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vcmi/lib/modding/CModHandler.cpp
2023-09-07 10:51:02 +03:00

520 lines
16 KiB
C++

/*
* CModHandler.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 "CModHandler.h"
#include "CModInfo.h"
#include "ModScope.h"
#include "ContentTypeHandler.h"
#include "IdentifierStorage.h"
#include "ModIncompatibility.h"
#include "../CCreatureHandler.h"
#include "../CGeneralTextHandler.h"
#include "../CStopWatch.h"
#include "../GameSettings.h"
#include "../Languages.h"
#include "../ScriptHandler.h"
#include "../constants/StringConstants.h"
#include "../filesystem/Filesystem.h"
#include "../spells/CSpellHandler.h"
VCMI_LIB_NAMESPACE_BEGIN
static JsonNode loadModSettings(const JsonPath & path)
{
if (CResourceHandler::get("local")->existsResource(ResourcePath(path)))
{
return JsonNode(path);
}
// Probably new install. Create initial configuration
CResourceHandler::get("local")->createResource(path.getOriginalName() + ".json");
return JsonNode();
}
CModHandler::CModHandler()
: content(std::make_shared<CContentHandler>())
, coreMod(std::make_unique<CModInfo>())
{
}
CModHandler::~CModHandler() = default;
// currentList is passed by value to get current list of depending mods
bool CModHandler::hasCircularDependency(const TModID & modID, std::set<TModID> currentList) const
{
const CModInfo & mod = allMods.at(modID);
// Mod already present? We found a loop
if (vstd::contains(currentList, modID))
{
logMod->error("Error: Circular dependency detected! Printing dependency list:");
logMod->error("\t%s -> ", mod.name);
return true;
}
currentList.insert(modID);
// recursively check every dependency of this mod
for(const TModID & dependency : mod.dependencies)
{
if (hasCircularDependency(dependency, currentList))
{
logMod->error("\t%s ->\n", mod.name); // conflict detected, print dependency list
return true;
}
}
return false;
}
// Returned vector affects the resource loaders call order (see CFilesystemList::load).
// The loaders call order matters when dependent mod overrides resources in its dependencies.
std::vector <TModID> CModHandler::validateAndSortDependencies(std::vector <TModID> modsToResolve) const
{
// Topological sort algorithm.
// TODO: Investigate possible ways to improve performance.
boost::range::sort(modsToResolve); // Sort mods per name
std::vector <TModID> sortedValidMods; // Vector keeps order of elements (LIFO)
sortedValidMods.reserve(modsToResolve.size()); // push_back calls won't cause memory reallocation
std::set <TModID> resolvedModIDs; // Use a set for validation for performance reason, but set does not keep order of elements
// Mod is resolved if it has not dependencies or all its dependencies are already resolved
auto isResolved = [&](const CModInfo & mod) -> CModInfo::EValidationStatus
{
if(mod.dependencies.size() > resolvedModIDs.size())
return CModInfo::PENDING;
for(const TModID & dependency : mod.dependencies)
{
if(!vstd::contains(resolvedModIDs, dependency))
return CModInfo::PENDING;
}
return CModInfo::PASSED;
};
while(true)
{
std::set <TModID> resolvedOnCurrentTreeLevel;
for(auto it = modsToResolve.begin(); it != modsToResolve.end();) // One iteration - one level of mods tree
{
if(isResolved(allMods.at(*it)) == CModInfo::PASSED)
{
resolvedOnCurrentTreeLevel.insert(*it); // Not to the resolvedModIDs, so current node childs will be resolved on the next iteration
sortedValidMods.push_back(*it);
it = modsToResolve.erase(it);
continue;
}
it++;
}
if(!resolvedOnCurrentTreeLevel.empty())
{
resolvedModIDs.insert(resolvedOnCurrentTreeLevel.begin(), resolvedOnCurrentTreeLevel.end());
continue;
}
// If there're no valid mods on the current mods tree level, no more mod can be resolved, should be end.
break;
}
// Left mods have unresolved dependencies, output all to log.
for(const auto & brokenModID : modsToResolve)
{
const CModInfo & brokenMod = allMods.at(brokenModID);
for(const TModID & dependency : brokenMod.dependencies)
{
if(!vstd::contains(resolvedModIDs, dependency))
logMod->error("Mod '%s' will not work: it depends on mod '%s', which is not installed.", brokenMod.name, dependency);
}
}
return sortedValidMods;
}
std::vector<std::string> CModHandler::getModList(const std::string & path) const
{
std::string modDir = boost::to_upper_copy(path + "MODS/");
size_t depth = boost::range::count(modDir, '/');
auto list = CResourceHandler::get("initial")->getFilteredFiles([&](const ResourcePath & id) -> bool
{
if (id.getType() != EResType::DIRECTORY)
return false;
if (!boost::algorithm::starts_with(id.getName(), modDir))
return false;
if (boost::range::count(id.getName(), '/') != depth )
return false;
return true;
});
//storage for found mods
std::vector<std::string> foundMods;
for(const auto & entry : list)
{
std::string name = entry.getName();
name.erase(0, modDir.size()); //Remove path prefix
if (!name.empty())
foundMods.push_back(name);
}
return foundMods;
}
void CModHandler::loadMods(const std::string & path, const std::string & parent, const JsonNode & modSettings, bool enableMods)
{
for(const std::string & modName : getModList(path))
loadOneMod(modName, parent, modSettings, enableMods);
}
void CModHandler::loadOneMod(std::string modName, const std::string & parent, const JsonNode & modSettings, bool enableMods)
{
boost::to_lower(modName);
std::string modFullName = parent.empty() ? modName : parent + '.' + modName;
if ( ModScope::isScopeReserved(modFullName))
{
logMod->error("Can not load mod %s - this name is reserved for internal use!", modFullName);
return;
}
if(CResourceHandler::get("initial")->existsResource(CModInfo::getModFile(modFullName)))
{
CModInfo mod(modFullName, modSettings[modName], JsonNode(CModInfo::getModFile(modFullName)));
if (!parent.empty()) // this is submod, add parent to dependencies
mod.dependencies.insert(parent);
allMods[modFullName] = mod;
if (mod.isEnabled() && enableMods)
activeMods.push_back(modFullName);
loadMods(CModInfo::getModDir(modFullName) + '/', modFullName, modSettings[modName]["mods"], enableMods && mod.isEnabled());
}
}
void CModHandler::loadMods(bool onlyEssential)
{
JsonNode modConfig;
if(onlyEssential)
{
loadOneMod("vcmi", "", modConfig, true);//only vcmi and submods
}
else
{
modConfig = loadModSettings(JsonPath::builtin("config/modSettings.json"));
loadMods("", "", modConfig["activeMods"], true);
}
coreMod = std::make_unique<CModInfo>(ModScope::scopeBuiltin(), modConfig[ModScope::scopeBuiltin()], JsonNode(JsonPath::builtin("config/gameConfig.json")));
coreMod->name = "Original game files";
}
std::vector<std::string> CModHandler::getAllMods()
{
std::vector<std::string> modlist;
modlist.reserve(allMods.size());
for (auto & entry : allMods)
modlist.push_back(entry.first);
return modlist;
}
std::vector<std::string> CModHandler::getActiveMods()
{
return activeMods;
}
const CModInfo & CModHandler::getModInfo(const TModID & modId) const
{
return allMods.at(modId);
}
static JsonNode genDefaultFS()
{
// default FS config for mods: directory "Content" that acts as H3 root directory
JsonNode defaultFS;
defaultFS[""].Vector().resize(2);
defaultFS[""].Vector()[0]["type"].String() = "zip";
defaultFS[""].Vector()[0]["path"].String() = "/Content.zip";
defaultFS[""].Vector()[1]["type"].String() = "dir";
defaultFS[""].Vector()[1]["path"].String() = "/Content";
return defaultFS;
}
static ISimpleResourceLoader * genModFilesystem(const std::string & modName, const JsonNode & conf)
{
static const JsonNode defaultFS = genDefaultFS();
if (!conf["filesystem"].isNull())
return CResourceHandler::createFileSystem(CModInfo::getModDir(modName), conf["filesystem"]);
else
return CResourceHandler::createFileSystem(CModInfo::getModDir(modName), defaultFS);
}
static ui32 calculateModChecksum(const std::string & modName, ISimpleResourceLoader * filesystem)
{
boost::crc_32_type modChecksum;
// first - add current VCMI version into checksum to force re-validation on VCMI updates
modChecksum.process_bytes(reinterpret_cast<const void*>(GameConstants::VCMI_VERSION.data()), GameConstants::VCMI_VERSION.size());
// second - add mod.json into checksum because filesystem does not contains this file
// FIXME: remove workaround for core mod
if (modName != ModScope::scopeBuiltin())
{
auto modConfFile = CModInfo::getModFile(modName);
ui32 configChecksum = CResourceHandler::get("initial")->load(modConfFile)->calculateCRC32();
modChecksum.process_bytes(reinterpret_cast<const void *>(&configChecksum), sizeof(configChecksum));
}
// third - add all detected text files from this mod into checksum
auto files = filesystem->getFilteredFiles([](const ResourcePath & resID)
{
return (resID.getType() == EResType::TEXT || resID.getType() == EResType::JSON) &&
( boost::starts_with(resID.getName(), "DATA") || boost::starts_with(resID.getName(), "CONFIG"));
});
for (const ResourcePath & file : files)
{
ui32 fileChecksum = filesystem->load(file)->calculateCRC32();
modChecksum.process_bytes(reinterpret_cast<const void *>(&fileChecksum), sizeof(fileChecksum));
}
return modChecksum.checksum();
}
void CModHandler::loadModFilesystems()
{
CGeneralTextHandler::detectInstallParameters();
activeMods = validateAndSortDependencies(activeMods);
coreMod->updateChecksum(calculateModChecksum(ModScope::scopeBuiltin(), CResourceHandler::get(ModScope::scopeBuiltin())));
for(std::string & modName : activeMods)
{
CModInfo & mod = allMods[modName];
CResourceHandler::addFilesystem("data", modName, genModFilesystem(modName, mod.config));
}
}
TModID CModHandler::findResourceOrigin(const ResourcePath & name)
{
for(const auto & modID : boost::adaptors::reverse(activeMods))
{
if(CResourceHandler::get(modID)->existsResource(name))
return modID;
}
if(CResourceHandler::get("core")->existsResource(name))
return "core";
if(CResourceHandler::get("mapEditor")->existsResource(name))
return "core"; // Workaround for loading maps via map editor
assert(0);
return "";
}
std::string CModHandler::getModLanguage(const TModID& modId) const
{
if ( modId == "core")
return VLC->generaltexth->getInstalledLanguage();
return allMods.at(modId).baseLanguage;
}
std::set<TModID> CModHandler::getModDependencies(const TModID & modId, bool & isModFound) const
{
auto it = allMods.find(modId);
isModFound = (it != allMods.end());
if(isModFound)
return it->second.dependencies;
logMod->error("Mod not found: '%s'", modId);
return {};
}
void CModHandler::initializeConfig()
{
VLC->settingsHandler->load(coreMod->config["settings"]);
for(const TModID & modName : activeMods)
{
const auto & mod = allMods[modName];
if (!mod.config["settings"].isNull())
VLC->settingsHandler->load(mod.config["settings"]);
}
}
CModVersion CModHandler::getModVersion(TModID modName) const
{
if (allMods.count(modName))
return allMods.at(modName).version;
return {};
}
bool CModHandler::validateTranslations(TModID modName) const
{
bool result = true;
const auto & mod = allMods.at(modName);
{
auto fileList = mod.config["translations"].convertTo<std::vector<std::string> >();
JsonNode json = JsonUtils::assembleFromFiles(fileList);
result |= VLC->generaltexth->validateTranslation(mod.baseLanguage, modName, json);
}
for(const auto & language : Languages::getLanguageList())
{
if (!language.hasTranslation)
continue;
if (mod.config[language.identifier].isNull())
continue;
if (mod.config[language.identifier]["skipValidation"].Bool())
continue;
auto fileList = mod.config[language.identifier]["translations"].convertTo<std::vector<std::string> >();
JsonNode json = JsonUtils::assembleFromFiles(fileList);
result |= VLC->generaltexth->validateTranslation(language.identifier, modName, json);
}
return result;
}
void CModHandler::loadTranslation(const TModID & modName)
{
const auto & mod = allMods[modName];
std::string preferredLanguage = VLC->generaltexth->getPreferredLanguage();
std::string modBaseLanguage = allMods[modName].baseLanguage;
auto baseTranslationList = mod.config["translations"].convertTo<std::vector<std::string> >();
auto extraTranslationList = mod.config[preferredLanguage]["translations"].convertTo<std::vector<std::string> >();
JsonNode baseTranslation = JsonUtils::assembleFromFiles(baseTranslationList);
JsonNode extraTranslation = JsonUtils::assembleFromFiles(extraTranslationList);
VLC->generaltexth->loadTranslationOverrides(modBaseLanguage, modName, baseTranslation);
VLC->generaltexth->loadTranslationOverrides(preferredLanguage, modName, extraTranslation);
}
void CModHandler::load()
{
CStopWatch totalTime;
CStopWatch timer;
logMod->info("\tInitializing content handler: %d ms", timer.getDiff());
content->init();
for(const TModID & modName : activeMods)
{
logMod->trace("Generating checksum for %s", modName);
allMods[modName].updateChecksum(calculateModChecksum(modName, CResourceHandler::get(modName)));
}
// first - load virtual builtin mod that contains all data
// TODO? move all data into real mods? RoE, AB, SoD, WoG
content->preloadData(*coreMod);
for(const TModID & modName : activeMods)
content->preloadData(allMods[modName]);
logMod->info("\tParsing mod data: %d ms", timer.getDiff());
content->load(*coreMod);
for(const TModID & modName : activeMods)
content->load(allMods[modName]);
#if SCRIPTING_ENABLED
VLC->scriptHandler->performRegistration(VLC);//todo: this should be done before any other handlers load
#endif
content->loadCustom();
for(const TModID & modName : activeMods)
loadTranslation(modName);
for(const TModID & modName : activeMods)
if (!validateTranslations(modName))
allMods[modName].validation = CModInfo::FAILED;
logMod->info("\tLoading mod data: %d ms", timer.getDiff());
VLC->creh->loadCrExpMod();
VLC->identifiersHandler->finalize();
logMod->info("\tResolving identifiers: %d ms", timer.getDiff());
content->afterLoadFinalization();
logMod->info("\tHandlers post-load finalization: %d ms ", timer.getDiff());
logMod->info("\tAll game content loaded in %d ms", totalTime.getDiff());
}
void CModHandler::afterLoad(bool onlyEssential)
{
JsonNode modSettings;
for (auto & modEntry : allMods)
{
std::string pointer = "/" + boost::algorithm::replace_all_copy(modEntry.first, ".", "/mods/");
modSettings["activeMods"].resolvePointer(pointer) = modEntry.second.saveLocalData();
}
modSettings[ModScope::scopeBuiltin()] = coreMod->saveLocalData();
if(!onlyEssential)
{
std::fstream file(CResourceHandler::get()->getResourceName(ResourcePath("config/modSettings.json"))->c_str(), std::ofstream::out | std::ofstream::trunc);
file << modSettings.toJson();
}
}
void CModHandler::trySetActiveMods(std::vector<TModID> saveActiveMods, const std::map<TModID, CModVersion> & modList)
{
std::vector<TModID> newActiveMods;
ModIncompatibility::ModList missingMods;
for(const auto & m : activeMods)
{
if (vstd::contains(saveActiveMods, m))
continue;
auto & modInfo = allMods.at(m);
if(modInfo.checkModGameplayAffecting())
missingMods.emplace_back(m, modInfo.version.toString());
}
for(const auto & m : saveActiveMods)
{
const CModVersion & mver = modList.at(m);
if (allMods.count(m) == 0)
{
missingMods.emplace_back(m, mver.toString());
continue;
}
auto & modInfo = allMods.at(m);
bool modAffectsGameplay = modInfo.checkModGameplayAffecting();
bool modVersionCompatible = modInfo.version.isNull() || mver.isNull() || modInfo.version.compatible(mver);
bool modEnabledLocally = vstd::contains(activeMods, m);
bool modCanBeEnabled = modEnabledLocally && modVersionCompatible;
allMods[m].setEnabled(modCanBeEnabled);
if (modCanBeEnabled)
newActiveMods.push_back(m);
if (!modCanBeEnabled && modAffectsGameplay)
missingMods.emplace_back(m, mver.toString());
}
std::swap(activeMods, newActiveMods);
}
VCMI_LIB_NAMESPACE_END