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Atmosphere/stratosphere/spl/source/spl_api_impl.cpp

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/*
* Copyright (c) 2018-2020 Atmosphère-NX
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*
* 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/>.
*/
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#include "spl_api_impl.hpp"
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#include "spl_ctr_drbg.hpp"
namespace ams::spl::impl {
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namespace {
/* Convenient defines. */
constexpr size_t DeviceAddressSpaceAlign = 0x400000;
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constexpr u32 WorkBufferMapBase = 0x80000000u;
constexpr u32 CryptAesInMapBase = 0x90000000u;
constexpr u32 CryptAesOutMapBase = 0xC0000000u;
constexpr size_t CryptAesSizeMax = static_cast<size_t>(CryptAesOutMapBase - CryptAesInMapBase);
constexpr size_t RsaPrivateKeySize = 0x100;
constexpr size_t RsaPrivateKeyMetaSize = 0x30;
constexpr size_t LabelDigestSizeMax = 0x20;
constexpr size_t WorkBufferSizeMax = 0x800;
constexpr size_t MaxAesKeyslots = 6;
constexpr size_t MaxAesKeyslotsDeprecated = 4;
/* Max Keyslots helper. */
inline size_t GetMaxKeyslots() {
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return (hos::GetVersion() >= hos::Version_6_0_0) ? MaxAesKeyslots : MaxAesKeyslotsDeprecated;
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}
/* Type definitions. */
class ScopedAesKeyslot {
private:
u32 slot;
bool has_slot;
public:
ScopedAesKeyslot() : slot(0), has_slot(false) {
/* ... */
}
~ScopedAesKeyslot() {
if (this->has_slot) {
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FreeAesKeyslot(slot, this);
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}
}
u32 GetKeyslot() const {
return this->slot;
}
Result Allocate() {
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R_TRY(AllocateAesKeyslot(&this->slot, this));
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this->has_slot = true;
return ResultSuccess();
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}
};
struct SeLinkedListEntry {
u32 num_entries;
u32 address;
u32 size;
};
struct SeCryptContext {
SeLinkedListEntry in;
SeLinkedListEntry out;
};
class DeviceAddressSpaceMapHelper {
private:
Handle das_hnd;
u64 dst_addr;
u64 src_addr;
size_t size;
u32 perm;
public:
DeviceAddressSpaceMapHelper(Handle h, u64 dst, u64 src, size_t sz, u32 p) : das_hnd(h), dst_addr(dst), src_addr(src), size(sz), perm(p) {
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R_ABORT_UNLESS(svcMapDeviceAddressSpaceAligned(this->das_hnd, dd::GetCurrentProcessHandle(), this->src_addr, this->size, this->dst_addr, this->perm));
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}
~DeviceAddressSpaceMapHelper() {
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R_ABORT_UNLESS(svcUnmapDeviceAddressSpace(this->das_hnd, dd::GetCurrentProcessHandle(), this->src_addr, this->size, this->dst_addr));
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}
};
/* Global variables. */
CtrDrbg g_drbg;
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os::InterruptEventType g_se_event;
os::SystemEventType g_se_keyslot_available_event;
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Handle g_se_das_hnd;
u32 g_se_mapped_work_buffer_addr;
alignas(os::MemoryPageSize) u8 g_work_buffer[2 * WorkBufferSizeMax];
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os::Mutex g_async_op_lock(false);
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const void *g_keyslot_owners[MaxAesKeyslots];
BootReasonValue g_boot_reason;
bool g_boot_reason_set;
/* Boot Reason accessors. */
BootReasonValue GetBootReason() {
return g_boot_reason;
}
bool IsBootReasonSet() {
return g_boot_reason_set;
}
/* Initialization functionality. */
void InitializeCtrDrbg() {
u8 seed[CtrDrbg::SeedSize];
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AMS_ABORT_UNLESS(smc::GenerateRandomBytes(seed, sizeof(seed)) == smc::Result::Success);
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g_drbg.Initialize(seed);
}
void InitializeSeEvents() {
u64 irq_num;
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AMS_ABORT_UNLESS(smc::GetConfig(&irq_num, 1, SplConfigItem_SecurityEngineIrqNumber) == smc::Result::Success);
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os::InitializeInterruptEvent(std::addressof(g_se_event), irq_num, os::EventClearMode_AutoClear);
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R_ABORT_UNLESS(os::CreateSystemEvent(std::addressof(g_se_keyslot_available_event), os::EventClearMode_AutoClear, true));
os::SignalSystemEvent(std::addressof(g_se_keyslot_available_event));
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}
void InitializeDeviceAddressSpace() {
/* Create Address Space. */
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R_ABORT_UNLESS(svcCreateDeviceAddressSpace(&g_se_das_hnd, 0, (1ul << 32)));
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/* Attach it to the SE. */
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R_ABORT_UNLESS(svcAttachDeviceAddressSpace(svc::DeviceName_Se, g_se_das_hnd));
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const u64 work_buffer_addr = reinterpret_cast<u64>(g_work_buffer);
g_se_mapped_work_buffer_addr = WorkBufferMapBase + (work_buffer_addr % DeviceAddressSpaceAlign);
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/* Map the work buffer for the SE. */
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R_ABORT_UNLESS(svcMapDeviceAddressSpaceAligned(g_se_das_hnd, dd::GetCurrentProcessHandle(), work_buffer_addr, sizeof(g_work_buffer), g_se_mapped_work_buffer_addr, 3));
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}
/* Internal RNG functionality. */
Result GenerateRandomBytesInternal(void *out, size_t size) {
if (!g_drbg.GenerateRandomBytes(out, size)) {
/* We need to reseed. */
{
u8 seed[CtrDrbg::SeedSize];
smc::Result res = smc::GenerateRandomBytes(seed, sizeof(seed));
if (res != smc::Result::Success) {
return smc::ConvertResult(res);
}
g_drbg.Reseed(seed);
g_drbg.GenerateRandomBytes(out, size);
}
}
return ResultSuccess();
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}
/* Internal async implementation functionality. */
void WaitSeOperationComplete() {
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os::WaitInterruptEvent(std::addressof(g_se_event));
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}
smc::Result WaitCheckStatus(smc::AsyncOperationKey op_key) {
WaitSeOperationComplete();
smc::Result op_res;
smc::Result res = smc::CheckStatus(&op_res, op_key);
if (res != smc::Result::Success) {
return res;
}
return op_res;
}
smc::Result WaitGetResult(void *out_buf, size_t out_buf_size, smc::AsyncOperationKey op_key) {
WaitSeOperationComplete();
smc::Result op_res;
smc::Result res = smc::GetResult(&op_res, out_buf, out_buf_size, op_key);
if (res != smc::Result::Success) {
return res;
}
return op_res;
}
/* Internal Keyslot utility. */
Result ValidateAesKeyslot(u32 keyslot, const void *owner) {
R_UNLESS(keyslot < GetMaxKeyslots(), spl::ResultInvalidKeyslot());
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R_UNLESS((g_keyslot_owners[keyslot] == owner || hos::GetVersion() == hos::Version_1_0_0), spl::ResultInvalidKeyslot());
return ResultSuccess();
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}
/* Helper to do a single AES block decryption. */
smc::Result DecryptAesBlock(u32 keyslot, void *dst, const void *src) {
struct DecryptAesBlockLayout {
SeCryptContext crypt_ctx;
u8 in_block[AES_BLOCK_SIZE] __attribute__((aligned(AES_BLOCK_SIZE)));
u8 out_block[AES_BLOCK_SIZE] __attribute__((aligned(AES_BLOCK_SIZE)));
};
DecryptAesBlockLayout *layout = reinterpret_cast<DecryptAesBlockLayout *>(g_work_buffer);
layout->crypt_ctx.in.num_entries = 0;
layout->crypt_ctx.in.address = g_se_mapped_work_buffer_addr + offsetof(DecryptAesBlockLayout, in_block);
layout->crypt_ctx.in.size = sizeof(layout->in_block);
layout->crypt_ctx.out.num_entries = 0;
layout->crypt_ctx.out.address = g_se_mapped_work_buffer_addr + offsetof(DecryptAesBlockLayout, out_block);
layout->crypt_ctx.out.size = sizeof(layout->out_block);
std::memcpy(layout->in_block, src, sizeof(layout->in_block));
armDCacheFlush(layout, sizeof(*layout));
{
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std::scoped_lock lk(g_async_op_lock);
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smc::AsyncOperationKey op_key;
const IvCtr iv_ctr = {};
const u32 mode = smc::GetCryptAesMode(smc::CipherMode::CbcDecrypt, keyslot);
const u32 dst_ll_addr = g_se_mapped_work_buffer_addr + offsetof(DecryptAesBlockLayout, crypt_ctx.out);
const u32 src_ll_addr = g_se_mapped_work_buffer_addr + offsetof(DecryptAesBlockLayout, crypt_ctx.in);
smc::Result res = smc::CryptAes(&op_key, mode, iv_ctr, dst_ll_addr, src_ll_addr, sizeof(layout->in_block));
if (res != smc::Result::Success) {
return res;
}
if ((res = WaitCheckStatus(op_key)) != smc::Result::Success) {
return res;
}
}
armDCacheFlush(layout, sizeof(*layout));
std::memcpy(dst, layout->out_block, sizeof(layout->out_block));
return smc::Result::Success;
}
/* Implementation wrappers for API commands. */
Result ImportSecureExpModKey(const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source, u32 option) {
struct ImportSecureExpModKeyLayout {
u8 data[RsaPrivateKeyMetaSize + 2 * RsaPrivateKeySize + 0x10];
};
ImportSecureExpModKeyLayout *layout = reinterpret_cast<ImportSecureExpModKeyLayout *>(g_work_buffer);
/* Validate size. */
R_UNLESS(src_size <= sizeof(ImportSecureExpModKeyLayout), spl::ResultInvalidSize());
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std::memcpy(layout, src, src_size);
armDCacheFlush(layout, sizeof(*layout));
smc::Result smc_res;
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if (hos::GetVersion() >= hos::Version_5_0_0) {
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smc_res = smc::DecryptOrImportRsaPrivateKey(layout->data, src_size, access_key, key_source, static_cast<smc::DecryptOrImportMode>(option));
} else {
smc_res = smc::ImportSecureExpModKey(layout->data, src_size, access_key, key_source, option);
}
return smc::ConvertResult(smc_res);
}
Result SecureExpMod(void *out, size_t out_size, const void *base, size_t base_size, const void *mod, size_t mod_size, smc::SecureExpModMode mode) {
struct SecureExpModLayout {
u8 base[0x100];
u8 mod[0x100];
};
SecureExpModLayout *layout = reinterpret_cast<SecureExpModLayout *>(g_work_buffer);
/* Validate sizes. */
R_UNLESS(base_size <= sizeof(layout->base), spl::ResultInvalidSize());
R_UNLESS(mod_size <= sizeof(layout->mod), spl::ResultInvalidSize());
R_UNLESS(out_size <= WorkBufferSizeMax, spl::ResultInvalidSize());
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/* Copy data into work buffer. */
const size_t base_ofs = sizeof(layout->base) - base_size;
const size_t mod_ofs = sizeof(layout->mod) - mod_size;
std::memset(layout, 0, sizeof(*layout));
std::memcpy(layout->base + base_ofs, base, base_size);
std::memcpy(layout->mod + mod_ofs, mod, mod_size);
/* Do exp mod operation. */
armDCacheFlush(layout, sizeof(*layout));
{
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std::scoped_lock lk(g_async_op_lock);
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smc::AsyncOperationKey op_key;
smc::Result res = smc::SecureExpMod(&op_key, layout->base, layout->mod, mode);
if (res != smc::Result::Success) {
return smc::ConvertResult(res);
}
if ((res = WaitGetResult(g_work_buffer, out_size, op_key)) != smc::Result::Success) {
return smc::ConvertResult(res);
}
}
armDCacheFlush(g_work_buffer, sizeof(out_size));
std::memcpy(out, g_work_buffer, out_size);
return ResultSuccess();
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}
Result UnwrapEsRsaOaepWrappedKey(AccessKey *out_access_key, const void *base, size_t base_size, const void *mod, size_t mod_size, const void *label_digest, size_t label_digest_size, u32 generation, smc::EsKeyType type) {
struct UnwrapEsKeyLayout {
u8 base[0x100];
u8 mod[0x100];
};
UnwrapEsKeyLayout *layout = reinterpret_cast<UnwrapEsKeyLayout *>(g_work_buffer);
/* Validate sizes. */
R_UNLESS(base_size <= sizeof(layout->base), spl::ResultInvalidSize());
R_UNLESS(mod_size <= sizeof(layout->mod), spl::ResultInvalidSize());
R_UNLESS(label_digest_size <= LabelDigestSizeMax, spl::ResultInvalidSize());
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/* Copy data into work buffer. */
const size_t base_ofs = sizeof(layout->base) - base_size;
const size_t mod_ofs = sizeof(layout->mod) - mod_size;
std::memset(layout, 0, sizeof(*layout));
std::memcpy(layout->base + base_ofs, base, base_size);
std::memcpy(layout->mod + mod_ofs, mod, mod_size);
/* Do exp mod operation. */
armDCacheFlush(layout, sizeof(*layout));
{
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std::scoped_lock lk(g_async_op_lock);
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smc::AsyncOperationKey op_key;
smc::Result res = smc::UnwrapTitleKey(&op_key, layout->base, layout->mod, label_digest, label_digest_size, smc::GetUnwrapEsKeyOption(type, generation));
if (res != smc::Result::Success) {
return smc::ConvertResult(res);
}
if ((res = WaitGetResult(g_work_buffer, sizeof(*out_access_key), op_key)) != smc::Result::Success) {
return smc::ConvertResult(res);
}
}
armDCacheFlush(g_work_buffer, sizeof(*out_access_key));
std::memcpy(out_access_key, g_work_buffer, sizeof(*out_access_key));
return ResultSuccess();
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}
}
/* Initialization. */
void Initialize() {
/* Initialize the Drbg. */
InitializeCtrDrbg();
/* Initialize SE interrupt + keyslot events. */
InitializeSeEvents();
/* Initialize DAS for the SE. */
InitializeDeviceAddressSpace();
}
/* General. */
Result GetConfig(u64 *out, SplConfigItem which) {
/* Nintendo explicitly blacklists package2 hash here, amusingly. */
/* This is not blacklisted in safemode, but we're never in safe mode... */
R_UNLESS(which != SplConfigItem_Package2Hash, spl::ResultInvalidArgument());
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smc::Result res = smc::GetConfig(out, 1, which);
/* Nintendo has some special handling here for hardware type/is_retail. */
if (which == SplConfigItem_HardwareType && res == smc::Result::InvalidArgument) {
*out = 0;
res = smc::Result::Success;
}
if (which == SplConfigItem_IsRetail && res == smc::Result::InvalidArgument) {
*out = 0;
res = smc::Result::Success;
}
return smc::ConvertResult(res);
}
Result ExpMod(void *out, size_t out_size, const void *base, size_t base_size, const void *exp, size_t exp_size, const void *mod, size_t mod_size) {
struct ExpModLayout {
u8 base[0x100];
u8 exp[0x100];
u8 mod[0x100];
};
ExpModLayout *layout = reinterpret_cast<ExpModLayout *>(g_work_buffer);
/* Validate sizes. */
R_UNLESS(base_size <= sizeof(layout->base), spl::ResultInvalidSize());
R_UNLESS(exp_size <= sizeof(layout->exp), spl::ResultInvalidSize());
R_UNLESS(mod_size <= sizeof(layout->mod), spl::ResultInvalidSize());
R_UNLESS(out_size <= WorkBufferSizeMax, spl::ResultInvalidSize());
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/* Copy data into work buffer. */
const size_t base_ofs = sizeof(layout->base) - base_size;
const size_t mod_ofs = sizeof(layout->mod) - mod_size;
std::memset(layout, 0, sizeof(*layout));
std::memcpy(layout->base + base_ofs, base, base_size);
std::memcpy(layout->exp, exp, exp_size);
std::memcpy(layout->mod + mod_ofs, mod, mod_size);
/* Do exp mod operation. */
armDCacheFlush(layout, sizeof(*layout));
{
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std::scoped_lock lk(g_async_op_lock);
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smc::AsyncOperationKey op_key;
smc::Result res = smc::ExpMod(&op_key, layout->base, layout->exp, exp_size, layout->mod);
if (res != smc::Result::Success) {
return smc::ConvertResult(res);
}
if ((res = WaitGetResult(g_work_buffer, out_size, op_key)) != smc::Result::Success) {
return smc::ConvertResult(res);
}
}
armDCacheFlush(g_work_buffer, sizeof(out_size));
std::memcpy(out, g_work_buffer, out_size);
return ResultSuccess();
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}
Result SetConfig(SplConfigItem which, u64 value) {
return smc::ConvertResult(smc::SetConfig(which, &value, 1));
}
Result GenerateRandomBytes(void *out, size_t size) {
u8 *cur_dst = reinterpret_cast<u8 *>(out);
for (size_t ofs = 0; ofs < size; ofs += CtrDrbg::MaxRequestSize) {
const size_t cur_size = std::min(size - ofs, CtrDrbg::MaxRequestSize);
R_TRY(GenerateRandomBytesInternal(cur_dst, size));
cur_dst += cur_size;
}
return ResultSuccess();
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}
Result IsDevelopment(bool *out) {
u64 is_retail;
R_TRY(GetConfig(&is_retail, SplConfigItem_IsRetail));
*out = (is_retail == 0);
return ResultSuccess();
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}
Result SetBootReason(BootReasonValue boot_reason) {
R_UNLESS(!IsBootReasonSet(), spl::ResultBootReasonAlreadySet());
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g_boot_reason = boot_reason;
g_boot_reason_set = true;
return ResultSuccess();
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}
Result GetBootReason(BootReasonValue *out) {
R_UNLESS(IsBootReasonSet(), spl::ResultBootReasonNotSet());
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*out = GetBootReason();
return ResultSuccess();
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}
/* Crypto. */
Result GenerateAesKek(AccessKey *out_access_key, const KeySource &key_source, u32 generation, u32 option) {
return smc::ConvertResult(smc::GenerateAesKek(out_access_key, key_source, generation, option));
}
Result LoadAesKey(u32 keyslot, const void *owner, const AccessKey &access_key, const KeySource &key_source) {
R_TRY(ValidateAesKeyslot(keyslot, owner));
return smc::ConvertResult(smc::LoadAesKey(keyslot, access_key, key_source));
}
Result GenerateAesKey(AesKey *out_key, const AccessKey &access_key, const KeySource &key_source) {
smc::Result smc_rc;
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static constexpr KeySource s_generate_aes_key_source = {
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.data = {0x89, 0x61, 0x5E, 0xE0, 0x5C, 0x31, 0xB6, 0x80, 0x5F, 0xE5, 0x8F, 0x3D, 0xA2, 0x4F, 0x7A, 0xA8}
};
ScopedAesKeyslot keyslot_holder;
R_TRY(keyslot_holder.Allocate());
smc_rc = smc::LoadAesKey(keyslot_holder.GetKeyslot(), access_key, s_generate_aes_key_source);
if (smc_rc == smc::Result::Success) {
smc_rc = DecryptAesBlock(keyslot_holder.GetKeyslot(), out_key, &key_source);
}
return smc::ConvertResult(smc_rc);
}
Result DecryptAesKey(AesKey *out_key, const KeySource &key_source, u32 generation, u32 option) {
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static constexpr KeySource s_decrypt_aes_key_source = {
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.data = {0x11, 0x70, 0x24, 0x2B, 0x48, 0x69, 0x11, 0xF1, 0x11, 0xB0, 0x0C, 0x47, 0x7C, 0xC3, 0xEF, 0x7E}
};
AccessKey access_key;
R_TRY(GenerateAesKek(&access_key, s_decrypt_aes_key_source, generation, option));
return GenerateAesKey(out_key, access_key, key_source);
}
Result CryptAesCtr(void *dst, size_t dst_size, u32 keyslot, const void *owner, const void *src, size_t src_size, const IvCtr &iv_ctr) {
R_TRY(ValidateAesKeyslot(keyslot, owner));
/* Succeed immediately if there's nothing to crypt. */
if (src_size == 0) {
return ResultSuccess();
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}
/* Validate sizes. */
R_UNLESS(src_size <= dst_size, spl::ResultInvalidSize());
R_UNLESS(util::IsAligned(src_size, AES_BLOCK_SIZE), spl::ResultInvalidSize());
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/* We can only map 0x400000 aligned buffers for the SE. With that in mind, we have some math to do. */
const uintptr_t src_addr = reinterpret_cast<uintptr_t>(src);
const uintptr_t dst_addr = reinterpret_cast<uintptr_t>(dst);
const uintptr_t src_addr_page_aligned = util::AlignDown(src_addr, os::MemoryPageSize);
const uintptr_t dst_addr_page_aligned = util::AlignDown(dst_addr, os::MemoryPageSize);
const size_t src_size_page_aligned = util::AlignUp(src_addr + src_size, os::MemoryPageSize) - src_addr_page_aligned;
const size_t dst_size_page_aligned = util::AlignUp(dst_addr + dst_size, os::MemoryPageSize) - dst_addr_page_aligned;
const u32 src_se_map_addr = CryptAesInMapBase + (src_addr_page_aligned % DeviceAddressSpaceAlign);
const u32 dst_se_map_addr = CryptAesOutMapBase + (dst_addr_page_aligned % DeviceAddressSpaceAlign);
const u32 src_se_addr = CryptAesInMapBase + (src_addr % DeviceAddressSpaceAlign);
const u32 dst_se_addr = CryptAesOutMapBase + (dst_addr % DeviceAddressSpaceAlign);
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/* Validate aligned sizes. */
R_UNLESS(src_size_page_aligned <= CryptAesSizeMax, spl::ResultInvalidSize());
R_UNLESS(dst_size_page_aligned <= CryptAesSizeMax, spl::ResultInvalidSize());
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/* Helpers for mapping/unmapping. */
DeviceAddressSpaceMapHelper in_mapper(g_se_das_hnd, src_se_map_addr, src_addr_page_aligned, src_size_page_aligned, 1);
DeviceAddressSpaceMapHelper out_mapper(g_se_das_hnd, dst_se_map_addr, dst_addr_page_aligned, dst_size_page_aligned, 2);
/* Setup SE linked list entries. */
SeCryptContext *crypt_ctx = reinterpret_cast<SeCryptContext *>(g_work_buffer);
crypt_ctx->in.num_entries = 0;
crypt_ctx->in.address = src_se_addr;
crypt_ctx->in.size = src_size;
crypt_ctx->out.num_entries = 0;
crypt_ctx->out.address = dst_se_addr;
crypt_ctx->out.size = dst_size;
armDCacheFlush(crypt_ctx, sizeof(*crypt_ctx));
armDCacheFlush(const_cast<void *>(src), src_size);
armDCacheFlush(dst, dst_size);
{
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std::scoped_lock lk(g_async_op_lock);
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smc::AsyncOperationKey op_key;
const u32 mode = smc::GetCryptAesMode(smc::CipherMode::Ctr, keyslot);
const u32 dst_ll_addr = g_se_mapped_work_buffer_addr + offsetof(SeCryptContext, out);
const u32 src_ll_addr = g_se_mapped_work_buffer_addr + offsetof(SeCryptContext, in);
smc::Result res = smc::CryptAes(&op_key, mode, iv_ctr, dst_ll_addr, src_ll_addr, src_size);
if (res != smc::Result::Success) {
return smc::ConvertResult(res);
}
if ((res = WaitCheckStatus(op_key)) != smc::Result::Success) {
return smc::ConvertResult(res);
}
}
armDCacheFlush(dst, dst_size);
return ResultSuccess();
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}
Result ComputeCmac(Cmac *out_cmac, u32 keyslot, const void *owner, const void *data, size_t size) {
R_TRY(ValidateAesKeyslot(keyslot, owner));
R_UNLESS(size <= WorkBufferSizeMax, spl::ResultInvalidSize());
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std::memcpy(g_work_buffer, data, size);
return smc::ConvertResult(smc::ComputeCmac(out_cmac, keyslot, g_work_buffer, size));
}
Result AllocateAesKeyslot(u32 *out_keyslot, const void *owner) {
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if (hos::GetVersion() <= hos::Version_1_0_0) {
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/* On 1.0.0, keyslots were kind of a wild west. */
*out_keyslot = 0;
return ResultSuccess();
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}
for (size_t i = 0; i < GetMaxKeyslots(); i++) {
if (g_keyslot_owners[i] == 0) {
g_keyslot_owners[i] = owner;
*out_keyslot = static_cast<u32>(i);
return ResultSuccess();
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}
}
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os::ClearSystemEvent(std::addressof(g_se_keyslot_available_event));
return spl::ResultOutOfKeyslots();
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}
Result FreeAesKeyslot(u32 keyslot, const void *owner) {
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if (hos::GetVersion() <= hos::Version_1_0_0) {
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/* On 1.0.0, keyslots were kind of a wild west. */
return ResultSuccess();
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}
R_TRY(ValidateAesKeyslot(keyslot, owner));
/* Clear the keyslot. */
{
AccessKey access_key = {};
KeySource key_source = {};
smc::LoadAesKey(keyslot, access_key, key_source);
}
g_keyslot_owners[keyslot] = nullptr;
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os::SignalSystemEvent(std::addressof(g_se_keyslot_available_event));
return ResultSuccess();
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}
/* RSA. */
Result DecryptRsaPrivateKey(void *dst, size_t dst_size, const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source, u32 option) {
struct DecryptRsaPrivateKeyLayout {
u8 data[RsaPrivateKeySize + RsaPrivateKeyMetaSize];
};
DecryptRsaPrivateKeyLayout *layout = reinterpret_cast<DecryptRsaPrivateKeyLayout *>(g_work_buffer);
/* Validate size. */
R_UNLESS(src_size >= RsaPrivateKeyMetaSize, spl::ResultInvalidSize());
R_UNLESS(src_size <= sizeof(DecryptRsaPrivateKeyLayout), spl::ResultInvalidSize());
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std::memcpy(layout->data, src, src_size);
armDCacheFlush(layout, sizeof(*layout));
smc::Result smc_res;
size_t copy_size = 0;
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if (hos::GetVersion() >= hos::Version_5_0_0) {
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copy_size = std::min(dst_size, src_size - RsaPrivateKeyMetaSize);
smc_res = smc::DecryptOrImportRsaPrivateKey(layout->data, src_size, access_key, key_source, static_cast<smc::DecryptOrImportMode>(option));
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} else {
smc_res = smc::DecryptRsaPrivateKey(&copy_size, layout->data, src_size, access_key, key_source, option);
copy_size = std::min(dst_size, copy_size);
}
armDCacheFlush(layout, sizeof(*layout));
if (smc_res == smc::Result::Success) {
std::memcpy(dst, layout->data, copy_size);
}
return smc::ConvertResult(smc_res);
}
/* SSL */
Result ImportSslKey(const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source) {
return ImportSecureExpModKey(src, src_size, access_key, key_source, static_cast<u32>(smc::DecryptOrImportMode::ImportSslKey));
}
Result SslExpMod(void *out, size_t out_size, const void *base, size_t base_size, const void *mod, size_t mod_size) {
return SecureExpMod(out, out_size, base, base_size, mod, mod_size, smc::SecureExpModMode::Ssl);
}
/* ES */
Result ImportEsKey(const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source, u32 option) {
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if (hos::GetVersion() >= hos::Version_5_0_0) {
return ImportSecureExpModKey(src, src_size, access_key, key_source, option);
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} else {
struct ImportEsKeyLayout {
u8 data[RsaPrivateKeyMetaSize + 2 * RsaPrivateKeySize + 0x10];
};
ImportEsKeyLayout *layout = reinterpret_cast<ImportEsKeyLayout *>(g_work_buffer);
/* Validate size. */
R_UNLESS(src_size <= sizeof(ImportEsKeyLayout), spl::ResultInvalidSize());
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std::memcpy(layout, src, src_size);
armDCacheFlush(layout, sizeof(*layout));
return smc::ConvertResult(smc::ImportEsKey(layout->data, src_size, access_key, key_source, option));
}
}
Result UnwrapTitleKey(AccessKey *out_access_key, const void *base, size_t base_size, const void *mod, size_t mod_size, const void *label_digest, size_t label_digest_size, u32 generation) {
return UnwrapEsRsaOaepWrappedKey(out_access_key, base, base_size, mod, mod_size, label_digest, label_digest_size, generation, smc::EsKeyType::TitleKey);
}
Result UnwrapCommonTitleKey(AccessKey *out_access_key, const KeySource &key_source, u32 generation) {
return smc::ConvertResult(smc::UnwrapCommonTitleKey(out_access_key, key_source, generation));
}
Result ImportDrmKey(const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source) {
return ImportSecureExpModKey(src, src_size, access_key, key_source, static_cast<u32>(smc::DecryptOrImportMode::ImportDrmKey));
}
Result DrmExpMod(void *out, size_t out_size, const void *base, size_t base_size, const void *mod, size_t mod_size) {
return SecureExpMod(out, out_size, base, base_size, mod, mod_size, smc::SecureExpModMode::Drm);
}
Result UnwrapElicenseKey(AccessKey *out_access_key, const void *base, size_t base_size, const void *mod, size_t mod_size, const void *label_digest, size_t label_digest_size, u32 generation) {
return UnwrapEsRsaOaepWrappedKey(out_access_key, base, base_size, mod, mod_size, label_digest, label_digest_size, generation, smc::EsKeyType::ElicenseKey);
}
Result LoadElicenseKey(u32 keyslot, const void *owner, const AccessKey &access_key) {
/* Right now, this is just literally the same function as LoadTitleKey in N's impl. */
return LoadTitleKey(keyslot, owner, access_key);
}
/* FS */
Result ImportLotusKey(const void *src, size_t src_size, const AccessKey &access_key, const KeySource &key_source, u32 option) {
return ImportSecureExpModKey(src, src_size, access_key, key_source, option);
}
Result DecryptLotusMessage(u32 *out_size, void *dst, size_t dst_size, const void *base, size_t base_size, const void *mod, size_t mod_size, const void *label_digest, size_t label_digest_size) {
/* Validate sizes. */
R_UNLESS(dst_size <= WorkBufferSizeMax, spl::ResultInvalidSize());
R_UNLESS(label_digest_size == LabelDigestSizeMax, spl::ResultInvalidSize());
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/* Nintendo doesn't check this result code, but we will. */
R_TRY(SecureExpMod(g_work_buffer, 0x100, base, base_size, mod, mod_size, smc::SecureExpModMode::Lotus));
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size_t data_size = crypto::DecodeRsa2048OaepSha256(dst, dst_size, label_digest, label_digest_size, g_work_buffer, 0x100);
R_UNLESS(data_size > 0, spl::ResultDecryptionFailed());
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*out_size = static_cast<u32>(data_size);
return ResultSuccess();
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}
Result GenerateSpecificAesKey(AesKey *out_key, const KeySource &key_source, u32 generation, u32 which) {
return smc::ConvertResult(smc::GenerateSpecificAesKey(out_key, key_source, generation, which));
}
Result LoadTitleKey(u32 keyslot, const void *owner, const AccessKey &access_key) {
R_TRY(ValidateAesKeyslot(keyslot, owner));
return smc::ConvertResult(smc::LoadTitleKey(keyslot, access_key));
}
Result GetPackage2Hash(void *dst, const size_t size) {
u64 hash[4];
R_UNLESS(size >= sizeof(hash), spl::ResultInvalidSize());
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smc::Result smc_res;
if ((smc_res = smc::GetConfig(hash, 4, SplConfigItem_Package2Hash)) != smc::Result::Success) {
return smc::ConvertResult(smc_res);
}
std::memcpy(dst, hash, sizeof(hash));
return ResultSuccess();
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}
/* Manu. */
Result ReEncryptRsaPrivateKey(void *dst, size_t dst_size, const void *src, size_t src_size, const AccessKey &access_key_dec, const KeySource &source_dec, const AccessKey &access_key_enc, const KeySource &source_enc, u32 option) {
struct ReEncryptRsaPrivateKeyLayout {
u8 data[RsaPrivateKeyMetaSize + 2 * RsaPrivateKeySize + 0x10];
AccessKey access_key_dec;
KeySource source_dec;
AccessKey access_key_enc;
KeySource source_enc;
};
ReEncryptRsaPrivateKeyLayout *layout = reinterpret_cast<ReEncryptRsaPrivateKeyLayout *>(g_work_buffer);
/* Validate size. */
R_UNLESS(src_size >= RsaPrivateKeyMetaSize, spl::ResultInvalidSize());
R_UNLESS(src_size <= sizeof(ReEncryptRsaPrivateKeyLayout), spl::ResultInvalidSize());
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std::memcpy(layout, src, src_size);
layout->access_key_dec = access_key_dec;
layout->source_dec = source_dec;
layout->access_key_enc = access_key_enc;
layout->source_enc = source_enc;
armDCacheFlush(layout, sizeof(*layout));
smc::Result smc_res = smc::ReEncryptRsaPrivateKey(layout->data, src_size, layout->access_key_dec, layout->source_dec, layout->access_key_enc, layout->source_enc, option);
if (smc_res == smc::Result::Success) {
size_t copy_size = std::min(dst_size, src_size);
armDCacheFlush(layout, copy_size);
std::memcpy(dst, layout->data, copy_size);
}
return smc::ConvertResult(smc_res);
}
/* Helper. */
Result FreeAesKeyslots(const void *owner) {
for (size_t i = 0; i < GetMaxKeyslots(); i++) {
if (g_keyslot_owners[i] == owner) {
FreeAesKeyslot(i, owner);
}
}
return ResultSuccess();
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}
Handle GetAesKeyslotAvailableEventHandle() {
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return os::GetReadableHandleOfSystemEvent(std::addressof(g_se_keyslot_available_event));
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}
}