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Electron.NET/src/ElectronNET.API/API/Process.cs

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C#
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using ElectronNET.API.Entities;
using ElectronNET.API.Serialization;
using System.Text.Json;
using System.Threading.Tasks;
namespace ElectronNET.API
{
/// <summary>
/// Electron's process object is extended from the Node.js process object. It adds the
/// events, properties, and methods.
/// </summary>
public sealed class Process
{
internal Process()
{
}
internal static Process Instance
{
get
{
if (_process == null)
{
lock (_syncRoot)
{
if (_process == null)
{
_process = new Process();
}
}
}
return _process;
}
}
private static Process _process;
private static readonly object _syncRoot = new();
/// <summary>
/// The process.execPath property returns the absolute pathname of the executable that
/// started the Node.js process. Symbolic links, if any, are resolved.
/// </summary>
public Task<string> ExecPathAsync
{
get
{
var tcs = new TaskCompletionSource<string>();
BridgeConnector.Socket.Once<string>("process-execPath-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-execPath");
return tcs.Task;
}
}
/// <summary>
/// The process.argv property returns an array containing the command-line arguments passed
/// when the Node.js process was launched. The first element will be process.execPath. See
/// process.argv0 if access to the original value of argv[0] is needed. The second element
/// will be the path to the JavaScript file being executed. The remaining elements will be
/// any additional command-line arguments
/// </summary>
public Task<string[]> ArgvAsync
{
get
{
var tcs = new TaskCompletionSource<string[]>();
BridgeConnector.Socket.Once<string[]>("process-argv-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-argv");
return tcs.Task;
}
}
/// <summary>
/// The process.execPath property returns the absolute pathname of the executable that
/// started the Node.js process. Symbolic links, if any, are resolved.
/// </summary>
public Task<string> TypeAsync
{
get
{
var tcs = new TaskCompletionSource<string>();
BridgeConnector.Socket.Once<string>("process-type-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-type");
return tcs.Task;
}
}
/// <summary>
/// The process.versions property returns an object listing the version strings of
/// chrome and electron.
/// </summary>
public Task<ProcessVersions> VersionsAsync
{
get
{
var tcs = new TaskCompletionSource<ProcessVersions>();
BridgeConnector.Socket.Once<ProcessVersions>("process-versions-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-versions");
return tcs.Task;
}
}
/// <summary>
/// A Boolean. When app is started by being passed as parameter to the default app, this
/// property is true in the main process, otherwise it is false.
/// </summary>
public Task<bool> DefaultAppAsync
{
get
{
var tcs = new TaskCompletionSource<bool>();
BridgeConnector.Socket.Once<bool>("process-defaultApp-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-defaultApp");
return tcs.Task;
}
}
/// <summary>
/// A Boolean, true when the current renderer context is the "main" renderer frame. If you
/// want the ID of the current frame you should use webFrame.routingId
/// </summary>
public Task<bool> IsMainFrameAsync
{
get
{
var tcs = new TaskCompletionSource<bool>();
BridgeConnector.Socket.Once<bool>("process-isMainFrame-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-isMainFrame");
return tcs.Task;
}
}
/// <summary>
/// A String representing the path to the resources directory.
/// </summary>
public Task<string> ResourcesPathAsync
{
get
{
var tcs = new TaskCompletionSource<string>();
BridgeConnector.Socket.Once<string>("process-resourcesPath-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-resourcesPath");
return tcs.Task;
}
}
/// <summary>
/// The number of seconds the current Node.js process has been running. The return value
/// includes fractions of a second. Use Math.floor() to get whole seconds.
/// </summary>
public Task<double> UpTimeAsync
{
get
{
var tcs = new TaskCompletionSource<double>();
BridgeConnector.Socket.Once<double>("process-uptime-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-uptime");
return tcs.Task;
}
}
/// <summary>
/// The PID of the electron process
/// </summary>
public Task<int> PidAsync
{
get
{
var tcs = new TaskCompletionSource<int>();
BridgeConnector.Socket.Once<int>("process-pid-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-pid");
return tcs.Task;
}
}
/// <summary>
/// The operating system CPU architecture for which the Node.js binary was compiled
/// </summary>
public Task<string> ArchAsync
{
get
{
var tcs = new TaskCompletionSource<string>();
BridgeConnector.Socket.Once<string>("process-arch-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-arch");
return tcs.Task;
}
}
/// <summary>
/// A string identifying the operating system platform on which the Node.js process is running
/// </summary>
public Task<string> PlatformAsync
{
get
{
var tcs = new TaskCompletionSource<string>();
BridgeConnector.Socket.Once<string>("process-platform-Completed", tcs.SetResult);
BridgeConnector.Socket.Emit("process-platform");
return tcs.Task;
}
}
}
}
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