nstool/lib/libnx/source/HierarchicalIntegrityHeader.cpp
2018-06-24 16:18:54 +08:00

137 lines
No EOL
4 KiB
C++

#include <sstream>
#include <nx/HierarchicalIntegrityHeader.h>
nx::HierarchicalIntegrityHeader::HierarchicalIntegrityHeader()
{
clear();
}
nx::HierarchicalIntegrityHeader::HierarchicalIntegrityHeader(const HierarchicalIntegrityHeader & other)
{
*this = other;
}
void nx::HierarchicalIntegrityHeader::operator=(const HierarchicalIntegrityHeader & other)
{
if (other.getBytes().size() != 0)
{
fromBytes(other.getBytes().data(), other.getBytes().size());
}
else
{
clear();
mLayerInfo = other.mLayerInfo;
mMasterHashList = other.mMasterHashList;
}
}
bool nx::HierarchicalIntegrityHeader::operator==(const HierarchicalIntegrityHeader & other) const
{
return (mLayerInfo == other.mLayerInfo) \
&& (mMasterHashList == other.mMasterHashList);
}
bool nx::HierarchicalIntegrityHeader::operator!=(const HierarchicalIntegrityHeader & other) const
{
return !(*this == other);
}
void nx::HierarchicalIntegrityHeader::toBytes()
{
throw fnd::Exception(kModuleName, "exportBinary() not implemented");
}
void nx::HierarchicalIntegrityHeader::fromBytes(const byte_t* data, size_t len)
{
std::stringstream error_str;
// validate size for at least header
if (len < sizeof(nx::sHierarchicalIntegrityHeader))
{
throw fnd::Exception(kModuleName, "Header too small");
}
const nx::sHierarchicalIntegrityHeader* hdr = (const nx::sHierarchicalIntegrityHeader*)data;
// Validate Header Sig "IVFC"
if (hdr->signature.get() != hierarchicalintegrity::kStructSig)
{
throw fnd::Exception(kModuleName, "Invalid struct magic");
}
// Validate TypeId
if (hdr->type_id.get() != nx::hierarchicalintegrity::kRomfsTypeId)
{
error_str.clear();
error_str << "Unsupported type id (" << std::hex << hdr->type_id.get() << ")";
throw fnd::Exception(kModuleName, error_str.str());
}
// Validate Layer Num
if (hdr->layer_num.get() != hierarchicalintegrity::kDefaultLayerNum+1)
{
error_str.clear();
error_str << "Invalid layer count. ";
error_str << "(actual=" << std::dec << hdr->layer_num.get() << ", expected=" << nx::hierarchicalintegrity::kDefaultLayerNum+1 << ")";
throw fnd::Exception(kModuleName, error_str.str());
}
// Get Sizes/Offsets
size_t master_hash_offset = align((sizeof(nx::sHierarchicalIntegrityHeader) + sizeof(nx::sHierarchicalIntegrityLayerInfo) * hdr->layer_num.get()), nx::hierarchicalintegrity::kHeaderAlignLen);
size_t total_size = master_hash_offset + hdr->master_hash_size.get();
// Validate total size
if (len < total_size)
{
throw fnd::Exception(kModuleName, "Header too small");
}
// copy to internal storage
mRawBinary.alloc(total_size);
memcpy(mRawBinary.data(), data, mRawBinary.size());
// save layer info
const nx::sHierarchicalIntegrityLayerInfo* layer_info = (const nx::sHierarchicalIntegrityLayerInfo*)(mRawBinary.data() + sizeof(nx::sHierarchicalIntegrityHeader));
for (size_t i = 0; i < hierarchicalintegrity::kDefaultLayerNum; i++)
{
mLayerInfo.addElement({layer_info[i].offset.get(), layer_info[i].size.get(), layer_info[i].block_size.get()});
}
// save hash list
const crypto::sha::sSha256Hash* hash_list = (const crypto::sha::sSha256Hash*)(mRawBinary.data() + master_hash_offset);
for (size_t i = 0; i < hdr->master_hash_size.get()/sizeof(crypto::sha::sSha256Hash); i++)
{
mMasterHashList.addElement(hash_list[i]);
}
}
const fnd::Vec<byte_t>& nx::HierarchicalIntegrityHeader::getBytes() const
{
return mRawBinary;
}
void nx::HierarchicalIntegrityHeader::clear()
{
mLayerInfo.clear();
mMasterHashList.clear();
}
const fnd::List<nx::HierarchicalIntegrityHeader::sLayer>& nx::HierarchicalIntegrityHeader::getLayerInfo() const
{
return mLayerInfo;
}
void nx::HierarchicalIntegrityHeader::setLayerInfo(const fnd::List<sLayer>& layer_info)
{
mLayerInfo = layer_info;
}
const fnd::List<crypto::sha::sSha256Hash>& nx::HierarchicalIntegrityHeader::getMasterHashList() const
{
return mMasterHashList;
}
void nx::HierarchicalIntegrityHeader::setMasterHashList(const fnd::List<crypto::sha::sSha256Hash>& master_hash_list)
{
mMasterHashList = master_hash_list;
}