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README.md
Supported tags and respective Dockerfile
links
See Docker Hub for a list of image tags available to pull.
Getting started with the Docker image
Instructions below apply to apache/solr:8.0.0
and above.
Running Solr with host-mounted directories
Typically users first want to run a single standalone Solr server in a container, with a single core for data, while storing data in a local directory. This is a convenient mechanism for developers, and could be used for single-server production hosts too.
$ mkdir solrdata
$ docker run -d -v "$PWD/solrdata:/var/solr" -p 8983:8983 --name my_solr apache/solr solr-precreate gettingstarted
Then with a web browser go to http://localhost:8983/
to see the Admin Console (adjust the hostname for your docker host).
In the web UI if you click on "Core Admin" you should now see the "gettingstarted" core.
Next load some of the example data that is included in the container:
$ docker exec -it my_solr post -c gettingstarted example/exampledocs/manufacturers.xml
In the UI, find the "Core selector" popup menu and select the "gettingstarted" core, then select the "Query" menu item. This gives you a default search for *:*
which returns all docs. Hit the "Execute Query" button, and you should see a few docs with data. Congratulations!
Single server with Docker-compose
You can use Docker Compose to run a single standalone server.
And you could use Docker Volumes instead of host-mounted directories.
For example, with a docker-compose.yml
containing the following:
version: '3'
services:
solr:
image: apache/solr
ports:
- "8983:8983"
volumes:
- data:/var/solr
command:
- solr-precreate
- gettingstarted
volumes:
data:
you can simply run:
docker-compose up -d
Single-command demo
For quick demos of Solr docker, there is a single command that starts Solr, creates a collection called "demo", and loads sample data into it:
$ docker run --name solr_demo -d -p 8983:8983 apache/solr solr-demo
Distributed Solr
See this example for an example Docker Compose file that starts up Solr in a simple cluster configuration.
How the image works
The container contains an installation of Solr, as installed by the service installation script.
This stores the Solr distribution in /opt/solr
, and configures Solr to use /var/solr
to store data and logs, using the /etc/default/solr
file for configuration.
If you want to persist the data, mount a volume or directory on /var/solr
.
Solr expects some files and directories in /var/solr
; if you use your own directory or volume you can either pre-populate them, or let Solr docker copy them for you. See init-var-solr.
If you want to use custom configuration, mount it in the appropriate place. See below for examples.
The Solr docker distribution adds scripts in /opt/docker-solr/scripts
to make it easier to use under Docker, for example to create cores on container startup.
Creating cores
When Solr runs in standalone mode, you create "cores" to store data. On a non-Docker Solr, you would run the server in the background, then use the Solr control script to create cores and load data. With Solr docker you have various options.
The first is exactly the same: start Solr running in a container, then execute the control script manually in the same container:
$ docker run -d -p 8983:8983 --name my_solr apache/solr
$ docker exec -it my_solr solr create_core -c gettingstarted
This is not very convenient for users, and makes it harder to turn it into configuration for Docker Compose and orchestration tools like Kubernetes.
So, typically you will use the solr-precreate
command which prepares the specified core and then runs Solr:
$ docker run -d -p 8983:8983 --name my_solr apache/solr solr-precreate gettingstarted
The solr-precreate
command takes an optional extra argument to specify a configset directory below /opt/solr/server/solr/configsets/
.
This allows you to specify your own config. See this example.
The third option is to use the solr-create
command. This runs a Solr in the background in the container, then uses the Solr control script to create the core, then stops the Solr server and restarts it in the foreground. This method is less popular because the double Solr run can be confusing.
$ docker run -d -p 8983:8983 --name my_solr apache/solr solr-create -c gettingstarted
Finally, you can run your own command-line and specify what to do, and even invoke mounted scripts. For example:
$ docker run -p 8983:8983 -v $PWD/mysetup.sh:/mysetup.sh --name my_solr apache/solr bash -c "precreate-core gettingstarted && source /mysetup.sh && solr-foreground"
Creating collections
In a "SolrCloud" cluster you create "collections" to store data; and again you have several options for creating a core.
These examples assume you're running this example cluster
The first way to create a collection is to go to the Solr Admin UI, select "Collections" from the left-hand side navigation menu, then press the "Add Collection" button, give it a name, select the _default
config set, then press the "Add Collection" button.
The second way is through the Solr control script on one of the containers:
$ docker exec solr1 solr create -c gettingstarted2
The third way is to use a separate container:
$ docker run -e SOLR_HOST=solr1 --network docs_solr apache/solr solr create_collection -c gettingstarted3 -p 8983
The fourth way is to use the remote API, from the host or from one of the containers, or some new container on the same network (adjust the hostname accordingly):
curl 'http://localhost:8983/solr/admin/collections?action=CREATE&name=gettingstarted3&numShards=1&collection.configName=_default'
If you want to use a custom config for your collection, you first need to upload it, and then refer to it by name when you create the collection. See the Ref guide on how to use the ZooKeeper upload or the configset API.
Loading your own data
There are several ways to load data; let's look at the most common ones.
The most common first deployment is to run Solr standalone (not in a cluster), on a workstation or server, where you have local data you wish to load. One way of doing that is using a separate container, with a mounted volume containing the data, using the host network so you can connect to the mapped port:
# start Solr. Listens on localhost:8983
$ docker run --name my_solr -p 8983:8983 apache/solr solr-precreate books
# get data
$ mkdir mydata
$ wget -O mydata/books.csv https://raw.githubusercontent.com/apache/lucene-solr/master/solr/example/exampledocs/books.csv
$ docker run --rm -v "$PWD/mydata:/mydata" --network=host apache/solr post -c books /mydata/books.csv
If you use the this example cluster the same works, or you can just start your loading container in the same network:
$ docker run -e SOLR_HOST=solr1 --network=mycluster_solr apache/solr solr create_collection -c books -p 8983
$ docker run --rm -v "$PWD/mydata:/mydata" --network=mycluster_solr apache/solr post -c books /mydata/books.csv -host solr1
Alternatively, you can make the data available on a volume at Solr start time, and then load it from docker exec
or a custom start script.
solr.in.sh configuration
In Solr it is common to configure settings in solr.in.sh, as documented in the Solr Reference Guide.
The solr.in.sh
file can be found in /etc/default
:
$ docker run apache/solr cat /etc/default/solr.in.sh
It has various commented-out values, which you can override when running the container, like:
$ docker run -d -p 8983:8983 -e SOLR_HEAP=800m apache/solr
You can also mount your own config file. Do no modify the values that are set at the end of the file.
Extending the image
The Solr docker image has an extension mechanism. At run time, before starting Solr, the container will execute scripts
in the /docker-entrypoint-initdb.d/
directory. You can add your own scripts there either by using mounted volumes
or by using a custom Dockerfile. These scripts can for example copy a core directory with pre-loaded data for continuous
integration testing, or modify the Solr configuration.
Here is a simple example. With a custom.sh
script like:
#!/bin/bash
set -e
echo "this is running inside the container before Solr starts"
you can run:
$ docker run --name solr_custom1 -d -v $PWD/custom.sh:/docker-entrypoint-initdb.d/custom.sh apache/solr
$ sleep 5
$ docker logs solr_custom1 | head
/opt/docker-solr/scripts/docker-entrypoint.sh: running /docker-entrypoint-initdb.d/set-heap.sh
this is running inside the container before Solr starts
Starting Solr on port 8983 from /opt/solr/server
With this extension mechanism it can be useful to see the shell commands that are being executed by the docker-entrypoint.sh
script in the docker log. To do that, set an environment variable using Docker's -e VERBOSE=yes
.
Instead of using this mechanism, you can of course create your own script that does setup and then call solr-foreground
, mount that script into the container, and execute it as a command when running the container.
Other ways of extending the image are to create custom Docker images that inherit from this one.
Debugging with jattach
The jcmd
, jmap
jstack
tools can be useful for debugging Solr inside the container. These tools are not included with the JRE, but this image includes the jattach utility which lets you do much of the same.
Usage: jattach <pid> <cmd> [args ...]
Commands:
load : load agent library
properties : print system properties
agentProperties : print agent properties
datadump : show heap and thread summary
threaddump : dump all stack traces (like jstack)
dumpheap : dump heap (like jmap)
inspectheap : heap histogram (like jmap -histo)
setflag : modify manageable VM flag
printflag : print VM flag
jcmd : execute jcmd command
Example comands to do a thread dump and get heap info for PID 10:
jattach 10 threaddump
jattach 10 jcmd GC.heap_info
Updating from Docker-solr5-7 to 8
For Solr 8, the docker-solr distribution switched from just extracting the Solr tar, to using the service installation script. This was done for various reasons: to bring it in line with the recommendations by the Solr Ref Guide, to make it easier to mount volumes, and because we were asked to.
This is a backwards incompatible change, and means that if you're upgrading from an older version, you will most likely need to make some changes. If you don't want to upgrade at this time, specify apache/solr:7
as your container image. If you use solr:8
you will use the new style. If you use just solr
then you risk being tripped up by backwards incompatible changes; always specify at least a major version.
Changes:
- The Solr data is now stored in
/var/solr/data
rather than/opt/solr/server/solr
. The/opt/solr/server/solr/mycores
no longer exists - The custom
SOLR_HOME
can no longer be used, because various scripts depend on the new locations. Consequently,INIT_SOLR_HOME
is also no longer supported.
Running under tini
The Solr docker image runs Solr under tini, to make signal handling work better; in particular, this allows you to kill -9
the JVM. If you run docker run --init
, or use init: true
in docker-compose.yml
, or have added --init
to dockerd
, docker will start its tini
and docker-solr will notice it is not PID 1, and just exec
Solr. If you do not run with --init
, then the docker entrypoint script detects that it is running as PID 1, and will start the tini
present in the docker-solr image, and run Solr under that. If you really do not want to run tini
, and just run Solr as PID 1 instead, then you can set the TINI=no
environment variable.
Out of memory handling
You can use the OOM
environment variable to control the behaviour of the Solr JVM when an out-of-memory error occurs.
If you specify OOM=exit
, Solr docker will add -XX:+ExitOnOutOfMemoryError
to the JVM arguments, so that the JVM will exit.
If you specify OOM=crash
, Solr docker will add -XX:+CrashOnOutOfMemoryError
to the JVM arguments, so the JVM will crash and produces text and binary crash files (if core files are enabled).
If you specify OOM=script
, Solr docker will add -XX:OnOutOfMemoryError=/opt/docker-solr/scripts/oom_solr.sh
, so the JVM will run that script (and if you want to you can mount your own in its place).
About this repository
This repository is available on , and the official build is on the Docker Hub.
History
This project was started in 2015 by Martijn Koster in the docker-solr repository. In 2019 maintainership and copyright was transferred to the Apache Lucene/Solr project, and in 2020 the project was migrated to live within the Solr project. Many thanks to Martijn for all your contributions over the years!