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I traced an oracle process, and find it first open a file /etc/netconfig as file handle 11, and then duplicate it as 256 by calling fcntl with parameter F_DUPFD, and then close the original file handle 11. Later it read using file handle 256. So what's the point to duplicate the file handle? Why not just work on the original file handle?

12931:   0.0006 open("/etc/netconfig", O_RDONLY|O_LARGEFILE)    = 11
12931:   0.0002 fcntl(11, F_DUPFD, 0x00000100)                  = 256
12931:   0.0001 close(11)                                       = 0
12931:   0.0002 read(256, " # p r a g m a   i d e n".., 1024)   = 1024
12931:   0.0003 read(256, " t s           t p i _ c".., 1024)   = 215
12931:   0.0002 read(256, 0x106957054, 1024)                    = 0
12931:   0.0001 lseek(256, 0, SEEK_SET)                         = 0
12931:   0.0002 read(256, " # p r a g m a   i d e n".., 1024)   = 1024
12931:   0.0003 read(256, " t s           t p i _ c".., 1024)   = 215
12931:   0.0003 read(256, 0x106957054, 1024)                    = 0
12931:   0.0001 close(256)                                      = 0
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up vote 3 down vote accepted

As an aside, they're file descriptors rather than file handles. The latter are a C feature used with fopen and its brethren while descriptors are more UNIXy, for use with open et al.

Interesting. The only reason that comes to mind is that some other piece of code has a specific need for the file descriptor to be 256. I suspect only Oracle would know the bizarre reasons for that. In any case, you're not guaranteed to get 256, you get the file first available file descriptor greater than or equal to that number.

From a bit of investigation (I don't know every little thing about the innards of UNIX off the top of my head), there are attributes that belong to a group of duplicated descriptors such as file position and access mode. There are other attributes that belong to a single file descriptor, even when duplicated, such as the close-on-exec flag in GNULib.

Doing a duplicate (either with dup, dup2 or your fcntl) could be a way to create two descriptors, one with different file descriptor attributes, but I can't see that being the case in your question since the first descriptor is closed anyway. As you say, why not just use the low descriptor?

Interestingly enough, if you google for netconfig f_dupfd, you will see similar traces where the fcntl fails and it continues to read that file with the low descriptor so my thoughts on the matter are that this is an attempt to preserve low file descriptors as much as possible. For example:

4327:   open("/etc/netconfig", O_RDONLY|O_LARGEFILE)    = 4
4327:   fcntl(4, F_DUPFD, 0x00000100)                   Err#22 EINVAL
4327:   read(4, " # p r a g m a   i d e n".., 1024)     = 1024
4327:   read(4, " t s           t p i _ c".., 1024)     = 215
4327:   read(4, 0x00296B80, 1024)                       = 0
4327:   lseek(4, 0, SEEK_SET)                           = 0
4327:   read(4, " # p r a g m a   i d e n".., 1024)     = 1024
4327:   read(4, " t s           t p i _ c".., 1024)     = 215
4327:   read(4, 0x00296B80, 1024)                       = 0
4327:   close(4)                                        = 0

Maybe the software has a byte array of file descriptors somewhere that's limited so it attempts to move other files above the 255-limit.

But really, that's just guesswork on my part (although I'd like to think it's relatively intelligent guesswork). Also keep in mind that it may not be Oracle itself doing this. The netconfig stuff is used in a lot of places so it may be some underlying library doing that, especially in light of the fact that most of the afore-mentioned web hits weren't Oracle-specific (ftp, remsh and so on).

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Thanks paxdiablo, Very nice guesswork. Make sense to me. – Daniel Apr 13 '10 at 8:35
+1 I learned something new. I'd always assumed F_DUPFD was just duplicate functionality, but it's actually the thread-safe version of dup2 (it avoids race conditions where you clobber a file descriptor just opened by another thread). – R.. May 25 '11 at 14:42

On some systems, like Solaris, standard I/O with FILE only works with file descriptors 0-255 because its implementation of the FILE structure uses an 8-bit integer instead of int. If a program uses a lot of file descriptors, it's useful to reserve file descriptors 3-255 using fnctl(fd, F_DUPFD, 256). Otherwise, functions like fopen(), freopen() and fdopen() will fail if you have 256 files open.

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Wow, +1 for finding such a gem of brokenness in supposedly-modern systems. There's no excuse for them not fixing this bug. – R.. May 25 '11 at 14:41
With more recent versions of Solaris, you can configure things to remove the limit. However, this changes the ABI of FILE, including the fileno macro in older versions of Solaris. Solaris is not the only OS where applications directly mess with FILEs. For example, Perl likes it, including writing to the file descriptor field. – jilles Nov 5 '12 at 15:35

Here is another example when a technique of reserving low-numbered file descriptors is needed.

Assume that a process opens a large number of file descriptor e.g. it accepts more than 1024 simultaneous socket connections. At the same time the process also uses third party library that opens socket connections and uses select() to see if sockets are ready for reading or writing. Additionally the third party library was compiled with __FD_SETSIZE set to 1024 (default value).

If the library opens a socket when all file descriptors below 1024 are in use then it will get a descriptor that select() and associated FD_* macros can not cope with. This will result in process crashing or undefined behaviour.

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