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4cb52e56c7459f071dde5f7fba90147bd86ec125
LanMountainDesktop/LanMountainDesktop/Services/SingleInstanceService.cs
lincube 4cb52e56c7 Launcher (#4) 
* 激进的更新

* 试试

* fix.可爱的我一直在修CI(

* fix.启动器一定要能够启动

* feat.尝试弄了AOT的启动器。

* fix.修CI,好像是因为Linux那边有个问题,反正修就对了。

* fix.ci难修,为什么liunx跑不起来呢?

* Update build.yml

* Update LanMountainDesktop.csproj

* changed.调整了启动逻辑,优化了更新页面。

* changed.优化了更新体验

* feat.依旧试增量更新这一块,看看velopack

* fix.我们试验性地修复了启动器无法正常启动的问题,原因可能是这个画面没有启动,就GUI没显示。然后还把编译问题修了一下。

* fix.继续修ci,ci怎么天天炸

* changed.velopack,试试rust

* fix.修ci,修融合桌面,修启动器

* fix.GitHub Action工作流怎么天天出问题

* feat.引入velopack,不好,是rust(至少内存很安全了。

* chore: migrate release pipeline to signed filemap and wire rainyun s3

* fix: make optional s3 upload step workflow-parse safe

* fix: make delta pack generation robust for empty diffs and linux paths

* chore: rotate launcher update public key for pdc signing

* fix: restore stable launcher update public key

* fix: sync launcher public key with update signing secret

* fix: normalize PEM line endings in signing key validation

* fix: rotate launcher public key to match ci signing secret

* fix: compare signing keys by SPKI instead of PEM text

* refactor update backend to host-managed PDC pipeline

* fix release workflow env key collisions

* relax publish-pdc precheck to require S3 only

* set GH_TOKEN for PDCC installer step

* ci: add local pdc mock fallback for release publish

* ci: fix pdc mock process log redirection

* ci: fallback pdcc signing key to update private key

* ci: ensure pdcc signing passphrase env is always set

* ci: create pdcc publish root before invoking client

* ci: set pdcc version variable from release version

* ci: decouple pdcc installer version from publish config version

* ci: package pdcc subchannels with generated filemap and changelog

* ci: make local pdc mock diff return empty for fast fallback

* ci: fix pdcc variable mapping and pdc signing prechecks

* Update App.axaml.cs

* ci: wire aws cli credentials for rainyun s3

* ci: pin pdcc client version separately from app version

* ci: harden local pdc mock transport handling

* ci: publish pdcc subchannels in one pass

* ci: add pdcc publish heartbeat and timeout

* ci: fix pdcc publish workdir bootstrap

* feat.Penguin Logistics Online Network Distribution System

* ci: fix plonds s3 probe and signing fallback

* ci: validate signing key and quiet missing baselines

* ci: relax aws checksum mode for rainyun s3

* ci: avoid multipart uploads to rainyun s3

* ci: handle empty plonds baselines safely

* ci.plonds

* Rebuild release pipeline around PLONDS and DDSS

* Fix Windows installer script path in release workflow
2026-04-21 20:59:52 +08:00

215 lines
6.9 KiB
C#
Raw Blame History

using System;
using System.IO.Pipes;
using System.Security.Cryptography;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
namespace LanMountainDesktop.Services;
public sealed class SingleInstanceService : IDisposable
{
private const byte ActivationRequestCode = 0x41; // 'A'
private const byte ActivationAckCode = 0x4B; // 'K'
private const byte ActivationNackCode = 0x4E; // 'N'
private readonly Mutex _mutex;
private readonly string _pipeName;
private readonly CancellationTokenSource _listenCts = new();
private bool _ownsMutex;
private bool _disposed;
private Task? _listenTask;
private SingleInstanceService(string mutexName, string pipeName)
{
_mutex = new Mutex(initiallyOwned: false, mutexName);
_pipeName = pipeName;
try
{
_ownsMutex = _mutex.WaitOne(TimeSpan.Zero, exitContext: false);
}
catch (AbandonedMutexException)
{
_ownsMutex = true;
}
}
public bool IsPrimaryInstance => _ownsMutex;
public static SingleInstanceService CreateDefault()
{
const string appId = "LanMountainDesktop";
var userName = Environment.UserName;
var scopeSeed = $"{appId}:{userName}";
var scopeHash = Convert.ToHexString(SHA256.HashData(Encoding.UTF8.GetBytes(scopeSeed)));
var suffix = scopeHash[..16];
var mutexName = OperatingSystem.IsWindows()
? $"Local\\{appId}.SingleInstance.{suffix}"
: $"{appId}.SingleInstance.{suffix}";
return new SingleInstanceService(
mutexName,
$"{appId}.Activate.{suffix}");
}
public void StartActivationListener(Action onActivationRequested)
{
ArgumentNullException.ThrowIfNull(onActivationRequested);
if (!_ownsMutex || _disposed || _listenTask is not null)
{
return;
}
AppLogger.Info(
"SingleInstance",
$"Starting activation listener. Pipe='{_pipeName}'; Pid={Environment.ProcessId}; OwnsMutex={_ownsMutex}.");
_listenTask = Task.Run(() => ListenForActivationAsync(onActivationRequested, _listenCts.Token));
}
public bool TryNotifyPrimaryInstance(TimeSpan timeout)
{
return TryNotifyPrimaryInstance(timeout, out _);
}
public bool TryNotifyPrimaryInstance(TimeSpan timeout, out string? failureReason)
{
if (_ownsMutex || _disposed)
{
failureReason = _ownsMutex
? "current_instance_is_primary"
: "single_instance_service_disposed";
return false;
}
try
{
using var client = new NamedPipeClientStream(
serverName: ".",
pipeName: _pipeName,
direction: PipeDirection.InOut,
options: PipeOptions.Asynchronous);
client.Connect((int)Math.Max(1, timeout.TotalMilliseconds));
client.WriteByte(ActivationRequestCode);
client.Flush();
var ack = client.ReadByte();
var acknowledged = ack == ActivationAckCode;
if (!acknowledged)
{
failureReason = ack switch
{
ActivationNackCode => "primary_rejected_activation",
-1 => "ack_not_received",
_ => $"unexpected_ack_code_{ack}"
};
AppLogger.Warn(
"SingleInstance",
$"Primary activation handshake failed. AckCode={ack}; Reason='{failureReason}'; Pipe='{_pipeName}'; Pid={Environment.ProcessId}.");
return false;
}
failureReason = null;
AppLogger.Info(
"SingleInstance",
$"Primary activation acknowledged. Pipe='{_pipeName}'; Pid={Environment.ProcessId}.");
return true;
}
catch (Exception ex)
{
failureReason = "primary_activation_handshake_exception";
AppLogger.Warn("SingleInstance", "Failed to notify the primary instance.", ex);
return false;
}
}
public void Dispose()
{
if (_disposed)
{
return;
}
_disposed = true;
_listenCts.Cancel();
try
{
_listenTask?.Wait(TimeSpan.FromSeconds(1));
}
catch
{
// Ignore listener shutdown races during process exit.
}
_listenCts.Dispose();
if (_ownsMutex)
{
try
{
_mutex.ReleaseMutex();
}
catch (ApplicationException)
{
// Ownership may already be lost during shutdown.
}
}
_mutex.Dispose();
}
private async Task ListenForActivationAsync(Action onActivationRequested, CancellationToken cancellationToken)
{
while (!cancellationToken.IsCancellationRequested)
{
try
{
using var server = new NamedPipeServerStream(
_pipeName,
PipeDirection.InOut,
1,
PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
await server.WaitForConnectionAsync(cancellationToken).ConfigureAwait(false);
var buffer = new byte[1];
var readBytes = await server.ReadAsync(buffer, cancellationToken).ConfigureAwait(false);
var isActivationRequest = readBytes == 1 && buffer[0] == ActivationRequestCode;
var ackCode = ActivationAckCode;
if (!isActivationRequest)
{
ackCode = ActivationNackCode;
AppLogger.Warn(
"SingleInstance",
$"Received malformed activation request. ReadBytes={readBytes}; Value={(readBytes == 1 ? buffer[0] : -1)}; Pipe='{_pipeName}'.");
}
else
{
try
{
onActivationRequested();
}
catch (Exception ex)
{
ackCode = ActivationNackCode;
AppLogger.Warn("SingleInstance", "Activation callback failed.", ex);
}
}
var ackBuffer = new[] { ackCode };
await server.WriteAsync(ackBuffer, cancellationToken).ConfigureAwait(false);
await server.FlushAsync(cancellationToken).ConfigureAwait(false);
}
catch (OperationCanceledException)
{
break;
}
catch (Exception ex)
{
AppLogger.Warn("SingleInstance", "Activation listener failed.", ex);
await Task.Delay(TimeSpan.FromMilliseconds(250), cancellationToken).ConfigureAwait(false);
}
}
}
}
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