I am reading up on Transactional Memory (TM), and one of the papers I'm reading says[1]:

Indeed, it was two nonblocking algorithms, the obstruction-free DSTM and lock-free FSTM that reinvigorated STM research in the past decade.

I was under the impression that lock implied obstruction. Apparently, I was wrong...

What is the difference between the terms "lock-free" and "obstruction-free"?


1 Answer 1


Here are the definitions from Herlihy & Shavit's The Art Of Multiprocessor Programing.

A method is wait-free if it guarantees that every call finishes its execution in a finite number of steps.

A method is lock-free if it guarantees that infinitely often some method call finishes in a finite number of steps.

A method is obstruction-free if, from any point after which it executes in isolation, it finishes in a finite number of steps (method call executes in isolation if no other threads take steps).

All wait-free methods are lock-free, and all lock-free methods are obstruction-free.

  • 2
    According to the paper ["On the nature of progress" by Maurice Herlihy et al@OPODIS'2011 [Fig. 1]](cs.tau.ac.il/~shanir/progress.pdf), I am afraid it is not the case that all lock-free methods are obstruction-free.
    – hengxin
    Jan 20, 2015 at 10:53
  • en.wikipedia.org/wiki/Non-blocking_algorithm has more explanation of the categories. Lock-free can include CAS retry loops. Obstruction free but not lock-free can involve cancelling another thread's attempted operation if they conflict with each other, apparently. Apr 2, 2022 at 9:27

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.