// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: deblistparser.cc,v 1.29.2.5 2004/01/06 01:43:44 mdz Exp $ /* ###################################################################### Package Cache Generator - Generator for the cache structure. This builds the cache structure from the abstract package list parser. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*}}}*/ using std::string; using APT::StringView; static const debListParser::WordList PrioList[] = { {"required",pkgCache::State::Required}, {"important",pkgCache::State::Important}, {"standard",pkgCache::State::Standard}, {"optional",pkgCache::State::Optional}, {"extra",pkgCache::State::Extra}, {"", 0}}; // ListParser::debListParser - Constructor /*{{{*/ // --------------------------------------------------------------------- /* Provide an architecture and only this one and "all" will be accepted in Step(), if no Architecture is given we will accept every arch we would accept in general with checkArchitecture() */ debListParser::debListParser(FileFd *File) : pkgCacheListParser(), Tags(File) { // this dance allows an empty value to override the default if (_config->Exists("pkgCacheGen::ForceEssential")) { forceEssential = _config->FindVector("pkgCacheGen::ForceEssential"); if (forceEssential.empty() == false && _config->Find("pkgCacheGen::ForceEssential").empty()) forceEssential.emplace_back("apt"); } else forceEssential.emplace_back("apt"); forceImportant = _config->FindVector("pkgCacheGen::ForceImportant"); } /*}}}*/ // ListParser::Package - Return the package name /*{{{*/ // --------------------------------------------------------------------- /* This is to return the name of the package this section describes */ string debListParser::Package() { string Result = Section.Find(pkgTagSection::Key::Package).to_string(); // Normalize mixed case package names to lower case, like dpkg does // See Bug#807012 for details std::transform(Result.begin(), Result.end(), Result.begin(), tolower_ascii); if(unlikely(Result.empty() == true)) _error->Error("Encountered a section with no Package: header"); return Result; } /*}}}*/ // ListParser::Architecture - Return the package arch /*{{{*/ // --------------------------------------------------------------------- /* This will return the Architecture of the package this section describes */ APT::StringView debListParser::Architecture() { auto const Arch = Section.Find(pkgTagSection::Key::Architecture); return Arch.empty() ? "none" : Arch; } /*}}}*/ // ListParser::ArchitectureAll /*{{{*/ // --------------------------------------------------------------------- /* */ bool debListParser::ArchitectureAll() { return Section.Find(pkgTagSection::Key::Architecture) == "all"; } /*}}}*/ // ListParser::Version - Return the version string /*{{{*/ // --------------------------------------------------------------------- /* This is to return the string describing the version in debian form, epoch:upstream-release. If this returns the blank string then the entry is assumed to only describe package properties */ APT::StringView debListParser::Version() { return Section.Find(pkgTagSection::Key::Version); } /*}}}*/ unsigned char debListParser::ParseMultiArch(bool const showErrors) /*{{{*/ { unsigned char MA; auto const MultiArch = Section.Find(pkgTagSection::Key::Multi_Arch); if (MultiArch.empty() == true || MultiArch == "no") MA = pkgCache::Version::No; else if (MultiArch == "same") { if (ArchitectureAll() == true) { if (showErrors == true) _error->Warning("Architecture: all package '%s' can't be Multi-Arch: same", Section.FindS("Package").c_str()); MA = pkgCache::Version::No; } else MA = pkgCache::Version::Same; } else if (MultiArch == "foreign") MA = pkgCache::Version::Foreign; else if (MultiArch == "allowed") MA = pkgCache::Version::Allowed; else { if (showErrors == true) _error->Warning("Unknown Multi-Arch type '%s' for package '%s'", MultiArch.to_string().c_str(), Section.FindS("Package").c_str()); MA = pkgCache::Version::No; } if (ArchitectureAll() == true) MA |= pkgCache::Version::All; return MA; } /*}}}*/ // ListParser::NewVersion - Fill in the version structure /*{{{*/ // --------------------------------------------------------------------- /* */ bool debListParser::NewVersion(pkgCache::VerIterator &Ver) { const char *Start; const char *Stop; // Parse the section if (Section.Find(pkgTagSection::Key::Section,Start,Stop) == true) { map_stringitem_t const idx = StoreString(pkgCacheGenerator::SECTION, Start, Stop - Start); Ver->Section = idx; } // Parse the source package name pkgCache::GrpIterator G = Ver.ParentPkg().Group(); Ver->SourcePkgName = G->Name; Ver->SourceVerStr = Ver->VerStr; if (Section.Find(pkgTagSection::Key::Source,Start,Stop) == true) { const char * const Space = (const char * const) memchr(Start, ' ', Stop - Start); pkgCache::VerIterator V; if (Space != NULL) { const char * const Open = (const char * const) memchr(Space, '(', Stop - Space); if (likely(Open != NULL)) { const char * const Close = (const char * const) memchr(Open, ')', Stop - Open); if (likely(Close != NULL)) { APT::StringView const version(Open + 1, (Close - Open) - 1); if (version != Ver.VerStr()) { map_stringitem_t const idx = StoreString(pkgCacheGenerator::VERSIONNUMBER, version); G = Ver.ParentPkg().Group(); Ver->SourceVerStr = idx; } } } Stop = Space; } APT::StringView const pkgname(Start, Stop - Start); if (pkgname != G.Name()) { for (pkgCache::PkgIterator P = G.PackageList(); P.end() == false; P = G.NextPkg(P)) { for (V = P.VersionList(); V.end() == false; ++V) { if (pkgname == V.SourcePkgName()) { Ver->SourcePkgName = V->SourcePkgName; break; } } if (V.end() == false) break; } if (V.end() == true) { map_stringitem_t const idx = StoreString(pkgCacheGenerator::PKGNAME, pkgname); G = Ver.ParentPkg().Group(); Ver->SourcePkgName = idx; } } } Ver->MultiArch = ParseMultiArch(true); // Archive Size Ver->Size = Section.FindULL(pkgTagSection::Key::Size); // Unpacked Size (in K) Ver->InstalledSize = Section.FindULL(pkgTagSection::Key::Installed_Size); Ver->InstalledSize *= 1024; // Priority if (Section.Find(pkgTagSection::Key::Priority,Start,Stop) == true) { if (GrabWord(StringView(Start,Stop-Start),PrioList,Ver->Priority) == false) Ver->Priority = pkgCache::State::Extra; } if (ParseDepends(Ver,pkgTagSection::Key::Pre_Depends,pkgCache::Dep::PreDepends) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Depends,pkgCache::Dep::Depends) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Conflicts,pkgCache::Dep::Conflicts) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Breaks,pkgCache::Dep::DpkgBreaks) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Recommends,pkgCache::Dep::Recommends) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Suggests,pkgCache::Dep::Suggests) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Replaces,pkgCache::Dep::Replaces) == false) return false; if (ParseDepends(Ver,pkgTagSection::Key::Enhances,pkgCache::Dep::Enhances) == false) return false; // Obsolete. if (ParseDepends(Ver,pkgTagSection::Key::Optional,pkgCache::Dep::Suggests) == false) return false; if (ParseProvides(Ver) == false) return false; return true; } /*}}}*/ // ListParser::AvailableDescriptionLanguages /*{{{*/ std::vector debListParser::AvailableDescriptionLanguages() { std::vector const understood = APT::Configuration::getLanguages(); std::vector avail; static constexpr int prefixLen = 12; static constexpr int avgLanguageLen = 5; std::string tagname; tagname.reserve(prefixLen + avgLanguageLen); tagname.assign("Description-"); if (Section.Exists("Description") == true) avail.push_back(""); for (std::vector::const_iterator lang = understood.begin(); lang != understood.end(); ++lang) { tagname.resize(prefixLen); tagname.append(*lang); if (Section.Exists(tagname) == true) avail.push_back(*lang); } return avail; } /*}}}*/ // ListParser::Description_md5 - Return the description_md5 MD5SumValue /*{{{*/ // --------------------------------------------------------------------- /* This is to return the md5 string to allow the check if it is the right description. If no Description-md5 is found in the section it will be calculated. */ MD5SumValue debListParser::Description_md5() { StringView const value = Section.Find(pkgTagSection::Key::Description_md5); if (value.empty() == true) { StringView const desc = Section.Find(pkgTagSection::Key::Description); if (desc == "\n") return MD5SumValue(); MD5Summation md5; md5.Add(desc.data(), desc.size()); md5.Add("\n"); return md5.Result(); } else if (likely(value.size() == 32)) { MD5SumValue sumvalue; if (sumvalue.Set(value)) return sumvalue; _error->Error("Malformed Description-md5 line; includes invalid character '%.*s'", (int)value.length(), value.data()); return MD5SumValue(); } _error->Error("Malformed Description-md5 line; doesn't have the required length (32 != %d) '%.*s'", (int)value.size(), (int)value.length(), value.data()); return MD5SumValue(); } /*}}}*/ // ListParser::UsePackage - Update a package structure /*{{{*/ // --------------------------------------------------------------------- /* This is called to update the package with any new information that might be found in the section */ bool debListParser::UsePackage(pkgCache::PkgIterator &Pkg, pkgCache::VerIterator &Ver) { string const static myArch = _config->Find("APT::Architecture"); // Possible values are: "all", "native", "installed" and "none" // The "installed" mode is handled by ParseStatus(), See #544481 and friends. string const static essential = _config->Find("pkgCacheGen::Essential", "all"); if (essential == "all" || (essential == "native" && Pkg->Arch != 0 && myArch == Pkg.Arch())) if (Section.FindFlag(pkgTagSection::Key::Essential,Pkg->Flags,pkgCache::Flag::Essential) == false) return false; if (Section.FindFlag(pkgTagSection::Key::Important,Pkg->Flags,pkgCache::Flag::Important) == false) return false; if (std::find(forceEssential.begin(), forceEssential.end(), Pkg.Name()) != forceEssential.end()) { if ((essential == "native" && Pkg->Arch != 0 && myArch == Pkg.Arch()) || essential == "all") Pkg->Flags |= pkgCache::Flag::Essential | pkgCache::Flag::Important; else Pkg->Flags |= pkgCache::Flag::Important; } else if (std::find(forceImportant.begin(), forceImportant.end(), Pkg.Name()) != forceImportant.end()) Pkg->Flags |= pkgCache::Flag::Important; if (ParseStatus(Pkg,Ver) == false) return false; return true; } /*}}}*/ // ListParser::VersionHash - Compute a unique hash for this version /*{{{*/ // --------------------------------------------------------------------- /* */ unsigned short debListParser::VersionHash() { static constexpr pkgTagSection::Key Sections[] ={ pkgTagSection::Key::Installed_Size, pkgTagSection::Key::Depends, pkgTagSection::Key::Pre_Depends, // pkgTagSection::Key::Suggests, // pkgTagSection::Key::Recommends", pkgTagSection::Key::Conflicts, pkgTagSection::Key::Breaks, pkgTagSection::Key::Replaces}; unsigned long Result = INIT_FCS; char S[1024]; for (auto I : Sections) { const char *Start; const char *End; if (Section.Find(I,Start,End) == false) continue; /* Strip out any spaces from the text, this undoes dpkgs reformatting of certain fields. dpkg also has the rather interesting notion of reformatting depends operators < -> <= */ char *J = S; for (; Start != End && (J - S) < sizeof(S); ++Start) { if (isspace_ascii(*Start) != 0) continue; *J++ = tolower_ascii_unsafe(*Start); /* Normalize <= to < and >= to >. This is the wrong way around, but * more efficient that the right way. And since we're only hashing * it does not matter which way we normalize. */ if ((*Start == '<' || *Start == '>') && Start[1] == '=') { Start++; } } Result = AddCRC16(Result,S,J - S); } return Result; } /*}}}*/ // StatusListParser::ParseStatus - Parse the status field /*{{{*/ // --------------------------------------------------------------------- /* Status lines are of the form, Status: want flag status want = unknown, install, hold, deinstall, purge flag = ok, reinstreq status = not-installed, config-files, half-installed, unpacked, half-configured, triggers-awaited, triggers-pending, installed */ bool debListParser::ParseStatus(pkgCache::PkgIterator &, pkgCache::VerIterator &) { return true; } bool debStatusListParser::ParseStatus(pkgCache::PkgIterator &Pkg, pkgCache::VerIterator &Ver) { const char *Start; const char *Stop; if (Section.Find(pkgTagSection::Key::Status,Start,Stop) == false) return true; // UsePackage() is responsible for setting the flag in the default case bool const static essential = _config->Find("pkgCacheGen::Essential", "") == "installed"; if (essential == true && Section.FindFlag(pkgTagSection::Key::Essential,Pkg->Flags,pkgCache::Flag::Essential) == false) return false; // Isolate the first word const char *I = Start; for(; I < Stop && *I != ' '; I++); if (I >= Stop || *I != ' ') return _error->Error("Malformed Status line"); // Process the want field WordList WantList[] = {{"unknown",pkgCache::State::Unknown}, {"install",pkgCache::State::Install}, {"hold",pkgCache::State::Hold}, {"deinstall",pkgCache::State::DeInstall}, {"purge",pkgCache::State::Purge}, {"", 0}}; if (GrabWord(StringView(Start,I-Start),WantList,Pkg->SelectedState) == false) return _error->Error("Malformed 1st word in the Status line"); // Isloate the next word I++; Start = I; for(; I < Stop && *I != ' '; I++); if (I >= Stop || *I != ' ') return _error->Error("Malformed status line, no 2nd word"); // Process the flag field WordList FlagList[] = {{"ok",pkgCache::State::Ok}, {"reinstreq",pkgCache::State::ReInstReq}, {"hold",pkgCache::State::HoldInst}, {"hold-reinstreq",pkgCache::State::HoldReInstReq}, {"", 0}}; if (GrabWord(StringView(Start,I-Start),FlagList,Pkg->InstState) == false) return _error->Error("Malformed 2nd word in the Status line"); // Isloate the last word I++; Start = I; for(; I < Stop && *I != ' '; I++); if (I != Stop) return _error->Error("Malformed Status line, no 3rd word"); // Process the flag field WordList StatusList[] = {{"not-installed",pkgCache::State::NotInstalled}, {"config-files",pkgCache::State::ConfigFiles}, {"half-installed",pkgCache::State::HalfInstalled}, {"unpacked",pkgCache::State::UnPacked}, {"half-configured",pkgCache::State::HalfConfigured}, {"triggers-awaited",pkgCache::State::TriggersAwaited}, {"triggers-pending",pkgCache::State::TriggersPending}, {"installed",pkgCache::State::Installed}, {"", 0}}; if (GrabWord(StringView(Start,I-Start),StatusList,Pkg->CurrentState) == false) return _error->Error("Malformed 3rd word in the Status line"); /* A Status line marks the package as indicating the current version as well. Only if it is actually installed.. Otherwise the interesting dpkg handling of the status file creates bogus entries. */ if (!(Pkg->CurrentState == pkgCache::State::NotInstalled || Pkg->CurrentState == pkgCache::State::ConfigFiles)) { if (Ver.end() == true) _error->Warning("Encountered status field in a non-version description"); else Pkg->CurrentVer = Ver.Index(); } return true; } const char *debListParser::ConvertRelation(const char *I,unsigned int &Op) { // Determine the operator switch (*I) { case '<': I++; if (*I == '=') { I++; Op = pkgCache::Dep::LessEq; break; } if (*I == '<') { I++; Op = pkgCache::Dep::Less; break; } // < is the same as <= and << is really Cs < for some reason Op = pkgCache::Dep::LessEq; break; case '>': I++; if (*I == '=') { I++; Op = pkgCache::Dep::GreaterEq; break; } if (*I == '>') { I++; Op = pkgCache::Dep::Greater; break; } // > is the same as >= and >> is really Cs > for some reason Op = pkgCache::Dep::GreaterEq; break; case '=': Op = pkgCache::Dep::Equals; I++; break; // HACK around bad package definitions default: Op = pkgCache::Dep::Equals; break; } return I; } /*}}}*/ // ListParser::ParseDepends - Parse a dependency element /*{{{*/ // --------------------------------------------------------------------- /* This parses the dependency elements out of a standard string in place, bit by bit. */ const char *debListParser::ParseDepends(const char *Start,const char *Stop, std::string &Package,std::string &Ver,unsigned int &Op) { return ParseDepends(Start, Stop, Package, Ver, Op, false, true, false); } const char *debListParser::ParseDepends(const char *Start,const char *Stop, std::string &Package,std::string &Ver,unsigned int &Op, bool const &ParseArchFlags) { return ParseDepends(Start, Stop, Package, Ver, Op, ParseArchFlags, true, false); } const char *debListParser::ParseDepends(const char *Start,const char *Stop, std::string &Package,std::string &Ver,unsigned int &Op, bool const &ParseArchFlags, bool const &StripMultiArch) { return ParseDepends(Start, Stop, Package, Ver, Op, ParseArchFlags, StripMultiArch, false); } const char *debListParser::ParseDepends(const char *Start,const char *Stop, string &Package,string &Ver, unsigned int &Op, bool const &ParseArchFlags, bool const &StripMultiArch, bool const &ParseRestrictionsList) { StringView PackageView; StringView VerView; auto res = ParseDepends(Start, Stop, PackageView, VerView, Op, (bool)ParseArchFlags, (bool) StripMultiArch, (bool) ParseRestrictionsList); Package = PackageView.to_string(); Ver = VerView.to_string(); return res; } const char *debListParser::ParseDepends(const char *Start,const char *Stop, StringView &Package,StringView &Ver, unsigned int &Op, bool ParseArchFlags, bool StripMultiArch, bool ParseRestrictionsList) { // Strip off leading space for (;Start != Stop && isspace_ascii(*Start) != 0; ++Start); // Parse off the package name const char *I = Start; for (;I != Stop && isspace_ascii(*I) == 0 && *I != '(' && *I != ')' && *I != ',' && *I != '|' && *I != '[' && *I != ']' && *I != '<' && *I != '>'; ++I); // Malformed, no '(' if (I != Stop && *I == ')') return 0; if (I == Start) return 0; // Stash the package name Package = StringView(Start, I - Start); // We don't want to confuse library users which can't handle MultiArch if (StripMultiArch == true) { string const arch = _config->Find("APT::Architecture"); size_t const found = Package.rfind(':'); if (found != StringView::npos && (Package.substr(found) == ":any" || Package.substr(found) == ":native" || Package.substr(found +1) == arch)) Package = Package.substr(0,found); } // Skip white space to the '(' for (;I != Stop && isspace_ascii(*I) != 0 ; I++); // Parse a version if (I != Stop && *I == '(') { // Skip the '(' for (I++; I != Stop && isspace_ascii(*I) != 0 ; I++); if (I + 3 >= Stop) return 0; I = ConvertRelation(I,Op); // Skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); Start = I; I = (const char*) memchr(I, ')', Stop - I); if (I == NULL || Start == I) return 0; // Skip trailing whitespace const char *End = I; for (; End > Start && isspace_ascii(End[-1]); End--); Ver = StringView(Start,End-Start); I++; } else { Ver = StringView(); Op = pkgCache::Dep::NoOp; } // Skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); if (unlikely(ParseArchFlags == true)) { string const arch = _config->Find("APT::Architecture"); APT::CacheFilter::PackageArchitectureMatchesSpecification matchesArch(arch, false); // Parse an architecture if (I != Stop && *I == '[') { ++I; // malformed if (unlikely(I == Stop)) return 0; const char *End = I; bool Found = false; bool NegArch = false; while (I != Stop) { // look for whitespace or ending ']' for (;End != Stop && !isspace_ascii(*End) && *End != ']'; ++End); if (unlikely(End == Stop)) return 0; if (*I == '!') { NegArch = true; ++I; } std::string const arch(I, End); if (arch.empty() == false && matchesArch(arch.c_str()) == true) { Found = true; if (I[-1] != '!') NegArch = false; // we found a match, so fast-forward to the end of the wildcards for (; End != Stop && *End != ']'; ++End); } if (*End++ == ']') { I = End; break; } I = End; for (;I != Stop && isspace_ascii(*I) != 0; I++); } if (NegArch == true) Found = !Found; if (Found == false) Package = ""; /* not for this arch */ } // Skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); } if (unlikely(ParseRestrictionsList == true)) { // Parse a restrictions formula which is in disjunctive normal form: // (foo AND bar) OR (blub AND bla) std::vector const profiles = APT::Configuration::getBuildProfiles(); // if the next character is a restriction list, then by default the // dependency does not apply and the conditions have to be checked // if the next character is not a restriction list, then by default the // dependency applies bool applies1 = (*I != '<'); while (I != Stop) { if (*I != '<') break; ++I; // malformed if (unlikely(I == Stop)) return 0; const char *End = I; // if of the prior restriction list is already fulfilled, then // we can just skip to the end of the current list if (applies1) { for (;End != Stop && *End != '>'; ++End); I = ++End; // skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); } else { bool applies2 = true; // all the conditions inside a restriction list have to be // met so once we find one that is not met, we can skip to // the end of this list while (I != Stop) { // look for whitespace or ending '>' // End now points to the character after the current term for (;End != Stop && !isspace_ascii(*End) && *End != '>'; ++End); if (unlikely(End == Stop)) return 0; bool NegRestriction = false; if (*I == '!') { NegRestriction = true; ++I; } std::string const restriction(I, End); if (restriction.empty() == false && profiles.empty() == false && std::find(profiles.begin(), profiles.end(), restriction) != profiles.end()) { if (NegRestriction) { applies2 = false; // since one of the terms does not apply we don't have to check the others for (; End != Stop && *End != '>'; ++End); } } else { if (!NegRestriction) { applies2 = false; // since one of the terms does not apply we don't have to check the others for (; End != Stop && *End != '>'; ++End); } } if (*End++ == '>') { I = End; // skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); break; } I = End; // skip whitespace for (;I != Stop && isspace_ascii(*I) != 0; I++); } if (applies2) { applies1 = true; } } } if (applies1 == false) { Package = ""; //not for this restriction } } if (I != Stop && *I == '|') Op |= pkgCache::Dep::Or; if (I == Stop || *I == ',' || *I == '|') { if (I != Stop) for (I++; I != Stop && isspace_ascii(*I) != 0; I++); return I; } return 0; } /*}}}*/ // ListParser::ParseDepends - Parse a dependency list /*{{{*/ // --------------------------------------------------------------------- /* This is the higher level depends parser. It takes a tag and generates a complete depends tree for the given version. */ bool debListParser::ParseDepends(pkgCache::VerIterator &Ver, pkgTagSection::Key Key,unsigned int Type) { const char *Start; const char *Stop; if (Section.Find(Key,Start,Stop) == false || Start == Stop) return true; string const pkgArch = Ver.Arch(); while (1) { StringView Package; StringView Version; unsigned int Op; Start = ParseDepends(Start, Stop, Package, Version, Op, false, false, false); if (Start == 0) return _error->Error("Problem parsing dependency %zu",static_cast(Key)); // TODO size_t const found = Package.rfind(':'); if (found == string::npos) { if (NewDepends(Ver,Package,pkgArch,Version,Op,Type) == false) return false; } else if (Package.substr(found) == ":any") { if (NewDepends(Ver,Package,"any",Version,Op,Type) == false) return false; } else { // Such dependencies are not supposed to be accepted … // … but this is probably the best thing to do anyway if (Package.substr(found + 1) == "native") { std::string const Pkg = Package.substr(0, found).to_string() + ':' + Ver.Cache()->NativeArch(); if (NewDepends(Ver, Pkg, "any", Version, Op | pkgCache::Dep::ArchSpecific, Type) == false) return false; } else if (NewDepends(Ver, Package, "any", Version, Op | pkgCache::Dep::ArchSpecific, Type) == false) return false; } if (Start == Stop) break; } return true; } /*}}}*/ // ListParser::ParseProvides - Parse the provides list /*{{{*/ // --------------------------------------------------------------------- /* */ bool debListParser::ParseProvides(pkgCache::VerIterator &Ver) { /* it is unlikely, but while parsing dependencies, we might have already picked up multi-arch implicit provides which we do not want to duplicate here */ bool hasProvidesAlready = false; std::string const spzName = Ver.ParentPkg().FullName(false); { for (pkgCache::PrvIterator Prv = Ver.ProvidesList(); Prv.end() == false; ++Prv) { if (Prv.IsMultiArchImplicit() == false || (Prv->Flags & pkgCache::Flag::ArchSpecific) == 0) continue; if (spzName != Prv.OwnerPkg().FullName(false)) continue; hasProvidesAlready = true; break; } } string const Arch = Ver.Arch(); const char *Start; const char *Stop; if (Section.Find(pkgTagSection::Key::Provides,Start,Stop) == true) { StringView Package; StringView Version; unsigned int Op; do { Start = ParseDepends(Start,Stop,Package,Version,Op, false, false, false); const size_t archfound = Package.rfind(':'); if (Start == 0) return _error->Error("Problem parsing Provides line"); if (unlikely(Op != pkgCache::Dep::NoOp && Op != pkgCache::Dep::Equals)) { _error->Warning("Ignoring Provides line with non-equal DepCompareOp for package %s", Package.to_string().c_str()); } else if (archfound != string::npos) { StringView spzArch = Package.substr(archfound + 1); if (spzArch != "any") { if (NewProvides(Ver, Package.substr(0, archfound), spzArch, Version, pkgCache::Flag::MultiArchImplicit | pkgCache::Flag::ArchSpecific) == false) return false; } if (NewProvides(Ver, Package, "any", Version, pkgCache::Flag::ArchSpecific) == false) return false; } else if ((Ver->MultiArch & pkgCache::Version::Foreign) == pkgCache::Version::Foreign) { if (APT::Configuration::checkArchitecture(Arch)) { if (NewProvidesAllArch(Ver, Package, Version, 0) == false) return false; } else if (NewProvides(Ver, Package, Arch, Version, 0) == false) return false; } else { if ((Ver->MultiArch & pkgCache::Version::Allowed) == pkgCache::Version::Allowed) { if (NewProvides(Ver, Package.to_string().append(":any"), "any", Version, pkgCache::Flag::MultiArchImplicit) == false) return false; } if (NewProvides(Ver, Package, Arch, Version, 0) == false) return false; } if (archfound == std::string::npos) { string spzName = Package.to_string(); spzName.push_back(':'); spzName.append(Ver.ParentPkg().Arch()); pkgCache::PkgIterator const spzPkg = Ver.Cache()->FindPkg(spzName, "any"); if (spzPkg.end() == false) { if (NewProvides(Ver, spzName, "any", Version, pkgCache::Flag::MultiArchImplicit | pkgCache::Flag::ArchSpecific) == false) return false; } } } while (Start != Stop); } if (APT::Configuration::checkArchitecture(Arch)) { if ((Ver->MultiArch & pkgCache::Version::Allowed) == pkgCache::Version::Allowed) { string const Package = string(Ver.ParentPkg().Name()).append(":").append("any"); if (NewProvides(Ver, Package, "any", Ver.VerStr(), pkgCache::Flag::MultiArchImplicit) == false) return false; } else if ((Ver->MultiArch & pkgCache::Version::Foreign) == pkgCache::Version::Foreign) { if (NewProvidesAllArch(Ver, Ver.ParentPkg().Name(), Ver.VerStr(), pkgCache::Flag::MultiArchImplicit) == false) return false; } } if (hasProvidesAlready == false) { pkgCache::PkgIterator const spzPkg = Ver.Cache()->FindPkg(spzName, "any"); if (spzPkg.end() == false) { if (NewProvides(Ver, spzName, "any", Ver.VerStr(), pkgCache::Flag::MultiArchImplicit | pkgCache::Flag::ArchSpecific) == false) return false; } } return true; } /*}}}*/ // ListParser::GrabWord - Matches a word and returns /*{{{*/ // --------------------------------------------------------------------- /* Looks for a word in a list of words - for ParseStatus */ bool debListParser::GrabWord(StringView Word, WordList const *List, unsigned char &Out) { for (unsigned int C = 0; List[C].Str.empty() == false; C++) { if (Word.length() == List[C].Str.length() && strncasecmp(Word.data(), List[C].Str.data(), Word.length()) == 0) { Out = List[C].Val; return true; } } return false; } /*}}}*/ // ListParser::Step - Move to the next section in the file /*{{{*/ // --------------------------------------------------------------------- /* This has to be careful to only process the correct architecture */ bool debListParser::Step() { iOffset = Tags.Offset(); return Tags.Step(Section); } /*}}}*/ // ListParser::GetPrio - Convert the priority from a string /*{{{*/ // --------------------------------------------------------------------- /* */ unsigned char debListParser::GetPrio(string Str) { unsigned char Out; if (GrabWord(Str,PrioList,Out) == false) Out = pkgCache::State::Extra; return Out; } /*}}}*/ bool debListParser::SameVersion(unsigned short const Hash, /*{{{*/ pkgCache::VerIterator const &Ver) { if (pkgCacheListParser::SameVersion(Hash, Ver) == false) return false; // status file has no (Download)Size, but all others are fair game // status file is parsed last, so the first version we encounter is // probably also the version we have downloaded unsigned long long const Size = Section.FindULL(pkgTagSection::Key::Size); if (Size != 0 && Ver->Size != 0 && Size != Ver->Size) return false; // available everywhere, but easier to check here than to include in VersionHash unsigned char MultiArch = ParseMultiArch(false); if (MultiArch != Ver->MultiArch) return false; // for all practical proposes (we can check): same version return true; } /*}}}*/ debDebFileParser::debDebFileParser(FileFd *File, std::string const &DebFile) : debListParser(File), DebFile(DebFile) { } bool debDebFileParser::UsePackage(pkgCache::PkgIterator &Pkg, pkgCache::VerIterator &Ver) { bool res = debListParser::UsePackage(Pkg, Ver); // we use the full file path as a provides so that the file is found // by its name if(NewProvides(Ver, DebFile, Pkg.Cache()->NativeArch(), Ver.VerStr(), 0) == false) return false; return res; } debListParser::~debListParser() {}