public bool Check() { UpdateProgress?.Invoke(this, new UpdateProgressEventArgs(UpdateProgressStatus.Started)); try { _newReleases = Task.Run(GetNewReleasesAsync).Result; UpdateProgress?.Invoke(this, new UpdateProgressEventArgs(UpdateProgressStatus.Completed)); } catch (Exception e) { Console.WriteLine(e); UpdateProgress?.Invoke(this, new UpdateProgressEventArgs(UpdateProgressStatus.Error)); } return(_newReleases.Any()); }
public EntropyResults CalculateMediaEntropy(bool duplicatedSectors) { var entropy = new EntropyResults { Entropy = 0 }; ulong[] entTable = new ulong[256]; ulong diskSize = 0; List <string> uniqueSectors = new List <string>(); entropy.Sectors = inputFormat.Info.Sectors; AaruConsole.WriteLine("Sectors {0}", entropy.Sectors); InitProgressEvent?.Invoke(); for (ulong i = 0; i < entropy.Sectors; i++) { UpdateProgressEvent?.Invoke($"Entropying sector {i + 1}", (long)(i + 1), (long)entropy.Sectors); byte[] sector = inputFormat.ReadSector(i); if (duplicatedSectors) { string sectorHash = Sha1Context.Data(sector, out _); if (!uniqueSectors.Contains(sectorHash)) { uniqueSectors.Add(sectorHash); } } foreach (byte b in sector) { entTable[b]++; } diskSize += (ulong)sector.LongLength; } EndProgressEvent?.Invoke(); entropy.Entropy += entTable.Select(l => (double)l / (double)diskSize). Select(frequency => - (frequency * Math.Log(frequency, 2))).Sum(); if (duplicatedSectors) { entropy.UniqueSectors = uniqueSectors.Count; } return(entropy); }
public void UpdateProgress(string text, long current, long maximum) { UpdateProgressEvent?.Invoke(string.Format(text, current, maximum), current, maximum); }
public EntropyResults[] CalculateTracksEntropy(bool duplicatedSectors) { List <EntropyResults> entropyResultses = new List <EntropyResults>(); if (!(inputFormat is IOpticalMediaImage opticalMediaImage)) { DicConsole.ErrorWriteLine("The selected image does not support tracks."); return(entropyResultses.ToArray()); } try { List <Track> inputTracks = opticalMediaImage.Tracks; InitProgressEvent?.Invoke(); foreach (Track currentTrack in inputTracks) { EntropyResults trackEntropy = new EntropyResults { Track = currentTrack.TrackSequence, Entropy = 0 }; UpdateProgressEvent ?.Invoke($"Entropying track {currentTrack.TrackSequence} of {inputTracks.Max(t => t.TrackSequence)}", currentTrack.TrackSequence, inputTracks.Max(t => t.TrackSequence)); ulong[] entTable = new ulong[256]; ulong trackSize = 0; List <string> uniqueSectorsPerTrack = new List <string>(); trackEntropy.Sectors = currentTrack.TrackEndSector - currentTrack.TrackStartSector + 1; DicConsole.VerboseWriteLine("Track {0} has {1} sectors", currentTrack.TrackSequence, trackEntropy.Sectors); InitProgress2Event?.Invoke(); for (ulong i = currentTrack.TrackStartSector; i <= currentTrack.TrackEndSector; i++) { UpdateProgress2Event ?.Invoke($"Entropying sector {i + 1} of track {currentTrack.TrackSequence}", (long)(currentTrack.TrackEndSector - (i + 1)), (long)trackEntropy.Sectors); byte[] sector = opticalMediaImage.ReadSector(i, currentTrack.TrackSequence); if (duplicatedSectors) { string sectorHash = Sha1Context.Data(sector, out _); if (!uniqueSectorsPerTrack.Contains(sectorHash)) { uniqueSectorsPerTrack.Add(sectorHash); } } foreach (byte b in sector) { entTable[b]++; } trackSize += (ulong)sector.LongLength; } EndProgress2Event?.Invoke(); trackEntropy.Entropy += entTable.Select(l => (double)l / (double)trackSize) .Select(frequency => - (frequency * Math.Log(frequency, 2))).Sum(); if (duplicatedSectors) { trackEntropy.UniqueSectors = uniqueSectorsPerTrack.Count; } entropyResultses.Add(trackEntropy); } EndProgressEvent?.Invoke(); } catch (Exception ex) { if (debug) { DicConsole.DebugWriteLine("Could not get tracks because {0}", ex.Message); } else { DicConsole.ErrorWriteLine("Unable to get separate tracks, not calculating their entropy"); } } return(entropyResultses.ToArray()); }
static void UpdateProgress(string text, int current, int maximum) { UpdateProgressEvent?.Invoke(string.Format(text, current, maximum), current, maximum); }