Your understanding of how node works isn't correct... but it's a common misconception, because the reality of the situation is actually fairly complex, and typically boiled down to pithy little phrases like "node is single threaded" that over-simplify things.
For the moment, we'll ignore explicit multi-processing/multi-threading through cluster and webworker-threads, and just talk about typical non-threaded node.
Certain functions and modules, usually written in C/C++, support asynchronous I/O. When you call these functions and methods, they internally manage passing the call on to a worker thread. For instance, when you use the
fs module to request a file, the
fs module passes that call on to a worker thread, and that worker waits for its response, which it then presents back to the event loop that has been churning on without it in the meantime. All of this is abstracted away from you, the node developer, and some of it is abstracted away from the module developers through the use of libuv.
As pointed out by Denis Dollfus in the comments (from this answer to a similar question), the strategy used by libuv to achieve asynchronous I/O is not always a thread pool, specifically in the case of the
http module a different strategy appears to be used at this time. For our purposes here it's mainly important to note how the asynchronous context is achieved (by using libuv) and that the thread pool maintained by libuv is one of multiple strategies offered by that library to achieve asynchronicity.
On a mostly related tangent, there is a much deeper analysis of how node achieves asynchronicity, and some related potential problems and how to deal with them, in this excellent article. Most of it expands on what I've written above, but additionally it points out:
- Any external module that you include in your project that makes use of native C++ and libuv is likely to use the thread pool (think: database access)
- libuv has a default thread pool size of 4, and uses a queue to manage access to the thread pool - the upshot is that if you have 5 long-running DB queries all going at the same time, one of them (and any other asynchronous action that relies on the thread pool) will be waiting for those queries to finish before they even get started
- You can mitigate this by increasing the size of the thread pool through the
UV_THREADPOOL_SIZE environment variable, so long as you do it before the thread pool is required and created:
process.env.UV_THREADPOOL_SIZE = 10;
If you want traditional multi-processing or multi-threading in node, you can get it through the built in
cluster module or various other modules such as the aforementioned
webworker-threads, or you can fake it by implementing some way of chunking up your work and manually using
process.nextTick to pause your work and continue it in a later loop to let other processes complete (but that's not recommended).