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https://git.h3cjp.net/H3cJP/citra.git
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key_manager: Add base key derivation
Derives master keys, game encryption keys, and package1/2 keys
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d7398283e3
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a57aac5772
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@ -262,6 +262,28 @@ void KeyManager::AttemptLoadKeyFile(const std::string& dir1, const std::string&
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LoadFromFile(dir2 + DIR_SEP + filename, title);
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LoadFromFile(dir2 + DIR_SEP + filename, title);
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}
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}
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bool KeyManager::BaseDeriveNecessary() {
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const auto check_key_existence = [this](auto key_type, u64 index1 = 0, u64 index2 = 0) {
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return !HasKey(key_type, index1, index2);
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};
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if (check_key_existence(S256KeyType::Header))
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return true;
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for (size_t i = 0; i < CURRENT_CRYPTO_REVISION; ++i) {
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if (check_key_existence(S128KeyType::Master, i) ||
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check_key_existence(S128KeyType::KeyArea, i,
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static_cast<u64>(KeyAreaKeyType::Application)) ||
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check_key_existence(S128KeyType::KeyArea, i, static_cast<u64>(KeyAreaKeyType::Ocean)) ||
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check_key_existence(S128KeyType::KeyArea, i,
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static_cast<u64>(KeyAreaKeyType::System)) ||
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check_key_existence(S128KeyType::Titlekek, i))
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return true;
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}
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return false;
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}
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bool KeyManager::HasKey(S128KeyType id, u64 field1, u64 field2) const {
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bool KeyManager::HasKey(S128KeyType id, u64 field1, u64 field2) const {
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return s128_keys.find({id, field1, field2}) != s128_keys.end();
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return s128_keys.find({id, field1, field2}) != s128_keys.end();
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}
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}
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@ -412,6 +434,193 @@ void KeyManager::DeriveSDSeedLazy() {
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SetKey(S128KeyType::SDSeed, res.get());
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SetKey(S128KeyType::SDSeed, res.get());
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}
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}
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static Key128 CalculateCMAC(const u8* source, size_t size, Key128 key) {
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Key128 out{};
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mbedtls_cipher_cmac(mbedtls_cipher_info_from_type(MBEDTLS_CIPHER_AES_128_ECB), key.data(), 0x80,
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source, size, out.data());
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return out;
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}
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void KeyManager::DeriveBase() {
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if (!BaseDeriveNecessary())
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return;
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if (!HasKey(S128KeyType::SecureBoot) || !HasKey(S128KeyType::TSEC))
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return;
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const auto has_bis = [this](u64 id) {
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return HasKey(S128KeyType::BIS, id, static_cast<u64>(BISKeyType::Crypto)) &&
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HasKey(S128KeyType::BIS, id, static_cast<u64>(BISKeyType::Tweak));
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};
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const auto copy_bis = [this](u64 id_from, u64 id_to) {
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SetKey(S128KeyType::BIS,
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GetKey(S128KeyType::BIS, id_from, static_cast<u64>(BISKeyType::Crypto)), id_to,
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static_cast<u64>(BISKeyType::Crypto));
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SetKey(S128KeyType::BIS,
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GetKey(S128KeyType::BIS, id_from, static_cast<u64>(BISKeyType::Tweak)), id_to,
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static_cast<u64>(BISKeyType::Tweak));
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};
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if (has_bis(2) && !has_bis(3))
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copy_bis(2, 3);
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else if (has_bis(3) && !has_bis(2))
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copy_bis(3, 2);
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std::bitset<32> revisions{};
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revisions.set();
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for (size_t i = 0; i < 32; ++i) {
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if (!HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::Keyblob), i) ||
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encrypted_keyblobs[i] == std::array<u8, 0xB0>{})
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revisions.reset(i);
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}
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if (!revisions.any())
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return;
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const auto sbk = GetKey(S128KeyType::SecureBoot);
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const auto tsec = GetKey(S128KeyType::TSEC);
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const auto master_source = GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::Master));
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const auto kek_generation_source =
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKekGeneration));
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const auto key_generation_source =
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKeyGeneration));
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for (size_t i = 0; i < 32; ++i) {
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if (!revisions[i])
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continue;
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// Derive keyblob key
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const auto key = DeriveKeyblobKey(
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sbk, tsec, GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::Keyblob), i));
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SetKey(S128KeyType::Keyblob, key, i);
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// Derive keyblob MAC key
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if (!HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::KeyblobMAC)))
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continue;
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const auto mac_source =
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::KeyblobMAC));
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AESCipher<Key128> mac_cipher(key, Mode::ECB);
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Key128 mac_key{};
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mac_cipher.Transcode(mac_source.data(), mac_key.size(), mac_key.data(), Op::Decrypt);
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SetKey(S128KeyType::KeyblobMAC, mac_key, i);
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Key128 cmac = CalculateCMAC(encrypted_keyblobs[i].data() + 0x10, 0xA0, mac_key);
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if (std::memcmp(cmac.data(), encrypted_keyblobs[i].data(), cmac.size()) != 0)
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continue;
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// Decrypt keyblob
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bool has_keyblob = keyblobs[i] != std::array<u8, 0x90>{};
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AESCipher<Key128> cipher(key, Mode::CTR);
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cipher.SetIV(std::vector<u8>(encrypted_keyblobs[i].data() + 0x10,
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encrypted_keyblobs[i].data() + 0x20));
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cipher.Transcode(encrypted_keyblobs[i].data() + 0x20, keyblobs[i].size(),
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keyblobs[i].data(), Op::Decrypt);
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if (!has_keyblob) {
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WriteKeyToFile<0x90>(KeyCategory::Console, fmt::format("keyblob_{:02X}", i),
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keyblobs[i]);
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}
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Key128 package1{};
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std::memcpy(package1.data(), keyblobs[i].data() + 0x80, sizeof(Key128));
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SetKey(S128KeyType::Package1, package1, i);
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// Derive master key
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if (HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::Master))) {
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Key128 master_root{};
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std::memcpy(master_root.data(), keyblobs[i].data(), sizeof(Key128));
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AESCipher<Key128> master_cipher(master_root, Mode::ECB);
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Key128 master{};
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master_cipher.Transcode(master_source.data(), master_source.size(), master.data(),
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Op::Decrypt);
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SetKey(S128KeyType::Master, master, i);
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}
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}
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revisions.set();
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for (size_t i = 0; i < 32; ++i) {
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if (!HasKey(S128KeyType::Master, i))
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revisions.reset(i);
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}
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if (!revisions.any())
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return;
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for (size_t i = 0; i < 32; ++i) {
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if (!revisions[i])
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continue;
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// Derive general purpose keys
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if (HasKey(S128KeyType::Master, i)) {
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for (auto kak_type :
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{KeyAreaKeyType::Application, KeyAreaKeyType::Ocean, KeyAreaKeyType::System}) {
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if (HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::KeyAreaKey),
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static_cast<u64>(kak_type))) {
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const auto source =
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::KeyAreaKey),
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static_cast<u64>(kak_type));
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const auto kek =
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GenerateKeyEncryptionKey(source, GetKey(S128KeyType::Master, i),
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kek_generation_source, key_generation_source);
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SetKey(S128KeyType::KeyArea, kek, i, static_cast<u64>(kak_type));
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}
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}
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AESCipher<Key128> master_cipher(GetKey(S128KeyType::Master, i), Mode::ECB);
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for (auto key_type : {SourceKeyType::Titlekek, SourceKeyType::Package2}) {
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if (HasKey(S128KeyType::Source, static_cast<u64>(key_type))) {
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Key128 key{};
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master_cipher.Transcode(
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GetKey(S128KeyType::Source, static_cast<u64>(key_type)).data(), key.size(),
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key.data(), Op::Decrypt);
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SetKey(key_type == SourceKeyType::Titlekek ? S128KeyType::Titlekek
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: S128KeyType::Package2,
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key, i);
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}
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}
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}
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}
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if (HasKey(S128KeyType::Master, 0) &&
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HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKeyGeneration)) &&
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HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKekGeneration)) &&
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HasKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::HeaderKek)) &&
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HasKey(S256KeyType::HeaderSource)) {
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const auto header_kek = GenerateKeyEncryptionKey(
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::HeaderKek)),
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GetKey(S128KeyType::Master, 0),
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKekGeneration)),
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GetKey(S128KeyType::Source, static_cast<u64>(SourceKeyType::AESKeyGeneration)));
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SetKey(S128KeyType::HeaderKek, header_kek);
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AESCipher<Key128> header_cipher(header_kek, Mode::ECB);
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Key256 out = GetKey(S256KeyType::HeaderSource);
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header_cipher.Transcode(out.data(), out.size(), out.data(), Op::Decrypt);
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SetKey(S256KeyType::Header, out);
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}
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}
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void KeyManager::SetKeyWrapped(S128KeyType id, Key128 key, u64 field1, u64 field2) {
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if (key == Key128{})
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return;
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SetKey(id, key, field1, field2);
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}
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void KeyManager::SetKeyWrapped(S256KeyType id, Key256 key, u64 field1, u64 field2) {
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if (key == Key256{})
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return;
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SetKey(id, key, field1, field2);
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}
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const boost::container::flat_map<std::string, KeyIndex<S128KeyType>> KeyManager::s128_file_id = {
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const boost::container::flat_map<std::string, KeyIndex<S128KeyType>> KeyManager::s128_file_id = {
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{"eticket_rsa_kek", {S128KeyType::ETicketRSAKek, 0, 0}},
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{"eticket_rsa_kek", {S128KeyType::ETicketRSAKek, 0, 0}},
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{"eticket_rsa_kek_source",
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{"eticket_rsa_kek_source",
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@ -138,9 +138,12 @@ public:
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// 8*43 and the private file to exist.
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// 8*43 and the private file to exist.
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void DeriveSDSeedLazy();
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void DeriveSDSeedLazy();
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bool BaseDeriveNecessary();
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void DeriveBase();
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private:
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private:
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boost::container::flat_map<KeyIndex<S128KeyType>, Key128> s128_keys;
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std::map<KeyIndex<S128KeyType>, Key128> s128_keys;
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boost::container::flat_map<KeyIndex<S256KeyType>, Key256> s256_keys;
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std::map<KeyIndex<S256KeyType>, Key256> s256_keys;
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std::array<std::array<u8, 0xB0>, 0x20> encrypted_keyblobs{};
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std::array<std::array<u8, 0xB0>, 0x20> encrypted_keyblobs{};
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std::array<std::array<u8, 0x90>, 0x20> keyblobs{};
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std::array<std::array<u8, 0x90>, 0x20> keyblobs{};
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@ -148,8 +151,12 @@ private:
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void LoadFromFile(const std::string& filename, bool is_title_keys);
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void LoadFromFile(const std::string& filename, bool is_title_keys);
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void AttemptLoadKeyFile(const std::string& dir1, const std::string& dir2,
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void AttemptLoadKeyFile(const std::string& dir1, const std::string& dir2,
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const std::string& filename, bool title);
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const std::string& filename, bool title);
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template <std::size_t Size>
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template <size_t Size>
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void WriteKeyToFile(bool title_key, std::string_view keyname, const std::array<u8, Size>& key);
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void WriteKeyToFile(KeyCategory category, std::string_view keyname,
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const std::array<u8, Size>& key);
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void SetKeyWrapped(S128KeyType id, Key128 key, u64 field1 = 0, u64 field2 = 0);
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void SetKeyWrapped(S256KeyType id, Key256 key, u64 field1 = 0, u64 field2 = 0);
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static const boost::container::flat_map<std::string, KeyIndex<S128KeyType>> s128_file_id;
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static const boost::container::flat_map<std::string, KeyIndex<S128KeyType>> s128_file_id;
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static const boost::container::flat_map<std::string, KeyIndex<S256KeyType>> s256_file_id;
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static const boost::container::flat_map<std::string, KeyIndex<S256KeyType>> s256_file_id;
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