Solr has support for writing and reading its index and transaction log files to the HDFS distributed filesystem.
This does not use Hadoop MapReduce to process Solr data, rather it only uses the HDFS filesystem for index and transaction log file storage. To use Hadoop MapReduce to process Solr data, see the MapReduceIndexerTool in the Solr contrib area.
To use HDFS rather than a local filesystem, you must be using Hadoop 2.x and you will need to instruct Solr to use the
HdfsDirectoryFactory. There are also several additional parameters to define. These can be set in one of three ways:
Pass JVM arguments to the
bin/solrscript. These would need to be passed every time you start Solr with
solr.in.cmdon Windows) to pass the JVM arguments automatically when using
bin/solrwithout having to set them manually.
Define the properties in
solrconfig.xml. These configuration changes would need to be repeated for every collection, so is a good option if you only want some of your collections stored in HDFS.
Starting Solr on HDFS
Standalone Solr Instances
For standalone Solr instances, there are a few parameters you should be sure to modify before starting Solr. These can be set in
solrconfig.xml(more on that below), or passed to the
bin/solr script at startup.
You need to use an
HdfsDirectoryFactoryand a data dir of the form
You need to specify an UpdateLog location of the form
You should specify a lock factory type of
If you do not modify
solrconfig.xml, you can instead start Solr on HDFS with the following command:
bin/solr start -Dsolr.directoryFactory=HdfsDirectoryFactory -Dsolr.lock.type=hdfs -Dsolr.data.dir=hdfs://host:port/path -Dsolr.updatelog=hdfs://host:port/path
This example will start Solr in standalone mode, using the defined JVM properties (explained in more detail below).
In SolrCloud mode, it’s best to leave the data and update log directories as the defaults Solr comes with and simply specify the
solr.hdfs.home. All dynamically created collections will create the appropriate directories automatically under the
solr.hdfs.home root directory.
solr.hdfs.homein the form
You should specify a lock factory type of
bin/solr start -c -Dsolr.directoryFactory=HdfsDirectoryFactory -Dsolr.lock.type=hdfs -Dsolr.hdfs.home=hdfs://host:port/path
This command starts Solr in SolrCloud mode, using the defined JVM properties.
Modifying solr.in.sh (*nix) or solr.in.cmd (Windows)
The examples above assume you will pass JVM arguments as part of the start command every time you use
bin/solr to start Solr. However,
bin/solr looks for an include file named
solr.in.cmd on Windows) to set environment variables. By default, this file is found in the
bin directory, and you can modify it to permanently add the
HdfsDirectoryFactory settings and ensure they are used every time Solr is started.
For example, to set JVM arguments to always use HDFS when running in SolrCloud mode (as shown above), you would add a section such as this:
# Set HDFS DirectoryFactory & Settings -Dsolr.directoryFactory=HdfsDirectoryFactory \ -Dsolr.lock.type=hdfs \ -Dsolr.hdfs.home=hdfs://host:port/path \
The Block Cache
For performance, the HdfsDirectoryFactory uses a Directory that will cache HDFS blocks. This caching mechanism is meant to replace the standard file system cache that Solr utilizes so much. By default, this cache is allocated off heap. This cache will often need to be quite large and you may need to raise the off heap memory limit for the specific JVM you are running Solr in. For the Oracle/OpenJDK JVMs, the follow is an example command line parameter that you can use to raise the limit when starting Solr:
HdfsDirectoryFactory has a number of settings that are defined as part of the
Solr HDFS Settings
A root location in HDFS for Solr to write collection data to. Rather than specifying an HDFS location for the data directory or update log directory, use this to specify one root location and have everything automatically created within this HDFS location. The structure of this parameter is
Block Cache Settings
Enable the blockcache. The default is
Enable the read cache. The default is
Enable direct memory allocation. If this is
false, heap is used. The default is
Number of memory slabs to allocate. Each slab is 128 MB in size. The default is
Enable/Disable using one global cache for all SolrCores. The settings used will be from the first HdfsDirectoryFactory created. The default is
true | Enable the use of NRTCachingDirectory. The default is
NRTCachingDirectory max segment size for merges. The default is
NRTCachingDirectory max cache size. The default is
HDFS Client Configuration Settings
Pass the location of HDFS client configuration files - needed for HDFS HA for example.
Kerberos Authentication Settings
Hadoop can be configured to use the Kerberos protocol to verify user identity when trying to access core services like HDFS. If your HDFS directories are protected using Kerberos, then you need to configure Solr’s HdfsDirectoryFactory to authenticate using Kerberos in order to read and write to HDFS. To enable Kerberos authentication from Solr, you need to set the following parameters:
trueto enable Kerberos authentication. The default is
A keytab file contains pairs of Kerberos principals and encrypted keys which allows for password-less authentication when Solr attempts to authenticate with secure Hadoop.
This file will need to be present on all Solr servers at the same path provided in this parameter.
The Kerberos principal that Solr should use to authenticate to secure Hadoop; the format of a typical Kerberos V5 principal is:
Example solrconfig.xml for HDFS
Here is a sample
solrconfig.xml configuration for storing Solr indexes on HDFS:
<directoryFactory name="DirectoryFactory" class="solr.HdfsDirectoryFactory"> <str name="solr.hdfs.home">hdfs://host:port/solr</str> <bool name="solr.hdfs.blockcache.enabled">true</bool> <int name="solr.hdfs.blockcache.slab.count">1</int> <bool name="solr.hdfs.blockcache.direct.memory.allocation">true</bool> <int name="solr.hdfs.blockcache.blocksperbank">16384</int> <bool name="solr.hdfs.blockcache.read.enabled">true</bool> <bool name="solr.hdfs.nrtcachingdirectory.enable">true</bool> <int name="solr.hdfs.nrtcachingdirectory.maxmergesizemb">16</int> <int name="solr.hdfs.nrtcachingdirectory.maxcachedmb">192</int> </directoryFactory>
If using Kerberos, you will need to add the three Kerberos related properties to the
<directoryFactory> element in solrconfig.xml, such as:
<directoryFactory name="DirectoryFactory" class="solr.HdfsDirectoryFactory"> ... <bool name="solr.hdfs.security.kerberos.enabled">true</bool> <str name="solr.hdfs.security.kerberos.keytabfile">/etc/krb5.keytab</str> <str name="solr.hdfs.security.kerberos.principal">solr/admin@KERBEROS.COM</str> </directoryFactory>
Automatically Add Replicas in SolrCloud
One benefit to running Solr in HDFS is the ability to automatically add new replicas when the Overseer notices that a shard has gone down. Because the "gone" index shards are stored in HDFS, the a new core will be created and the new core will point to the existing indexes in HDFS.
Collections created using
autoAddReplicas=true on a shared file system have automatic addition of replicas enabled. The following settings can be used to override the defaults in the
<solrcloud> section of
The time (in ms) between clusterstate inspections by the Overseer to detect and possibly act on creation of a replacement replica. The default is
The minimum time (in ms) to wait for initiating replacement of a replica after first noticing it not being live. This is important to prevent false positives while stoping or starting the cluster. The default is
The delay (in ms) after which a replica marked as down would be unmarked. The default is
Temporarily Disable autoAddReplicas for the Entire Cluster
When doing offline maintenance on the cluster and for various other use cases where an admin would like to temporarily disable auto addition of replicas, the following APIs will disable and re-enable autoAddReplicas for all collections in the cluster:
Disable auto addition of replicas cluster wide by setting the cluster property
Re-enable auto addition of replicas (for those collections created with autoAddReplica=true) by unsetting the
autoAddReplicas cluster property (when no
val param is provided, the cluster property is unset):