This section provides guidance on how to setup Solr to run in production on *nix platforms, such as Ubuntu. Specifically, we’ll walk through the process of setting up to run a single Solr instance on a Linux host and then provide tips on how to support multiple Solr nodes running on the same host.
Service Installation Script
Solr includes a service installation script (bin/install_solr_service.sh
) to help you install Solr as a service on Linux. Currently, the script only supports CentOS, Debian, Red Hat, SUSE and Ubuntu Linux distributions. Before running the script, you need to determine a few parameters about your setup. Specifically, you need to decide where to install Solr and which system user should be the owner of the Solr files and process.
Planning Your Directory Structure
We recommend separating your live Solr files, such as logs and index files, from the files included in the Solr distribution bundle, as that makes it easier to upgrade Solr and is considered a good practice to follow as a system administrator.
Solr Installation Directory
By default, the service installation script will extract the distribution archive into /opt
. You can change this location using the -i
option when running the installation script. The script will also create a symbolic link to the versioned directory of Solr. For instance, if you run the installation script for Solr 7.2.0, then the following directory structure will be used:
/opt/solr-7.2.0
/opt/solr -> /opt/solr-7.2.0
Using a symbolic link insulates any scripts from being dependent on the specific Solr version. If, down the road, you need to upgrade to a later version of Solr, you can just update the symbolic link to point to the upgraded version of Solr. We’ll use /opt/solr
to refer to the Solr installation directory in the remaining sections of this page.
Separate Directory for Writable Files
You should also separate writable Solr files into a different directory; by default, the installation script uses /var/solr
, but you can override this location using the -d
option. With this approach, the files in /opt/solr
will remain untouched and all files that change while Solr is running will live under /var/solr
.
Create the Solr User
Running Solr as root
is not recommended for security reasons, and the control script start command will refuse to do so. Consequently, you should determine the username of a system user that will own all of the Solr files and the running Solr process. By default, the installation script will create the solr user, but you can override this setting using the -u option. If your organization has specific requirements for creating new user accounts, then you should create the user before running the script. The installation script will make the Solr user the owner of the /opt/solr
and /var/solr
directories.
You are now ready to run the installation script.
Run the Solr Installation Script
To run the script, you’ll need to download the latest Solr distribution archive and then do the following:
tar xzf solr-7.2.0.tgz solr-7.2.0/bin/install_solr_service.sh --strip-components=2
The previous command extracts the install_solr_service.sh
script from the archive into the current directory. If installing on Red Hat, please make sure lsof is installed before running the Solr installation script (sudo yum install lsof
). The installation script must be run as root:
sudo bash ./install_solr_service.sh solr-7.2.0.tgz
By default, the script extracts the distribution archive into /opt
, configures Solr to write files into /var/solr
, and runs Solr as the solr
user. Consequently, the following command produces the same result as the previous command:
sudo bash ./install_solr_service.sh solr-7.2.0.tgz -i /opt -d /var/solr -u solr -s solr -p 8983
You can customize the service name, installation directories, port, and owner using options passed to the installation script. To see available options, simply do:
sudo bash ./install_solr_service.sh -help
Once the script completes, Solr will be installed as a service and running in the background on your server (on port 8983). To verify, you can do:
sudo service solr status
If you do not want to start the service immediately, pass the -n
option. You can then start the service manually later, e.g., after completing the configuration setup.
We’ll cover some additional configuration settings you can make to fine-tune your Solr setup in a moment. Before moving on, let’s take a closer look at the steps performed by the installation script. This gives you a better overview and will help you understand important details about your Solr installation when reading other pages in this guide; such as when a page refers to Solr home, you’ll know exactly where that is on your system.
Solr Home Directory
The Solr home directory (not to be confused with the Solr installation directory) is where Solr manages core directories with index files. By default, the installation script uses /var/solr/data
. If the -d
option is used on the install script, then this will change to the data
subdirectory in the location given to the -d option. Take a moment to inspect the contents of the Solr home directory on your system. If you do not store solr.xml
in ZooKeeper, the home directory must contain a solr.xml
file. When Solr starts up, the Solr Control Script passes the location of the home directory using the -Dsolr.solr.home=…
system property.
Environment Overrides Include File
The service installation script creates an environment specific include file that overrides defaults used by the bin/solr
script. The main advantage of using an include file is that it provides a single location where all of your environment-specific overrides are defined. Take a moment to inspect the contents of the /etc/default/solr.in.sh
file, which is the default path setup by the installation script. If you used the -s
option on the install script to change the name of the service, then the first part of the filename will be different. For a service named solr-demo
, the file will be named /etc/default/solr-demo.in.sh
. There are many settings that you can override using this file. However, at a minimum, this script needs to define the SOLR_PID_DIR
and SOLR_HOME
variables, such as:
SOLR_PID_DIR=/var/solr
SOLR_HOME=/var/solr/data
The SOLR_PID_DIR
variable sets the directory where the control script will write out a file containing the Solr server’s process ID.
Log Settings
Solr uses Apache Log4J for logging. The installation script copies /opt/solr/server/resources/log4j.properties
to /var/solr/log4j.properties
. Take a moment to verify that the Solr include file is configured to send logs to the correct location by checking the following settings in /etc/default/solr.in.sh
:
LOG4J_PROPS=/var/solr/log4j.properties
SOLR_LOGS_DIR=/var/solr/logs
For more information about Log4J configuration, please see: Configuring Logging
init.d Script
When running a service like Solr on Linux, it’s common to setup an init.d script so that system administrators can control Solr using the service tool, such as: service solr start
. The installation script creates a very basic init.d script to help you get started. Take a moment to inspect the /etc/init.d/solr
file, which is the default script name setup by the installation script. If you used the -s
option on the install script to change the name of the service, then the filename will be different. Notice that the following variables are setup for your environment based on the parameters passed to the installation script:
SOLR_INSTALL_DIR=/opt/solr
SOLR_ENV=/etc/default/solr.in.sh
RUNAS=solr
The SOLR_INSTALL_DIR
and SOLR_ENV
variables should be self-explanatory. The RUNAS
variable sets the owner of the Solr process, such as solr
; if you don’t set this value, the script will run Solr as root, which is not recommended for production. You can use the /etc/init.d/solr
script to start Solr by doing the following as root:
service solr start
The /etc/init.d/solr
script also supports the stop, restart, and status commands. Please keep in mind that the init script that ships with Solr is very basic and is intended to show you how to setup Solr as a service. However, it’s also common to use more advanced tools like supervisord or upstart to control Solr as a service on Linux. While showing how to integrate Solr with tools like supervisord is beyond the scope of this guide, the init.d/solr
script should provide enough guidance to help you get started. Also, the installation script sets the Solr service to start automatically when the host machine initializes.
Progress Check
In the next section, we cover some additional environment settings to help you fine-tune your production setup. However, before we move on, let’s review what we’ve achieved thus far. Specifically, you should be able to control Solr using /etc/init.d/solr
. Please verify the following commands work with your setup:
sudo service solr restart
sudo service solr status
The status command should give some basic information about the running Solr node that looks similar to:
Solr process PID running on port 8983
{
"version":"5.0.0 - ubuntu - 2014-12-17 19:36:58",
"startTime":"2014-12-19T19:25:46.853Z",
"uptime":"0 days, 0 hours, 0 minutes, 8 seconds",
"memory":"85.4 MB (%17.4) of 490.7 MB"}
If the status
command is not successful, look for error messages in /var/solr/logs/solr.log
.
Fine-Tune Your Production Setup
Memory and GC Settings
By default, the bin/solr
script sets the maximum Java heap size to 512M (-Xmx512m), which is fine for getting started with Solr. For production, you’ll want to increase the maximum heap size based on the memory requirements of your search application; values between 10 and 20 gigabytes are not uncommon for production servers. When you need to change the memory settings for your Solr server, use the SOLR_JAVA_MEM
variable in the include file, such as:
SOLR_JAVA_MEM="-Xms10g -Xmx10g"
Also, the Solr Control Script comes with a set of pre-configured Java Garbage Collection settings that have shown to work well with Solr for a number of different workloads. However, these settings may not work well for your specific use of Solr. Consequently, you may need to change the GC settings, which should also be done with the GC_TUNE
variable in the /etc/default/solr.in.sh
include file. For more information about tuning your memory and garbage collection settings, see: JVM Settings.
Out-of-Memory Shutdown Hook
The bin/solr
script registers the bin/oom_solr.sh
script to be called by the JVM if an OutOfMemoryError occurs. The oom_solr.sh
script will issue a kill -9
to the Solr process that experiences the OutOfMemoryError
. This behavior is recommended when running in SolrCloud mode so that ZooKeeper is immediately notified that a node has experienced a non-recoverable error. Take a moment to inspect the contents of the /opt/solr/bin/oom_solr.sh
script so that you are familiar with the actions the script will perform if it is invoked by the JVM.
Going to Production with SolrCloud
To run Solr in SolrCloud mode, you need to set the ZK_HOST
variable in the include file to point to your ZooKeeper ensemble. Running the embedded ZooKeeper is not supported in production environments. For instance, if you have a ZooKeeper ensemble hosted on the following three hosts on the default client port 2181 (zk1, zk2, and zk3), then you would set:
ZK_HOST=zk1,zk2,zk3
When the ZK_HOST
variable is set, Solr will launch in "cloud" mode.
ZooKeeper chroot
If you’re using a ZooKeeper instance that is shared by other systems, it’s recommended to isolate the SolrCloud znode tree using ZooKeeper’s chroot support. For instance, to ensure all znodes created by SolrCloud are stored under /solr
, you can put /solr
on the end of your ZK_HOST
connection string, such as:
ZK_HOST=zk1,zk2,zk3/solr
Before using a chroot for the first time, you need to create the root path (znode) in ZooKeeper by using the Solr Control Script. We can use the mkroot command for that:
bin/solr zk mkroot /solr -z <ZK_node>:<ZK_PORT>
If you also want to bootstrap ZooKeeper with existing |
Solr Hostname
Use the SOLR_HOST
variable in the include file to set the hostname of the Solr server.
SOLR_HOST=solr1.example.com
Setting the hostname of the Solr server is recommended, especially when running in SolrCloud mode, as this determines the address of the node when it registers with ZooKeeper.
Override Settings in solrconfig.xml
Solr allows configuration properties to be overridden using Java system properties passed at startup using the -Dproperty=value
syntax. For instance, in solrconfig.xml
, the default auto soft commit settings are set to:
<autoSoftCommit>
<maxTime>${solr.autoSoftCommit.maxTime:-1}</maxTime>
</autoSoftCommit>
In general, whenever you see a property in a Solr configuration file that uses the ${solr.PROPERTY:DEFAULT_VALUE}
syntax, then you know it can be overridden using a Java system property. For instance, to set the maxTime for soft-commits to be 10 seconds, then you can start Solr with -Dsolr.autoSoftCommit.maxTime=10000
, such as:
bin/solr start -Dsolr.autoSoftCommit.maxTime=10000
The bin/solr
script simply passes options starting with -D
on to the JVM during startup. For running in production, we recommend setting these properties in the SOLR_OPTS
variable defined in the include file. Keeping with our soft-commit example, in /etc/default/solr.in.sh
, you would do:
SOLR_OPTS="$SOLR_OPTS -Dsolr.autoSoftCommit.maxTime=10000"
Running Multiple Solr Nodes Per Host
The bin/solr
script is capable of running multiple instances on one machine, but for a typical installation, this is not a recommended setup. Extra CPU and memory resources are required for each additional instance. A single instance is easily capable of handling multiple indexes.
When to ignore the recommendation
For every recommendation, there are exceptions. For the recommendation above, that exception is mostly applicable when discussing extreme scalability. The best reason for running multiple Solr nodes on one host is decreasing the need for extremely large heaps. When the Java heap gets very large, it can result in extremely long garbage collection pauses, even with the GC tuning that the startup script provides by default. The exact point at which the heap is considered "very large" will vary depending on how Solr is used. This means that there is no hard number that can be given as a threshold, but if your heap is reaching the neighborhood of 16 to 32 gigabytes, it might be time to consider splitting nodes. Ideally this would mean more machines, but budget constraints might make that impossible. There is another issue once the heap reaches 32GB. Below 32GB, Java is able to use compressed pointers, but above that point, larger pointers are required, which uses more memory and slows down the JVM. Because of the potential garbage collection issues and the particular issues that happen at 32GB, if a single instance would require a 64GB heap, performance is likely to improve greatly if the machine is set up with two nodes that each have a 31GB heap. |
If your use case requires multiple instances, at a minimum you will need unique Solr home directories for each node you want to run; ideally, each home should be on a different physical disk so that multiple Solr nodes don’t have to compete with each other when accessing files on disk. Having different Solr home directories implies that you’ll need a different include file for each node. Moreover, if using the /etc/init.d/solr
script to control Solr as a service, then you’ll need a separate script for each node. The easiest approach is to use the service installation script to add multiple services on the same host, such as:
sudo bash ./install_solr_service.sh solr-7.2.0.tgz -s solr2 -p 8984
The command shown above will add a service named solr2
running on port 8984 using /var/solr2
for writable (aka "live") files; the second server will still be owned and run by the solr
user and will use the Solr distribution files in /opt
. After installing the solr2 service, verify it works correctly by doing:
sudo service solr2 restart
sudo service solr2 status
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