I'm attempting to fully understand the options for concurrent request handling in Rack. I've used async_sinatra to build a long-polling app, and am now experimenting with bare-metal Rack using
throw :async and/or Thin's --threaded flag. I am comfortable with the subject, but there are some things I just can't make sense of. (No, I am not mistaking concurrency for parallelism, and yes, I do understand the limitations imposed by the GIL).
Q1. My tests indicate that
thin --threaded (i.e.
rack.multithread=true) runs requests concurrently in separate threads (I assume using EM), meaning long-running request A will not block request B (IO aside). This means my application does not require any special coding (e.g. callbacks) to achieve concurrency (again, ignoring blocking DB calls, IO, etc.). This is what I believe I have observed - is it correct?
Q2. There is another, more oft discussed means of achieving concurrency, involving
throw :async. Strictly speaking, requests are not handled using threads. They are dealt with serially, but pass their heavy lifting and a callback off to EventMachine, which uses async.callback to send a response at a later time. After request A has offloaded its work to EM.defer, request B is begun. Is this correct?
Q3. Assuming the above are more-or-less correct, is there any particular advantage to one method over the other? Obviously
--threaded looks like a magic bullet. Are there any downsides? If not, why is everyone talking about
throw :async /
async.callback ? Perhaps the former is "I want to make my Rails app a little snappier under heavy load" and the latter is better-suited for apps with many long-running requests? Or perhaps scale is a factor? Just guessing here.
I'm running Thin 1.2.11 on MRI Ruby 1.9.2. (FYI, I have to use the
--no-epoll flag, as there's a long-standing, supposedly-resolved-but-not-really problem with EventMachine's use of epoll and Ruby 1.9.2. That's beside the point, but any insight is welcome.)