public void LogException(Exception exception, IWorkSession session) { if (exception is WebSocketException) { return; } _monitor.Exception(exception, session); }
public void LogException(Exception exception, IWorkSession session) { // Note/TODO: need to see if OperationCanceledException can be avoided // https://github.com/ashmind/SharpLab/issues/617 if (exception is WebSocketException or OperationCanceledException) { return; } _monitor.Exception(exception, session); }
public void Stop(bool immediate) { if (immediate) { return; } try { _monitor.Event("Application Shutdown", null, new Dictionary <string, string> { { "Reason", HostingEnvironment.ShutdownReason.ToString() } }); } catch (Exception ex) { _monitor.Exception(ex, null); } }
private ExecutionResult ExecuteInAppDomain(MemoryStream assemblyStream, RuntimeGuardToken guardToken, IWorkSession session) { var currentSetup = AppDomain.CurrentDomain.SetupInformation; using (var context = AppDomainContext.Create(new AppDomainSetup { ApplicationBase = currentSetup.ApplicationBase, PrivateBinPath = currentSetup.PrivateBinPath })) { context.LoadAssembly(LoadMethod.LoadFrom, Assembly.GetExecutingAssembly().GetAssemblyFile().FullName); var(result, exception) = RemoteFunc.Invoke(context.Domain, assemblyStream, guardToken, CurrentProcess.Id, Remote.Execute); if (ShouldMonitorException(exception)) { _monitor.Exception(exception, session); } return(result); } }
public ExecutionResult Execute(CompilationStreamPair streams, IWorkSession session) { var readerParameters = new ReaderParameters { ReadSymbols = streams.SymbolStream != null, SymbolStream = streams.SymbolStream, AssemblyResolver = _assemblyResolver, SymbolReaderProvider = streams.SymbolStream != null ? _symbolReaderProvider : null }; using (streams) using (var definition = AssemblyDefinition.ReadAssembly(streams.AssemblyStream, readerParameters)) { AssemblyLog.Log("1.Initial", definition); foreach (var rewriter in _rewriters) { rewriter.Rewrite(definition, session); } AssemblyLog.Log("2.WithFlow", definition); if (definition.EntryPoint == null) { throw new ArgumentException("Failed to find an entry point (Main?) in assembly.", nameof(streams)); } var guardToken = AssemblyGuard.Rewrite(definition, _guardSettings); using (var rewrittenStream = _memoryStreamManager.GetStream()) { definition.Write(rewrittenStream); AssemblyLog.Log("3.Unbreakable", definition); rewrittenStream.Seek(0, SeekOrigin.Begin); var(result, exception) = ExecuteWithIsolation(rewrittenStream, guardToken, session); if (ShouldMonitorException(exception)) { _monitor.Exception(exception, session); } return(result); } } }
public async Task <object?> ProcessAsync(IWorkSession session, IList <Diagnostic> diagnostics, CancellationToken cancellationToken) { PerformanceLog.Checkpoint("SlowUpdate.ProcessAsync.Start"); var targetName = GetAndEnsureTargetName(session); _topLevelProgramSupport.UpdateOutputKind(session, diagnostics); if (targetName is TargetNames.Ast or TargetNames.Explain) { var astTarget = _astTargets[session.LanguageName]; var ast = await astTarget.GetAstAsync(session, cancellationToken).ConfigureAwait(false); if (targetName == TargetNames.Explain) { return(await _explainer.ExplainAsync(ast, session, cancellationToken).ConfigureAwait(false)); } return(ast); } if (diagnostics.Any(d => d.Severity == DiagnosticSeverity.Error)) { return(null); } if (targetName == LanguageNames.VisualBasic) { return(VisualBasicNotAvailable); } if (targetName is not(TargetNames.Run or TargetNames.Verify) && !_decompilers.ContainsKey(targetName)) { throw new NotSupportedException($"Target '{targetName}' is not (yet?) supported by this branch."); } MemoryStream?assemblyStream = null; MemoryStream?symbolStream = null; try { assemblyStream = _memoryStreamManager.GetStream(); if (targetName is TargetNames.Run or TargetNames.IL) { symbolStream = _memoryStreamManager.GetStream(); } var compilationStopwatch = session.ShouldReportPerformance() ? Stopwatch.StartNew() : null; var compiled = await _compiler.TryCompileToStreamAsync(assemblyStream, symbolStream, session, diagnostics, cancellationToken).ConfigureAwait(false); compilationStopwatch?.Stop(); if (!compiled.assembly) { assemblyStream.Dispose(); symbolStream?.Dispose(); return(null); } if (targetName == TargetNames.Verify) { assemblyStream.Dispose(); symbolStream?.Dispose(); return("✔️ Compilation completed."); } assemblyStream.Seek(0, SeekOrigin.Begin); symbolStream?.Seek(0, SeekOrigin.Begin); AssemblyLog.Log("1.Compiled", assemblyStream, compiled.symbols ? symbolStream : null); var streams = new CompilationStreamPair(assemblyStream, compiled.symbols ? symbolStream : null); if (targetName == TargetNames.Run) { if (!session.HasContainerExperimentFailed()) { try { var output = await _containerExecutor.ExecuteAsync(streams, session, cancellationToken); if (compilationStopwatch != null) { // TODO: Prettify output += $"\n COMPILATION: {compilationStopwatch.ElapsedMilliseconds,15}ms"; } streams.Dispose(); _monitor.Metric(ContainerExperimentMetrics.ContainerRunCount, 1); return(output); } catch (Exception ex) { _monitor.Metric(ContainerExperimentMetrics.ContainerFailureCount, 1); _monitor.Exception(ex, session); session.SetContainerExperimentException(ex); assemblyStream.Seek(0, SeekOrigin.Begin); symbolStream?.Seek(0, SeekOrigin.Begin); } } _monitor.Metric(ContainerExperimentMetrics.LegacyRunCount, 1); return(_executor.Execute(streams, session)); } // it's fine not to Dispose() here -- MirrorSharp will dispose it after calling WriteResult() return(streams); } catch { assemblyStream?.Dispose(); symbolStream?.Dispose(); throw; } }