public override void ReadIndex()
{
ReadEntries();
if (mEntries != null)
{
int numFiles = mEntries.GetUpperBound(0) + 1;
mFileCount = numFiles;
if (IsValidIndex)
{
Files = new BF.File[numFiles];
for (int i = 0; i < numFiles; i++)
{
BF.File tFile = new BF.File(mParentBigFile, this, mEntries[i], mNameHashPosition, mOffsetPosition, mLengthPosition);
Files[i] = tFile;
if (i > 0)
{
Files[i - 1].Length = (int)(Files[i].Offset - Files[i - 1].Offset);
}
if (i == (numFiles - 1))
{
Files[i].Length = (int)(mParentBigFile.FileSize - Files[i].Offset);
}
if (i > 0)
{
mLoadedPercent = (((float)i / (float)numFiles) * READ_CONTENT_PERCENT) + READ_INDEX_PERCENT;
}
}
}
}
else
{
mFileCount = 0;
}
}
protected int GetEndOfIndex(BF.File checkFile)
{
int endOfIndexOffset = 0;
FileStream iStream;
BinaryReader iReader;
try
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset, SeekOrigin.Begin);
//read the count of entries in the index for this file
int numEntries = iReader.ReadUInt16();
endOfIndexOffset = (numEntries * mIndexEntryLength)
- ((numEntries * mIndexEntryLength) % mIndexBlockSize)
+ mIndexBlockSize;
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
return(endOfIndexOffset);
}
public override void ReadIndex()
{
mEntryOffsets = new List <int>();
mFileHashedNames = new List <string>();
mFileOffsets = new List <int>();
mFileLengths = new List <int>();
ReadEntries();
int numFiles = mEntries.GetUpperBound(0) + 1;
mFileCount = numFiles;
if (IsValidIndex)
{
Files = new BF.File[numFiles];
for (int i = 0; i < numFiles; i++)
{
BF.File tFile = new BF.BloodOmen2WrappedFile(mParentBigFile, this, mEntries[i], mFileHashedNames[i], mFileOffsets[i], mFileLengths[i]);
Files[i] = tFile;
if (i > 0)
{
mLoadedPercent = (((float)i / (float)numFiles) * READ_CONTENT_PERCENT) + READ_INDEX_PERCENT;
}
}
}
mEntryOffsets = null;
mFileHashedNames = null;
mFileOffsets = null;
mFileLengths = null;
}
protected int GetRealHeaderLocation(BF.File checkFile)
{
int headerLocation = 0;
FileStream iStream;
BinaryReader iReader;
try
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset + mPointerOffset, SeekOrigin.Begin);
//Read the number of bytes to jump ahead
int numBytes = iReader.ReadUInt16();
headerLocation = numBytes + mPointerOffset;
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
return(headerLocation);
}
public override string GetInternalName(BF.File checkFile)
{
return("");
int nameOffset = mNameOffset;
string internalName = "";
Stream iStream;
BinaryReader iReader;
try
{
if (checkFile.GetType() == typeof(CompressedFile))
{
iStream = new MemoryStream(checkFile.Length);
CompressedFile compressedCheckFile = (CompressedFile)checkFile;
compressedCheckFile.ExportToStream(iStream);
iStream.Seek(0, SeekOrigin.Begin);
iReader = new BinaryReader(iStream);
iStream.Seek(nameOffset, SeekOrigin.Begin);
}
else
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iStream.Seek(checkFile.Offset, SeekOrigin.Begin);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset + nameOffset, SeekOrigin.Begin);
}
byte[] nameBuffer = sanitizeByteArray(iReader.ReadBytes(8), (byte)95);
internalName = new string(Encoding.ASCII.GetChars(nameBuffer, 0, 8));
internalName = internalName.Trim(new char[] { (char)'_' });
internalName = internalName.ToLower();
//String strModelName = new String(iReader.ReadChars(10)); // Need to check
//try
//{
// internalName = strModelName.Substring(0, strModelName.IndexOf('\0'));
//}
//catch
//{
// internalName = strModelName;
//}
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
return(internalName);
}
public void AddFile(BF.File whichFile)
{
if (mFilenames.Contains(whichFile.Name + "." + whichFile.FileExtension))
{
whichFile.Name = GetNextUnusedName(mFilenames, whichFile);
}
mFiles.Add(whichFile);
mFilenames.Add(whichFile.Name + "." + whichFile.FileExtension, mFiles.Count - 1);
}
//for sorting
public int CompareTo(object compObj)
{
if (!(compObj is BF.File))
{
throw new InvalidCastException("Can't compare BigFile File class with other classes.");
}
BF.File compFile = (BF.File)compObj;
return(this.Name.CompareTo(compFile.Name));
}
protected string GetSelectedItemInfo(TreeView tv)
{
string fullPath = tv.SelectedNode.FullPath;
int padLength = tv.Nodes[0].FullPath.Length;
fullPath = fullPath.Substring(padLength);
//return nothing if nothing is selected
if (tv.SelectedNode == null)
{
//MessageBox.Show("No item is currently selected", "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
DisableExportCurrent();
DisableExportDirectory();
DisableReplace();
DisableHexEdit();
return(null);
}
if ((mTVLookupTable != null) && (fullPath.Trim() != "") && (mTVLookupTable.Contains(fullPath)) && (tv.SelectedNode.GetNodeCount(false) == 0))
{
//a file is selected
BF.File selectedFile = (BF.File)mTVLookupTable[fullPath];
EnableExportCurrent();
DisableExportDirectory();
if ((selectedFile != null) && (selectedFile.CanBeReplaced))
{
EnableReplace();
EnableHexEdit();
}
else
{
DisableReplace();
DisableHexEdit();
}
return(selectedFile.GetInfo());
}
else
{
//a node is selected, so either return information about the entire bigfile or the currently-selected
//directory
DisableExportCurrent();
EnableExportDirectory();
DisableReplace();
DisableHexEdit();
if (fullPath.Contains("\\"))
{
BF.Directory selectedDir = (BF.Directory)mTVLookupTable[fullPath + "\\"];
return(selectedDir.GetInfo());
}
else
{
return(mBigFile.GetInfo());
}
}
return(null);
}
public override string GetInternalName(BF.File checkFile)
{
int endOfIndexOffset = GetEndOfIndex(checkFile);
int nameOffset = mNameOffset;
string internalName = "";
FileStream iStream;
BinaryReader iReader;
if (NameOffsetIsPointer)
{
try
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset + endOfIndexOffset + nameOffset, SeekOrigin.Begin);
nameOffset = iReader.ReadUInt16();
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
}
try
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset + endOfIndexOffset + nameOffset, SeekOrigin.Begin);
byte[] nameBuffer = sanitizeByteArray(iReader.ReadBytes(8), (byte)95);
internalName = new string(Encoding.ASCII.GetChars(nameBuffer, 0, 8));
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
return(internalName);
}
protected string GetNextUnusedName(Hashtable currentList, BF.File currentFile)
{
int number = 0;
string newName = currentFile.Name;
do
{
newName = currentFile.Name + "-duplicate-" + string.Format("{0:000}", number);
number++;
} while (currentList.Contains(newName + "." + currentFile.FileExtension));
return(newName);
}
public override void ReadIndex()
{
ReadEntries();
int numFiles = mEntries.GetUpperBound(0) + 1;
Files = new BF.File[numFiles];
for (int i = 0; i < numFiles; i++)
{
BF.File tFile = new BF.File(mParentBigFile, this, mEntries[i], mHashes[i], mOffsetPosition, mLengthPosition);
Files[i] = tFile;
if (i > 0)
{
mLoadedPercent = (((float)i / numFiles) * READ_CONTENT_PERCENT) + READ_INDEX_PERCENT;
}
}
}
public override bool CheckType(BF.File checkFile)
{
byte[] hashedNameBytes = BLD.HexConverter.HexStringToBytes(checkFile.HashedName);
if ((hashedNameBytes[hashedNameBytes.Length - 1] & 7) != 0)
{
return(false);
}
try
{
int realHeaderLocation = GetRealHeaderLocation(checkFile);
return(CompareHeaders(checkFile, realHeaderLocation));
}
catch (Exception e)
{
return(false);
}
}
protected BF.File GetSelectedFile(TreeView tv)
{
//return nothing if nothing is selected
if (tv.SelectedNode == null)
{
return(null);
}
string fullPath = tv.SelectedNode.FullPath;
int padLength = tv.Nodes[0].FullPath.Length;
fullPath = fullPath.Substring(padLength);
if (tv.SelectedNode.GetNodeCount(false) == 0)
{
//a file is selected
BF.File selectedFile = (BF.File)mTVLookupTable[fullPath];
return(selectedFile);
}
return(null);
}
public override void ReadIndex()
{
ReadEntries();
int numFiles = mEntries.GetUpperBound(0) + 1;
Files = new BF.File[numFiles];
for (int i = 0; i < numFiles; i++)
{
BF.File tFile;
if (mEntries[i][mCompressedLengthPosition] > 0)
{
tFile = new BF.SR1Proto1CompressedFile(mParentBigFile, this, mEntries[i], mNameHashPosition, mOffsetPosition, mLengthPosition, mCompressedLengthPosition);
}
else
{
tFile = new BF.File(mParentBigFile, this, mEntries[i], mNameHashPosition, mOffsetPosition, mLengthPosition);
}
Files[i] = tFile;
if (i > 0)
{
mLoadedPercent = (((float)i / (float)numFiles) * READ_CONTENT_PERCENT) + READ_INDEX_PERCENT;
}
}
}
public void LoadFile(string fileName, CDBigFile.File editFile, bool useStreamingMode)
{
mBigFilePath = fileName;
mEditFile = editFile;
hpHex.Read(fileName, editFile.Offset, editFile.Length, useStreamingMode);
}
public override bool CheckType(BF.File checkFile)
{
int realHeaderLocation = GetRealHeaderLocation(checkFile);
return(CompareHeaders(checkFile, realHeaderLocation + mHeaderOffset));
}
//in this generic class, a type match is always true
public virtual bool CheckType(BF.File checkFile)
{
return(true);
}
//very few subclasses will implement this, but it is handy
public virtual string GetInternalName(BF.File checkFile)
{
return("");
}
public virtual bool CompareHeaders(BF.File checkFile, int offset)
{
bool matchFound = true;
//if the header data has already been read into the file, use its copy
if (offset == 0)
{
if (mHeader.GetUpperBound(0) > checkFile.RawHeaderData.GetUpperBound(0))
{
return(false);
}
for (int i = 0; i <= mHeader.GetUpperBound(0); i++)
{
if (mHeader[i] != checkFile.RawHeaderData[i])
{
matchFound = false;
}
}
}
//otherwise read the appropriate bytes
else
{
if ((offset + mHeader.GetUpperBound(0) > checkFile.Length))
{
return(false);
}
byte[] headerFromFile = new byte[mHeader.GetUpperBound(0) + 1];
FileStream iStream;
BinaryReader iReader;
try
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iReader = new BinaryReader(iStream);
iStream.Seek(checkFile.Offset + offset, SeekOrigin.Begin);
//read as many bytes as the header should hold
iStream.Read(headerFromFile, 0, headerFromFile.GetUpperBound(0) + 1);
for (int i = 0; i <= headerFromFile.GetUpperBound(0); i++)
{
if (mHeader[i] != headerFromFile[i])
{
matchFound = false;
}
}
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
}
return(matchFound);
}
public override bool CheckType(BF.File checkFile)
{
return(CompareHeaders(checkFile, mHeaderOffset));
}
public override bool CheckType(BF.File checkFile)
{
int endOfIndexOffset = GetEndOfIndex(checkFile);
return(CompareHeaders(checkFile, endOfIndexOffset + mHeaderOffset));
}
protected int GetRealHeaderLocation(BF.File checkFile)
{
int headerLocation = 0;
Stream iStream;
BinaryReader iReader;
try
{
if (checkFile.GetType() == typeof(CompressedFile))
{
iStream = new MemoryStream(checkFile.Length);
CompressedFile compressedCheckFile = (CompressedFile)checkFile;
compressedCheckFile.ExportToStream(iStream);
iStream.Seek(0, SeekOrigin.Begin);
}
else
{
iStream = new FileStream(checkFile.ParentBigFile.Path, FileMode.Open, FileAccess.Read);
iStream.Seek(checkFile.Offset, SeekOrigin.Begin);
}
iReader = new BinaryReader(iStream);
Int32 nameOffsetLocation = 0;
Int32 nameOffset = 0;
UInt32 startPosition = (UInt32)iReader.BaseStream.Position;
UInt32 bytesRead = 0;
RelativeStream relStream = new RelativeStream(iReader, startPosition);
relStream.Pos = 0;
relStream.Pos += 0x04;
UInt32 regionCount = iReader.ReadUInt32();
// AMF 02/08/14 - 500 seemed like a reasonable maximum
if (regionCount > 500)
{
throw new Exception("Too many regions to scan.");
}
UInt32 regionPosition = 0;
UInt32[] regionSizes = new UInt32[regionCount];
UInt32[] regionPositions = new UInt32[regionCount];
UInt32[] objectDataSizes = new UInt32[regionCount];
UInt32[] objectDataPositions = new UInt32[regionCount];
for (UInt32 r = 0; r < regionCount; r++)
{
regionSizes[r] = iReader.ReadUInt32();
regionPositions[r] = regionPosition;
regionPosition += regionSizes[r];
relStream.Pos += 0x08;
}
UInt32 regionDataSize = regionCount * 0x0C;
UInt32 pointerDataPosition = (regionDataSize & 0x00000003) + ((regionDataSize + 0x17) & 0xFFFFFFF0);
for (UInt32 r = 0; r < regionCount; r++)
{
relStream.Pos = pointerDataPosition;
UInt32 pointerCount = iReader.ReadUInt32();
UInt32 pointerDataSize = pointerCount * 0x04;
UInt32 objectDataPosition = pointerDataPosition + ((pointerDataSize + 0x13) & 0xFFFFFFF0);
UInt32 objectDataSize = (regionSizes[r] + 0x0F) & 0xFFFFFFF0;
objectDataSizes[r] = objectDataSize;
objectDataPositions[r] = objectDataPosition;
relStream.Pos = objectDataPosition;
Byte[] objectData = iReader.ReadBytes((Int32)objectDataSize);
bytesRead += objectDataSize;
if (headerLocation == 0 && bytesRead >= mHeaderOffset)
{
Int64 overshot = (Int64)iReader.BaseStream.Position - (Int32)objectDataSize;
overshot += (Int64)mHeaderOffset;
headerLocation = ((Int32)overshot) - ((Int32)startPosition + 0x04);
}
if (nameOffsetLocation == 0 && bytesRead >= mNamePointerOffset)
{
Int64 overshot = (Int64)iReader.BaseStream.Position - (Int32)objectDataSize;
overshot += (Int64)mNamePointerOffset;
nameOffsetLocation = ((Int32)overshot) - ((Int32)startPosition + 0x04);
}
relStream.Pos = pointerDataPosition + 0x04;
UInt32[] pointers = new UInt32[pointerCount];
for (UInt32 p = 0; p < pointerCount; p++)
{
pointers[p] = iReader.ReadUInt32();
}
UInt32[] addresses = new UInt32[pointerCount];
for (UInt32 p = 0; p < pointerCount; p++)
{
relStream.Pos = objectDataPosition + pointers[p];
bool readingNameOffset = (relStream.Pos == nameOffsetLocation);
UInt32 value1 = iReader.ReadUInt32();
UInt32 value2 = value1 & 0x003FFFFF;
UInt32 value3 = value1 >> 0x16;
pointers[p] += regionPositions[r];
addresses[p] = regionPositions[value3] + value2;
if (readingNameOffset)
{
nameOffset = (Int32)addresses[p];
}
}
pointerDataPosition = objectDataPosition + objectDataSize;
if (headerLocation != 0 && nameOffsetLocation != 0)
{
break;
}
}
for (UInt32 r = 0; r < regionCount; r++)
{
if (nameOffset < (Int32)objectDataSizes[r])
{
nameOffset += (Int32)objectDataPositions[r];
break;
}
if (r == (regionCount - 1))
{
nameOffset = 0;
}
nameOffset -= (Int32)objectDataSizes[r];
}
mNameOffset = nameOffset;
iReader.Close();
iStream.Close();
}
catch (Exception ex)
{
throw new FileReadException
("Failed to read file " + Name + "\r\n" +
"The specific error message is: \r\n" +
ex.Message
);
}
return(headerLocation);
}