// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ /* ###################################################################### Provide access methods to various configuration settings, setup defaults and returns validate settings. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include <config.h> #include <apt-pkg/aptconfiguration.h> #include <apt-pkg/configuration.h> #include <apt-pkg/error.h> #include <apt-pkg/fileutl.h> #include <apt-pkg/macros.h> #include <apt-pkg/strutl.h> #include <dirent.h> #include <stdio.h> #include <fcntl.h> #include <ctype.h> #include <stddef.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <algorithm> #include <string> #include <vector> /*}}}*/ namespace APT { // setDefaultConfigurationForCompressors /*{{{*/ static void setDefaultConfigurationForCompressors() { // Set default application paths to check for optional compression types _config->CndSet("Dir::Bin::bzip2", "/bin/bzip2"); _config->CndSet("Dir::Bin::xz", "/usr/bin/xz"); if (FileExists(_config->FindFile("Dir::Bin::xz")) == true) { _config->Set("Dir::Bin::lzma", _config->FindFile("Dir::Bin::xz")); _config->Set("APT::Compressor::lzma::Binary", "xz"); if (_config->Exists("APT::Compressor::lzma::CompressArg") == false) { _config->Set("APT::Compressor::lzma::CompressArg::", "--format=lzma"); _config->Set("APT::Compressor::lzma::CompressArg::", "-9"); } if (_config->Exists("APT::Compressor::lzma::UncompressArg") == false) { _config->Set("APT::Compressor::lzma::UncompressArg::", "--format=lzma"); _config->Set("APT::Compressor::lzma::UncompressArg::", "-d"); } } else { _config->CndSet("Dir::Bin::lzma", "/usr/bin/lzma"); if (_config->Exists("APT::Compressor::lzma::CompressArg") == false) { _config->Set("APT::Compressor::lzma::CompressArg::", "--suffix="); _config->Set("APT::Compressor::lzma::CompressArg::", "-9"); } if (_config->Exists("APT::Compressor::lzma::UncompressArg") == false) { _config->Set("APT::Compressor::lzma::UncompressArg::", "--suffix="); _config->Set("APT::Compressor::lzma::UncompressArg::", "-d"); } } } /*}}}*/ // getCompressionTypes - Return Vector of usable compressiontypes /*{{{*/ // --------------------------------------------------------------------- /* return a vector of compression types in the preferred order. */ std::vector<std::string> const Configuration::getCompressionTypes(bool const &Cached) { static std::vector<std::string> types; if (types.empty() == false) { if (Cached == true) return types; else types.clear(); } // setup the defaults for the compressiontypes => method mapping _config->CndSet("Acquire::CompressionTypes::xz","xz"); _config->CndSet("Acquire::CompressionTypes::bz2","bzip2"); _config->CndSet("Acquire::CompressionTypes::lzma","lzma"); _config->CndSet("Acquire::CompressionTypes::gz","gzip"); setDefaultConfigurationForCompressors(); std::vector<APT::Configuration::Compressor> const compressors = getCompressors(); // load the order setting into our vector std::vector<std::string> const order = _config->FindVector("Acquire::CompressionTypes::Order"); for (std::vector<std::string>::const_iterator o = order.begin(); o != order.end(); ++o) { if ((*o).empty() == true) continue; // ignore types we have no method ready to use std::string const method = std::string("Acquire::CompressionTypes::").append(*o); if (_config->Exists(method) == false) continue; // ignore types we have no app ready to use std::string const app = _config->Find(method); if (std::find_if(compressors.begin(), compressors.end(), [&app](APT::Configuration::Compressor const &c) { return c.Name == app; }) == compressors.end()) continue; types.push_back(*o); } // move again over the option tree to add all missing compression types ::Configuration::Item const *Types = _config->Tree("Acquire::CompressionTypes"); if (Types != 0) Types = Types->Child; for (; Types != 0; Types = Types->Next) { if (Types->Tag == "Order" || Types->Tag.empty() == true) continue; // ignore types we already have in the vector if (std::find(types.begin(),types.end(),Types->Tag) != types.end()) continue; // ignore types we have no app ready to use if (std::find_if(compressors.begin(), compressors.end(), [&Types](APT::Configuration::Compressor const &c) { return c.Name == Types->Value; }) == compressors.end()) continue; types.push_back(Types->Tag); } // add the special "uncompressed" type if (std::find(types.begin(), types.end(), "uncompressed") == types.end()) { std::string const uncompr = _config->FindFile("Dir::Bin::uncompressed", ""); if (uncompr.empty() == true || FileExists(uncompr) == true) types.push_back("uncompressed"); } return types; } /*}}}*/ // GetLanguages - Return Vector of Language Codes /*{{{*/ // --------------------------------------------------------------------- /* return a vector of language codes in the preferred order. the special word "environment" will be replaced with the long and the short code of the local settings and it will be insured that this will not add duplicates. So in an german local the setting "environment, de_DE, en, de" will result in "de_DE, de, en". The special word "none" is the stopcode for the not-All code vector */ std::vector<std::string> const Configuration::getLanguages(bool const &All, bool const &Cached, char const ** const Locale) { using std::string; // The detection is boring and has a lot of cornercases, // so we cache the results to calculated it only once. std::vector<string> static allCodes; std::vector<string> static codes; // we have something in the cache if (codes.empty() == false || allCodes.empty() == false) { if (Cached == true) { if(All == true && allCodes.empty() == false) return allCodes; else return codes; } else { allCodes.clear(); codes.clear(); } } // Include all Language codes we have a Translation file for in /var/lib/apt/lists // so they will be all included in the Cache. std::vector<string> builtin; DIR *D = opendir(_config->FindDir("Dir::State::lists").c_str()); if (D != NULL) { builtin.push_back("none"); for (struct dirent *Ent = readdir(D); Ent != 0; Ent = readdir(D)) { string const name = SubstVar(Ent->d_name, "%5f", "_"); size_t const foundDash = name.rfind("-"); size_t const foundUnderscore = name.rfind("_", foundDash); if (foundDash == string::npos || foundUnderscore == string::npos || foundDash <= foundUnderscore || name.substr(foundUnderscore+1, foundDash-(foundUnderscore+1)) != "Translation") continue; string const c = name.substr(foundDash+1); if (unlikely(c.empty() == true) || c == "en") continue; // Skip unusual files, like backups or that alike string::const_iterator s = c.begin(); for (;s != c.end(); ++s) { if (isalpha(*s) == 0 && *s != '_') break; } if (s != c.end()) continue; if (std::find(builtin.begin(), builtin.end(), c) != builtin.end()) continue; builtin.push_back(c); } closedir(D); } // FIXME: Remove support for the old APT::Acquire::Translation // it was undocumented and so it should be not very widthly used string const oldAcquire = _config->Find("APT::Acquire::Translation",""); if (oldAcquire.empty() == false && oldAcquire != "environment") { // TRANSLATORS: the two %s are APT configuration options _error->Notice("Option '%s' is deprecated. Please use '%s' instead, see 'man 5 apt.conf' for details.", "APT::Acquire::Translation", "Acquire::Languages"); if (oldAcquire != "none") codes.push_back(oldAcquire); codes.push_back("en"); allCodes = codes; for (std::vector<string>::const_iterator b = builtin.begin(); b != builtin.end(); ++b) if (std::find(allCodes.begin(), allCodes.end(), *b) == allCodes.end()) allCodes.push_back(*b); if (All == true) return allCodes; else return codes; } // get the environment language codes: LC_MESSAGES (and later LANGUAGE) // we extract both, a long and a short code and then we will // check if we actually need both (rare) or if the short is enough string const envMsg = string(Locale == 0 ? ::setlocale(LC_MESSAGES, NULL) : *Locale); size_t const lenShort = (envMsg.find('_') != string::npos) ? envMsg.find('_') : 2; size_t const lenLong = (envMsg.find_first_of(".@") != string::npos) ? envMsg.find_first_of(".@") : (lenShort + 3); string const envLong = envMsg.substr(0,lenLong); string const envShort = envLong.substr(0,lenShort); // It is very likely we will need the environment codes later, // so let us generate them now from LC_MESSAGES and LANGUAGE std::vector<string> environment; if (envShort != "C") { // take care of LC_MESSAGES if (envLong != envShort) environment.push_back(envLong); environment.push_back(envShort); // take care of LANGUAGE const char *language_env = getenv("LANGUAGE") == 0 ? "" : getenv("LANGUAGE"); string envLang = Locale == 0 ? language_env : *(Locale+1); if (envLang.empty() == false) { std::vector<string> env = VectorizeString(envLang,':'); short addedLangs = 0; // add a maximum of 3 fallbacks from the environment for (std::vector<string>::const_iterator e = env.begin(); e != env.end() && addedLangs < 3; ++e) { if (unlikely(e->empty() == true) || *e == "en") continue; if (*e == envLong || *e == envShort) continue; if (std::find(environment.begin(), environment.end(), *e) != environment.end()) continue; ++addedLangs; environment.push_back(*e); } } } else { // cornercase: LANG=C, so we use only "en" Translation environment.push_back("en"); } std::vector<string> const lang = _config->FindVector("Acquire::Languages", "environment,en"); // the configs define the order, so add the environment // then needed and ensure the codes are not listed twice. bool noneSeen = false; for (std::vector<string>::const_iterator l = lang.begin(); l != lang.end(); ++l) { if (*l == "environment") { for (std::vector<string>::const_iterator e = environment.begin(); e != environment.end(); ++e) { if (std::find(allCodes.begin(), allCodes.end(), *e) != allCodes.end()) continue; if (noneSeen == false) codes.push_back(*e); allCodes.push_back(*e); } continue; } else if (*l == "none") { noneSeen = true; continue; } else if (std::find(allCodes.begin(), allCodes.end(), *l) != allCodes.end()) continue; if (noneSeen == false) codes.push_back(*l); allCodes.push_back(*l); } if (allCodes.empty() == false) { for (std::vector<string>::const_iterator b = builtin.begin(); b != builtin.end(); ++b) if (std::find(allCodes.begin(), allCodes.end(), *b) == allCodes.end()) allCodes.push_back(*b); } else { // "none" was forced allCodes.push_back("none"); } if (All == true) return allCodes; else return codes; } /*}}}*/ // checkLanguage - are we interested in the given Language? /*{{{*/ bool Configuration::checkLanguage(std::string Lang, bool const All) { // the empty Language is always interesting as it is the original if (Lang.empty() == true) return true; // filenames are encoded, so undo this Lang = SubstVar(Lang, "%5f", "_"); std::vector<std::string> const langs = getLanguages(All, true); return (std::find(langs.begin(), langs.end(), Lang) != langs.end()); } /*}}}*/ // getArchitectures - Return Vector of preferred Architectures /*{{{*/ std::vector<std::string> const Configuration::getArchitectures(bool const &Cached) { using std::string; std::vector<string> static archs; if (likely(Cached == true) && archs.empty() == false) return archs; string const arch = _config->Find("APT::Architecture"); archs = _config->FindVector("APT::Architectures"); if (unlikely(arch.empty() == true)) return archs; // FIXME: It is a bit unclean to have debian specific code hereā¦ if (archs.empty() == true) { archs.push_back(arch); // Generate the base argument list for dpkg std::vector<const char *> Args; string Tmp = _config->Find("Dir::Bin::dpkg","dpkg"); { string const dpkgChrootDir = _config->FindDir("DPkg::Chroot-Directory", "/"); size_t dpkgChrootLen = dpkgChrootDir.length(); if (dpkgChrootDir != "/" && Tmp.find(dpkgChrootDir) == 0) { if (dpkgChrootDir[dpkgChrootLen - 1] == '/') --dpkgChrootLen; Tmp = Tmp.substr(dpkgChrootLen); } } Args.push_back(Tmp.c_str()); // Stick in any custom dpkg options ::Configuration::Item const *Opts = _config->Tree("DPkg::Options"); if (Opts != 0) { Opts = Opts->Child; for (; Opts != 0; Opts = Opts->Next) { if (Opts->Value.empty() == true) continue; Args.push_back(Opts->Value.c_str()); } } Args.push_back("--print-foreign-architectures"); Args.push_back(NULL); int external[2] = {-1, -1}; if (pipe(external) != 0) { _error->WarningE("getArchitecture", "Can't create IPC pipe for dpkg --print-foreign-architectures"); return archs; } pid_t dpkgMultiArch = ExecFork(); if (dpkgMultiArch == 0) { close(external[0]); std::string const chrootDir = _config->FindDir("DPkg::Chroot-Directory"); int const nullfd = open("/dev/null", O_RDONLY); dup2(nullfd, STDIN_FILENO); dup2(external[1], STDOUT_FILENO); dup2(nullfd, STDERR_FILENO); if (chrootDir != "/" && chroot(chrootDir.c_str()) != 0 && chdir("/") != 0) _error->WarningE("getArchitecture", "Couldn't chroot into %s for dpkg --print-foreign-architectures", chrootDir.c_str()); execvp(Args[0], (char**) &Args[0]); _error->WarningE("getArchitecture", "Can't detect foreign architectures supported by dpkg!"); _exit(100); } close(external[1]); FILE *dpkg = fdopen(external[0], "r"); if(dpkg != NULL) { char buf[1024]; while (fgets(buf, sizeof(buf), dpkg) != NULL) { char* arch = strtok(buf, " "); while (arch != NULL) { for (; isspace(*arch) != 0; ++arch); if (arch[0] != '\0') { char const* archend = arch; for (; isspace(*archend) == 0 && *archend != '\0'; ++archend); string a(arch, (archend - arch)); if (std::find(archs.begin(), archs.end(), a) == archs.end()) archs.push_back(a); } arch = strtok(NULL, " "); } } fclose(dpkg); } ExecWait(dpkgMultiArch, "dpkg --print-foreign-architectures", true); return archs; } if (archs.empty() == true || std::find(archs.begin(), archs.end(), arch) == archs.end()) archs.insert(archs.begin(), arch); // erase duplicates and empty strings for (std::vector<string>::reverse_iterator a = archs.rbegin(); a != archs.rend(); ++a) { if (a->empty() == true || std::find(a + 1, archs.rend(), *a) != archs.rend()) archs.erase(a.base()-1); if (a == archs.rend()) break; } return archs; } /*}}}*/ // checkArchitecture - are we interested in the given Architecture? /*{{{*/ bool Configuration::checkArchitecture(std::string const &Arch) { if (Arch == "all") return true; std::vector<std::string> const archs = getArchitectures(true); return (std::find(archs.begin(), archs.end(), Arch) != archs.end()); } /*}}}*/ // getCompressors - Return Vector of usealbe compressors /*{{{*/ // --------------------------------------------------------------------- /* return a vector of compressors used by apt-ftparchive in the multicompress functionality or to detect data.tar files */ std::vector<APT::Configuration::Compressor> const Configuration::getCompressors(bool const Cached) { static std::vector<APT::Configuration::Compressor> compressors; if (compressors.empty() == false) { if (Cached == true) return compressors; else compressors.clear(); } setDefaultConfigurationForCompressors(); compressors.push_back(Compressor(".", "", "", NULL, NULL, 1)); if (_config->Exists("Dir::Bin::gzip") == false || FileExists(_config->FindFile("Dir::Bin::gzip")) == true) compressors.push_back(Compressor("gzip",".gz","gzip","-9n","-d",2)); #ifdef HAVE_ZLIB else compressors.push_back(Compressor("gzip",".gz","false", NULL, NULL, 2)); #endif if (_config->Exists("Dir::Bin::xz") == false || FileExists(_config->FindFile("Dir::Bin::xz")) == true) compressors.push_back(Compressor("xz",".xz","xz","-6","-d",3)); #ifdef HAVE_LZMA else compressors.push_back(Compressor("xz",".xz","false", NULL, NULL, 3)); #endif if (_config->Exists("Dir::Bin::bzip2") == false || FileExists(_config->FindFile("Dir::Bin::bzip2")) == true) compressors.push_back(Compressor("bzip2",".bz2","bzip2","-9","-d",4)); #ifdef HAVE_BZ2 else compressors.push_back(Compressor("bzip2",".bz2","false", NULL, NULL, 4)); #endif if (_config->Exists("Dir::Bin::lzma") == false || FileExists(_config->FindFile("Dir::Bin::lzma")) == true) compressors.push_back(Compressor("lzma",".lzma","lzma","-9","-d",5)); #ifdef HAVE_LZMA else compressors.push_back(Compressor("lzma",".lzma","false", NULL, NULL, 5)); #endif std::vector<std::string> const comp = _config->FindVector("APT::Compressor"); for (std::vector<std::string>::const_iterator c = comp.begin(); c != comp.end(); ++c) { if (c->empty() || *c == "." || *c == "gzip" || *c == "bzip2" || *c == "lzma" || *c == "xz") continue; compressors.push_back(Compressor(c->c_str(), std::string(".").append(*c).c_str(), c->c_str(), "-9", "-d", 100)); } return compressors; } /*}}}*/ // getCompressorExtensions - supported data.tar extensions /*{{{*/ // --------------------------------------------------------------------- /* */ std::vector<std::string> const Configuration::getCompressorExtensions() { std::vector<APT::Configuration::Compressor> const compressors = getCompressors(); std::vector<std::string> ext; for (std::vector<APT::Configuration::Compressor>::const_iterator c = compressors.begin(); c != compressors.end(); ++c) if (c->Extension.empty() == false && c->Extension != ".") ext.push_back(c->Extension); return ext; } /*}}}*/ // Compressor constructor /*{{{*/ // --------------------------------------------------------------------- /* */ Configuration::Compressor::Compressor(char const *name, char const *extension, char const *binary, char const *compressArg, char const *uncompressArg, unsigned short const cost) { std::string const config = std::string("APT::Compressor::").append(name).append("::"); Name = _config->Find(std::string(config).append("Name"), name); Extension = _config->Find(std::string(config).append("Extension"), extension); Binary = _config->Find(std::string(config).append("Binary"), binary); Cost = _config->FindI(std::string(config).append("Cost"), cost); std::string const compConf = std::string(config).append("CompressArg"); if (_config->Exists(compConf) == true) CompressArgs = _config->FindVector(compConf); else if (compressArg != NULL) CompressArgs.push_back(compressArg); std::string const uncompConf = std::string(config).append("UncompressArg"); if (_config->Exists(uncompConf) == true) UncompressArgs = _config->FindVector(uncompConf); else if (uncompressArg != NULL) UncompressArgs.push_back(uncompressArg); } /*}}}*/ // getBuildProfiles - return a vector of enabled build profiles /*{{{*/ std::vector<std::string> const Configuration::getBuildProfiles() { // order is: override value (~= commandline), environment variable, list (~= config file) std::string profiles_env = getenv("DEB_BUILD_PROFILES") == 0 ? "" : getenv("DEB_BUILD_PROFILES"); if (profiles_env.empty() == false) { profiles_env = SubstVar(profiles_env, " ", ","); std::string const bp = _config->Find("APT::Build-Profiles"); _config->Clear("APT::Build-Profiles"); if (bp.empty() == false) _config->Set("APT::Build-Profiles", bp); } return _config->FindVector("APT::Build-Profiles", profiles_env); } std::string const Configuration::getBuildProfilesString() { std::vector<std::string> profiles = getBuildProfiles(); if (profiles.empty() == true) return ""; std::vector<std::string>::const_iterator p = profiles.begin(); std::string list = *p; for (++p; p != profiles.end(); ++p) list.append(",").append(*p); return list; } /*}}}*/ }