[jira] [Updated] (HBASE-6066) some low hanging read path improvement ideas

[Kannan Muthukkaruppan (JIRA)]

     [ 
https://issues.apache.org/jira/browse/HBASE-6066?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel
 ]

Kannan Muthukkaruppan updated HBASE-6066:
-----------------------------------------

    Description: 
I was running some single threaded scan performance tests for a table with 
small sized rows that is fully cached. Some observations...

We seem to be doing several wasteful iterations over and/or building of 
temporary lists.

1) One such is the following code in HRegionServer.next():

{code}
   boolean moreRows = s.next(values, HRegion.METRIC_NEXTSIZE);
   if (!values.isEmpty()) {
     for (KeyValue kv : values) {              ------> #### wasteful in most 
cases
       currentScanResultSize += kv.heapSize();
   }
   results.add(new Result(values));
{code}

By default the "maxScannerResultSize" is Long.MAX_VALUE. In those cases,
we can avoid the unnecessary iteration to compute currentScanResultSize.


2) An example of a wasteful temporary array, is "results" in
RegionScanner.next().

{code}
      results.clear();
      boolean returnResult = nextInternal(limit, metric);

      outResults.addAll(results);
{code}

results then gets copied over to outResults via an addAll(). Not sure why we 
can directly collect the results in outResults.

3) Another almost similar exmaple of a wasteful array is "results" in 
StoreScanner.next(), which eventually also copies its results into "outResults".


4) Reduce overhead of "size metric" maintained in StoreScanner.next().

{code}
  if (metric != null) {
     HRegion.incrNumericMetric(this.metricNamePrefix + metric,
                               copyKv.getLength());
  }
  results.add(copyKv);
{code}

A single call to next() might fetch a lot of KVs. We can first add up the size 
of those KVs in a local variable and then in a finally clause increment the 
metric one shot, rather than updating AtomicLongs for each KV.

5) RegionScanner.next() calls a helper RegionScanner.next() on the same object. 
Both are synchronized methods. Synchronized methods calling nested synchronized 
methods on the same object are probably adding some small overhead. The inner 
next() calls isFilterDone() which is a also a synchronized method. We should 
factor the code to avoid these nested synchronized methods.


  was:
I was runnign some single threaded scan performance tests for a table
with small sized rows that is fully cached. Some observations...

Several wasteful iterations over and/or building of temporary lists.
1) One such is the following:

{code}
   boolean moreRows = s.next(values, HRegion.METRIC_NEXTSIZE);
   if (!values.isEmpty()) {
     for (KeyValue kv : values) {              ------> #### wasteful in most 
cases
       currentScanResultSize += kv.heapSize();
   }
   results.add(new Result(values));
{code}

By default the "maxScannerResultSize" is Long.MAX_VALUE. In those cases,
avoid the unnecessary iteration to compute currentScanResultSize.


2) An example of a wasteful temporary array, is "results" in
RegionScanner.next().

{code}
      results.clear();
      boolean returnResult = nextInternal(limit, metric);

      outResults.addAll(results);
{code}

results then gets copied over to outResults via an addAll().
Not sure why we can directly collect the results in outResults.

3) Another almost similar exmaple of a wasteful array is "results" in
StoreScanner.next(), which eventually also copies its results
into "outResults".


4) Reduce overhead of "size metric" maintained in StoreScanner.next().

{code}
  if (metric != null) {
     HRegion.incrNumericMetric(this.metricNamePrefix + metric,
                               copyKv.getLength());
  }
  results.add(copyKv);
{code}

A single call to next() might fetch a lot of KVs. We can first add up the size 
of those KVs in a local variable and then in a finally clause increment the 
metric one shot, rather than updating AtomicLongs for each KV.

5) RegionScanner.next() calls a helper RegionScanner.next() on the same object. 
Both are synchronized methods. Synchronized methods calling nested synchronized 
methods on the same object are probably adding some small overhead. The inner 
next() calls isFilterDone() which is a also a synchronized method. We should 
factor the code to avoid these nested synchronized methods.


    
> some low hanging read path improvement ideas 
> ---------------------------------------------
>
>                 Key: HBASE-6066
>                 URL: https://issues.apache.org/jira/browse/HBASE-6066
>             Project: HBase
>          Issue Type: Bug
>            Reporter: Kannan Muthukkaruppan
>
> I was running some single threaded scan performance tests for a table with 
> small sized rows that is fully cached. Some observations...
> We seem to be doing several wasteful iterations over and/or building of 
> temporary lists.
> 1) One such is the following code in HRegionServer.next():
> {code}
>    boolean moreRows = s.next(values, HRegion.METRIC_NEXTSIZE);
>    if (!values.isEmpty()) {
>      for (KeyValue kv : values) {              ------> #### wasteful in most 
> cases
>        currentScanResultSize += kv.heapSize();
>    }
>    results.add(new Result(values));
> {code}
> By default the "maxScannerResultSize" is Long.MAX_VALUE. In those cases,
> we can avoid the unnecessary iteration to compute currentScanResultSize.
> 2) An example of a wasteful temporary array, is "results" in
> RegionScanner.next().
> {code}
>       results.clear();
>       boolean returnResult = nextInternal(limit, metric);
>       outResults.addAll(results);
> {code}
> results then gets copied over to outResults via an addAll(). Not sure why we 
> can directly collect the results in outResults.
> 3) Another almost similar exmaple of a wasteful array is "results" in 
> StoreScanner.next(), which eventually also copies its results into 
> "outResults".
> 4) Reduce overhead of "size metric" maintained in StoreScanner.next().
> {code}
>   if (metric != null) {
>      HRegion.incrNumericMetric(this.metricNamePrefix + metric,
>                                copyKv.getLength());
>   }
>   results.add(copyKv);
> {code}
> A single call to next() might fetch a lot of KVs. We can first add up the 
> size of those KVs in a local variable and then in a finally clause increment 
> the metric one shot, rather than updating AtomicLongs for each KV.
> 5) RegionScanner.next() calls a helper RegionScanner.next() on the same 
> object. Both are synchronized methods. Synchronized methods calling nested 
> synchronized methods on the same object are probably adding some small 
> overhead. The inner next() calls isFilterDone() which is a also a 
> synchronized method. We should factor the code to avoid these nested 
> synchronized methods.

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