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I am storing data in hbase having 5 region servers. I am using md5 hash of url as my row keys. Currently all the data is getting stored in one region server only. So I want to pre-split the regions so that data will go uniformly across all region server, so that data will go in each region server uniformly. I want to split data as first character of row key.As first character is from 0 to f(16 characters). Like data with rowkey starting from 0 to 3 will go in 1st region server, 3-6 on 2nd , 6-9 on 3rd, a-d on 4th, d-f on 5th. How can I do it ?

3 Answers 3

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You can provide a SPLITS property when creating the table.

create 'tableName', 'cf1', {SPLITS => ['3','6','9','d']}

The 4 split points will generate 5 regions.

Please be noticed that HBase's DefaultLoadBalancer doesn't guarantee a 100% even distribution between regionservers, it could happen that a regionserver hosts multiple regions from the same table.

For more information about how it works take a look at this:

public List<RegionPlan> balanceCluster(Map<ServerName,List<HRegionInfo>> clusterState)

Generate a global load balancing plan according to the specified map of server information to the most loaded regions of each server. The load balancing invariant is that all servers are within 1 region of the average number of regions per server. If the average is an integer number, all servers will be balanced to the average. Otherwise, all servers will have either floor(average) or ceiling(average) regions. HBASE-3609 Modeled regionsToMove using Guava's MinMaxPriorityQueue so that we can fetch from both ends of the queue. At the beginning, we check whether there was empty region server just discovered by Master. If so, we alternately choose new / old regions from head / tail of regionsToMove, respectively. This alternation avoids clustering young regions on the newly discovered region server. Otherwise, we choose new regions from head of regionsToMove. Another improvement from HBASE-3609 is that we assign regions from regionsToMove to underloaded servers in round-robin fashion. Previously one underloaded server would be filled before we move onto the next underloaded server, leading to clustering of young regions. Finally, we randomly shuffle underloaded servers so that they receive offloaded regions relatively evenly across calls to balanceCluster(). The algorithm is currently implemented as such:

  1. Determine the two valid numbers of regions each server should have, MIN=floor(average) and MAX=ceiling(average).
  2. Iterate down the most loaded servers, shedding regions from each so each server hosts exactly MAX regions. Stop once you reach a server that already has <= MAX regions. Order the regions to move from most recent to least.
  3. Iterate down the least loaded servers, assigning regions so each server has exactly MIN regions. Stop once you reach a server that already has >= MIN regions. Regions being assigned to underloaded servers are those that were shed in the previous step. It is possible that there were not enough regions shed to fill each underloaded server to MIN. If so we end up with a number of regions required to do so, neededRegions. It is also possible that we were able to fill each underloaded but ended up with regions that were unassigned from overloaded servers but that still do not have assignment. If neither of these conditions hold (no regions needed to fill the underloaded servers, no regions leftover from overloaded servers), we are done and return. Otherwise we handle these cases below.
  4. If neededRegions is non-zero (still have underloaded servers), we iterate the most loaded servers again, shedding a single server from each (this brings them from having MAX regions to having MIN regions).
  5. We now definitely have more regions that need assignment, either from the previous step or from the original shedding from overloaded servers. Iterate the least loaded servers filling each to MIN. If we still have more regions that need assignment, again iterate the least loaded servers, this time giving each one (filling them to MAX) until we run out.
  6. All servers will now either host MIN or MAX regions. In addition, any server hosting >= MAX regions is guaranteed to end up with MAX regions at the end of the balancing. This ensures the minimal number of regions possible are moved.

TODO: We can at-most reassign the number of regions away from a particular server to be how many they report as most loaded. Should we just keep all assignment in memory? Any objections? Does this mean we need HeapSize on HMaster? Or just careful monitor? (current thinking is we will hold all assignments in memory)

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  • But if I will pre-split while creating table , it is guaranteed that it will create 5 regions each in different region server. right ? Jan 27, 2015 at 9:51
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    It will create 5 regions, but the LoadBalancer will assign them based on the load (number of regions assigned) of each regionserver, it can happen that a regionserver gets two regions, or even 3. Anyway, I won't bother too much about it, you can manually move regions between regionservers if you need to (but the LoadBalancer can override it if needed) or even implement a custom load balancer. IMHO, I'll just create 10 regions instead of 5 and let the DefaultLoadBalancer do it's work as usual. Jan 27, 2015 at 10:28
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If you have all the data have already been stored, I recommend you just move some regions to another region servers manually using hbase shell.

hbase> move ‘ENCODED_REGIONNAME’, ‘SERVER_NAME’

Move a region. Optionally specify target regionserver else we choose one at random. NOTE: You pass the encoded region name, not the region name so this command is a little different to the others. The encoded region name is the hash suffix on region names: e.g. if the region name were TestTable,0094429456,1289497600452.527db22f95c8a9e0116f0cc13c680396. then the encoded region name portion is 527db22f95c8a9e0116f0cc13c680396 A server name is its host, port plus startcode. For example: host187.example.com,60020,1289493121758

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In case you are using Apache Phoenix for creating tables in HBase, you can specify SALT_BUCKETS in the CREATE statement. The table will split into as many regions as the bucket mentioned. Phoenix calculates the Hash of rowkey (most probably a numeric hash % SALT_BUCKETS) and assigns the column cell to the appropriate region.

CREATE TABLE IF NOT EXISTS us_population (
      state CHAR(2) NOT NULL,
      city VARCHAR NOT NULL,
      population BIGINT
      CONSTRAINT my_pk PRIMARY KEY (state, city)) SALT_BUCKETS=3;

This will pre-split the table into 3 regions

Alternatively, the HBase default UI, allows you to split regions accordingly. enter image description here

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