nstool/lib/libfnd/source/LayeredIntegrityWrappedIFile.cpp

191 lines
5.7 KiB
C++

#include <fnd/LayeredIntegrityWrappedIFile.h>
#include <fnd/OffsetAdjustedIFile.h>
fnd::LayeredIntegrityWrappedIFile::LayeredIntegrityWrappedIFile(const fnd::SharedPtr<fnd::IFile>& file, const fnd::LayeredIntegrityMetadata& hdr) :
mFile(file),
mData(nullptr),
mDataHashLayer(),
mAlignHashCalcToBlock(false)
{
initialiseDataLayer(hdr);
}
size_t fnd::LayeredIntegrityWrappedIFile::size()
{
return (*mData)->size();
}
void fnd::LayeredIntegrityWrappedIFile::seek(size_t offset)
{
mDataOffset = offset;
}
void fnd::LayeredIntegrityWrappedIFile::read(byte_t* out, size_t len)
{
struct sBlockPosition
{
size_t index;
size_t pos;
} start_blk, end_blk;
start_blk.index = getOffsetBlock(mDataOffset);
start_blk.pos = getOffsetInBlock(mDataOffset);
end_blk.index = getOffsetBlock(mDataOffset + len);
end_blk.pos = getOffsetInBlock(mDataOffset + len);
if (end_blk.pos == 0 && len != 0)
{
end_blk.index -= 1;
end_blk.pos = mDataBlockSize;
}
size_t total_blk_num = (end_blk.index - start_blk.index) + 1;
size_t read_blk_num = 0;
size_t cache_export_start_pos, cache_export_end_pos, cache_export_size;
size_t export_pos = 0;
for (size_t i = 0; i < total_blk_num; i += read_blk_num, export_pos += cache_export_size)
{
read_blk_num = _MIN(mCacheBlockNum, (total_blk_num - i));
readData(start_blk.index + i, read_blk_num);
// if this is the first read, adjust offset
if (i == 0)
cache_export_start_pos = start_blk.pos;
else
cache_export_start_pos = 0;
// if this is the last block, adjust end offset
if ((i + read_blk_num) == total_blk_num)
cache_export_end_pos = ((read_blk_num - 1) * mDataBlockSize) + end_blk.pos;
else
cache_export_end_pos = read_blk_num * mDataBlockSize;
// determine cache export size
cache_export_size = cache_export_end_pos - cache_export_start_pos;
memcpy(out + export_pos, mCache.data() + cache_export_start_pos, cache_export_size);
}
// update offset
seek(mDataOffset + len);
}
void fnd::LayeredIntegrityWrappedIFile::read(byte_t* out, size_t offset, size_t len)
{
seek(offset);
read(out, len);
}
void fnd::LayeredIntegrityWrappedIFile::write(const byte_t* out, size_t len)
{
throw fnd::Exception(kModuleName, "write() not supported");
}
void fnd::LayeredIntegrityWrappedIFile::write(const byte_t* out, size_t offset, size_t len)
{
throw fnd::Exception(kModuleName, "write() not supported");
}
void fnd::LayeredIntegrityWrappedIFile::initialiseDataLayer(const fnd::LayeredIntegrityMetadata& hdr)
{
fnd::sha::sSha256Hash hash;
fnd::Vec<byte_t> cur, prev;
mAlignHashCalcToBlock = hdr.getAlignHashToBlock();
// copy master hash into prev
prev.alloc(sizeof(fnd::sha::sSha256Hash) * hdr.getMasterHashList().size());
for (size_t i = 0; i < hdr.getMasterHashList().size(); i++)
{
((fnd::sha::sSha256Hash*)prev.data())[i] = hdr.getMasterHashList()[i];
}
// check each hash layer
for (size_t i = 0; i < hdr.getHashLayerInfo().size(); i++)
{
// get block size
const fnd::LayeredIntegrityMetadata::sLayer& layer = hdr.getHashLayerInfo()[i];
// allocate layer
cur.alloc(align(layer.size, layer.block_size));
// read layer
(*mFile)->read(cur.data(), layer.offset, layer.size);
// validate blocks
size_t validate_size;
for (size_t j = 0; j < cur.size() / layer.block_size; j++)
{
validate_size = mAlignHashCalcToBlock? layer.block_size : _MIN(layer.size - (j * layer.block_size), layer.block_size);
fnd::sha::Sha256(cur.data() + (j * layer.block_size), validate_size, hash.bytes);
if (hash.compare(prev.data() + j * sizeof(fnd::sha::sSha256Hash)) == false)
{
mErrorSs << "Hash tree layer verification failed (layer: " << i << ", block: " << j << ")";
throw fnd::Exception(kModuleName, mErrorSs.str());
}
}
// set prev to cur
prev = cur;
}
// save last layer as hash table for data layer
fnd::sha::sSha256Hash* hash_list = (fnd::sha::sSha256Hash*)prev.data();
for (size_t i = 0; i < prev.size() / sizeof(fnd::sha::sSha256Hash); i++)
{
mDataHashLayer.addElement(hash_list[i]);
}
// generate reader for data layer
mData = new fnd::OffsetAdjustedIFile(mFile, hdr.getDataLayer().offset, hdr.getDataLayer().size);
mDataOffset = 0;
mDataBlockSize = hdr.getDataLayer().block_size;
// allocate cache
size_t cache_size = align(kDefaultCacheSize, mDataBlockSize);
mCacheBlockNum = cache_size / mDataBlockSize;
mCache.alloc(cache_size);
}
void fnd::LayeredIntegrityWrappedIFile::readData(size_t block_offset, size_t block_num)
{
fnd::sha::sSha256Hash hash;
// determine read size
size_t read_len = 0;
if ((block_offset + block_num) == getBlockNum((*mData)->size()))
{
read_len = (block_num-1) * mDataBlockSize + getRemanderBlockReadSize((*mData)->size());
memset(mCache.data(), 0, block_num * mDataBlockSize);
}
else if ((block_offset + block_num) < getBlockNum((*mData)->size()))
{
read_len = block_num * mDataBlockSize;
}
else
{
throw fnd::Exception(kModuleName, "Out of bounds file read");
}
// read
(*mData)->read(mCache.data(), block_offset * mDataBlockSize, read_len);
if (block_num > mCacheBlockNum)
{
throw fnd::Exception(kModuleName, "Read excessive of cache size");
}
// validate blocks
size_t validate_size;
for (size_t i = 0; i < block_num; i++)
{
validate_size = mAlignHashCalcToBlock? mDataBlockSize : _MIN(read_len - (i * mDataBlockSize), mDataBlockSize);
fnd::sha::Sha256(mCache.data() + (i * mDataBlockSize), validate_size, hash.bytes);
if (hash != mDataHashLayer[block_offset + i])
{
mErrorSs << "Hash tree layer verification failed (layer: data, block: " << (block_offset + i) << " ( " << i << "/" << block_num-1 << " ), offset: 0x" << std::hex << ((block_offset + i) * mDataBlockSize) << ", size: 0x" << std::hex << validate_size <<")";
throw fnd::Exception(kModuleName, mErrorSs.str());
}
}
}