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I have a C++ program which opens files in /tmp (on a *nix system) and reads their contents.

To do this, I am using:

ofstream dest;, ios::app);

where abs_path is a string containing the absolute path to the file.

The problem is that some *nix programs create named pipes as files in /tmp. For example,


Is a pipe created by a debugging utility I am using.

In the documentation for ofstream, the open method it says that the method sets an error bit when opening the file fails. However, in my tests it instead hangs trying to open the file (which is actually a pipe) indefinitely. I assume this is because the file is locked by another program (probably the debugger).

So, how can I force ofstream::open to block for a finite amount of time, or not at all? It's easy enough to clean up gracefully if it fails, but it needs to actually fail first..

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If I recall correctly, the pipe must be opened on both ends before the open call succeeds. Also, a named pipe is outside the scope of the C++ standard, so the ofstream documentation probably doesn't consider it. – Magnus Hoff Sep 28 '12 at 8:47
@SteveJessop fixed. – John Doucette Sep 28 '12 at 9:15

2 Answers 2

up vote 3 down vote accepted

The simple answer is that you can't. filebuf::open (called by ofstream) basically delegates to the OS, and supposed that the OS will do the right thing. And the interface it supports is very, very limited; many important options to open (O_SYNC, O_NONBLOCK, etc) aren't mapped, and thus can't be used. The only solutions I've found to this is either to use std::ostringstream, then write the string to the file using system level calls, or to write my own streambuf, which does what I want (much simpler than it sounds, since you typically only need part of what filebuf offers—you often don't need bidirectionality, seeking or code translation).

Neither of these solutions are portable, of course.

Finally, I'm not sure why you're writing into /tmp. By convention, anything you put into /tmp should contain the process id. And for security reasons, I'd always create a subdirectory, with the process id in its name, and with very limited access rights, and create any temporary files in it.

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Is 23732 not the PID? Creating a subdirectory isn't essential IMO, it depends how much engineering you want to do to defend your debugger from being watched by other users of the system as it creates files. You might have to take this one up with the authors of valgrind. – Steve Jessop Sep 28 '12 at 9:06
And also -- if you're using /tmp, it might not be a big leap to assume Posix and use open instead of fopen in order to use the extra flags. – Steve Jessop Sep 28 '12 at 9:12
Very helpful. Perhaps this should be it's own question, but is there a good reason why these options are not mapped? Seems like they exist in some form on most (all?) systems, and ought to be part of the standard. – John Doucette Sep 28 '12 at 9:18
@SteveJessop 23732 is presumably the pid of the debugger which created this named pipe. If so, it's not his pid (although with network mounts...). With regards to creating the subdirectory, it depends, but it's a good precautionary measure, since it allows you to use ofstream to create files within it without any real risk. – James Kanze Sep 28 '12 at 9:57
@JohnDoucette Probably historical. C++ really doesn't go beyond C, and when C was being defined, these options weren't available. I'm not sure to what degree O_NONBLOCK is important, but you can't write any transactional software without O_SYNC. (FWIW, Java supports it.) – James Kanze Sep 28 '12 at 10:01

AFAIK, there is no such thing as non-blocking input defined by the C++ language. (There is a method std::streambuf::in_avail(), but still it can't help you)

You can consider using C method

int file_descr = open( "pipe_addr", O_RDONLY |O_NONBLOCK);

instead of std::ofstream

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