A source generator to add a user-defined set of Win32 P/Invoke methods and supporting types to a C# project.
- Rapidly add P/Invoke methods and supporting types to your C# project.
- No bulky assemblies to ship alongside your application.
SafeHandle
-types automatically generated.- Generates xml documentation based on and links back to docs.microsoft.com
The .NET 6 SDK or Visual Studio 2019 Update 11 (16.11).
WPF projects have additional requirements.
In addition, some generated code may require use of the C# 9+ language version (<LangVersion>9</LangVersion>
) in your project file. See issue #4 for more on this.
Newer is generally better. Use the latest C# language version for the best results, regardless of your TargetFramework.
Install the Microsoft.Windows.CsWin32
package:
dotnet add package Microsoft.Windows.CsWin32 --prerelease
You should also install the System.Memory
and System.Runtime.CompilerServices.Unsafe
packages when targeting .NET Framework 4.5+ or .NET Standard 2.0,
as these add APIs that significantly improve much of the code generated by CsWin32:
dotnet add package System.Memory
dotnet add package System.Runtime.CompilerServices.Unsafe
Projects targeting .NET Core 2.1+ or .NET 5+ do not need to add these package references, although it is harmless to do so.
Note that while the System.Memory
package depends on the System.Runtime.CompilerServices.Unsafe
package,
referencing the latter directly is still important to get the latest version of the APIs it provides.
Your project must allow unsafe code to support the generated code that will likely use pointers.
This does not automatically make all your code unsafe.
Use of the unsafe
keyword is required anywhere you use pointers.
The source generator NuGet package sets the default value of the AllowUnsafeBlocks
property for your project to true
,
but if you explicitly set it to false
in your project file, generated code may produce compiler errors.
Create a NativeMethods.txt
file in your project directory that lists the APIs to generate code for.
Each line may consist of one of the following:
- Exported method name (e.g.
CreateFile
). This may include theA
orW
suffix, where applicable. This may be qualified with a namespace but is only recommended in cases of ambiguity, which CsWin32 will prompt where appropriate. - A macro name (e.g.
HRESULT_FROM_WIN32
). These are generated into the same class with extern methods. Macros must be hand-authored into CsWin32, so let us know if you want to see a macro added. - A namespace to generate all APIs from (e.g.
Windows.Win32.Storage.FileSystem
would search the metadata for all APIs within that namespace and generate them). - Module name followed by
.*
to generate all methods exported from that module (e.g.Kernel32.*
). - The name of a struct, enum, constant or interface to generate. This may be qualified with a namespace but is only recommended in cases of ambiguity, which CsWin32 will prompt where appropriate.
- A prefix shared by many constants, followed by
*
, to generate all constants that share that prefix (e.g.ALG_SID_MD*
). - A comment (i.e. any line starting with
//
) or white space line, which will be ignored.
When generating any type or member, all supporting types will also be generated.
Generated code is added directly in the compiler. An IDE may make this generated code available to view through code navigation commands (e.g. Go to Definition) or a tree view of source files that include generated source files.
Assuming default settings and a NativeMethods.txt
file with content that includes CreateFile
, the P/Invoke methods can be found on the Windows.Win32.PInvoke
class, like this:
using Windows.Win32;
PInvoke.CreateFile(/*args*/);
Constants are defined on the same class as the p/invoke methods (by default, the Windows.Win32.PInvoke
class).
Other supporting types are defined within or under the Windows.Win32
namespace.
Discovery of the namespace for a given type can be done with the Go To All feature (Ctrl+T) in Visual Studio with the type name as the search query.
A project may include many NativeMethods.txt files (each one necessarily in its own directory).
CsWin32 will read them all to generate APIs, provided these files are included as AdditionalFiles
in the project.
A NativeMethods.txt
file directly in the project directory is added automatically to AdditionalFiles
.
Files in other directories must be added to the project file manually.
Whether API requests are all in a single NativeMethods.txt file or split across many makes no difference to the generated result. We recommend using just one NativeMethods.txt file and keeping it sorted for easy bookkeeping. Multiple files perhaps makes the most sense in a Shared Project scenario where several API requests will be common across many projects, so sharing a NativeMethods.txt file with those same projects that contain all the necessary APIs for the set of shared source files make maintenance easier.
Some APIs require targeting a specific architecture and are not available when your C# project compiles as "Any CPU". Learn more about how this manifests and what your options are.
Several aspects of the generated code can be customized, including:
- The name of the class(es) that declare p/invoke methods
- Whether to emit interop types as
public
orinternal
- Whether to emit ANSI functions as well where Wide character functions also exist
- Set
PreserveSig
for COM interfaces or individual members - Force generation of blittable structs, COM structs instead of interfaces (for super high performance with 0 GC pressure), etc.
To configure these settings, create a NativeMethods.json
file in your project directory.
Specifying the $schema
property that points to the schema adds completions, descriptions and validation in many JSON editors, and in fact is where all the documentation for the available settings is found.
{
"$schema": "https://aka.ms/CsWin32.schema.json",
"emitSingleFile": false
}
Most generated types include the partial
modifier so you can add your own members to that type within your code.
When you need to replace a generated type, simply copy and paste it from generated code into your own source files
and remove the partial
modifier.
Be sure to keep the name and namespace exactly the same.
CsWin32 will notice that your project already declares the type and skip generating it, but generate everything else.
Note that if that type is the only thing that references some other generated type, CsWin32 will stop generating that type too.
To keep CsWin32 generating the referred types you need, add them explicitly to NativeMethods.txt
.
Newer .NET runtime versions may fail for CsWin32 generated code when the application project builds with one or both of these properties set:
<PublishAot>true</PublishAot>
<DisableRuntimeMarshalling>true</DisableRuntimeMarshalling>
<PublishTrimmed>true</PublishTrimmed>
CsWin32 supports these environments by avoiding code that relies on the runtime marshaler when the allowMarshaling
setting is disabled in the NativeMethods.json
file.
For example:
{
"$schema": "https://aka.ms/CsWin32.schema.json",
"allowMarshaling": false
}
To update the metadata used as the source for code generation, you may install a newer Microsoft.Windows.SDK.Win32Metadata
package:
dotnet add package Microsoft.Windows.SDK.Win32Metadata --prerelease
CsWin32 also consumes the WDK from a similarly named package: Microsoft.Windows.WDK.Win32Metadata
.
Can't wait for the next release to try out a bug fix? Follow these steps to consume directly from our daily build.
Just add this package feed to your nuget.config file:
<add key="winsdk" value="https://pkgs.dev.azure.com/azure-public/winsdk/_packaging/CI/nuget/v3/index.json" />