Atmosphere/exosphere2/program/source/smc/secmon_smc_rsa.cpp

184 lines
7.7 KiB
C++

/*
* Copyright (c) 2018-2020 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 <exosphere.hpp>
#include "../secmon_error.hpp"
#include "../secmon_key_storage.hpp"
#include "secmon_smc_aes.hpp"
#include "secmon_smc_rsa.hpp"
#include "secmon_smc_se_lock.hpp"
#include "secmon_page_mapper.hpp"
namespace ams::secmon::smc {
namespace {
struct PrepareEsDeviceUniqueKeyOption {
using KeyGeneration = util::BitPack32::Field<0, 6, int>;
using Type = util::BitPack32::Field<6, 1, EsCommonKeyType>;
using Reserved = util::BitPack32::Field<7, 25, u32>;
};
class PrepareEsDeviceUniqueKeyAsyncArguments {
private:
int generation;
EsCommonKeyType type;
u8 label_digest[crypto::Sha256Generator::HashSize];
public:
void Set(int gen, EsCommonKeyType t, const u8 ld[crypto::Sha256Generator::HashSize]) {
this->generation = gen;
this->type = t;
std::memcpy(this->label_digest, ld, sizeof(this->label_digest));
}
int GetKeyGeneration() const { return this->generation; }
EsCommonKeyType GetCommonKeyType() const { return this->type; }
void GetLabelDigest(u8 dst[crypto::Sha256Generator::HashSize]) const { std::memcpy(dst, this->label_digest, sizeof(this->label_digest)); }
};
class ModularExponentiateByStorageKeyAsyncArguments {
private:
u8 msg[se::RsaSize];
public:
void Set(const void *m, size_t m_size) {
std::memcpy(this->msg, m, sizeof(this->msg));
}
void GetMessage(void *dst, size_t dst_size) const { std::memcpy(dst, this->msg, sizeof(this->msg)); }
};
constinit bool g_exp_mod_completed = false;
constinit union {
ModularExponentiateByStorageKeyAsyncArguments modular_exponentiate_by_storage_key;
PrepareEsDeviceUniqueKeyAsyncArguments prepare_es_device_unique_key;
} g_async_arguments;
ALWAYS_INLINE ModularExponentiateByStorageKeyAsyncArguments &GetModularExponentiateByStorageKeyAsyncArguments() {
return g_async_arguments.modular_exponentiate_by_storage_key;
}
ALWAYS_INLINE PrepareEsDeviceUniqueKeyAsyncArguments &GetPrepareEsDeviceUniqueKeyAsyncArguments() {
return g_async_arguments.prepare_es_device_unique_key;
}
void SecurityEngineDoneHandler() {
/* End the asynchronous operation. */
g_exp_mod_completed = true;
EndAsyncOperation();
}
SmcResult PrepareEsDeviceUniqueKeyImpl(SmcArguments &args) {
/* Decode arguments. */
u8 label_digest[crypto::Sha256Generator::HashSize];
const uintptr_t msg_address = args.r[1];
const uintptr_t mod_address = args.r[2];
std::memcpy(label_digest, std::addressof(args.r[3]), sizeof(label_digest));
const util::BitPack32 option = { static_cast<u32>(args.r[7]) };
const auto generation = GetTargetFirmware() >= TargetFirmware_3_0_0 ? std::max(0, option.Get<PrepareEsDeviceUniqueKeyOption::KeyGeneration>() - 1) : 0;
const auto type = option.Get<PrepareEsDeviceUniqueKeyOption::Type>();
const auto reserved = option.Get<PrepareEsDeviceUniqueKeyOption::Reserved>();
/* Validate arguments. */
SMC_R_UNLESS(reserved == 0, InvalidArgument);
SMC_R_UNLESS(pkg1::IsValidKeyGeneration(generation), InvalidArgument);
SMC_R_UNLESS(generation <= GetKeyGeneration(), InvalidArgument);
SMC_R_UNLESS(type < EsCommonKeyType_Count, InvalidArgument);
/* Copy the message and modulus from the user. */
alignas(8) u8 msg[se::RsaSize];
alignas(8) u8 mod[se::RsaSize];
{
UserPageMapper mapper(msg_address);
SMC_R_UNLESS(mapper.Map(), InvalidArgument);
SMC_R_UNLESS(mapper.CopyFromUser(msg, msg_address, sizeof(msg)), InvalidArgument);
SMC_R_UNLESS(mapper.CopyFromUser(mod, mod_address, sizeof(mod)), InvalidArgument);
}
/* We're performing an operation, so the operation is not completed. */
g_exp_mod_completed = false;
/* Set the async arguments. */
GetPrepareEsDeviceUniqueKeyAsyncArguments().Set(generation, type, label_digest);
/* Load the es drm key into the security engine. */
SMC_R_UNLESS(LoadRsaKey(pkg1::RsaKeySlot_Temporary, ImportRsaKey_EsDrmCert), NotInitialized);
/* Trigger the asynchronous modular exponentiation. */
se::ModularExponentiateAsync(pkg1::RsaKeySlot_Temporary, msg, sizeof(msg), SecurityEngineDoneHandler);
return SmcResult::Success;
}
SmcResult GetPrepareEsDeviceUniqueKeyResult(void *dst, size_t dst_size) {
/* Declare variables. */
u8 key_source[se::AesBlockSize];
u8 key[se::AesBlockSize];
u8 access_key[se::AesBlockSize];
/* Validate state. */
SMC_R_UNLESS(g_exp_mod_completed, Busy);
SMC_R_UNLESS(dst_size == sizeof(access_key), InvalidArgument);
/* We want to relinquish our security engine lock at the end of scope. */
ON_SCOPE_EXIT { UnlockSecurityEngine(); };
/* Get the async args. */
const auto &async_args = GetPrepareEsDeviceUniqueKeyAsyncArguments();
/* Get the exponentiation output. */
alignas(8) u8 msg[se::RsaSize];
se::GetRsaResult(msg, sizeof(msg));
/* Decode the key. */
{
/* Get the label digest. */
u8 label_digest[crypto::Sha256Generator::HashSize];
async_args.GetLabelDigest(label_digest);
/* Decode the key source. */
const size_t key_source_size = se::DecodeRsaOaepSha256(key_source, sizeof(key_source), msg, sizeof(msg), label_digest, sizeof(label_digest));
SMC_R_UNLESS(key_source_size == sizeof(key_source), InvalidArgument);
}
/* Decrypt the key. */
DecryptWithEsCommonKey(key, sizeof(key), key_source, sizeof(key_source), async_args.GetCommonKeyType(), async_args.GetKeyGeneration());
PrepareEsAesKey(access_key, sizeof(access_key), key, sizeof(key));
/* Copy the access key to output. */
std::memcpy(dst, access_key, sizeof(access_key));
return SmcResult::Success;
}
}
SmcResult SmcModularExponentiate(SmcArguments &args) {
/* TODO */
return SmcResult::NotImplemented;
}
SmcResult SmcModularExponentiateByStorageKey(SmcArguments &args) {
/* TODO */
return SmcResult::NotImplemented;
}
SmcResult SmcPrepareEsDeviceUniqueKey(SmcArguments &args) {
return LockSecurityEngineAndInvokeAsync(args, PrepareEsDeviceUniqueKeyImpl, GetPrepareEsDeviceUniqueKeyResult);
}
}