public void AddSource(byte[] id, string fileName, RIndexedHashtable <string, string> metaData, string comment, byte rating) { if (id == null) { throw new ArgumentNullException("id"); } if (id.Length != 48) { throw new ArgumentException(); } if (fileName == null) { throw new ArgumentNullException("fileName"); } if (metaData == null) { throw new ArgumentNullException("metaData"); } if (comment == null) { throw new ArgumentNullException("comment"); } if (rating > 3) { throw new ArgumentOutOfRangeException("rating"); } try { m_Sources.Lock(); string idString = Core.ByteArrayToString(id); if (!m_Sources.ContainsKey(idString)) { m_Sources.Add(idString, new Source(m_Sources, id, fileName, metaData, comment, rating)); } else { m_Sources[idString].ReportReceived(fileName, comment, rating); } RIndexedHashtable <string, int> fileNames1 = new RIndexedHashtable <string, int>(); RIndexedHashtable <byte, int> ratings1 = new RIndexedHashtable <byte, int>(); foreach (Source source in m_Sources.Values) { if (!fileNames1.ContainsKey(source.FileName)) { fileNames1.Add(source.FileName, 1); } else { fileNames1[source.FileName]++; } if (!ratings1.ContainsKey(source.Rating)) { ratings1.Add(source.Rating, 1); } else { ratings1[source.Rating]++; } } RList <string> fileNames2 = new RList <string>(fileNames1.Keys); for (int n = 1; n <= fileNames2.Count - 1; n++) { for (int m = 0; m < fileNames2.Count - n; m++) { if (fileNames1[fileNames2[m]] < fileNames1[fileNames2[m + 1]]) { string temp; temp = fileNames2[m]; fileNames2[m] = fileNames2[m + 1]; fileNames2[m + 1] = temp; } } } m_FileName = fileNames2[0]; RList <byte> ratings2 = new RList <byte>(ratings1.Keys); for (int n = 1; n <= ratings2.Count - 1; n++) { for (int m = 0; m < ratings2.Count - n; m++) { if (ratings1[ratings2[m]] < ratings1[ratings2[m + 1]]) { byte temp; temp = ratings2[m]; ratings2[m] = ratings2[m + 1]; ratings2[m + 1] = temp; } } } ratings2.Remove(0); if (!ratings2.IsEmpty) { m_Rating = ratings2[0]; } else { m_Rating = 0; } foreach (KeyValuePair <string, string> metaDataItem in metaData) { if (!m_MetaData.ContainsKey(metaDataItem.Key)) { m_MetaData.Add(metaDataItem.Key, metaDataItem.Value); } } Core.ParseMetaData(m_MetaData, out m_Album, out m_Artist, out m_Title); } finally { m_Sources.Unlock(); } }
public void AddSource(byte[] id, long fileSize, string fileName, RIndexedHashtable<string, string> metaData, string comment, byte rating, byte[] sectorsMap) { if (id == null) throw new ArgumentNullException("id"); if (id.Length != 48) throw new ArgumentException(); if (fileSize < 0) throw new ArgumentOutOfRangeException("fileSize"); if (fileName == null) throw new ArgumentNullException("fileName"); if (metaData == null) throw new ArgumentNullException("metaData"); if (comment == null) throw new ArgumentNullException("comment"); if (rating > 3) throw new ArgumentOutOfRangeException("rating"); if (m_IsHashing) return; try { // 2007-06-14 T.Norad // set current time as last seen in this download m_LastSeen = DateTime.Now; m_Sources.Lock(); string idString = Core.ByteArrayToString(id); if (!m_Sources.ContainsKey(idString)) m_Sources.Add(idString, new Source(m_Sources, id, fileName, metaData, comment, rating, sectorsMap)); else m_Sources[idString].Report5354Received(fileName, metaData, comment, rating, sectorsMap); RIndexedHashtable<string, int> fileNames1 = new RIndexedHashtable<string, int>(); RIndexedHashtable<byte, int> ratings1 = new RIndexedHashtable<byte, int>(); foreach (Source source in m_Sources.Values) { if (!source.HasInformation) continue; if (!fileNames1.ContainsKey(source.FileName)) fileNames1.Add(source.FileName, 1); else fileNames1[source.FileName]++; if (!ratings1.ContainsKey(source.Rating)) ratings1.Add(source.Rating, 1); else ratings1[source.Rating]++; } RList<string> fileNames2 = new RList<string>(fileNames1.Keys); for (int n = 1; n <= fileNames2.Count - 1; n++) for (int m = 0; m < fileNames2.Count - n; m++) { if (fileNames1[fileNames2[m]] < fileNames1[fileNames2[m + 1]]) { string temp; temp = fileNames2[m]; fileNames2[m] = fileNames2[m + 1]; fileNames2[m + 1] = temp; } } fileNames2.Remove(string.Empty); if (!fileNames2.IsEmpty) { m_FileName = fileNames2[0]; } else { m_FileName = m_FileHashString; } RList<byte> ratings2 = new RList<byte>(ratings1.Keys); for (int n = 1; n <= ratings2.Count - 1; n++) for (int m = 0; m < ratings2.Count - n; m++) { if (ratings1[ratings2[m]] < ratings1[ratings2[m + 1]]) { byte temp; temp = ratings2[m]; ratings2[m] = ratings2[m + 1]; ratings2[m + 1] = temp; } } ratings2.Remove(0); if (!ratings2.IsEmpty) m_Rating = ratings2[0]; else m_Rating = 0; foreach (KeyValuePair<string, string> metaDataItem in metaData) if (!m_MetaData.ContainsKey(metaDataItem.Key)) m_MetaData.Add(metaDataItem.Key, metaDataItem.Value); Core.ParseMetaData(m_MetaData, out m_Album, out m_Artist, out m_Title); if (!m_HasInformation) { m_FileSize = fileSize; m_FileSizeString = Core.LengthToString(m_FileSize); m_Sectors = m_FileSize / 32768; m_SectorsMap = new byte[(m_Sectors / 8) + 1]; for (long n = m_Sectors + 1; n < m_SectorsMap.Length * 8; n++) m_SectorsMap[n / 8] |= (byte)(1 << ((int)n % 8)); FillWithZeros(); m_HasInformation = true; } } finally { m_Sources.Unlock(); } }
public void AddSource(byte[] id, string fileName, RIndexedHashtable<string, string> metaData, string comment, byte rating) { if (id == null) throw new ArgumentNullException("id"); if (id.Length != 48) throw new ArgumentException(); if (fileName == null) throw new ArgumentNullException("fileName"); if (metaData == null) throw new ArgumentNullException("metaData"); if (comment == null) throw new ArgumentNullException("comment"); if (rating > 3) throw new ArgumentOutOfRangeException("rating"); try { m_Sources.Lock(); string idString = Core.ByteArrayToString(id); if (!m_Sources.ContainsKey(idString)) m_Sources.Add(idString, new Source(m_Sources, id, fileName, metaData, comment, rating)); else m_Sources[idString].ReportReceived(fileName, comment, rating); RIndexedHashtable<string, int> fileNames1 = new RIndexedHashtable<string, int>(); RIndexedHashtable<byte, int> ratings1 = new RIndexedHashtable<byte, int>(); foreach (Source source in m_Sources.Values) { if (!fileNames1.ContainsKey(source.FileName)) fileNames1.Add(source.FileName, 1); else fileNames1[source.FileName]++; if (!ratings1.ContainsKey(source.Rating)) ratings1.Add(source.Rating, 1); else ratings1[source.Rating]++; } RList<string> fileNames2 = new RList<string>(fileNames1.Keys); for (int n = 1; n <= fileNames2.Count - 1; n++) for (int m = 0; m < fileNames2.Count - n; m++) { if (fileNames1[fileNames2[m]] < fileNames1[fileNames2[m + 1]]) { string temp; temp = fileNames2[m]; fileNames2[m] = fileNames2[m + 1]; fileNames2[m + 1] = temp; } } m_FileName = fileNames2[0]; RList<byte> ratings2 = new RList<byte>(ratings1.Keys); for (int n = 1; n <= ratings2.Count - 1; n++) for (int m = 0; m < ratings2.Count - n; m++) { if (ratings1[ratings2[m]] < ratings1[ratings2[m + 1]]) { byte temp; temp = ratings2[m]; ratings2[m] = ratings2[m + 1]; ratings2[m + 1] = temp; } } ratings2.Remove(0); if (!ratings2.IsEmpty) m_Rating = ratings2[0]; else m_Rating = 0; foreach (KeyValuePair<string, string> metaDataItem in metaData) if (!m_MetaData.ContainsKey(metaDataItem.Key)) m_MetaData.Add(metaDataItem.Key, metaDataItem.Value); Core.ParseMetaData(m_MetaData, out m_Album, out m_Artist, out m_Title); } finally { m_Sources.Unlock(); } }
public void RListTest() { RList rl = new RList(); rl.Mode.Should().Be(RMode.List); rl.Should().BeEmpty(); var e = rl.GetEnumerator(); e.Should().NotBeNull(); e.MoveNext().Should().BeFalse(); RObject rv = new RVector <RNumber>(RMode.Numeric, 1); var rs = new RString("abc"); rl.Add(rs, rv); rl.Should().HaveCount(1); var e1 = rl.Keys.GetEnumerator(); e1.MoveNext(); e1.Current.Should().Be(rs); e1.Current.Should().Be(new RString("abc")); var e2 = rl.Values.GetEnumerator(); e2.MoveNext(); e2.Current.Should().Be(rv); rl.ContainsKey(rs).Should().BeTrue(); rl.ContainsKey(new RString("abc")).Should().BeTrue(); rl.Contains(new KeyValuePair <RString, RObject>(rs, rv)).Should().BeTrue(); var arr = new KeyValuePair <RString, RObject> [2]; rl.CopyTo(arr, 1); arr[1].Key.Should().Be(rs); arr[1].Value.Should().Be(rv); rl[rs].Should().Be(rv); rl.IsReadOnly.Should().BeFalse(); RObject u; rl.TryGetValue(rs, out u).Should().BeTrue(); var en = rl.GetEnumerator(); en.Should().NotBeNull(); en.MoveNext().Should().BeTrue(); en.Current.Key.Should().Be(rs); en.Current.Value.Should().Be(rv); en.MoveNext().Should().BeFalse(); IEnumerator <RObject> en1 = ((IEnumerable <RObject>)rl).GetEnumerator(); en1.Should().NotBeNull(); en1.MoveNext().Should().BeTrue(); en1.Current.Should().Be(rv); en1.MoveNext().Should().BeFalse(); IEnumerator <KeyValuePair <RString, RObject> > en2 = ((IEnumerable <KeyValuePair <RString, RObject> >)rl).GetEnumerator(); en2.Should().NotBeNull(); en2.MoveNext().Should().BeTrue(); en2.Current.Key.Should().Be(rs); en2.Current.Value.Should().Be(rv); en2.MoveNext().Should().BeFalse(); IEnumerator en3 = ((IEnumerable)rl).GetEnumerator(); en3.Should().NotBeNull(); en3.MoveNext().Should().BeTrue(); en3.MoveNext().Should().BeFalse(); rl.Remove(rs).Should().BeTrue(); rl.Should().BeEmpty(); rl.ContainsKey(rs).Should().BeFalse(); rl.Add(new KeyValuePair <RString, RObject>(new RString("x"), new RLogical(true))); rl.Length.Should().Be(1); rl.Count.Should().Be(1); rl.Clear(); rl.Length.Should().Be(0); rl.Count.Should().Be(0); rl.TryGetValue(rs, out u).Should().BeFalse(); u.Should().BeNull(); }
public SearchDBManager(string fileName) { m_FilePath = fileName; m_CleanUpDays = int.Parse(m_Settings["SearchDBCleanUpDays"]); m_SearchDBThread = new Thread(delegate() { try { Core.SetUILanguage(); while (!m_IsClosing && m_ErrorCounter < 10) { //Move buffers to normal list try { m_SearchesToStartBuffer.Lock(); m_SearchesToStart.Lock(); foreach (SearchDBManager.SearchToStart newSearch in m_SearchesToStartBuffer) { if (!m_SearchesToStart.Contains(newSearch)) { m_SearchesToStart.Add(newSearch); } } } catch (Exception ex) { m_Logger.Log(ex, "SearchDBManager: An error was thrown while reading the SearchesToStartBuffer.", new object[] { }); } finally { m_SearchesToStartBuffer.Clear(); m_SearchesToStart.Unlock(); m_SearchesToStartBuffer.Unlock(); } try { m_ResultsToAddBuffer.Lock(); m_ResultsToAdd.Lock(); foreach (Command23.SearchResult result in m_ResultsToAddBuffer) { if (!m_ResultsToAdd.Contains(result)) { m_ResultsToAdd.Add(result); } } } catch (Exception ex) { m_Logger.Log(ex, "SearchDBManager: An error was thrown while reading the ResultsToAddBuffer.", new object[] { }); } finally { m_ResultsToAddBuffer.Clear(); m_ResultsToAdd.Unlock(); m_ResultsToAddBuffer.Unlock(); } //Because we are only comparing dates, it is only necessary to compare them once a day bool cleanUp = false; if (((TimeSpan)DateTime.Now.Subtract(m_LastCleanUp)).Days >= 1) { //CleanUp(); cleanUp = true; } //The current entry long lastKnownValidFilePosition = 0; //The entry before long lastKnownValidFilePosition2 = 0; ulong fileSizeOfEntries = 0; long cleanedUpCounter = 0; long resultCounter = 0; FileStream fileStream = null; BinaryReader fileReader = null; BinaryWriter fileWriter = null; MemoryStream memoryStream = null; BinaryReader memoryReader = null; BinaryWriter memoryWriter = null; try { m_ResultsToAdd.Lock(); m_SearchesToStart.Lock(); m_SearchResultsBuffer.Lock(); //Check if there is something to do if (m_ResultsToAdd.Count > 0 || m_SearchesToStart.Count > 0 || cleanUp) { fileStream = new FileStream(m_FilePath, FileMode.OpenOrCreate, FileAccess.ReadWrite); fileReader = new BinaryReader(fileStream, Encoding.Unicode); fileWriter = new BinaryWriter(fileStream, Encoding.Unicode); memoryStream = new MemoryStream(); memoryReader = new BinaryReader(memoryStream, Encoding.Unicode); memoryWriter = new BinaryWriter(memoryStream, Encoding.Unicode); long fileLength = fileReader.BaseStream.Length; int fileFlushCounter = 0; long fileReadPosition = 0; long fileWritePosition = 0; bool insertingData = false; bool isFirstChangedEntry = true; //Add a array for the results of each search foreach (SearchToStart searchToStart in m_SearchesToStart) { m_SearchResultsBuffer.Add(searchToStart.SearchID, new RIndexedHashtable <string, OldSearchResult>()); } //Go through the file while (fileReadPosition < fileLength) { bool isOld = false; long firstPositionOfThisEntry = fileReadPosition; lastKnownValidFilePosition2 = lastKnownValidFilePosition; lastKnownValidFilePosition = fileReadPosition; //Read the next entry byte[] rFileHash = fileReader.ReadBytes(64); long rFileSize = fileReader.ReadInt64(); int rFileNameCount = fileReader.ReadInt32(); string[] rFileNames = new string[rFileNameCount]; for (int i = 0; i < rFileNameCount; i++) { rFileNames[i] = fileReader.ReadString(); } string rAlbum = fileReader.ReadString(); string rArtist = fileReader.ReadString(); string rTitle = fileReader.ReadString(); byte rRating = fileReader.ReadByte(); //Save the position of the date long datePosition = fileReader.BaseStream.Position; string rDate = fileReader.ReadString(); //Save the beginning of the next entry fileReadPosition = fileReader.BaseStream.Position; resultCounter++; //Check if this entry is a result to a search for (int i = 0; i < m_SearchesToStart.Count; i++) { string[] searchPattern = m_SearchesToStart[i].Pattern.ToLower().Split(new char[] { ' ' });; //Remove all small patterns RList <string> patterns = new RList <string>(); for (int k = 0; k < searchPattern.Length; k++) { if (searchPattern[k].Length >= 3) { patterns.Add(searchPattern[k]); } } bool isResult = false; int fileNameNumber = 0; for (int j = 0; j < patterns.Count; j++) { //Check all filenames of this entry for (int k = 0; k < rFileNames.Length; k++) { if (rFileNames[k].ToLower().Contains(patterns[j])) { fileNameNumber = k; isResult = true; } } //Check the metadata of this entry if (!isResult) { if (rAlbum.ToLower().Contains(patterns[j])) { isResult = true; } else if (rArtist.ToLower().Contains(patterns[j])) { isResult = true; } else if (rTitle.ToLower().Contains(patterns[j])) { isResult = true; } } //if this is no result for this part of the searchpattern, //we can stop, because there shall be only results with all //parts of the searchpattern. if (isResult == false) { break; } //Reset isResult for the next part of the searchpattern if (j != patterns.Count - 1) { isResult = false; } } if (isResult) { //Add this entry to the results of this search m_SearchResultsBuffer[m_SearchesToStart[i].SearchID].Add(Core.ByteArrayToString(rFileHash), new OldSearchResult(rFileHash, rFileSize, rFileNames[fileNameNumber], rAlbum, rArtist, rTitle, rRating, DateTime.Parse(rDate))); } } bool updateDate = false; int[] indexOfResultsToRemove = new int[0]; //Check if a new result is equal to this entry for (int i = 0; i < m_ResultsToAdd.Count; i++) { //Compare the hashes if (Core.CompareByteArray(rFileHash, m_ResultsToAdd[i].FileHash)) { //It exists already updateDate = true; int[] tempArray1 = new int[indexOfResultsToRemove.Length + 1]; for (int j = 0; j < indexOfResultsToRemove.Length; j++) { tempArray1[j] = indexOfResultsToRemove[j]; } tempArray1[indexOfResultsToRemove.Length] = i; indexOfResultsToRemove = tempArray1; //Check the filenames bool fileNameExists = false; for (int k = 0; k < rFileNames.Length; k++) { if (rFileNames[k] == m_ResultsToAdd[i].FileName) { fileNameExists = true; break; } } if (!fileNameExists) { //The filename is new -> add it insertingData = true; string[] tempArray = new string[rFileNameCount + 1]; for (int k = 0; k < rFileNameCount; k++) { tempArray[k] = rFileNames[k]; } tempArray[rFileNameCount] = m_ResultsToAdd[i].FileName; rFileNames = tempArray; rFileNameCount++; } } } if (updateDate) { //Update the date rDate = DateTime.Now.ToString(m_DateFormatString); //Remove the new result from the list, because it exists RList <Command23.SearchResult> tempRemoveList = new RList <Command23.SearchResult>(); for (int i = 0; i < m_ResultsToAdd.Count; i++) { bool addIt = false; for (int k = 0; k < indexOfResultsToRemove.Length; k++) { if (i == indexOfResultsToRemove[k]) { addIt = true; } } if (addIt) { tempRemoveList.Add(m_ResultsToAdd[i]); } } foreach (Command23.SearchResult r in tempRemoveList) { m_ResultsToAdd.Remove(r); } //Check if we can update the date directly in the file if (!insertingData) { //Write the new date to the file fileWriter.BaseStream.Position = datePosition; fileWriter.Write(rDate); fileWriter.Flush(); fileReader.BaseStream.Position = fileReadPosition; } } //Check the date if we are cleaning up if (cleanUp) { if (((TimeSpan)DateTime.Now.Subtract(DateTime.Parse(rDate))).Days > m_CleanUpDays) { isOld = true; insertingData = true; cleanedUpCounter++; } else { fileSizeOfEntries += (ulong)rFileSize; } } else { fileSizeOfEntries += (ulong)rFileSize; } //Check if we have to insert data to the file if (insertingData) { if (isFirstChangedEntry) { //Here we have to beginn writing fileWritePosition = firstPositionOfThisEntry; isFirstChangedEntry = false; } if (!isOld) { fileFlushCounter++; //Write the entry to the buffer memoryWriter.Write(rFileHash); memoryWriter.Write(rFileSize); memoryWriter.Write(rFileNameCount); for (int i = 0; i < rFileNameCount; i++) { memoryWriter.Write(rFileNames[i]); } memoryWriter.Write(rAlbum); memoryWriter.Write(rArtist); memoryWriter.Write(rTitle); memoryWriter.Write(rRating); memoryWriter.Write(rDate); //if the buffer is big enough or we reached the end of the file, write the buffe to the file if (fileFlushCounter == 10000 || fileReadPosition >= fileLength) { fileFlushCounter = 0; memoryWriter.Flush(); memoryReader.BaseStream.Position = 0; fileWriter.BaseStream.Position = fileWritePosition; long memoryLength = memoryReader.BaseStream.Length; long spaceInFile = fileReadPosition - fileWritePosition; //write only as much as space and data we have while (memoryReader.BaseStream.Position < spaceInFile && memoryReader.BaseStream.Position < memoryLength) { fileWriter.Write(memoryReader.ReadByte()); } fileWriter.Flush(); //Reconfigure the filewriter/reader fileWritePosition = fileWriter.BaseStream.Position; fileReader.BaseStream.Position = fileReadPosition; //Write the rest of the data in the buffer to the beginning of the buffer long memoryReaderPosition = memoryReader.BaseStream.Position; long memoryWriterPosition = 0; while (memoryReaderPosition < memoryLength) { memoryReader.BaseStream.Position = memoryReaderPosition; byte b = memoryReader.ReadByte(); memoryReaderPosition = memoryReader.BaseStream.Position; memoryWriter.BaseStream.Position = memoryWriterPosition; memoryWriter.Write(b); memoryWriterPosition = memoryWriter.BaseStream.Position; } memoryWriter.Flush(); memoryWriter.BaseStream.SetLength(memoryWriterPosition); } } } } if (insertingData) { //write the rest of the memorystream to the file. fileWriter.BaseStream.Position = fileWritePosition; long mlength = memoryReader.BaseStream.Length; memoryReader.BaseStream.Position = 0; while (memoryReader.BaseStream.Position < mlength) { fileWriter.Write(memoryReader.ReadByte()); } fileWriter.Flush(); } if (cleanUp) { m_Logger.Log(Properties.Resources_Core.CleanSearchDatabase, new object[] { cleanedUpCounter, resultCounter }); resultCounter -= cleanedUpCounter; m_LastCleanUpCount = cleanedUpCounter; } //Add the new results to the file //The position of the filestream points already to the end RIndexedHashtable <string, NewSearchResult> resultsToAdd = new RIndexedHashtable <string, NewSearchResult>(); foreach (Command23.SearchResult result in m_ResultsToAdd) { string fileHashString = Core.ByteArrayToString(result.FileHash); if (resultsToAdd.ContainsKey(fileHashString)) { resultsToAdd[fileHashString].AddFileName(result.FileName); } else { resultsToAdd.Add(fileHashString, new NewSearchResult(result)); } } foreach (NewSearchResult newResult in resultsToAdd.Values) { fileWriter.Write(newResult.FileHash); fileWriter.Write(newResult.FileSize); int fileNameCount = newResult.FileNames.Length; fileWriter.Write(fileNameCount); for (int i = 0; i < fileNameCount; i++) { fileWriter.Write(newResult.FileNames[i]); } fileWriter.Write(newResult.Album); fileWriter.Write(newResult.Artist); fileWriter.Write(newResult.Title); fileWriter.Write(newResult.Rating); fileWriter.Write(DateTime.Now.ToString(m_DateFormatString)); resultCounter++; fileSizeOfEntries += (ulong)newResult.FileSize; } fileWriter.Flush(); //Clear the lists m_ResultsToAdd.Clear(); m_SearchesToStart.Clear(); //Set the correct end of the file if (insertingData) { fileWriter.BaseStream.SetLength(fileWriter.BaseStream.Position); } if (cleanUp) { m_LastCleanUp = DateTime.Now; } //Update information m_ResultCount = resultCounter; m_FileSize = fileStream.Length; m_FileSizeOfEntries = fileSizeOfEntries; fileReader.Close(); fileWriter.Close(); fileStream.Close(); memoryReader.Close(); memoryWriter.Close(); memoryStream.Close(); } } catch (Exception ex) { //Update information m_ResultCount = resultCounter; m_FileSize = fileStream.Length; m_FileSizeOfEntries = fileSizeOfEntries; m_ErrorCounter++; m_Logger.Log(ex, "An exception was thrown in searchDBThread! (#{0})", new object[] { m_ErrorCounter }); try { fileStream.SetLength(lastKnownValidFilePosition2); m_Logger.Log("Searchdatabase cutted to the entry bofore the last known valid entry. ({0} Bytes remaining)", new object[] { lastKnownValidFilePosition }); m_FileSize = lastKnownValidFilePosition2; m_ResultCount = resultCounter - cleanedUpCounter; m_FileSizeOfEntries = fileSizeOfEntries; } catch { try { if (File.Exists(m_FilePath)) { File.Delete(m_FilePath); m_Logger.Log("Searchdatabase deleted, because it was probably corrupt.", new object[] { }); m_FileSize = 0; m_ResultCount = 0; m_FileSizeOfEntries = 0; } } catch { } } } finally { m_ResultsToAdd.Unlock(); m_SearchesToStart.Unlock(); m_SearchResultsBuffer.Unlock(); if (fileReader != null) { fileReader.Close(); } if (fileWriter != null) { fileWriter.Close(); } if (fileStream != null) { fileStream.Close(); } if (memoryReader != null) { memoryReader.Close(); } if (memoryWriter != null) { memoryWriter.Close(); } if (memoryStream != null) { memoryStream.Close(); } } //Move buffer to normal list try { m_SearchResultsBuffer.Lock(); m_SearchResults.Lock(); for (int i = 0; i < m_SearchResultsBuffer.Count; i++) { if (!m_SearchResults.ContainsKey(((System.Collections.Generic.KeyValuePair <string, RIndexedHashtable <string, OldSearchResult> >)m_SearchResultsBuffer[i]).Key)) { m_SearchResults.Add(((System.Collections.Generic.KeyValuePair <string, RIndexedHashtable <string, OldSearchResult> >)m_SearchResultsBuffer[i]).Key, ((System.Collections.Generic.KeyValuePair <string, RIndexedHashtable <string, OldSearchResult> >)m_SearchResultsBuffer[i]).Value); } } } catch (Exception ex) { m_Logger.Log(ex, "SearchDBManager: An error was thrown while reading the SearchResultsBuffer.", new object[] { }); } finally { m_SearchResultsBuffer.Clear(); m_SearchResults.Unlock(); m_SearchResultsBuffer.Unlock(); } Thread.Sleep(1000); } } catch (Exception ex) { m_Logger.Log(ex, "An exception was thrown in searchDBThread!", new object[] { }); } m_Logger.Log("SearchDBManager closed.", new object[] { }); }); m_SearchDBThread.Name = "searchDBThread"; m_SearchDBThread.IsBackground = true; m_SearchDBThread.Priority = ThreadPriority.Lowest; m_SearchDBThread.Start(); }