Community Articles

Find and share helpful community-sourced technical articles.
Labels (2)
avatar
Contributor

Author: Gerdan Rezende dos Santos - https://community.hortonworks.com/users/12342/gerdan.html

Co-author: Pedro Drummond - https://community.hortonworks.com/users/10987/pedrodrummond.html

1 - PREREQUISITES

Before you begin, you need to have:

1. HDP 2.4 kerberized cluster;

2. Configured repos for HDPSearch;

3. Java + JCE installed with defined JAVA_HOME;

4. Knowledge of you kerberos’ REALM.

2 - KERBEROS CONFIGURATION

2.1 - “Principal” Definition

It’s a Kerberos term which defines an entity by means of an address, user or service.

This address is commonly divided into 3 parts:

The first part contains the username or the service name;

The second part contains the hostname if one is defining a service, or left in blank if one is defining a user;

The third part contains the REALM.

◦Ex: user1/solr.community.hortonworks.com@LOCAL.COM

2.2 - Installing Kerberos Clients for HDPSearch Host

For RedHat or Centos:

yum -y install krb5-libs krb5-auth-dialog krb5-workstation
 

Then copy to the host client the file /etc/krb5.conf from the kerberos server.

2.3 - Creating the Principal WITH Keytab (Authentication through keytab) as Root

Authenticate at kadmin console with a user that has administrative permission, in this example we’re using “ root/admin@LOCAL.COM”.

[root@host ~] kadim –p root/admin@LOCAL.COM 
Authenticating as principal root/admin@LOCAL.COM with password.Password for
root/admin@LOCAL.COM:[enter password]
 

At this point you’ll be at kadmin console. To add a user, use the command add_principal or the short version addprinc. Also specify the option -randkey while creating the user since specifying a password is useless once you generate the keytab for that user.

Now the HBase and HTTP users for the host where your HDPSearch is located must be created and then merged to the same file. In this example our host is solr.community.hortonworks.com.

kadmin:  addprinc -randkey \ hbase/solr.community.hortonworks.com@LOCAL.COM
WARNING: no policy specified for hbase/solr.community.hortonworks.com@LOCAL.COM; defaulting to no policy
Principal "hbase/solr.community.hortonworks.com@LOCAL.COM" created.
kadmin:  addprinc -randkey \ HTTP/solr.community.hortonworks.com@LOCAL.COM
WARNING: no policy specified for HTTP/solr.community.hortonworks.com@LOCAL.COM; defaulting to no policy
Principal "HTTP/solr.community.hortonworks.com@LOCAL.COM" created.
#STILL AT THE KADMIN CONSOLE, EXPORT BOTH KEYTABS TO THE SAME FILE. 
kadmin:  xst -k /etc/security/keytabs/http.hbase.keytab \ HTTP/solr.community.hortonworks.com \  hbase/solr.community.hortonworks.com
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type aes256-cts-hmac-sha1-96 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type aes128-cts-hmac-sha1-96 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type des3-cbc-sha1 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type arcfour-hmac added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type des-hmac-sha1 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal HTTP/solr.community.hortonworks.com with kvno 8, encryption type des-cbc-md5 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type aes256-cts-hmac-sha1-96 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type aes128-cts-hmac-sha1-96 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type des3-cbc-sha1 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type arcfour-hmac added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type des-hmac-sha1 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
Entry for principal hbase/solr.community.hortonworks.com with kvno 5, encryption type des-cbc-md5 added to keytab WRFILE:/etc/security/keytabs/http.hbase.keytab.
kadmin:
 

For generating the keytab use the command xst as you can see above. The option -k defines the location where the file that contains the keytab(s) will be recorded and following parameter defines the user(s) related to this keytab.

3 - HDPSEARCH INSTALLATION

yum -y install lucidworks-hdpsearch
chown -R solr:solr /opt/lucidworks-hdpsearch
 

The next steps must be executed with the solr user.

su solr
 

4 - CONFIGURING SOLR TO STORE INDEX FILES AT HDFS (Optional)

For the lab we’ll use the schemaless setup that comes with solr;

· Schemaless setup is a set of SOLR attributes that allows indexing documents.

· An example of this setup can be found at /opt/lucidworks-hdpsearch/solr/server/solr/configsets/data_driven_schema_configs.

Create the necessary directories at HDFS:

sudo -u hdfs hadoop fs -mkdir /user/solr
sudo -u hdfs hadoop fs -chown solr /user/solr
 

Edit the file located at the directory:

vi /opt/lucidworks-hdpsearch/solr/server/solr/configsets/data_driven_schema_configs_hdfs/conf/solrconfig.xml
 

Replace the section:

<directoryFactory name="DirectoryFactory"
 class="${solr.directoryFactory:solr.NRTCachingDirectoryFactory}">
</directoryFactory>

by:

<directoryFactory name="DirectoryFactory" class="solr.HdfsDirectoryFactory">
 <str name="solr.hdfs.home">hdfs://sandbox.hortonworks.com/user/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">false</bool>
 <int name="solr.hdfs.blockcache.blocksperbank">16384</int>
 <bool name="solr.hdfs.blockcache.read.enabled">true</bool>
 <bool name="solr.hdfs.blockcache.write.enabled">false</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>

Change the locktype to:

<lockType>hdfs</lockType>

Save the file and exit.

5 - INITIALIZE SOLR IN CLOUD MODE

mkdir -p ~/solr-cores/core1
mkdir -p ~/solr-cores/core2
cp /opt/lucidworks-hdpsearch/solr/server/solr/solr.xml ~/solr-cores/core1
cp /opt/lucidworks-hdpsearch/solr/server/solr/solr.xml ~/solr-cores/core2
/opt/lucidworks-hdpsearch/solr/bin/solr  start -cloud -p 8983 -z zookeeper.hortonworks.com:2181 -s ~/solr-cores/core1
/opt/lucidworks-hdpsearch/solr/bin/solr  restart -cloud -p 8984 -z zookeeper.hortonworks.com:2181 -s ~/solr-cores/core2


6 - CREATE AND VALIDATE A COLLECTION NAMED “LABS” WITH 2 SHARDERS AND REPLICATION FACTOR OF 2

/opt/lucidworks-hdpsearch/solr/bin/solr create -c labs 
-d /opt/lucidworks-hdpsearch/solr/server/solr/configsets/data_driven_schema_configs_hdfs/conf -n labs -s 2 -rf 2

Using the browser, visit http://solr.hortonworks.com:8983/solr/#/~cloud. You should see the collection “labs” with 2 shards, each one of them with a replication factor of 2.

6493-image001.jpg

7 - HBASE & HBASE-INDEXER CONFIGURATION

For pointing Solr to Zookeeper we need to configure the hbase-indexer-site.xml file.

At the HBase-Indexer host, open the file located at:

vi /opt/lucidworks-hdpsearch/hbase-indexer/conf/hbase-indexer-site.xml
 

This is an example of how it should look like:

<?xml version="1.0"?>
<configuration>
   <property>
      <name>hbaseindexer.zookeeper.connectstring</name>
      <value>zookeeperHOST1:2181,zookeeperHOST2:2181</value>
   </property>
  <property>
     <name>hbase.zookeeper.quorum</name>
     <value> zookeeperHOST1,zookeeperHOST2</value>
   </property>
</configuration>
 

Copy to the HBase server the necessary libraries to activate the replication:

scp user@HOST_INDEXER:/opt/lucidworks-hdpsearch/hbase-indexer/lib/hbase-sep* user@HOST_HBASE:/usr/hdp/current/hbase-master/lib/
 

At AMBARI user interface (version 2.2.2.0), go to HBase -> Configs -> Custom hbase-site and click “Add Property ...” and then add the following properties:

hbase.replication=true
replication.source.ratio=1.0
replication.source.nb.capacity=1000
replication.replicationsource
 

6495-image002.jpg

Click the “Save” button. It should look like the screen bellow having entered the above properties:

6496-image003.jpg

Restart the services requested by AMBARI.

Copy the hbase-site.xml file to the HBase-Indexer configuration directory:

cp /etc/hbase/conf/hbase-site.xml /opt/lucidworks-hdpsearch/hbase-indexer/conf/
 

8 - Start the HBase-Indexer with the kerberized Cluster

Before anything else you’ll need to replace the zkcli.sh file that comes with hbase-indexer. It prevents connecting to the kerberized HBase so you can listen to the replication stream and thus generate json documents to Solr.

cp /usr/hdp/2.4.2.0-258/zookeeper/bin/zkCli.sh /opt/lucidworks-hdpsearch/solr/server/scripts/cloud-scripts/zkcli.sh
 

Create a JAAS file to notify the kerberos user which will be used to authenticate:

vim /opt/lucidworks-hdpsearch/hbase-indexer/conf/hbase_indexer.jaas
Client {
com.sun.security.auth.module.Krb5LoginModule required
useKeyTab=true
storeKey=true
useTicketCache=false
keyTab="/etc/security/keytabs/hbase.service.keytab" #keytab do usuário
principal="hbase/All_FQDN@LOCAL.COM"; #usuário
};
 

Alter the new zkcli.sh to use this JAAS file:

vim /opt/lucidworks-hdpsearch/solr/server/scripts/cloud-scripts/zkcli.sh
#Add the following information to the JAAS file to be able to authenticate
-Djava.security.auth.login.config=/opt/lucidworks-hdpsearch/hbase-indexer/conf/hbase_indexer.jaas
 

The result is:

6497-image004.jpg

All set! Now initialize the HBase-Indexer service:

/opt/lucidworks-hdpsearch/hbase-indexer/bin/hbase-indexer server
 

9 - Create an Index and Test the Solution

Access HBase and create a table:

hbase(main):001:0> create 'indexdemo-user', { NAME => 'info', REPLICATION_SCOPE => '1' }
 

Create a XML file to build the bridge between the contents of the HBase table and what we’re indexing in Solr. Further examples and a read-me file you may find at /opt/lucidworks-hdpsearch/hbase-indexer/demo.

vi /opt/lucidworks-hdpsearch/hbase-indexer/indexdemo-indexer.xml
<?xml version="1.0"?>
<indexer table="indexdemo-user">
<field name="firstname_s" value="info:firstname"/>
<field name="lastname_s" value="info:lastname"/>
<field name="age_i" value="info:age" type="int"/>
</indexer>
 

Add an index:

/opt/lucidworks-hdpsearch/hbase-indexer/bin/hbase-indexer add-indexer -n indexLab -c /opt/lucidworks-hdpsearch/hbase-indexer/indexdemo-indexer.xml -cp solr.zk=zk01.hortonworks.com,zk02.hortonworks.com,zk03.hortonworks.com -cp solr.collection=labs -z zk01.hortonworks.com:2181
 

Check if it was created and if it runs:

/opt/lucidworks-hdpsearch/hbase-indexer/bin/hbase-indexer list-indexers -z zk01.hortonworks.com:2181
indexLab
+ Lifecycle state: ACTIVE
+ Incremental indexing state: SUBSCRIBE_AND_CONSUME
+ Batch indexing state: INACTIVE
+ SEP subscription ID: Indexer_indexLab
+ SEP subscription timestamp: 2016-08-05T16:14:12.305-03:00
+ Connection type: solr
+ Connection params:
+ solr.zk = zk01.hortonworks.com,zk02.hortonworks.com,zk03.hortonworks.com
+ solr.collection = labs
+ Indexer config:
218 bytes, use -dump to see content
+ Indexer component factory: com.ngdata.hbaseindexer.conf.DefaultIndexerComponentFactory
+ Additional batch index CLI arguments:
(none)
+ Default additional batch index CLI arguments:
(none)
+ Processes
+ 1 running processes
+ 0 failed processes
 

Insert some records into HBase to verify it into Solr:

put 'indexdemo-user', 'row1', 'info:firstname', 'Gerdan'
put 'indexdemo-user', 'row1', 'info:lastname', 'Santos'
put 'indexdemo-user', 'row2', 'info:firstname', 'Pedro'
put 'indexdemo-user', 'row2', 'info:lastname', 'Drummond'
put 'indexdemo-user', 'row3', 'info:firstname', 'Cleire'
put 'indexdemo-user', 'row3', 'info:lastname', 'Ritfield'
put 'indexdemo-user', 'row4', 'info:firstname', 'Horton'
put 'indexdemo-user', 'row4', 'info:lastname', 'Works'
 

Perform a commit in Solr via terminal ( very important):

#Via terminal
curl http://solar.hortonworks.com:8983/solr/labs/update?commit=true
 

Or via browser:

6498-image005.png

Verify in Solr if the indexed data appears:

6499-image006.jpg

There you go! The HBase indexer with a kerberized cluster is now working:

6500-image007.jpg

10 - References

https://community.hortonworks.com/articles/1181/hbase-indexing-to-solr-with-hdp-search-in-hdp-23.htm...

https://web.mit.edu/kerberos/krb5-1.12/doc/admin/admin_commands/kadmin_local.html


image002.jpg
6,199 Views
Comments
avatar
Explorer

In HDP 2.5, users will have uncomment two lines in bin/hbase-indexer to make it work!

HBASE_INDEXER_OPTS="$HBASE_INDEXER_OPTS -Dlww.jaas.file=/opt/lucidworks-hdpsearch/hbase-indexer/conf/hbase_indexer.jaas" HBASE_INDEXER_OPTS="$HBASE_INDEXER_OPTS -Dlww.jaas.appname=Client" #Client is the name given in this tutorial to Jaas Section

avatar
Master Guru

Tip! 🙂

Please make sure to add below line in hbase-indexer-env.sh in order to avoid org.apache.zookeeper.KeeperException$NoAuthException:KeeperErrorCode=NoAuthfor/hbase-secure/blah blah error

HBASE_INDEXER_OPTS="$HBASE_INDEXER_OPTS -Djava.security.auth.login.config=<path-of-indexer-jass-file>"