#if _WIN32 #define _CRT_RAND_S #include #endif #include "SpecBase.hpp" #include "Blender/BlenderSupport.hpp" #include "DNACommon/DNACommon.hpp" #include "DNACommon/TXTR.hpp" #include "AssetNameMap.hpp" #include "hecl/ClientProcess.hpp" #include "nod/nod.hpp" #include "hecl/Blender/Connection.hpp" #include "hecl/MultiProgressPrinter.hpp" #include #define DUMP_CACHE_FILL 1 namespace DataSpec { static logvisor::Module Log("urde::SpecBase"); static const hecl::SystemChar* MomErr[] = { _S("Your metroid is in another castle"), _S("HECL is experiencing a PTSD attack"), _S("Unable to freeze metroids"), _S("Ridley ate your homework"), _S("Expected 0 maternal symbolisms, found 2147483647"), _S("Contradictive narratives unsupported"), _S("Wiimote profile \"NES + Zapper\" not recognized"), _S("Unable to find Waldo"), _S("Expected Ridley, found furby"), _S("Adam has not authorized this, please do not bug the developers"), _S("Lady returned objection"), _S("Unterminated plot thread 'Deleter' detected") }; constexpr uint32_t MomErrCount = std::extent::value; SpecBase::SpecBase(const hecl::Database::DataSpecEntry* specEntry, hecl::Database::Project& project, bool pc) : hecl::Database::IDataSpec(specEntry), m_project(project), m_pc(pc), m_masterShader(project.getProjectWorkingPath(), ".hecl/RetroMasterShader.blend") { AssetNameMap::InitAssetNameMap(); SpecBase::setThreadProject(); } SpecBase::~SpecBase() { cancelBackgroundIndex(); } static const hecl::SystemString regNONE = _S(""); static const hecl::SystemString regE = _S("NTSC"); static const hecl::SystemString regJ = _S("NTSC-J"); static const hecl::SystemString regP = _S("PAL"); void SpecBase::setThreadProject() { UniqueIDBridge::SetThreadProject(m_project); } template IDRestorer::IDRestorer(const hecl::ProjectPath& yamlPath, const hecl::Database::Project& project) { using ValType = typename IDType::value_type; if (!yamlPath.isFile()) return; athena::io::YAMLDocReader r; athena::io::FileReader fr(yamlPath.getAbsolutePath()); if (!fr.isOpen() || !r.parse(&fr)) return; m_newToOrig.reserve(r.getRootNode()->m_mapChildren.size()); m_origToNew.reserve(r.getRootNode()->m_mapChildren.size()); for (const auto& node : r.getRootNode()->m_mapChildren) { char* end = const_cast(node.first.c_str()); ValType id = strtoull(end, &end, 16); if (end != node.first.c_str() + sizeof(ValType) * 2) continue; hecl::ProjectPath path(project.getProjectWorkingPath(), node.second->m_scalarString.c_str()); m_newToOrig.push_back(std::make_pair(IDType{path.hash().valT(), true}, IDType{id, true})); m_origToNew.push_back(std::make_pair(IDType{id, true}, IDType{path.hash().valT(), true})); } std::sort(m_newToOrig.begin(), m_newToOrig.end(), [](const std::pair& a, const std::pair& b) { return a.first < b.first; }); std::sort(m_origToNew.begin(), m_origToNew.end(), [](const std::pair& a, const std::pair& b) { return a.first < b.first; }); Log.report(logvisor::Info, _S("Loaded Original IDs '%s'"), yamlPath.getRelativePath().data()); } template IDType IDRestorer::newToOriginal(IDType id) const { if (!id) return {}; auto search = rstl::binary_find(m_newToOrig.cbegin(), m_newToOrig.cend(), id, [](const auto& id) { return id.first; }); if (search == m_newToOrig.cend()) return {}; return search->second; } template IDType IDRestorer::originalToNew(IDType id) const { if (!id) return {}; auto search = rstl::binary_find(m_origToNew.cbegin(), m_origToNew.cend(), id, [](const auto& id) { return id.first; }); if (search == m_origToNew.cend()) return {}; return search->second; } template class IDRestorer; template class IDRestorer; template class IDRestorer; bool SpecBase::canExtract(const ExtractPassInfo& info, std::vector& reps) { m_disc = nod::OpenDiscFromImage(info.srcpath, m_isWii); if (!m_disc) return false; const char* gameID = m_disc->getHeader().m_gameID; if (!memcmp(gameID, "R3O", 3)) { std::srand(std::time(0)); int r = std::rand() % MomErrCount; Log.report(logvisor::Fatal, MomErr[r]); } m_standalone = true; if (m_isWii && (!memcmp(gameID, "R3M", 3) || !memcmp(gameID, "R3I", 3) || !memcmp(gameID, "R32", 3))) m_standalone = false; if (m_standalone && !checkStandaloneID(gameID)) return false; char region = m_disc->getHeader().m_gameID[3]; const hecl::SystemString* regstr = ®NONE; switch (region) { case 'E': regstr = ®E; break; case 'J': regstr = ®J; break; case 'P': regstr = ®P; break; } if (m_standalone) return checkFromStandaloneDisc(*m_disc, *regstr, info.extractArgs, reps); else return checkFromTrilogyDisc(*m_disc, *regstr, info.extractArgs, reps); } void SpecBase::doExtract(const ExtractPassInfo& info, const hecl::MultiProgressPrinter& progress) { DataSpec::g_curSpec.reset(this); if (!Blender::BuildMasterShader(m_masterShader)) Log.report(logvisor::Fatal, "Unable to build master shader blend"); if (m_isWii) { /* Extract root files for repacking later */ hecl::ProjectPath outDir(m_project.getProjectWorkingPath(), _S("out")); outDir.makeDirChain(true); nod::ExtractionContext ctx = {info.force, nullptr}; if (!m_standalone) { progress.print(_S("Trilogy Files"), _S(""), 0.0); nod::IPartition* data = m_disc->getDataPartition(); const nod::Node& root = data->getFSTRoot(); for (const nod::Node& child : root) if (child.getKind() == nod::Node::Kind::File) child.extractToDirectory(outDir.getAbsolutePath(), ctx); progress.print(_S("Trilogy Files"), _S(""), 1.0); } } extractFromDisc(*m_disc, info.force, progress); } static bool IsPathAudioGroup(const hecl::ProjectPath& path) { if (path.getPathType() != hecl::ProjectPath::Type::Glob || !path.getWithExtension(_S(".pool"), true).isFile() || !path.getWithExtension(_S(".proj"), true).isFile() || !path.getWithExtension(_S(".sdir"), true).isFile() || !path.getWithExtension(_S(".samp"), true).isFile()) { if (path.isFile() && !hecl::StrCmp(_S("proj"), path.getLastComponentExt().data()) && path.getWithExtension(_S(".pool"), true).isFile() && path.getWithExtension(_S(".sdir"), true).isFile() && path.getWithExtension(_S(".samp"), true).isFile()) return true; return false; } return true; } static bool IsPathSong(const hecl::ProjectPath& path) { if (path.getPathType() != hecl::ProjectPath::Type::Glob || !path.getWithExtension(_S(".mid"), true).isFile() || !path.getWithExtension(_S(".yaml"), true).isFile()) { if (path.isFile() && !hecl::StrCmp(_S("mid"), path.getLastComponentExt().data()) && path.getWithExtension(_S(".yaml"), true).isFile()) return true; return false; } return true; } bool SpecBase::canCook(const hecl::ProjectPath& path, hecl::blender::Token& btok, int cookPass) { if (!checkPathPrefix(path)) return false; hecl::ProjectPath asBlend; if (path.getPathType() == hecl::ProjectPath::Type::Glob) asBlend = path.getWithExtension(_S(".blend"), true); else asBlend = path; if (hecl::IsPathBlend(asBlend)) { hecl::blender::Connection& conn = btok.getBlenderConnection(); if (!conn.openBlend(asBlend)) return false; hecl::blender::BlendType type = conn.getBlendType(); if (type != hecl::blender::BlendType::None) return cookPass < 0 || (cookPass == 0 && type == hecl::blender::BlendType::Mesh) || // CMDL only (cookPass == 1 && type != hecl::blender::BlendType::Mesh); // Non-CMDL only return false; } /* Non-CMDLs shall not pass */ if (cookPass == 0) return false; if (hecl::IsPathPNG(path)) { return true; } else if (hecl::IsPathYAML(path)) { athena::io::FileReader reader(path.getAbsolutePath()); bool retval = validateYAMLDNAType(reader); return retval; } else if (IsPathAudioGroup(path)) { return true; } else if (IsPathSong(path)) { return true; } return false; } const hecl::Database::DataSpecEntry* SpecBase::overrideDataSpec(const hecl::ProjectPath& path, const hecl::Database::DataSpecEntry* oldEntry, hecl::blender::Token& btok) const { if (!checkPathPrefix(path)) return nullptr; hecl::ProjectPath asBlend; if (path.getPathType() == hecl::ProjectPath::Type::Glob) asBlend = path.getWithExtension(_S(".blend"), true); else asBlend = path; if (hecl::IsPathBlend(asBlend)) { if (hecl::StringUtils::EndsWith(path.getAuxInfo(), _S(".CSKR")) || hecl::StringUtils::EndsWith(path.getAuxInfo(), _S(".ANIM"))) return oldEntry; hecl::blender::Connection& conn = btok.getBlenderConnection(); if (!conn.openBlend(asBlend)) { Log.report(logvisor::Error, _S("unable to cook '%s'"), path.getAbsolutePath().data()); return nullptr; } hecl::blender::BlendType type = conn.getBlendType(); if (type == hecl::blender::BlendType::Mesh || type == hecl::blender::BlendType::Area) return oldEntry; } else if (hecl::IsPathPNG(path)) { return oldEntry; } return &getOriginalSpec(); } void SpecBase::doCook(const hecl::ProjectPath& path, const hecl::ProjectPath& cookedPath, bool fast, hecl::blender::Token& btok, FCookProgress progress) { cookedPath.makeDirChain(false); DataSpec::g_curSpec.reset(this); hecl::ProjectPath asBlend; if (path.getPathType() == hecl::ProjectPath::Type::Glob) asBlend = path.getWithExtension(_S(".blend"), true); else asBlend = path; if (hecl::IsPathBlend(asBlend)) { hecl::blender::Connection& conn = btok.getBlenderConnection(); if (!conn.openBlend(asBlend)) return; switch (conn.getBlendType()) { case hecl::blender::BlendType::Mesh: { hecl::blender::DataStream ds = conn.beginData(); cookMesh(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::ColMesh: { hecl::blender::DataStream ds = conn.beginData(); cookColMesh(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::PathMesh: { hecl::blender::DataStream ds = conn.beginData(); cookPathMesh(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::Actor: { hecl::blender::DataStream ds = conn.beginData(); cookActor(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::Area: { hecl::blender::DataStream ds = conn.beginData(); cookArea(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::World: { hecl::blender::DataStream ds = conn.beginData(); cookWorld(cookedPath, path, ds, fast, btok, progress); break; } case hecl::blender::BlendType::Frame: { hecl::blender::DataStream ds = conn.beginData(); cookGuiFrame(cookedPath, path, ds, btok, progress); break; } case hecl::blender::BlendType::MapArea: { hecl::blender::DataStream ds = conn.beginData(); cookMapArea(cookedPath, path, ds, btok, progress); break; } case hecl::blender::BlendType::MapUniverse: { hecl::blender::DataStream ds = conn.beginData(); cookMapUniverse(cookedPath, path, ds, btok, progress); break; } default: break; } } else if (hecl::IsPathPNG(path)) { if (m_pc) TXTR::CookPC(path, cookedPath); else TXTR::Cook(path, cookedPath); } else if (hecl::IsPathYAML(path)) { athena::io::FileReader reader(path.getAbsolutePath()); cookYAML(cookedPath, path, reader, progress); } else if (IsPathAudioGroup(path)) { cookAudioGroup(cookedPath, path, progress); } else if (IsPathSong(path)) { cookSong(cookedPath, path, progress); } } void SpecBase::flattenDependenciesBlend(const hecl::ProjectPath& in, std::vector& pathsOut, hecl::blender::Token& btok, int charIdx) { hecl::blender::Connection& conn = btok.getBlenderConnection(); if (!conn.openBlend(in)) return; switch (conn.getBlendType()) { case hecl::blender::BlendType::Mesh: { hecl::blender::DataStream ds = conn.beginData(); std::vector texs = ds.getTextures(); for (const hecl::ProjectPath& tex : texs) pathsOut.push_back(tex); break; } case hecl::blender::BlendType::Actor: { hecl::ProjectPath asGlob = in.getWithExtension(_S(".*"), true); hecl::blender::DataStream ds = conn.beginData(); hecl::blender::Actor actor = ds.compileActorCharacterOnly(); auto actNames = ds.getActionNames(); ds.close(); auto doSubtype = [&](Actor::Subtype& sub) { if (sub.armature >= 0) { if (hecl::IsPathBlend(sub.mesh)) { flattenDependenciesBlend(sub.mesh, pathsOut, btok); pathsOut.push_back(sub.mesh); } hecl::SystemStringConv chSysName(sub.name); pathsOut.push_back(asGlob.ensureAuxInfo(hecl::SystemString(chSysName.sys_str()) + _S(".CSKR"))); const auto& arm = actor.armatures[sub.armature]; hecl::SystemStringConv armSysName(arm.name); pathsOut.push_back(asGlob.ensureAuxInfo(hecl::SystemString(armSysName.sys_str()) + _S(".CINF"))); for (const auto& overlay : sub.overlayMeshes) { hecl::SystemStringConv ovelaySys(overlay.first); if (hecl::IsPathBlend(overlay.second)) { flattenDependenciesBlend(overlay.second, pathsOut, btok); pathsOut.push_back(overlay.second); } pathsOut.push_back(asGlob.ensureAuxInfo(hecl::SystemString(chSysName.sys_str()) + _S('.') + ovelaySys.c_str() + _S(".CSKR"))); } } }; if (charIdx < 0) for (auto& sub : actor.subtypes) doSubtype(sub); else if (charIdx < actor.subtypes.size()) doSubtype(actor.subtypes[charIdx]); for (const auto& act : actNames) { hecl::SystemStringConv actSysName(act); pathsOut.push_back(asGlob.ensureAuxInfo(hecl::SystemString(actSysName.sys_str()) + _S(".ANIM"))); hecl::ProjectPath evntPath = asGlob.getWithExtension( hecl::SysFormat(_S(".%s.evnt.yaml"), actSysName.c_str()).c_str(), true); if (evntPath.isFile()) pathsOut.push_back(evntPath); } hecl::ProjectPath yamlPath = asGlob.getWithExtension(_S(".yaml"), true); if (yamlPath.isFile()) { athena::io::FileReader reader(yamlPath.getAbsolutePath()); flattenDependenciesANCSYAML(reader, pathsOut, charIdx); } pathsOut.push_back(asGlob); return; } case hecl::blender::BlendType::Area: { hecl::blender::DataStream ds = conn.beginData(); std::vector texs = ds.getTextures(); for (const hecl::ProjectPath& tex : texs) pathsOut.push_back(tex); break; } default: break; } } void SpecBase::flattenDependencies(const hecl::ProjectPath& path, std::vector& pathsOut, hecl::blender::Token& btok, int charIdx) { DataSpec::g_curSpec.reset(this); g_ThreadBlenderToken.reset(&btok); hecl::ProjectPath asBlend; if (path.getPathType() == hecl::ProjectPath::Type::Glob) asBlend = path.getWithExtension(_S(".blend"), true); else asBlend = path; if (hecl::IsPathBlend(asBlend)) { flattenDependenciesBlend(asBlend, pathsOut, btok, charIdx); } else if (hecl::IsPathYAML(path)) { athena::io::FileReader reader(path.getAbsolutePath()); flattenDependenciesYAML(reader, pathsOut); } pathsOut.push_back(path); } void SpecBase::flattenDependencies(const UniqueID32& id, std::vector& pathsOut, int charIdx) { hecl::ProjectPath path = UniqueIDBridge::TranslatePakIdToPath(id); if (path) flattenDependencies(path, pathsOut, *g_ThreadBlenderToken.get(), charIdx); } void SpecBase::flattenDependencies(const UniqueID64& id, std::vector& pathsOut, int charIdx) { hecl::ProjectPath path = UniqueIDBridge::TranslatePakIdToPath(id); if (path) flattenDependencies(path, pathsOut, *g_ThreadBlenderToken.get(), charIdx); } bool SpecBase::canPackage(const hecl::ProjectPath& path) { auto components = path.getPathComponents(); if (components.size() <= 1) return false; return path.isFile() || path.isDirectory(); } void SpecBase::recursiveBuildResourceList(std::vector& listOut, std::unordered_set& addedTags, const hecl::ProjectPath& path, hecl::blender::Token& btok) { hecl::DirectoryEnumerator dEnum(path.getAbsolutePath(), hecl::DirectoryEnumerator::Mode::DirsThenFilesSorted, false, false, true); for (const auto& ent : dEnum) { hecl::ProjectPath childPath(path, ent.m_name); if (ent.m_isDir) { recursiveBuildResourceList(listOut, addedTags, childPath, btok); } else { std::vector subPaths; flattenDependencies(childPath, subPaths, btok); for (const auto& subPath : subPaths) { if (urde::SObjectTag tag = tagFromPath(subPath, btok)) { if (addedTags.find(tag) != addedTags.end()) continue; addedTags.insert(tag); listOut.push_back(tag); } } } } } void SpecBase::copyBuildListData(std::vector>& fileIndex, const std::vector& buildList, const hecl::Database::DataSpecEntry* entry, bool fast, const hecl::MultiProgressPrinter& progress, athena::io::FileWriter& pakOut, const std::unordered_map>& mlvlData) { fileIndex.reserve(buildList.size()); int loadIdx = 0; for (const auto& tag : buildList) { hecl::SystemString str = hecl::SysFormat(_S("Copying %.4") FMT_CSTR_SYS " %08X", tag.type.getChars(), (unsigned int)tag.id.Value()); progress.print(str.c_str(), nullptr, ++loadIdx / float(buildList.size())); fileIndex.emplace_back(); auto& thisIdx = fileIndex.back(); if (tag.type == FOURCC('MLVL')) { auto search = mlvlData.find(tag.id); if (search == mlvlData.end()) Log.report(logvisor::Fatal, _S("Unable to find MLVL %08X"), tag.id.Value()); std::get<0>(thisIdx) = pakOut.position(); std::get<1>(thisIdx) = ROUND_UP_32(search->second.size()); std::get<2>(thisIdx) = false; pakOut.writeUBytes(search->second.data(), search->second.size()); for (atUint64 i = search->second.size() ; i < std::get<1>(thisIdx) ; ++i) pakOut.writeUByte(0xff); continue; } hecl::ProjectPath path = pathFromTag(tag); hecl::ProjectPath cooked = getCookedPath(path, true); athena::io::FileReader r(cooked.getAbsolutePath()); if (r.hasError()) Log.report(logvisor::Fatal, _S("Unable to open resource %s"), cooked.getRelativePath().data()); atUint64 size = r.length(); auto data = r.readUBytes(size); auto compData = compressPakData(tag, data.get(), size); if (compData.first) { std::get<0>(thisIdx) = pakOut.position(); std::get<1>(thisIdx) = ROUND_UP_32(compData.second + 4); std::get<2>(thisIdx) = true; pakOut.writeUint32Big(atUint32(size)); pakOut.writeUBytes(compData.first.get(), compData.second); for (atUint64 i = compData.second + 4 ; i < std::get<1>(thisIdx) ; ++i) pakOut.writeUByte(0xff); } else { std::get<0>(thisIdx) = pakOut.position(); std::get<1>(thisIdx) = ROUND_UP_32(size); std::get<2>(thisIdx) = false; pakOut.writeUBytes(data.get(), size); for (atUint64 i = size ; i < std::get<1>(thisIdx) ; ++i) pakOut.writeUByte(0xff); } } progress.startNewLine(); } void SpecBase::doPackage(const hecl::ProjectPath& path, const hecl::Database::DataSpecEntry* entry, bool fast, hecl::blender::Token& btok, const hecl::MultiProgressPrinter& progress, hecl::ClientProcess* cp) { /* Prepare complete resource index */ if (!m_backgroundRunning && m_tagToPath.empty()) beginBackgroundIndex(); waitForIndexComplete(); /* Name pak based on root-relative components */ auto components = path.getWithExtension(_S(""), true).getPathComponents(); if (components.size() <= 1) return; hecl::ProjectPath outPath; if (hecl::ProjectPath(m_project.getProjectWorkingPath(), _S("out/files/") + components[0]).isDirectory()) outPath.assign(m_project.getProjectWorkingPath(), _S("out/files/") + components[0] + _S("/") + components[1] + entry->m_pakExt.data()); else outPath.assign(m_project.getProjectWorkingPath(), _S("out/files/") + components[1] + entry->m_pakExt.data()); outPath.makeDirChain(false); /* Output file */ athena::io::FileWriter pakOut(outPath.getAbsolutePath()); std::vector buildList; atUint64 resTableOffset = 0; std::unordered_map> mlvlData; if (path.getPathType() == hecl::ProjectPath::Type::File && !hecl::StrCmp(path.getLastComponent().data(), _S("!world.blend"))) /* World PAK */ { /* Force-cook MLVL and write resource list structure */ m_project.cookPath(path, progress, false, true, fast, entry, cp); if (cp) cp->waitUntilComplete(); progress.startNewLine(); hecl::ProjectPath cooked = getCookedPath(path, true); buildWorldPakList(path, cooked, btok, pakOut, buildList, resTableOffset, mlvlData); if (int64_t rem = pakOut.position() % 32) for (int64_t i=0 ; i<32-rem ; ++i) pakOut.writeUByte(0xff); } else if (path.getPathType() == hecl::ProjectPath::Type::Directory) /* General PAK */ { /* Build resource list */ std::unordered_set addedTags; recursiveBuildResourceList(buildList, addedTags, path, btok); std::vector> nameList; /* Build name list */ for (const auto& item : buildList) { auto search = m_catalogTagToNames.find(item); if (search != m_catalogTagToNames.end()) for (const auto& name : search->second) nameList.emplace_back(item, name); } /* Write resource list structure */ buildPakList(btok, pakOut, buildList, nameList, resTableOffset); if (int64_t rem = pakOut.position() % 32) for (int64_t i=0 ; i<32-rem ; ++i) pakOut.writeUByte(0xff); } else if (path.getPathType() == hecl::ProjectPath::Type::File) /* One-file General PAK */ { /* Build resource list */ std::vector subPaths; flattenDependencies(path, subPaths, btok); std::unordered_set addedTags; std::vector> nameList; for (const auto& subPath : subPaths) { if (urde::SObjectTag tag = tagFromPath(subPath, btok)) { if (addedTags.find(tag) != addedTags.end()) continue; addedTags.insert(tag); buildList.push_back(tag); } } /* Build name list */ for (const auto& item : buildList) { auto search = m_catalogTagToNames.find(item); if (search != m_catalogTagToNames.end()) for (const auto& name : search->second) nameList.emplace_back(item, name); } /* Write resource list structure */ buildPakList(btok, pakOut, buildList, nameList, resTableOffset); if (int64_t rem = pakOut.position() % 32) for (int64_t i=0 ; i<32-rem ; ++i) pakOut.writeUByte(0xff); } /* Async cook resource list if using ClientProcess */ if (cp) { Log.report(logvisor::Info, _S("Validating resources")); progress.setMainIndeterminate(true); for (int i=0 ; im_numCookPasses ; ++i) { std::unordered_set addedTags; addedTags.reserve(buildList.size()); for (auto& tag : buildList) { if (addedTags.find(tag) != addedTags.end()) continue; addedTags.insert(tag); hecl::ProjectPath depPath = pathFromTag(tag); if (!depPath) { Log.report(logvisor::Fatal, _S("Unable to resolve %.4s %08X"), tag.type.getChars(), tag.id.Value()); } m_project.cookPath(depPath, progress, false, false, fast, entry, cp, i); } } progress.setMainIndeterminate(false); cp->waitUntilComplete(); progress.startNewLine(); } /* Write resource data and build file index */ std::vector> fileIndex; Log.report(logvisor::Info, _S("Copying data into %s"), outPath.getRelativePath().data()); copyBuildListData(fileIndex, buildList, entry, fast, progress, pakOut, mlvlData); /* Write file index */ writePakFileIndex(pakOut, buildList, fileIndex, resTableOffset); pakOut.close(); } hecl::ProjectPath SpecBase::getCookedPath(const hecl::ProjectPath& working, bool pcTarget) const { const hecl::Database::DataSpecEntry* spec = &getOriginalSpec(); if (pcTarget) spec = overrideDataSpec(working, getDataSpecEntry(), hecl::blender::SharedBlenderToken); if (!spec) return {}; return working.getCookedPath(*spec); } static void PNGErr(png_structp png, png_const_charp msg) { Log.report(logvisor::Error, msg); } static void PNGWarn(png_structp png, png_const_charp msg) { Log.report(logvisor::Warning, msg); } static inline uint8_t Convert4To8(uint8_t v) { /* Swizzle bits: 00001234 -> 12341234 */ return (v << 4) | v; } void SpecBase::extractRandomStaticEntropy(const uint8_t* buf, const hecl::ProjectPath& noAramPath) { hecl::ProjectPath entropyPath(noAramPath, _S("RandomStaticEntropy.png")); hecl::ProjectPath catalogPath(noAramPath, _S("!catalog.yaml")); if (FILE* fp = hecl::Fopen(catalogPath.getAbsolutePath().data(), _S("a"))) { fprintf(fp, "RandomStaticEntropy: %s\n", entropyPath.getRelativePathUTF8().data()); fclose(fp); } FILE* fp = hecl::Fopen(entropyPath.getAbsolutePath().data(), _S("wb")); if (!fp) { Log.report(logvisor::Error, _S("Unable to open '%s' for writing"), entropyPath.getAbsolutePath().data()); return; } png_structp png = png_create_write_struct(PNG_LIBPNG_VER_STRING, nullptr, PNGErr, PNGWarn); png_init_io(png, fp); png_infop info = png_create_info_struct(png); png_text textStruct = {}; textStruct.key = png_charp("urde_nomip"); png_set_text(png, info, &textStruct, 1); png_set_IHDR(png, info, 1024, 512, 8, PNG_COLOR_TYPE_GRAY_ALPHA, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT); png_write_info(png, info); std::unique_ptr rowbuf(new uint8_t[1024*2]); for (int y=0 ; y<512 ; ++y) { for (int x=0 ; x<1024 ; ++x) { uint8_t texel = buf[y*1024+x]; rowbuf[x*2] = Convert4To8(texel >> 4 & 0xf); rowbuf[x*2+1] = Convert4To8(texel & 0xf); } png_write_row(png, rowbuf.get()); } png_write_end(png, info); png_write_flush(png); png_destroy_write_struct(&png, &info); fclose(fp); } void SpecBase::clearTagCache() { m_tagToPath.clear(); m_pathToTag.clear(); m_catalogNameToTag.clear(); m_catalogTagToNames.clear(); } hecl::ProjectPath SpecBase::pathFromTag(const urde::SObjectTag& tag) const { std::unique_lock lk(const_cast(*this).m_backgroundIndexMutex); auto search = m_tagToPath.find(tag); if (search != m_tagToPath.cend()) return search->second; return {}; } urde::SObjectTag SpecBase::tagFromPath(const hecl::ProjectPath& path, hecl::blender::Token& btok) const { auto search = m_pathToTag.find(path.hash()); if (search != m_pathToTag.cend()) return search->second; return buildTagFromPath(path, btok); } bool SpecBase::waitForTagReady(const urde::SObjectTag& tag, const hecl::ProjectPath*& pathOut) { std::unique_lock lk(m_backgroundIndexMutex); auto search = m_tagToPath.find(tag); if (search == m_tagToPath.end()) { if (m_backgroundRunning) { while (m_backgroundRunning) { lk.unlock(); std::this_thread::sleep_for(std::chrono::milliseconds(2)); lk.lock(); search = m_tagToPath.find(tag); if (search != m_tagToPath.end()) break; } if (search == m_tagToPath.end()) return false; } else return false; } lk.unlock(); pathOut = &search->second; return true; } const urde::SObjectTag* SpecBase::getResourceIdByName(std::string_view name) const { std::string lower(name); std::transform(lower.cbegin(), lower.cend(), lower.begin(), tolower); std::unique_lock lk(const_cast(*this).m_backgroundIndexMutex); auto search = m_catalogNameToTag.find(lower); if (search == m_catalogNameToTag.end()) { if (m_backgroundRunning) { while (m_backgroundRunning) { lk.unlock(); std::this_thread::sleep_for(std::chrono::milliseconds(2)); lk.lock(); search = m_catalogNameToTag.find(lower); if (search != m_catalogNameToTag.end()) break; } if (search == m_catalogNameToTag.end()) return nullptr; } else return nullptr; } return &search->second; } FourCC SpecBase::getResourceTypeById(urde::CAssetId id) const { if (!id.IsValid()) return {}; std::unique_lock lk(const_cast(*this).m_backgroundIndexMutex); urde::SObjectTag searchTag = {FourCC(), id}; auto search = m_tagToPath.find(searchTag); if (search == m_tagToPath.end()) { if (m_backgroundRunning) { while (m_backgroundRunning) { lk.unlock(); std::this_thread::sleep_for(std::chrono::milliseconds(2)); lk.lock(); search = m_tagToPath.find(searchTag); if (search != m_tagToPath.end()) break; } if (search == m_tagToPath.end()) return {}; } else return {}; } return search->first.type; } void SpecBase::enumerateResources(const std::function& lambda) const { waitForIndexComplete(); for (const auto& pair : m_tagToPath) { if (!lambda(pair.first)) break; } } void SpecBase::enumerateNamedResources( const std::function& lambda) const { waitForIndexComplete(); for (const auto& pair : m_catalogNameToTag) { if (!lambda(pair.first, pair.second)) break; } } static void WriteTag(athena::io::YAMLDocWriter& cacheWriter, const urde::SObjectTag& pathTag, const hecl::ProjectPath& path) { char idStr[9]; snprintf(idStr, 9, "%08X", uint32_t(pathTag.id.Value())); if (auto v = cacheWriter.enterSubVector(idStr)) { cacheWriter.writeString(nullptr, pathTag.type.toString().c_str()); cacheWriter.writeString(nullptr, path.getAuxInfo().size() ? (std::string(path.getRelativePathUTF8()) + '|' + path.getAuxInfoUTF8().data()) : path.getRelativePathUTF8()); } } static void WriteNameTag(athena::io::YAMLDocWriter& nameWriter, const urde::SObjectTag& pathTag, std::string_view name) { char idStr[9]; snprintf(idStr, 9, "%08X", uint32_t(pathTag.id.Value())); nameWriter.writeString(name.data(), idStr); } void SpecBase::readCatalog(const hecl::ProjectPath& catalogPath, athena::io::YAMLDocWriter& nameWriter) { athena::io::FileReader freader(catalogPath.getAbsolutePath()); if (!freader.isOpen()) return; athena::io::YAMLDocReader reader; bool res = reader.parse(&freader); if (!res) return; const athena::io::YAMLNode* root = reader.getRootNode(); for (const auto& p : root->m_mapChildren) { /* Hash as lowercase since lookup is case-insensitive */ std::string pLower = p.first; std::transform(pLower.cbegin(), pLower.cend(), pLower.begin(), tolower); /* Avoid redundant filesystem access for re-caches */ if (m_catalogNameToTag.find(pLower) != m_catalogNameToTag.cend()) continue; athena::io::YAMLNode& node = *p.second; hecl::ProjectPath path; if (node.m_type == YAML_SCALAR_NODE) { path = hecl::ProjectPath(m_project.getProjectWorkingPath(), node.m_scalarString); } else if (node.m_type == YAML_SEQUENCE_NODE) { if (node.m_seqChildren.size() >= 2) path = hecl::ProjectPath(m_project.getProjectWorkingPath(), node.m_seqChildren[0]->m_scalarString). ensureAuxInfo(node.m_seqChildren[1]->m_scalarString); else if (node.m_seqChildren.size() == 1) path = hecl::ProjectPath(m_project.getProjectWorkingPath(), node.m_seqChildren[0]->m_scalarString); } if (!path.isFileOrGlob()) continue; urde::SObjectTag pathTag = tagFromPath(path, m_backgroundBlender); if (pathTag) { std::unique_lock lk(m_backgroundIndexMutex); m_catalogNameToTag[pLower] = pathTag; m_catalogTagToNames[pathTag].insert(p.first); WriteNameTag(nameWriter, pathTag, p.first); #if 0 fprintf(stderr, "%s %s %08X\n", p.first.c_str(), pathTag.type.toString().c_str(), uint32_t(pathTag.id)); #endif } } } void SpecBase::backgroundIndexRecursiveCatalogs(const hecl::ProjectPath& dir, athena::io::YAMLDocWriter& nameWriter, int level) { hecl::DirectoryEnumerator dEnum(dir.getAbsolutePath(), hecl::DirectoryEnumerator::Mode::DirsThenFilesSorted, false, false, true); /* Enumerate all items */ for (const hecl::DirectoryEnumerator::Entry& ent : dEnum) { hecl::ProjectPath path(dir, ent.m_name); if (ent.m_isDir && level < 1) backgroundIndexRecursiveCatalogs(path, nameWriter, level + 1); else { if (!path.isFile()) continue; /* Read catalog.yaml for .pak directory if exists */ if (level == 1 && !ent.m_name.compare(_S("!catalog.yaml"))) { readCatalog(path, nameWriter); continue; } } /* bail if cancelled by client */ if (!m_backgroundRunning) break; } } #if DUMP_CACHE_FILL static void DumpCacheAdd(const urde::SObjectTag& pathTag, const hecl::ProjectPath& path) { fprintf(stderr, "%s %08X %s\n", pathTag.type.toString().c_str(), uint32_t(pathTag.id.Value()), path.getRelativePathUTF8().data()); } #endif bool SpecBase::addFileToIndex(const hecl::ProjectPath& path, athena::io::YAMLDocWriter& cacheWriter) { /* Avoid redundant filesystem access for re-caches */ if (m_pathToTag.find(path.hash()) != m_pathToTag.cend()) return true; /* Try as glob */ hecl::ProjectPath asGlob = path.getWithExtension(_S(".*"), true); if (m_pathToTag.find(asGlob.hash()) != m_pathToTag.cend()) return true; /* Classify intermediate into tag */ urde::SObjectTag pathTag = buildTagFromPath(path, m_backgroundBlender); if (pathTag) { std::unique_lock lk(m_backgroundIndexMutex); bool useGlob = false; /* Special multi-resource intermediates */ if (pathTag.type == SBIG('ANCS')) { hecl::blender::Connection& conn = m_backgroundBlender.getBlenderConnection(); if (!conn.openBlend(path) || conn.getBlendType() != hecl::blender::BlendType::Actor) return false; /* Transform tag to glob */ pathTag = {SBIG('ANCS'), asGlob.hash().val32()}; useGlob = true; hecl::blender::DataStream ds = conn.beginData(); std::vector armatureNames = ds.getArmatureNames(); std::vector subtypeNames = ds.getSubtypeNames(); std::vector actionNames = ds.getActionNames(); for (const std::string& arm : armatureNames) { hecl::SystemStringConv sysStr(arm); hecl::ProjectPath subPath = asGlob.ensureAuxInfo(hecl::SystemString(sysStr.sys_str()) + _S(".CINF")); urde::SObjectTag pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif } for (const std::string& sub : subtypeNames) { hecl::SystemStringConv sysStr(sub); hecl::ProjectPath subPath = asGlob.ensureAuxInfo(hecl::SystemString(sysStr.sys_str()) + _S(".CSKR")); urde::SObjectTag pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif std::vector overlayNames = ds.getSubtypeOverlayNames(sub); for (const auto& overlay : overlayNames) { hecl::SystemStringConv overlaySys(overlay); hecl::ProjectPath subPath = asGlob.ensureAuxInfo(hecl::SystemString(sysStr.sys_str()) + _S('.') + overlaySys.c_str() + _S(".CSKR")); urde::SObjectTag pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif } } for (const std::string& act : actionNames) { hecl::SystemStringConv sysStr(act); hecl::ProjectPath subPath = asGlob.ensureAuxInfo(hecl::SystemString(sysStr.sys_str()) + _S(".ANIM")); urde::SObjectTag pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif } } else if (pathTag.type == SBIG('MLVL')) { /* Transform tag to glob */ pathTag = {SBIG('MLVL'), asGlob.hash().val32()}; useGlob = true; hecl::ProjectPath subPath = asGlob.ensureAuxInfo(_S("MAPW")); urde::SObjectTag pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif subPath = asGlob.ensureAuxInfo(_S("SAVW")); pathTag = buildTagFromPath(subPath, m_backgroundBlender); m_tagToPath[pathTag] = subPath; m_pathToTag[subPath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, subPath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, subPath); #endif } else if (pathTag.type == SBIG('AGSC')) { /* Transform tag to glob */ pathTag = {SBIG('AGSC'), asGlob.hash().val32()}; useGlob = true; } /* Cache in-memory */ const hecl::ProjectPath& usePath = useGlob ? asGlob : path; m_tagToPath[pathTag] = usePath; m_pathToTag[usePath.hash()] = pathTag; WriteTag(cacheWriter, pathTag, usePath); #if DUMP_CACHE_FILL DumpCacheAdd(pathTag, usePath); #endif } return true; } void SpecBase::backgroundIndexRecursiveProc(const hecl::ProjectPath& dir, athena::io::YAMLDocWriter& cacheWriter, athena::io::YAMLDocWriter& nameWriter, int level) { hecl::DirectoryEnumerator dEnum(dir.getAbsolutePath(), hecl::DirectoryEnumerator::Mode::DirsThenFilesSorted, false, false, true); /* Enumerate all items */ for (const hecl::DirectoryEnumerator::Entry& ent : dEnum) { hecl::ProjectPath path(dir, ent.m_name); if (ent.m_isDir) backgroundIndexRecursiveProc(path, cacheWriter, nameWriter, level + 1); else { if (!path.isFile()) continue; /* Read catalog.yaml for .pak directory if exists */ if (level == 1 && !ent.m_name.compare(_S("!catalog.yaml"))) { readCatalog(path, nameWriter); continue; } /* Index the regular file */ addFileToIndex(path, cacheWriter); } /* bail if cancelled by client */ if (!m_backgroundRunning) break; } } void SpecBase::backgroundIndexProc() { logvisor::RegisterThreadName("Resource Index Thread"); hecl::ProjectPath tagCachePath(m_project.getProjectCookedPath(getOriginalSpec()), _S("tag_cache.yaml")); hecl::ProjectPath nameCachePath(m_project.getProjectCookedPath(getOriginalSpec()), _S("name_cache.yaml")); hecl::ProjectPath specRoot(m_project.getProjectWorkingPath(), getOriginalSpec().m_name); /* Cache will be overwritten with validated entries afterwards */ athena::io::YAMLDocWriter cacheWriter(nullptr); athena::io::YAMLDocWriter nameWriter(nullptr); /* Read in tag cache */ if (tagCachePath.isFile()) { athena::io::FileReader reader(tagCachePath.getAbsolutePath()); if (reader.isOpen()) { Log.report(logvisor::Info, _S("Cache index of '%s' loading"), getOriginalSpec().m_name.data()); athena::io::YAMLDocReader cacheReader; if (cacheReader.parse(&reader)) { std::unique_lock lk(m_backgroundIndexMutex); size_t tagCount = cacheReader.getRootNode()->m_mapChildren.size(); m_tagToPath.reserve(tagCount); m_pathToTag.reserve(tagCount); size_t loadIdx = 0; for (const auto& child : cacheReader.getRootNode()->m_mapChildren) { const athena::io::YAMLNode& node = *child.second; unsigned long id = strtoul(child.first.c_str(), nullptr, 16); hecl::FourCC type(node.m_seqChildren.at(0)->m_scalarString.c_str()); hecl::ProjectPath path(m_project.getProjectWorkingPath(), node.m_seqChildren.at(1)->m_scalarString); if (path.isFileOrGlob()) { urde::SObjectTag pathTag(type, id); m_tagToPath[pathTag] = path; m_pathToTag[path.hash()] = pathTag; WriteTag(cacheWriter, pathTag, path); } ++loadIdx; if (!(loadIdx % 100)) fprintf(stderr, "\r %" PRISize " / %" PRISize, loadIdx, tagCount); } fprintf(stderr, "\r %" PRISize " / %" PRISize "\n", loadIdx, tagCount); } Log.report(logvisor::Info, _S("Cache index of '%s' loaded; %d tags"), getOriginalSpec().m_name.data(), m_tagToPath.size()); if (nameCachePath.isFile()) { /* Read in name cache */ Log.report(logvisor::Info, _S("Name index of '%s' loading"), getOriginalSpec().m_name.data()); athena::io::FileReader nreader(nameCachePath.getAbsolutePath()); athena::io::YAMLDocReader nameReader; if (nameReader.parse(&nreader)) { std::unique_lock lk(m_backgroundIndexMutex); m_catalogNameToTag.reserve(nameReader.getRootNode()->m_mapChildren.size()); m_catalogTagToNames.reserve(nameReader.getRootNode()->m_mapChildren.size()); for (const auto& child : nameReader.getRootNode()->m_mapChildren) { unsigned long id = strtoul(child.second->m_scalarString.c_str(), nullptr, 16); auto search = m_tagToPath.find(urde::SObjectTag(FourCC(), uint32_t(id))); if (search != m_tagToPath.cend()) { std::string chLower = child.first; std::transform(chLower.cbegin(), chLower.cend(), chLower.begin(), tolower); m_catalogNameToTag[chLower] = search->first; m_catalogTagToNames[search->first].insert(child.first); WriteNameTag(nameWriter, search->first, child.first); } } } Log.report(logvisor::Info, _S("Name index of '%s' loaded; %d names"), getOriginalSpec().m_name.data(), m_catalogNameToTag.size()); } } } /* Add special original IDs resource if exists (not name-cached to disk) */ hecl::ProjectPath oidsPath(specRoot, "!original_ids.yaml"); urde::SObjectTag oidsTag = buildTagFromPath(oidsPath, m_backgroundBlender); if (oidsTag) { m_catalogNameToTag["mp1originalids"] = oidsTag; m_catalogTagToNames[oidsTag].insert("MP1OriginalIDs"); } Log.report(logvisor::Info, _S("Background index of '%s' started"), getOriginalSpec().m_name.data()); backgroundIndexRecursiveProc(specRoot, cacheWriter, nameWriter, 0); tagCachePath.makeDirChain(false); athena::io::FileWriter twriter(tagCachePath.getAbsolutePath()); cacheWriter.finish(&twriter); athena::io::FileWriter nwriter(nameCachePath.getAbsolutePath()); nameWriter.finish(&nwriter); m_backgroundBlender.shutdown(); Log.report(logvisor::Info, _S("Background index of '%s' complete; %d tags, %d names"), getOriginalSpec().m_name.data(), m_tagToPath.size(), m_catalogNameToTag.size()); m_backgroundRunning = false; } void SpecBase::cancelBackgroundIndex() { m_backgroundRunning = false; if (m_backgroundIndexTh.joinable()) m_backgroundIndexTh.join(); } void SpecBase::beginBackgroundIndex() { cancelBackgroundIndex(); clearTagCache(); m_backgroundRunning = true; m_backgroundIndexTh = std::thread(std::bind(&SpecBase::backgroundIndexProc, this)); } void SpecBase::waitForIndexComplete() const { std::unique_lock lk(const_cast(*this).m_backgroundIndexMutex); while (m_backgroundRunning) { lk.unlock(); std::this_thread::sleep_for(std::chrono::milliseconds(2)); lk.lock(); } } }