Files
Electron.NET/src/ElectronNET.API/Runtime/Controllers/RuntimeControllerDotNetFirst.cs
Pierre Arnaud be609a513e Refactor: Introduce IFacade interface for SocketIO and SignalR facades
- Create IFacade interface defining common API for SocketIO and SignalR
- Update SocketIoFacade to implement IFacade
- Update SignalRFacade to implement IFacade (add Connect no-op)
- Update RuntimeControllerBase.Socket to return IFacade
- Update RuntimeControllerAspNetBase.Socket to return IFacade
- Update RuntimeControllerDotNetFirst.Socket to return IFacade
- Update ElectronNetRuntime.GetSocket() to return IFacade
- Update BridgeConnector.Socket to return IFacade

This enables polymorphic usage of both facades throughout the codebase
and prepares for full Electron API integration with SignalR mode.
2026-01-30 13:03:19 +01:00

111 lines
3.8 KiB
C#

namespace ElectronNET.Runtime.Controllers
{
using ElectronNET.API;
using ElectronNET.API.Bridge;
using ElectronNET.Common;
using ElectronNET.Runtime.Data;
using ElectronNET.Runtime.Helpers;
using ElectronNET.Runtime.Services.ElectronProcess;
using ElectronNET.Runtime.Services.SocketBridge;
using System;
using System.Threading.Tasks;
internal class RuntimeControllerDotNetFirst : RuntimeControllerBase
{
private ElectronProcessBase electronProcess;
private SocketBridgeService socketBridge;
private int? port;
public RuntimeControllerDotNetFirst()
{
}
internal override IFacade Socket
{
get
{
if (this.State == LifetimeState.Ready)
{
return this.socketBridge.Socket;
}
throw new Exception("Cannot access socket bridge. Runtime is not in 'Ready' state");
}
}
internal override ElectronProcessBase ElectronProcess => this.electronProcess;
internal override SocketBridgeService SocketBridge => this.socketBridge;
protected override Task StartCore()
{
var isUnPacked = ElectronNetRuntime.StartupMethod.IsUnpackaged();
var electronBinaryName = ElectronNetRuntime.ElectronExecutable;
var args = string.Format("{0} {1}", ElectronNetRuntime.ElectronExtraArguments, Environment.CommandLine).Trim();
this.port = ElectronNetRuntime.ElectronSocketPort;
if (!this.port.HasValue)
{
this.port = PortHelper.GetFreePort(ElectronNetRuntime.DefaultSocketPort);
ElectronNetRuntime.ElectronSocketPort = this.port;
}
Console.Error.WriteLine("[StartCore]: isUnPacked: {0}", isUnPacked);
Console.Error.WriteLine("[StartCore]: electronBinaryName: {0}", electronBinaryName);
Console.Error.WriteLine("[StartCore]: args: {0}", args);
this.electronProcess = new ElectronProcessActive(isUnPacked, electronBinaryName, args, this.port.Value);
this.electronProcess.Ready += this.ElectronProcess_Ready;
this.electronProcess.Stopped += this.ElectronProcess_Stopped;
Console.Error.WriteLine("[StartCore]: Before Start");
return this.electronProcess.Start();
}
private void ElectronProcess_Ready(object sender, EventArgs e)
{
this.TransitionState(LifetimeState.Started);
this.socketBridge = new SocketBridgeService(this.port!.Value);
this.socketBridge.Ready += this.SocketBridge_Ready;
this.socketBridge.Stopped += this.SocketBridge_Stopped;
this.socketBridge.Start();
}
private void SocketBridge_Ready(object sender, EventArgs e)
{
this.TransitionState(LifetimeState.Ready);
}
private void SocketBridge_Stopped(object sender, EventArgs e)
{
this.HandleStopped();
}
private void ElectronProcess_Stopped(object sender, EventArgs e)
{
this.HandleStopped();
}
private void HandleStopped()
{
if (this.socketBridge != null && this.socketBridge.State != LifetimeState.Stopped)
{
this.socketBridge.Stop();
}
else if (this.electronProcess != null && this.electronProcess.State != LifetimeState.Stopped)
{
this.electronProcess.Stop();
}
else
{
this.TransitionState(LifetimeState.Stopped);
}
}
protected override Task StopCore()
{
this.electronProcess.Stop();
return Task.CompletedTask;
}
}
}