#include nx::NroHeader::NroHeader() { clear(); } nx::NroHeader::NroHeader(const NroHeader& other) { *this = other; } void nx::NroHeader::operator=(const NroHeader& other) { clear(); mRoCrt = other.mRoCrt; mNroSize = other.mNroSize; mTextInfo = other.mTextInfo; mTextInfo = other.mTextInfo; mRoInfo = other.mRoInfo; mDataInfo = other.mDataInfo; mBssSize = other.mBssSize; mModuleId = other.mModuleId; mRoEmbeddedInfo = other.mRoEmbeddedInfo; mRoDynStrInfo = other.mRoDynStrInfo; mRoDynSymInfo = other.mRoDynSymInfo; } bool nx::NroHeader::operator==(const NroHeader& other) const { return (mRoCrt == other.mRoCrt) \ && (mNroSize == other.mNroSize) \ && (mTextInfo == other.mTextInfo) \ && (mTextInfo == other.mTextInfo) \ && (mRoInfo == other.mRoInfo) \ && (mDataInfo == other.mDataInfo) \ && (mBssSize == other.mBssSize) \ && (mModuleId == other.mModuleId) \ && (mRoEmbeddedInfo == other.mRoEmbeddedInfo) \ && (mRoDynStrInfo == other.mRoDynStrInfo) \ && (mRoDynSymInfo == other.mRoDynSymInfo); } bool nx::NroHeader::operator!=(const NroHeader& other) const { return !(*this == other); } void nx::NroHeader::toBytes() { mRawBinary.alloc(sizeof(sNroHeader)); nx::sNroHeader* hdr = (nx::sNroHeader*)mRawBinary.data(); // set header identifers hdr->signature = nro::kNroSig; hdr->format_version = nro::kDefaultFormatVersion; hdr->flags = 0; // set ro crt memcpy(hdr->ro_crt, mRoCrt.data, nro::kRoCrtSize); // set nro size hdr->size = mNroSize; // set text section hdr->text.memory_offset = mTextInfo.memory_offset; hdr->text.size = mTextInfo.size; // set ro section hdr->ro.memory_offset = mRoInfo.memory_offset; hdr->ro.size = mRoInfo.size; // set data section hdr->data.memory_offset = mDataInfo.memory_offset; hdr->data.size = mDataInfo.size; // set bss size hdr->bss_size = mBssSize; // set moduleid memcpy(hdr->module_id, mModuleId.data, nro::kModuleIdSize); // set ro embedded info hdr->embedded.memory_offset = mRoEmbeddedInfo.memory_offset; hdr->embedded.size = mRoEmbeddedInfo.size; // set ro dyn str info hdr->dyn_str.memory_offset = mRoDynStrInfo.memory_offset; hdr->dyn_str.size = mRoDynStrInfo.size; // set ro dyn sym info hdr->dyn_sym.memory_offset = mRoDynSymInfo.memory_offset; hdr->dyn_sym.size = mRoDynSymInfo.size; } void nx::NroHeader::fromBytes(const byte_t* data, size_t len) { // check input data size if (len < sizeof(sNroHeader)) { throw fnd::Exception(kModuleName, "NRO header size is too small"); } // clear internal members clear(); // allocate internal local binary copy mRawBinary.alloc(sizeof(sNroHeader)); memcpy(mRawBinary.data(), data, mRawBinary.size()); // get sNroHeader ptr const nx::sNroHeader* hdr = (const nx::sNroHeader*)mRawBinary.data(); // check NRO signature if (hdr->signature.get() != nro::kNroSig) { throw fnd::Exception(kModuleName, "NRO header corrupt (unrecognised header signature)"); } // check NRO format version if (hdr->format_version.get() != nro::kDefaultFormatVersion) { throw fnd::Exception(kModuleName, "NRO header corrupt (unsupported format version)"); } // check NRO flags if (hdr->flags.get() != 0) { throw fnd::Exception(kModuleName, "NRO header corrupt (unsupported flag)"); } memcpy(mRoCrt.data, hdr->ro_crt, nro::kRoCrtSize); mNroSize = hdr->size.get(); mTextInfo.memory_offset = hdr->text.memory_offset.get(); mTextInfo.size = hdr->text.size.get(); mRoInfo.memory_offset = hdr->ro.memory_offset.get(); mRoInfo.size = hdr->ro.size.get(); mDataInfo.memory_offset = hdr->data.memory_offset.get(); mDataInfo.size = hdr->data.size.get(); mBssSize = hdr->bss_size.get(); memcpy(mModuleId.data, hdr->module_id, nro::kModuleIdSize); mRoEmbeddedInfo.memory_offset = hdr->embedded.memory_offset.get(); mRoEmbeddedInfo.size = hdr->embedded.size.get(); mRoDynStrInfo.memory_offset = hdr->dyn_str.memory_offset.get(); mRoDynStrInfo.size = hdr->dyn_str.size.get(); mRoDynSymInfo.memory_offset = hdr->dyn_sym.memory_offset.get(); mRoDynSymInfo.size = hdr->dyn_sym.size.get(); } const fnd::Vec& nx::NroHeader::getBytes() const { return mRawBinary; } void nx::NroHeader::clear() { mRawBinary.clear(); memset(&mRoCrt, 0, sizeof(mRoCrt)); memset(&mTextInfo, 0, sizeof(mTextInfo)); memset(&mRoInfo, 0, sizeof(mRoInfo)); memset(&mDataInfo, 0, sizeof(mDataInfo)); mBssSize = 0; memset(&mModuleId, 0, sizeof(mModuleId)); memset(&mRoEmbeddedInfo, 0, sizeof(mRoEmbeddedInfo)); memset(&mRoDynStrInfo, 0, sizeof(mRoDynStrInfo)); memset(&mRoDynSymInfo, 0, sizeof(mRoDynSymInfo)); } const nx::NroHeader::sRoCrt& nx::NroHeader::getRoCrt() const { return mRoCrt; } void nx::NroHeader::setRoCrt(const sRoCrt& ro_crt) { mRoCrt = ro_crt; } uint32_t nx::NroHeader::getNroSize() const { return mNroSize; } void nx::NroHeader::setNroSize(uint32_t size) { mNroSize = size; } const nx::NroHeader::sSection& nx::NroHeader::getTextInfo() const { return mTextInfo; } void nx::NroHeader::setTextInfo(const sSection& info) { mTextInfo = info; } const nx::NroHeader::sSection& nx::NroHeader::getRoInfo() const { return mRoInfo; } void nx::NroHeader::setRoInfo(const sSection& info) { mRoInfo = info; } const nx::NroHeader::sSection& nx::NroHeader::getDataInfo() const { return mDataInfo; } void nx::NroHeader::setDataInfo(const sSection& info) { mDataInfo = info; } uint32_t nx::NroHeader::getBssSize() const { return mBssSize; } void nx::NroHeader::setBssSize(uint32_t size) { mBssSize = size; } const nx::NroHeader::sModuleId& nx::NroHeader::getModuleId() const { return mModuleId; } void nx::NroHeader::setModuleId(const sModuleId& id) { mModuleId = id; } const nx::NroHeader::sSection& nx::NroHeader::getRoEmbeddedInfo() const { return mRoEmbeddedInfo; } void nx::NroHeader::setRoEmbeddedInfo(const sSection& info) { mRoEmbeddedInfo = info; } const nx::NroHeader::sSection& nx::NroHeader::getRoDynStrInfo() const { return mRoDynStrInfo; } void nx::NroHeader::setRoDynStrInfo(const sSection& info) { mRoDynStrInfo = info; } const nx::NroHeader::sSection& nx::NroHeader::getRoDynSymInfo() const { return mRoDynSymInfo; } void nx::NroHeader::setRoDynSymInfo(const sSection& info) { mRoDynSymInfo = info; }