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Posted to dev@zookeeper.apache.org by "Benjamin Reed (JIRA)" <ji...@apache.org> on 2018/07/28 02:43:00 UTC
[jira] [Resolved] (ZOOKEEPER-3072) Race condition in throttling
[ https://issues.apache.org/jira/browse/ZOOKEEPER-3072?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel ]
Benjamin Reed resolved ZOOKEEPER-3072.
--------------------------------------
Resolution: Fixed
> Race condition in throttling
> ----------------------------
>
> Key: ZOOKEEPER-3072
> URL: https://issues.apache.org/jira/browse/ZOOKEEPER-3072
> Project: ZooKeeper
> Issue Type: Bug
> Components: server
> Affects Versions: 3.5.0, 3.5.1, 3.5.2, 3.5.3, 3.5.4
> Reporter: Botond Hejj
> Priority: Major
> Labels: pull-request-available
> Fix For: 3.6.0, 3.5.4
>
> Time Spent: 2h 40m
> Remaining Estimate: 0h
>
> There is a race condition in the server throttling code. It is possible that the disableRecv is called after enableRecv.
> Basically, the I/O work thread does this in processPacket: [https://github.com/apache/zookeeper/blob/release-3.5.3/src/java/main/org/apache/zookeeper/server/ZooKeeperServer.java#L1102]
> submitRequest(si);
> }
> }
> cnxn.incrOutstandingRequests(h);
> }
>
> incrOutstandingRequests() checks for limit breach, and potentially turns on throttling, [https://github.com/apache/zookeeper/blob/release-3.5.3/src/java/main/org/apache/zookeeper/server/NIOServerCnxn.java#L384]
>
> submitRequest() will create a logical request and en-queue it so that Processor thread can pick it up. After being de-queued by Processor thread, it does necessary handling, and then calls this [https://github.com/apache/zookeeper/blob/release-3.5.3/src/java/main/org/apache/zookeeper/server/FinalRequestProcessor.java#L459] :
>
> cnxn.sendResponse(hdr, rsp, "response");
>
> and in sendResponse(), it first appends to outgoing buffer, and then checks if un-throttle is needed: [https://github.com/apache/zookeeper/blob/release-3.5.3/src/java/main/org/apache/zookeeper/server/NIOServerCnxn.java#L708]
>
> However, if there is a context switch between submitRequest() and cnxn.incrOutstandingRequests(), so that Processor thread completes cnxn.sendResponse() call before I/O thread switches back, then enableRecv() will happen before disableRecv(), and enableRecv() will fail the CAS ops, while disableRecv() will succeed, resulting in a deadlock: un-throttle is needed for letting in requests, and sendResponse is needed to trigger un-throttle, but sendResponse() requires an incoming message. From that point on, ZK server will no longer select the affected client socket for read, leading to the observed client-side failure in the subject.
> If you would like to reproduce this than setting the globalOutstandingLimit down to 1 makes this reproducible easier as throttling starts with less requests.
>
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