/** * OpenAL cross platform audio library * Copyright (C) 1999-2007 by authors. * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * Or go to http://www.gnu.org/copyleft/lgpl.html */ #include "config.h" #include "alconfig.h" #include #include #include #ifdef _WIN32 #include #include #endif #ifdef __APPLE__ #include #endif #include #include #include #include #include "alfstream.h" #include "alstring.h" #include "core/helpers.h" #include "core/logging.h" #include "strutils.h" #include "vector.h" #if defined(ALSOFT_UWP) #include // !!This is important!! #include #include #include using namespace winrt; #endif namespace { struct ConfigEntry { std::string key; std::string value; }; std::vector ConfOpts; std::string &lstrip(std::string &line) { size_t pos{0}; while(pos < line.length() && std::isspace(line[pos])) ++pos; line.erase(0, pos); return line; } bool readline(std::istream &f, std::string &output) { while(f.good() && f.peek() == '\n') f.ignore(); return std::getline(f, output) && !output.empty(); } std::string expdup(const char *str) { std::string output; std::string envval; while(*str != '\0') { const char *addstr; size_t addstrlen; if(str[0] != '$') { const char *next = std::strchr(str, '$'); addstr = str; addstrlen = next ? static_cast(next-str) : std::strlen(str); str += addstrlen; } else { str++; if(*str == '$') { const char *next = std::strchr(str+1, '$'); addstr = str; addstrlen = next ? static_cast(next-str) : std::strlen(str); str += addstrlen; } else { const bool hasbraces{(*str == '{')}; if(hasbraces) str++; const char *envstart = str; while(std::isalnum(*str) || *str == '_') ++str; if(hasbraces && *str != '}') continue; const std::string envname{envstart, str}; if(hasbraces) str++; envval = al::getenv(envname.c_str()).value_or(std::string{}); addstr = envval.data(); addstrlen = envval.length(); } } if(addstrlen == 0) continue; output.append(addstr, addstrlen); } return output; } void LoadConfigFromFile(std::istream &f) { std::string curSection; std::string buffer; while(readline(f, buffer)) { if(lstrip(buffer).empty()) continue; if(buffer[0] == '[') { auto line = const_cast(buffer.data()); char *section = line+1; char *endsection; endsection = std::strchr(section, ']'); if(!endsection || section == endsection) { ERR(" config parse error: bad line \"%s\"\n", line); continue; } if(endsection[1] != 0) { char *end = endsection+1; while(std::isspace(*end)) ++end; if(*end != 0 && *end != '#') { ERR(" config parse error: bad line \"%s\"\n", line); continue; } } *endsection = 0; curSection.clear(); if(al::strcasecmp(section, "general") != 0) { do { char *nextp = std::strchr(section, '%'); if(!nextp) { curSection += section; break; } curSection.append(section, nextp); section = nextp; if(((section[1] >= '0' && section[1] <= '9') || (section[1] >= 'a' && section[1] <= 'f') || (section[1] >= 'A' && section[1] <= 'F')) && ((section[2] >= '0' && section[2] <= '9') || (section[2] >= 'a' && section[2] <= 'f') || (section[2] >= 'A' && section[2] <= 'F'))) { int b{0}; if(section[1] >= '0' && section[1] <= '9') b = (section[1]-'0') << 4; else if(section[1] >= 'a' && section[1] <= 'f') b = (section[1]-'a'+0xa) << 4; else if(section[1] >= 'A' && section[1] <= 'F') b = (section[1]-'A'+0x0a) << 4; if(section[2] >= '0' && section[2] <= '9') b |= (section[2]-'0'); else if(section[2] >= 'a' && section[2] <= 'f') b |= (section[2]-'a'+0xa); else if(section[2] >= 'A' && section[2] <= 'F') b |= (section[2]-'A'+0x0a); curSection += static_cast(b); section += 3; } else if(section[1] == '%') { curSection += '%'; section += 2; } else { curSection += '%'; section += 1; } } while(*section != 0); } continue; } auto cmtpos = std::min(buffer.find('#'), buffer.size()); while(cmtpos > 0 && std::isspace(buffer[cmtpos-1])) --cmtpos; if(!cmtpos) continue; buffer.erase(cmtpos); auto sep = buffer.find('='); if(sep == std::string::npos) { ERR(" config parse error: malformed option line: \"%s\"\n", buffer.c_str()); continue; } auto keyend = sep++; while(keyend > 0 && std::isspace(buffer[keyend-1])) --keyend; if(!keyend) { ERR(" config parse error: malformed option line: \"%s\"\n", buffer.c_str()); continue; } while(sep < buffer.size() && std::isspace(buffer[sep])) sep++; std::string fullKey; if(!curSection.empty()) { fullKey += curSection; fullKey += '/'; } fullKey += buffer.substr(0u, keyend); std::string value{(sep < buffer.size()) ? buffer.substr(sep) : std::string{}}; if(value.size() > 1) { if((value.front() == '"' && value.back() == '"') || (value.front() == '\'' && value.back() == '\'')) { value.pop_back(); value.erase(value.begin()); } } TRACE(" found '%s' = '%s'\n", fullKey.c_str(), value.c_str()); /* Check if we already have this option set */ auto find_key = [&fullKey](const ConfigEntry &entry) -> bool { return entry.key == fullKey; }; auto ent = std::find_if(ConfOpts.begin(), ConfOpts.end(), find_key); if(ent != ConfOpts.end()) { if(!value.empty()) ent->value = expdup(value.c_str()); else ConfOpts.erase(ent); } else if(!value.empty()) ConfOpts.emplace_back(ConfigEntry{std::move(fullKey), expdup(value.c_str())}); } ConfOpts.shrink_to_fit(); } const char *GetConfigValue(const char *devName, const char *blockName, const char *keyName) { if(!keyName) return nullptr; std::string key; if(blockName && al::strcasecmp(blockName, "general") != 0) { key = blockName; if(devName) { key += '/'; key += devName; } key += '/'; key += keyName; } else { if(devName) { key = devName; key += '/'; } key += keyName; } auto iter = std::find_if(ConfOpts.cbegin(), ConfOpts.cend(), [&key](const ConfigEntry &entry) -> bool { return entry.key == key; }); if(iter != ConfOpts.cend()) { TRACE("Found %s = \"%s\"\n", key.c_str(), iter->value.c_str()); if(!iter->value.empty()) return iter->value.c_str(); return nullptr; } if(!devName) { TRACE("Key %s not found\n", key.c_str()); return nullptr; } return GetConfigValue(nullptr, blockName, keyName); } } // namespace #ifdef _WIN32 void ReadALConfig() { #if !defined(_GAMING_XBOX) { #if !defined(ALSOFT_UWP) WCHAR buffer[MAX_PATH]; if (!SHGetSpecialFolderPathW(nullptr, buffer, CSIDL_APPDATA, FALSE)) return; #else winrt::Windows::Storage::ApplicationDataContainer localSettings = winrt::Windows::Storage::ApplicationData::Current().LocalSettings(); auto buffer = Windows::Storage::ApplicationData::Current().RoamingFolder().Path(); #endif std::string filepath{wstr_to_utf8(buffer)}; filepath += "\\alsoft.ini"; TRACE("Loading config %s...\n", filepath.c_str()); al::ifstream f{filepath}; if(f.is_open()) LoadConfigFromFile(f); } #endif std::string ppath{GetProcBinary().path}; if(!ppath.empty()) { ppath += "\\alsoft.ini"; TRACE("Loading config %s...\n", ppath.c_str()); al::ifstream f{ppath}; if(f.is_open()) LoadConfigFromFile(f); } if(auto confpath = al::getenv(L"ALSOFT_CONF")) { TRACE("Loading config %s...\n", wstr_to_utf8(confpath->c_str()).c_str()); al::ifstream f{*confpath}; if(f.is_open()) LoadConfigFromFile(f); } } #else void ReadALConfig() { const char *str{"/etc/openal/alsoft.conf"}; TRACE("Loading config %s...\n", str); al::ifstream f{str}; if(f.is_open()) LoadConfigFromFile(f); f.close(); std::string confpaths{al::getenv("XDG_CONFIG_DIRS").value_or("/etc/xdg")}; /* Go through the list in reverse, since "the order of base directories * denotes their importance; the first directory listed is the most * important". Ergo, we need to load the settings from the later dirs * first so that the settings in the earlier dirs override them. */ std::string fname; while(!confpaths.empty()) { auto next = confpaths.find_last_of(':'); if(next < confpaths.length()) { fname = confpaths.substr(next+1); confpaths.erase(next); } else { fname = confpaths; confpaths.clear(); } if(fname.empty() || fname.front() != '/') WARN("Ignoring XDG config dir: %s\n", fname.c_str()); else { if(fname.back() != '/') fname += "/alsoft.conf"; else fname += "alsoft.conf"; TRACE("Loading config %s...\n", fname.c_str()); f = al::ifstream{fname}; if(f.is_open()) LoadConfigFromFile(f); } fname.clear(); } #ifdef __APPLE__ CFBundleRef mainBundle = CFBundleGetMainBundle(); if(mainBundle) { unsigned char fileName[PATH_MAX]; CFURLRef configURL; if((configURL=CFBundleCopyResourceURL(mainBundle, CFSTR(".alsoftrc"), CFSTR(""), nullptr)) && CFURLGetFileSystemRepresentation(configURL, true, fileName, sizeof(fileName))) { f = al::ifstream{reinterpret_cast(fileName)}; if(f.is_open()) LoadConfigFromFile(f); } } #endif if(auto homedir = al::getenv("HOME")) { fname = *homedir; if(fname.back() != '/') fname += "/.alsoftrc"; else fname += ".alsoftrc"; TRACE("Loading config %s...\n", fname.c_str()); f = al::ifstream{fname}; if(f.is_open()) LoadConfigFromFile(f); } if(auto configdir = al::getenv("XDG_CONFIG_HOME")) { fname = *configdir; if(fname.back() != '/') fname += "/alsoft.conf"; else fname += "alsoft.conf"; } else { fname.clear(); if(auto homedir = al::getenv("HOME")) { fname = *homedir; if(fname.back() != '/') fname += "/.config/alsoft.conf"; else fname += ".config/alsoft.conf"; } } if(!fname.empty()) { TRACE("Loading config %s...\n", fname.c_str()); f = al::ifstream{fname}; if(f.is_open()) LoadConfigFromFile(f); } std::string ppath{GetProcBinary().path}; if(!ppath.empty()) { if(ppath.back() != '/') ppath += "/alsoft.conf"; else ppath += "alsoft.conf"; TRACE("Loading config %s...\n", ppath.c_str()); f = al::ifstream{ppath}; if(f.is_open()) LoadConfigFromFile(f); } if(auto confname = al::getenv("ALSOFT_CONF")) { TRACE("Loading config %s...\n", confname->c_str()); f = al::ifstream{*confname}; if(f.is_open()) LoadConfigFromFile(f); } } #endif std::optional ConfigValueStr(const char *devName, const char *blockName, const char *keyName) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return val; return std::nullopt; } std::optional ConfigValueInt(const char *devName, const char *blockName, const char *keyName) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return static_cast(std::strtol(val, nullptr, 0)); return std::nullopt; } std::optional ConfigValueUInt(const char *devName, const char *blockName, const char *keyName) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return static_cast(std::strtoul(val, nullptr, 0)); return std::nullopt; } std::optional ConfigValueFloat(const char *devName, const char *blockName, const char *keyName) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return std::strtof(val, nullptr); return std::nullopt; } std::optional ConfigValueBool(const char *devName, const char *blockName, const char *keyName) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return al::strcasecmp(val, "on") == 0 || al::strcasecmp(val, "yes") == 0 || al::strcasecmp(val, "true")==0 || atoi(val) != 0; return std::nullopt; } bool GetConfigValueBool(const char *devName, const char *blockName, const char *keyName, bool def) { if(const char *val{GetConfigValue(devName, blockName, keyName)}) return (al::strcasecmp(val, "on") == 0 || al::strcasecmp(val, "yes") == 0 || al::strcasecmp(val, "true") == 0 || atoi(val) != 0); return def; }