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Atmosphere/libraries/libstratosphere/source/gc/impl/gc_gc_crypto.cpp

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/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
namespace ams::gc::impl {
bool GcCrypto::CheckDevelopmentSpl() {
return spl::IsDevelopment();
}
Result GcCrypto::DecryptAesKeySpl(void *dst, size_t dst_size, const void *src, size_t src_size, s32 generation, u32 option) {
R_UNLESS(R_SUCCEEDED(spl::DecryptAesKey(dst, dst_size, src, src_size, generation, option)), fs::ResultGameCardSplDecryptAesKeyFailure());
R_SUCCEED();
}
Result GcCrypto::VerifyCardHeader(const void *header_buffer, size_t header_size, const void *modulus, size_t modulus_size) {
/* Check pre-conditions. */
AMS_ABORT_UNLESS(header_size == sizeof(CardHeaderWithSignature));
AMS_ABORT_UNLESS(modulus_size == GcRsaKeyLength);
/* Get cert buffer as type. */
const auto * const header = static_cast<const CardHeaderWithSignature *>(header_buffer);
/* Verify the signature. */
const void *mod = modulus != nullptr ? modulus : EmbeddedDataHolder::s_ca10_modulus;
const size_t mod_size = GcRsaKeyLength;
const void *exp = EmbeddedDataHolder::s_ca_public_exponent;
const size_t exp_size = GcRsaPublicExponentLength;
const void *sig = header->signature;
const size_t sig_size = sizeof(header->signature);
const void *msg = std::addressof(header->data);
const size_t msg_size = sizeof(header->data);
const bool is_signature_valid = crypto::VerifyRsa2048Pkcs1Sha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
R_UNLESS(is_signature_valid, fs::ResultGameCardInvalidCardHeader());
R_SUCCEED();
}
Result GcCrypto::VerifyT1CardCertificate(const void *cert_buffer, size_t cert_size) {
/* Check pre-conditions. */
R_UNLESS(cert_size == sizeof(T1CardCertificate), fs::ResultGameCardPreconditionViolation());
/* Get cert buffer as type. */
const auto * const cert = static_cast<const T1CardCertificate *>(cert_buffer);
/* Verify the signature. */
const void *mod = EmbeddedDataHolder::s_ca9_modulus;
const size_t mod_size = GcRsaKeyLength;
const void *exp = EmbeddedDataHolder::s_ca_public_exponent;
const size_t exp_size = GcRsaPublicExponentLength;
const void *sig = cert->signature;
const size_t sig_size = sizeof(cert->signature);
const void *msg = reinterpret_cast<const u8 *>(cert) + sig_size;
const size_t msg_size = sizeof(*cert) - (sig_size + sizeof(cert->padding));
const bool is_signature_valid = crypto::VerifyRsa2048Pkcs1Sha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
R_UNLESS(is_signature_valid, fs::ResultGameCardInvalidT1CardCertificate());
R_SUCCEED();
}
Result GcCrypto::VerifyCa10Certificate(const void *cert_buffer, size_t cert_size) {
/* Check pre-conditions. */
R_UNLESS(cert_size == sizeof(Ca10Certificate), fs::ResultGameCardPreconditionViolation());
/* Get header buffer as type. */
const auto * const cert = static_cast<const Ca10Certificate *>(cert_buffer);
/* Verify the signature. */
const void *mod = EmbeddedDataHolder::s_ca10_certificate_modulus;
const size_t mod_size = GcRsaKeyLength;
const void *exp = EmbeddedDataHolder::s_ca_public_exponent;
const size_t exp_size = GcRsaPublicExponentLength;
const void *sig = cert->signature;
const size_t sig_size = sizeof(cert->signature);
const void *msg = reinterpret_cast<const u8 *>(cert) + sig_size;
const size_t msg_size = sizeof(*cert) - sig_size;
const bool is_signature_valid = crypto::VerifyRsa2048Pkcs1Sha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
R_UNLESS(is_signature_valid, fs::ResultGameCardInvalidCa10Certificate());
R_SUCCEED();
}
Result GcCrypto::EncryptCardHeader(void *header_buffer, size_t header_size) {
/* Check pre-conditions. */
R_UNLESS(header_size == sizeof(CardHeader), fs::ResultGameCardPreconditionViolation());
/* Get header buffer as type. */
auto * const header = static_cast<CardHeader *>(header_buffer);
/* Construct iv. */
u8 iv[GcAesCbcIvLength];
for (size_t i = 0; i < GcAesCbcIvLength; ++i) {
iv[i] = header->iv[GcAesCbcIvLength - 1 - i];
}
/* Encrypt. */
crypto::EncryptAes128Cbc(std::addressof(header->encrypted_data), sizeof(header->encrypted_data), EmbeddedDataHolder::s_card_header_key, GcAesKeyLength, iv, GcAesCbcIvLength, std::addressof(header->encrypted_data), sizeof(header->encrypted_data));
R_SUCCEED();
}
Result GcCrypto::DecryptCardHeader(void *header_buffer, size_t header_size) {
/* Check pre-conditions. */
R_UNLESS(header_size == sizeof(CardHeader), fs::ResultGameCardPreconditionViolation());
/* Get header buffer as type. */
auto * const header = static_cast<CardHeader *>(header_buffer);
/* Construct iv. */
u8 iv[GcAesCbcIvLength];
for (size_t i = 0; i < GcAesCbcIvLength; ++i) {
iv[i] = header->iv[GcAesCbcIvLength - 1 - i];
}
/* Decrypt. */
crypto::DecryptAes128Cbc(std::addressof(header->encrypted_data), sizeof(header->encrypted_data), EmbeddedDataHolder::s_card_header_key, GcAesKeyLength, iv, GcAesCbcIvLength, std::addressof(header->encrypted_data), sizeof(header->encrypted_data));
R_SUCCEED();
}
Result GcCrypto::DecryptCardInitialData(void *dst, size_t dst_size, const void *initial_data, size_t data_size, size_t kek_index) {
/* Check pre-conditions. */
R_UNLESS(data_size == sizeof(CardInitialData), fs::ResultGameCardPreconditionViolation());
R_UNLESS(kek_index < GcTitleKeyKekIndexMax, fs::ResultGameCardPreconditionViolation());
/* Verify the kek is preset. */
const void * const kek = EmbeddedDataHolder::s_titlekey_keks[kek_index];
{
u8 zeros[GcAesKeyLength] = {};
R_UNLESS(!crypto::IsSameBytes(kek, zeros, sizeof(zeros)), fs::ResultGameCardPreconditionViolation());
}
/*Generate the key. */
u8 key[GcAesKeyLength];
{
crypto::AesDecryptor128 aes;
aes.Initialize(kek, GcAesKeyLength);
aes.DecryptBlock(key, sizeof(key), initial_data, 0x10);
}
/* Get data buffer as type. */
const auto * const data = static_cast<const CardInitialData *>(initial_data);
R_UNLESS(dst_size == sizeof(data->payload.auth_data), fs::ResultGameCardPreconditionViolation());
/* Verify padding is all-zero. */
bool any_nonzero = false;
for (size_t i = 0; i < util::size(data->padding); ++i) {
any_nonzero |= data->padding[i] != 0;
}
R_UNLESS(!any_nonzero, fs::ResultGameCardInitialNotFilledWithZero());
/* Decrypt the auth data. */
u8 mac[sizeof(data->payload.auth_mac)];
crypto::DecryptAes128Ccm(dst, dst_size, mac, sizeof(mac), key, GcAesKeyLength, data->payload.auth_nonce, sizeof(data->payload.auth_nonce), data->payload.auth_data, sizeof(data->payload.auth_data), nullptr, 0, sizeof(mac));
/* Check the mac. */
R_UNLESS(crypto::IsSameBytes(mac, data->payload.auth_mac, sizeof(mac)), fs::ResultGameCardKekIndexMismatch());
R_SUCCEED();
}
}