nstool/lib/libnx/source/NcaHeader.cpp

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#include <nx/NcaHeader.h>
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using namespace nx;
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void NcaHeader::exportBinary()
{
mBinaryBlob.alloc(sizeof(sNcaHeader));
sNcaHeader* hdr = (sNcaHeader*)mBinaryBlob.getBytes();
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switch(mFormatVersion)
{
case (NCA2_FORMAT):
strncpy(hdr->signature, nca::kNca2Sig.c_str(), 4);
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break;
case (NCA3_FORMAT):
strncpy(hdr->signature, nca::kNca3Sig.c_str(), 4);
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break;
default:
throw fnd::Exception(kModuleName, "Unsupported format version");
}
hdr->distribution_type = mDistributionType;
hdr->content_type = mContentType;
if (mKeyGeneration > 2)
{
hdr->key_generation = 2;
hdr->key_generation_2 = mKeyGeneration;
}
else
{
hdr->key_generation = mKeyGeneration;
hdr->key_generation_2 = 0;
}
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hdr->key_area_encryption_key_index = mKaekIndex;
hdr->content_size = mContentSize;
hdr->program_id = mProgramId;
hdr->content_index = mContentIndex;
hdr->sdk_addon_version = mSdkAddonVersion;
memcpy(hdr->rights_id, mRightsId, nca::kRightsIdLen);
// TODO: properly reconstruct NCA layout? atm in hands of user
for (size_t i = 0; i < mPartitions.getSize(); i++)
{
// determine partition index
byte_t idx = mPartitions[i].index;
if (mPartitions[i].index >= nca::kPartitionNum || hdr->partition[idx].enabled) continue;
hdr->partition[idx].start = sizeToBlockNum(mPartitions[i].offset);
hdr->partition[idx].end = (sizeToBlockNum(mPartitions[i].offset) + sizeToBlockNum(mPartitions[i].size));
hdr->partition[idx].enabled = true;
hdr->partition_hash[idx] = mPartitions[i].hash;
}
for (size_t i = 0; i < nca::kAesKeyNum; i++)
{
hdr->enc_aes_key[i] = mEncAesKeys[i];
}
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}
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void NcaHeader::importBinary(const byte_t * bytes, size_t len)
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{
if (len < sizeof(sNcaHeader))
{
throw fnd::Exception(kModuleName, "NCA header size is too small");
}
clear();
mBinaryBlob.alloc(sizeof(sNcaHeader));
memcpy(mBinaryBlob.getBytes(), bytes, sizeof(sNcaHeader));
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sNcaHeader* hdr = (sNcaHeader*)mBinaryBlob.getBytes();
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std::string sig = std::string(hdr->signature, 4);
if (sig == nca::kNca2Sig)
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{
mFormatVersion = NCA2_FORMAT;
}
else if (sig == nca::kNca3Sig)
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{
mFormatVersion = NCA3_FORMAT;
}
else
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{
throw fnd::Exception(kModuleName, "NCA header corrupt");
}
mDistributionType = (nca::DistributionType)hdr->distribution_type;
mContentType = (nca::ContentType)hdr->content_type;
mKeyGeneration = MAX(hdr->key_generation, hdr->key_generation_2);
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mKaekIndex = hdr->key_area_encryption_key_index;
mContentSize = *hdr->content_size;
mProgramId = *hdr->program_id;
mContentIndex = *hdr->content_index;
mSdkAddonVersion = *hdr->sdk_addon_version;
memcpy(mRightsId, hdr->rights_id, nca::kRightsIdLen);
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for (size_t i = 0; i < nca::kPartitionNum; i++)
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{
// skip sections that don't exist
if (hdr->partition[i].enabled == 0) continue;
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// add high level struct
mPartitions.addElement({(byte_t)i, blockNumToSize(hdr->partition[i].start.get()), blockNumToSize(hdr->partition[i].end.get() - hdr->partition[i].start.get()), hdr->partition_hash[i] });
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}
for (size_t i = 0; i < nca::kAesKeyNum; i++)
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{
mEncAesKeys.addElement(hdr->enc_aes_key[i]);
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}
}
void nx::NcaHeader::clear()
{
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mFormatVersion = NCA3_FORMAT;
mDistributionType = nca::DIST_DOWNLOAD;
mContentType = nca::TYPE_PROGRAM;
mKeyGeneration = 0;
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mKaekIndex = 0;
mContentSize = 0;
mProgramId = 0;
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mContentIndex = 0;
mSdkAddonVersion = 0;
mPartitions.clear();
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mEncAesKeys.clear();
}
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nx::NcaHeader::FormatVersion nx::NcaHeader::getFormatVersion() const
{
return mFormatVersion;
}
void nx::NcaHeader::setFormatVersion(FormatVersion version)
{
mFormatVersion = version;
}
nx::nca::DistributionType nx::NcaHeader::getDistributionType() const
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{
return mDistributionType;
}
void nx::NcaHeader::setDistributionType(nca::DistributionType type)
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{
mDistributionType = type;
}
nx::nca::ContentType nx::NcaHeader::getContentType() const
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{
return mContentType;
}
void nx::NcaHeader::setContentType(nca::ContentType type)
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{
mContentType = type;
}
byte_t nx::NcaHeader::getKeyGeneration() const
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{
return mKeyGeneration;
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}
void nx::NcaHeader::setKeyGeneration(byte_t gen)
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{
mKeyGeneration = gen;
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}
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byte_t nx::NcaHeader::getKaekIndex() const
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{
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return mKaekIndex;
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}
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void nx::NcaHeader::setKaekIndex(byte_t index)
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{
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mKaekIndex = index;
}
uint64_t NcaHeader::getContentSize() const
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{
return mContentSize;
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}
void NcaHeader::setContentSize(uint64_t size)
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{
mContentSize = size;
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}
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uint64_t NcaHeader::getProgramId() const
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{
return mProgramId;
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}
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void NcaHeader::setProgramId(uint64_t program_id)
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{
mProgramId = program_id;
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}
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uint32_t nx::NcaHeader::getContentIndex() const
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{
return mContentIndex;
}
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void nx::NcaHeader::setContentIndex(uint32_t index)
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{
mContentIndex = index;
}
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uint32_t nx::NcaHeader::getSdkAddonVersion() const
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{
return mSdkAddonVersion;
}
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void nx::NcaHeader::setSdkAddonVersion(uint32_t version)
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{
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mSdkAddonVersion = version;
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}
const byte_t* nx::NcaHeader::getRightsId() const
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{
return mRightsId;
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}
void nx::NcaHeader::setRightsId(const byte_t* rights_id)
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{
memcpy(mRightsId, rights_id, nca::kRightsIdLen);
}
const fnd::List<NcaHeader::sPartition>& NcaHeader::getPartitions() const
{
return mPartitions;
}
void NcaHeader::setPartitions(const fnd::List<NcaHeader::sPartition>& partitions)
{
mPartitions = partitions;
if (mPartitions.getSize() >= nca::kPartitionNum)
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{
throw fnd::Exception(kModuleName, "Too many NCA partitions");
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}
}
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const fnd::List<crypto::aes::sAes128Key>& NcaHeader::getEncAesKeys() const
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{
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return mEncAesKeys;
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}
void NcaHeader::setEncAesKeys(const fnd::List<crypto::aes::sAes128Key>& keys)
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{
mEncAesKeys = keys;
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}
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uint64_t NcaHeader::blockNumToSize(uint32_t block_num) const
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{
return block_num*nca::kSectorSize;
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}
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uint32_t NcaHeader::sizeToBlockNum(uint64_t real_size) const
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{
return align(real_size, nca::kSectorSize) / nca::kSectorSize;
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}
bool NcaHeader::isEqual(const NcaHeader & other) const
{
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return (mDistributionType == other.mDistributionType) \
&& (mContentType == other.mContentType) \
&& (mKeyGeneration == other.mKeyGeneration) \
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&& (mKaekIndex == other.mKaekIndex) \
&& (mContentSize == other.mContentSize) \
&& (mProgramId == other.mProgramId) \
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&& (mContentIndex == other.mContentIndex) \
&& (mSdkAddonVersion == other.mSdkAddonVersion) \
&& (mPartitions == other.mPartitions) \
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&& (mEncAesKeys == other.mEncAesKeys);
}
void NcaHeader::copyFrom(const NcaHeader & other)
{
if (other.getSize())
{
importBinary(other.getBytes(), other.getSize());
}
else
{
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mBinaryBlob.clear();
mDistributionType = other.mDistributionType;
mContentType = other.mContentType;
mKeyGeneration = other.mKeyGeneration;
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mKaekIndex = other.mKaekIndex;
mContentSize = other.mContentSize;
mProgramId = other.mProgramId;
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mContentIndex = other.mContentIndex;
mSdkAddonVersion = other.mSdkAddonVersion;
mPartitions = other.mPartitions;
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mEncAesKeys = other.mEncAesKeys;
}
}
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NcaHeader::NcaHeader()
{
clear();
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}
NcaHeader::NcaHeader(const NcaHeader & other)
{
copyFrom(other);
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}
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NcaHeader::NcaHeader(const byte_t * bytes, size_t len)
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{
importBinary(bytes, len);
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}
bool NcaHeader::operator==(const NcaHeader & other) const
{
return isEqual(other);
}
bool NcaHeader::operator!=(const NcaHeader & other) const
{
return !isEqual(other);
}
void NcaHeader::operator=(const NcaHeader & other)
{
this->importBinary(other.getBytes(), other.getSize());
}
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const byte_t * NcaHeader::getBytes() const
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{
return mBinaryBlob.getBytes();
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}
size_t NcaHeader::getSize() const
{
return mBinaryBlob.getSize();
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}