« Process » : différence entre les versions
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* [https://msdn.microsoft.com/en-us/library/system.diagnostics.processstartinfo(v=vs.110).aspx ProcessStartInfo] | * [https://msdn.microsoft.com/en-us/library/system.diagnostics.processstartinfo(v=vs.110).aspx ProcessStartInfo] | ||
= Exécuter un fichier = | = Exécuter un fichier ou une commande = | ||
<kode lang=csharp> | <kode lang=csharp> | ||
using System.Diagnostics; | using System.Diagnostics; | ||
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Process process = Process.Start(psi); | Process process = Process.Start(psi); | ||
string processOutput = process.StandardOutput.ReadToEnd(); | string processOutput = process.StandardOutput.ReadToEnd(); | ||
process.WaitForExit(); | |||
// écoute d'output et d'error | |||
command = command.Replace("\"", "\\\""); | |||
var process = new Process() | |||
{ | |||
StartInfo = new ProcessStartInfo | |||
{ | |||
FileName = "/bin/bash", | |||
Arguments = $"-c \"{command}\"", | |||
RedirectStandardOutput = true, | |||
RedirectStandardError = true, | |||
UseShellExecute = false, | |||
CreateNoWindow = true, | |||
} | |||
}; | |||
process.OutputDataReceived += (a, b) => Console.WriteLine(b.Data); | |||
process.ErrorDataReceived += (a, b) => Console.WriteLine(b.Data); | |||
process.Start(); | |||
process.BeginErrorReadLine(); | |||
process.BeginOutputReadLine(); | |||
process.WaitForExit(); | process.WaitForExit(); | ||
</kode> | </kode> | ||
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= Lister tous les processus qui utilisent un fichier = | = Lister tous les processus qui utilisent un fichier = | ||
<kode lang= | <kode lang=cs collapsed> | ||
static public class FileUtil | static public class FileUtil | ||
{ | { |
Version du 22 février 2020 à 22:22
Liens
Exécuter un fichier ou une commande
using System.Diagnostics; // en une ligne Process.Start("C:\chemin\fichier.exe", "paramètre1 paramètre2").WaitForExit(); // ProcessStartInfo? Process.Start(new ProcessStartInfo("CheminVersLeFichier")); // Avec des options ProcessStartInfo psi = new ProcessStartInfo("exe", "paramètre1 paramètre2"); psi.WindowStyle = ProcessWindowStyle.Hidden; // masque le processus Process proc = Process.Start(psi); proc.WaitForExit(); // Attend que le processus se termine // Lecture de la sortie ProcessStartInfo psi = new ProcessStartInfo("/chemin/script.sh", "paramètre1 paramètre2"); psi.UseShellExecute = false; psi.RedirectStandardOutput = true; // par défaut, le working directory est celui de l'application appelante // on peut donc le redéfinir pour qu'il corresponde au chemin du script appelé psi.WorkingDirectory = Path.GetDirectoryName("/chemin/script.sh"); Process process = Process.Start(psi); string processOutput = process.StandardOutput.ReadToEnd(); process.WaitForExit(); // écoute d'output et d'error command = command.Replace("\"", "\\\""); var process = new Process() { StartInfo = new ProcessStartInfo { FileName = "/bin/bash", Arguments = $"-c \"{command}\"", RedirectStandardOutput = true, RedirectStandardError = true, UseShellExecute = false, CreateNoWindow = true, } }; process.OutputDataReceived += (a, b) => Console.WriteLine(b.Data); process.ErrorDataReceived += (a, b) => Console.WriteLine(b.Data); process.Start(); process.BeginErrorReadLine(); process.BeginOutputReadLine(); process.WaitForExit(); |
Le WorkingDirectory du nouveau process sera le même que celui du process appelant et non le chemin vers l'exe du nouveau process. |
Lister tous les processus qui utilisent un fichier
static public class FileUtil { [StructLayout(LayoutKind.Sequential)] struct RM_UNIQUE_PROCESS { public int dwProcessId; public System.Runtime.InteropServices.ComTypes.FILETIME ProcessStartTime; } const int RmRebootReasonNone = 0; const int CCH_RM_MAX_APP_NAME = 255; const int CCH_RM_MAX_SVC_NAME = 63; enum RM_APP_TYPE { RmUnknownApp = 0, RmMainWindow = 1, RmOtherWindow = 2, RmService = 3, RmExplorer = 4, RmConsole = 5, RmCritical = 1000 } [StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)] struct RM_PROCESS_INFO { public RM_UNIQUE_PROCESS Process; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_APP_NAME + 1)] public string strAppName; [MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_SVC_NAME + 1)] public string strServiceShortName; public RM_APP_TYPE ApplicationType; public uint AppStatus; public uint TSSessionId; [MarshalAs(UnmanagedType.Bool)] public bool bRestartable; } [DllImport("rstrtmgr.dll", CharSet = CharSet.Unicode)] static extern int RmRegisterResources(uint pSessionHandle, UInt32 nFiles, string[] rgsFilenames, UInt32 nApplications, [In] RM_UNIQUE_PROCESS[] rgApplications, UInt32 nServices, string[] rgsServiceNames); [DllImport("rstrtmgr.dll", CharSet = CharSet.Auto)] static extern int RmStartSession(out uint pSessionHandle, int dwSessionFlags, string strSessionKey); [DllImport("rstrtmgr.dll")] static extern int RmEndSession(uint pSessionHandle); [DllImport("rstrtmgr.dll")] static extern int RmGetList(uint dwSessionHandle, out uint pnProcInfoNeeded, ref uint pnProcInfo, [In, Out] RM_PROCESS_INFO[] rgAffectedApps, ref uint lpdwRebootReasons); /// <summary> /// Find out what process(es) have a lock on the specified file. /// </summary> /// <param name="path">Path of the file.</param> /// <returns>Processes locking the file</returns> /// <remarks>See also: /// http://msdn.microsoft.com/en-us/library/windows/desktop/aa373661(v=vs.85).aspx /// http://wyupdate.googlecode.com/svn-history/r401/trunk/frmFilesInUse.cs (no copyright in code at time of viewing) /// /// </remarks> static public List<Process> WhoIsLocking(string path) { uint handle; string key = Guid.NewGuid().ToString(); List<Process> processes = new List<Process>(); int res = RmStartSession(out handle, 0, key); if (res != 0) throw new Exception("Could not begin restart session. Unable to determine file locker."); try { const int ERROR_MORE_DATA = 234; uint pnProcInfoNeeded = 0, pnProcInfo = 0, lpdwRebootReasons = RmRebootReasonNone; string[] resources = new string[] { path }; // Just checking on one resource. res = RmRegisterResources(handle, (uint)resources.Length, resources, 0, null, 0, null); if (res != 0) throw new Exception("Could not register resource."); //Note: there's a race condition here -- the first call to RmGetList() returns // the total number of process. However, when we call RmGetList() again to get // the actual processes this number may have increased. res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, null, ref lpdwRebootReasons); if (res == ERROR_MORE_DATA) { // Create an array to store the process results RM_PROCESS_INFO[] processInfo = new RM_PROCESS_INFO[pnProcInfoNeeded]; pnProcInfo = pnProcInfoNeeded; // Get the list res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, processInfo, ref lpdwRebootReasons); if (res == 0) { processes = new List<Process>((int)pnProcInfo); // Enumerate all of the results and add them to the // list to be returned for (int i = 0; i < pnProcInfo; i++) { try { processes.Add(Process.GetProcessById(processInfo[i].Process.dwProcessId)); } // catch the error -- in case the process is no longer running catch (ArgumentException) { } } } else throw new Exception("Could not list processes locking resource."); } else if (res != 0) throw new Exception("Could not list processes locking resource. Failed to get size of result."); } finally { RmEndSession(handle); } return processes; } } |