private void Read530Blocks(SmartStream dataStream)
{
if (Header.Flags.IsMetadataAtTheEnd())
{
dataStream.Position = Header.HeaderSize;
}
int cachedBlock = -1;
long dataOffset = dataStream.Position;
// If MemoryStream has compressed block then we need to create individual streams for each entry and copy its data into it
bool createIndividualStreams = dataStream.StreamType == SmartStreamType.Memory;
if (createIndividualStreams)
{
// find out if this bundle file has compressed blocks
foreach (BlockInfo block in Metadata.BlockInfos)
{
if (block.Flags.GetCompression() != BundleCompressType.None)
{
createIndividualStreams = true;
break;
}
}
}
using (SmartStream blockStream = SmartStream.CreateNull())
{
foreach (BundleFileEntry entry in Metadata.Entries.Values)
{
// find out block offsets
long blockCompressedOffset = 0;
long blockDecompressedOffset = 0;
int blockIndex = 0;
while (blockDecompressedOffset + Metadata.BlockInfos[blockIndex].DecompressedSize <= entry.Offset)
{
blockCompressedOffset += Metadata.BlockInfos[blockIndex].CompressedSize;
blockDecompressedOffset += Metadata.BlockInfos[blockIndex].DecompressedSize;
blockIndex++;
}
// if at least one block of this entry is compressed or acording to the rule above
// we should copy the data of current entry to a separate stream
bool needToCopy = createIndividualStreams;
if (!needToCopy)
{
// check if this entry has compressed blocks
long entrySize = 0;
for (int bi = blockIndex; entrySize < entry.Size; bi++)
{
if (Metadata.BlockInfos[bi].Flags.GetCompression() != BundleCompressType.None)
{
// it does. then we need to create individual stream and decomress its data into it
needToCopy = true;
break;
}
entrySize += Metadata.BlockInfos[bi].DecompressedSize;
}
}
long entryOffsetInsideBlock = entry.Offset - blockDecompressedOffset;
if (needToCopy)
{
// well, at leat one block is compressed so we should copy data of current entry to a separate stream
using (SmartStream entryStream = CreateStream(entry.Size))
{
long left = entry.Size;
dataStream.Position = dataOffset + blockCompressedOffset;
// copy data of all blocks used by current entry to new stream
for (int bi = blockIndex; left > 0; bi++)
{
long blockOffset = 0;
BlockInfo block = Metadata.BlockInfos[bi];
if (cachedBlock == bi)
{
// some data of previous entry is in the same block as this one
// so we don't need to unpack it once again. Instead we can use cached stream
dataStream.Position += block.CompressedSize;
}
else
{
BundleCompressType compressType = block.Flags.GetCompression();
switch (compressType)
{
case BundleCompressType.None:
blockOffset = dataOffset + blockCompressedOffset;
blockStream.Assign(dataStream);
break;
case BundleCompressType.LZMA:
blockStream.Move(CreateStream(block.DecompressedSize));
SevenZipHelper.DecompressLZMAStream(dataStream, block.CompressedSize, blockStream, block.DecompressedSize);
break;
case BundleCompressType.LZ4:
case BundleCompressType.LZ4HZ:
blockStream.Move(CreateStream(block.DecompressedSize));
using (Lz4DecodeStream lzStream = new Lz4DecodeStream(dataStream, block.CompressedSize))
{
long read = lzStream.Read(blockStream, block.DecompressedSize);
if (read != block.DecompressedSize || lzStream.IsDataLeft)
{
throw new Exception($"Read {read} but expected {block.DecompressedSize}");
}
}
break;
default:
throw new NotImplementedException($"Bundle compression '{compressType}' isn't supported");
}
cachedBlock = bi;
}
// consider next offsets:
// 1) block - if it is new stream then offset is 0, otherwise offset of this block in the bundle file
// 2) entry - if this is first block for current entry then it is offset of this entry related to this block
// otherwise 0
long fragmentSize = block.DecompressedSize - entryOffsetInsideBlock;
blockStream.Position = blockOffset + entryOffsetInsideBlock;
entryOffsetInsideBlock = 0;
long size = Math.Min(fragmentSize, left);
blockStream.CopyStream(entryStream, size);
blockCompressedOffset += block.CompressedSize;
left -= size;
}
if (left < 0)
{
throw new Exception($"Read more than expected");
}
FileEntryOffset feOffset = new FileEntryOffset(entryStream.CreateReference(), 0);
m_entryStreams.Add(entry, feOffset);
}
}
else
{
// no compressed blocks was found so we can use original bundle stream
// since FileEntry.Offset contains decompressedOffset we need to preliminarily subtract it
FileEntryOffset feOffset = new FileEntryOffset(dataStream.CreateReference(), dataOffset + blockCompressedOffset + entryOffsetInsideBlock);
m_entryStreams.Add(entry, feOffset);
}
}
}
}
private void Read530Blocks(SmartStream bundleStream, BlockInfo[] blockInfos)
{
int cachedBlock = -1;
long dataOffset = bundleStream.Position;
BundleFileEntry[] newEntries = new BundleFileEntry[Metadata.Entries.Count];
using (SmartStream blockStream = SmartStream.CreateNull())
{
for (int ei = 0; ei < Metadata.Entries.Count; ei++)
{
BundleFileEntry entry = Metadata.Entries[ei];
// find block corresponding to current entry
int blockIndex = 0;
long compressedOffset = 0;
long decompressedOffset = 0;
while (true)
{
BlockInfo block = blockInfos[blockIndex];
if (decompressedOffset + block.DecompressedSize > entry.Offset)
{
break;
}
blockIndex++;
compressedOffset += block.CompressedSize;
decompressedOffset += block.DecompressedSize;
}
// check does this entry use any compressed blocks
long entrySize = 0;
bool isCompressed = false;
for (int bi = blockIndex; entrySize < entry.Size; bi++)
{
BlockInfo block = blockInfos[bi];
entrySize += block.DecompressedSize;
if (block.Flags.GetCompression() != BundleCompressType.None)
{
isCompressed = true;
break;
}
}
if (isCompressed)
{
// well, at leat one block is compressed so we should copy data of current entry to separate stream
using (SmartStream entryStream = CreateStream(entry.Size))
{
long left = entry.Size;
long entryOffset = entry.Offset - decompressedOffset;
bundleStream.Position = dataOffset + compressedOffset;
// copy data of all blocks used by current entry to created stream
for (int bi = blockIndex; left > 0; bi++)
{
long blockOffset = 0;
BlockInfo block = blockInfos[bi];
if (cachedBlock == bi)
{
// some data of previous entry is in the same block as this one
// so we don't need to unpack it once again but can use cached stream
bundleStream.Position += block.CompressedSize;
}
else
{
BundleCompressType compressType = block.Flags.GetCompression();
switch (compressType)
{
case BundleCompressType.None:
blockOffset = dataOffset + compressedOffset;
blockStream.Assign(bundleStream);
break;
case BundleCompressType.LZMA:
blockStream.Move(CreateStream(block.DecompressedSize));
SevenZipHelper.DecompressLZMAStream(bundleStream, block.CompressedSize, blockStream, block.DecompressedSize);
break;
case BundleCompressType.LZ4:
case BundleCompressType.LZ4HZ:
blockStream.Move(CreateStream(block.DecompressedSize));
using (Lz4Stream lzStream = new Lz4Stream(bundleStream, block.CompressedSize))
{
long read = lzStream.Read(blockStream, block.DecompressedSize);
if (read != block.DecompressedSize)
{
throw new Exception($"Read {read} but expected {block.CompressedSize}");
}
}
break;
default:
throw new NotImplementedException($"Bundle compression '{compressType}' isn't supported");
}
cachedBlock = bi;
}
// consider next offsets:
// 1) block - if it is new stream then offset is 0, otherwise offset of this block in bundle file
// 2) entry - if this is first block for current entry then it is offset of this entry related to this block
// otherwise 0
long fragmentSize = block.DecompressedSize - entryOffset;
blockStream.Position = blockOffset + entryOffset;
entryOffset = 0;
long size = Math.Min(fragmentSize, left);
blockStream.CopyStream(entryStream, size);
compressedOffset += block.CompressedSize;
left -= size;
}
if (left < 0)
{
throw new Exception($"Read more than expected");
}
newEntries[ei] = new BundleFileEntry(entryStream, entry.FilePath, entry.Name, 0, entry.Size);
}
}
else
{
// no compressed blocks was found so we can use original bundle stream
newEntries[ei] = new BundleFileEntry(entry, dataOffset + entry.Offset);
}
}
}
Metadata.Dispose();
Metadata = new BundleMetadata(m_filePath, newEntries);
}