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https://issues.apache.org/jira/browse/PHOENIX-5791?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=17067212#comment-17067212
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Hadoop QA commented on PHOENIX-5791:
------------------------------------
{color:red}-1 overall{color}. Here are the results of testing the latest
attachment
http://issues.apache.org/jira/secure/attachment/12997761/PHOENIX-5791.4.x-HBase-1.5.001.patch
against 4.x-HBase-1.5 branch at commit
61589a903f8c5176ce46e5af0a83729f4f4c90ec.
ATTACHMENT ID: 12997761
{color:green}+1 @author{color}. The patch does not contain any @author
tags.
{color:green}+1 tests included{color}. The patch appears to include 1 new
or modified tests.
{color:red}-1 patch{color}. The patch command could not apply the patch.
Console output:
https://builds.apache.org/job/PreCommit-PHOENIX-Build/3656//console
This message is automatically generated.
> Eliminate false invalid row detection due to concurrent updates
> ----------------------------------------------------------------
>
> Key: PHOENIX-5791
> URL: https://issues.apache.org/jira/browse/PHOENIX-5791
> Project: Phoenix
> Issue Type: Sub-task
> Reporter: Kadir OZDEMIR
> Assignee: Kadir OZDEMIR
> Priority: Major
> Attachments: PHOENIX-5791.4.x-HBase-1.5.001.patch
>
> Time Spent: 1h 40m
> Remaining Estimate: 0h
>
> IndexTool verification generates an expected list of index mutations from the
> data table rows and uses this list to check if index table rows are
> consistent with the data table. To do that it follows the following steps:
> # The data table rows are scanned with a raw scan. This raw scan is
> configured to read all versions of rows.
> # For each scanned row, the cells that are scanned are grouped into two
> sets: put and delete. The put set is the set of put cells and the delete set
> is the set of delete cells.
> # The put and delete sets for a given row are further grouped based on their
> timestamps into put and delete mutations such that all the cells in a
> mutation have the timestamp.
> # The put and delete mutations are then sorted within a single list.
> Mutations in this list are sorted in ascending order of their timestamp.
> The above process assumes that for each data table update, the index table
> will be updated with the correct index row key. However, this assumption does
> not hold in the presence of concurrent updates.
> From the consistent indexing design (PHOENIX-5156) perspective, two or more
> pending updates from different batches on the same data row are concurrent if
> and only if for all of these updates the data table row state is read from
> HBase under the row lock and for none of them the row lock has been acquired
> the second time for updating the data table. In other words, all of them are
> in the first update phase concurrently. For concurrent updates, the first two
> update phases are done but the last update phase is skipped. This means the
> data table row will be updated by these updates but the corresponding index
> table rows will be left with the unverified status. Then, the read repair
> process will repair these unverified index rows during scans.
> Since expected index mutations are derived from the data table row after
> these concurrent mutations are applied, the expected list would not match
> with the actual list of index mutations.
>
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