/* * Filesystem.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ #include "StdInc.h" #include "Filesystem.h" #include "CArchiveLoader.h" #include "CFilesystemLoader.h" #include "AdapterLoaders.h" #include "CZipLoader.h" //For filesystem initialization #include "../JsonNode.h" #include "../GameConstants.h" #include "../VCMIDirs.h" #include "../CStopWatch.h" #include "../CModHandler.h" VCMI_LIB_NAMESPACE_BEGIN std::map CResourceHandler::knownLoaders = std::map(); CResourceHandler CResourceHandler::globalResourceHandler; CFilesystemGenerator::CFilesystemGenerator(std::string prefix, bool extractArchives): filesystem(new CFilesystemList()), prefix(prefix), extractArchives(extractArchives) { } CFilesystemGenerator::TLoadFunctorMap CFilesystemGenerator::genFunctorMap() { TLoadFunctorMap map; map["map"] = std::bind(&CFilesystemGenerator::loadJsonMap, this, _1, _2); map["dir"] = std::bind(&CFilesystemGenerator::loadDirectory, this, _1, _2); map["lod"] = std::bind(&CFilesystemGenerator::loadArchive, this, _1, _2); map["snd"] = std::bind(&CFilesystemGenerator::loadArchive, this, _1, _2); map["vid"] = std::bind(&CFilesystemGenerator::loadArchive, this, _1, _2); map["zip"] = std::bind(&CFilesystemGenerator::loadZipArchive, this, _1, _2); return map; } void CFilesystemGenerator::loadConfig(const JsonNode & config) { for(auto & mountPoint : config.Struct()) { for(auto & entry : mountPoint.second.Vector()) { CStopWatch timer; logGlobal->trace("\t\tLoading resource at %s%s", prefix, entry["path"].String()); auto map = genFunctorMap(); auto typeName = entry["type"].String(); auto functor = map.find(typeName); if (functor != map.end()) { functor->second(mountPoint.first, entry); logGlobal->trace("Resource loaded in %d ms", timer.getDiff()); } else { logGlobal->error("Unknown filesystem format: %s", typeName); } } } } CFilesystemList * CFilesystemGenerator::getFilesystem() { return filesystem; } void CFilesystemGenerator::loadDirectory(const std::string &mountPoint, const JsonNode & config) { std::string URI = prefix + config["path"].String(); int depth = 16; if (!config["depth"].isNull()) depth = (int)config["depth"].Float(); ResourceID resID(URI, EResType::DIRECTORY); for(auto & loader : CResourceHandler::get("initial")->getResourcesWithName(resID)) { auto filename = loader->getResourceName(resID); filesystem->addLoader(new CFilesystemLoader(mountPoint, *filename, depth), false); } } void CFilesystemGenerator::loadZipArchive(const std::string &mountPoint, const JsonNode & config) { std::string URI = prefix + config["path"].String(); auto filename = CResourceHandler::get("initial")->getResourceName(ResourceID(URI, EResType::ARCHIVE_ZIP)); if (filename) filesystem->addLoader(new CZipLoader(mountPoint, *filename), false); } template void CFilesystemGenerator::loadArchive(const std::string &mountPoint, const JsonNode & config) { std::string URI = prefix + config["path"].String(); auto filename = CResourceHandler::get("initial")->getResourceName(ResourceID(URI, archiveType)); if (filename) filesystem->addLoader(new CArchiveLoader(mountPoint, *filename, extractArchives), false); } void CFilesystemGenerator::loadJsonMap(const std::string &mountPoint, const JsonNode & config) { std::string URI = prefix + config["path"].String(); auto filename = CResourceHandler::get("initial")->getResourceName(ResourceID(URI, EResType::TEXT)); if (filename) { auto configData = CResourceHandler::get("initial")->load(ResourceID(URI, EResType::TEXT))->readAll(); const JsonNode configInitial((char*)configData.first.get(), configData.second); filesystem->addLoader(new CMappedFileLoader(mountPoint, configInitial), false); } } ISimpleResourceLoader * CResourceHandler::createInitial() { //temporary filesystem that will be used to initialize main one. //used to solve several case-sensivity issues like Mp3 vs MP3 auto initialLoader = new CFilesystemList(); //recurse only into specific directories auto recurseInDir = [&](std::string URI, int depth) { ResourceID ID(URI, EResType::DIRECTORY); for(auto & loader : initialLoader->getResourcesWithName(ID)) { auto filename = loader->getResourceName(ID); if (filename) { auto dir = new CFilesystemLoader(URI + '/', *filename, depth, true); initialLoader->addLoader(dir, false); } } }; for (auto & path : VCMIDirs::get().dataPaths()) { if (boost::filesystem::is_directory(path)) // some of system-provided paths may not exist initialLoader->addLoader(new CFilesystemLoader("", path, 0, true), false); } initialLoader->addLoader(new CFilesystemLoader("", VCMIDirs::get().userDataPath(), 0, true), false); recurseInDir("CONFIG", 0);// look for configs recurseInDir("DATA", 0); // look for archives recurseInDir("MODS", 64); // look for mods. return initialLoader; } void CResourceHandler::initialize() { // Create tree-like structure that looks like this: // root // | // |- initial // | // |- data // | |-core // | |-mod1 // | |-modN // | // |- local // |-saves // |-config // when built as single process, server can be started multiple times if (globalResourceHandler.rootLoader) return; globalResourceHandler.rootLoader = std::make_unique(); knownLoaders["root"] = globalResourceHandler.rootLoader.get(); knownLoaders["saves"] = new CFilesystemLoader("SAVES/", VCMIDirs::get().userSavePath()); knownLoaders["config"] = new CFilesystemLoader("CONFIG/", VCMIDirs::get().userConfigPath()); auto localFS = new CFilesystemList(); localFS->addLoader(knownLoaders["saves"], true); localFS->addLoader(knownLoaders["config"], true); addFilesystem("root", "initial", createInitial()); addFilesystem("root", "data", new CFilesystemList()); addFilesystem("root", "local", localFS); } ISimpleResourceLoader * CResourceHandler::get() { return get("root"); } ISimpleResourceLoader * CResourceHandler::get(std::string identifier) { return knownLoaders.at(identifier); } void CResourceHandler::load(const std::string &fsConfigURI, bool extractArchives) { auto fsConfigData = get("initial")->load(ResourceID(fsConfigURI, EResType::TEXT))->readAll(); const JsonNode fsConfig((char*)fsConfigData.first.get(), fsConfigData.second); addFilesystem("data", CModHandler::scopeBuiltin(), createFileSystem("", fsConfig["filesystem"], extractArchives)); } void CResourceHandler::addFilesystem(const std::string & parent, const std::string & identifier, ISimpleResourceLoader * loader) { if(knownLoaders.count(identifier) != 0) { logMod->error("[CRITICAL] Virtual filesystem %s already loaded!", identifier); delete loader; return; } if(knownLoaders.count(parent) == 0) { logMod->error("[CRITICAL] Parent virtual filesystem %s for %s not found!", parent, identifier); delete loader; return; } auto list = dynamic_cast(knownLoaders.at(parent)); assert(list); list->addLoader(loader, false); knownLoaders[identifier] = loader; } bool CResourceHandler::removeFilesystem(const std::string & parent, const std::string & identifier) { if(knownLoaders.count(identifier) == 0) return false; if(knownLoaders.count(parent) == 0) return false; auto list = dynamic_cast(knownLoaders.at(parent)); assert(list); list->removeLoader(knownLoaders[identifier]); knownLoaders.erase(identifier); return true; } ISimpleResourceLoader * CResourceHandler::createFileSystem(const std::string & prefix, const JsonNode &fsConfig, bool extractArchives) { CFilesystemGenerator generator(prefix, extractArchives); generator.loadConfig(fsConfig); return generator.getFilesystem(); } VCMI_LIB_NAMESPACE_END