nstool/programs/ncatool/source/main.cpp
2018-03-18 17:08:42 +08:00

326 lines
9 KiB
C++

#include <cstdio>
#include <crypto/aes.h>
#include <fnd/io.h>
#include <fnd/MemoryBlob.h>
#include <nx/NXCrypto.h>
#include <nx/NcaHeader.h>
#include <inttypes.h>
#ifdef _WIN32
#include <direct.h>
#else
#include <sys/stat.h>
#endif
const size_t kNcaSectorSize = nx::NcaHeader::kBlockSize;
inline size_t sectorToOffset(size_t sector_index) { return sector_index * kNcaSectorSize; }
void initNcaCtr(u8 ctr[crypto::aes::kAesBlockSize], u32 generation)
{
memset(ctr, 0, crypto::aes::kAesBlockSize);
for (size_t i = 0; i < 4; i++)
{
ctr[7 - i] = (generation >> i * 8) & 0xff;
}
}
void hexDump(const u8* data, size_t len)
{
for (size_t i = 0; i < len; i++)
{
printf("%02X", data[i]);
}
}
void xorData(const u8* a, const u8* b, u8* out, size_t len)
{
for (size_t i = 0; i < len; i++)
{
out[i] = a[i] ^ b[i];
}
}
void decryptNcaHeader(byte_t header[0xc00], const u8* key1, const u8* key2)
{
byte_t tweak[crypto::aes::kAesBlockSize];
// decrypt main header
byte_t raw_hdr[kNcaSectorSize];
nx::NcaHeader hdr;
crypto::aes::AesXtsMakeTweak(tweak, 1);
crypto::aes::AesXtsDecryptSector(header + sectorToOffset(1), kNcaSectorSize, key1, key2, tweak, raw_hdr);
hdr.importBinary(raw_hdr, kNcaSectorSize);
// decrypt whole header
for (size_t i = 0; i < 6; i++)
{
crypto::aes::AesXtsMakeTweak(tweak, (i > 1 && hdr.getFormatVersion() == nx::NcaHeader::NCA2_FORMAT)? 0 : i);
crypto::aes::AesXtsDecryptSector(header + sectorToOffset(i), kNcaSectorSize, key1, key2, tweak, header + sectorToOffset(i));
}
}
void decryptNcaSectorXts(const fnd::MemoryBlob& nca, u8 out[kNcaSectorSize], size_t sector, const u8* key1, const u8* key2)
{
u8 tweak[crypto::aes::kAesBlockSize];
crypto::aes::AesXtsMakeTweak(tweak, sector);
crypto::aes::AesXtsDecryptSector(nca.getBytes() + sector*kNcaSectorSize, kNcaSectorSize, key1, key2, tweak, out);
}
void decryptNcaSectorCtr(const fnd::MemoryBlob& nca, u8 out[kNcaSectorSize], size_t sector, const u8* key)
{
u8 ctr[crypto::aes::kAesBlockSize];
initNcaCtr(ctr, 0);
crypto::aes::AesIncrementCounter(ctr, (sector*kNcaSectorSize)/crypto::aes::kAesBlockSize, ctr);
crypto::aes::AesCtr(nca.getBytes() + sector*kNcaSectorSize, kNcaSectorSize, key, ctr, out);
}
void dumpNcaSector(u8 out[kNcaSectorSize])
{
for (size_t j = 0; j < kNcaSectorSize / crypto::aes::kAesBlockSize; j++)
{
hexDump(out + j * crypto::aes::kAesBlockSize, crypto::aes::kAesBlockSize);
printf("\n");
}
}
void dumpHxdStyleSector(u8* out, size_t len)
{
// iterate over 0x10 blocks
for (size_t i = 0; i < (len / crypto::aes::kAesBlockSize); i++)
{
// for block i print each byte
for (size_t j = 0; j < crypto::aes::kAesBlockSize; j++)
{
printf("%02X ", out[i*crypto::aes::kAesBlockSize + j]);
}
printf(" ");
for (size_t j = 0; j < crypto::aes::kAesBlockSize; j++)
{
printf("%c", isalnum(out[i*crypto::aes::kAesBlockSize + j]) ? out[i*crypto::aes::kAesBlockSize + j] : '.');
}
printf("\n");
}
/*
for (size_t i = 0; i < len % crypto::aes::kAesBlockSize; i++)
{
printf("%02X ", out[(len / crypto::aes::kAesBlockSize)*crypto::aes::kAesBlockSize + i]);
}
for (size_t i = 0; i < crypto::aes::kAesBlockSize - (len % crypto::aes::kAesBlockSize); i++)
{
printf(" ");
}
for (size_t i = 0; i < len % crypto::aes::kAesBlockSize; i++)
{
printf("%c", out[(len / crypto::aes::kAesBlockSize)*crypto::aes::kAesBlockSize + i]);
}
*/
}
std::string kFormatVersionStr[]
{
"NCA2",
"NCA3"
};
std::string kDistributionTypeStr[]
{
"Download",
"Game Card"
};
std::string kContentTypeStr[]
{
"Program",
"Meta",
"Control",
"Manual",
"Data"
};
std::string kEncryptionTypeStr[]
{
"Auto",
"None",
"AesXts",
"AesCtr",
"BKTR"
};
std::string kHashTypeStr[]
{
"Auto",
"UNKNOWN_1",
"HierarchicalSha256",
"HierarchicalIntegrity"
};
std::string kFormatTypeStr[]
{
"RomFs",
"PartitionFs"
};
std::string kKaekIndexStr[]
{
"Application",
"Ocean",
"System"
};
enum EncryptionType
{
CRYPT_AUTO,
CRYPT_NONE,
CRYPT_AESXTS,
CRYPT_AESCTR,
CRYPT_BKTR
};
#pragma pack(push,1)
struct sNcaFsHeader
{
le_uint16_t version; // usually 0x0002
byte_t format_type; // RomFs(0x00), PartitionFs(0x01)
byte_t hash_type; // HashTypeAuto(0x00), HashTypeHierarchicalSha256(0x02), HashTypeHierarchicalIntegrity(0x03).RomFs uses (0x03) this is forced, PartitionFs uses (0x02).
byte_t encryption_type; // EncryptionTypeAuto(0x00), EncryptionTypeNone(0x01), EncryptionTypeAesCtr(0x03)
byte_t reserved[3];
};
#pragma pack(pop)
int main(int argc, char** argv)
{
if (argc < 2)
{
printf("usage: ncatool <nca file>\n");
return 1;
}
try
{
fnd::MemoryBlob nca;
fnd::io::readFile(argv[1], nca);
decryptNcaHeader(nca.getBytes(), crypto::aes::nx::dev::nca_header_key[0], crypto::aes::nx::dev::nca_header_key[1]);
//dumpHxdStyleSector(nca.getBytes(), 0xc00);
//u8 sector[kNcaSectorSize];
// nca test
if (argc == 2 || argc == 3)
{
//decryptNcaSectorXts(nca, sector, 1, crypto::aes::nx::dev::nca_header_key[0], crypto::aes::nx::dev::nca_header_key[1]);
nx::NcaHeader hdr;
hdr.importBinary(nca.getBytes() + sectorToOffset(1), kNcaSectorSize);
printf("[NCA Header]\n");
printf(" Format Type: %s\n", kFormatVersionStr[hdr.getFormatVersion()].c_str());
printf(" Dist. Type: %s\n", kDistributionTypeStr[hdr.getDistributionType()].c_str());
printf(" Type: %s\n", kContentTypeStr[hdr.getContentType()].c_str());
printf(" Crypto Type: %d\n", hdr.getCryptoType());
printf(" Kaek Index: %s (%d)\n", kKaekIndexStr[hdr.getKaekIndex()].c_str(), hdr.getKaekIndex());
printf(" Size: 0x%" PRIx64 "\n", hdr.getNcaSize());
printf(" ProgID: 0x%016" PRIx64 "\n", hdr.getProgramId());
printf(" Content. Idx: %" PRIu32 "\n", hdr.getContentIndex());
uint32_t ver = hdr.getSdkAddonVersion();
printf(" SdkAddon Ver.: v%d.%d.%d.%d (v%" PRIu32 ")\n", (ver>>24 & 0xff),(ver>>16 & 0xff),(ver>>8 & 0xff),(ver>>0 & 0xff), ver);
printf(" Encrypted Key Area:\n");
for (size_t i = 0; i < hdr.getEncAesKeys().getSize(); i++)
{
printf(" %lu: ", i);
hexDump(hdr.getEncAesKeys()[i].key, crypto::aes::kAes128KeySize);
printf("\n");
/*
byte_t key[crypto::aes::kAes128KeySize];
crypto::aes::AesEcbDecrypt(hdr.getEncAesKeys()[i].key, crypto::aes::kAes128KeySize, crypto::aes::nx::dev::key_area_encryption_key_0, key);
printf(" dec: ", i);
hexDump(key, crypto::aes::kAes128KeySize);
printf("\n");
*/
}
printf(" Sections:\n");
for (size_t i = 0; i < hdr.getSections().getSize(); i++)
{
const nx::NcaHeader::sSection& section = hdr.getSections()[i];
printf(" %lu:\n", i);
//printf(" Start Blk: %" PRId32 "\n", section.start_blk);
//printf(" End Blk: %" PRId32 "\n", section.end_blk);
printf(" Offset: 0x%" PRIx64 "\n", section.offset);
printf(" Size: 0x%" PRIx64 "\n", section.size);
size_t sector_index = 1 + (hdr.getSections().getSize() - i);
byte_t hash[crypto::sha::kSha256HashLen];
crypto::sha::Sha256(nca.getBytes() + sectorToOffset(sector_index), kNcaSectorSize, hash);
if (section.hash.compare(hash) == false)
{
//throw fnd::Exception("ncatool", "NcaFsHeader has bad sha256 hash");
}
const sNcaFsHeader* fsHdr = (const sNcaFsHeader*)(nca.getBytes() + sectorToOffset(sector_index));
printf(" FsHeader:\n");
printf(" Version: 0x%d\n", fsHdr->version.get());
printf(" Format Type: %s\n", kFormatTypeStr[fsHdr->format_type].c_str());
printf(" Hash Type: %s\n", kHashTypeStr[fsHdr->hash_type].c_str());
printf(" Enc. Type: %s\n", kEncryptionTypeStr[fsHdr->encryption_type].c_str());
/*
printf(" Hash: ");
hexDump(section.hash.bytes, crypto::sha::kSha256HashLen);
printf("\n");
byte_t hash[crypto::sha::kSha256HashLen];
crypto::sha::Sha256(nca.getBytes() + sectorToOffset(sector_index), kNcaSectorSize, hash);
printf(" Hash: ");
hexDump(hash, crypto::sha::kSha256HashLen);
printf("\n");
*/
//dumpHxdStyleSector(nca.getBytes() + sectorToOffset(sector_index), 0x10);
}
#ifdef USE_OLD_CODE
if (argc == 3)
{
#ifdef _WIN32
_mkdir(argv[2]);
#else
mkdir(argv[2], S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
#endif
for (size_t i = 0; i < hdr.getSections().getSize(); i++)
{
const nx::NcaHeader::sSection& section = hdr.getSections()[i];
#ifdef _WIN32
fnd::io::writeFile(std::string(argv[2]) + "\\" + std::to_string(i) + ".bin" , nca.getBytes() + section.offset, section.size);
#else
fnd::io::writeFile(std::string(argv[2]) + "/" + std::to_string(i) + ".bin", nca.getBytes() + section.offset, section.size);
#endif
}
}
}
if (argc == 4)
{
printf("decrypt test\n");
u8 sect[kNcaSectorSize];;
for (size_t i = 0; i < 6; i++)
{
decryptNcaSectorXts(nca, sect, i, crypto::aes::nx::dev::nca_header_key[0], crypto::aes::nx::dev::nca_header_key[1]);
dumpNcaSector(sect);
}
}
#endif
}
} catch (const fnd::Exception& e)
{
printf("%s\n",e.what());
}
return 0;
}