dolphin/Source/Core/DiscIO/VolumeVerifier.cpp
JosJuice 6d1a344aab VolumeVerifier: Skip "lacks some data" check for Datel discs
Turns out there's some Freeloader disc for the GC that triggers this
despite being a good dump. This warning is mostly intended to catch
Wii games that have been truncated at the 4.00 GiB or 4.38 GiB mark
anyway, and if someone does have a Datel dump that has been truncated,
they'll still get the "unusual size" warning.
2022-03-12 22:24:38 +01:00

1424 lines
50 KiB
C++

// Copyright 2019 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include "DiscIO/VolumeVerifier.h"
#include <algorithm>
#include <future>
#include <limits>
#include <memory>
#include <optional>
#include <string>
#include <string_view>
#include <unordered_set>
#include <mbedtls/md5.h>
#include <mbedtls/sha1.h>
#include <pugixml.hpp>
#include <unzip.h>
#include "Common/Align.h"
#include "Common/Assert.h"
#include "Common/CommonPaths.h"
#include "Common/CommonTypes.h"
#include "Common/FileUtil.h"
#include "Common/Hash.h"
#include "Common/HttpRequest.h"
#include "Common/IOFile.h"
#include "Common/Logging/Log.h"
#include "Common/MinizipUtil.h"
#include "Common/MsgHandler.h"
#include "Common/ScopeGuard.h"
#include "Common/StringUtil.h"
#include "Common/Swap.h"
#include "Common/Version.h"
#include "Core/IOS/Device.h"
#include "Core/IOS/ES/ES.h"
#include "Core/IOS/ES/Formats.h"
#include "Core/IOS/IOS.h"
#include "Core/IOS/IOSC.h"
#include "DiscIO/Blob.h"
#include "DiscIO/DiscScrubber.h"
#include "DiscIO/DiscUtils.h"
#include "DiscIO/Enums.h"
#include "DiscIO/Filesystem.h"
#include "DiscIO/Volume.h"
#include "DiscIO/VolumeWii.h"
namespace DiscIO
{
RedumpVerifier::DownloadState RedumpVerifier::m_gc_download_state;
RedumpVerifier::DownloadState RedumpVerifier::m_wii_download_state;
void RedumpVerifier::Start(const Volume& volume)
{
if (!volume.IsDatelDisc())
{
m_game_id = volume.GetGameID();
if (m_game_id.size() > 4)
m_game_id = m_game_id.substr(0, 4);
}
m_revision = volume.GetRevision().value_or(0);
m_disc_number = volume.GetDiscNumber().value_or(0);
m_size = volume.GetSize();
const DiscIO::Platform platform = volume.GetVolumeType();
m_future = std::async(std::launch::async, [this, platform]() -> std::vector<PotentialMatch> {
std::string system;
DownloadState* download_state;
switch (platform)
{
case Platform::GameCubeDisc:
system = "gc";
download_state = &m_gc_download_state;
break;
case Platform::WiiDisc:
system = "wii";
download_state = &m_wii_download_state;
break;
default:
m_result.status = Status::Error;
return {};
}
{
std::lock_guard lk(download_state->mutex);
download_state->status = DownloadDatfile(system, download_state->status);
}
switch (download_state->status)
{
case DownloadStatus::FailButOldCacheAvailable:
ERROR_LOG_FMT(DISCIO, "Failed to fetch data from Redump.org, using old cached data instead");
[[fallthrough]];
case DownloadStatus::Success:
return ScanDatfile(ReadDatfile(system), system);
case DownloadStatus::SystemNotAvailable:
m_result = {Status::Error, Common::GetStringT("Wii data is not public yet")};
return {};
case DownloadStatus::Fail:
default:
m_result = {Status::Error, Common::GetStringT("Failed to connect to Redump.org")};
return {};
}
});
}
static std::string GetPathForSystem(const std::string& system)
{
return File::GetUserPath(D_REDUMPCACHE_IDX) + DIR_SEP + system + ".zip";
}
RedumpVerifier::DownloadStatus RedumpVerifier::DownloadDatfile(const std::string& system,
DownloadStatus old_status)
{
if (old_status == DownloadStatus::Success || old_status == DownloadStatus::SystemNotAvailable)
return old_status;
Common::HttpRequest request;
const std::optional<std::vector<u8>> result =
request.Get("http://redump.org/datfile/" + system + "/serial,version",
{{"User-Agent", Common::GetScmRevStr()}});
const std::string output_path = GetPathForSystem(system);
if (!result)
{
return File::Exists(output_path) ? DownloadStatus::FailButOldCacheAvailable :
DownloadStatus::Fail;
}
if (result->size() > 1 && (*result)[0] == '<' && (*result)[1] == '!')
{
// This is an HTML page, not a zip file like we want
if (File::Exists(output_path))
return DownloadStatus::FailButOldCacheAvailable;
const std::string system_not_available_message = "System \"" + system + "\" doesn't exist.";
const bool system_not_available_match =
result->end() != std::search(result->begin(), result->end(),
system_not_available_message.begin(),
system_not_available_message.end());
return system_not_available_match ? DownloadStatus::SystemNotAvailable : DownloadStatus::Fail;
}
File::CreateFullPath(output_path);
if (!File::IOFile(output_path, "wb").WriteBytes(result->data(), result->size()))
ERROR_LOG_FMT(DISCIO, "Failed to write downloaded datfile to {}", output_path);
return DownloadStatus::Success;
}
std::vector<u8> RedumpVerifier::ReadDatfile(const std::string& system)
{
unzFile file = unzOpen(GetPathForSystem(system).c_str());
if (!file)
return {};
Common::ScopeGuard file_guard{[&] { unzClose(file); }};
// Check that the zip file contains exactly one file
if (unzGoToFirstFile(file) != UNZ_OK)
return {};
if (unzGoToNextFile(file) != UNZ_END_OF_LIST_OF_FILE)
return {};
// Read the file
if (unzGoToFirstFile(file) != UNZ_OK)
return {};
unz_file_info file_info;
unzGetCurrentFileInfo(file, &file_info, nullptr, 0, nullptr, 0, nullptr, 0);
std::vector<u8> data(file_info.uncompressed_size);
if (!Common::ReadFileFromZip(file, &data))
return {};
return data;
}
static u8 ParseHexDigit(char c)
{
if (c < '0')
return 0; // Error
if (c >= 'a')
c -= 'a' - 'A';
if (c >= 'A')
c -= 'A' - ('9' + 1);
c -= '0';
if (c >= 0x10)
return 0; // Error
return c;
}
static std::vector<u8> ParseHash(const char* str)
{
std::vector<u8> hash;
while (str[0] && str[1])
{
hash.push_back(static_cast<u8>(ParseHexDigit(str[0]) * 0x10 + ParseHexDigit(str[1])));
str += 2;
}
return hash;
}
std::vector<RedumpVerifier::PotentialMatch> RedumpVerifier::ScanDatfile(const std::vector<u8>& data,
const std::string& system)
{
pugi::xml_document doc;
if (!doc.load_buffer(data.data(), data.size()))
{
m_result = {Status::Error, Common::GetStringT("Failed to parse Redump.org data")};
return {};
}
std::vector<PotentialMatch> potential_matches;
bool serials_exist = false;
bool versions_exist = false;
const pugi::xml_node datafile = doc.child("datafile");
for (const pugi::xml_node game : datafile.children("game"))
{
std::string version_string = game.child("version").text().as_string();
if (!version_string.empty())
versions_exist = true;
// Strip out prefix (e.g. "v1.02" -> "02", "Rev 2" -> "2")
const size_t last_non_numeric = version_string.find_last_not_of("0123456789");
if (last_non_numeric != std::string::npos)
version_string = version_string.substr(last_non_numeric + 1);
const int version = version_string.empty() ? 0 : std::stoi(version_string);
// The revisions for Korean GameCube games whose four-char game IDs end in E are numbered from
// 0x30 in ring codes and in disc headers, but Redump switched to numbering them from 0 in 2019.
if (version % 0x30 != m_revision % 0x30)
continue;
const std::string serials = game.child("serial").text().as_string();
if (!serials.empty())
serials_exist = true;
if (serials.empty() || StringBeginsWith(serials, "DS"))
{
// GC Datel discs have no serials in Redump, Wii Datel discs have serials like "DS000101"
if (!m_game_id.empty())
continue; // Non-empty m_game_id means we're verifying a non-Datel disc
}
else
{
bool serial_match_found = false;
// If a disc has multiple possible serials, they are delimited with ", ". We want to loop
// through all the serials until we find a match, because even though they normally only
// differ in the region code at the end (which we don't care about), there is an edge case
// disc with the game ID "G96P" and the serial "DL-DOL-D96P-EUR, DL-DOL-G96P-EUR".
for (const std::string& serial_str : SplitString(serials, ','))
{
const std::string_view serial = StripSpaces(serial_str);
// Skip the prefix, normally either "DL-DOL-" or "RVL-" (depending on the console),
// but there are some exceptions like the "RVLE-SBSE-USA-B0" serial.
const size_t first_dash = serial.find_first_of('-', 3);
const size_t game_id_start =
first_dash == std::string::npos ? std::string::npos : first_dash + 1;
if (game_id_start == std::string::npos || serial.size() < game_id_start + 4)
{
ERROR_LOG_FMT(DISCIO, "Invalid serial in redump datfile: {}", serial_str);
continue;
}
const std::string_view game_id = serial.substr(game_id_start, 4);
if (game_id != m_game_id)
continue;
u8 disc_number = 0;
if (serial.size() > game_id_start + 5 && serial[game_id_start + 5] >= '0' &&
serial[game_id_start + 5] <= '9')
{
disc_number = serial[game_id_start + 5] - '0';
}
if (disc_number != m_disc_number)
continue;
serial_match_found = true;
break;
}
if (!serial_match_found)
continue;
}
PotentialMatch& potential_match = potential_matches.emplace_back();
const pugi::xml_node rom = game.child("rom");
potential_match.size = rom.attribute("size").as_ullong();
potential_match.hashes.crc32 = ParseHash(rom.attribute("crc").value());
potential_match.hashes.md5 = ParseHash(rom.attribute("md5").value());
potential_match.hashes.sha1 = ParseHash(rom.attribute("sha1").value());
}
if (!serials_exist || !versions_exist)
{
// If we reach this, the user has most likely downloaded a datfile manually,
// so show a panic alert rather than just using ERROR_LOG
// i18n: "Serial" refers to serial numbers, e.g. RVL-RSBE-USA
PanicAlertFmtT(
"Serial and/or version data is missing from {0}\n"
"Please append \"{1}\" (without the quotes) to the datfile URL when downloading\n"
"Example: {2}",
GetPathForSystem(system), "serial,version", "http://redump.org/datfile/gc/serial,version");
m_result = {Status::Error, Common::GetStringT("Failed to parse Redump.org data")};
return {};
}
return potential_matches;
}
static bool HashesMatch(const std::vector<u8>& calculated, const std::vector<u8>& expected)
{
return calculated.empty() || calculated == expected;
}
RedumpVerifier::Result RedumpVerifier::Finish(const Hashes<std::vector<u8>>& hashes)
{
if (m_result.status == Status::Error)
return m_result;
if (hashes.crc32.empty() && hashes.md5.empty() && hashes.sha1.empty())
return m_result;
const std::vector<PotentialMatch> potential_matches = m_future.get();
for (PotentialMatch p : potential_matches)
{
if (HashesMatch(hashes.crc32, p.hashes.crc32) && HashesMatch(hashes.md5, p.hashes.md5) &&
HashesMatch(hashes.sha1, p.hashes.sha1) && m_size == p.size)
{
return {Status::GoodDump, Common::GetStringT("Good dump")};
}
}
// We only return bad dump if there's a disc that we know this dump should match but that doesn't
// match. For disc without IDs (i.e. Datel discs), we don't have a good way of knowing whether we
// have a bad dump or just a dump that isn't in Redump, so we always pick unknown instead of bad
// dump for those to be on the safe side. (Besides, it's possible to dump a Datel disc correctly
// and have it not match Redump if you don't use the same replacement value for bad sectors.)
if (!potential_matches.empty() && !m_game_id.empty())
return {Status::BadDump, Common::GetStringT("Bad dump")};
return {Status::Unknown, Common::GetStringT("Unknown disc")};
}
constexpr u64 DEFAULT_READ_SIZE = 0x20000; // Arbitrary value
VolumeVerifier::VolumeVerifier(const Volume& volume, bool redump_verification,
Hashes<bool> hashes_to_calculate)
: m_volume(volume), m_redump_verification(redump_verification),
m_hashes_to_calculate(hashes_to_calculate),
m_calculating_any_hash(hashes_to_calculate.crc32 || hashes_to_calculate.md5 ||
hashes_to_calculate.sha1),
m_max_progress(volume.GetSize())
{
if (!m_calculating_any_hash)
m_redump_verification = false;
}
VolumeVerifier::~VolumeVerifier()
{
WaitForAsyncOperations();
}
void VolumeVerifier::Start()
{
ASSERT(!m_started);
m_started = true;
if (m_redump_verification)
m_redump_verifier.Start(m_volume);
m_is_tgc = m_volume.GetBlobType() == BlobType::TGC;
m_is_datel = m_volume.IsDatelDisc();
m_is_not_retail =
(m_volume.GetVolumeType() == Platform::WiiDisc && !m_volume.IsEncryptedAndHashed()) ||
IsDebugSigned();
const std::vector<Partition> partitions = CheckPartitions();
if (IsDisc(m_volume.GetVolumeType()))
m_biggest_referenced_offset = GetBiggestReferencedOffset(m_volume, partitions);
CheckMisc();
SetUpHashing();
}
std::vector<Partition> VolumeVerifier::CheckPartitions()
{
if (m_volume.GetVolumeType() == Platform::WiiWAD)
return {};
const std::vector<Partition> partitions = m_volume.GetPartitions();
if (partitions.empty())
{
if (!m_volume.GetFileSystem(m_volume.GetGamePartition()))
{
AddProblem(Severity::High,
Common::GetStringT("The filesystem is invalid or could not be read."));
return {};
}
return {m_volume.GetGamePartition()};
}
std::optional<u32> partitions_in_first_table = m_volume.ReadSwapped<u32>(0x40000, PARTITION_NONE);
if (partitions_in_first_table && *partitions_in_first_table > 8)
{
// Not sure if 8 actually is the limit, but there certainly aren't any discs
// released that have as many partitions as 8 in the first partition table.
// The only game that has that many partitions in total is Super Smash Bros. Brawl,
// and that game places all partitions other than UPDATE and DATA in the second table.
AddProblem(Severity::Low,
Common::GetStringT("There are too many partitions in the first partition table."));
}
std::vector<u32> types;
for (const Partition& partition : partitions)
{
const std::optional<u32> type = m_volume.GetPartitionType(partition);
if (type)
types.emplace_back(*type);
}
if (std::find(types.cbegin(), types.cend(), PARTITION_UPDATE) == types.cend())
AddProblem(Severity::Low, Common::GetStringT("The update partition is missing."));
const bool has_data_partition =
std::find(types.cbegin(), types.cend(), PARTITION_DATA) != types.cend();
if (!m_is_datel && !has_data_partition)
AddProblem(Severity::High, Common::GetStringT("The data partition is missing."));
const bool has_channel_partition =
std::find(types.cbegin(), types.cend(), PARTITION_CHANNEL) != types.cend();
if (ShouldHaveChannelPartition() && !has_channel_partition)
AddProblem(Severity::Medium, Common::GetStringT("The channel partition is missing."));
const bool has_install_partition =
std::find(types.cbegin(), types.cend(), PARTITION_INSTALL) != types.cend();
if (ShouldHaveInstallPartition() && !has_install_partition)
AddProblem(Severity::High, Common::GetStringT("The install partition is missing."));
if (ShouldHaveMasterpiecePartitions() &&
types.cend() ==
std::find_if(types.cbegin(), types.cend(), [](u32 type) { return type >= 0xFF; }))
{
// i18n: This string is referring to a game mode in Super Smash Bros. Brawl called Masterpieces
// where you play demos of NES/SNES/N64 games. Official translations:
// 名作トライアル (Japanese), Masterpieces (English), Meisterstücke (German), Chefs-d'œuvre
// (French), Clásicos (Spanish), Capolavori (Italian), 클래식 게임 체험판 (Korean).
// If your language is not one of the languages above, consider leaving the string untranslated
// so that people will recognize it as the name of the game mode.
AddProblem(Severity::Medium, Common::GetStringT("The Masterpiece partitions are missing."));
}
for (const Partition& partition : partitions)
{
if (m_volume.GetPartitionType(partition) == PARTITION_UPDATE && partition.offset != 0x50000)
{
AddProblem(Severity::Low,
Common::GetStringT("The update partition is not at its normal position."));
}
const u64 normal_data_offset = m_volume.IsEncryptedAndHashed() ? 0xF800000 : 0x838000;
if (m_volume.GetPartitionType(partition) == PARTITION_DATA &&
partition.offset != normal_data_offset && !has_channel_partition && !has_install_partition)
{
AddProblem(Severity::Low,
Common::GetStringT(
"The data partition is not at its normal position. This will affect the "
"emulated loading times. You will be unable to share input recordings and use "
"NetPlay with anyone who is using a good dump."));
}
}
std::vector<Partition> valid_partitions;
for (const Partition& partition : partitions)
{
if (CheckPartition(partition))
valid_partitions.push_back(partition);
}
return valid_partitions;
}
bool VolumeVerifier::CheckPartition(const Partition& partition)
{
std::optional<u32> type = m_volume.GetPartitionType(partition);
if (!type)
{
// Not sure if this can happen in practice
AddProblem(Severity::Medium, Common::GetStringT("The type of a partition could not be read."));
return false;
}
Severity severity = Severity::Medium;
if (*type == PARTITION_DATA || *type == PARTITION_INSTALL)
severity = Severity::High;
else if (*type == PARTITION_UPDATE)
severity = Severity::Low;
const std::string name = GetPartitionName(type);
if (partition.offset % VolumeWii::BLOCK_TOTAL_SIZE != 0 ||
m_volume.PartitionOffsetToRawOffset(0, partition) % VolumeWii::BLOCK_TOTAL_SIZE != 0)
{
AddProblem(Severity::Medium,
Common::FmtFormatT("The {0} partition is not properly aligned.", name));
}
bool invalid_header = false;
bool blank_contents = false;
std::vector<u8> disc_header(0x80);
if (!m_volume.Read(0, disc_header.size(), disc_header.data(), partition))
{
invalid_header = true;
}
else if (Common::swap32(disc_header.data() + 0x18) != WII_DISC_MAGIC)
{
for (size_t i = 0; i < disc_header.size(); i += 4)
{
if (Common::swap32(disc_header.data() + i) != i)
{
invalid_header = true;
break;
}
}
// The loop above ends without setting invalid_header for discs that legitimately lack
// updates. No such discs have been released to end users. Most such discs are debug signed,
// but there is apparently at least one that is retail signed, the Movie-Ch Install Disc.
if (!invalid_header)
blank_contents = true;
}
if (invalid_header)
{
// This can happen when certain programs that create WBFS files scrub the entirety of
// the Masterpiece partitions in Super Smash Bros. Brawl without removing them from
// the partition table. https://bugs.dolphin-emu.org/issues/8733
AddProblem(severity,
Common::FmtFormatT("The {0} partition does not seem to contain valid data.", name));
return false;
}
if (!m_is_datel)
{
IOS::HLE::Kernel ios;
const auto es = ios.GetES();
const std::vector<u8>& cert_chain = m_volume.GetCertificateChain(partition);
if (IOS::HLE::IPC_SUCCESS !=
es->VerifyContainer(IOS::HLE::ESDevice::VerifyContainerType::Ticket,
IOS::HLE::ESDevice::VerifyMode::DoNotUpdateCertStore,
m_volume.GetTicket(partition), cert_chain) ||
IOS::HLE::IPC_SUCCESS !=
es->VerifyContainer(IOS::HLE::ESDevice::VerifyContainerType::TMD,
IOS::HLE::ESDevice::VerifyMode::DoNotUpdateCertStore,
m_volume.GetTMD(partition), cert_chain))
{
AddProblem(Severity::Low,
Common::FmtFormatT("The {0} partition is not correctly signed.", name));
}
}
if (m_volume.SupportsIntegrityCheck() && !m_volume.CheckH3TableIntegrity(partition))
{
AddProblem(Severity::Low,
Common::FmtFormatT("The H3 hash table for the {0} partition is not correct.", name));
}
// Prepare for hash verification in the Process step
if (m_volume.SupportsIntegrityCheck())
{
const u64 data_size =
m_volume.ReadSwappedAndShifted(partition.offset + 0x2bc, PARTITION_NONE).value_or(0);
const size_t blocks = static_cast<size_t>(data_size / VolumeWii::BLOCK_TOTAL_SIZE);
if (data_size % VolumeWii::BLOCK_TOTAL_SIZE != 0)
{
std::string text = Common::FmtFormatT(
"The data size for the {0} partition is not evenly divisible by the block size.", name);
AddProblem(Severity::Low, std::move(text));
}
u64 offset = m_volume.PartitionOffsetToRawOffset(0, partition);
for (size_t block_index = 0; block_index < blocks;
block_index += VolumeWii::BLOCKS_PER_GROUP, offset += VolumeWii::GROUP_TOTAL_SIZE)
{
m_groups.emplace_back(
GroupToVerify{partition, offset, block_index,
std::min(block_index + VolumeWii::BLOCKS_PER_GROUP, blocks)});
}
m_block_errors.emplace(partition, 0);
}
if (blank_contents)
return false;
const DiscIO::FileSystem* filesystem = m_volume.GetFileSystem(partition);
if (!filesystem)
{
if (m_is_datel)
{
// Datel's Wii Freeloader has an invalid FST in its only partition
return true;
}
AddProblem(severity,
Common::FmtFormatT("The {0} partition does not have a valid file system.", name));
return false;
}
if (type == PARTITION_UPDATE)
{
const IOS::ES::TMDReader& tmd = m_volume.GetTMD(m_volume.GetGamePartition());
// IOS9 is the only IOS which can be assumed to exist in a working state on any Wii
// regardless of what updates have been installed. At least Mario Party 8
// (RM8E01, revision 2) uses IOS9 without having it in its update partition.
const u64 ios_ver = tmd.GetIOSId() & 0xFF;
bool has_correct_ios = tmd.IsValid() && ios_ver == 9;
if (!has_correct_ios && tmd.IsValid())
{
std::unique_ptr<FileInfo> file_info = filesystem->FindFileInfo("_sys");
if (file_info)
{
const std::string ios_ver_str = std::to_string(ios_ver);
const std::string correct_ios =
IsDebugSigned() ? ("firmware.64." + ios_ver_str + ".") : ("IOS" + ios_ver_str + "-");
for (const FileInfo& f : *file_info)
{
if (StringBeginsWith(f.GetName(), correct_ios))
{
has_correct_ios = true;
break;
}
}
}
}
if (!has_correct_ios)
{
// This is reached for hacked dumps where the update partition has been replaced with
// a very old update partition so that no updates will be installed.
AddProblem(
Severity::Low,
Common::GetStringT("The update partition does not contain the IOS used by this title."));
}
}
return true;
}
std::string VolumeVerifier::GetPartitionName(std::optional<u32> type) const
{
if (!type)
return "???";
std::string name = NameForPartitionType(*type, false);
if (ShouldHaveMasterpiecePartitions() && *type > 0xFF)
{
// i18n: This string is referring to a game mode in Super Smash Bros. Brawl called Masterpieces
// where you play demos of NES/SNES/N64 games. This string is referring to a specific such demo
// rather than the game mode as a whole, so please use the singular form. Official translations:
// 名作トライアル (Japanese), Masterpieces (English), Meisterstücke (German), Chefs-d'œuvre
// (French), Clásicos (Spanish), Capolavori (Italian), 클래식 게임 체험판 (Korean).
// If your language is not one of the languages above, consider leaving the string untranslated
// so that people will recognize it as the name of the game mode.
name = Common::FmtFormatT("{0} (Masterpiece)", name);
}
return name;
}
bool VolumeVerifier::IsDebugSigned() const
{
const IOS::ES::TicketReader& ticket = m_volume.GetTicket(m_volume.GetGamePartition());
return ticket.IsValid() ? ticket.GetConsoleType() == IOS::HLE::IOSC::ConsoleType::RVT : false;
}
bool VolumeVerifier::ShouldHaveChannelPartition() const
{
static constexpr std::array<std::string_view, 18> channel_discs = {
"RFNE01", "RFNJ01", "RFNK01", "RFNP01", "RFNW01", "RFPE01", "RFPJ01", "RFPK01", "RFPP01",
"RFPW01", "RGWE41", "RGWJ41", "RGWP41", "RGWX41", "RMCE01", "RMCJ01", "RMCK01", "RMCP01",
};
DEBUG_ASSERT(std::is_sorted(channel_discs.cbegin(), channel_discs.cend()));
return std::binary_search(channel_discs.cbegin(), channel_discs.cend(),
std::string_view(m_volume.GetGameID()));
}
bool VolumeVerifier::ShouldHaveInstallPartition() const
{
static constexpr std::array<std::string_view, 4> dragon_quest_x = {"S4MJGD", "S4SJGD", "S6TJGD",
"SDQJGD"};
const std::string& game_id = m_volume.GetGameID();
return std::any_of(dragon_quest_x.cbegin(), dragon_quest_x.cend(),
[&game_id](std::string_view x) { return x == game_id; });
}
bool VolumeVerifier::ShouldHaveMasterpiecePartitions() const
{
static constexpr std::array<std::string_view, 4> ssbb = {"RSBE01", "RSBJ01", "RSBK01", "RSBP01"};
const std::string& game_id = m_volume.GetGameID();
return std::any_of(ssbb.cbegin(), ssbb.cend(),
[&game_id](std::string_view x) { return x == game_id; });
}
bool VolumeVerifier::ShouldBeDualLayer() const
{
// The Japanese versions of Xenoblade and The Last Story are single-layer
// (unlike the other versions) and must not be added to this list.
static constexpr std::array<std::string_view, 33> dual_layer_discs = {
"R3ME01", "R3MP01", "R3OE01", "R3OJ01", "R3OP01", "RSBE01", "RSBJ01", "RSBK01", "RSBP01",
"RXMJ8P", "S59E01", "S59JC8", "S59P01", "S5QJC8", "SAKENS", "SAKPNS", "SK8V52", "SK8X52",
"SLSEXJ", "SLSP01", "SQIE4Q", "SQIP4Q", "SQIY4Q", "SR5E41", "SR5P41", "SUOE41", "SUOP41",
"SVXX52", "SVXY52", "SX4E01", "SX4P01", "SZ3EGT", "SZ3PGT",
};
DEBUG_ASSERT(std::is_sorted(dual_layer_discs.cbegin(), dual_layer_discs.cend()));
return std::binary_search(dual_layer_discs.cbegin(), dual_layer_discs.cend(),
std::string_view(m_volume.GetGameID()));
}
void VolumeVerifier::CheckVolumeSize()
{
u64 volume_size = m_volume.GetSize();
const bool is_disc = IsDisc(m_volume.GetVolumeType());
const bool should_be_dual_layer = is_disc && ShouldBeDualLayer();
const bool is_size_accurate = m_volume.IsSizeAccurate();
bool volume_size_roughly_known = is_size_accurate;
if (should_be_dual_layer && m_biggest_referenced_offset <= SL_DVD_R_SIZE)
{
AddProblem(Severity::Medium,
Common::GetStringT(
"This game has been hacked to fit on a single-layer DVD. Some content such as "
"pre-rendered videos, extra languages or entire game modes will be broken. "
"This problem generally only exists in illegal copies of games."));
}
if (!is_size_accurate)
{
AddProblem(Severity::Low,
Common::GetStringT("The format that the disc image is saved in does not "
"store the size of the disc image."));
if (m_volume.SupportsIntegrityCheck())
{
volume_size = m_biggest_verified_offset;
volume_size_roughly_known = true;
}
}
if (m_content_index != m_content_offsets.size() || m_group_index != m_groups.size() ||
(!m_is_datel && volume_size_roughly_known && m_biggest_referenced_offset > volume_size))
{
const bool second_layer_missing = is_disc && volume_size_roughly_known &&
volume_size >= SL_DVD_SIZE && volume_size <= SL_DVD_R_SIZE;
std::string text =
second_layer_missing ?
Common::GetStringT("This disc image is too small and lacks some data. The problem is "
"most likely that this is a dual-layer disc that has been dumped "
"as a single-layer disc.") :
Common::GetStringT("This disc image is too small and lacks some data. If your "
"dumping program saved the disc image as several parts, you need "
"to merge them into one file.");
AddProblem(Severity::High, std::move(text));
return;
}
if (is_disc && is_size_accurate && !m_is_tgc)
{
const Platform platform = m_volume.GetVolumeType();
const bool should_be_gc_size = platform == Platform::GameCubeDisc || m_is_datel;
const bool valid_gamecube = volume_size == MINI_DVD_SIZE;
const bool valid_retail_wii = volume_size == SL_DVD_SIZE || volume_size == DL_DVD_SIZE;
const bool valid_debug_wii = volume_size == SL_DVD_R_SIZE || volume_size == DL_DVD_R_SIZE;
const bool debug = IsDebugSigned();
if ((should_be_gc_size && !valid_gamecube) ||
(!should_be_gc_size && (debug ? !valid_debug_wii : !valid_retail_wii)))
{
if (debug && valid_retail_wii)
{
AddProblem(
Severity::Low,
Common::GetStringT("This debug disc image has the size of a retail disc image."));
}
else
{
u64 normal_size;
if (should_be_gc_size)
normal_size = MINI_DVD_SIZE;
else if (!should_be_dual_layer)
normal_size = SL_DVD_SIZE;
else
normal_size = DL_DVD_SIZE;
if (volume_size < normal_size)
{
AddProblem(
Severity::Low,
Common::GetStringT(
"This disc image has an unusual size. This will likely make the emulated "
"loading times longer. You will likely be unable to share input recordings "
"and use NetPlay with anyone who is using a good dump."));
}
else
{
AddProblem(Severity::Low, Common::GetStringT("This disc image has an unusual size."));
}
}
}
}
}
void VolumeVerifier::CheckMisc()
{
const std::string game_id_unencrypted = m_volume.GetGameID(PARTITION_NONE);
const std::string game_id_encrypted = m_volume.GetGameID(m_volume.GetGamePartition());
if (game_id_unencrypted != game_id_encrypted)
{
bool inconsistent_game_id = true;
if (game_id_encrypted == "RELSAB")
{
if (StringBeginsWith(game_id_unencrypted, "410"))
{
// This is the Wii Backup Disc (aka "pinkfish" disc),
// which legitimately has an inconsistent game ID.
inconsistent_game_id = false;
}
else if (StringBeginsWith(game_id_unencrypted, "010"))
{
// Hacked version of the Wii Backup Disc (aka "pinkfish" disc).
std::string proper_game_id = game_id_unencrypted;
proper_game_id[0] = '4';
AddProblem(Severity::Low, Common::FmtFormatT("The game ID is {0} but should be {1}.",
game_id_unencrypted, proper_game_id));
inconsistent_game_id = false;
}
}
if (inconsistent_game_id)
{
AddProblem(Severity::Low, Common::GetStringT("The game ID is inconsistent."));
}
}
const Region region = m_volume.GetRegion();
constexpr std::string_view GAMECUBE_PLACEHOLDER_ID = "RELSAB";
constexpr std::string_view WII_PLACEHOLDER_ID = "RABAZZ";
if (game_id_encrypted.size() < 4)
{
AddProblem(Severity::Low, Common::GetStringT("The game ID is unusually short."));
}
else if (!m_is_datel && game_id_encrypted != GAMECUBE_PLACEHOLDER_ID &&
game_id_encrypted != WII_PLACEHOLDER_ID)
{
char country_code;
if (IsDisc(m_volume.GetVolumeType()))
country_code = game_id_encrypted[3];
else
country_code = static_cast<char>(m_volume.GetTitleID().value_or(0) & 0xff);
const Platform platform = m_volume.GetVolumeType();
const std::optional<u16> revision = m_volume.GetRevision();
if (CountryCodeToRegion(country_code, platform, region, revision) != region)
{
AddProblem(Severity::Medium,
Common::GetStringT(
"The region code does not match the game ID. If this is because the "
"region code has been modified, the game might run at the wrong speed, "
"graphical elements might be offset, or the game might not run at all."));
}
}
const IOS::ES::TMDReader& tmd = m_volume.GetTMD(m_volume.GetGamePartition());
if (tmd.IsValid())
{
const u64 ios_id = tmd.GetIOSId() & 0xFF;
// List of launch day Korean IOSes obtained from https://hackmii.com/2008/09/korean-wii/.
// More IOSes were released later that were used in Korean games, but they're all over 40.
// Also, old IOSes like IOS36 did eventually get released for Korean Wiis as part of system
// updates, but there are likely no Korean games using them since those IOSes were old by then.
if (region == Region::NTSC_K && ios_id < 40 && ios_id != 4 && ios_id != 9 && ios_id != 21 &&
ios_id != 37)
{
// This is intended to catch Korean games (usually but not always pirated) that have the IOS
// slot set to 36 as a side effect of having to fakesign after changing the common key slot to
// 0. (IOS36 was the last IOS with the Trucha bug.) https://bugs.dolphin-emu.org/issues/10319
AddProblem(
Severity::High,
// i18n: You may want to leave the term "ERROR #002" untranslated,
// since the emulated software always displays it in English.
Common::GetStringT("This Korean title is set to use an IOS that typically isn't used on "
"Korean consoles. This is likely to lead to ERROR #002."));
}
if (ios_id >= 0x80)
{
// This is intended to catch the same kind of fakesigned Korean games,
// but this time with the IOS slot set to cIOS instead of IOS36.
AddProblem(Severity::High, Common::GetStringT("This title is set to use an invalid IOS."));
}
}
m_ticket = m_volume.GetTicket(m_volume.GetGamePartition());
if (m_ticket.IsValid())
{
const u8 specified_common_key_index = m_ticket.GetCommonKeyIndex();
// Wii discs only use common key 0 (regular) and common key 1 (Korean), not common key 2 (vWii).
if (m_volume.GetVolumeType() == Platform::WiiDisc && specified_common_key_index > 1)
{
AddProblem(Severity::High,
// i18n: This is "common" as in "shared", not the opposite of "uncommon"
Common::GetStringT("This title is set to use an invalid common key."));
}
if (m_volume.GetVolumeType() == Platform::WiiWAD)
{
m_ticket = m_volume.GetTicketWithFixedCommonKey();
const u8 fixed_common_key_index = m_ticket.GetCommonKeyIndex();
if (specified_common_key_index != fixed_common_key_index)
{
// Many fakesigned WADs have the common key index set to a (random?) bogus value.
// For WADs, Dolphin will detect this and use the correct key, making this low severity.
AddProblem(Severity::Low,
// i18n: This is "common" as in "shared", not the opposite of "uncommon"
Common::FmtFormatT("The specified common key index is {0} but should be {1}.",
specified_common_key_index, fixed_common_key_index));
}
}
}
if (m_volume.GetVolumeType() == Platform::WiiWAD)
{
IOS::HLE::Kernel ios;
const auto es = ios.GetES();
const std::vector<u8>& cert_chain = m_volume.GetCertificateChain(PARTITION_NONE);
if (IOS::HLE::IPC_SUCCESS !=
es->VerifyContainer(IOS::HLE::ESDevice::VerifyContainerType::Ticket,
IOS::HLE::ESDevice::VerifyMode::DoNotUpdateCertStore, m_ticket,
cert_chain))
{
// i18n: "Ticket" here is a kind of digital authorization to use a certain title (e.g. a game)
AddProblem(Severity::Low, Common::GetStringT("The ticket is not correctly signed."));
}
if (IOS::HLE::IPC_SUCCESS !=
es->VerifyContainer(IOS::HLE::ESDevice::VerifyContainerType::TMD,
IOS::HLE::ESDevice::VerifyMode::DoNotUpdateCertStore, tmd, cert_chain))
{
AddProblem(
Severity::Medium,
Common::GetStringT("The TMD is not correctly signed. If you move or copy this title to "
"the SD Card, the Wii System Menu will not launch it anymore and will "
"also refuse to copy or move it back to the NAND."));
}
}
if (m_volume.IsNKit())
{
AddProblem(
Severity::Low,
Common::GetStringT("This disc image is in the NKit format. It is not a good dump in its "
"current form, but it might become a good dump if converted back. "
"The CRC32 of this file might match the CRC32 of a good dump even "
"though the files are not identical."));
}
if (IsDisc(m_volume.GetVolumeType()) && StringBeginsWith(game_id_unencrypted, "R8P"))
CheckSuperPaperMario();
}
void VolumeVerifier::CheckSuperPaperMario()
{
// When Super Paper Mario (any region/revision) reads setup/aa1_01.dat when starting a new game,
// it also reads a few extra bytes so that the read length is divisible by 0x20. If these extra
// bytes are zeroes like in good dumps, the game works correctly, but otherwise it can freeze
// (depending on the exact values of the extra bytes). https://bugs.dolphin-emu.org/issues/11900
const DiscIO::Partition partition = m_volume.GetGamePartition();
const FileSystem* fs = m_volume.GetFileSystem(partition);
if (!fs)
return;
std::unique_ptr<FileInfo> file_info = fs->FindFileInfo("setup/aa1_01.dat");
if (!file_info)
return;
const u64 offset = file_info->GetOffset() + file_info->GetSize();
const u64 length = Common::AlignUp(offset, 0x20) - offset;
std::vector<u8> data(length);
if (!m_volume.Read(offset, length, data.data(), partition))
return;
if (std::any_of(data.cbegin(), data.cend(), [](u8 x) { return x != 0; }))
{
AddProblem(Severity::High,
Common::GetStringT("Some padding data that should be zero is not zero. "
"This can make the game freeze at certain points."));
}
}
void VolumeVerifier::SetUpHashing()
{
if (m_volume.GetVolumeType() == Platform::WiiWAD)
{
m_content_offsets = m_volume.GetContentOffsets();
}
else if (m_volume.GetVolumeType() == Platform::WiiDisc)
{
// Set up a DiscScrubber for checking whether blocks with errors are unused
m_scrubber.SetupScrub(&m_volume);
}
std::sort(m_groups.begin(), m_groups.end(),
[](const GroupToVerify& a, const GroupToVerify& b) { return a.offset < b.offset; });
if (m_hashes_to_calculate.crc32)
m_crc32_context = Common::StartCRC32();
if (m_hashes_to_calculate.md5)
{
mbedtls_md5_init(&m_md5_context);
mbedtls_md5_starts_ret(&m_md5_context);
}
if (m_hashes_to_calculate.sha1)
{
mbedtls_sha1_init(&m_sha1_context);
mbedtls_sha1_starts_ret(&m_sha1_context);
}
}
void VolumeVerifier::WaitForAsyncOperations() const
{
if (m_crc32_future.valid())
m_crc32_future.wait();
if (m_md5_future.valid())
m_md5_future.wait();
if (m_sha1_future.valid())
m_sha1_future.wait();
if (m_content_future.valid())
m_content_future.wait();
if (m_group_future.valid())
m_group_future.wait();
}
bool VolumeVerifier::ReadChunkAndWaitForAsyncOperations(u64 bytes_to_read)
{
std::vector<u8> data(bytes_to_read);
const u64 bytes_to_copy = std::min(m_excess_bytes, bytes_to_read);
if (bytes_to_copy > 0)
std::memcpy(data.data(), m_data.data() + m_data.size() - m_excess_bytes, bytes_to_copy);
bytes_to_read -= bytes_to_copy;
if (bytes_to_read > 0)
{
if (!m_volume.Read(m_progress + bytes_to_copy, bytes_to_read, data.data() + bytes_to_copy,
PARTITION_NONE))
{
return false;
}
}
WaitForAsyncOperations();
m_data = std::move(data);
return true;
}
void VolumeVerifier::Process()
{
ASSERT(m_started);
ASSERT(!m_done);
if (m_progress == m_max_progress)
return;
IOS::ES::Content content{};
bool content_read = false;
bool group_read = false;
u64 bytes_to_read = DEFAULT_READ_SIZE;
u64 excess_bytes = 0;
if (m_content_index < m_content_offsets.size() &&
m_content_offsets[m_content_index] == m_progress)
{
m_volume.GetTMD(PARTITION_NONE).GetContent(m_content_index, &content);
bytes_to_read = Common::AlignUp(content.size, 0x40);
content_read = true;
const u16 next_content_index = m_content_index + 1;
if (next_content_index < m_content_offsets.size() &&
m_content_offsets[next_content_index] < m_progress + bytes_to_read)
{
excess_bytes = m_progress + bytes_to_read - m_content_offsets[next_content_index];
}
}
else if (m_content_index < m_content_offsets.size() &&
m_content_offsets[m_content_index] > m_progress)
{
bytes_to_read = std::min(bytes_to_read, m_content_offsets[m_content_index] - m_progress);
}
else if (m_group_index < m_groups.size() && m_groups[m_group_index].offset == m_progress)
{
const size_t blocks =
m_groups[m_group_index].block_index_end - m_groups[m_group_index].block_index_start;
bytes_to_read = VolumeWii::BLOCK_TOTAL_SIZE * blocks;
group_read = true;
if (m_group_index + 1 < m_groups.size() &&
m_groups[m_group_index + 1].offset < m_progress + bytes_to_read)
{
excess_bytes = m_progress + bytes_to_read - m_groups[m_group_index + 1].offset;
}
}
else if (m_group_index < m_groups.size() && m_groups[m_group_index].offset > m_progress)
{
bytes_to_read = std::min(bytes_to_read, m_groups[m_group_index].offset - m_progress);
}
if (m_progress + bytes_to_read > m_max_progress)
{
const u64 bytes_over_max = m_progress + bytes_to_read - m_max_progress;
bytes_to_read -= bytes_over_max;
if (excess_bytes < bytes_over_max)
excess_bytes = 0;
else
excess_bytes -= bytes_over_max;
}
const bool is_data_needed = m_calculating_any_hash || content_read || group_read;
const bool read_succeeded = is_data_needed && ReadChunkAndWaitForAsyncOperations(bytes_to_read);
if (!read_succeeded)
{
ERROR_LOG_FMT(DISCIO, "Read failed at {:#x} to {:#x}", m_progress, m_progress + bytes_to_read);
m_read_errors_occurred = true;
m_calculating_any_hash = false;
}
m_excess_bytes = excess_bytes;
const u64 byte_increment = bytes_to_read - excess_bytes;
if (m_calculating_any_hash)
{
if (m_hashes_to_calculate.crc32)
{
m_crc32_future = std::async(std::launch::async, [this, byte_increment] {
m_crc32_context =
Common::UpdateCRC32(m_crc32_context, m_data.data(), static_cast<u32>(byte_increment));
});
}
if (m_hashes_to_calculate.md5)
{
m_md5_future = std::async(std::launch::async, [this, byte_increment] {
mbedtls_md5_update_ret(&m_md5_context, m_data.data(), byte_increment);
});
}
if (m_hashes_to_calculate.sha1)
{
m_sha1_future = std::async(std::launch::async, [this, byte_increment] {
mbedtls_sha1_update_ret(&m_sha1_context, m_data.data(), byte_increment);
});
}
}
if (content_read)
{
m_content_future = std::async(std::launch::async, [this, read_succeeded, content] {
if (!read_succeeded || !m_volume.CheckContentIntegrity(content, m_data, m_ticket))
{
AddProblem(Severity::High, Common::FmtFormatT("Content {0:08x} is corrupt.", content.id));
}
});
m_content_index++;
}
if (group_read)
{
m_group_future = std::async(std::launch::async, [this, read_succeeded,
group_index = m_group_index] {
const GroupToVerify& group = m_groups[group_index];
u64 offset_in_group = 0;
for (u64 block_index = group.block_index_start; block_index < group.block_index_end;
++block_index, offset_in_group += VolumeWii::BLOCK_TOTAL_SIZE)
{
const u64 block_offset = group.offset + offset_in_group;
if (read_succeeded && m_volume.CheckBlockIntegrity(
block_index, m_data.data() + offset_in_group, group.partition))
{
m_biggest_verified_offset =
std::max(m_biggest_verified_offset, block_offset + VolumeWii::BLOCK_TOTAL_SIZE);
}
else
{
if (m_scrubber.CanBlockBeScrubbed(block_offset))
{
WARN_LOG_FMT(DISCIO, "Integrity check failed for unused block at {:#x}", block_offset);
m_unused_block_errors[group.partition]++;
}
else
{
WARN_LOG_FMT(DISCIO, "Integrity check failed for block at {:#x}", block_offset);
m_block_errors[group.partition]++;
}
}
}
});
m_group_index++;
}
m_progress += byte_increment;
}
u64 VolumeVerifier::GetBytesProcessed() const
{
return m_progress;
}
u64 VolumeVerifier::GetTotalBytes() const
{
return m_max_progress;
}
void VolumeVerifier::Finish()
{
if (m_done)
return;
m_done = true;
WaitForAsyncOperations();
if (m_calculating_any_hash)
{
if (m_hashes_to_calculate.crc32)
{
m_result.hashes.crc32 = std::vector<u8>(4);
const u32 crc32_be = Common::swap32(m_crc32_context);
const u8* crc32_be_ptr = reinterpret_cast<const u8*>(&crc32_be);
std::copy(crc32_be_ptr, crc32_be_ptr + 4, m_result.hashes.crc32.begin());
}
if (m_hashes_to_calculate.md5)
{
m_result.hashes.md5 = std::vector<u8>(16);
mbedtls_md5_finish_ret(&m_md5_context, m_result.hashes.md5.data());
}
if (m_hashes_to_calculate.sha1)
{
m_result.hashes.sha1 = std::vector<u8>(20);
mbedtls_sha1_finish_ret(&m_sha1_context, m_result.hashes.sha1.data());
}
}
if (m_read_errors_occurred)
AddProblem(Severity::Medium, Common::GetStringT("Some of the data could not be read."));
CheckVolumeSize();
for (auto [partition, blocks] : m_block_errors)
{
if (blocks > 0)
{
const std::string name = GetPartitionName(m_volume.GetPartitionType(partition));
AddProblem(Severity::Medium,
Common::FmtFormatT("Errors were found in {0} blocks in the {1} partition.", blocks,
name));
}
}
for (auto [partition, blocks] : m_unused_block_errors)
{
if (blocks > 0)
{
const std::string name = GetPartitionName(m_volume.GetPartitionType(partition));
AddProblem(Severity::Low,
Common::FmtFormatT("Errors were found in {0} unused blocks in the {1} partition.",
blocks, name));
}
}
// Show the most serious problems at the top
std::stable_sort(m_result.problems.begin(), m_result.problems.end(),
[](const Problem& p1, const Problem& p2) { return p1.severity > p2.severity; });
const Severity highest_severity =
m_result.problems.empty() ? Severity::None : m_result.problems[0].severity;
if (m_redump_verification)
m_result.redump = m_redump_verifier.Finish(m_result.hashes);
if (m_result.redump.status == RedumpVerifier::Status::GoodDump ||
(m_volume.GetVolumeType() == Platform::WiiWAD && !m_is_not_retail &&
m_result.problems.empty()))
{
if (m_result.problems.empty())
{
m_result.summary_text = Common::GetStringT("This is a good dump.");
}
else
{
m_result.summary_text =
Common::GetStringT("This is a good dump according to Redump.org, but Dolphin has found "
"problems. This might be a bug in Dolphin.");
}
return;
}
if (m_is_datel)
{
m_result.summary_text = Common::GetStringT("Dolphin is unable to verify unlicensed discs.");
return;
}
if (m_is_tgc)
{
m_result.summary_text =
Common::GetStringT("Dolphin is unable to verify typical TGC files properly, "
"since they are not dumps of actual discs.");
return;
}
if (m_result.redump.status == RedumpVerifier::Status::BadDump &&
highest_severity <= Severity::Low)
{
m_result.summary_text = Common::GetStringT(
"This is a bad dump. This doesn't necessarily mean that the game won't run correctly.");
}
else
{
if (m_result.redump.status == RedumpVerifier::Status::BadDump)
{
m_result.summary_text = Common::GetStringT("This is a bad dump.") + "\n\n";
}
switch (highest_severity)
{
case Severity::None:
if (IsWii(m_volume.GetVolumeType()) && !m_is_not_retail)
{
m_result.summary_text = Common::GetStringT(
"No problems were found. This does not guarantee that this is a good dump, "
"but since Wii titles contain a lot of verification data, it does mean that "
"there most likely are no problems that will affect emulation.");
}
else
{
m_result.summary_text = Common::GetStringT("No problems were found.");
}
break;
case Severity::Low:
m_result.summary_text =
Common::GetStringT("Problems with low severity were found. They will most "
"likely not prevent the game from running.");
break;
case Severity::Medium:
m_result.summary_text +=
Common::GetStringT("Problems with medium severity were found. The whole game "
"or certain parts of the game might not work correctly.");
break;
case Severity::High:
m_result.summary_text += Common::GetStringT(
"Problems with high severity were found. The game will most likely not work at all.");
break;
}
}
if (m_volume.GetVolumeType() == Platform::GameCubeDisc)
{
m_result.summary_text +=
Common::GetStringT("\n\nBecause GameCube disc images contain little verification data, "
"there may be problems that Dolphin is unable to detect.");
}
else if (m_is_not_retail)
{
m_result.summary_text +=
Common::GetStringT("\n\nBecause this title is not for retail Wii consoles, "
"Dolphin cannot verify that it hasn't been tampered with.");
}
}
const VolumeVerifier::Result& VolumeVerifier::GetResult() const
{
return m_result;
}
void VolumeVerifier::AddProblem(Severity severity, std::string text)
{
m_result.problems.emplace_back(Problem{severity, std::move(text)});
}
} // namespace DiscIO