/* * This file is part of OpenTTD. * OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2. * OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see . */ /** @file newgrf_config.cpp Finding NewGRFs and configuring them. */ #include "stdafx.h" #include "debug.h" #include "3rdparty/md5/md5.h" #include "newgrf.h" #include "network/network_func.h" #include "gfx_func.h" #include "newgrf_text.h" #include "window_func.h" #include "progress.h" #include "video/video_driver.hpp" #include "string_func.h" #include "strings_func.h" #include "textfile_gui.h" #include "thread.h" #include "newgrf_config.h" #include "newgrf_text.h" #include "fileio_func.h" #include "fios.h" #include "thread.h" #include #include #if defined(__MINGW32__) #include "3rdparty/mingw-std-threads/mingw.mutex.h" #include "3rdparty/mingw-std-threads/mingw.condition_variable.h" #endif #include "safeguards.h" /** * Create a new GRFConfig. * @param filename Set the filename of this GRFConfig to filename. */ GRFConfig::GRFConfig(const std::string &filename) : filename(filename), num_valid_params(lengthof(param)) { } /** * Create a new GRFConfig that is a deep copy of an existing config. * @param config The GRFConfig object to make a copy of. */ GRFConfig::GRFConfig(const GRFConfig &config) : ZeroedMemoryAllocator(), ident(config.ident), filename(config.filename), name(config.name), info(config.info), url(config.url), version(config.version), min_loadable_version(config.min_loadable_version), flags(config.flags & ~(1 << GCF_COPY)), status(config.status), grf_bugs(config.grf_bugs), num_params(config.num_params), num_valid_params(config.num_valid_params), palette(config.palette), has_param_defaults(config.has_param_defaults) { MemCpyT(this->original_md5sum, config.original_md5sum, lengthof(this->original_md5sum)); MemCpyT(this->param, config.param, lengthof(this->param)); if (config.error != nullptr) this->error = std::make_unique(*config.error); for (uint i = 0; i < config.param_info.size(); i++) { if (config.param_info[i] == nullptr) { this->param_info.push_back(nullptr); } else { this->param_info.push_back(new GRFParameterInfo(*config.param_info[i])); } } } /** Cleanup a GRFConfig object. */ GRFConfig::~GRFConfig() { for (uint i = 0; i < this->param_info.size(); i++) delete this->param_info[i]; } /** * Copy the parameter information from the \a src config. * @param src Source config. */ void GRFConfig::CopyParams(const GRFConfig &src) { this->num_params = src.num_params; this->num_valid_params = src.num_valid_params; MemCpyT(this->param, src.param, lengthof(this->param)); } /** * Get the name of this grf. In case the name isn't known * the filename is returned. * @return The name of filename of this grf. */ const char *GRFConfig::GetName() const { const char *name = GetGRFStringFromGRFText(this->name); return StrEmpty(name) ? this->filename.c_str() : name; } /** * Get the grf info. * @return A string with a description of this grf. */ const char *GRFConfig::GetDescription() const { return GetGRFStringFromGRFText(this->info); } /** * Get the grf url. * @return A string with an url of this grf. */ const char *GRFConfig::GetURL() const { return GetGRFStringFromGRFText(this->url); } /** Set the default value for all parameters as specified by action14. */ void GRFConfig::SetParameterDefaults() { this->num_params = 0; MemSetT(this->param, 0, lengthof(this->param)); if (!this->has_param_defaults) return; for (uint i = 0; i < this->param_info.size(); i++) { if (this->param_info[i] == nullptr) continue; this->param_info[i]->SetValue(this, this->param_info[i]->def_value); } } /** * Set the palette of this GRFConfig to something suitable. * That is either the setting coming from the NewGRF or * the globally used palette. */ void GRFConfig::SetSuitablePalette() { PaletteType pal; switch (this->palette & GRFP_GRF_MASK) { case GRFP_GRF_DOS: pal = PAL_DOS; break; case GRFP_GRF_WINDOWS: pal = PAL_WINDOWS; break; default: pal = _settings_client.gui.newgrf_default_palette == 1 ? PAL_WINDOWS : PAL_DOS; break; } SB(this->palette, GRFP_USE_BIT, 1, pal == PAL_WINDOWS ? GRFP_USE_WINDOWS : GRFP_USE_DOS); } /** * Finalize Action 14 info after file scan is finished. */ void GRFConfig::FinalizeParameterInfo() { for (GRFParameterInfo *info : this->param_info) { if (info == nullptr) continue; info->Finalize(); } } GRFConfig *_all_grfs; GRFConfig *_grfconfig; GRFConfig *_grfconfig_newgame; GRFConfig *_grfconfig_static; uint _missing_extra_graphics = 0; bool _grf_bug_too_many_strings = false; /** * Construct a new GRFError. * @param severity The severity of this error. * @param message The actual error-string. */ GRFError::GRFError(StringID severity, StringID message) : message(message), severity(severity), param_value() { } /** * Create a new GRFError that is a deep copy of an existing error message. * @param error The GRFError object to make a copy of. */ GRFError::GRFError(const GRFError &error) : custom_message(error.custom_message), data(error.data), message(error.message), severity(error.severity) { memcpy(this->param_value, error.param_value, sizeof(this->param_value)); } /** * Create a new empty GRFParameterInfo object. * @param nr The newgrf parameter that is changed. */ GRFParameterInfo::GRFParameterInfo(uint nr) : name(), desc(), type(PTYPE_UINT_ENUM), min_value(0), max_value(UINT32_MAX), def_value(0), param_nr(nr), first_bit(0), num_bit(32), value_names(), complete_labels(false) {} /** * Create a new GRFParameterInfo object that is a deep copy of an existing * parameter info object. * @param info The GRFParameterInfo object to make a copy of. */ GRFParameterInfo::GRFParameterInfo(GRFParameterInfo &info) : name(info.name), desc(info.desc), type(info.type), min_value(info.min_value), max_value(info.max_value), def_value(info.def_value), param_nr(info.param_nr), first_bit(info.first_bit), num_bit(info.num_bit), value_names(info.value_names), complete_labels(info.complete_labels) { } /** * Get the value of this user-changeable parameter from the given config. * @param config The GRFConfig to get the value from. * @return The value of this parameter. */ uint32 GRFParameterInfo::GetValue(struct GRFConfig *config) const { /* GB doesn't work correctly with nbits == 32, so handle that case here. */ if (this->num_bit == 32) return config->param[this->param_nr]; return GB(config->param[this->param_nr], this->first_bit, this->num_bit); } /** * Set the value of this user-changeable parameter in the given config. * @param config The GRFConfig to set the value in. * @param value The new value. */ void GRFParameterInfo::SetValue(struct GRFConfig *config, uint32 value) { /* SB doesn't work correctly with nbits == 32, so handle that case here. */ if (this->num_bit == 32) { config->param[this->param_nr] = value; } else { SB(config->param[this->param_nr], this->first_bit, this->num_bit, value); } config->num_params = std::max(config->num_params, this->param_nr + 1); SetWindowDirty(WC_GAME_OPTIONS, WN_GAME_OPTIONS_NEWGRF_STATE); } /** * Finalize Action 14 info after file scan is finished. */ void GRFParameterInfo::Finalize() { this->complete_labels = true; for (uint32 value = this->min_value; value <= this->max_value; value++) { if (!this->value_names.Contains(value)) { this->complete_labels = false; break; } } } /** * Update the palettes of the graphics from the config file. * Called when changing the default palette in advanced settings. * @param new_value Unused. */ void UpdateNewGRFConfigPalette(int32 new_value) { for (GRFConfig *c = _grfconfig_newgame; c != nullptr; c = c->next) c->SetSuitablePalette(); for (GRFConfig *c = _grfconfig_static; c != nullptr; c = c->next) c->SetSuitablePalette(); for (GRFConfig *c = _all_grfs; c != nullptr; c = c->next) c->SetSuitablePalette(); } /** * Get the data section size of a GRF. * @param f GRF. * @return Size of the data section or SIZE_MAX if the file has no separate data section. */ size_t GRFGetSizeOfDataSection(FILE *f) { extern const byte _grf_cont_v2_sig[]; static const uint header_len = 14; byte data[header_len]; if (fread(data, 1, header_len, f) == header_len) { if (data[0] == 0 && data[1] == 0 && MemCmpT(data + 2, _grf_cont_v2_sig, 8) == 0) { /* Valid container version 2, get data section size. */ size_t offset = ((size_t)data[13] << 24) | ((size_t)data[12] << 16) | ((size_t)data[11] << 8) | (size_t)data[10]; if (offset >= 1 * 1024 * 1024 * 1024) { DEBUG(grf, 0, "Unexpectedly large offset for NewGRF"); /* Having more than 1 GiB of data is very implausible. Mostly because then * all pools in OpenTTD are flooded already. Or it's just Action C all over. * In any case, the offsets to graphics will likely not work either. */ return SIZE_MAX; } return header_len + offset; } } return SIZE_MAX; } struct GRFMD5SumState { GRFConfig *config; size_t size; FILE *f; }; static uint _grf_md5_parallel = 0; static uint _grf_md5_threads = 0; static std::mutex _grf_md5_lock; static std::vector _grf_md5_pending; static std::condition_variable _grf_md5_full_cv; static std::condition_variable _grf_md5_empty_cv; static std::condition_variable _grf_md5_done_cv; static const uint GRF_MD5_PENDING_MAX = 8; static void CalcGRFMD5SumFromState(const GRFMD5SumState &state) { Md5 checksum; uint8 buffer[1024]; size_t len; size_t size = state.size; while ((len = fread(buffer, 1, (size > sizeof(buffer)) ? sizeof(buffer) : size, state.f)) != 0 && size != 0) { size -= len; checksum.Append(buffer, len); } checksum.Finish(state.config->ident.md5sum); FioFCloseFile(state.f); } void CalcGRFMD5Thread() { std::unique_lock lk(_grf_md5_lock); while (_grf_md5_parallel > 0 || !_grf_md5_pending.empty()) { if (_grf_md5_pending.empty()) { _grf_md5_empty_cv.wait(lk); } else { const bool full = _grf_md5_pending.size() == GRF_MD5_PENDING_MAX; GRFMD5SumState state = _grf_md5_pending.back(); _grf_md5_pending.pop_back(); lk.unlock(); if (full) _grf_md5_full_cv.notify_one(); if (!_exit_game) CalcGRFMD5SumFromState(state); lk.lock(); } } _grf_md5_threads--; if (_grf_md5_threads == 0) { _grf_md5_done_cv.notify_all(); } } void CalcGRFMD5ThreadingStart() { _grf_md5_parallel = std::thread::hardware_concurrency(); if (_grf_md5_parallel <= 1) _grf_md5_parallel = 0; } void CalcGRFMD5ThreadingEnd() { if (_grf_md5_parallel) { std::unique_lock lk(_grf_md5_lock); _grf_md5_parallel = 0; _grf_md5_empty_cv.notify_all(); _grf_md5_done_cv.wait(lk, []() { return _grf_md5_threads == 0; }); } } /** * Calculate the MD5 sum for a GRF, and store it in the config. * @param config GRF to compute. * @param subdir The subdirectory to look in. * @return MD5 sum was successfully computed */ static bool CalcGRFMD5Sum(GRFConfig *config, Subdirectory subdir) { size_t size; /* open the file */ FILE *f = FioFOpenFile(config->filename, "rb", subdir, &size); if (f == nullptr) return false; long start = ftell(f); size = std::min(size, GRFGetSizeOfDataSection(f)); if (start < 0 || fseek(f, start, SEEK_SET) < 0) { FioFCloseFile(f); return false; } /* calculate md5sum */ GRFMD5SumState state { config, size, f }; if (_grf_md5_parallel == 0) { CalcGRFMD5SumFromState(state); return true; } std::unique_lock lk(_grf_md5_lock); if (_grf_md5_pending.size() >= GRF_MD5_PENDING_MAX) { _grf_md5_full_cv.wait(lk); } _grf_md5_pending.push_back(state); bool notify_reader = (_grf_md5_pending.size() == 1); // queue was empty if ((_grf_md5_threads == 0) || ((_grf_md5_pending.size() > 1) && (_grf_md5_threads < _grf_md5_parallel))) { _grf_md5_threads++; if (!StartNewThread(nullptr, "ottd:grf-md5", &CalcGRFMD5Thread)) { _grf_md5_parallel = 0; lk.unlock(); CalcGRFMD5Thread(); return true; } } lk.unlock(); if (notify_reader) _grf_md5_empty_cv.notify_one(); return true; } /** * Find the GRFID of a given grf, and calculate its md5sum. * @param config grf to fill. * @param is_static grf is static. * @param subdir the subdirectory to search in. * @return Operation was successfully completed. */ bool FillGRFDetails(GRFConfig *config, bool is_static, Subdirectory subdir) { if (!FioCheckFileExists(config->filename, subdir)) { config->status = GCS_NOT_FOUND; return false; } /* Find and load the Action 8 information */ LoadNewGRFFile(config, GLS_FILESCAN, subdir, true); config->SetSuitablePalette(); config->FinalizeParameterInfo(); /* Skip if the grfid is 0 (not read) or if it is an internal GRF */ if (config->ident.grfid == 0 || HasBit(config->flags, GCF_SYSTEM)) return false; if (is_static) { /* Perform a 'safety scan' for static GRFs */ LoadNewGRFFile(config, GLS_SAFETYSCAN, subdir, true); /* GCF_UNSAFE is set if GLS_SAFETYSCAN finds unsafe actions */ if (HasBit(config->flags, GCF_UNSAFE)) return false; } return CalcGRFMD5Sum(config, subdir); } /** * Clear a GRF Config list, freeing all nodes. * @param config Start of the list. * @post \a config is set to \c nullptr. */ void ClearGRFConfigList(GRFConfig **config) { GRFConfig *c, *next; for (c = *config; c != nullptr; c = next) { next = c->next; delete c; } *config = nullptr; } /** * Copy a GRF Config list * @param dst pointer to destination list * @param src pointer to source list values * @param init_only the copied GRF will be processed up to GLS_INIT * @return pointer to the last value added to the destination list */ GRFConfig **CopyGRFConfigList(GRFConfig **dst, const GRFConfig *src, bool init_only) { /* Clear destination as it will be overwritten */ ClearGRFConfigList(dst); for (; src != nullptr; src = src->next) { GRFConfig *c = new GRFConfig(*src); ClrBit(c->flags, GCF_INIT_ONLY); if (init_only) SetBit(c->flags, GCF_INIT_ONLY); *dst = c; dst = &c->next; } return dst; } /** * Removes duplicates from lists of GRFConfigs. These duplicates * are introduced when the _grfconfig_static GRFs are appended * to the _grfconfig on a newgame or savegame. As the parameters * of the static GRFs could be different that the parameters of * the ones used non-statically. This can result in desyncs in * multiplayers, so the duplicate static GRFs have to be removed. * * This function _assumes_ that all static GRFs are placed after * the non-static GRFs. * * @param list the list to remove the duplicates from */ static void RemoveDuplicatesFromGRFConfigList(GRFConfig *list) { GRFConfig *prev; GRFConfig *cur; if (list == nullptr) return; for (prev = list, cur = list->next; cur != nullptr; prev = cur, cur = cur->next) { if (cur->ident.grfid != list->ident.grfid) continue; prev->next = cur->next; delete cur; cur = prev; // Just go back one so it continues as normal later on } RemoveDuplicatesFromGRFConfigList(list->next); } /** * Appends the static GRFs to a list of GRFs * @param dst the head of the list to add to */ void AppendStaticGRFConfigs(GRFConfig **dst) { GRFConfig **tail = dst; while (*tail != nullptr) tail = &(*tail)->next; CopyGRFConfigList(tail, _grfconfig_static, false); RemoveDuplicatesFromGRFConfigList(*dst); } /** * Appends an element to a list of GRFs * @param dst the head of the list to add to * @param el the new tail to be */ void AppendToGRFConfigList(GRFConfig **dst, GRFConfig *el) { GRFConfig **tail = dst; while (*tail != nullptr) tail = &(*tail)->next; *tail = el; RemoveDuplicatesFromGRFConfigList(*dst); } /** Reset the current GRF Config to either blank or newgame settings. */ void ResetGRFConfig(bool defaults) { CopyGRFConfigList(&_grfconfig, _grfconfig_newgame, !defaults); AppendStaticGRFConfigs(&_grfconfig); } /** * Check if all GRFs in the GRF config from a savegame can be loaded. * @param grfconfig GrfConfig to check * @return will return any of the following 3 values:
*
    *
  • GLC_ALL_GOOD: No problems occurred, all GRF files were found and loaded *
  • GLC_COMPATIBLE: For one or more GRF's no exact match was found, but a * compatible GRF with the same grfid was found and used instead *
  • GLC_NOT_FOUND: For one or more GRF's no match was found at all *
*/ GRFListCompatibility IsGoodGRFConfigList(GRFConfig *grfconfig) { GRFListCompatibility res = GLC_ALL_GOOD; for (GRFConfig *c = grfconfig; c != nullptr; c = c->next) { const GRFConfig *f = FindGRFConfig(c->ident.grfid, FGCM_EXACT, c->ident.md5sum); if (f == nullptr || HasBit(f->flags, GCF_INVALID)) { char buf[256]; /* If we have not found the exactly matching GRF try to find one with the * same grfid, as it most likely is compatible */ f = FindGRFConfig(c->ident.grfid, FGCM_COMPATIBLE, nullptr, c->version); if (f != nullptr) { md5sumToString(buf, lastof(buf), c->ident.md5sum); DEBUG(grf, 1, "NewGRF %08X (%s) not found; checksum %s, name: '%s'. Compatibility mode on", BSWAP32(c->ident.grfid), c->GetDisplayPath(), buf, GetDefaultLangGRFStringFromGRFText(c->name)); if (!HasBit(c->flags, GCF_COMPATIBLE)) { /* Preserve original_md5sum after it has been assigned */ SetBit(c->flags, GCF_COMPATIBLE); memcpy(c->original_md5sum, c->ident.md5sum, sizeof(c->original_md5sum)); } /* Non-found has precedence over compatibility load */ if (res != GLC_NOT_FOUND) res = GLC_COMPATIBLE; goto compatible_grf; } /* No compatible grf was found, mark it as disabled */ md5sumToString(buf, lastof(buf), c->ident.md5sum); DEBUG(grf, 0, "NewGRF %08X (%s) not found; checksum %s, name: '%s'", BSWAP32(c->ident.grfid), c->GetDisplayPath(), buf, GetDefaultLangGRFStringFromGRFText(c->name)); c->status = GCS_NOT_FOUND; res = GLC_NOT_FOUND; } else { compatible_grf: DEBUG(grf, 1, "Loading GRF %08X from %s", BSWAP32(f->ident.grfid), f->GetDisplayPath()); /* The filename could be the filename as in the savegame. As we need * to load the GRF here, we need the correct filename, so overwrite that * in any case and set the name and info when it is not set already. * When the GCF_COPY flag is set, it is certain that the filename is * already a local one, so there is no need to replace it. */ if (!HasBit(c->flags, GCF_COPY)) { c->filename = f->filename; memcpy(c->ident.md5sum, f->ident.md5sum, sizeof(c->ident.md5sum)); c->name = f->name; c->info = f->name; c->error = nullptr; c->version = f->version; c->min_loadable_version = f->min_loadable_version; c->num_valid_params = f->num_valid_params; c->has_param_defaults = f->has_param_defaults; for (uint i = 0; i < f->param_info.size(); i++) { if (f->param_info[i] == nullptr) { c->param_info.push_back(nullptr); } else { c->param_info.push_back(new GRFParameterInfo(*f->param_info[i])); } } } } } return res; } /** Set this flag to prevent any NewGRF scanning from being done. */ int _skip_all_newgrf_scanning = 0; /** Helper for scanning for files with GRF as extension */ class GRFFileScanner : FileScanner { std::chrono::steady_clock::time_point next_update; ///< The next moment we do update the screen. uint num_scanned; ///< The number of GRFs we have scanned. std::vector grfs; public: GRFFileScanner() : num_scanned(0) { this->next_update = std::chrono::steady_clock::now(); } bool AddFile(const std::string &filename, size_t basepath_length, const std::string &tar_filename) override; /** Do the scan for GRFs. */ static uint DoScan() { if (_skip_all_newgrf_scanning > 0) { if (_skip_all_newgrf_scanning == 1) _skip_all_newgrf_scanning = 0; return 0; } CalcGRFMD5ThreadingStart(); GRFFileScanner fs; fs.grfs.clear(); int ret = fs.Scan(".grf", NEWGRF_DIR); CalcGRFMD5ThreadingEnd(); for (GRFConfig *c : fs.grfs) { bool added = true; if (_all_grfs == nullptr) { _all_grfs = c; } else { /* Insert file into list at a position determined by its * name, so the list is sorted as we go along */ GRFConfig **pd, *d; bool stop = false; for (pd = &_all_grfs; (d = *pd) != nullptr; pd = &d->next) { if (c->ident.grfid == d->ident.grfid && memcmp(c->ident.md5sum, d->ident.md5sum, sizeof(c->ident.md5sum)) == 0) added = false; /* Because there can be multiple grfs with the same name, make sure we checked all grfs with the same name, * before inserting the entry. So insert a new grf at the end of all grfs with the same name, instead of * just after the first with the same name. Avoids doubles in the list. */ if (StrCompareIgnoreCase(c->GetName(), d->GetName()) <= 0) { stop = true; } else if (stop) { break; } } if (added) { c->next = d; *pd = c; } else { delete c; ret--; } } } /* The number scanned and the number returned may not be the same; * duplicate NewGRFs and base sets are ignored in the return value. */ _settings_client.gui.last_newgrf_count = fs.num_scanned; return ret; } }; bool GRFFileScanner::AddFile(const std::string &filename, size_t basepath_length, const std::string &tar_filename) { /* Abort if the user stopped the game during a scan. */ if (_exit_game) return false; GRFConfig *c = new GRFConfig(filename.c_str() + basepath_length); bool added = FillGRFDetails(c, false); if (added) { this->grfs.push_back(c); } this->num_scanned++; const char *name = nullptr; if (c->name != nullptr) name = GetGRFStringFromGRFText(c->name); if (name == nullptr) name = c->filename.c_str(); UpdateNewGRFScanStatus(this->num_scanned, name); VideoDriver::GetInstance()->GameLoopPause(); if (!added) { /* File couldn't be opened, or is either not a NewGRF or is a * 'system' NewGRF or it's already known, so forget about it. */ delete c; } return added; } /** * Simple sorter for GRFS * @param c1 the first GRFConfig * * @param c2 the second GRFConfig * * @return true if the name of first NewGRF is before the name of the second. */ static bool GRFSorter(GRFConfig * const &c1, GRFConfig * const &c2) { return StrNaturalCompare(c1->GetName(), c2->GetName()) < 0; } /** * Really perform the scan for all NewGRFs. * @param callback The callback to call after the scanning is complete. */ void DoScanNewGRFFiles(NewGRFScanCallback *callback) { ClearGRFConfigList(&_all_grfs); TarScanner::DoScan(TarScanner::NEWGRF); DEBUG(grf, 1, "Scanning for NewGRFs"); uint num = GRFFileScanner::DoScan(); DEBUG(grf, 1, "Scan complete, found %d files", num); if (num != 0 && _all_grfs != nullptr) { /* Sort the linked list using quicksort. * For that we first have to make an array, then sort and * then remake the linked list. */ std::vector to_sort; uint i = 0; for (GRFConfig *p = _all_grfs; p != nullptr; p = p->next, i++) { to_sort.push_back(p); } /* Number of files is not necessarily right */ num = i; std::sort(to_sort.begin(), to_sort.end(), GRFSorter); for (i = 1; i < num; i++) { to_sort[i - 1]->next = to_sort[i]; } to_sort[num - 1]->next = nullptr; _all_grfs = to_sort[0]; NetworkAfterNewGRFScan(); } /* Yes... these are the NewGRF windows */ InvalidateWindowClassesData(WC_SAVELOAD, 0, true); InvalidateWindowData(WC_GAME_OPTIONS, WN_GAME_OPTIONS_NEWGRF_STATE, GOID_NEWGRF_RESCANNED, true); if (!_exit_game && callback != nullptr) callback->OnNewGRFsScanned(); DeleteWindowByClass(WC_MODAL_PROGRESS); SetModalProgress(false); MarkWholeScreenDirty(); } /** * Scan for all NewGRFs. * @param callback The callback to call after the scanning is complete. */ void ScanNewGRFFiles(NewGRFScanCallback *callback) { /* First set the modal progress. This ensures that it will eventually let go of the paint mutex. */ SetModalProgress(true); /* Only then can we really start, especially by marking the whole screen dirty. Get those other windows hidden!. */ MarkWholeScreenDirty(); DoScanNewGRFFiles(callback); } /** * Find a NewGRF in the scanned list. * @param grfid GRFID to look for, * @param mode Restrictions for matching grfs * @param md5sum Expected MD5 sum * @param desired_version Requested version * @return The matching grf, if it exists in #_all_grfs, else \c nullptr. */ const GRFConfig *FindGRFConfig(uint32 grfid, FindGRFConfigMode mode, const uint8 *md5sum, uint32 desired_version) { assert((mode == FGCM_EXACT) != (md5sum == nullptr)); const GRFConfig *best = nullptr; for (const GRFConfig *c = _all_grfs; c != nullptr; c = c->next) { /* if md5sum is set, we look for an exact match and continue if not found */ if (!c->ident.HasGrfIdentifier(grfid, md5sum)) continue; /* return it, if the exact same newgrf is found, or if we do not care about finding "the best" */ if (md5sum != nullptr || mode == FGCM_ANY) return c; /* Skip incompatible stuff, unless explicitly allowed */ if (mode != FGCM_NEWEST && HasBit(c->flags, GCF_INVALID)) continue; /* check version compatibility */ if (mode == FGCM_COMPATIBLE && (c->version < desired_version || c->min_loadable_version > desired_version)) continue; /* remember the newest one as "the best" */ if (best == nullptr || c->version > best->version) best = c; } return best; } /** * Retrieve a NewGRF from the current config by its grfid. * @param grfid grf to look for. * @param mask GRFID mask to allow for partial matching. * @return The grf config, if it exists, else \c nullptr. */ GRFConfig *GetGRFConfig(uint32 grfid, uint32 mask) { GRFConfig *c; for (c = _grfconfig; c != nullptr; c = c->next) { if ((c->ident.grfid & mask) == (grfid & mask)) return c; } return nullptr; } /** Build a string containing space separated parameter values, and terminate */ char *GRFBuildParamList(char *dst, const GRFConfig *c, const char *last) { uint i; /* Return an empty string if there are no parameters */ if (c->num_params == 0) return strecpy(dst, "", last); for (i = 0; i < c->num_params; i++) { if (i > 0) dst = strecpy(dst, " ", last); dst += seprintf(dst, last, "%d", c->param[i]); } return dst; } /** * Search a textfile file next to this NewGRF. * @param type The type of the textfile to search for. * @return The filename for the textfile, \c nullptr otherwise. */ const char *GRFConfig::GetTextfile(TextfileType type) const { return ::GetTextfile(type, NEWGRF_DIR, this->filename.c_str()); }