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Posted to dev@hbase.apache.org by "Andrew Purtell (JIRA)" <ji...@apache.org> on 2014/01/14 00:44:01 UTC
[jira] [Resolved] (HBASE-10329) Fail the writes rather than
proceeding silently to prevent data loss when AsyncSyncer encounters null
writer and its writes aren't synced by other Asyncer
[ https://issues.apache.org/jira/browse/HBASE-10329?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel ]
Andrew Purtell resolved HBASE-10329.
------------------------------------
Resolution: Fixed
Hadoop Flags: Reviewed
Green builds, resolved.
> Fail the writes rather than proceeding silently to prevent data loss when AsyncSyncer encounters null writer and its writes aren't synced by other Asyncer
> ----------------------------------------------------------------------------------------------------------------------------------------------------------
>
> Key: HBASE-10329
> URL: https://issues.apache.org/jira/browse/HBASE-10329
> Project: HBase
> Issue Type: Bug
> Components: regionserver, wal
> Affects Versions: 0.98.0
> Reporter: Feng Honghua
> Assignee: Feng Honghua
> Priority: Critical
> Fix For: 0.98.0, 0.99.0
>
> Attachments: 10329-0.98.txt, HBASE-10329-trunk_v0.patch
>
>
> Last month after I introduced multiple AsyncSyncer threads to improve the throughput for lower number client write threads, [~stack] encountered a NPE while doing the test where null-writer occurs in AsyncSyncer when doing sync. Since we have run many times test in cluster to verify the throughput improvement, and never encountered such NPE, it really confused me. (and [~stack] fixed this by adding 'if (writer != null)' to protect the sync operation)
> These days from time to time I wondered why the writer can be null in AsyncSyncer and whether it's safe to fix it by just adding a null checking before doing sync, as [~stack] did. After some digging, I find out the case where AsyncSyncer can encounter null-writer, it is as below:
> 1. t1: AsyncWriter appends writes to hdfs, triggers AsyncSyncer 1 with writtenTxid==100
> 2. t2: AsyncWriter appends writes to hdfs, triggers AsyncSyncer 2 with writtenTxid==200
> 3. t3: rollWriter starts, it grabs the updateLock to prevents further writes from client writes to enter pendingWrites, and then waits for all items(<= 200) in pendingWrites to append and finally sync to hdfs
> 4. t4: AsyncSyncer 2 finishes, now syncedTillHere==200(it also help sync <=100 as a whole)
> 5. t5: rollWriter now can close writer, set writer=null...
> 6. t6: AsyncSyncer 1 starts to do sync and finds the writer is null... before rollWriter sets writer to the newly rolled Writer
> We can see:
> 1. the null writer is possible only after there are multiple AsyncSyncer threads, that's why we never encountered it before introducing multiple AsyncSyncer threads.
> 2. since rollWriter can set writer=null only after all items of pendingWrites sync to hdfs, and AsyncWriter is in the critical path of this task and there is only one single AsyncWriter thread, so AsyncWriter can't encounter null writer, that's why we never encounter null writer in AsyncWriter though it also uses writer. This is the same reason as why null-writer never occurs when there is a single AsyncSyncer thread.
> And we should treat differently when writer == null in AsyncSyncer:
> 1. if txidToSync <= syncedTillHere, this means all writes this AsyncSyncer care about have already been synced by other AsyncSyncer, we can safely ignore sync(as [~stack] does here);
> 2. if txidToSync > syncedTillHere, we need fail all the writes with txid <= txidToSync to avoid data loss: user gets successful write response but can't read out the writes after getting the successful write response, from user's perspective this is data loss (according to above analysis, such case should not occur, but we still should add such defensive treatment to prevent data loss if it really occurs, such as by some bug introduced later)
> also fix the bug where isSyncing needs to reset to false when writer.sync encounters IOException: AsyncSyncer swallows such exception by failing all writes with txid<=txidToSync, and this AsyncSyncer thread is now ready to do later sync, its isSyncing needs to be reset to false in the IOException handling block, otherwise it can't be selected by AsyncWriter to do sync
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