lsp.md

Implementing the Language Server Protocol

The goal of this library is to implement Language Server Protocol as closely as possible

Included in this library is a full-fidelity LanguageServer but also full LanguageClient implementation that could be implemented in an editor, but mainly it is used to help make Unit Testing easier, more consistent (and maybe even fun!).

Concepts

The language server is built on a few concepts. At it's core is the MediatR library that you will build language specific handlers around. Around that core is a bunch of knowledge of the LSP protocol with the goal of making it more ".NET" like and less protocol centric.

LSP revolves around features ( eg Completion, Hover, etc ) that define the inputs (request object) the outputs (response object) as well as Client Capabilities and Server Registration Options.

Client Capabilities

These determine what features are supported by the client, and each has a different set of capabilities. The specification explains each feature and the requirements of each.

Server Registration Options

The protocol defines two kinds of registration, static and dynamic. Dynamic registration, when it's supported, allows you to register features with the client on demand. Static registration is returned to the client during the initialization phase that explains what features the server supports. Dynamic and Static registration cannot be mixed. If you register something statically, you cannot register the same thing dynamically, otherwise the client will register both features twice.

Creating a Language Server or Client

LanguageServer or LanguageClient can be created through two methods.

Standalone

LanguageServer.Create(options => {}) / LanguageClient.Create(options => {}) This will create a server where you provide options, handlers and more. An optional IServiceProvider can be provided that will be used as a fallback container when IJsonRcpHandlers are being resolved.

Microsoft.Extensions.DependencyInjection

services.AddLanguageServer([string name, ], options => {}) / services.AddLanguageClient([string name, ], options => {}) This will be added to your service collection, with multiples supported.

• In the event that you add multiple named servers, they must be resolved using LanguageServerResolver / LanguageClientResolver.

When created through Microsoft DI the server will use the IServiceProvider as a fallback when resolving IJsonRpcHandlers.

Options

Some of the important options include...

• options.WithInput() takes an input Stream or PipeReader
• options.WithOutput() takes an output Stream or PipeWriter
• options.WithAssemblies() takes additional assemblies that will participate in scanning operations.
  • Sometimes we scan this list of assemblies for potential strongly typed requests and notifications
• options.WithServerInfo() / options.WithClientInfo()
  • This surfaces the proper info object to both sides
• options.AddTextDocumentIdentifier
  • Text document identifiers are used to help in routing requests to a specific DocumentSelector.
• options.AddHandler allows you to add handlers that implement IJsonRpcNotificationHandler<>, IJsonRpcRequestHandler<>, IJsonRpcRequestHandler<,>.
  • Handlers can be added as an instance, type or a factory that is given a IServiceProvider
• options.OnNotification / options.OnRequest
  • These methods can be used to create handler delegates without having to implement the request interfaces.
• options.OnJsonNotification / options.OnJsonRequest
  • These methods can be used to create handler delegates without having to implement the request interfaces.
  • These json JToken an the request / response types.
• options.WithMaximumRequestTimeout()
  • Sets the maximum timeout before a request is cancelled
  • Defaults to 5 minutes
• options.WithSupportsContentModified()
  • Sets the into a special model that is used more for Language Server Protocol.
  • In this mode any Serial request will cause any outstanding Parallel requests will be cancelled with an error message.
• options.WithRequestProcessIdentifier()
  • This allows you to control how requests are "identified" or how they will behave (Serial / Parallel)

Client Options

• options.OnInitialize - A delegate that is run right before the client sends the initialize request.
  • Also available as an interface IOnLanguageeClientInitialize
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.OnInitialized - A delegate that is run right after the client receives the response to the initialize request.
  • Also available as an interface IOnLanguageClientInitialized
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.OnStarted - A delegate that is run right after the server start process has been completed.
  • Also available as an interface IOnLanguageClientStarted
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.WithCapability - Define a capability that will populate and sent to the server.

Server Options

• options.OnInitialize - A delegate that is run right after the client sends the initialize request.
  • Also available as an interface IOnLanguageServerInitialize
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.OnInitialized - A delegate that is run right before the server sends response to the initialize request.
  • Also available as an interface IOnLanguageServerInitialized
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.OnStarted - A delegate that is run right after the server start process has been completed.
  • Also available as an interface IOnLanguageServerStarted
  • NOTE: This interface can be implemented on IJsonRpcHandlers
• options.ConfigureConfiguration - Allows you to add your own configuration to the ILanguageServerConfiguration object.
• options.WithConfigurationSection - Adds a configuration section to be tracked by the server
• options.WithConfigurationItem - Adds a configuration item to be tracked by the server.

Handlers

Handlers can be implemented as classes that implement IJsonRpcNotificationHandler<>, IJsonRpcRequestHandler<>, IJsonRpcRequestHandler<,> or as delegates on the LanguageServer itself.

Additionally handlers can be dynamically added and removed after the server has been initialized by using the registry.

server.Register(registry => {}) will return an IDisposable that can be used to remove all the handlers that were registered at that time.

Protocol Support

Our goal is to abstract the annoying parts of the protocol so you don't have to worry about them.!

Initialization

Initialization is handled automagically for you so that the server and client start in the correct order.

Dynamic Registration

The language server protocol supports registering capabilities dynamically.

The goal of this library is to make it so you don't have to think about how to registry things dynamically. You just register your handlers, and things "just work".

Static vs Dynamic Registration

Some clients support dynamic registration and some do not. You should not have to worry about what clients do and do not support dynamic registration.

There are some rules when it comes to the language server protocol.

• If you register a capability statically, you cannot register that same capability dynamically. If you do you will be called multiple times (as if you had registered twice).
• If a capability can be dynamically registered, we will never statically register that capability.
  • The server will take of registering any dynamic handlers automatically for you.

Multiple handlers of the same type

We support the ability to route requests depending on the Registration Options that are defined.

Text Document Requests

TextDocumentRegistrationOptions can have a DocumentSelector that document selector is used to determine where an incoming request will go.

By default duplicate registrations of a given method and DocumentSelector is not well defined and should be avoided. However it is possible to use the ICanBeIdentifiedHandler interface to allow registration of multiple handlers of a given method and selector. This is only support for methods that return a collection in some form.

Resolve Requests

ICompletionHandler, ICodeLensHandler and IDocumentLinkHandler support multiple handlers by default, and will also ensure that resolve requests will get routed back to the handler that created the item in the first place. However note ordering of the results is not guaranteed, and may not be desired.

Execute Command

Execute command is a special method, that can be used by the client to do some work on the server side. The commands generally come from the server in some way (code action, code lens, completion, etc).

The server will correctly route command requests to the handler that implements the command. And we also have support for strongly typed command handlers where we will deserialize the arguments array for you.

Custom Handlers / Capabilities

The protocol defines the ability to have custom extensions, that may not be supported by all clients but allows for greater flexibility in implementations.

It is possible to create custom handlers and capabilities then have them be consumed by handlers and provided back to the client as options.

A custom method and handler can be made by just using the correct attributes. Handlers can be interfaces or classes, the important part is the type that is implemented.

NOTE: This is where WithAssembly may be important, you will want to ensure your assembly that has the custom handlers in it is added to the options of your server / client.

    [Parallel, Method("tests/run")]
    public class UnitTest : IRequest
    {
        public string Name { get; set; }
    }

    [Parallel, Method("tests/discover")]
    public interface IDiscoverUnitTestsHandler : IJsonRpcRequestHandler<DiscoverUnitTestsParams, Container<UnitTest>>,
        IRegistration<UnitTestRegistrationOptions>,
        ICapability<UnitTestCapability>
    {
    }

In order for capabilities (client options to the server) and static options (static registration options for the client) to flow through you must create the correct classes.

The converter must be defined to ensure that the correct data is provided to the client. It does not need to be public, it will get scanned out of the assembly.

NOTE: The static options will only be created when the capability cannot be registered dynamically.

    // each key is a json segment of the ClientCapabilities object
    [CapabilityKey("workspace", "unitTests")] object
    public class UnitTestCapability : DynamicCapability
    {
        public string Property { get; set; }
    }

    public class UnitTestRegistrationOptions : IWorkDoneProgressOptions, IRegistrationOptions
    {
        [Optional] public bool SupportsDebugging { get; set; }
        [Optional] public bool WorkDoneProgress { get; set; }

        public class StaticOptions : WorkDoneProgressOptions
        {
            [Optional] public bool SupportsDebugging { get; set; }
        }

        class Converter : RegistrationOptionsConverterBase<UnitTestRegistrationOptions, StaticOptions>
        {
            // This is the key where the options will show up on the ServerCapabilities object
            public Converter() : base("unitTests")
            {
            }

            public override StaticOptions Convert(UnitTestRegistrationOptions source)
            {
                return new StaticOptions {
                    SupportsDebugging = source.SupportsDebugging,
                    WorkDoneProgress = source.WorkDoneProgress,
                };
            }
        }
    }

Configuration

The LanguageSever wraps the protocol workspace/didChangeConfiguration and workspace/configuration methods for you and exposes ILanguageServerConfiguration which also implements Microsoft.Extensions.Configuration.IConfiguration.

Configuration sections and configuration items can be added and removed at anytime and will query the data from the client.

You can also query stateless configuration using GetConfiguration to look at some configuration from the client.

You can also get scoped configuration, which will give you the configuration in the scope of a given DocumentUri.

NOTE: Scoped configuration must be disposed otherwise it will continue to be updated.

Injecting ILanguageServer / ILanguageClient

You cannot inject ILanguageServer or ILanguageClient in your handlers (or their services!) because handlers are resolved as part of their initialization. However you can inject ILanguageServerFacade or ILanguageClientFacade. The should have all the information you're looking for from the core types.

Language Proposals

The protocol periodically goes through revisions to add new features and properties to the specification. We publish these proposals in the Proposals nuget package. Due to the nature of these proposals they can/will change regularly, do not expect these to be stable until the next version of the spec is released. Our goal is for full fidelity and to ensure these proposals can be tested and vetted as thoroughly as possible.

By registering a proposed feature as a handler it should enable itself with any significant changes. However you can call the EnableProposals() method on the server or client options to ensure that the proposed Capabilities are serialized as the corresponding capabilities object. This means you can cast WorkspaceClientCapabilities as ProposedWorkspaceClientCapabilities safely and see the capabilities that may be provided by the client or server.