Briefly, this error occurs when Elasticsearch is unable to fetch the file system statistics for a specific node, in this case, version 6.8. This could be due to insufficient permissions, a misconfigured node, or a network issue. To resolve this, you can check and adjust the permissions, ensure the node is correctly configured, or troubleshoot any potential network problems. Additionally, you can also check if the Elasticsearch version is compatible with the operating system and upgrade or downgrade if necessary.
When you have connectivity issues between Kibana & Elasticsearch you may get this log: unable to retrieve version information from Elasticsearch nodes, and in this case we recommend you try running the Elasticsearch Error Check-Up. The tool can help you pinpoint the source for connectivy issues and offer personalized recommendations on how to improve your ELK performance.
Overview
This is actually a Kibana error log message. Kibana, as well as other Elastic products (Beats, APM server…), interacts with an Elasticsearch cluster playing the role of a client application. This means you have to configure Kibana to access the Elasticsearch service as you normally would for any other client application, by setting up: host addresses for the service, ports, credentials and more. If your cluster is configured to encrypt communications with its clients, you’ll probably want to set some TLS related properties in Kibana’s configuration.
All of those properties can be set in Kibana’s configuration file, kibana.yml, which is typically located at the $KIBANA_HOME/config path. The location of this file can be easily changed by setting the KBN_PATH_CONF environment variable, as such:
KBN_PATH_CONF=/home/kibana/config ./bin/kibana
When it comes to connectivity with the cluster, the following properties are relevant:
- elasticsearch.hosts: The URLs of the Elasticsearch instances to use for all your queries. All nodes listed here must be on the same cluster. Default: [ “http://localhost:9200” ]. To enable SSL/TLS for outbound connections to Elasticsearch, use the https protocol in this setting.
- elasticsearch.username and elasticsearch.password: If your Elasticsearch is protected with basic authentication, these settings provide the username and password that the Kibana server uses to perform maintenance on the Kibana index at startup. Kibana users still need to authenticate with Elasticsearch, which is proxied through the Kibana server.
- elasticsearch.ssl.*: several configurations related to connection encryption.
In its bootstrap process, Kibana will try to connect to all Elasticsearch endpoints configured in elasticsearch.hosts in order to check their versions. This is important because Kibana obeys a strict compatibility matrix, so it can guarantee that there will be no API request errors.
What it means
Typically, you’ll see the “Unable to version information Elasticsearch nodes” message when Kibana can’t connect to one of the hosts included in elasticsearch.hosts for whatever reason. This can be a little misleading, because not only could it not retrieve the specific information (node version), but it actually couldn’t establish a connection at all with the node.
Possible causes
Here are some reasons why this might occur:
- If not all the endpoints included in elasticsearch.hosts are reachable. Check for connectivity and misspellings.
- If the KBN_PATH_CONF environment variable is set and pointing to a different config file.
- If there is a firewall between the Kibana instance and the Elasticsearch cluster preventing the connection from being established.
How to resolve it
To solve this issue just make sure your can establish a connection with all endpoints included in the elasticsearch.hosts configuration parameter, like this:
curl http://es01:9200/
Or in this way, if your cluster is available through https:
# Insecure curl -u elastic -k https://es01:9200/ # Secure curl -u elastic --cacert ~/certs/ca/ca.crt https://es01:9200/
You should receive a response that looks like this:
{ "name" : "node01", "cluster_name" : "elasticsearch", "cluster_uuid" : "fxP-R0FTRcmTl_AWs7-DiA", "version" : { "number" : "7.13.3", "build_flavor" : "default", "build_type" : "tar", "build_hash" : "5d21bea28db1e89ecc1f66311ebdec9dc3aa7d64", "build_date" : "2021-07-02T12:06:10.804015202Z", "build_snapshot" : false, "lucene_version" : "8.8.2", "minimum_wire_compatibility_version" : "6.8.0", "minimum_index_compatibility_version" : "6.0.0-beta1" }, "tagline" : "You Know, for Search" }
Log context
For those seeking for more of an in-depth context, you can look at the exact point of Kibana’s source code where this log message is emitted:
export function mapNodesVersionCompatibility( nodesInfoResponse: NodesInfo & { nodesInfoRequestError?: Error }, kibanaVersion: string, ignoreVersionMismatch: boolean ): NodesVersionCompatibility { if (Object.keys(nodesInfoResponse.nodes ?? {}).length === 0) { // Note: If the a nodesInfoRequestError is present, the message contains the nodesInfoRequestError.message as a suffix let message = `Unable to retrieve version information from Elasticsearch nodes.`; if (nodesInfoResponse.nodesInfoRequestError) { message = message + ` ${nodesInfoResponse.nodesInfoRequestError.message}`; } return { isCompatible: false, message, incompatibleNodes: [], warningNodes: [], kibanaVersion, nodesInfoRequestError: nodesInfoResponse.nodesInfoRequestError, }; } ...
Here you can see that Kibana will test every endpoint in elasticsearch.hosts:
const incompatibleNodes = nodes.filter( (node) => !esVersionCompatibleWithKibana(node.version, kibanaVersion) );
You might also be interested in the code that tests Kibana release version against Elasticsearch’s node release version:
export function esVersionCompatibleWithKibana(esVersion: string, kibanaVersion: string) { const esVersionNumbers = { major: semver.major(esVersion), minor: semver.minor(esVersion), patch: semver.patch(esVersion), }; const kibanaVersionNumbers = { major: semver.major(kibanaVersion), minor: semver.minor(kibanaVersion), patch: semver.patch(kibanaVersion), }; // Reject mismatching major version numbers. if (esVersionNumbers.major !== kibanaVersionNumbers.major) { return false; } // Reject older minor versions of ES. if (esVersionNumbers.minor < kibanaVersionNumbers.minor) { return false; } return true; }
Overview
To put it simply, a node is a single server that is part of a cluster. Each node is assigned one or more roles, which describe the node’s responsibility and operations. Data nodes store the data, and participate in the cluster’s indexing and search capabilities, while master nodes are responsible for managing the cluster’s activities and storing the cluster state, including the metadata.
While it is possible to run several node instances of Elasticsearch on the same hardware, it’s considered a best practice to limit a server to a single running instance of Elasticsearch.
Nodes connect to each other and form a cluster by using a discovery method.
Roles
Master node
Master nodes are in charge of cluster-wide settings and changes – deleting or creating indices and fields, adding or removing nodes and allocating shards to nodes. Each cluster has a single master node that is elected from the master eligible nodes using a distributed consensus algorithm and is reelected if the current master node fails.
Coordinating (client) node
There is some confusion in the use of coordinating node terminology. Client nodes were removed from Elasticsearch after version 2.4 and became coordinating nodes.
Coordinating nodes are nodes that do not hold any configured role. They don’t hold data and are not part of the master eligible group nor execute ingest pipelines. Coordinating nodes serve incoming search requests and act as the query coordinator running query and fetch phases, sending requests to every node that holds a shard being queried. The coordinating node also distributes bulk indexing operations and route queries to shards based on the node’s responsiveness.
Log Context
Log “Unable to retrieve node FS stats for {}” classname is InternalClusterInfoService.java.
We extracted the following from Elasticsearch source code for those seeking an in-depth context :
static void fillDiskUsagePerNode(Logger logger; ListnodeStatsArray; ImmutableOpenMap.Builder newLeastAvaiableUsages; ImmutableOpenMap.Builder newMostAvaiableUsages) { for (NodeStats nodeStats : nodeStatsArray) { if (nodeStats.getFs() == null) { logger.warn("Unable to retrieve node FS stats for {}"; nodeStats.getNode().getName()); } else { FsInfo.Path leastAvailablePath = null; FsInfo.Path mostAvailablePath = null; for (FsInfo.Path info : nodeStats.getFs()) { if (leastAvailablePath == null) {