I am still fairly new to multithreading but got already burnt several times. Now I try to avoid some pitfalls but I have a hard time with the following:
Consider several threads, Thread
A Producer, hence
C,... Consumer threads hence
All share a common buffer
Some basic books propose to introduce a so called
ReadWriteLock for this scenario.
Multiple concurrent reads are possible but obviously only one write.Boost offers such locks, Qt as well.
Lets assume two functions f1 and f2 that lock S for reading.
B f1 is called and locks for reading and f2 is called inside f1 and locks for reading again, hence nested locking is possible.
Now consider the instant when f1 is executed and locks for read for the first time. If thread A gets called and wants to write he gets blocked.
Further if inside f1 f2 gets called and wants to lock it can’t since a blocked
writer is waiting and in this case many locks (e.g.
QReadWriteLock) block further
readers as well.
Hence we get a very nasty deadlock that is non-predictable and occurs only if a
writer kicks in between the lock in f1 and the lock of f2.
My current approach to avoid such bugs is a debug tool that tracks locking and asserts if the same thread tries to lock for read twice, but this is quite cumbersome. Apart from this I avoid putting much code inside a lock, which helps but can be ignored by other members of my team.
What other functionality can be used to prevent such scenarios ? Why do ReadWriteLocks permit them at all ? Are there some general rules of thumb to avoid the above scenario in the design phase?
Thanks in advance for reading the long question ;-)