I am using HBASE, for which I installed zookeeper. Is there any config file, which has Znode names stored or some command which gives the Znodes names as output ?
Looking at your configuration, there seems to be only one node in the quorum (not a quorum technically) and its the local machine. The minimum nodes to maintain a quorum is three.
As Cricket_007 commented, You should see zookeeper quorum info on hbase-site.xml. Looks like you are also looking for what is getting registered and written by Hbase in zookeeper. To get full list and details you can use zk_dump on Hbase shell.
more info on the command
https://learnhbase.wordpress.com/2013/03/02/hbase-shell-commands/
Related
I have a hdfs setup running in psuedo cluster mode. If I add an additional data node to I need to run the hdfs format on the new node before or after adding it as an additional slave.
refer to this link, there is no need to format any node. just do the instructions of the mentioned link.
There is no command to format a Data Node. After adding a Data Node, you should just start that Data Node.
You can only format a Name Node.
No need to format Namenode After adding new datanode. You just need to refresh the nodes by
hadoop dfsadmin -refreshNodes
Looking at the following hdfs documentation makes me wonder why hadoop is using a JournalQuorum instead of using Zookeeper itself for keeping fsImage and EditLogs synchronized
http://hortonworks.com/blog/namenode-high-availability-in-hdp-2-0/
In other words, whats the problem in using zookeeper service instead of a bunch of JournalNodes for active-standby NameNode communication.?
One reason could be - Zookeeper is not meant for storage. If I remember correctly, the default maximum size of data that can be stored in a ZNode is 1 MB.
I am working on BI process that will read data from cassandra, create summaries using Map Reduce and write back to a different keyspace.
Starting with a single node, everything worked as i expected, but when moving to a multi-node, i am not sure I fully understand the topology and configuration.
I have a setup with 3 nodes. Each has a Cassandra node (version 1.1.9), data node and task tracker (version 0.20.2+923.421- CDH3U5) . The NameNode and job tracker are on a different server. At this point i am trying to run Pig script from the DataNode server.
The thing i am not sure of is the pig argument PIG_INITIAL_ADDRESS. I assumed the query would run on all Cassandra nodes, each task tracker would only query the local Cassandra node, and the reducer would handle any duplicates. Based on that assumption i thought the PIG_INITIAL_ADDRESS should be localhost. But when running the pig script it fails:
java.io.IOException: Unable to connect to server localhost:9160
My questions are- should the initial address be any one of the Cassandra nodes, and Splitting the map on the cluster is done from Cassandra keys partitions (will i get the distribution i need)?
IF I where to use java map reduce, will i still need to supply the initial address?
Is the current implementation assumes pig is running from a Cassandra node?
The PIG_INITIAL_ADDRESS is the address of one of the Cassandra nodes in your ring. In order to have the Hadoop job read data from or write data to Cassandra, it just needs to have some properties set. Those properties are also available to set in the job properties or in the default Hadoop configuration on the server that you're running the job from. Other than that, it's just like submitting a job to a job tracker.
For more information, I would look at the readme that's in the cassandra source download under examples/pig. There is a lot of explanation in there as well.
I am new to Hbase. Now I have a simple question : what's the difference between regionserver and quorumpeer. Regionservers list is in the file regionserver and quorumpeer should be configured in HBase_site.xml. I guessed regions of a Hbase table can only be stored in region servers but I have no idea with quorumpeer. Should any node of hbase cluser be regionserver and quorumpeer at the same time? If you know, please explain to me. Thanks!
For hBase to work it needs Zookeeper so that the regionServers and Hmaster can communicate and transfer data. CHeck this out http://hbase.apache.org/book/zookeeper.html
You need to have a quorum of Zookeeper servers running (generally 3 or 5)
You have to list the nodes where Zk servers are running in the hbase.zookeeper.quorum property in HBase-site.xml
I am new in hadoop so I have some doubts. If the master-node fails what happened the hadoop cluster? Can we recover that node without any loss? Is it possible to keep a secondary master-node to switch automatically to the master when the current one fails?
We have the backup of the namenode (Secondary namenode), so we can restore the namenode from Secondary namenode when it fails. Like this, How can we restore the data's in datanode when the datanode fails? The secondary namenode is the backup of namenode only not to datenode, right? If a node is failed before completion of a job, so there is job pending in job tracker, is that job continue or restart from the first in the free node?
How can we restore the entire cluster data if anything happens?
And my final question, can we use C program in Mapreduce (For example, Bubble sort in mapreduce)?
Thanks in advance
Although, It is too late to answer your question but just It may help others..
First of all let me Introduce you with Secondary Name Node:
It Contains the name space image, edit log files' back up for past one
hour (configurable). And its work is to merge latest Name Node
NameSpaceImage and edit logs files to upload back to Name Node as
replacement of the old one. To have a Secondary NN in a cluster is not
mandatory.
Now coming to your concerns..
If the master-node fails what happened the hadoop cluster?
Supporting Frail's answer, Yes hadoop has single point of failure so
whole of your currently running task like Map-Reduce or any other that
is using the failed master node will stop. The whole cluster including
client will stop working.
Can we recover that node without any loss?
That is hypothetical, Without loss it is least possible, as all the
data (block reports) will lost which has sent by Data nodes to Name
node after last back up taken by secondary name node. Why I mentioned
least, because If name node fails just after a successful back up run
by secondary name node then it is in safe state.
Is it possible to keep a secondary master-node to switch automatically to the master when the current one fails?
It is staright possible by an Administrator (User). And to switch it
automatically you have to write a native code out of the cluster, Code
to moniter the cluster that will cofigure the secondary name node
smartly and restart the cluster with new name node address.
We have the backup of the namenode (Secondary namenode), so we can restore the namenode from Secondary namenode when it fails. Like this, How can we restore the data's in datanode when the datanode fails?
It is about replication factor, We have 3 (default as best practice,
configurable) replicas of each file block all in different data nodes.
So in case of failure for time being we have 2 back up data nodes.
Later Name node will create one more replica of the data that failed
data node contained.
The secondary namenode is the backup of namenode only not to datenode, right?
Right. It just contains all the metadata of data nodes like data node
address,properties including block report of each data node.
If a node is failed before completion of a job, so there is job pending in job tracker, is that job continue or restart from the first in the free node?
HDFS will forcely try to continue the job. But again it depends on
replication factor, rack awareness and other configuration made by
admin. But if following Hadoop's best practices about HDFS then it
will not get failed. JobTracker will get replicated node address to
continnue.
How can we restore the entire cluster data if anything happens?
By Restarting it.
And my final question, can we use C program in Mapreduce (For example, Bubble sort in mapreduce)?
yes, you can use any programming language which support Standard file
read write operations.
I Just gave a try. Hope it will help you as well as others.
*Suggestions/Improvements are welcome.*
Currently hadoop cluster has a single point of failure which is namenode.
And about the secondary node isssue (from apache wiki) :
The term "secondary name-node" is somewhat misleading. It is not a
name-node in the sense that data-nodes cannot connect to the secondary
name-node, and in no event it can replace the primary name-node in
case of its failure.
The only purpose of the secondary name-node is to perform periodic
checkpoints. The secondary name-node periodically downloads current
name-node image and edits log files, joins them into new image and
uploads the new image back to the (primary and the only) name-node.
See User Guide.
So if the name-node fails and you can restart it on the same physical
node then there is no need to shutdown data-nodes, just the name-node
need to be restarted. If you cannot use the old node anymore you will
need to copy the latest image somewhere else. The latest image can be
found either on the node that used to be the primary before failure if
available; or on the secondary name-node. The latter will be the
latest checkpoint without subsequent edits logs, that is the most
recent name space modifications may be missing there. You will also
need to restart the whole cluster in this case.
There are tricky ways to overcome this single point of failure. If you are using cloudera distribution, one of the ways explained here. Mapr distribution has a different way to handle to this spof.
Finally, you can use every single programing language to write map reduce over hadoop streaming.
Although, It is too late to answer your question but just It may help others..firstly we will discuss role of Hadoop 1.X daemons and then your issues..
1. What is role of secondary name Node
it is not exactly a backup node. it reads a edit logs and create updated fsimage file for name node periodically. it get metadata from name node periodically and keep it and uses when name node fails.
2. what is role of name node
it is manager of all daemons. its master jvm proceess which run at master node. it interact with data nodes.
3. what is role of job tracker
it accepts job and distributes to task trackers for processing at data nodes. its called as map process
4. what is role of task trackers
it will execute program provided for processing on existing data at data node. that process is called as map.
limitations of hadoop 1.X
single point of failure
which is name node so we can maintain high quality hardware for the name node. if name node fails everything will be inaccessible
Solutions
solution to single point of failure is hadoop 2.X which provides high availability.
high availability with hadoop 2.X
now your topics ....
How can we restore the entire cluster data if anything happens?
if cluster fails we can restart it..
If a node is failed before completion of a job, so there is job pending in job tracker, is that job continue or restart from the first in the free node?
we have default 3 replicas of data(i mean blocks) to get high availability it depends upon admin that how much replicas he has set...so job trackers will continue with other copy of data on other data node
can we use C program in Mapreduce (For example, Bubble sort in mapreduce)?
basically mapreduce is execution engine which will solve or process big data problem in(storage plus processing) distributed manners. we are doing file handling and all other basic operations using mapreduce programming so we can use any language of where we can handle files as per the requirements.
hadoop 1.X architecture
hadoop 1.x has 4 basic daemons
I Just gave a try. Hope it will help you as well as others.
Suggestions/Improvements are welcome.