mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
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435 lines
18 KiB
C++
435 lines
18 KiB
C++
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/*
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* Copyright (c) 2018-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stratosphere.hpp>
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namespace ams::fssystem {
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namespace {
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constexpr inline u32 SdkAddonVersionMin = 0x000B0000;
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constexpr Result CheckNcaMagic(u32 magic) {
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/* Verify the magic is not a deprecated one. */
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R_UNLESS(magic != NcaHeader::Magic0, fs::ResultUnsupportedSdkVersion());
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R_UNLESS(magic != NcaHeader::Magic1, fs::ResultUnsupportedSdkVersion());
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R_UNLESS(magic != NcaHeader::Magic2, fs::ResultUnsupportedSdkVersion());
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/* Verify the magic is the current one. */
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R_UNLESS(magic == NcaHeader::Magic3, fs::ResultInvalidNcaSignature());
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return ResultSuccess();
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}
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}
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NcaReader::NcaReader() : shared_base_storage(), header_storage(), body_storage(), decrypt_aes_ctr(), decrypt_aes_ctr_external(), is_software_aes_prioritized(false), header_encryption_type(NcaHeader::EncryptionType::Auto) {
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std::memset(std::addressof(this->header), 0, sizeof(this->header));
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std::memset(std::addressof(this->decryption_keys), 0, sizeof(this->decryption_keys));
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std::memset(std::addressof(this->external_decryption_key), 0, sizeof(this->external_decryption_key));
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}
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NcaReader::~NcaReader() {
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/* ... */
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}
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Result NcaReader::Initialize(std::shared_ptr<fs::IStorage> base_storage, const NcaCryptoConfiguration &crypto_cfg) {
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this->shared_base_storage = base_storage;
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return this->Initialize(this->shared_base_storage.get(), crypto_cfg);
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}
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Result NcaReader::Initialize(fs::IStorage *base_storage, const NcaCryptoConfiguration &crypto_cfg) {
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/* Validate preconditions. */
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AMS_ASSERT(base_storage != nullptr);
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AMS_ASSERT(this->body_storage == nullptr);
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R_UNLESS(crypto_cfg.generate_key != nullptr, fs::ResultInvalidArgument());
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/* Generate keys for header. */
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u8 header_decryption_keys[NcaCryptoConfiguration::HeaderEncryptionKeyCount][NcaCryptoConfiguration::Aes128KeySize];
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for (size_t i = 0; i < NcaCryptoConfiguration::HeaderEncryptionKeyCount; i++) {
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crypto_cfg.generate_key(header_decryption_keys[i], AesXtsStorage::KeySize, crypto_cfg.header_encrypted_encryption_keys[i], AesXtsStorage::KeySize, static_cast<s32>(KeyType::NcaHeaderKey), crypto_cfg);
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}
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/* Create the header storage. */
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const u8 header_iv[AesXtsStorage::IvSize] = {};
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std::unique_ptr<fs::IStorage> work_header_storage = std::make_unique<AesXtsStorage>(base_storage, header_decryption_keys[0], header_decryption_keys[1], AesXtsStorage::KeySize, header_iv, AesXtsStorage::IvSize, NcaHeader::XtsBlockSize);
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R_UNLESS(work_header_storage != nullptr, fs::ResultAllocationFailureInNcaReaderA());
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/* Read the header. */
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R_TRY(work_header_storage->Read(0, std::addressof(this->header), sizeof(this->header)));
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/* Validate the magic. */
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if (Result magic_result = CheckNcaMagic(this->header.magic); R_FAILED(magic_result)) {
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/* If we're not allowed to use plaintext headers, stop here. */
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R_UNLESS(crypto_cfg.is_plaintext_header_available, magic_result);
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/* Try to use a plaintext header. */
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R_TRY(base_storage->Read(0, std::addressof(this->header), sizeof(this->header)));
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R_UNLESS(R_SUCCEEDED(CheckNcaMagic(this->header.magic)), magic_result);
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/* Configure to use the plaintext header. */
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s64 base_storage_size;
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R_TRY(base_storage->GetSize(std::addressof(base_storage_size)));
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work_header_storage.reset(new fs::SubStorage(base_storage, 0, base_storage_size));
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R_UNLESS(work_header_storage != nullptr, fs::ResultAllocationFailureInNcaReaderA());
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this->header_encryption_type = NcaHeader::EncryptionType::None;
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}
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/* Validate the fixed key signature. */
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R_UNLESS(this->header.header1_signature_key_generation <= NcaCryptoConfiguration::Header1SignatureKeyGenerationMax, fs::ResultInvalidNcaHeader1SignatureKeyGeneration());
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const u8 *header_1_sign_key_modulus = crypto_cfg.header_1_sign_key_moduli[this->header.header1_signature_key_generation];
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AMS_ABORT_UNLESS(header_1_sign_key_modulus != nullptr);
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{
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const u8 *sig = this->header.header_sign_1;
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const size_t sig_size = NcaHeader::HeaderSignSize;
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const u8 *mod = header_1_sign_key_modulus;
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const size_t mod_size = NcaCryptoConfiguration::Rsa2048KeyModulusSize;
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const u8 *exp = crypto_cfg.header_1_sign_key_public_exponent;
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const size_t exp_size = NcaCryptoConfiguration::Rsa2048KeyPublicExponentSize;
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const u8 *msg = static_cast<const u8 *>(static_cast<const void *>(std::addressof(this->header.magic)));
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const size_t msg_size = NcaHeader::Size - NcaHeader::HeaderSignSize * NcaHeader::HeaderSignCount;
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const bool is_signature_valid = crypto::VerifyRsa2048PssSha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
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R_UNLESS(is_signature_valid, fs::ResultNcaHeaderSignature1VerificationFailed());
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}
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/* Validate the sdk version. */
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R_UNLESS(this->header.sdk_addon_version >= SdkAddonVersionMin, fs::ResultUnsupportedSdkVersion());
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/* Validate the key index. */
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R_UNLESS(this->header.key_index < NcaCryptoConfiguration::KeyAreaEncryptionKeyIndexCount, fs::ResultInvalidNcaKeyIndex());
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/* Check if we have a rights id. */
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constexpr const u8 ZeroRightsId[NcaHeader::RightsIdSize] = {};
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if (crypto::IsSameBytes(ZeroRightsId, this->header.rights_id, NcaHeader::RightsIdSize)) {
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/* If we do, then we don't have an external key, so we need to generate decryption keys. */
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crypto_cfg.generate_key(this->decryption_keys[NcaHeader::DecryptionKey_AesCtr], crypto::AesDecryptor128::KeySize, this->header.encrypted_key_area + NcaHeader::DecryptionKey_AesCtr * crypto::AesDecryptor128::KeySize, crypto::AesDecryptor128::KeySize, GetKeyTypeValue(this->header.key_index, this->header.GetProperKeyGeneration()), crypto_cfg);
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/* Copy the hardware speed emulation key. */
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std::memcpy(this->decryption_keys[NcaHeader::DecryptionKey_AesCtrHw], this->header.encrypted_key_area + NcaHeader::DecryptionKey_AesCtrHw * crypto::AesDecryptor128::KeySize, crypto::AesDecryptor128::KeySize);
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}
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/* Clear the external decryption key. */
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std::memset(this->external_decryption_key, 0, sizeof(this->external_decryption_key));
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/* Set our decryptor functions. */
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this->decrypt_aes_ctr = crypto_cfg.decrypt_aes_ctr;
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this->decrypt_aes_ctr_external = crypto_cfg.decrypt_aes_ctr_external;
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/* Set our storages. */
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this->header_storage = std::move(work_header_storage);
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this->body_storage = base_storage;
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return ResultSuccess();
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}
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fs::IStorage *NcaReader::GetBodyStorage() {
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return this->body_storage;
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}
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u32 NcaReader::GetMagic() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.magic;
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}
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NcaHeader::DistributionType NcaReader::GetDistributionType() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.distribution_type;
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}
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NcaHeader::ContentType NcaReader::GetContentType() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.content_type;
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}
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u8 NcaReader::GetKeyGeneration() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.GetProperKeyGeneration();
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}
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u8 NcaReader::GetKeyIndex() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.key_index;
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}
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u64 NcaReader::GetContentSize() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.content_size;
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}
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u64 NcaReader::GetProgramId() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.program_id;
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}
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u32 NcaReader::GetContentIndex() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.content_index;
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}
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u32 NcaReader::GetSdkAddonVersion() const {
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AMS_ASSERT(this->body_storage != nullptr);
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return this->header.sdk_addon_version;
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}
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void NcaReader::GetRightsId(u8 *dst, size_t dst_size) const {
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AMS_ASSERT(dst != nullptr);
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AMS_ASSERT(dst_size >= NcaHeader::RightsIdSize);
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std::memcpy(dst, this->header.rights_id, NcaHeader::RightsIdSize);
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}
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bool NcaReader::HasFsInfo(s32 index) const {
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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return this->header.fs_info[index].start_sector != 0 || this->header.fs_info[index].end_sector != 0;
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}
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s32 NcaReader::GetFsCount() const {
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AMS_ASSERT(this->body_storage != nullptr);
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for (s32 i = 0; i < NcaHeader::FsCountMax; i++) {
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if (!this->HasFsInfo(i)) {
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return i;
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}
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}
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return NcaHeader::FsCountMax;
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}
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const Hash &NcaReader::GetFsHeaderHash(s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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return this->header.fs_header_hash[index];
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}
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void NcaReader::GetFsHeaderHash(Hash *dst, s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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AMS_ASSERT(dst != nullptr);
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std::memcpy(dst, std::addressof(this->header.fs_header_hash[index]), sizeof(*dst));
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}
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void NcaReader::GetFsInfo(NcaHeader::FsInfo *dst, s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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AMS_ASSERT(dst != nullptr);
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std::memcpy(dst, std::addressof(this->header.fs_info[index]), sizeof(*dst));
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}
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u64 NcaReader::GetFsOffset(s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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return NcaHeader::SectorToByte(this->header.fs_info[index].start_sector);
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}
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u64 NcaReader::GetFsEndOffset(s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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return NcaHeader::SectorToByte(this->header.fs_info[index].end_sector);
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}
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u64 NcaReader::GetFsSize(s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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return NcaHeader::SectorToByte(this->header.fs_info[index].end_sector - this->header.fs_info[index].start_sector);
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}
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void NcaReader::GetEncryptedKey(void *dst, size_t size) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(dst != nullptr);
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AMS_ASSERT(size >= NcaHeader::EncryptedKeyAreaSize);
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std::memcpy(dst, this->header.encrypted_key_area, NcaHeader::EncryptedKeyAreaSize);
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}
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const void *NcaReader::GetDecryptionKey(s32 index) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::DecryptionKey_Count);
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return this->decryption_keys[index];
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}
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bool NcaReader::HasValidInternalKey() const {
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constexpr const u8 ZeroKey[crypto::AesDecryptor128::KeySize] = {};
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for (s32 i = 0; i < NcaHeader::DecryptionKey_Count; i++) {
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if (!crypto::IsSameBytes(ZeroKey, this->header.encrypted_key_area + i * crypto::AesDecryptor128::KeySize, crypto::AesDecryptor128::KeySize)) {
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return true;
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}
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}
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return false;
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}
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bool NcaReader::HasInternalDecryptionKeyForAesHardwareSpeedEmulation() const {
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constexpr const u8 ZeroKey[crypto::AesDecryptor128::KeySize] = {};
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return !crypto::IsSameBytes(ZeroKey, this->GetDecryptionKey(NcaHeader::DecryptionKey_AesCtrHw), crypto::AesDecryptor128::KeySize);
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}
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bool NcaReader::IsSoftwareAesPrioritized() const {
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return this->is_software_aes_prioritized;
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}
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void NcaReader::PrioritizeSoftwareAes() {
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this->is_software_aes_prioritized = true;
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}
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bool NcaReader::HasExternalDecryptionKey() const {
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constexpr const u8 ZeroKey[crypto::AesDecryptor128::KeySize] = {};
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return !crypto::IsSameBytes(ZeroKey, this->GetExternalDecryptionKey(), crypto::AesDecryptor128::KeySize);
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}
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const void *NcaReader::GetExternalDecryptionKey() const {
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return this->external_decryption_key;
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}
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void NcaReader::SetExternalDecryptionKey(const void *src, size_t size) {
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AMS_ASSERT(src != nullptr);
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AMS_ASSERT(size == sizeof(this->external_decryption_key));
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std::memcpy(this->external_decryption_key, src, sizeof(this->external_decryption_key));
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}
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void NcaReader::GetRawData(void *dst, size_t dst_size) const {
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AMS_ASSERT(this->body_storage != nullptr);
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AMS_ASSERT(dst != nullptr);
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AMS_ASSERT(dst_size >= sizeof(NcaHeader));
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std::memcpy(dst, std::addressof(this->header), sizeof(NcaHeader));
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}
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DecryptAesCtrFunction NcaReader::GetExternalDecryptAesCtrFunction() const {
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AMS_ASSERT(this->decrypt_aes_ctr != nullptr);
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return this->decrypt_aes_ctr;
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}
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DecryptAesCtrFunction NcaReader::GetExternalDecryptAesCtrFunctionForExternalKey() const {
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AMS_ASSERT(this->decrypt_aes_ctr_external != nullptr);
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return this->decrypt_aes_ctr_external;
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}
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NcaHeader::EncryptionType NcaReader::GetEncryptionType() const {
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return this->header_encryption_type;
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}
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Result NcaReader::ReadHeader(NcaFsHeader *dst, s32 index) const {
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AMS_ASSERT(dst != nullptr);
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AMS_ASSERT(0 <= index && index < NcaHeader::FsCountMax);
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const s64 offset = sizeof(NcaHeader) + sizeof(NcaFsHeader) * index;
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return this->header_storage->Read(offset, dst, sizeof(NcaFsHeader));
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}
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Result NcaReader::VerifyHeaderSign2(const void *mod, size_t mod_size) {
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AMS_ASSERT(this->body_storage != nullptr);
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constexpr const u8 HeaderSign2KeyPublicExponent[] = { 0x01, 0x00, 0x01 };
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const u8 *sig = this->header.header_sign_2;
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const size_t sig_size = NcaHeader::HeaderSignSize;
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const u8 *exp = HeaderSign2KeyPublicExponent;
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const size_t exp_size = sizeof(HeaderSign2KeyPublicExponent);
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const u8 *msg = static_cast<const u8 *>(static_cast<const void *>(std::addressof(this->header.magic)));
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const size_t msg_size = NcaHeader::Size - NcaHeader::HeaderSignSize * NcaHeader::HeaderSignCount;
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const bool is_signature_valid = crypto::VerifyRsa2048PssSha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
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R_UNLESS(is_signature_valid, fs::ResultNcaHeaderSignature2VerificationFailed());
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return ResultSuccess();
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}
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Result NcaFsHeaderReader::Initialize(const NcaReader &reader, s32 index) {
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/* Reset ourselves to uninitialized. */
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this->fs_index = -1;
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/* Read the header. */
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R_TRY(reader.ReadHeader(std::addressof(this->data), index));
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/* Generate the hash. */
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Hash hash;
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crypto::GenerateSha256Hash(std::addressof(hash), sizeof(hash), std::addressof(this->data), sizeof(NcaFsHeader));
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/* Validate the hash. */
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R_UNLESS(crypto::IsSameBytes(std::addressof(reader.GetFsHeaderHash(index)), std::addressof(hash), sizeof(Hash)), fs::ResultNcaFsHeaderHashVerificationFailed());
|
||
|
|
||
|
/* Set our index. */
|
||
|
this->fs_index = index;
|
||
|
return ResultSuccess();
|
||
|
}
|
||
|
|
||
|
void NcaFsHeaderReader::GetRawData(void *dst, size_t dst_size) const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
AMS_ASSERT(dst != nullptr);
|
||
|
AMS_ASSERT(dst_size >= sizeof(NcaFsHeader));
|
||
|
std::memcpy(dst, std::addressof(this->data), sizeof(NcaFsHeader));
|
||
|
}
|
||
|
|
||
|
NcaFsHeader::HashData &NcaFsHeaderReader::GetHashData() {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.hash_data;
|
||
|
}
|
||
|
|
||
|
const NcaFsHeader::HashData &NcaFsHeaderReader::GetHashData() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.hash_data;
|
||
|
}
|
||
|
|
||
|
u16 NcaFsHeaderReader::GetVersion() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.version;
|
||
|
}
|
||
|
|
||
|
s32 NcaFsHeaderReader::GetFsIndex() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->fs_index;
|
||
|
}
|
||
|
|
||
|
NcaFsHeader::FsType NcaFsHeaderReader::GetFsType() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.fs_type;
|
||
|
}
|
||
|
|
||
|
NcaFsHeader::HashType NcaFsHeaderReader::GetHashType() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.hash_type;
|
||
|
}
|
||
|
|
||
|
NcaFsHeader::EncryptionType NcaFsHeaderReader::GetEncryptionType() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.encryption_type;
|
||
|
}
|
||
|
|
||
|
NcaPatchInfo &NcaFsHeaderReader::GetPatchInfo() {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.patch_info;
|
||
|
}
|
||
|
|
||
|
const NcaPatchInfo &NcaFsHeaderReader::GetPatchInfo() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.patch_info;
|
||
|
}
|
||
|
|
||
|
const NcaAesCtrUpperIv NcaFsHeaderReader::GetAesCtrUpperIv() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.aes_ctr_upper_iv;
|
||
|
}
|
||
|
|
||
|
bool NcaFsHeaderReader::ExistsSparseLayer() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.sparse_info.generation != 0;
|
||
|
}
|
||
|
|
||
|
NcaSparseInfo &NcaFsHeaderReader::GetSparseInfo() {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.sparse_info;
|
||
|
}
|
||
|
|
||
|
const NcaSparseInfo &NcaFsHeaderReader::GetSparseInfo() const {
|
||
|
AMS_ASSERT(this->IsInitialized());
|
||
|
return this->data.sparse_info;
|
||
|
}
|
||
|
|
||
|
}
|