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Can every imaginable synchronization problem be solved with judicious use of semaphores? What about weak semaphores?

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Rather than asking us to read your book, please provide what information we need to answer here in your question. –  jalf Dec 23 '09 at 13:56
    
"Can every imaginable synchronization problem be solved with judicious use of semaphores?" Is the question clear? I mentioned chapter 4.3 to reference weak semaphores, you don't need to check the pdf if you already know what a weak semaphore is. (btw it's not "my" book) –  sdcvvc Dec 23 '09 at 13:59
    
I removed the reference to the book. Here's a related question: can every computing problem be solved with a Turing machine? The answer is yes, because of Turing-completeness/Church thesis. This the same question, but about completeness of semaphores. –  sdcvvc Dec 23 '09 at 14:10
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No. Just for example, it's impossible for a system that uses only semaphores for synchronization to provide wait-free guarantees, or even progress guarantees, in the face of third-party code (e.g. a plugin). A perverse or poorly-written section of code can deny access to a semaphore-guarded section of code to everyone forever.

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I don't think this answers the right question. The problem is whether semaphores are sufficient to implement all other synchronisation primitives. I don't think any implementation could withstand injection of incorrect code at arbitrary points, whether it use locks or semaphores or what have you. –  Paul Du Bois Aug 17 '10 at 19:24
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Agerwala argues that appropiately extended semaphores are complete. This doesn't answer all my questions, but is on right track. David Seiler has a point too.

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