The API may be affected by the very problem you’re trying to diagnose.jstack
is much more reliable since it doesn’t require any JVM threads.The threads involved in discovery and cluster membership are mainly
transport_worker
andcluster_coordination
threads, for which there should never be a long wait. There may also be evidence of long waits for threads in the Elasticsearch logs. See Networking threading model for more information.
Master is elected but unstableedit
When a node wins the master election, it logs a message containing
elected-as-master
. If this happens repeatedly, the elected master node is
unstable. In this situation, focus on the logs from the master-eligible nodes
to understand why the election winner stops being the master and triggers
another election. If the logs suggest that the master is unstable due to
timeouts or network-related issues then narrow down the problem as follows.
-
GC pauses are recorded in the GC logs that Elasticsearch emits by default, and also
usually by the
JvmMonitorService
in the main node logs. Use these logs to confirm whether or not GC is resulting in delays. - VM pauses also affect other processes on the same host. A VM pause also typically causes a discontinuity in the system clock, which Elasticsearch will report in its logs.
- Packet captures will reveal system-level and network-level faults, especially if you capture the network traffic simultaneously at all relevant nodes. You should be able to observe any retransmissions, packet loss, or other delays on the connections between the nodes.
-
Long waits for particular threads to be available can be identified by taking stack dumps (for example, using
jstack
) or a profiling trace (for example, using Java Flight Recorder) in the few seconds leading up to the relevant log message.The Nodes hot threads API sometimes yields useful information, but bear in mind that this API also requires a number of
transport_worker
andgeneric
threads across all the nodes in the cluster. The API may be affected by the very problem you’re trying to diagnose.jstack
is much more reliable since it doesn’t require any JVM threads.The threads involved in discovery and cluster membership are mainly
transport_worker
andcluster_coordination
threads, for which there should never be a long wait. There may also be evidence of long waits for threads in the Elasticsearch logs. See Networking threading model for more information.
Node cannot discover or join stable masteredit
If there is a stable elected master but a node can’t discover or join its
cluster, it will repeatedly log messages about the problem using the
ClusterFormationFailureHelper
logger. The Health API on the affected
node will also provide useful information about the situation. Other log
messages on the affected node and the elected master may provide additional
information about the problem. If the logs suggest that the node cannot
discover or join the cluster due to timeouts or network-related issues then
narrow down the problem as follows.
-
GC pauses are recorded in the GC logs that Elasticsearch emits by default, and also
usually by the
JvmMonitorService
in the main node logs. Use these logs to confirm whether or not GC is resulting in delays. - VM pauses also affect other processes on the same host. A VM pause also typically causes a discontinuity in the system clock, which Elasticsearch will report in its logs.
- Packet captures will reveal system-level and network-level faults, especially if you capture the network traffic simultaneously at all relevant nodes. You should be able to observe any retransmissions, packet loss, or other delays on the connections between the nodes.
-
Long waits for particular threads to be available can be identified by taking stack dumps (for example, using
jstack
) or a profiling trace (for example, using Java Flight Recorder) in the few seconds leading up to the relevant log message.The Nodes hot threads API sometimes yields useful information, but bear in mind that this API also requires a number of
transport_worker
andgeneric
threads across all the nodes in the cluster. The API may be affected by the very problem you’re trying to diagnose.jstack
is much more reliable since it doesn’t require any JVM threads.The threads involved in discovery and cluster membership are mainly
transport_worker
andcluster_coordination
threads, for which there should never be a long wait. There may also be evidence of long waits for threads in the Elasticsearch logs. See Networking threading model for more information.
Node joins cluster and leaves againedit
If a node joins the cluster but Elasticsearch determines it to be faulty then it will be removed from the cluster again. See Troubleshooting an unstable cluster for more information.