Install Elasticsearch with Docker
editInstall Elasticsearch with Docker
editElasticsearch is also available as Docker images. The images use centos:7 as the base image.
A list of all published Docker images and tags is available at www.docker.elastic.co. The source files are in Github.
These images are free to use under the Elastic license. They contain open source and free commercial features and access to paid commercial features. Start a 30-day trial to try out all of the paid commercial features. See the Subscriptions page for information about Elastic license levels.
Pulling the image
editObtaining Elasticsearch for Docker is as simple as issuing a docker pull
command
against the Elastic Docker registry.
docker pull docker.elastic.co/elasticsearch/elasticsearch:6.6.2
Alternatively, you can download other Docker images that contain only features available under the Apache 2.0 license. To download the images, go to www.docker.elastic.co.
Running Elasticsearch from the command line
editDevelopment mode
editElasticsearch can be quickly started for development or testing use with the following command:
docker run -p 9200:9200 -p 9300:9300 -e "discovery.type=single-node" docker.elastic.co/elasticsearch/elasticsearch:6.6.2
Production mode
editThe vm.max_map_count
kernel setting needs to be set to at least 262144
for
production use.
Depending on your platform:
-
Linux
The
vm.max_map_count
setting should be set permanently in /etc/sysctl.conf:$ grep vm.max_map_count /etc/sysctl.conf vm.max_map_count=262144
To apply the setting on a live system type:
sysctl -w vm.max_map_count=262144
-
macOS with Docker for Mac
The
vm.max_map_count
setting must be set within the xhyve virtual machine:$ screen ~/Library/Containers/com.docker.docker/Data/vms/0/tty
Just press enter and configure the
sysctl
setting as you would for Linux:sysctl -w vm.max_map_count=262144
-
Windows and macOS with Docker Toolbox
The
vm.max_map_count
setting must be set via docker-machine:docker-machine ssh sudo sysctl -w vm.max_map_count=262144
The following example brings up a cluster comprising two Elasticsearch nodes.
To bring up the cluster, use the
docker-compose.yml
and just type:
docker-compose up
docker-compose
is not pre-installed with Docker on Linux.
Instructions for installing it can be found on the
Docker Compose webpage.
The node elasticsearch
listens on localhost:9200
while elasticsearch2
talks to elasticsearch
over a Docker network.
This example also uses
Docker named volumes,
called esdata1
and esdata2
which will be created if not already present.
version: '2.2' services: elasticsearch: image: docker.elastic.co/elasticsearch/elasticsearch:6.6.2 container_name: elasticsearch environment: - cluster.name=docker-cluster - bootstrap.memory_lock=true - "ES_JAVA_OPTS=-Xms512m -Xmx512m" ulimits: memlock: soft: -1 hard: -1 volumes: - esdata1:/usr/share/elasticsearch/data ports: - 9200:9200 networks: - esnet elasticsearch2: image: docker.elastic.co/elasticsearch/elasticsearch:6.6.2 container_name: elasticsearch2 environment: - cluster.name=docker-cluster - bootstrap.memory_lock=true - "ES_JAVA_OPTS=-Xms512m -Xmx512m" - "discovery.zen.ping.unicast.hosts=elasticsearch" ulimits: memlock: soft: -1 hard: -1 volumes: - esdata2:/usr/share/elasticsearch/data networks: - esnet volumes: esdata1: driver: local esdata2: driver: local networks: esnet:
To stop the cluster, type docker-compose down
. Data volumes will persist, so
it’s possible to start the cluster again with the same data using
docker-compose up`. To destroy the cluster and the data volumes, just type
docker-compose down -v
.
Inspect status of cluster:
editcurl http://127.0.0.1:9200/_cat/health 1472225929 15:38:49 docker-cluster green 2 2 4 2 0 0 0 0 - 100.0%
Log messages go to the console and are handled by the configured Docker logging
driver. By default you can access logs with docker logs
.
Configuring Elasticsearch with Docker
editElasticsearch loads its configuration from files under /usr/share/elasticsearch/config/
.
These configuration files are documented in Configuring Elasticsearch and Setting JVM options.
The image offers several methods for configuring Elasticsearch settings with the
conventional approach being to provide customized files, that is to say,
elasticsearch.yml
. It’s also possible to use environment variables to set
options:
A. Present the parameters via Docker environment variables
editFor example, to define the cluster name with docker run
you can pass
-e "cluster.name=mynewclustername"
. Double quotes are required.
B. Bind-mounted configuration
editCreate your custom config file and mount this over the image’s corresponding file.
For example, bind-mounting a custom_elasticsearch.yml
with docker run
can be
accomplished with the parameter:
-v full_path_to/custom_elasticsearch.yml:/usr/share/elasticsearch/config/elasticsearch.yml
The container runs Elasticsearch as user elasticsearch
using uid:gid 1000:1000
.
Bind mounted host directories and files, such as custom_elasticsearch.yml
above,
need to be accessible by this user. For the data and log dirs,
such as /usr/share/elasticsearch/data
, write access is required as well.
Also see note 1 below.
C. Customized image
editIn some environments, it may make more sense to prepare a custom image containing
your configuration. A Dockerfile
to achieve this may be as simple as:
FROM docker.elastic.co/elasticsearch/elasticsearch:6.6.2 COPY --chown=elasticsearch:elasticsearch elasticsearch.yml /usr/share/elasticsearch/config/
You could then build and try the image with something like:
docker build --tag=elasticsearch-custom . docker run -ti -v /usr/share/elasticsearch/data elasticsearch-custom
Some plugins require additional security permissions. You have to explicitly accept
them either by attaching a tty
when you run the Docker image and accepting yes at
the prompts, or inspecting the security permissions separately and if you are
comfortable with them adding the --batch
flag to the plugin install command.
See Plugin Management documentation
for more details.
Configuring SSL/TLS with the Elasticsearch Docker image
editSee Encrypting communications in an Elasticsearch Docker Container.
Notes for production use and defaults
editWe have collected a number of best practices for production use.
Any Docker parameters mentioned below assume the use of docker run
.
-
By default, Elasticsearch runs inside the container as user
elasticsearch
using uid:gid1000:1000
.One exception is Openshift which runs containers using an arbitrarily assigned user ID. Openshift will present persistent volumes with the gid set to
0
which will work without any adjustments.If you are bind-mounting a local directory or file, ensure it is readable by this user, while the data and log dirs additionally require write access. A good strategy is to grant group access to gid
1000
or0
for the local directory. As an example, to prepare a local directory for storing data through a bind-mount:mkdir esdatadir chmod g+rwx esdatadir chgrp 1000 esdatadir
As a last resort, you can also force the container to mutate the ownership of any bind-mounts used for the data and log dirs through the environment variable
TAKE_FILE_OWNERSHIP
; in this case they will be owned by uid:gid1000:0
providing read/write access to the Elasticsearch process as required. -
It is important to ensure increased ulimits for nofile and nproc are available for the Elasticsearch containers. Verify the init system for the Docker daemon is already setting those to acceptable values and, if needed, adjust them in the Daemon, or override them per container, for example using
docker run
:--ulimit nofile=65536:65536
One way of checking the Docker daemon defaults for the aforementioned ulimits is by running:
docker run --rm centos:7 /bin/bash -c 'ulimit -Hn && ulimit -Sn && ulimit -Hu && ulimit -Su'
-
Swapping needs to be disabled for performance and node stability. This can be achieved through any of the methods mentioned in the Elasticsearch docs. If you opt for the
bootstrap.memory_lock: true
approach, apart from defining it through any of the configuration methods, you will additionally need thememlock: true
ulimit, either defined in the Docker Daemon or specifically set for the container. This is demonstrated above in the docker-compose.yml. If usingdocker run
:-e "bootstrap.memory_lock=true" --ulimit memlock=-1:-1
-
The image exposes
TCP ports 9200 and 9300. For clusters it is recommended to randomize the
published ports with
--publish-all
, unless you are pinning one container per host. -
Use the
ES_JAVA_OPTS
environment variable to set heap size. For example, to use 16GB use-e ES_JAVA_OPTS="-Xms16g -Xmx16g"
withdocker run
. -
Pin your deployments to a specific version of the Elasticsearch Docker image. For
example,
docker.elastic.co/elasticsearch/elasticsearch:6.6.2
. -
Always use a volume bound on
/usr/share/elasticsearch/data
, as shown in the production example, for the following reasons:- The data of your elasticsearch node won’t be lost if the container is killed
- Elasticsearch is I/O sensitive and the Docker storage driver is not ideal for fast I/O
- It allows the use of advanced Docker volume plugins
-
If you are using the devicemapper storage driver, make sure you are not using
the default
loop-lvm
mode. Configure docker-engine to use direct-lvm instead. - Consider centralizing your logs by using a different logging driver. Also note that the default json-file logging driver is not ideally suited for production use.
Next steps
editYou now have a test Elasticsearch environment set up. Before you start serious development or go into production with Elasticsearch, you must do some additional setup:
- Learn how to configure Elasticsearch.
- Configure important Elasticsearch settings.
- Configure important system settings.