I am trying to use Boost's
upgrade_lock (using this example, but I run into a starvation issue.
I am actually using the code from this post, but I wanted an up-to-date discussion. I run 400 threads after the WorkerKiller. I run into the exact same problem as anoneironaut, the author of the mentionned post.
I have seen the proposition from Howard Hinnant, but I don't really want to include more external code (moreover I cannot get his to compile as of now) and a comment posted 6 months later states that "Boost uses a fair implementation now" (Dec 3 '12).
The Boost 1.55 documentation states that:
Note the the lack of reader-writer priority policies in shared_mutex. This is due to an algorithm credited to Alexander Terekhov which lets the OS decide which thread is the next to get the lock without caring whether a unique lock or shared lock is being sought. This results in a complete lack of reader or writer starvation. It is simply fair.".
And the algorithm credited to Alexander Terekhov is the one that Howard Hinnant talks about, so I would expect the 1.55 boost implementation to behave like in Howard Hinnant's answer, which is not the case. It behaves exactly like in the question.
Why is it the case that my WorkerKiller suffers of starvation?
UPDATE: It was observed with this code on:
- Debian x64, Boost 1.55 (both the Debian version and one compiled from sources), with both clang++ and g++
- Ubuntu x64, Boost 1.54, with both clang++ (3.4-1ubuntu1) and g++ (4.8.1-10ubuntu9)