JsonServices.Serialization.ServiceStack4
0.1.10
dotnet add package JsonServices.Serialization.ServiceStack4 --version 0.1.10
NuGet\Install-Package JsonServices.Serialization.ServiceStack4 -Version 0.1.10
<PackageReference Include="JsonServices.Serialization.ServiceStack4" Version="0.1.10" />
paket add JsonServices.Serialization.ServiceStack4 --version 0.1.10
#r "nuget: JsonServices.Serialization.ServiceStack4, 0.1.10"
// Install JsonServices.Serialization.ServiceStack4 as a Cake Addin #addin nuget:?package=JsonServices.Serialization.ServiceStack4&version=0.1.10 // Install JsonServices.Serialization.ServiceStack4 as a Cake Tool #tool nuget:?package=JsonServices.Serialization.ServiceStack4&version=0.1.10
JsonServices
This is a simple library for message-based services running on top of the
WebSockets or ZeroMQ connection and based on JSON-RPC 2.0 Specification:
https://www.jsonrpc.org/specification
The project consists of C# server, C# client and TypeScript client.
Note that TypeScript client supports only web socket connections.
Message-based RPC
The communication is based on message names, not service and/or method names
like normal RPC. The idea is inspired by ServiceStack architecture.
C# server code example:
// request message
public class GetUser : IReturn<GetUserResponse>
{
public long? UserId { get; set; }
public string UserName { get; set; }
}
// response message
public class GetUserResponse
{
public long UserId { get; set; }
public string UserName { get; set; }
public string Email { get; set; }
}
// service handler
public class GetUserService: IService<GetUser>
{
public GetUserResponse Execute(GetUser request)
{
if (request.UserId.HasValue)
{
return GetUserById(request.UserId.Value);
}
return GetUserByName(request.UserName);
}
...
}
TypeScript client code example:
// request message
public class GetUser implements IReturn<GetUserResponse> {
public userId?: number;
public userName?: string;
public createResponse() {
return new GetUserResponse();
}
}
// response message
public class GetUserResponse {
userId: number;
userName: string;
email: string;
}
// client code
const client = new JsonClient("ws://localhost:8765/");
const getUser = new GetUser();
getUser.userId = 7;
const result = await client.call(getUser);
JSON-RPC messages for the above example
Normal method execution:
→ { "jsonrpc": "2.0", "method": "GetUser", "params": { "UserID": 1 }, "id": 1 }
← { "jsonrpc": "2.0", "result": { "UserID": 1, "UserName": "root", "Email": "noreply@example.com" }, "id": 1 }
Server reply when the method is not found:
← { "jsonrpc": "2.0", "error": { "code": -32601, "message": "Method not found"}, "id": "1" }
Event subscription (one-way call):
→ { "jsonrpc": "2.0", "method": "rpc.subscribe", "params": [ "FeedUpdated", "MessageSent" ] }
Event unsubscription (one-way call):
→ { "jsonrpc": "2.0", "method": "rpc.unsubscribe", "params": [ "MessageSent" ] }
Server-side notification:
← { "jsonrpc": "2.0", "method": "MessageSent", params: { "text": "Hello world!" } }
Transport-specific notes
WebSockets (via WebSocketSharp)
- Implements both client and server
- Supports both IP addresses and host names, i.e. ws://localhost:8765
- .NET 4.5 only
- Chrome browser's WebSocket implementation connects to WebSocketSharp server
- Node.js ws module seem to have troubles connecting to WebSocketSharp server
WebSockets (via Fleck)
- Implements only server (WebSocketSharp client can connect to Flex server)
- Supports only IP addresses, i.e. ws://127.0.0.1:8765
- .NET 4.5 and .NET Standard 2.0
- Chrome browser's WebSocket implementation connects to Fleck server
- Node.js ws module also connects to Fleck server
ZeroMQ (via NetMQ)
- Implements both client and server
- Supports only tcp protocol
- .NET 4.5 and .NET Standard 2.0
- Browsers are unable to connect to ZeroMQ endpoints
- Node.js in theory should be able to connect using zeromq.js npm (not tested)
SDK versioning
The project uses Nerdbank.GitVersioning tool to manage versions.
Each library build can be traced back to the original git commit.
Preparing and publishing a new release
- Make sure that
nbgv
dotnet CLI tool is installed and is up to date - Run
nbgv prepare-release
to create a stable branch for the upcoming release, i.e. release/v1.0 - Switch to the release branch:
git checkout release/v1.0
- Execute unit tests, update the README, etc. Commit and push your changes.
- Run
dotnet pack -c Release
and check that it builds Nuget packages with the right version number. - Run
nbgv tag release/v1.0
to tag the last commit on the release branch with your current version number, i.e. v1.0.7. - Push tags as suggested by nbgv tool:
git push origin v1.0.7
- Go to github project page and create a release out of the last tag v1.0.7.
- Verify that github workflow for publishing the nuget package has completed.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET Framework | net461 is compatible. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed. |
-
.NETFramework 4.6.1
- JsonServices (>= 0.1.10)
- ServiceStack.Text (>= 4.0.33)
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.