/* frmActivityWindow.cs $ This file is part of the HandBrake source code. Homepage: . It may be used under the terms of the GNU General Public License. */ using System; using System.Windows.Forms; using System.IO; using System.Threading; using System.Runtime.InteropServices; using Handbrake.EncodeQueue; using Microsoft.Win32; namespace Handbrake { public partial class frmActivityWindow : Form { delegate void SetTextCallback(string text); String read_file; Thread monitor; QueueHandler encodeQueue; int position; // Position in the arraylist reached by the current log output in the rtf box. string logDir = Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "\\HandBrake\\logs"; private frmMain mainWin; /// /// This window should be used to display the RAW output of the handbrake CLI which is produced during an encode. /// public frmActivityWindow(string file, QueueHandler eh, frmMain mw) { InitializeComponent(); rtf_actLog.Text = string.Empty; encodeQueue = eh; read_file = file; position = 0; mainWin = mw; // When the window closes, we want to abort the monitor thread. this.Disposed += new EventHandler(forceQuit); // Print the Log header in the Rich text box. displayLogHeader(); if (file == "last_scan_log.txt") txt_log.Text = "Scan Log"; else if (file == "last_encode_log.txt") txt_log.Text = "Encode Log"; // Start a new thread which will montior and keep the log window up to date if required/ startLogThread(read_file); } /// /// Displays the Log header /// private void displayLogHeader() { // Add a header to the log file indicating that it's from the Windows GUI and display the windows version rtf_actLog.AppendText(String.Format("### Windows GUI {1} {0} \n", Properties.Settings.Default.hb_build, Properties.Settings.Default.hb_version)); rtf_actLog.AppendText(String.Format("### Running: {0} \n###\n", Environment.OSVersion)); rtf_actLog.AppendText(String.Format("### CPU: {0} \n", getCpuCount())); rtf_actLog.AppendText(String.Format("### Ram: {0} MB \n", TotalPhysicalMemory())); rtf_actLog.AppendText(String.Format("### Screen: {0}x{1} \n", screenBounds().Bounds.Width, screenBounds().Bounds.Height)); rtf_actLog.AppendText(String.Format("### Temp Dir: {0} \n", Path.GetTempPath())); rtf_actLog.AppendText(String.Format("### Install Dir: {0} \n", Application.StartupPath)); rtf_actLog.AppendText(String.Format("### Data Dir: {0} \n", Application.UserAppDataPath)); rtf_actLog.AppendText("#########################################\n\n"); if (encodeQueue.isEncoding && encodeQueue.lastQueueItem.Query != String.Empty) { rtf_actLog.AppendText("### CLI Query: " + encodeQueue.lastQueueItem.Query + "\n\n"); rtf_actLog.AppendText("#########################################\n\n"); } } /// /// Starts a new thread which runs the autoUpdate function. /// /// File which will be used to populate the Rich text box. private void startLogThread(string file) { try { string logFile = Path.Combine(logDir, file); if (File.Exists(logFile)) { // Start a new thread to run the autoUpdate process monitor = new Thread(autoUpdate); monitor.IsBackground = true; monitor.Start(); } else rtf_actLog.AppendText("\n\n\nERROR: The log file could not be found. \nMaybe you cleared your system's tempory folder or maybe you just havn't run an encode yet. \nTried to find the log file in: " + logFile); } catch (Exception exc) { MessageBox.Show("startLogThread(): Exception: \n" + exc); } } /// /// Updates the log window with any new data which is in the log file. /// This is done every 5 seconds. /// /// private void autoUpdate(object state) { try { Boolean lastUpdate = false; updateTextFromThread(); while (true) { if (encodeQueue.isEncoding || mainWin.isScanning) updateTextFromThread(); else { // The encode may just have stoped, so, refresh the log one more time before restarting it. if (lastUpdate == false) updateTextFromThread(); lastUpdate = true; // Prevents the log window from being updated when there is no encode going. position = 0; // There is no encoding, so reset the log position counter to 0 so it can be reused } Thread.Sleep(5000); } } catch (ThreadAbortException) { // Do Nothing. This is needed since we run thread.abort(). // Should probably find a better way of making this work at some point. } catch (Exception exc) { MessageBox.Show("autoUpdate(): Exception: \n" + exc); } } /// /// Finds any new text in the log file and calls a funciton to display this new text. /// private void updateTextFromThread() { try { String info = readFile(); if (info.Contains("has exited")) info += "\n ############ End of Log ############## \n"; SetText(info); } catch (Exception exc) { MessageBox.Show("updateTextFromThread(): Exception: \n" + exc); } } /// /// Updates the rich text box with anything in the string text. /// /// private void SetText(string text) { try { // InvokeRequired required compares the thread ID of the // calling thread to the thread ID of the creating thread. // If these threads are different, it returns true. if (IsHandleCreated) // Make sure the windows has a handle before doing anything { if (rtf_actLog.InvokeRequired) { SetTextCallback d = new SetTextCallback(SetText); Invoke(d, new object[] { text }); } else rtf_actLog.AppendText(text); } } catch (Exception exc) { MessageBox.Show("SetText(): Exception: \n" + exc); } } /// /// Read the log file, and store the data in a List. /// /// private String readFile() { String appendText = String.Empty; try { // last_encode_log.txt is the primary log file. Since .NET can't read this file whilst the CLI is outputing to it (Not even in read only mode), // we'll need to make a copy of it. string logFile = Path.Combine(logDir, read_file); string logFile2 = Path.Combine(logDir, "tmp_appReadable_log.txt"); // Make sure the application readable log file does not already exist. FileCopy fill fail if it does. if (File.Exists(logFile2)) File.Delete(logFile2); // Copy the log file. File.Copy(logFile, logFile2); // Open the copied log file for reading StreamReader sr = new StreamReader(logFile2); string line; int i = 1; while ((line = sr.ReadLine()) != null) { if (i > position) { appendText += line + Environment.NewLine; position++; } i++; } sr.Close(); sr.Dispose(); return appendText; } catch (Exception exc) { MessageBox.Show("Error in readFile() \n Unable to read the log file.\n You may have to restart HandBrake.\n Error Information: \n\n" + exc, "Warning", MessageBoxButtons.OK, MessageBoxIcon.Warning); } return null; } /// /// Kills the montior thead when the window is disposed of. /// /// /// private void forceQuit(object sender, EventArgs e) { if (monitor != null) { while (monitor.IsAlive) monitor.Abort(); } this.Close(); } #region User Interface private void mnu_copy_log_Click(object sender, EventArgs e) { if (rtf_actLog.SelectedText != "") Clipboard.SetDataObject(rtf_actLog.SelectedText, true); else Clipboard.SetDataObject(rtf_actLog.Text, true); } private void mnu_openLogFolder_Click(object sender, EventArgs e) { string logDir = Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "\\HandBrake\\logs"; string windir = Environment.GetEnvironmentVariable("WINDIR"); System.Diagnostics.Process prc = new System.Diagnostics.Process(); prc.StartInfo.FileName = windir + @"\explorer.exe"; prc.StartInfo.Arguments = logDir; prc.Start(); } private void btn_copy_Click(object sender, EventArgs e) { if (rtf_actLog.SelectedText != "") Clipboard.SetDataObject(rtf_actLog.SelectedText, true); else Clipboard.SetDataObject(rtf_actLog.Text, true); } private void btn_scan_log_Click(object sender, EventArgs e) { // Switch to the scan log. if (monitor != null) monitor.Abort(); rtf_actLog.Clear(); read_file = "last_scan_log.txt"; displayLogHeader(); startLogThread(read_file); txt_log.Text = "Scan Log"; } private void btn_encode_log_Click(object sender, EventArgs e) { // Switch to the encode log if (monitor != null) monitor.Abort(); rtf_actLog.Clear(); read_file = "last_encode_log.txt"; position = 0; displayLogHeader(); startLogThread(read_file); txt_log.Text = "Encode Log"; } #endregion #region System Information private struct MEMORYSTATUS // Unused var's are requred here. { public UInt32 dwLength; public UInt32 dwMemoryLoad; public UInt32 dwTotalPhys; // Used public UInt32 dwAvailPhys; public UInt32 dwTotalPageFile; public UInt32 dwAvailPageFile; public UInt32 dwTotalVirtual; public UInt32 dwAvailVirtual; } [DllImport("kernel32.dll")] private static extern void GlobalMemoryStatus ( ref MEMORYSTATUS lpBuffer ); /// /// Returns the total physical ram in a system /// /// public uint TotalPhysicalMemory() { MEMORYSTATUS memStatus = new MEMORYSTATUS(); GlobalMemoryStatus(ref memStatus); uint MemoryInfo = memStatus.dwTotalPhys; MemoryInfo = MemoryInfo / 1024 / 1024; return MemoryInfo; } /// /// Get the number of CPU Cores /// /// Object public Object getCpuCount() { RegistryKey RegKey = Registry.LocalMachine; RegKey = RegKey.OpenSubKey("HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0"); return RegKey.GetValue("ProcessorNameString"); } /// /// Get the System screen size information. /// /// System.Windows.Forms.Scree public Screen screenBounds() { return Screen.PrimaryScreen; } #endregion } }