ProcessRunner.ProcessHelper.ps1
[string]$ProcessHelperClassDefinition = @'
namespace ProcessRunner { using System; using System.Collections.Generic; using System.IO; using System.Diagnostics; using System.Linq; using System.Text; /// <summary> /// Utility to orchestrate executing applications /// </summary> public static class ProcessHelper { /// <summary> /// Runs an application with arguments in three distinct modes. /// - Utility mode that runs the application synchronously, captures output/error streams and returns them as strings /// - Interactive mode for applications like cmd.exe, powershell/pwsh. Doesn't attempt to capture output/error streams. /// - Background mode running UI applications - returns without waiting for application termination. Doesn't attempt to capture output/error streams /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <param name="verb"></param> /// <param name="detachUiProcess"></param> /// <param name="interactive"></param> /// <returns></returns> public static ProcessResult Run(FileInfo filePath, List<string> arguments, string verb, bool detachUiProcess, bool interactive, string workingDirectory) { if (filePath == null) { throw new ArgumentNullException("filePath"); } if (!filePath.Exists) { throw new FileNotFoundException(string.Empty, filePath.FullName); } ProcessStartInfo psi = new ProcessStartInfo(filePath.FullName) { Arguments = string.Join(" ", arguments ?? Enumerable.Empty<string>()), UseShellExecute = false, Verb = verb, RedirectStandardOutput = !interactive, RedirectStandardError = !interactive, WorkingDirectory = workingDirectory, }; Process process = new Process() { StartInfo = psi }; StringBuilder output = new StringBuilder(); StringBuilder error = new StringBuilder(); process.OutputDataReceived += delegate (object o, DataReceivedEventArgs e) { output.AppendLine(e.Data); }; process.Start(); if (!interactive) { process.BeginOutputReadLine(); } if (detachUiProcess) { do { process.WaitForExit(UiWaitTimeMilliSeconds); process.Refresh(); if (!process.HasExited && process.MainWindowHandle != IntPtr.Zero) { // break out of the wait-loop as soon as an HWND is detected break; } } while (!process.HasExited); } else { process.WaitForExit(); } if (!interactive) { process.CancelOutputRead(); } if (!interactive && process.HasExited && process.ExitCode != 0) { error.Append(process.StandardError.ReadToEnd()); } if (process.HasExited) { return new ProcessResult(filePath.FullName, arguments != null ? arguments.ToArray() : null, output.ToString(), error.ToString(), process.ExitCode); } else { return new RunningProcessResult(filePath.FullName, arguments != null ? arguments.ToArray() : null, process); } } /// <summary> /// Runs an application with arguments in 'Utility' mode /// - Utility mode runs the application synchronously, captures output/error streams and returns them as strings /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <param name="verb"></param> /// <returns></returns> public static ProcessResult Run(FileInfo filePath, List<string> arguments, string verb, string workingDirectory) { return ProcessHelper.Run(filePath, arguments, verb, detachUiProcess: false, interactive: false, workingDirectory: workingDirectory); } /// <summary> /// Runs an application with arguments in 'Utility' mode /// - Utility mode runs the application synchronously, captures output/error streams and returns them as strings /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <returns></returns> public static ProcessResult Run(FileInfo filePath, List<string> arguments, string workingDirectory) { return ProcessHelper.Run(filePath, arguments, null, workingDirectory); } /// <summary> /// Represents the result of process execution /// </summary> public class ProcessResult { /// <summary> /// Path to the executable /// </summary> public readonly string FilePath; /// <summary> /// Arguments to the application /// </summary> public readonly string[] Arguments; /// <summary> /// Output of the application /// </summary> public readonly string Output; /// <summary> /// Error generated by the application in the error-stream /// </summary> public readonly string Error; /// <summary> /// Exit-code of the process /// </summary> public readonly int? ExitCode; /// <summary> /// Creates a <see cref="ProcessResult"/> object /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <param name="output"></param> /// <param name="error"></param> /// <param name="exitCode"></param> public ProcessResult(string filePath, string[] arguments, string output, string error, int exitCode) : this(filePath, arguments, output, error) { this.ExitCode = exitCode; } /// <summary> /// Creates a ProcessResult object /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <param name="output"></param> /// <param name="error"></param> protected ProcessResult(string filePath, string[] arguments, string output, string error) { this.FilePath = filePath; this.Arguments = arguments; this.Output = output; this.Error = error; this.ExitCode = null; } } /// <summary> /// Represents the result of executing a process in the background /// </summary> public class RunningProcessResult : ProcessResult { /// <summary> /// <see cref="Process"/> object representing a running process. /// </summary> public readonly Process Process; /// <summary> /// Creates a <see cref="RunningProcessResult"/> instances /// </summary> /// <param name="filePath"></param> /// <param name="arguments"></param> /// <param name="process"></param> public RunningProcessResult(string filePath, string[] arguments, Process process) : base(filePath, arguments, string.Empty, string.Empty) { this.Process = process; } } private const int UiWaitTimeMilliSeconds = 250; } } '@ Add-Type -TypeDefinition $ProcessHelperClassDefinition |