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    ipc: Fix 2 bugs in msgrcv() MSG_COPY implementation · 4f87dac3
    Michael Kerrisk 提交于
    While testing and documenting the msgrcv() MSG_COPY flag that Stanislav
    Kinsbursky added in commit 4a674f34 ("ipc: introduce message queue
    copy feature" => kernel 3.8), I discovered a couple of bugs in the
    implementation.  The two bugs concern MSG_COPY interactions with other
    msgrcv() flags, namely:
    
     (A) MSG_COPY + MSG_EXCEPT
     (B) MSG_COPY + !IPC_NOWAIT
    
    The bugs are distinct (and the fix for the first one is obvious),
    however my fix for both is a single-line patch, which is why I'm
    combining them in a single mail, rather than writing two mails+patches.
    
     ===== (A) MSG_COPY + MSG_EXCEPT =====
    
    With the addition of the MSG_COPY flag, there are now two msgrcv()
    flags--MSG_COPY and MSG_EXCEPT--that modify the meaning of the 'msgtyp'
    argument in unrelated ways.  Specifying both in the same call is a
    logical error that is currently permitted, with the effect that MSG_COPY
    has priority and MSG_EXCEPT is ignored.  The call should give an error
    if both flags are specified.  The patch below implements that behavior.
    
     ===== (B) (B) MSG_COPY + !IPC_NOWAIT =====
    
    The test code that was submitted in commit 3a665531 ("selftests: IPC
    message queue copy feature test") shows MSG_COPY being used in
    conjunction with IPC_NOWAIT.  In other words, if there is no message at
    the position 'msgtyp'.  return immediately with the error in ENOMSG.
    
    What was not (fully) tested is the behavior if MSG_COPY is specified
    *without* IPC_NOWAIT, and there is an odd behavior.  If the queue
    contains less than 'msgtyp' messages, then the call blocks until the
    next message is written to the queue.  At that point, the msgrcv() call
    returns a copy of the newly added message, regardless of whether that
    message is at the ordinal position 'msgtyp'.  This is clearly bogus, and
    problematic for applications that might want to make use of the MSG_COPY
    flag.
    
    I considered the following possible solutions to this problem:
    
     (1) Force the call to block until a message *does* appear at the
         position 'msgtyp'.
    
     (2) If the MSG_COPY flag is specified, the kernel should implicitly add
         IPC_NOWAIT, so that the call fails with ENOMSG for this case.
    
     (3) If the MSG_COPY flag is specified, but IPC_NOWAIT is not, generate
         an error (probably, EINVAL is the right one).
    
    I do not know if any application would really want to have the
    functionality of solution (1), especially since an application can
    determine in advance the number of messages in the queue using msgctl()
    IPC_STAT.  Obviously, this solution would be the most work to implement.
    
    Solution (2) would have the effect of silently fixing any applications
    that tried to employ broken behavior.  However, it would mean that if we
    later decided to implement solution (1), then user-space could not
    easily detect what the kernel supports (but, since I'm somewhat doubtful
    that solution (1) is needed, I'm not sure that this is much of a
    problem).
    
    Solution (3) would have the effect of informing broken applications that
    they are doing something broken.  The downside is that this would cause
    a ABI breakage for any applications that are currently employing the
    broken behavior.  However:
    
    a) Those applications are almost certainly not getting the results they
       expect.
    b) Possibly, those applications don't even exist, because MSG_COPY is
       currently hidden behind CONFIG_CHECKPOINT_RESTORE.
    
    The upside of solution (3) is that if we later decided to implement
    solution (1), user-space could determine what the kernel supports, via
    the error return.
    
    In my view, solution (3) is mildly preferable to solution (2), and
    solution (1) could still be done later if anyone really cares.  The
    patch below implements solution (3).
    
    PS.  For anyone out there still listening, it's the usual story:
    documenting an API (and the thinking about, and the testing of the API,
    that documentation entails) is the one of the single best ways of
    finding bugs in the API, as I've learned from a lot of experience.  Best
    to do that documentation before releasing the API.
    Signed-off-by: NMichael Kerrisk <mtk.manpages@gmail.com>
    Acked-by: NStanislav Kinsbursky <skinsbursky@parallels.com>
    Cc: Stanislav Kinsbursky <skinsbursky@parallels.com>
    Cc: stable@vger.kernel.org
    Cc: Serge Hallyn <serge.hallyn@canonical.com>
    Cc: "Eric W. Biederman" <ebiederm@xmission.com>
    Cc: Pavel Emelyanov <xemul@parallels.com>
    Cc: Al Viro <viro@zeniv.linux.org.uk>
    Cc: KOSAKI Motohiro <kosaki.motohiro@jp.fujitsu.com>
    Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
    4f87dac3
msg.c 24.0 KB