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https://issues.apache.org/jira/browse/HADOOP-11343?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=14232715#comment-14232715
]
Hadoop QA commented on HADOOP-11343:
------------------------------------
{color:green}+1 overall{color}. Here are the results of testing the latest
attachment
http://issues.apache.org/jira/secure/attachment/12684830/HADOOP-11343.patch
against trunk revision 7caa3bc.
{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 test files.
{color:green}+1 javac{color}. The applied patch does not increase the
total number of javac compiler warnings.
{color:green}+1 javadoc{color}. There were no new javadoc warning messages.
{color:green}+1 eclipse:eclipse{color}. The patch built with
eclipse:eclipse.
{color:green}+1 findbugs{color}. The patch does not introduce any new
Findbugs (version 2.0.3) warnings.
{color:green}+1 release audit{color}. The applied patch does not increase
the total number of release audit warnings.
{color:green}+1 core tests{color}. The patch passed unit tests in
hadoop-common-project/hadoop-common.
{color:green}+1 contrib tests{color}. The patch passed contrib unit tests.
Test results:
https://builds.apache.org/job/PreCommit-HADOOP-Build/5147//testReport/
Console output:
https://builds.apache.org/job/PreCommit-HADOOP-Build/5147//console
This message is automatically generated.
> Overflow is not properly handled in caclulating final iv for AES CTR
> --------------------------------------------------------------------
>
> Key: HADOOP-11343
> URL: https://issues.apache.org/jira/browse/HADOOP-11343
> Project: Hadoop Common
> Issue Type: Bug
> Components: security
> Affects Versions: trunk-win, 2.7.0
> Reporter: Jerry Chen
> Assignee: Jerry Chen
> Priority: Blocker
> Attachments: HADOOP-11343.patch
>
>
> In the AesCtrCryptoCodec calculateIV, as the init IV is a random generated 16
> bytes,
> final byte[] iv = new byte[cc.getCipherSuite().getAlgorithmBlockSize()];
> cc.generateSecureRandom(iv);
> Then the following calculation of iv and counter on 8 bytes (64bit) space
> would easily cause overflow and this overflow gets lost. The result would be
> the 128 bit data block was encrypted with a wrong counter and cannot be
> decrypted by standard aes-ctr.
> /**
> * The IV is produced by adding the initial IV to the counter. IV length
> * should be the same as {@link #AES_BLOCK_SIZE}
> */
> @Override
> public void calculateIV(byte[] initIV, long counter, byte[] IV) {
> Preconditions.checkArgument(initIV.length == AES_BLOCK_SIZE);
> Preconditions.checkArgument(IV.length == AES_BLOCK_SIZE);
>
> System.arraycopy(initIV, 0, IV, 0, CTR_OFFSET);
> long l = 0;
> for (int i = 0; i < 8; i++) {
> l = ((l << 8) | (initIV[CTR_OFFSET + i] & 0xff));
> }
> l += counter;
> IV[CTR_OFFSET + 0] = (byte) (l >>> 56);
> IV[CTR_OFFSET + 1] = (byte) (l >>> 48);
> IV[CTR_OFFSET + 2] = (byte) (l >>> 40);
> IV[CTR_OFFSET + 3] = (byte) (l >>> 32);
> IV[CTR_OFFSET + 4] = (byte) (l >>> 24);
> IV[CTR_OFFSET + 5] = (byte) (l >>> 16);
> IV[CTR_OFFSET + 6] = (byte) (l >>> 8);
> IV[CTR_OFFSET + 7] = (byte) (l);
> }
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