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https://issues.apache.org/jira/browse/HADOOP-12487?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=14963987#comment-14963987
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Colin Patrick McCabe commented on HADOOP-12487:
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I don't see any language in POSIX that forbids {{shutdown}} from causing the
kernel to break out of a call to {{accept}}. I guess you are arguing that the
socket that you are calling {{accept}} on is not "connected" but that seems
kind of arguable.
What isn't arguable is that Linux's behavior is more useful here than Solaris'.
We do not want to call close on the socket until we know that no threads could
possibly be using that socket. {{shutdown}} on Linux allows us to interrupt
all those threads and join them (essentially). I don't see how you can do that
on Solaris if it has the semantics you describe.
If you call {{close}} on the socket while Java threads are still using it, the
next time a file descriptor gets opened, it could reuse the FD number of the
closed socket. That could be bad for all kinds of reasons.
More and more it seems like the Solaris implementation should be a completely
piece of C code from the Linux one, and probably based on {{poll}} or
{{select}}.
> DomainSocket.close() assumes incorrect Linux behaviour
> ------------------------------------------------------
>
> Key: HADOOP-12487
> URL: https://issues.apache.org/jira/browse/HADOOP-12487
> Project: Hadoop Common
> Issue Type: Sub-task
> Components: net
> Affects Versions: 2.7.1
> Environment: Linux Solaris
> Reporter: Alan Burlison
> Assignee: Alan Burlison
> Attachments: shutdown.c
>
>
> I'm getting a test failure in TestDomainSocket.java, in the
> testSocketAcceptAndClose test. That test creates a socket which one thread
> waits on in DomainSocket.accept() whilst a second thread sleeps for a short
> time before closing the same socket with DomainSocket.close().
> DomainSocket.close() first calls shutdown0() on the socket before closing
> close0() - both those are thin wrappers around the corresponding libc socket
> calls. DomainSocket.close() contains the following comment, explaining the
> logic involved:
> {code}
> // Calling shutdown on the socket will interrupt blocking system
> // calls like accept, write, and read that are going on in a
> // different thread.
> {code}
> Unfortunately that relies on non-standards-compliant Linux behaviour. I've
> written a simple C test case that replicates the scenario above:
> # ThreadA opens, binds, listens and accepts on a socket, waiting for
> connections.
> # Some time later ThreadB calls shutdown on the socket ThreadA is waiting in
> accept on.
> Here is what happens:
> On Linux, the shutdown call in ThreadB succeeds and the accept call in
> ThreadA returns with EINVAL.
> On Solaris, the shutdown call in ThreadB fails and returns ENOTCONN. ThreadA
> continues to wait in accept.
> Relevant POSIX manpages:
> http://pubs.opengroup.org/onlinepubs/9699919799/functions/accept.html
> http://pubs.opengroup.org/onlinepubs/9699919799/functions/shutdown.html
> The POSIX shutdown manpage says:
> "The shutdown() function shall cause all or part of a full-duplex connection
> on the socket associated with the file descriptor socket to be shut down."
> ...
> "\[ENOTCONN] The socket is not connected."
> Page 229 & 303 of "UNIX System V Network Programming" say:
> "shutdown can only be called on sockets that have been previously connected"
> "The socket \[passed to accept that] fd refers to does not participate in the
> connection. It remains available to receive further connect indications"
> That is pretty clear, sockets being waited on with accept are not connected
> by definition. Nor is it the accept socket connected when a client connects
> to it, it is the socket returned by accept that is connected to the client.
> Therefore the Solaris behaviour of failing the shutdown call is correct.
> In order to get the required behaviour of ThreadB causing ThreadA to exit the
> accept call with an error, the correct way is for ThreadB to call close on
> the socket that ThreadA is waiting on in accept.
> On Solaris, calling close in ThreadB succeeds, and the accept call in ThreadA
> fails and returns EBADF.
> On Linux, calling close in ThreadB succeeds but ThreadA continues to wait in
> accept until there is an incoming connection. That accept returns
> successfully. However subsequent accept calls on the same socket return EBADF.
> The Linux behaviour is fundamentally broken in three places:
> # Allowing shutdown to succeed on an unconnected socket is incorrect.
> # Returning a successful accept on a closed file descriptor is incorrect,
> especially as future accept calls on the same socket fail.
> # Once shutdown has been called on the socket, calling close on the socket
> fails with EBADF. That is incorrect, shutdown should just prevent further IO
> on the socket, it should not close it.
> The real issue though is that there's no single way of doing this that works
> on both Solaris and Linux, there will need to be platform-specific code in
> Hadoop to cater for the Linux brokenness.
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