Re: sys_write() racy for multi-threaded append?

[Benjamin LaHaise]

On Fri, Mar 09, 2007 at 04:19:55AM -0800, Michael K. Edwards wrote:
> On 3/8/07, Benjamin LaHaise <bcrl@xxxxxxxxx> wrote:
> >Any number of things can cause a short write to occur, and rewinding the
> >file position after the fact is just as bad.  A sane app has to either
> >serialise the writes itself or use a thread safe API like pwrite().
> 
> Not on a pipe/FIFO.  Short writes there are flat out verboten by
> 1003.1 unless O_NONBLOCK is set.  (Not that f_pos is interesting on a
> pipe except as a "bytes sent" indicator  -- and in the multi-threaded
> scenario, if you do the speculative update that I'm suggesting, you
> can't 100% trust it unless you ensure that you are not in
> mid-read/write in some other thread at the moment you sample f_pos.
> But that doesn't make it useless.)

Writes to a pipe/FIFO are atomic, so long as they fit within the pipe buffer 
size, while f_pos on a pipe is undefined -- what exactly is the issue here?  
The semantics you're assuming are not defined by POSIX.  Heck, even looking 
at a man page for one of the *BSDs states "Some devices are incapable of 
seeking.  The value of the pointer associated with such a device is 
undefined."  What part of undefined is problematic?

> As to what a "sane app" has to do: it's just not that unusual to write
> application code that treats a short read/write as a catastrophic
> error, especially when the fd is of a type that is known never to
> produce a short read/write unless something is drastically wrong.  For
> instance, I bomb on short write in audio applications where the driver
> is known to block until enough bytes have been read/written, period.
> When switching from reading a stream of audio frames from thread A to
> reading them from thread B, I may be willing to omit app
> serialization, because I can tolerate an imperfect hand-off in which
> thread A steals one last frame after thread B has started reading --
> as long as the fd doesn't get screwed up.  There is no reason for the
> generic sys_read code to leave a race open in which the same frame is
> read by both threads and a hardware buffer overrun results later.

I hope I don't have to run any of your software.  Short writes can and do 
happen because of a variety of reasons: signals, memory allocation failures, 
quota being exceeded....  These are all error conditions the kernel has to 
provide well defined semantics for, as well behaved applications will try 
to handle them gracefully.

> In short, I'm not proposing that the kernel perfectly serialize
> concurrent reads and writes to arbitrary fd types.  I'm proposing that
> it not do something blatantly stupid and easily avoided in generic
> code that makes it impossible for any fd type to guarantee that, after
> 10 successful pipelined 100-byte reads or writes, f_pos will have
> advanced by 1000.

The semantics you're looking for are defined for regular files with 
O_APPEND.  Anything else is asking for synchronization that other 
applications do not require and do not desire.

		-ben
-- 
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