When MRI 1.9 initiates, it spawns two native threads. One thread is for the VM, the other is used to handle signals. Rubinis uses this strategy, as does the JVM. Pipes can be used to communicate any info from other processes.
As for the FileUtils
module, the cd
, pwd
, mkdir
, rm
, ln
, cp
, mv
, chmod
, chown
, and touch
methods are all, to some degree, outsourced to OS native utilities using the internal API of the StreamUtils
submodule while the second thread is left to wait for a signal from the an outside process. Since these methods are quite thread-safe, there is no need to lock the interpreter and thus the methods don't block eachother.
Edit:
MRI 1.8.7 is quite smart, and knows that when a Thread is waiting for some external event (such as a browser to send an HTTP request), the Thread can be put to sleep and be woken up when data is detected. - Evan Phoenix from Engine Yard in Ruby, Concurrency, and You
The implementation basic implementation for FileUtils has not changed much sense 1.8.7 from looking at the source. 1.8.7 also uses a sleepy timer thread to wait for a IO response. The main difference in 1.9 is the use of native threads rather than green threads. Also the thread source code is much more refined.
By thread-safe I mean that since there is nothing shared between the processes, there is no reason to lock the global interpreter. There is a misconception that Ruby "blocks" when doing certain tasks. Whenever a thread has to block, i.e. wait without using any cpu, Ruby simply schedules another thread. However in certain situations, like a rack-server using 20% of the CPU waiting for a response, it can be appropriate to unlock the interpreter and allow concurrent threads to handle other requests during the wait. These threads are, in a sense, working in parallel. The GIL is unlocked with the rb_thread_blocking_region
API. Here is a good post on this subject.