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From "dan clark (JIRA)" <j...@apache.org>
Subject [jira] [Updated] (QPID-8134) qpid::client::Message::send multiple memory leaks
Date Wed, 01 Aug 2018 15:59:00 GMT

     [ https://issues.apache.org/jira/browse/QPID-8134?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel

dan clark updated QPID-8134:
    Affects Version/s: qpid-cpp-1.38.0

> qpid::client::Message::send multiple memory leaks
> -------------------------------------------------
>                 Key: QPID-8134
>                 URL: https://issues.apache.org/jira/browse/QPID-8134
>             Project: Qpid
>          Issue Type: Bug
>          Components: C++ Client
>    Affects Versions: qpid-cpp-1.37.0, qpid-cpp-1.38.0
>         Environment: *CentOS* Linux release 7.4.1708 (Core)
> Linux localhost.novalocal 3.10.0-327.el7.x86_64 #1 SMP Thu Nov 19 22:10:57 UTC 2015 x86_64
x86_64 x86_64 GNU/Linux
> *qpid*-qmf-1.37.0-1.el7.x86_64
> *qpid*-dispatch-debuginfo-1.0.0-1.el7.x86_64
> python-*qpid*-1.37.0-1.el7.noarch
> *qpid*-proton-c-0.18.1-1.el7.x86_64
> python-*qpid*-qmf-1.37.0-1.el7.x86_64
> *qpid*-proton-debuginfo-0.18.1-1.el7.x86_64
> *qpid*-cpp-debuginfo-1.37.0-1.el7.x86_64
> *qpid*-cpp-client-devel-1.37.0-1.el7.x86_64
> *qpid*-cpp-server-1.37.0-1.el7.x86_64
> *qpid*-cpp-client-1.37.0-1.el7.x86_64
>            Reporter: dan clark
>            Priority: Blocker
>              Labels: maven
>         Attachments: drain.cpp, godrain.sh, gospout.sh, qpid-stat.out, spout.cpp, spout.log
>   Original Estimate: 40h
>  Remaining Estimate: 40h
> There may be multiple leaks of the outgoing message structure and associated fields when
using the qpid::client::amqp0_10::SenderImpl::send function to publish messages under certain
setups. I will concede that there may be options that are beyond my ken to ameliorate the
leak of messages structures, especially since there is an indication that under prolonged
runs (a demonized version of an application like spout) that the statistics for quidd indicate
increased acquires with zero releases.
> The basic notion is illustrated with the test application spout (and drain).  Consider
a long running daemon reducing the overhead of open/send/close by keeping the message connection
open for long periods of time.  Then the logic would be: start application/open connection.
 In a loop send data (and never reach a close).  Thus the drain application illustrates
the behavior and demonstrates the leak using valgrind by sending the data followed by an exit(0).
> Note also the lack of 'releases' associated with the 'acquires' in the stats output.
> Capturing the leaks using the test applications spout/drain required adding an 'exit()'
prior to the close, as during normal operations of a daemon, the connection remains open for
a sustained period of time, thus the leak of structures within the c++ client library are
found as structures still tracked by the library and cleaned up on 'connection.close()', but
they should be cleaned up as a result of the completion of the send/receive ack or the termination
of the life of the message based on the TTL of the message, which ever comes first.  I have
witnessed growth of the leaked structures into the millions of messages lasting more than
24hours with short (300sec) TTL of the messages based on scenarios attached using spout/drain
as test vehicle.
> The attached spout.log uses a short 10message test and the spout.log contains 5 sets
of different structures leaked (found with the 'bytes in 10 blocks are still reachable' lines,
that are in line with much more sustained leaks when running the application for multiple
days with millions of messages.
> The leaks seem to be associated with structures allocation 'stdstrings' to save the "subject"
and the "payload" for string based messages using send for amq.topic output.
> Suggested work arounds are welcome based on application level changes to spout/drain
(if they are missing key components) or changes to the address/setup of the queues for amq.topic
messages (see the 'gospout.sh and godrain.sh' test drivers providing the specific address
structures being used.
> For example, the following is one of the 5 different categories of leaked data from 'spout.log'
on a valgrind analysis of the output post the send and session.sync but prior connection.close():
> ==3388== 3,680 bytes in 10 blocks are still reachable in loss record 233 of 234
> ==3388==    at 0x4C2A203: operator new(unsigned long) (vg_replace_malloc.c:334)
> ==3388==    by 0x4EB046C: qpid::client::Message::Message(std::string const&, std::string
const&) (Message.cpp:31)
> ==3388==    by 0x51742C1: qpid::client::amqp0_10::OutgoingMessage::OutgoingMessage()
> ==3388==    by 0x5186200: qpid::client::amqp0_10::SenderImpl::sendImpl(qpid::messaging::Message
const&) (SenderImpl.cpp:140)
> ==3388==    by 0x5186485: operator() (SenderImpl.h:114)
> ==3388==    by 0x5186485: execute<qpid::client::amqp0_10::SenderImpl::Send> (SessionImpl.h:102)
> ==3388==    by 0x5186485: qpid::client::amqp0_10::SenderImpl::send(qpid::messaging::Message
const&, bool) (SenderImpl.cpp:49)
> ==3388==    by 0x40438D: main (spout.cpp:185)

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