A Rust library for hosting the .NET Core runtime.
It utilizes the .NET Core hosting API to load and execute managed code from withing the current process.
The example below will setup the runtime, load Test.dll
and run its Main
method:
let hostfxr = nethost::load_hostfxr().unwrap();
let context = hostfxr.initialize_for_dotnet_command_line(pdcstr!("Test.dll")).unwrap();
let result = context.run_app().value();
The full example can be found in examples/run-app.
A function pointer to a managed method can be aquired using an AssemblyDelegateLoader
.
This is only supported for HostfxrContext
's that are initialized using Hostfxr::initialize_for_runtime_config
. The runtimeconfig.json
is automatically generated for executables, for libraries it is neccessary to add <GenerateRuntimeConfigurationFiles>True</GenerateRuntimeConfigurationFiles>
to the projects .csproj
file.
The default method signature is defined as follows:
public delegate int ComponentEntryPoint(IntPtr args, int sizeBytes);
A method with the default signature (see code below) can be loaded using AssemblyDelegateLoader::get_function_with_default_signature
.
C#
using System;
namespace Test {
public static class Program {
public static int Hello(IntPtr args, int sizeBytes) {
Console.WriteLine("Hello from C#!");
return 42;
}
}
}
Rust
let hostfxr = nethost::load_hostfxr().unwrap();
let context =
hostfxr.initialize_for_runtime_config(pdcstr!("Test.runtimeconfig.json")).unwrap();
let fn_loader =
context.get_delegate_loader_for_assembly(pdcstr!("Test.dll")).unwrap();
let hello = fn_loader.get_function_with_default_signature(
pdcstr!("Test.Program, Test"),
pdcstr!("Hello"),
).unwrap();
let result = unsafe { hello(std::ptr::null(), 0) };
assert_eq!(result, 42);
A function pointer to a method annotated with UnmanagedCallersOnly
can be loaded without specifying its signature (as these methods cannot be overloaded).
C#
using System;
using System.Runtime.InteropServices;
namespace Test {
public static class Program {
[UnmanagedCallersOnly]
public static void UnmanagedHello() {
Console.WriteLine("Hello from C#!");
}
}
}
Rust
let hostfxr = nethost::load_hostfxr().unwrap();
let context =
hostfxr.initialize_for_runtime_config(pdcstr!("Test.runtimeconfig.json")).unwrap();
let fn_loader =
context.get_delegate_loader_for_assembly(pdcstr!("Test.dll")).unwrap();
let hello = fn_loader.get_function_with_unmanaged_callers_only::<fn()>(
pdcstr!("Test.Program, Test"),
pdcstr!("UnmanagedHello"),
).unwrap();
hello(); // prints "Hello from C#!"
Another option is to define a custom delegate type and passing its assembly qualified name to AssemblyDelegateLoader::get_function
.
C#
using System;
namespace Test {
public static class Program {
public delegate void CustomHelloFunc();
public static void CustomHello() {
Console.WriteLine("Hello from C#!");
}
}
}
Rust
let hostfxr = nethost::load_hostfxr().unwrap();
let context =
hostfxr.initialize_for_runtime_config(pdcstr!("Test.runtimeconfig.json")).unwrap();
let fn_loader =
context.get_delegate_loader_for_assembly(pdcstr!("Test.dll")).unwrap();
let hello = fn_loader.get_function::<fn()>(
pdcstr!("Test.Program, Test"),
pdcstr!("CustomHello"),
pdcstr!("Test.Program+CustomHelloFunc, Test")
).unwrap();
hello(); // prints "Hello from C#!"
The full examples can be found in examples/call-managed-function.
Examples for passing non-primitive parameters can be found in examples/passing-parameters.
nethost
- Links against nethost and allows for automatic detection of the hostfxr library.download-nethost
- Automatically downloads the latest nethost binary from NuGet.
- nethost-sys - bindings for the nethost library.
- hostfxr-sys - bindings for the hostfxr library.
- coreclr-hosting-shared - shared bindings between hostfxr-sys and nethost-sys.
- Hosting layer APIs
- Native hosting
- Write a custom .NET Core host to control the .NET runtime from your native code
Licensed under the MIT license (LICENSE or http://opensource.org/licenses/MIT)