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Atmosphere/stratosphere/boot/source/updater/updater_api.cpp
hexkyz 2c3111f9c9 fusee: Add more verbose error messages
boot: Fix license text
2019-05-10 17:15:25 +01:00

716 lines
27 KiB
C++

/*
* Copyright (c) 2018-2019 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 <switch.h>
#include <stratosphere.hpp>
#include "updater_api.hpp"
#include "updater_bis_save.hpp"
Result Updater::ValidateWorkBuffer(const void *work_buffer, size_t work_buffer_size) {
if (work_buffer_size < BctSize + EksSize) {
return ResultUpdaterTooSmallWorkBuffer;
}
if (reinterpret_cast<uintptr_t>(work_buffer) & 0xFFF) {
return ResultUpdaterMisalignedWorkBuffer;
}
if (reinterpret_cast<uintptr_t>(work_buffer_size) & 0x1FF) {
return ResultUpdaterMisalignedWorkBuffer;
}
return ResultSuccess;
}
BootImageUpdateType Updater::GetBootImageUpdateType(HardwareType hw_type) {
switch (hw_type) {
case HardwareType_Icosa:
case HardwareType_Copper:
return BootImageUpdateType_Erista;
case HardwareType_Hoag:
case HardwareType_Iowa:
return BootImageUpdateType_Mariko;
default:
std::abort();
}
}
bool Updater::HasEks(BootImageUpdateType boot_image_update_type) {
switch (boot_image_update_type) {
case BootImageUpdateType_Erista:
return true;
case BootImageUpdateType_Mariko:
return false;
default:
std::abort();
}
}
bool Updater::HasAutoRcmPreserve(BootImageUpdateType boot_image_update_type) {
switch (boot_image_update_type) {
case BootImageUpdateType_Erista:
return true;
case BootImageUpdateType_Mariko:
return false;
default:
std::abort();
}
}
u32 Updater::GetNcmTitleType(BootModeType mode) {
switch (mode) {
case BootModeType_Normal:
return NcmContentMetaType_BootImagePackage;
case BootModeType_Safe:
return NcmContentMetaType_BootImagePackageSafe;
default:
std::abort();
}
}
Result Updater::GetVerificationState(VerificationState *out, void *work_buffer, size_t work_buffer_size) {
Result rc;
/* Always set output to true before doing anything else. */
out->needs_verify_normal = true;
out->needs_verify_safe = true;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
/* Initialize boot0 save accessor. */
BisSave save;
if (R_FAILED((rc = save.Initialize(work_buffer, work_buffer_size)))) {
return rc;
}
ON_SCOPE_EXIT { save.Finalize(); };
/* Load save from NAND. */
if (R_FAILED((rc = save.Load()))) {
return rc;
}
/* Read data from save. */
out->needs_verify_normal = save.GetNeedsVerification(BootModeType_Normal);
out->needs_verify_safe = save.GetNeedsVerification(BootModeType_Safe);
return ResultSuccess;
}
Result Updater::VerifyBootImagesAndRepairIfNeeded(bool *out_repaired_normal, bool *out_repaired_safe, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Always set output to false before doing anything else. */
*out_repaired_normal = false;
*out_repaired_safe = false;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
/* Get verification state from NAND. */
VerificationState verification_state;
if (R_FAILED((rc = GetVerificationState(&verification_state, work_buffer, work_buffer_size)))) {
return rc;
}
/* If we don't need to verify anything, we're done. */
if (!verification_state.needs_verify_normal && !verification_state.needs_verify_safe) {
return ResultSuccess;
}
/* Get a session to ncm. */
DoWithSmSession([&]() {
if (R_FAILED(ncmInitialize())) {
std::abort();
}
});
ON_SCOPE_EXIT { ncmExit(); };
/* Verify normal, verify safe as needed. */
if (verification_state.needs_verify_normal) {
rc = VerifyBootImagesAndRepairIfNeeded(out_repaired_normal, BootModeType_Normal, work_buffer, work_buffer_size, boot_image_update_type);
if (rc == ResultUpdaterBootImagePackageNotFound) {
/* Nintendo considers failure to locate bip a success. TODO: don't do that? */
rc = ResultSuccess;
}
if (R_FAILED(rc)) {
return rc;
}
}
if (verification_state.needs_verify_safe) {
rc = VerifyBootImagesAndRepairIfNeeded(out_repaired_safe, BootModeType_Safe, work_buffer, work_buffer_size, boot_image_update_type);
if (rc == ResultUpdaterBootImagePackageNotFound) {
/* Nintendo considers failure to locate bip a success. TODO: don't do that? */
rc = ResultSuccess;
}
if (R_FAILED(rc)) {
return rc;
}
}
return ResultSuccess;
}
Result Updater::VerifyBootImagesAndRepairIfNeeded(bool *out_repaired, BootModeType mode, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Get system data id for boot images (819/81A/81B/81C). */
u64 bip_data_id;
if (R_FAILED((rc = GetBootImagePackageDataId(&bip_data_id, mode, work_buffer, work_buffer_size)))) {
return rc;
}
/* Verify the boot images in NAND. */
if (R_FAILED((rc = VerifyBootImages(bip_data_id, mode, work_buffer, work_buffer_size, boot_image_update_type)))) {
/* If we failed for a reason other than repair needed, bail out. */
if (rc != ResultUpdaterNeedsRepairBootImages) {
return rc;
}
/* Perform repair. */
*out_repaired = true;
if (R_FAILED((rc = UpdateBootImages(bip_data_id, mode, work_buffer, work_buffer_size, boot_image_update_type)))) {
return rc;
}
}
/* We've either just verified or just repaired. Either way, we don't need to verify any more. */
return SetVerificationNeeded(mode, false, work_buffer, work_buffer_size);
}
Result Updater::GetBootImagePackageDataId(u64 *out_data_id, BootModeType mode, void *work_buffer, size_t work_buffer_size) {
Result rc;
/* Ensure we can read content metas. */
constexpr size_t MaxContentMetas = 0x40;
if (work_buffer_size < sizeof(NcmMetaRecord) * MaxContentMetas) {
std::abort();
}
/* Open NAND System meta database, list contents. */
NcmContentMetaDatabase meta_db;
if (R_FAILED((rc = ncmOpenContentMetaDatabase(FsStorageId_NandSystem, &meta_db)))) {
return rc;
}
ON_SCOPE_EXIT { serviceClose(&meta_db.s); };
NcmMetaRecord *records = reinterpret_cast<NcmMetaRecord *>(work_buffer);
const u32 title_type = GetNcmTitleType(mode);
u32 written_entries;
u32 total_entries;
if (R_FAILED((rc = ncmContentMetaDatabaseList(&meta_db, title_type, 0, 0, UINT64_MAX, records, MaxContentMetas * sizeof(*records), &written_entries, &total_entries)))) {
return rc;
}
if (total_entries == 0) {
return ResultUpdaterBootImagePackageNotFound;
}
if (total_entries != written_entries) {
std::abort();
}
/* Output is sorted, return the lowest valid exfat entry. */
if (total_entries > 1) {
for (size_t i = 0; i < total_entries; i++) {
u8 attr;
if (R_FAILED((rc = ncmContentMetaDatabaseGetAttributes(&meta_db, &records[i], &attr)))) {
return rc;
}
if (attr & NcmContentMetaAttribute_Exfat) {
*out_data_id = records[i].titleId;
return ResultSuccess;
}
}
}
/* If there's only one entry or no exfat entries, return that entry. */
*out_data_id = records[0].titleId;
return ResultSuccess;
}
Result Updater::VerifyBootImages(u64 data_id, BootModeType mode, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
switch (mode) {
case BootModeType_Normal:
return VerifyBootImagesNormal(data_id, work_buffer, work_buffer_size, boot_image_update_type);
case BootModeType_Safe:
return VerifyBootImagesSafe(data_id, work_buffer, work_buffer_size, boot_image_update_type);
default:
std::abort();
}
}
Result Updater::ValidateBctFileHash(Boot0Accessor &accessor, Boot0Partition which, const void *stored_hash, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
void *bct = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + 0);
void *work = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + BctSize);
size_t size;
if (R_FAILED((rc = ReadFile(&size, bct, BctSize, GetBctPath(boot_image_update_type))))) {
return rc;
}
if (HasEks(boot_image_update_type)) {
if (R_FAILED((rc = accessor.UpdateEks(bct, work)))) {
return rc;
}
}
if (HasAutoRcmPreserve(boot_image_update_type)) {
if (R_FAILED((rc = accessor.PreserveAutoRcm(bct, work, which)))) {
return rc;
}
}
u8 file_hash[SHA256_HASH_SIZE];
sha256CalculateHash(file_hash, bct, BctSize);
if (std::memcmp(file_hash, stored_hash, SHA256_HASH_SIZE) == 0) {
return ResultSuccess;
}
return ResultUpdaterNeedsRepairBootImages;
}
Result Updater::VerifyBootImagesNormal(u64 data_id, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = romfsMountFromDataArchive(data_id, FsStorageId_NandSystem, GetBootImagePackageMountPath())))) {
if (rc == ResultFsTargetNotFound) {
return ResultUpdaterBootImagePackageNotFound;
}
return rc;
}
ON_SCOPE_EXIT { if (R_FAILED(romfsUnmount(GetBootImagePackageMountPath()))) { std::abort(); } };
/* Read and validate hashes of boot images. */
{
size_t size;
u8 nand_hash[SHA256_HASH_SIZE];
u8 file_hash[SHA256_HASH_SIZE];
Boot0Accessor boot0_accessor;
if (R_FAILED((rc = boot0_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot0_accessor.Finalize(); };
/* Compare BCT hashes. */
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, BctSize, work_buffer, work_buffer_size, Boot0Partition::BctNormalMain)))) {
return rc;
}
if (R_FAILED((rc = ValidateBctFileHash(boot0_accessor, Boot0Partition::BctNormalMain, nand_hash, work_buffer, work_buffer_size, boot_image_update_type)))) {
return rc;
}
/* Compare BCT Sub hashes. */
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, BctSize, work_buffer, work_buffer_size, Boot0Partition::BctNormalSub)))) {
return rc;
}
if (R_FAILED((rc = ValidateBctFileHash(boot0_accessor, Boot0Partition::BctNormalSub, nand_hash, work_buffer, work_buffer_size, boot_image_update_type)))) {
return rc;
}
/* Compare Package1 Normal/Sub hashes. */
if (R_FAILED((rc = GetFileHash(&size, file_hash, GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, size, work_buffer, work_buffer_size, Boot0Partition::Package1NormalMain)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, size, work_buffer, work_buffer_size, Boot0Partition::Package1NormalSub)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
/* Compare Package2 Normal/Sub hashes. */
if (R_FAILED((rc = GetFileHash(&size, file_hash, GetPackage2Path(boot_image_update_type), work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = GetPackage2Hash(nand_hash, size, work_buffer, work_buffer_size, Package2Type::NormalMain)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
if (R_FAILED((rc = GetPackage2Hash(nand_hash, size, work_buffer, work_buffer_size, Package2Type::NormalSub)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
}
return ResultSuccess;
}
Result Updater::VerifyBootImagesSafe(u64 data_id, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = romfsMountFromDataArchive(data_id, FsStorageId_NandSystem, GetBootImagePackageMountPath())))) {
if (rc == ResultFsTargetNotFound) {
return ResultUpdaterBootImagePackageNotFound;
}
return rc;
}
ON_SCOPE_EXIT { if (R_FAILED(romfsUnmount(GetBootImagePackageMountPath()))) { std::abort(); } };
/* Read and validate hashes of boot images. */
{
size_t size;
u8 nand_hash[SHA256_HASH_SIZE];
u8 file_hash[SHA256_HASH_SIZE];
Boot0Accessor boot0_accessor;
if (R_FAILED((rc = boot0_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot0_accessor.Finalize(); };
Boot1Accessor boot1_accessor;
if (R_FAILED((rc = boot1_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot1_accessor.Finalize(); };
/* Compare BCT hashes. */
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, BctSize, work_buffer, work_buffer_size, Boot0Partition::BctSafeMain)))) {
return rc;
}
if (R_FAILED((rc = ValidateBctFileHash(boot0_accessor, Boot0Partition::BctSafeMain, nand_hash, work_buffer, work_buffer_size, boot_image_update_type)))) {
return rc;
}
/* Compare BCT Sub hashes. */
if (R_FAILED((rc = boot0_accessor.GetHash(nand_hash, BctSize, work_buffer, work_buffer_size, Boot0Partition::BctSafeSub)))) {
return rc;
}
if (R_FAILED((rc = ValidateBctFileHash(boot0_accessor, Boot0Partition::BctSafeSub, nand_hash, work_buffer, work_buffer_size, boot_image_update_type)))) {
return rc;
}
/* Compare Package1 Normal/Sub hashes. */
if (R_FAILED((rc = GetFileHash(&size, file_hash, GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = boot1_accessor.GetHash(nand_hash, size, work_buffer, work_buffer_size, Boot1Partition::Package1SafeMain)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
if (R_FAILED((rc = boot1_accessor.GetHash(nand_hash, size, work_buffer, work_buffer_size, Boot1Partition::Package1SafeSub)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
/* Compare Package2 Normal/Sub hashes. */
if (R_FAILED((rc = GetFileHash(&size, file_hash, GetPackage2Path(boot_image_update_type), work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = GetPackage2Hash(nand_hash, size, work_buffer, work_buffer_size, Package2Type::SafeMain)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
if (R_FAILED((rc = GetPackage2Hash(nand_hash, size, work_buffer, work_buffer_size, Package2Type::SafeSub)))) {
return rc;
}
if (std::memcmp(file_hash, nand_hash, SHA256_HASH_SIZE) != 0) {
return ResultUpdaterNeedsRepairBootImages;
}
}
return ResultSuccess;
}
Result Updater::UpdateBootImages(u64 data_id, BootModeType mode, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
switch (mode) {
case BootModeType_Normal:
return UpdateBootImagesNormal(data_id, work_buffer, work_buffer_size, boot_image_update_type);
case BootModeType_Safe:
return UpdateBootImagesSafe(data_id, work_buffer, work_buffer_size, boot_image_update_type);
default:
std::abort();
}
}
Result Updater::UpdateBootImagesNormal(u64 data_id, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = romfsMountFromDataArchive(data_id, FsStorageId_NandSystem, GetBootImagePackageMountPath())))) {
if (rc == ResultFsTargetNotFound) {
return ResultUpdaterBootImagePackageNotFound;
}
return rc;
}
ON_SCOPE_EXIT { if (R_FAILED(romfsUnmount(GetBootImagePackageMountPath()))) { std::abort(); } };
{
Boot0Accessor boot0_accessor;
if (R_FAILED((rc = boot0_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot0_accessor.Finalize(); };
/* Write Package1 sub. */
if (R_FAILED((rc = boot0_accessor.Clear(work_buffer, work_buffer_size, Boot0Partition::Package1NormalSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size, Boot0Partition::Package1NormalSub)))) {
return rc;
}
/* Write Package2 sub. */
if (R_FAILED((rc = WritePackage2(work_buffer, work_buffer_size, Package2Type::NormalSub, boot_image_update_type)))) {
return rc;
}
/* Write BCT sub + BCT main, in that order. */
{
void *bct = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + 0);
void *work = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + BctSize);
size_t size;
if (R_FAILED((rc = ReadFile(&size, bct, BctSize, GetBctPath(boot_image_update_type))))) {
return rc;
}
if (HasEks(boot_image_update_type)) {
if (R_FAILED((rc = boot0_accessor.UpdateEks(bct, work)))) {
return rc;
}
}
/* Only preserve autorcm if on a unit with unpatched rcm bug. */
if (HasAutoRcmPreserve(boot_image_update_type) && !IsRcmBugPatched()) {
if (R_FAILED((rc = boot0_accessor.PreserveAutoRcm(bct, work, Boot0Partition::BctNormalSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctNormalSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.PreserveAutoRcm(bct, work, Boot0Partition::BctNormalMain)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctNormalMain)))) {
return rc;
}
} else {
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctNormalSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctNormalMain)))) {
return rc;
}
}
}
/* Write Package2 main. */
if (R_FAILED((rc = WritePackage2(work_buffer, work_buffer_size, Package2Type::NormalMain, boot_image_update_type)))) {
return rc;
}
/* Write Package1 main. */
if (R_FAILED((rc = boot0_accessor.Clear(work_buffer, work_buffer_size, Boot0Partition::Package1NormalMain)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size, Boot0Partition::Package1NormalMain)))) {
return rc;
}
}
return ResultSuccess;
}
Result Updater::UpdateBootImagesSafe(u64 data_id, void *work_buffer, size_t work_buffer_size, BootImageUpdateType boot_image_update_type) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
if (R_FAILED((rc = romfsMountFromDataArchive(data_id, FsStorageId_NandSystem, GetBootImagePackageMountPath())))) {
if (rc == ResultFsTargetNotFound) {
return ResultUpdaterBootImagePackageNotFound;
}
return rc;
}
ON_SCOPE_EXIT { if (R_FAILED(romfsUnmount(GetBootImagePackageMountPath()))) { std::abort(); } };
{
Boot0Accessor boot0_accessor;
if (R_FAILED((rc = boot0_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot0_accessor.Finalize(); };
Boot1Accessor boot1_accessor;
if (R_FAILED((rc = boot1_accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { boot1_accessor.Finalize(); };
/* Write Package1 sub. */
if (R_FAILED((rc = boot1_accessor.Clear(work_buffer, work_buffer_size, Boot1Partition::Package1SafeSub)))) {
return rc;
}
if (R_FAILED((rc = boot1_accessor.Write(GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size, Boot1Partition::Package1SafeSub)))) {
return rc;
}
/* Write Package2 sub. */
if (R_FAILED((rc = WritePackage2(work_buffer, work_buffer_size, Package2Type::SafeSub, boot_image_update_type)))) {
return rc;
}
/* Write BCT sub + BCT main, in that order. */
{
void *bct = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + 0);
void *work = reinterpret_cast<void *>(reinterpret_cast<uintptr_t>(work_buffer) + BctSize);
size_t size;
if (R_FAILED((rc = ReadFile(&size, bct, BctSize, GetBctPath(boot_image_update_type))))) {
return rc;
}
if (HasEks(boot_image_update_type)) {
if (R_FAILED((rc = boot0_accessor.UpdateEks(bct, work)))) {
return rc;
}
}
/* Only preserve autorcm if on a unit with unpatched rcm bug. */
if (HasAutoRcmPreserve(boot_image_update_type) && !IsRcmBugPatched()) {
if (R_FAILED((rc = boot0_accessor.PreserveAutoRcm(bct, work, Boot0Partition::BctSafeSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctSafeSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.PreserveAutoRcm(bct, work, Boot0Partition::BctSafeMain)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctSafeMain)))) {
return rc;
}
} else {
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctSafeSub)))) {
return rc;
}
if (R_FAILED((rc = boot0_accessor.Write(bct, BctSize, Boot0Partition::BctSafeMain)))) {
return rc;
}
}
}
/* Write Package2 main. */
if (R_FAILED((rc = WritePackage2(work_buffer, work_buffer_size, Package2Type::SafeMain, boot_image_update_type)))) {
return rc;
}
/* Write Package1 main. */
if (R_FAILED((rc = boot1_accessor.Clear(work_buffer, work_buffer_size, Boot1Partition::Package1SafeMain)))) {
return rc;
}
if (R_FAILED((rc = boot1_accessor.Write(GetPackage1Path(boot_image_update_type), work_buffer, work_buffer_size, Boot1Partition::Package1SafeMain)))) {
return rc;
}
}
return ResultSuccess;
}
Result Updater::SetVerificationNeeded(BootModeType mode, bool needed, void *work_buffer, size_t work_buffer_size) {
Result rc;
/* Ensure work buffer is big enough for us to do what we want to do. */
if (R_FAILED((rc = ValidateWorkBuffer(work_buffer, work_buffer_size)))) {
return rc;
}
/* Initialize boot0 save accessor. */
BisSave save;
if (R_FAILED((rc = save.Initialize(work_buffer, work_buffer_size)))) {
return rc;
}
ON_SCOPE_EXIT { save.Finalize(); };
/* Load save from NAND. */
if (R_FAILED((rc = save.Load()))) {
return rc;
}
/* Set whether we need to verify, then save to nand. */
save.SetNeedsVerification(mode, needed);
if (R_FAILED((rc = save.Save()))) {
return rc;
}
return ResultSuccess;
}
Result Updater::GetPackage2Hash(void *dst_hash, size_t package2_size, void *work_buffer, size_t work_buffer_size, Package2Type which) {
Result rc;
Package2Accessor accessor(which);
if (R_FAILED((rc = accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { accessor.Finalize(); };
return accessor.GetHash(dst_hash, package2_size, work_buffer, work_buffer_size, Package2Partition::Package2);
}
Result Updater::WritePackage2(void *work_buffer, size_t work_buffer_size, Package2Type which, BootImageUpdateType boot_image_update_type) {
Result rc;
Package2Accessor accessor(which);
if (R_FAILED((rc = accessor.Initialize()))) {
return rc;
}
ON_SCOPE_EXIT { accessor.Finalize(); };
return accessor.Write(GetPackage2Path(boot_image_update_type), work_buffer, work_buffer_size, Package2Partition::Package2);
}