Updated for ASP.Net Core 2.0. As pointed by poke, the server has been split between hosting and transport, where libuv belongs to the transport layer. The libuv ThreadCount has been moved to its own LibuvTransportOptions and they are set separately in your web host builder with the UseLibuv() ext method:
If you check the LibuvTransportOptions class in github, you will see a ThreadCount option:
/// <summary>
/// The number of libuv I/O threads used to process requests.
/// </summary>
/// <remarks>
/// Defaults to half of <see cref="Environment.ProcessorCount" /> rounded down and clamped between 1 and 16.
/// </remarks>
public int ThreadCount { get; set; } = ProcessorThreadCount;
The option can be set in the call to UseLibuv, in your web host builder. For example:
public static IWebHost BuildWebHost(string[] args) =>
WebHost.CreateDefaultBuilder(args)
.UseLibuv(opts => opts.ThreadCount = 4)
.UseStartup<Startup>()
.Build();
While in ASP.NET Core 1.X, Libuv config was part of the kestrel server:
If you check the KestrelServerOptions class in its github repo, you will see there is a ThreadCount option:
/// <summary>
/// The number of libuv I/O threads used to process requests.
/// </summary>
/// <remarks>
/// Defaults to half of <see cref="Environment.ProcessorCount" /> rounded down and clamped between 1 and 16.
/// </remarks>
public int ThreadCount { get; set; } = ProcessorThreadCount;
The option can be set in the call to UseKestrel, for example in a new ASP.Net Core app:
public static void Main(string[] args)
{
var host = new WebHostBuilder()
.UseKestrel(opts => opts.ThreadCount = 4)
.UseContentRoot(Directory.GetCurrentDirectory())
.UseIISIntegration()
.UseStartup<Startup>()
.Build();
host.Run();
}
Digging through the source code:
- You can see the libuv listener threads (or
KestrelThreads) being created in the KestrelEngine
- Some places will call the
ThreadPool methods so they can run code in the CLR Thread Pool instead of the libuv threads. (Using ThreadPool.QueueUserWorkItem). The pool seems to be defaulted with a max of 32K threads which can be modified via config.
- The
Frame<TContext> delegates to the actual application (like an ASP.Net Core application) for handling the request.
So we could say it uses multiple libuv eventloops for IO. The actual work is done on managed code with standard worker threads, using the CLR thread pool.
I would love to find more authoritative documentation about this (The official docs don't give much detail). The best one I have found is Damian Edwards talking about Kestrel on channel 9. Around minute 12 he explains:
- libuv uses a single threaded event loop model
- Kestrel supports multiple event loops
- Kestrel does only IO work on the libuv event loops
- All non IO work (including anything related with HTTP like parsing, framing, etc) is done in managed code on standard .net worker threads.
Additionally, a quick search has returned:
- David Fowler talking about thread pooling in Kestrel here. It also confirms that a request might still jump between threads in ASP.Net Core. (as it was in previous versions)
- This blogpost looking at Kestrel when it came out
- This question about how threads are managed in ASP.Net Core.
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