In order to assess whether go is a possible option for an audio/video application, I would like to know whether message passing in go satisfies any non-blocking progress guarantees (being obstruction-free, lock-free or wait-free). In particular, the following scenarios are relevant:
Single producer single consumer:
Two threads communicate using a shared channel. Thread A only does asynchronous sends, thread B only does asynchronous receives. Suppose the OS scheduler decides to interrupt thread A at the "worst possible moment" for an indefinite amount of time. Is thread B guaranteed to finish a receive operation in a bounded number of cpu cycles or is there a (theoretical) possibility that thread A can put the channel into a state where thread B needs to wait for the OS to resume thread A?
Several threads A1, A2, A3, ... communicate with one or more others threads using a shared channel. The threads Ai only do asynchronous sends. Suppose A2, A3, ... are suspended by the OS scheduler at the "worst possible moment" for an indefinite amount of time. Is thread A1 still guaranteed to finish a send operation in a bounded number of cpu cycles? Suppose further that each thread only wants to do one send. If the program is run sufficiently long (with a "malicious" scheduler which potentially starves some threads or interrupts and resumes threads at the "worst possible moment"), is at least one send guaranteed to succeed?
I am not so much interested in typical scenarios here, but rather worst-case guarantees. See Non-blocking algorithm (Wikipedia) for more details on obstruction-, lock- and wait-free algorithms.