From a post in Apple's old developer forums from Quinn "The Eskimo" (Apple Developer Relations, Developer Technical Support, Core OS/Hardware), edited by me to remove things which were specific to that specific case:
EXC_GUARD is a change in 10.9 designed to help you detect file
descriptor problems. Specifically, the system can now flag specific
file descriptors as being guarded, after which normal operations on
those descriptors will trigger an EXC_GUARD crash (when it wants to
operate on these file descriptors, the system uses special 'guarded'
We added this to the system because we found a lot of apps were
crashing mysteriously after accidentally closing a file descriptor
that had been opened by a system library. For example, if an app
closes the file descriptor used to access the SQLite file backing a
Core Data store, Core Data would then crash mysteriously much later
on. The guard exception gets these problems noticed sooner, and thus
makes them easier to debug.
For an EXC_GUARD crash, the exception codes break down as follows:
o The first exception code … contains three bit
The top three bits … indicate [the type of guard].
The remainder of the top 32 bits … indicate [which operation was disallowed].
The bottom 32 bits indicate the descriptor in question ….
o The second exception code is a magic number associated with the
Your code is closing a socket it doesn't own. Maybe
sd contains the descriptor number for a descriptor that you once owned but is now a dangling reference, because you already closed your descriptor and that number has now been reused for somebody else's descriptor. Or maybe
sd just has a junk value somehow.
We can decode some more information from the exception codes, but most likely you just have to trace exactly where you're doing with
sd over its life.
From the edited question, I see that you've posted the exception codes. Using the constants from the kernel source, the type of guard is
GUARD_TYPE_FD, the operation that was disallowed was
close()), and the descriptor was 0 (FILENO_STDIN).
So, in all probability, your
stopPacketReceiver was called when the
sd instance variable was uninitialized and had the default 0 value that all instance variables get when an object is first allocated.
The magic value is
0x08fd4dbfade2dead, which according to the original developer forums post, "indicates that the guard was applied by SQLite". That seems strange. Descriptor 0 would normally be open from process launch (perhaps referencing /dev/null). So, SQLite should not own that.
I suspect what has happened is that your code has actually closed descriptor 0 twice. The first time it was not guarded. It's legal to close
FILENO_STDIN. Programs sometimes do it to reopen that descriptor to reference something else (such as /dev/null) if they don't want/need the original standard input. In your case, it would have been an accident but would not have raised an exception. Once it was closed, the descriptor would have been available to be reallocated to the next thing which opened a descriptor. I guess that was SQLite. At that time, SQLite put a guard on the descriptor. Then, your code tried to close it again and got the
If I'm right, then it's somewhat random that your code got the exception (although it was always doing something bad). The fact that file descriptor 0 got assigned to a subsystem that applied a guard to it could be a race condition or it could be a change in order of operations between versions of the OS.
You need to be more careful to not close descriptors that you didn't open. You should initialize any instance variable meant to hold a file descriptor to -1, not 0. Likewise, if you close a descriptor that you did own, you should set the instance variable back to -1.