using System; using System.Collections; using System.Collections.Generic; using System.Collections.Specialized; using System.ComponentModel; using System.Diagnostics; using System.IO; using System.Linq; using NLog; using Ombi.Common.EnvironmentInfo; namespace Ombi.Common.Processes { public interface IProcessProvider { int GetCurrentProcessId(); ProcessInfo GetCurrentProcess(); ProcessInfo GetProcessById(int id); List FindProcessByName(string name); void OpenDefaultBrowser(string url); void WaitForExit(System.Diagnostics.Process process); void SetPriority(int processId, ProcessPriorityClass priority); void KillAll(string processName); void Kill(int processId); bool Exists(int processId); bool Exists(string processName); ProcessPriorityClass GetCurrentProcessPriority(); System.Diagnostics.Process Start(string path, string args = null, StringDictionary environmentVariables = null, Action onOutputDataReceived = null, Action onErrorDataReceived = null); System.Diagnostics.Process SpawnNewProcess(string path, string args = null, StringDictionary environmentVariables = null); ProcessOutput StartAndCapture(string path, string args = null, StringDictionary environmentVariables = null); } public class ProcessProvider : IProcessProvider { private static readonly Logger _logger = LogManager.GetCurrentClassLogger(); public const string OmbiProcessName = "Ombi"; //public ProcessProvider(Logger logger) //{ // _logger = logger; //} public int GetCurrentProcessId() { return Process.GetCurrentProcess().Id; } public ProcessInfo GetCurrentProcess() { return ConvertToProcessInfo(Process.GetCurrentProcess()); } public bool Exists(int processId) { return GetProcessById(processId) != null; } public bool Exists(string processName) { return GetProcessesByName(processName).Any(); } public ProcessPriorityClass GetCurrentProcessPriority() { return Process.GetCurrentProcess().PriorityClass; } public ProcessInfo GetProcessById(int id) { _logger.Debug("Finding process with Id:{0}", id); var processInfo = ConvertToProcessInfo(Process.GetProcesses().FirstOrDefault(p => p.Id == id)); if (processInfo == null) { _logger.Warn("Unable to find process with ID {0}", id); } else { _logger.Debug("Found process {0}", processInfo.ToString()); } return processInfo; } public List FindProcessByName(string name) { return GetProcessesByName(name).Select(ConvertToProcessInfo).Where(c => c != null).ToList(); } public void OpenDefaultBrowser(string url) { _logger.Info("Opening URL [{0}]", url); var process = new Process { StartInfo = new ProcessStartInfo(url) { UseShellExecute = true } }; process.Start(); } public Process Start(string path, string args = null, StringDictionary environmentVariables = null, Action onOutputDataReceived = null, Action onErrorDataReceived = null) { if (PlatformInfo.IsMono && path.EndsWith(".exe", StringComparison.InvariantCultureIgnoreCase)) { args = GetMonoArgs(path, args); path = "mono"; } var logger = LogManager.GetLogger(new FileInfo(path).Name); var startInfo = new ProcessStartInfo(path, args) { CreateNoWindow = true, UseShellExecute = false, RedirectStandardError = true, RedirectStandardOutput = true, RedirectStandardInput = true }; if (environmentVariables != null) { foreach (DictionaryEntry environmentVariable in environmentVariables) { startInfo.EnvironmentVariables.Add(environmentVariable.Key.ToString(), environmentVariable.Value.ToString()); } } logger.Debug("Starting {0} {1}", path, args); var process = new Process { StartInfo = startInfo }; process.OutputDataReceived += (sender, eventArgs) => { if (string.IsNullOrWhiteSpace(eventArgs.Data)) return; logger.Debug(eventArgs.Data); onOutputDataReceived?.Invoke(eventArgs.Data); }; process.ErrorDataReceived += (sender, eventArgs) => { if (string.IsNullOrWhiteSpace(eventArgs.Data)) return; logger.Error(eventArgs.Data); onErrorDataReceived?.Invoke(eventArgs.Data); }; process.Start(); process.BeginErrorReadLine(); process.BeginOutputReadLine(); return process; } public Process SpawnNewProcess(string path, string args = null, StringDictionary environmentVariables = null) { if (PlatformInfo.IsMono && path.EndsWith(".exe", StringComparison.InvariantCultureIgnoreCase)) { args = GetMonoArgs(path, args); path = "mono"; } _logger.Debug("Starting {0} {1}", path, args); var startInfo = new ProcessStartInfo(path, args); var process = new Process { StartInfo = startInfo }; process.Start(); return process; } public ProcessOutput StartAndCapture(string path, string args = null, StringDictionary environmentVariables = null) { var output = new ProcessOutput(); var process = Start(path, args, environmentVariables, s => output.Lines.Add(new ProcessOutputLine(ProcessOutputLevel.Standard, s)), error => output.Lines.Add(new ProcessOutputLine(ProcessOutputLevel.Error, error))); process.WaitForExit(); output.ExitCode = process.ExitCode; return output; } public void WaitForExit(Process process) { _logger.Debug("Waiting for process {0} to exit.", process.ProcessName); process.WaitForExit(); } public void SetPriority(int processId, ProcessPriorityClass priority) { var process = Process.GetProcessById(processId); _logger.Info("Updating [{0}] process priority from {1} to {2}", process.ProcessName, process.PriorityClass, priority); process.PriorityClass = priority; } public void Kill(int processId) { var process = Process.GetProcesses().FirstOrDefault(p => p.Id == processId); if (process == null) { _logger.Warn("Cannot find process with id: {0}", processId); return; } process.Refresh(); if (process.Id != Process.GetCurrentProcess().Id && process.HasExited) { _logger.Debug("Process has already exited"); return; } _logger.Info("[{0}]: Killing process", process.Id); process.Kill(); _logger.Info("[{0}]: Waiting for exit", process.Id); process.WaitForExit(); _logger.Info("[{0}]: Process terminated successfully", process.Id); } public void KillAll(string processName) { var processes = GetProcessesByName(processName); _logger.Debug("Found {0} processes to kill", processes.Count); foreach (var processInfo in processes) { if (processInfo.Id == Process.GetCurrentProcess().Id) { _logger.Debug("Tried killing own process, skipping: {0} [{1}]", processInfo.Id, processInfo.ProcessName); continue; } _logger.Debug("Killing process: {0} [{1}]", processInfo.Id, processInfo.ProcessName); Kill(processInfo.Id); } } private ProcessInfo ConvertToProcessInfo(Process process) { if (process == null) return null; process.Refresh(); ProcessInfo processInfo = null; try { if (process.Id <= 0) return null; processInfo = new ProcessInfo { Id = process.Id, Name = process.ProcessName, StartPath = GetExeFileName(process) }; if (process.Id != Process.GetCurrentProcess().Id && process.HasExited) { processInfo = null; } } catch (Win32Exception e) { _logger.Warn(e, "Couldn't get process info for " + process.ProcessName); } return processInfo; } private static string GetExeFileName(Process process) { if (process.MainModule.FileName != "mono.exe") { return process.MainModule.FileName; } return process.Modules.Cast().FirstOrDefault(module => module.ModuleName.ToLower().EndsWith(".exe")).FileName; } private List GetProcessesByName(string name) { //TODO: move this to an OS specific class var monoProcesses = Process.GetProcessesByName("mono") .Union(Process.GetProcessesByName("mono-sgen")) .Where(process => process.Modules.Cast() .Any(module => module.ModuleName.ToLower() == name.ToLower() + ".exe")); var processes = Process.GetProcessesByName(name) .Union(monoProcesses).ToList(); _logger.Debug("Found {0} processes with the name: {1}", processes.Count, name); try { foreach (var process in processes) { _logger.Debug(" - [{0}] {1}", process.Id, process.ProcessName); } } catch { // Don't crash on gettings some log data. } return processes; } private string GetMonoArgs(string path, string args) { return string.Format("--debug {0} {1}", path, args); } } }