/* * cachefilter-patterns.h - Pattern parser and additional patterns as matchers * * Copyright (c) 2019 Canonical Ltd * * SPDX-License-Identifier: GPL-2.0+ */ #ifndef APT_CACHEFILTER_PATTERNS_H #define APT_CACHEFILTER_PATTERNS_H #include #include #include #include #include #include #include #include #include #include #include #ifndef APT_COMPILING_APT #error Internal header #endif namespace APT { namespace Internal { /** * \brief PatternTreeParser parses the given sentence into a parse tree. * * The parse tree consists of nodes: * - Word nodes which contains words or quoted words * - Patterns, which represent ?foo and ?foo(...) patterns */ struct APT_PUBLIC PatternTreeParser { struct Node { size_t start = 0; size_t end = 0; explicit Node(size_t start = 0, size_t end = 0) : start(start), end(end) {} virtual std::ostream &render(std::ostream &os) { return os; }; std::nullptr_t error(std::string message); virtual ~Node() = default; }; struct Error : public std::exception { Node location; std::string message; Error(Node location, std::string message) : location(location), message(message) {} const char *what() const throw() override { return message.c_str(); } }; struct PatternNode : public Node { APT::StringView term; std::vector> arguments; bool haveArgumentList = false; APT_HIDDEN std::ostream &render(std::ostream &stream) override; APT_HIDDEN bool matches(APT::StringView name, int min, int max); }; struct WordNode : public Node { APT::StringView word; bool quoted = false; APT_HIDDEN std::ostream &render(std::ostream &stream) override; }; struct State { size_t offset = 0; }; APT::StringView sentence; State state; PatternTreeParser(APT::StringView sentence) : sentence(sentence){}; off_t skipSpace() { while (sentence[state.offset] == ' ' || sentence[state.offset] == '\t' || sentence[state.offset] == '\r' || sentence[state.offset] == '\n') state.offset++; return state.offset; }; /// \brief Parse a complete pattern /// /// There may not be anything before or after the pattern, except for /// whitespace. std::unique_ptr parseTop(); std::unique_ptr parse(); // public for test cases only private: APT_HIDDEN std::unique_ptr parseOr(); APT_HIDDEN std::unique_ptr parseAnd(); APT_HIDDEN std::unique_ptr parseUnary(); APT_HIDDEN std::unique_ptr parsePrimary(); APT_HIDDEN std::unique_ptr parseGroup(); APT_HIDDEN std::unique_ptr parsePattern(); APT_HIDDEN std::unique_ptr parseShortPattern(); APT_HIDDEN std::unique_ptr parseArgument(bool shrt); APT_HIDDEN std::unique_ptr parseWord(bool shrt); APT_HIDDEN std::unique_ptr parseQuotedWord(); }; /** * \brief PatternParser parses the given sentence into a parse tree. * * The parse tree consists of nodes: * - Word nodes which contains words or quoted words * - Patterns, which represent ?foo and ?foo(...) patterns */ struct APT_HIDDEN PatternParser { pkgCacheFile *file; std::unique_ptr aPattern(std::unique_ptr &nodeP); std::string aWord(std::unique_ptr &nodeP); }; namespace Patterns { using namespace APT::CacheFilter; /** \brief Basic helper class for matching regex */ class BaseRegexMatcher { regex_t *pattern; public: BaseRegexMatcher(std::string const &string); ~BaseRegexMatcher(); bool operator()(const char *cstring); bool operator()(std::string const &string) { return (*this)(string.c_str()); } }; struct APT_HIDDEN PackageIsAutomatic : public PackageMatcher { pkgCacheFile *Cache; explicit PackageIsAutomatic(pkgCacheFile *Cache) : Cache(Cache) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { assert(Cache != nullptr); return ((*Cache)[Pkg].Flags & pkgCache::Flag::Auto) != 0; } }; struct APT_HIDDEN PackageIsBroken : public PackageMatcher { pkgCacheFile *Cache; explicit PackageIsBroken(pkgCacheFile *Cache) : Cache(Cache) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { assert(Cache != nullptr); auto state = (*Cache)[Pkg]; return state.InstBroken() || state.NowBroken(); } }; struct APT_HIDDEN PackageIsConfigFiles : public PackageMatcher { bool operator()(pkgCache::PkgIterator const &Pkg) override { return Pkg->CurrentState == pkgCache::State::ConfigFiles; } }; struct APT_HIDDEN PackageIsGarbage : public PackageMatcher { pkgCacheFile *Cache; explicit PackageIsGarbage(pkgCacheFile *Cache) : Cache(Cache) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { assert(Cache != nullptr); return (*Cache)[Pkg].Garbage; } }; struct APT_HIDDEN PackageIsEssential : public PackageMatcher { bool operator()(pkgCache::PkgIterator const &Pkg) override { return (Pkg->Flags & pkgCache::Flag::Essential) != 0; } }; struct APT_HIDDEN PackageHasExactName : public PackageMatcher { std::string name; explicit PackageHasExactName(std::string name) : name(name) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { return Pkg.Name() == name; } }; struct APT_HIDDEN PackageIsInstalled : public PackageMatcher { pkgCacheFile *Cache; explicit PackageIsInstalled(pkgCacheFile *Cache) : Cache(Cache) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { assert(Cache != nullptr); return Pkg->CurrentVer != 0; } }; struct APT_HIDDEN PackageIsObsolete : public PackageMatcher { bool operator()(pkgCache::PkgIterator const &pkg) override { // This code can be written without loops, as aptitude does, but it // is far less readable. if (pkg.CurrentVer().end()) return false; // See if there is any version that exists in a repository, // if so return false for (auto ver = pkg.VersionList(); !ver.end(); ver++) { for (auto file = ver.FileList(); !file.end(); file++) { if ((file.File()->Flags & pkgCache::Flag::NotSource) == 0) return false; } } return true; } }; struct APT_HIDDEN PackageIsUpgradable : public PackageMatcher { pkgCacheFile *Cache; explicit PackageIsUpgradable(pkgCacheFile *Cache) : Cache(Cache) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { assert(Cache != nullptr); return Pkg->CurrentVer != 0 && (*Cache)[Pkg].Upgradable(); } }; struct APT_HIDDEN PackageIsVirtual : public PackageMatcher { bool operator()(pkgCache::PkgIterator const &Pkg) override { return Pkg->VersionList == 0; } }; struct APT_HIDDEN VersionAnyMatcher : public Matcher { bool operator()(pkgCache::GrpIterator const &) override { return false; } bool operator()(pkgCache::VerIterator const &Ver) override = 0; bool operator()(pkgCache::PkgIterator const &Pkg) override { for (auto Ver = Pkg.VersionList(); not Ver.end(); Ver++) { if ((*this)(Ver)) return true; } return false; } }; struct APT_HIDDEN VersionIsAllVersions : public Matcher { std::unique_ptr base; VersionIsAllVersions(std::unique_ptr base) : base(std::move(base)) {} bool operator()(pkgCache::GrpIterator const &) override { return false; } bool operator()(pkgCache::VerIterator const &Ver) override { return (*base)(Ver); } bool operator()(pkgCache::PkgIterator const &Pkg) override { for (auto Ver = Pkg.VersionList(); not Ver.end(); Ver++) { if (not(*this)(Ver)) return false; } return true; } }; struct APT_HIDDEN VersionDepends : public VersionAnyMatcher { std::unique_ptr base; pkgCache::Dep::DepType type; VersionDepends(std::unique_ptr base, pkgCache::Dep::DepType type = pkgCache::Dep::Depends) : base(std::move(base)), type(type) {} bool operator()(pkgCache::GrpIterator const &) override { return false; } bool operator()(pkgCache::VerIterator const &Ver) override { for (auto D = Ver.DependsList(); not D.end(); D++) { if (D.IsImplicit()) continue; if (D->Type != type) continue; if ((*base)(D.TargetPkg())) return true; } return false; } }; struct APT_HIDDEN PackageReverseDepends : public PackageMatcher { std::unique_ptr base; pkgCache::Dep::DepType type; PackageReverseDepends(std::unique_ptr base, pkgCache::Dep::DepType type = pkgCache::Dep::Depends) : base(std::move(base)), type(type) {} bool operator()(pkgCache::PkgIterator const &Pkg) override { for (auto D = Pkg.RevDependsList(); not D.end(); D++) { if (D.IsImplicit()) continue; if (D->Type != type) continue; if ((*base)(D.ParentVer())) return true; } return false; } }; struct APT_HIDDEN VersionIsAnyVersion : public VersionAnyMatcher { std::unique_ptr base; VersionIsAnyVersion(std::unique_ptr base) : base(std::move(base)) {} bool operator()(pkgCache::VerIterator const &Ver) override { return (*base)(Ver); } }; struct APT_HIDDEN VersionIsArchive : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsArchive(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { for (auto VF = Ver.FileList(); not VF.end(); VF++) { if (VF.File().Archive() && matcher(VF.File().Archive())) return true; } return false; } }; struct APT_HIDDEN VersionIsOrigin : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsOrigin(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { for (auto VF = Ver.FileList(); not VF.end(); VF++) { if (VF.File().Origin() && matcher(VF.File().Origin())) return true; } return false; } }; struct APT_HIDDEN VersionIsSection : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsSection(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { return matcher(Ver.Section()); } }; struct APT_HIDDEN VersionIsSourcePackage : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsSourcePackage(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { return matcher(Ver.SourcePkgName()); } }; struct APT_HIDDEN VersionIsSourceVersion : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsSourceVersion(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { return matcher(Ver.SourceVerStr()); } }; struct APT_HIDDEN VersionIsVersion : public VersionAnyMatcher { BaseRegexMatcher matcher; VersionIsVersion(std::string const &pattern) : matcher(pattern) {} bool operator()(pkgCache::VerIterator const &Ver) override { return matcher(Ver.VerStr()); } }; } // namespace Patterns } // namespace Internal } // namespace APT #endif