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dolphin/Source/Core/Core/Boot/Boot.cpp
mitaclaw b52a08d533 DolphinQt: A Ubiquitous Signal For When Symbols Change 
There were three distinct mechanisms for signaling symbol changes in DolphinQt: `Host::NotifyMapLoaded`, `MenuBar::NotifySymbolsUpdated`, and `CodeViewWidget::SymbolsChanged`. The behavior of these signals has been consolidated into the new `Host::PPCSymbolsUpdated` signal, which can be emitted from anywhere in DolphinQt to properly update symbols everywhere in DolphinQt.
2024-03-28 09:57:22 -07:00

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// Copyright 2008 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include "Core/Boot/Boot.h"
#include <algorithm>
#include <array>
#include <cmath>
#include <cstring>
#include <memory>
#include <numeric>
#include <optional>
#include <string>
#include <unordered_set>
#include <utility>
#include <vector>
#include "Common/Align.h"
#include "Common/CommonPaths.h"
#include "Common/CommonTypes.h"
#include "Common/Config/Config.h"
#include "Common/FileUtil.h"
#include "Common/Hash.h"
#include "Common/IOFile.h"
#include "Common/Logging/Log.h"
#include "Common/MsgHandler.h"
#include "Common/StringUtil.h"
#include "Core/AchievementManager.h"
#include "Core/Boot/DolReader.h"
#include "Core/Boot/ElfReader.h"
#include "Core/CommonTitles.h"
#include "Core/Config/MainSettings.h"
#include "Core/Config/SYSCONFSettings.h"
#include "Core/ConfigManager.h"
#include "Core/FifoPlayer/FifoPlayer.h"
#include "Core/HLE/HLE.h"
#include "Core/HW/DVD/DVDInterface.h"
#include "Core/HW/EXI/EXI_DeviceIPL.h"
#include "Core/HW/Memmap.h"
#include "Core/HW/VideoInterface.h"
#include "Core/Host.h"
#include "Core/IOS/ES/ES.h"
#include "Core/IOS/FS/FileSystem.h"
#include "Core/IOS/IOS.h"
#include "Core/IOS/IOSC.h"
#include "Core/IOS/Uids.h"
#include "Core/NetPlayProto.h"
#include "Core/PatchEngine.h"
#include "Core/PowerPC/PPCAnalyst.h"
#include "Core/PowerPC/PPCSymbolDB.h"
#include "Core/PowerPC/PowerPC.h"
#include "Core/System.h"
#include "DiscIO/Enums.h"
#include "DiscIO/GameModDescriptor.h"
#include "DiscIO/RiivolutionParser.h"
#include "DiscIO/RiivolutionPatcher.h"
#include "DiscIO/VolumeDisc.h"
#include "DiscIO/VolumeWad.h"
static std::vector<std::string> ReadM3UFile(const std::string& m3u_path,
const std::string& folder_path)
{
std::vector<std::string> result;
std::vector<std::string> nonexistent;
std::ifstream s;
File::OpenFStream(s, m3u_path, std::ios_base::in);
std::string line;
while (std::getline(s, line))
{
// This is the UTF-8 representation of U+FEFF.
constexpr std::string_view utf8_bom = "\xEF\xBB\xBF";
if (line.starts_with(utf8_bom))
{
WARN_LOG_FMT(BOOT, "UTF-8 BOM in file: {}", m3u_path);
line.erase(0, utf8_bom.length());
}
if (!line.empty() && line.front() != '#') // Comments start with #
{
const std::string path_to_add = PathToString(StringToPath(folder_path) / StringToPath(line));
(File::Exists(path_to_add) ? result : nonexistent).push_back(path_to_add);
}
}
if (!nonexistent.empty())
{
PanicAlertFmtT("Files specified in the M3U file \"{0}\" were not found:\n{1}", m3u_path,
JoinStrings(nonexistent, "\n"));
return {};
}
if (result.empty())
PanicAlertFmtT("No paths found in the M3U file \"{0}\"", m3u_path);
return result;
}
BootSessionData::BootSessionData()
{
}
BootSessionData::BootSessionData(std::optional<std::string> savestate_path,
DeleteSavestateAfterBoot delete_savestate)
: m_savestate_path(std::move(savestate_path)), m_delete_savestate(delete_savestate)
{
}
BootSessionData::BootSessionData(BootSessionData&& other) = default;
BootSessionData& BootSessionData::operator=(BootSessionData&& other) = default;
BootSessionData::~BootSessionData() = default;
const std::optional<std::string>& BootSessionData::GetSavestatePath() const
{
return m_savestate_path;
}
DeleteSavestateAfterBoot BootSessionData::GetDeleteSavestate() const
{
return m_delete_savestate;
}
void BootSessionData::SetSavestateData(std::optional<std::string> savestate_path,
DeleteSavestateAfterBoot delete_savestate)
{
m_savestate_path = std::move(savestate_path);
m_delete_savestate = delete_savestate;
}
IOS::HLE::FS::FileSystem* BootSessionData::GetWiiSyncFS() const
{
return m_wii_sync_fs.get();
}
const std::vector<u64>& BootSessionData::GetWiiSyncTitles() const
{
return m_wii_sync_titles;
}
const std::string& BootSessionData::GetWiiSyncRedirectFolder() const
{
return m_wii_sync_redirect_folder;
}
void BootSessionData::InvokeWiiSyncCleanup() const
{
if (m_wii_sync_cleanup)
m_wii_sync_cleanup();
}
void BootSessionData::SetWiiSyncData(std::unique_ptr<IOS::HLE::FS::FileSystem> fs,
std::vector<u64> titles, std::string redirect_folder,
WiiSyncCleanupFunction cleanup)
{
m_wii_sync_fs = std::move(fs);
m_wii_sync_titles = std::move(titles);
m_wii_sync_redirect_folder = std::move(redirect_folder);
m_wii_sync_cleanup = std::move(cleanup);
}
const NetPlay::NetSettings* BootSessionData::GetNetplaySettings() const
{
return m_netplay_settings.get();
}
void BootSessionData::SetNetplaySettings(std::unique_ptr<NetPlay::NetSettings> netplay_settings)
{
m_netplay_settings = std::move(netplay_settings);
}
BootParameters::BootParameters(Parameters&& parameters_, BootSessionData boot_session_data_)
: parameters(std::move(parameters_)), boot_session_data(std::move(boot_session_data_))
{
}
std::unique_ptr<BootParameters> BootParameters::GenerateFromFile(std::string boot_path,
BootSessionData boot_session_data_)
{
return GenerateFromFile(std::vector<std::string>{std::move(boot_path)},
std::move(boot_session_data_));
}
std::unique_ptr<BootParameters> BootParameters::GenerateFromFile(std::vector<std::string> paths,
BootSessionData boot_session_data_)
{
ASSERT(!paths.empty());
for (std::string& path : paths)
UnifyPathSeparators(path);
// Check if the file exist, we may have gotten it from a --elf command line
// that gave an incorrect file name
if (!File::Exists(paths.front()))
{
PanicAlertFmtT("The specified file \"{0}\" does not exist", paths.front());
return {};
}
std::string folder_path;
std::string extension;
SplitPath(paths.front(), &folder_path, nullptr, &extension);
Common::ToLower(&extension);
if (extension == ".m3u" || extension == ".m3u8")
{
paths = ReadM3UFile(paths.front(), folder_path);
if (paths.empty())
return {};
for (std::string& path : paths)
UnifyPathSeparators(path);
SplitPath(paths.front(), nullptr, nullptr, &extension);
Common::ToLower(&extension);
}
std::string path = paths.front();
if (paths.size() == 1)
paths.clear();
#ifdef ANDROID
if (extension.empty() && IsPathAndroidContent(path))
{
const std::string display_name = GetAndroidContentDisplayName(path);
SplitPath(display_name, nullptr, nullptr, &extension);
Common::ToLower(&extension);
}
#endif
static const std::unordered_set<std::string> disc_image_extensions = {
{".gcm", ".iso", ".tgc", ".wbfs", ".ciso", ".gcz", ".wia", ".rvz", ".nfs", ".dol", ".elf"}};
if (disc_image_extensions.find(extension) != disc_image_extensions.end())
{
std::unique_ptr<DiscIO::VolumeDisc> disc = DiscIO::CreateDisc(path);
if (disc)
{
return std::make_unique<BootParameters>(Disc{std::move(path), std::move(disc), paths},
std::move(boot_session_data_));
}
if (extension == ".elf")
{
auto elf_reader = std::make_unique<ElfReader>(path);
return std::make_unique<BootParameters>(Executable{std::move(path), std::move(elf_reader)},
std::move(boot_session_data_));
}
if (extension == ".dol")
{
auto dol_reader = std::make_unique<DolReader>(path);
return std::make_unique<BootParameters>(Executable{std::move(path), std::move(dol_reader)},
std::move(boot_session_data_));
}
PanicAlertFmtT("\"{0}\" is an invalid GCM/ISO file, or is not a GC/Wii ISO.", path);
return {};
}
if (extension == ".dff")
return std::make_unique<BootParameters>(DFF{std::move(path)}, std::move(boot_session_data_));
if (extension == ".wad")
{
std::unique_ptr<DiscIO::VolumeWAD> wad = DiscIO::CreateWAD(std::move(path));
if (wad)
return std::make_unique<BootParameters>(std::move(*wad), std::move(boot_session_data_));
}
if (extension == ".json")
{
auto descriptor = DiscIO::ParseGameModDescriptorFile(path);
if (descriptor)
{
auto boot_params = GenerateFromFile(descriptor->base_file, std::move(boot_session_data_));
if (!boot_params)
{
PanicAlertFmtT("Could not recognize file {0}", descriptor->base_file);
return nullptr;
}
if (descriptor->riivolution && std::holds_alternative<Disc>(boot_params->parameters))
{
const auto& volume = *std::get<Disc>(boot_params->parameters).volume;
AddRiivolutionPatches(boot_params.get(),
DiscIO::Riivolution::GenerateRiivolutionPatchesFromGameModDescriptor(
*descriptor->riivolution, volume.GetGameID(),
volume.GetRevision(), volume.GetDiscNumber()));
}
return boot_params;
}
}
PanicAlertFmtT("Could not recognize file {0}", path);
return {};
}
BootParameters::IPL::IPL(DiscIO::Region region_) : region(region_)
{
const std::string directory = Config::GetDirectoryForRegion(region);
path = Config::GetBootROMPath(directory);
}
BootParameters::IPL::IPL(DiscIO::Region region_, Disc&& disc_) : IPL(region_)
{
disc = std::move(disc_);
}
// Inserts a disc into the emulated disc drive and returns a pointer to it.
// The returned pointer must only be used while we are still booting,
// because DVDThread can do whatever it wants to the disc after that.
static const DiscIO::VolumeDisc* SetDisc(DVD::DVDInterface& dvd_interface,
std::unique_ptr<DiscIO::VolumeDisc> disc,
std::vector<std::string> auto_disc_change_paths = {})
{
const DiscIO::VolumeDisc* pointer = disc.get();
dvd_interface.SetDisc(std::move(disc), auto_disc_change_paths);
return pointer;
}
bool CBoot::DVDRead(Core::System& system, const DiscIO::VolumeDisc& disc, u64 dvd_offset,
u32 output_address, u32 length, const DiscIO::Partition& partition)
{
std::vector<u8> buffer(length);
if (!disc.Read(dvd_offset, length, buffer.data(), partition))
return false;
auto& memory = system.GetMemory();
memory.CopyToEmu(output_address, buffer.data(), length);
return true;
}
bool CBoot::DVDReadDiscID(Core::System& system, const DiscIO::VolumeDisc& disc, u32 output_address)
{
std::array<u8, 0x20> buffer;
if (!disc.Read(0, buffer.size(), buffer.data(), DiscIO::PARTITION_NONE))
return false;
auto& memory = system.GetMemory();
memory.CopyToEmu(output_address, buffer.data(), buffer.size());
// Transition out of the DiscIdNotRead state (which the drive should be in at this point,
// on the assumption that this is only used for the first read)
system.GetDVDInterface().SetDriveState(DVD::DriveState::ReadyNoReadsMade);
return true;
}
// Get map file paths for the active title.
bool CBoot::FindMapFile(std::string* existing_map_file, std::string* writable_map_file)
{
const std::string& game_id = SConfig::GetInstance().m_debugger_game_id;
std::string path = File::GetUserPath(D_MAPS_IDX) + game_id + ".map";
if (writable_map_file)
*writable_map_file = path;
if (File::Exists(path))
{
if (existing_map_file)
*existing_map_file = std::move(path);
return true;
}
return false;
}
bool CBoot::LoadMapFromFilename(const Core::CPUThreadGuard& guard, PPCSymbolDB& ppc_symbol_db)
{
std::string strMapFilename;
bool found = FindMapFile(&strMapFilename, nullptr);
if (found && ppc_symbol_db.LoadMap(guard, strMapFilename))
{
Host_PPCSymbolsChanged();
return true;
}
return false;
}
// If ipl.bin is not found, this function does *some* of what BS1 does:
// loading IPL(BS2) and jumping to it.
// It does not initialize the hardware or anything else like BS1 does.
bool CBoot::Load_BS2(Core::System& system, const std::string& boot_rom_filename)
{
// CRC32 hashes of the IPL file, obtained from Redump
constexpr u32 NTSC_v1_0 = 0x6DAC1F2A;
constexpr u32 NTSC_v1_1 = 0xD5E6FEEA;
constexpr u32 NTSC_v1_2 = 0x86573808;
constexpr u32 MPAL_v1_1 = 0x667D0B64; // Brazil
constexpr u32 PAL_v1_0 = 0x4F319F43;
constexpr u32 PAL_v1_2 = 0xAD1B7F16;
// Load the IPL ROM dump, limited to 2MiB which is the size of the official IPLs.
constexpr size_t max_ipl_size = 2 * 1024 * 1024;
std::vector<u8> data;
{
File::IOFile file(boot_rom_filename, "rb");
if (!file)
return false;
data.resize(static_cast<size_t>(std::min<u64>(file.GetSize(), max_ipl_size)));
if (!file.ReadArray(data.data(), data.size()))
return false;
}
const u32 ipl_hash = Common::ComputeCRC32(data.data(), data.size());
bool known_ipl = false;
bool pal_ipl = false;
switch (ipl_hash)
{
case NTSC_v1_0:
case NTSC_v1_1:
case NTSC_v1_2:
case MPAL_v1_1:
known_ipl = true;
break;
case PAL_v1_0:
case PAL_v1_2:
pal_ipl = true;
known_ipl = true;
break;
default:
PanicAlertFmtT("The IPL file is not a known good dump. (CRC32: {0:x})", ipl_hash);
break;
}
const DiscIO::Region boot_region = SConfig::GetInstance().m_region;
if (known_ipl && pal_ipl != (boot_region == DiscIO::Region::PAL))
{
PanicAlertFmtT("{0} IPL found in {1} directory. The disc might not be recognized",
pal_ipl ? "PAL" : "NTSC", Config::GetDirectoryForRegion(boot_region));
}
// Run the descrambler over the encrypted section containing BS1/BS2
if (data.size() > 0x100)
{
ExpansionInterface::CEXIIPL::Descrambler(
data.data() + 0x100, static_cast<u32>(std::min<size_t>(data.size() - 0x100, 0x1AFE00)));
}
// TODO: Execution is supposed to start at 0xFFF00000, not 0x81200000;
// copying the initial boot code to 0x81200000 is a hack.
// For now, HLE the first few instructions and start at 0x81200150
// to work around this.
auto& memory = system.GetMemory();
if (data.size() > 0x100)
{
memory.CopyToEmu(0x01200000, data.data() + 0x100, std::min<size_t>(data.size() - 0x100, 0x700));
}
if (data.size() > 0x820)
{
memory.CopyToEmu(0x01300000, data.data() + 0x820,
std::min<size_t>(data.size() - 0x820, 0x1AFE00));
}
auto& ppc_state = system.GetPPCState();
ppc_state.gpr[3] = 0xfff0001f;
ppc_state.gpr[4] = 0x00002030;
ppc_state.gpr[5] = 0x0000009c;
ppc_state.msr.FP = 1;
ppc_state.msr.DR = 1;
ppc_state.msr.IR = 1;
ppc_state.spr[SPR_HID0] = 0x0011c464;
ppc_state.spr[SPR_IBAT3U] = 0xfff0001f;
ppc_state.spr[SPR_IBAT3L] = 0xfff00001;
ppc_state.spr[SPR_DBAT3U] = 0xfff0001f;
ppc_state.spr[SPR_DBAT3L] = 0xfff00001;
SetupBAT(system, /*is_wii*/ false);
ppc_state.pc = 0x81200150;
PowerPC::MSRUpdated(ppc_state);
return true;
}
static void SetDefaultDisc(DVD::DVDInterface& dvd_interface)
{
const std::string default_iso = Config::Get(Config::MAIN_DEFAULT_ISO);
if (!default_iso.empty())
SetDisc(dvd_interface, DiscIO::CreateDisc(default_iso));
}
static void CopyDefaultExceptionHandlers(Core::System& system)
{
constexpr u32 EXCEPTION_HANDLER_ADDRESSES[] = {0x00000100, 0x00000200, 0x00000300, 0x00000400,
0x00000500, 0x00000600, 0x00000700, 0x00000800,
0x00000900, 0x00000C00, 0x00000D00, 0x00000F00,
0x00001300, 0x00001400, 0x00001700};
auto& memory = system.GetMemory();
constexpr u32 RFI_INSTRUCTION = 0x4C000064;
for (const u32 address : EXCEPTION_HANDLER_ADDRESSES)
memory.Write_U32(RFI_INSTRUCTION, address);
}
// Third boot step after BootManager and Core. See Call schedule in BootManager.cpp
bool CBoot::BootUp(Core::System& system, const Core::CPUThreadGuard& guard,
std::unique_ptr<BootParameters> boot)
{
SConfig& config = SConfig::GetInstance();
if (auto& ppc_symbol_db = system.GetPPCSymbolDB(); !ppc_symbol_db.IsEmpty())
{
ppc_symbol_db.Clear();
Host_PPCSymbolsChanged();
}
// PAL Wii uses NTSC framerate and linecount in 60Hz modes
system.GetVideoInterface().Preset(DiscIO::IsNTSC(config.m_region) ||
(system.IsWii() && Config::Get(Config::SYSCONF_PAL60)));
struct BootTitle
{
BootTitle(Core::System& system_, const Core::CPUThreadGuard& guard_,
const std::vector<DiscIO::Riivolution::Patch>& patches)
: system(system_), guard(guard_), config(SConfig::GetInstance()),
riivolution_patches(patches)
{
}
bool operator()(BootParameters::Disc& disc) const
{
NOTICE_LOG_FMT(BOOT, "Booting from disc: {}", disc.path);
const DiscIO::VolumeDisc* volume =
SetDisc(system.GetDVDInterface(), std::move(disc.volume), disc.auto_disc_change_paths);
if (!volume)
return false;
if (!EmulatedBS2(system, guard, system.IsWii(), *volume, riivolution_patches))
return false;
SConfig::OnNewTitleLoad(guard);
return true;
}
bool operator()(const BootParameters::Executable& executable) const
{
NOTICE_LOG_FMT(BOOT, "Booting from executable: {}", executable.path);
if (!executable.reader->IsValid())
return false;
SetDefaultDisc(system.GetDVDInterface());
auto& ppc_state = system.GetPPCState();
SetupMSR(ppc_state);
SetupHID(ppc_state, system.IsWii());
SetupBAT(system, system.IsWii());
CopyDefaultExceptionHandlers(system);
if (system.IsWii())
{
// Set a value for the SP. It doesn't matter where this points to,
// as long as it is a valid location. This value is taken from a homebrew binary.
ppc_state.gpr[1] = 0x8004d4bc;
// Because there is no TMD to get the requested system (IOS) version from,
// we default to IOS58, which is the version used by the Homebrew Channel.
SetupWiiMemory(system, IOS::HLE::IOSC::ConsoleType::Retail);
system.GetIOS()->BootIOS(Titles::IOS(58));
}
else
{
SetupGCMemory(system, guard);
}
#ifdef USE_RETRO_ACHIEVEMENTS
AchievementManager::GetInstance().HashGame(executable.path,
[](AchievementManager::ResponseType r_type) {});
#endif // USE_RETRO_ACHIEVEMENTS
if (!executable.reader->LoadIntoMemory(system))
{
PanicAlertFmtT("Failed to load the executable to memory.");
return false;
}
SConfig::OnNewTitleLoad(guard);
ppc_state.pc = executable.reader->GetEntryPoint();
if (executable.reader->LoadSymbols(guard, system.GetPPCSymbolDB()))
{
Host_PPCSymbolsChanged();
HLE::PatchFunctions(system);
}
return true;
}
bool operator()(const DiscIO::VolumeWAD& wad) const
{
SetDefaultDisc(system.GetDVDInterface());
if (!Boot_WiiWAD(system, wad))
return false;
SConfig::OnNewTitleLoad(guard);
return true;
}
bool operator()(const BootParameters::NANDTitle& nand_title) const
{
SetDefaultDisc(system.GetDVDInterface());
if (!BootNANDTitle(system, nand_title.id))
return false;
SConfig::OnNewTitleLoad(guard);
return true;
}
bool operator()(const BootParameters::IPL& ipl) const
{
NOTICE_LOG_FMT(BOOT, "Booting GC IPL: {}", ipl.path);
if (!File::Exists(ipl.path))
{
if (ipl.disc)
PanicAlertFmtT("Cannot start the game, because the GC IPL could not be found.");
else
PanicAlertFmtT("Cannot find the GC IPL.");
return false;
}
if (!Load_BS2(system, ipl.path))
return false;
if (ipl.disc)
{
NOTICE_LOG_FMT(BOOT, "Inserting disc: {}", ipl.disc->path);
SetDisc(system.GetDVDInterface(), DiscIO::CreateDisc(ipl.disc->path),
ipl.disc->auto_disc_change_paths);
}
SConfig::OnNewTitleLoad(guard);
return true;
}
bool operator()(const BootParameters::DFF& dff) const
{
NOTICE_LOG_FMT(BOOT, "Booting DFF: {}", dff.dff_path);
return system.GetFifoPlayer().Open(dff.dff_path);
}
private:
Core::System& system;
const Core::CPUThreadGuard& guard;
const SConfig& config;
const std::vector<DiscIO::Riivolution::Patch>& riivolution_patches;
};
if (!std::visit(BootTitle(system, guard, boot->riivolution_patches), boot->parameters))
return false;
DiscIO::Riivolution::ApplyGeneralMemoryPatches(guard, boot->riivolution_patches);
return true;
}
BootExecutableReader::BootExecutableReader(const std::string& file_name)
: BootExecutableReader(File::IOFile{file_name, "rb"})
{
}
BootExecutableReader::BootExecutableReader(File::IOFile file)
{
file.Seek(0, File::SeekOrigin::Begin);
m_bytes.resize(file.GetSize());
file.ReadBytes(m_bytes.data(), m_bytes.size());
}
BootExecutableReader::BootExecutableReader(std::vector<u8> bytes) : m_bytes(std::move(bytes))
{
}
BootExecutableReader::~BootExecutableReader() = default;
void StateFlags::UpdateChecksum()
{
constexpr size_t length_in_bytes = sizeof(StateFlags) - 4;
constexpr size_t num_elements = length_in_bytes / sizeof(u32);
std::array<u32, num_elements> flag_data;
std::memcpy(flag_data.data(), &flags, length_in_bytes);
checksum = std::accumulate(flag_data.cbegin(), flag_data.cend(), 0U);
}
void UpdateStateFlags(std::function<void(StateFlags*)> update_function)
{
CreateSystemMenuTitleDirs();
const std::string file_path = Common::GetTitleDataPath(Titles::SYSTEM_MENU) + "/" WII_STATE;
const auto fs = Core::System::GetInstance().GetIOS()->GetFS();
constexpr IOS::HLE::FS::Mode rw_mode = IOS::HLE::FS::Mode::ReadWrite;
const auto file = fs->CreateAndOpenFile(IOS::SYSMENU_UID, IOS::SYSMENU_GID, file_path,
{rw_mode, rw_mode, rw_mode});
if (!file)
return;
StateFlags state{};
if (file->GetStatus()->size == sizeof(StateFlags))
file->Read(&state, 1);
update_function(&state);
state.UpdateChecksum();
file->Seek(0, IOS::HLE::FS::SeekMode::Set);
file->Write(&state, 1);
}
void CreateSystemMenuTitleDirs()
{
const auto& es = Core::System::GetInstance().GetIOS()->GetESCore();
es.CreateTitleDirectories(Titles::SYSTEM_MENU, IOS::SYSMENU_GID);
}
void AddRiivolutionPatches(BootParameters* boot_params,
std::vector<DiscIO::Riivolution::Patch> riivolution_patches)
{
if (riivolution_patches.empty())
return;
if (!std::holds_alternative<BootParameters::Disc>(boot_params->parameters))
return;
auto& disc = std::get<BootParameters::Disc>(boot_params->parameters);
disc.volume = DiscIO::CreateDisc(DiscIO::DirectoryBlobReader::Create(
std::move(disc.volume),
[&](std::vector<DiscIO::FSTBuilderNode>* fst) {
DiscIO::Riivolution::ApplyPatchesToFiles(
riivolution_patches, DiscIO::Riivolution::PatchIndex::DolphinSysFiles, fst, nullptr);
},
[&](std::vector<DiscIO::FSTBuilderNode>* fst, DiscIO::FSTBuilderNode* dol_node) {
DiscIO::Riivolution::ApplyPatchesToFiles(
riivolution_patches, DiscIO::Riivolution::PatchIndex::FileSystem, fst, dol_node);
}));
boot_params->riivolution_patches = std::move(riivolution_patches);
}
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