Duckstation/src/core/game_database.cpp

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// SPDX-FileCopyrightText: 2019-2023 Connor McLaughlin <stenzek@gmail.com>
// SPDX-License-Identifier: (GPL-3.0 OR CC-BY-NC-ND-4.0)
#include "game_database.h"
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#include "host.h"
#include "system.h"
#include "util/cd_image.h"
#include "util/imgui_manager.h"
#include "common/assert.h"
#include "common/byte_stream.h"
#include "common/heterogeneous_containers.h"
#include "common/log.h"
#include "common/path.h"
#include "common/string_util.h"
#include "common/timer.h"
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#include "rapidjson/document.h"
#include "rapidjson/error/en.h"
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#include <iomanip>
#include <memory>
#include <optional>
#include <sstream>
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Log_SetChannel(GameDatabase);
#ifdef _WIN32
#include "common/windows_headers.h"
#endif
namespace GameDatabase {
enum : u32
{
GAME_DATABASE_CACHE_SIGNATURE = 0x45434C48,
GAME_DATABASE_CACHE_VERSION = 5,
};
static Entry* GetMutableEntry(const std::string_view& serial);
static bool LoadFromCache();
static bool SaveToCache();
static bool LoadGameDBJson();
static bool ParseJsonEntry(Entry* entry, const rapidjson::Value& value);
static bool ParseJsonCodes(u32 index, const rapidjson::Value& value);
static bool LoadTrackHashes();
std::array<const char*, static_cast<u32>(GameDatabase::Trait::Count)> s_trait_names = {{
"ForceInterpreter",
"ForceSoftwareRenderer",
"ForceSoftwareRendererForReadbacks",
"ForceInterlacing",
"DisableTrueColor",
"DisableUpscaling",
"DisableScaledDithering",
"DisableForceNTSCTimings",
"DisableWidescreen",
"DisablePGXP",
"DisablePGXPCulling",
"DisablePGXPTextureCorrection",
"DisablePGXPColorCorrection",
"DisablePGXPDepthBuffer",
"ForcePGXPVertexCache",
"ForcePGXPCPUMode",
"ForceRecompilerMemoryExceptions",
"ForceRecompilerICache",
"ForceRecompilerLUTFastmem",
"IsLibCryptProtected",
}};
static bool s_loaded = false;
static bool s_track_hashes_loaded = false;
static std::vector<GameDatabase::Entry> s_entries;
static UnorderedStringMap<u32> s_code_lookup;
static TrackHashesMap s_track_hashes_map;
} // namespace GameDatabase
void GameDatabase::EnsureLoaded()
{
if (s_loaded)
return;
Common::Timer timer;
s_loaded = true;
if (!LoadFromCache())
{
s_entries = {};
s_code_lookup = {};
LoadGameDBJson();
SaveToCache();
}
Log_InfoPrintf("Database load took %.2f ms", timer.GetTimeMilliseconds());
}
void GameDatabase::Unload()
{
s_entries = {};
s_code_lookup = {};
s_loaded = false;
}
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const GameDatabase::Entry* GameDatabase::GetEntryForId(const std::string_view& code)
{
if (code.empty())
return nullptr;
EnsureLoaded();
auto iter = s_code_lookup.find(code);
return (iter != s_code_lookup.end()) ? &s_entries[iter->second] : nullptr;
}
std::string GameDatabase::GetSerialForDisc(CDImage* image)
{
std::string ret;
const GameDatabase::Entry* entry = GetEntryForDisc(image);
if (entry)
ret = entry->serial;
return ret;
}
std::string GameDatabase::GetSerialForPath(const char* path)
{
std::string ret;
if (System::IsLoadableFilename(path) && !System::IsExeFileName(path) && !System::IsPsfFileName(path))
{
std::unique_ptr<CDImage> image(CDImage::Open(path, false, nullptr));
if (image)
ret = GetSerialForDisc(image.get());
}
return ret;
}
const GameDatabase::Entry* GameDatabase::GetEntryForDisc(CDImage* image)
{
std::string id;
System::GetGameDetailsFromImage(image, &id, nullptr);
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if (!id.empty())
{
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const Entry* entry = GetEntryForId(id);
if (entry)
return entry;
}
Log_WarningPrintf("No entry found for disc '%s'", id.c_str());
return nullptr;
}
const GameDatabase::Entry* GameDatabase::GetEntryForSerial(const std::string_view& serial)
{
EnsureLoaded();
return GetMutableEntry(serial);
}
GameDatabase::Entry* GameDatabase::GetMutableEntry(const std::string_view& serial)
{
for (Entry& entry : s_entries)
{
if (entry.serial == serial)
return &entry;
}
return nullptr;
}
const char* GameDatabase::GetTraitName(Trait trait)
{
DebugAssert(trait < Trait::Count);
return s_trait_names[static_cast<u32>(trait)];
}
const char* GameDatabase::GetCompatibilityRatingName(CompatibilityRating rating)
{
static std::array<const char*, static_cast<int>(CompatibilityRating::Count)> names = {
{"Unknown", "DoesntBoot", "CrashesInIntro", "CrashesInGame", "GraphicalAudioIssues", "NoIssues"}};
return names[static_cast<int>(rating)];
}
const char* GameDatabase::GetCompatibilityRatingDisplayName(CompatibilityRating rating)
{
static constexpr std::array<const char*, static_cast<size_t>(CompatibilityRating::Count)> names = {
{TRANSLATE_NOOP("GameListCompatibilityRating", "Unknown"),
TRANSLATE_NOOP("GameListCompatibilityRating", "Doesn't Boot"),
TRANSLATE_NOOP("GameListCompatibilityRating", "Crashes In Intro"),
TRANSLATE_NOOP("GameListCompatibilityRating", "Crashes In-Game"),
TRANSLATE_NOOP("GameListCompatibilityRating", "Graphical/Audio Issues"),
TRANSLATE_NOOP("GameListCompatibilityRating", "No Issues")}};
return (rating >= CompatibilityRating::Unknown && rating < CompatibilityRating::Count) ?
Host::TranslateToCString("GameListCompatibilityRating", names[static_cast<int>(rating)]) :
"";
}
void GameDatabase::Entry::ApplySettings(Settings& settings, bool display_osd_messages) const
{
constexpr float osd_duration = 5.0f;
if (display_active_start_offset.has_value())
settings.display_active_start_offset = display_active_start_offset.value();
if (display_active_end_offset.has_value())
settings.display_active_end_offset = display_active_end_offset.value();
if (display_line_start_offset.has_value())
settings.display_line_start_offset = display_line_start_offset.value();
if (display_line_end_offset.has_value())
settings.display_line_end_offset = display_line_end_offset.value();
if (dma_max_slice_ticks.has_value())
settings.dma_max_slice_ticks = dma_max_slice_ticks.value();
if (dma_halt_ticks.has_value())
settings.dma_halt_ticks = dma_halt_ticks.value();
if (gpu_fifo_size.has_value())
settings.gpu_fifo_size = gpu_fifo_size.value();
if (gpu_max_run_ahead.has_value())
settings.gpu_max_run_ahead = gpu_max_run_ahead.value();
if (gpu_pgxp_tolerance.has_value())
settings.gpu_pgxp_tolerance = gpu_pgxp_tolerance.value();
if (gpu_pgxp_depth_threshold.has_value())
settings.SetPGXPDepthClearThreshold(gpu_pgxp_depth_threshold.value());
if (HasTrait(Trait::ForceInterpreter))
{
if (display_osd_messages && settings.cpu_execution_mode != CPUExecutionMode::Interpreter)
{
Host::AddKeyedOSDMessage("gamedb_force_interpreter",
TRANSLATE_STR("OSDMessage", "CPU interpreter forced by game settings."), osd_duration);
}
settings.cpu_execution_mode = CPUExecutionMode::Interpreter;
}
if (HasTrait(Trait::ForceSoftwareRenderer))
{
if (display_osd_messages && settings.gpu_renderer != GPURenderer::Software)
{
Host::AddKeyedOSDMessage("gamedb_force_software",
TRANSLATE_STR("OSDMessage", "Software renderer forced by game settings."), osd_duration);
}
settings.gpu_renderer = GPURenderer::Software;
}
if (HasTrait(Trait::ForceSoftwareRendererForReadbacks))
{
if (display_osd_messages && settings.gpu_renderer != GPURenderer::Software)
{
Host::AddKeyedOSDMessage(
"gamedb_force_software_rb",
TRANSLATE_STR("OSDMessage", "Using software renderer for readbacks based on game settings."), osd_duration);
}
settings.gpu_use_software_renderer_for_readbacks = true;
}
if (HasTrait(Trait::ForceInterlacing))
{
if (display_osd_messages && settings.gpu_disable_interlacing)
{
Host::AddKeyedOSDMessage("gamedb_force_interlacing",
TRANSLATE_STR("OSDMessage", "Interlacing forced by game settings."), osd_duration);
}
settings.gpu_disable_interlacing = false;
}
if (HasTrait(Trait::DisableTrueColor))
{
if (display_osd_messages && settings.gpu_true_color)
{
Host::AddKeyedOSDMessage("gamedb_disable_true_color",
TRANSLATE_STR("OSDMessage", "True color disabled by game settings."), osd_duration);
}
settings.gpu_true_color = false;
}
if (HasTrait(Trait::DisableUpscaling))
{
if (display_osd_messages && settings.gpu_resolution_scale > 1)
{
Host::AddKeyedOSDMessage("gamedb_disable_upscaling",
TRANSLATE_STR("OSDMessage", "Upscaling disabled by game settings."), osd_duration);
}
settings.gpu_resolution_scale = 1;
}
if (HasTrait(Trait::DisableScaledDithering))
{
if (display_osd_messages && settings.gpu_scaled_dithering)
{
Host::AddKeyedOSDMessage("gamedb_disable_scaled_dithering",
TRANSLATE_STR("OSDMessage", "Scaled dithering disabled by game settings."),
osd_duration);
}
settings.gpu_scaled_dithering = false;
}
if (HasTrait(Trait::DisableWidescreen))
{
if (display_osd_messages &&
(settings.display_aspect_ratio == DisplayAspectRatio::R16_9 || settings.gpu_widescreen_hack))
{
Host::AddKeyedOSDMessage("gamedb_disable_widescreen",
TRANSLATE_STR("OSDMessage", "Widescreen disabled by game settings."), osd_duration);
}
settings.display_aspect_ratio = DisplayAspectRatio::R4_3;
settings.gpu_widescreen_hack = false;
}
if (HasTrait(Trait::DisableForceNTSCTimings))
{
if (display_osd_messages && settings.gpu_force_ntsc_timings)
{
Host::AddKeyedOSDMessage("gamedb_disable_force_ntsc_timings",
TRANSLATE_STR("OSDMessage", "Forcing NTSC Timings disallowed by game settings."),
osd_duration);
}
settings.gpu_force_ntsc_timings = false;
}
if (HasTrait(Trait::DisablePGXP))
{
if (display_osd_messages && settings.gpu_pgxp_enable)
{
Host::AddKeyedOSDMessage("gamedb_disable_pgxp",
TRANSLATE_STR("OSDMessage", "PGXP geometry correction disabled by game settings."),
osd_duration);
}
settings.gpu_pgxp_enable = false;
}
if (HasTrait(Trait::DisablePGXPCulling))
{
if (display_osd_messages && settings.gpu_pgxp_enable && settings.gpu_pgxp_culling)
{
Host::AddKeyedOSDMessage("gamedb_disable_pgxp_culling",
TRANSLATE_STR("OSDMessage", "PGXP culling disabled by game settings."), osd_duration);
}
settings.gpu_pgxp_culling = false;
}
if (HasTrait(Trait::DisablePGXPTextureCorrection))
{
if (display_osd_messages && settings.gpu_pgxp_enable && settings.gpu_pgxp_texture_correction)
{
Host::AddKeyedOSDMessage(
"gamedb_disable_pgxp_texture",
TRANSLATE_STR("OSDMessage", "PGXP perspective corrected textures disabled by game settings."), osd_duration);
}
settings.gpu_pgxp_texture_correction = false;
}
if (HasTrait(Trait::DisablePGXPColorCorrection))
{
if (display_osd_messages && settings.gpu_pgxp_enable && settings.gpu_pgxp_texture_correction &&
settings.gpu_pgxp_color_correction)
{
Host::AddKeyedOSDMessage(
"gamedb_disable_pgxp_texture",
TRANSLATE_STR("OSDMessage", "PGXP perspective corrected colors disabled by game settings."), osd_duration);
}
settings.gpu_pgxp_color_correction = false;
}
if (HasTrait(Trait::ForcePGXPVertexCache))
{
if (display_osd_messages && settings.gpu_pgxp_enable && !settings.gpu_pgxp_vertex_cache)
{
Host::AddKeyedOSDMessage("gamedb_force_pgxp_vertex_cache",
TRANSLATE_STR("OSDMessage", "PGXP vertex cache forced by game settings."), osd_duration);
}
settings.gpu_pgxp_vertex_cache = true;
}
if (HasTrait(Trait::ForcePGXPCPUMode))
{
if (display_osd_messages && settings.gpu_pgxp_enable && !settings.gpu_pgxp_cpu)
{
Host::AddKeyedOSDMessage("gamedb_force_pgxp_cpu",
TRANSLATE_STR("OSDMessage", "PGXP CPU mode forced by game settings."), osd_duration);
}
settings.gpu_pgxp_cpu = true;
}
if (HasTrait(Trait::DisablePGXPDepthBuffer))
{
if (display_osd_messages && settings.gpu_pgxp_enable && settings.gpu_pgxp_depth_buffer)
{
Host::AddKeyedOSDMessage("gamedb_disable_pgxp_depth",
TRANSLATE_STR("OSDMessage", "PGXP Depth Buffer disabled by game settings."),
osd_duration);
}
settings.gpu_pgxp_depth_buffer = false;
}
if (HasTrait(Trait::ForceRecompilerMemoryExceptions))
{
Log_WarningPrint("Memory exceptions for recompiler forced by game settings.");
settings.cpu_recompiler_memory_exceptions = true;
}
if (HasTrait(Trait::ForceRecompilerICache))
{
Log_WarningPrint("ICache for recompiler forced by game settings.");
settings.cpu_recompiler_icache = true;
}
if (settings.cpu_fastmem_mode == CPUFastmemMode::MMap && HasTrait(Trait::ForceRecompilerLUTFastmem))
{
Log_WarningPrint("LUT fastmem for recompiler forced by game settings.");
settings.cpu_fastmem_mode = CPUFastmemMode::LUT;
}
#define BIT_FOR(ctype) (static_cast<u16>(1) << static_cast<u32>(ctype))
if (supported_controllers != 0 && supported_controllers != static_cast<u16>(-1))
{
for (u32 i = 0; i < NUM_CONTROLLER_AND_CARD_PORTS; i++)
{
const ControllerType ctype = settings.controller_types[i];
if (ctype == ControllerType::None)
continue;
if (supported_controllers & BIT_FOR(ctype))
continue;
// Special case: Dualshock is permitted when not supported as long as it's in digital mode.
if (ctype == ControllerType::AnalogController &&
(supported_controllers & BIT_FOR(ControllerType::DigitalController)) != 0)
{
settings.controller_disable_analog_mode_forcing = true;
continue;
}
if (display_osd_messages)
{
SmallString supported_controller_string;
for (u32 j = 0; j < static_cast<u32>(ControllerType::Count); j++)
{
const ControllerType supported_ctype = static_cast<ControllerType>(j);
if ((supported_controllers & BIT_FOR(supported_ctype)) == 0)
continue;
if (!supported_controller_string.IsEmpty())
supported_controller_string.AppendString(", ");
supported_controller_string.AppendString(Settings::GetControllerTypeDisplayName(supported_ctype));
}
Host::AddKeyedFormattedOSDMessage(
"gamedb_controller_unsupported", 30.0f,
TRANSLATE("OSDMessage", "Controller in port %u (%s) is not supported for %s.\nSupported controllers: "
"%s\nPlease configure a supported controller from the list above."),
i + 1u, Settings::GetControllerTypeDisplayName(ctype), System::GetGameTitle().c_str(),
supported_controller_string.GetCharArray());
}
}
}
#undef BIT_FOR
}
template<typename T>
bool ReadOptionalFromStream(ByteStream* stream, std::optional<T>* dest)
{
bool has_value;
if (!stream->Read2(&has_value, sizeof(has_value)))
return false;
if (!has_value)
return true;
T value;
if (!stream->Read2(&value, sizeof(T)))
return false;
*dest = value;
return true;
}
template<typename T>
bool WriteOptionalToStream(ByteStream* stream, const std::optional<T>& src)
{
const bool has_value = src.has_value();
if (!stream->Write2(&has_value, sizeof(has_value)))
return false;
if (!has_value)
return true;
return stream->Write2(&src.value(), sizeof(T));
}
static std::string GetCacheFile()
{
return Path::Combine(EmuFolders::Cache, "gamedb.cache");
}
bool GameDatabase::LoadFromCache()
{
std::unique_ptr<ByteStream> stream(
ByteStream::OpenFile(GetCacheFile().c_str(), BYTESTREAM_OPEN_READ | BYTESTREAM_OPEN_STREAMED));
if (!stream)
{
Log_DevPrintf("Cache does not exist, loading full database.");
return false;
}
const u64 gamedb_ts = Host::GetResourceFileTimestamp("gamedb.json").value_or(0);
u32 signature, version, num_entries, num_codes;
u64 file_gamedb_ts;
if (!stream->ReadU32(&signature) || !stream->ReadU32(&version) || !stream->ReadU64(&file_gamedb_ts) ||
!stream->ReadU32(&num_entries) || !stream->ReadU32(&num_codes) || signature != GAME_DATABASE_CACHE_SIGNATURE ||
version != GAME_DATABASE_CACHE_VERSION)
{
Log_DevPrintf("Cache header is corrupted or version mismatch.");
return false;
}
if (gamedb_ts != file_gamedb_ts)
{
Log_DevPrintf("Cache is out of date, recreating.");
return false;
}
s_entries.reserve(num_entries);
for (u32 i = 0; i < num_entries; i++)
{
Entry& entry = s_entries.emplace_back();
constexpr u32 num_bytes = (static_cast<u32>(Trait::Count) + 7) / 8;
std::array<u8, num_bytes> bits;
u8 compatibility;
u32 num_disc_set_serials;
if (!stream->ReadSizePrefixedString(&entry.serial) || !stream->ReadSizePrefixedString(&entry.title) ||
!stream->ReadSizePrefixedString(&entry.genre) || !stream->ReadSizePrefixedString(&entry.developer) ||
!stream->ReadSizePrefixedString(&entry.publisher) || !stream->ReadU64(&entry.release_date) ||
!stream->ReadU8(&entry.min_players) || !stream->ReadU8(&entry.max_players) ||
!stream->ReadU8(&entry.min_blocks) || !stream->ReadU8(&entry.max_blocks) ||
!stream->ReadU16(&entry.supported_controllers) || !stream->ReadU8(&compatibility) ||
compatibility >= static_cast<u8>(GameDatabase::CompatibilityRating::Count) ||
!stream->Read2(bits.data(), num_bytes) ||
!ReadOptionalFromStream(stream.get(), &entry.display_active_start_offset) ||
!ReadOptionalFromStream(stream.get(), &entry.display_active_end_offset) ||
!ReadOptionalFromStream(stream.get(), &entry.display_line_start_offset) ||
!ReadOptionalFromStream(stream.get(), &entry.display_line_end_offset) ||
!ReadOptionalFromStream(stream.get(), &entry.dma_max_slice_ticks) ||
!ReadOptionalFromStream(stream.get(), &entry.dma_halt_ticks) ||
!ReadOptionalFromStream(stream.get(), &entry.gpu_fifo_size) ||
!ReadOptionalFromStream(stream.get(), &entry.gpu_max_run_ahead) ||
!ReadOptionalFromStream(stream.get(), &entry.gpu_pgxp_tolerance) ||
!ReadOptionalFromStream(stream.get(), &entry.gpu_pgxp_depth_threshold) ||
!stream->ReadSizePrefixedString(&entry.disc_set_name) || !stream->ReadU32(&num_disc_set_serials))
{
Log_DevPrintf("Cache entry is corrupted.");
return false;
}
if (num_disc_set_serials > 0)
{
entry.disc_set_serials.reserve(num_disc_set_serials);
for (u32 j = 0; j < num_disc_set_serials; j++)
{
if (!stream->ReadSizePrefixedString(&entry.disc_set_serials.emplace_back()))
{
Log_DevPrintf("Cache entry is corrupted.");
return false;
}
}
}
entry.compatibility = static_cast<GameDatabase::CompatibilityRating>(compatibility);
entry.traits.reset();
for (u32 j = 0; j < static_cast<int>(Trait::Count); j++)
{
if ((bits[j / 8] & (1u << (j % 8))) != 0)
entry.traits[j] = true;
}
}
for (u32 i = 0; i < num_codes; i++)
{
std::string code;
u32 index;
if (!stream->ReadSizePrefixedString(&code) || !stream->ReadU32(&index) ||
index >= static_cast<u32>(s_entries.size()))
{
Log_DevPrintf("Cache code entry is corrupted.");
return false;
}
s_code_lookup.emplace(std::move(code), index);
}
return true;
}
bool GameDatabase::SaveToCache()
{
const u64 gamedb_ts = Host::GetResourceFileTimestamp("gamedb.json").value_or(0);
std::unique_ptr<ByteStream> stream(
ByteStream::OpenFile(GetCacheFile().c_str(), BYTESTREAM_OPEN_CREATE | BYTESTREAM_OPEN_WRITE |
BYTESTREAM_OPEN_TRUNCATE | BYTESTREAM_OPEN_STREAMED));
if (!stream)
return false;
bool result = stream->WriteU32(GAME_DATABASE_CACHE_SIGNATURE);
result = result && stream->WriteU32(GAME_DATABASE_CACHE_VERSION);
result = result && stream->WriteU64(static_cast<u64>(gamedb_ts));
result = result && stream->WriteU32(static_cast<u32>(s_entries.size()));
result = result && stream->WriteU32(static_cast<u32>(s_code_lookup.size()));
for (const Entry& entry : s_entries)
{
result = result && stream->WriteSizePrefixedString(entry.serial);
result = result && stream->WriteSizePrefixedString(entry.title);
result = result && stream->WriteSizePrefixedString(entry.genre);
result = result && stream->WriteSizePrefixedString(entry.developer);
result = result && stream->WriteSizePrefixedString(entry.publisher);
result = result && stream->WriteU64(entry.release_date);
result = result && stream->WriteU8(entry.min_players);
result = result && stream->WriteU8(entry.max_players);
result = result && stream->WriteU8(entry.min_blocks);
result = result && stream->WriteU8(entry.max_blocks);
result = result && stream->WriteU16(entry.supported_controllers);
result = result && stream->WriteU8(static_cast<u8>(entry.compatibility));
constexpr u32 num_bytes = (static_cast<u32>(Trait::Count) + 7) / 8;
std::array<u8, num_bytes> bits;
bits.fill(0);
for (u32 j = 0; j < static_cast<int>(Trait::Count); j++)
{
if (entry.traits[j])
bits[j / 8] |= (1u << (j % 8));
}
result = result && stream->Write2(bits.data(), num_bytes);
result = result && WriteOptionalToStream(stream.get(), entry.display_active_start_offset);
result = result && WriteOptionalToStream(stream.get(), entry.display_active_end_offset);
result = result && WriteOptionalToStream(stream.get(), entry.display_line_start_offset);
result = result && WriteOptionalToStream(stream.get(), entry.display_line_end_offset);
result = result && WriteOptionalToStream(stream.get(), entry.dma_max_slice_ticks);
result = result && WriteOptionalToStream(stream.get(), entry.dma_halt_ticks);
result = result && WriteOptionalToStream(stream.get(), entry.gpu_fifo_size);
result = result && WriteOptionalToStream(stream.get(), entry.gpu_max_run_ahead);
result = result && WriteOptionalToStream(stream.get(), entry.gpu_pgxp_tolerance);
result = result && WriteOptionalToStream(stream.get(), entry.gpu_pgxp_depth_threshold);
result = result && stream->WriteSizePrefixedString(entry.disc_set_name);
result = result && stream->WriteU32(static_cast<u32>(entry.disc_set_serials.size()));
for (const std::string& serial : entry.disc_set_serials)
result = result && stream->WriteSizePrefixedString(serial);
}
for (const auto& it : s_code_lookup)
{
result = result && stream->WriteSizePrefixedString(it.first);
result = result && stream->WriteU32(it.second);
}
result = result && stream->Flush();
return true;
}
//////////////////////////////////////////////////////////////////////////
// JSON Parsing
//////////////////////////////////////////////////////////////////////////
static bool GetStringFromObject(const rapidjson::Value& object, const char* key, std::string* dest)
{
dest->clear();
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsString())
return false;
dest->assign(member->value.GetString(), member->value.GetStringLength());
return true;
}
static bool GetBoolFromObject(const rapidjson::Value& object, const char* key, bool* dest)
{
*dest = false;
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsBool())
return false;
*dest = member->value.GetBool();
return true;
}
template<typename T>
static bool GetUIntFromObject(const rapidjson::Value& object, const char* key, T* dest)
{
*dest = 0;
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsUint())
return false;
*dest = static_cast<T>(member->value.GetUint());
return true;
}
static bool GetArrayOfStringsFromObject(const rapidjson::Value& object, const char* key, std::vector<std::string>* dest)
{
dest->clear();
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsArray())
return false;
for (const rapidjson::Value& str : member->value.GetArray())
{
if (str.IsString())
{
dest->emplace_back(str.GetString(), str.GetStringLength());
}
}
return true;
}
template<typename T>
static std::optional<T> GetOptionalIntFromObject(const rapidjson::Value& object, const char* key)
{
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsInt())
return std::nullopt;
return static_cast<T>(member->value.GetInt());
}
template<typename T>
static std::optional<T> GetOptionalUIntFromObject(const rapidjson::Value& object, const char* key)
{
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsUint())
return std::nullopt;
return static_cast<T>(member->value.GetUint());
}
static std::optional<float> GetOptionalFloatFromObject(const rapidjson::Value& object, const char* key)
{
auto member = object.FindMember(key);
if (member == object.MemberEnd() || !member->value.IsFloat())
return std::nullopt;
return member->value.GetFloat();
}
bool GameDatabase::LoadGameDBJson()
{
std::optional<std::string> gamedb_data(Host::ReadResourceFileToString("gamedb.json"));
if (!gamedb_data.has_value())
{
Log_ErrorPrintf("Failed to read game database");
return false;
}
// TODO: Parse in-place, avoid string allocations.
std::unique_ptr<rapidjson::Document> json = std::make_unique<rapidjson::Document>();
json->Parse(gamedb_data->c_str(), gamedb_data->size());
if (json->HasParseError())
{
Log_ErrorPrintf("Failed to parse game database: %s at offset %zu",
rapidjson::GetParseError_En(json->GetParseError()), json->GetErrorOffset());
return false;
}
if (!json->IsArray())
{
Log_ErrorPrintf("Document is not an array");
return false;
}
const auto& jarray = json->GetArray();
s_entries.reserve(jarray.Size());
for (const rapidjson::Value& current : json->GetArray())
{
// TODO: binary sort
const u32 index = static_cast<u32>(s_entries.size());
Entry& entry = s_entries.emplace_back();
if (!ParseJsonEntry(&entry, current))
{
s_entries.pop_back();
continue;
}
ParseJsonCodes(index, current);
}
Log_InfoPrintf("Loaded %zu entries and %zu codes from database", s_entries.size(), s_code_lookup.size());
return true;
}
bool GameDatabase::ParseJsonEntry(Entry* entry, const rapidjson::Value& value)
{
if (!value.IsObject())
{
Log_WarningPrintf("entry is not an object");
return false;
}
if (!GetStringFromObject(value, "serial", &entry->serial) || !GetStringFromObject(value, "name", &entry->title) ||
entry->serial.empty())
{
Log_ErrorPrintf("Missing serial or title for entry");
return false;
}
GetStringFromObject(value, "genre", &entry->genre);
GetStringFromObject(value, "developer", &entry->developer);
GetStringFromObject(value, "publisher", &entry->publisher);
GetUIntFromObject(value, "minPlayers", &entry->min_players);
GetUIntFromObject(value, "maxPlayers", &entry->max_players);
GetUIntFromObject(value, "minBlocks", &entry->min_blocks);
GetUIntFromObject(value, "maxBlocks", &entry->max_blocks);
entry->release_date = 0;
{
std::string release_date;
if (GetStringFromObject(value, "releaseDate", &release_date))
{
std::istringstream iss(release_date);
struct tm parsed_time = {};
iss >> std::get_time(&parsed_time, "%Y-%m-%d");
if (!iss.fail())
{
parsed_time.tm_isdst = 0;
#ifdef _WIN32
entry->release_date = _mkgmtime(&parsed_time);
#else
entry->release_date = timegm(&parsed_time);
#endif
}
}
}
entry->supported_controllers = static_cast<u16>(~0u);
const auto controllers = value.FindMember("controllers");
if (controllers != value.MemberEnd())
{
if (controllers->value.IsArray())
{
bool first = true;
for (const rapidjson::Value& controller : controllers->value.GetArray())
{
if (!controller.IsString())
{
Log_WarningPrintf("controller is not a string");
return false;
}
std::optional<ControllerType> ctype = Settings::ParseControllerTypeName(controller.GetString());
if (!ctype.has_value())
{
Log_WarningPrintf("Invalid controller type '%s'", controller.GetString());
continue;
}
if (first)
{
entry->supported_controllers = 0;
first = false;
}
entry->supported_controllers |= (1u << static_cast<u16>(ctype.value()));
}
}
else
{
Log_WarningPrintf("controllers is not an array");
}
}
const auto compatibility = value.FindMember("compatibility");
if (compatibility != value.MemberEnd())
{
if (compatibility->value.IsObject())
{
u32 rating;
if (GetUIntFromObject(compatibility->value, "rating", &rating) &&
rating < static_cast<u32>(CompatibilityRating::Count))
{
entry->compatibility = static_cast<CompatibilityRating>(rating);
}
}
else
{
Log_WarningPrintf("compatibility is not an object");
}
}
const auto traits = value.FindMember("traits");
if (traits != value.MemberEnd())
{
if (traits->value.IsObject())
{
const auto& traitsobj = traits->value;
for (u32 trait = 0; trait < static_cast<u32>(Trait::Count); trait++)
{
bool bvalue;
if (GetBoolFromObject(traitsobj, s_trait_names[trait], &bvalue) && bvalue)
entry->traits[trait] = bvalue;
}
entry->display_active_start_offset = GetOptionalIntFromObject<s16>(traitsobj, "DisplayActiveStartOffset");
entry->display_active_end_offset = GetOptionalIntFromObject<s16>(traitsobj, "DisplayActiveEndOffset");
entry->display_line_start_offset = GetOptionalIntFromObject<s8>(traitsobj, "DisplayLineStartOffset");
entry->display_line_end_offset = GetOptionalIntFromObject<s8>(traitsobj, "DisplayLineEndOffset");
entry->dma_max_slice_ticks = GetOptionalUIntFromObject<u32>(traitsobj, "DMAMaxSliceTicks");
entry->dma_halt_ticks = GetOptionalUIntFromObject<u32>(traitsobj, "DMAHaltTicks");
entry->gpu_fifo_size = GetOptionalUIntFromObject<u32>(traitsobj, "GPUFIFOSize");
entry->gpu_max_run_ahead = GetOptionalUIntFromObject<u32>(traitsobj, "GPUMaxRunAhead");
entry->gpu_pgxp_tolerance = GetOptionalFloatFromObject(traitsobj, "GPUPGXPTolerance");
entry->gpu_pgxp_depth_threshold = GetOptionalFloatFromObject(traitsobj, "GPUPGXPDepthThreshold");
}
else
{
Log_WarningPrintf("traits is not an object");
}
}
GetStringFromObject(value, "discSetName", &entry->disc_set_name);
const auto disc_set_serials = value.FindMember("discSetSerials");
if (disc_set_serials != value.MemberEnd())
{
if (disc_set_serials->value.IsArray())
{
const auto disc_set_serials_array = disc_set_serials->value.GetArray();
entry->disc_set_serials.reserve(disc_set_serials_array.Size());
for (const rapidjson::Value& serial : disc_set_serials_array)
{
if (serial.IsString())
{
entry->disc_set_serials.emplace_back(serial.GetString(), serial.GetStringLength());
}
else
{
Log_WarningPrintf("discSetSerial is not a string");
}
}
}
else
{
Log_WarningPrintf("discSetSerials is not an array");
}
}
return true;
}
bool GameDatabase::ParseJsonCodes(u32 index, const rapidjson::Value& value)
{
auto member = value.FindMember("codes");
if (member == value.MemberEnd())
{
Log_WarningPrintf("codes member is missing");
return false;
}
if (!member->value.IsArray())
{
Log_WarningPrintf("codes is not an array");
return false;
}
u32 added = 0;
for (const rapidjson::Value& current_code : member->value.GetArray())
{
if (!current_code.IsString())
{
Log_WarningPrintf("code is not a string");
continue;
}
const std::string_view code(current_code.GetString(), current_code.GetStringLength());
auto iter = s_code_lookup.find(code);
if (iter != s_code_lookup.end())
{
Log_WarningPrintf("Duplicate code '%.*s'", static_cast<int>(code.size()), code.data());
continue;
}
s_code_lookup.emplace(code, index);
added++;
}
return (added > 0);
}
void GameDatabase::EnsureTrackHashesMapLoaded()
{
if (s_track_hashes_loaded)
return;
s_track_hashes_loaded = true;
LoadTrackHashes();
}
bool GameDatabase::LoadTrackHashes()
{
std::optional<std::string> gamedb_data(Host::ReadResourceFileToString("gamedb.json"));
if (!gamedb_data.has_value())
{
Log_ErrorPrintf("Failed to read game database");
return false;
}
// TODO: Parse in-place, avoid string allocations.
std::unique_ptr<rapidjson::Document> json = std::make_unique<rapidjson::Document>();
json->Parse(gamedb_data->c_str(), gamedb_data->size());
if (json->HasParseError())
{
Log_ErrorPrintf("Failed to parse game database: %s at offset %zu",
rapidjson::GetParseError_En(json->GetParseError()), json->GetErrorOffset());
return false;
}
if (!json->IsArray())
{
Log_ErrorPrintf("Document is not an array");
return false;
}
s_track_hashes_map = {};
for (const rapidjson::Value& current : json->GetArray())
{
if (!current.IsObject())
{
Log_WarningPrintf("entry is not an object");
continue;
}
std::vector<std::string> codes;
if (!GetArrayOfStringsFromObject(current, "codes", &codes))
{
Log_WarningPrintf("codes member is missing");
continue;
}
auto track_data = current.FindMember("track_data");
if (track_data == current.MemberEnd())
{
Log_WarningPrintf("track_data member is missing");
continue;
}
if (!track_data->value.IsArray())
{
Log_WarningPrintf("track_data is not an array");
continue;
}
uint32_t revision = 0;
for (const rapidjson::Value& track_revisions : track_data->value.GetArray())
{
if (!track_revisions.IsObject())
{
Log_WarningPrintf("track_data is not an array of object");
continue;
}
auto tracks = track_revisions.FindMember("tracks");
if (tracks == track_revisions.MemberEnd())
{
Log_WarningPrintf("tracks member is missing");
continue;
}
if (!tracks->value.IsArray())
{
Log_WarningPrintf("tracks is not an array");
continue;
}
std::string revisionString;
GetStringFromObject(track_revisions, "version", &revisionString);
for (const rapidjson::Value& track : tracks->value.GetArray())
{
auto md5_field = track.FindMember("md5");
if (md5_field == track.MemberEnd() || !md5_field->value.IsString())
{
continue;
}
auto md5 = CDImageHasher::HashFromString(
std::string_view(md5_field->value.GetString(), md5_field->value.GetStringLength()));
if (md5)
{
s_track_hashes_map.emplace(std::piecewise_construct, std::forward_as_tuple(md5.value()),
std::forward_as_tuple(codes, revisionString, revision));
}
}
revision++;
}
}
return true;
}
const GameDatabase::TrackHashesMap& GameDatabase::GetTrackHashesMap()
{
EnsureTrackHashesMapLoaded();
return s_track_hashes_map;
}