/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmFindLibraryCommand.h" #include #include #include #include #include #include "cmGlobalGenerator.h" #include "cmMakefile.h" #include "cmState.h" #include "cmStateTypes.h" #include "cmSystemTools.h" class cmExecutionStatus; cmFindLibraryCommand::cmFindLibraryCommand() { this->EnvironmentPath = "LIB"; this->NamesPerDirAllowed = true; } // cmFindLibraryCommand bool cmFindLibraryCommand::InitialPass(std::vector const& argsIn, cmExecutionStatus&) { this->VariableDocumentation = "Path to a library."; this->CMakePathName = "LIBRARY"; if (!this->ParseArguments(argsIn)) { return false; } if (this->AlreadyInCache) { // If the user specifies the entry on the command line without a // type we should add the type and docstring but keep the original // value. if (this->AlreadyInCacheWithoutMetaInfo) { this->Makefile->AddCacheDefinition(this->VariableName, "", this->VariableDocumentation.c_str(), cmStateEnums::FILEPATH); } return true; } if (this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_LIB32_PATHS")) { // add special 32 bit paths if this is a 32 bit compile. if (this->Makefile->PlatformIs32Bit()) { this->AddArchitecturePaths("32"); } } if (this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_LIB64_PATHS")) { // add special 64 bit paths if this is a 64 bit compile. if (this->Makefile->PlatformIs64Bit()) { this->AddArchitecturePaths("64"); } } std::string library = this->FindLibrary(); if (library != "") { // Save the value in the cache this->Makefile->AddCacheDefinition(this->VariableName, library.c_str(), this->VariableDocumentation.c_str(), cmStateEnums::FILEPATH); return true; } std::string notfound = this->VariableName + "-NOTFOUND"; this->Makefile->AddCacheDefinition(this->VariableName, notfound.c_str(), this->VariableDocumentation.c_str(), cmStateEnums::FILEPATH); return true; } void cmFindLibraryCommand::AddArchitecturePaths(const char* suffix) { std::vector original; original.swap(this->SearchPaths); for (std::vector::const_iterator i = original.begin(); i != original.end(); ++i) { this->AddArchitecturePath(*i, 0, suffix); } } static bool cmLibDirsLinked(std::string const& l, std::string const& r) { // Compare the real paths of the two directories. // Since our caller only changed the trailing component of each // directory, the real paths can be the same only if at least one of // the trailing components is a symlink. Use this as an optimization // to avoid excessive realpath calls. return (cmSystemTools::FileIsSymlink(l) || cmSystemTools::FileIsSymlink(r)) && cmSystemTools::GetRealPath(l) == cmSystemTools::GetRealPath(r); } void cmFindLibraryCommand::AddArchitecturePath( std::string const& dir, std::string::size_type start_pos, const char* suffix, bool fresh) { std::string::size_type pos = dir.find("lib/", start_pos); if (pos != std::string::npos) { // Check for "lib". std::string lib = dir.substr(0, pos + 3); bool use_lib = cmSystemTools::FileIsDirectory(lib); // Check for "lib" and use it first. std::string libX = lib + suffix; bool use_libX = cmSystemTools::FileIsDirectory(libX); // Avoid copies of the same directory due to symlinks. if (use_libX && use_lib && cmLibDirsLinked(libX, lib)) { use_libX = false; } if (use_libX) { libX += dir.substr(pos + 3); std::string::size_type libX_pos = pos + 3 + strlen(suffix) + 1; this->AddArchitecturePath(libX, libX_pos, suffix); } if (use_lib) { this->AddArchitecturePath(dir, pos + 3 + 1, suffix, false); } } if (fresh) { // Check for the original unchanged path. bool use_dir = cmSystemTools::FileIsDirectory(dir); // Check for / and use it first. std::string dirX = dir + suffix; bool use_dirX = cmSystemTools::FileIsDirectory(dirX); // Avoid copies of the same directory due to symlinks. if (use_dirX && use_dir && cmLibDirsLinked(dirX, dir)) { use_dirX = false; } if (use_dirX) { dirX += "/"; this->SearchPaths.push_back(dirX); } if (use_dir) { this->SearchPaths.push_back(dir); } } } std::string cmFindLibraryCommand::FindLibrary() { std::string library; if (this->SearchFrameworkFirst || this->SearchFrameworkOnly) { library = this->FindFrameworkLibrary(); } if (library.empty() && !this->SearchFrameworkOnly) { library = this->FindNormalLibrary(); } if (library.empty() && this->SearchFrameworkLast) { library = this->FindFrameworkLibrary(); } return library; } struct cmFindLibraryHelper { cmFindLibraryHelper(cmMakefile* mf); // Context information. cmMakefile* Makefile; cmGlobalGenerator* GG; // List of valid prefixes and suffixes. std::vector Prefixes; std::vector Suffixes; std::string PrefixRegexStr; std::string SuffixRegexStr; // Keep track of the best library file found so far. typedef std::vector::size_type size_type; std::string BestPath; // Support for OpenBSD shared library naming: lib.so.. bool OpenBSD; // Current names under consideration. struct Name { bool TryRaw; std::string Raw; cmsys::RegularExpression Regex; Name() : TryRaw(false) { } }; std::vector Names; // Current full path under consideration. std::string TestPath; void RegexFromLiteral(std::string& out, std::string const& in); void RegexFromList(std::string& out, std::vector const& in); size_type GetPrefixIndex(std::string const& prefix) { return std::find(this->Prefixes.begin(), this->Prefixes.end(), prefix) - this->Prefixes.begin(); } size_type GetSuffixIndex(std::string const& suffix) { return std::find(this->Suffixes.begin(), this->Suffixes.end(), suffix) - this->Suffixes.begin(); } bool HasValidSuffix(std::string const& name); void AddName(std::string const& name); void SetName(std::string const& name); bool CheckDirectory(std::string const& path); bool CheckDirectoryForName(std::string const& path, Name& name); }; cmFindLibraryHelper::cmFindLibraryHelper(cmMakefile* mf) : Makefile(mf) { this->GG = this->Makefile->GetGlobalGenerator(); // Collect the list of library name prefixes/suffixes to try. const char* prefixes_list = this->Makefile->GetRequiredDefinition("CMAKE_FIND_LIBRARY_PREFIXES"); const char* suffixes_list = this->Makefile->GetRequiredDefinition("CMAKE_FIND_LIBRARY_SUFFIXES"); cmSystemTools::ExpandListArgument(prefixes_list, this->Prefixes, true); cmSystemTools::ExpandListArgument(suffixes_list, this->Suffixes, true); this->RegexFromList(this->PrefixRegexStr, this->Prefixes); this->RegexFromList(this->SuffixRegexStr, this->Suffixes); // Check whether to use OpenBSD-style library version comparisons. this->OpenBSD = this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_OPENBSD_VERSIONING"); } void cmFindLibraryHelper::RegexFromLiteral(std::string& out, std::string const& in) { for (std::string::const_iterator ci = in.begin(); ci != in.end(); ++ci) { char ch = *ci; if (ch == '[' || ch == ']' || ch == '(' || ch == ')' || ch == '\\' || ch == '.' || ch == '*' || ch == '+' || ch == '?' || ch == '-' || ch == '^' || ch == '$') { out += "\\"; } #if defined(_WIN32) || defined(__APPLE__) out += tolower(ch); #else out += ch; #endif } } void cmFindLibraryHelper::RegexFromList(std::string& out, std::vector const& in) { // Surround the list in parens so the '|' does not apply to anything // else and the result can be checked after matching. out += "("; const char* sep = ""; for (std::vector::const_iterator si = in.begin(); si != in.end(); ++si) { // Separate from previous item. out += sep; sep = "|"; // Append this item. this->RegexFromLiteral(out, *si); } out += ")"; } bool cmFindLibraryHelper::HasValidSuffix(std::string const& name) { for (std::vector::const_iterator si = this->Suffixes.begin(); si != this->Suffixes.end(); ++si) { std::string suffix = *si; if (name.length() <= suffix.length()) { continue; } // Check if the given name ends in a valid library suffix. if (name.substr(name.size() - suffix.length()) == suffix) { return true; } // Check if a valid library suffix is somewhere in the name, // this may happen e.g. for versioned shared libraries: libfoo.so.2 suffix += "."; if (name.find(suffix) != name.npos) { return true; } } return false; } void cmFindLibraryHelper::AddName(std::string const& name) { Name entry; // Consider checking the raw name too. entry.TryRaw = this->HasValidSuffix(name); entry.Raw = name; // Build a regular expression to match library names. std::string regex = "^"; regex += this->PrefixRegexStr; this->RegexFromLiteral(regex, name); regex += this->SuffixRegexStr; if (this->OpenBSD) { regex += "(\\.[0-9]+\\.[0-9]+)?"; } regex += "$"; entry.Regex.compile(regex.c_str()); this->Names.push_back(entry); } void cmFindLibraryHelper::SetName(std::string const& name) { this->Names.clear(); this->AddName(name); } bool cmFindLibraryHelper::CheckDirectory(std::string const& path) { for (std::vector::iterator i = this->Names.begin(); i != this->Names.end(); ++i) { if (this->CheckDirectoryForName(path, *i)) { return true; } } return false; } bool cmFindLibraryHelper::CheckDirectoryForName(std::string const& path, Name& name) { // If the original library name provided by the user matches one of // the suffixes, try it first. This allows users to search // specifically for a static library on some platforms (on MS tools // one cannot tell just from the library name whether it is a static // library or an import library). if (name.TryRaw) { this->TestPath = path; this->TestPath += name.Raw; if (cmSystemTools::FileExists(this->TestPath.c_str(), true)) { this->BestPath = cmSystemTools::CollapseFullPath(this->TestPath); cmSystemTools::ConvertToUnixSlashes(this->BestPath); return true; } } // No library file has yet been found. size_type bestPrefix = this->Prefixes.size(); size_type bestSuffix = this->Suffixes.size(); unsigned int bestMajor = 0; unsigned int bestMinor = 0; // Search for a file matching the library name regex. std::string dir = path; cmSystemTools::ConvertToUnixSlashes(dir); std::set const& files = this->GG->GetDirectoryContent(dir); for (std::set::const_iterator fi = files.begin(); fi != files.end(); ++fi) { std::string const& origName = *fi; #if defined(_WIN32) || defined(__APPLE__) std::string testName = cmSystemTools::LowerCase(origName); #else std::string const& testName = origName; #endif if (name.Regex.find(testName)) { this->TestPath = path; this->TestPath += origName; if (!cmSystemTools::FileIsDirectory(this->TestPath)) { // This is a matching file. Check if it is better than the // best name found so far. Earlier prefixes are preferred, // followed by earlier suffixes. For OpenBSD, shared library // version extensions are compared. size_type prefix = this->GetPrefixIndex(name.Regex.match(1)); size_type suffix = this->GetSuffixIndex(name.Regex.match(2)); unsigned int major = 0; unsigned int minor = 0; if (this->OpenBSD) { sscanf(name.Regex.match(3).c_str(), ".%u.%u", &major, &minor); } if (this->BestPath.empty() || prefix < bestPrefix || (prefix == bestPrefix && suffix < bestSuffix) || (prefix == bestPrefix && suffix == bestSuffix && (major > bestMajor || (major == bestMajor && minor > bestMinor)))) { this->BestPath = this->TestPath; bestPrefix = prefix; bestSuffix = suffix; bestMajor = major; bestMinor = minor; } } } } // Use the best candidate found in this directory, if any. return !this->BestPath.empty(); } std::string cmFindLibraryCommand::FindNormalLibrary() { if (this->NamesPerDir) { return this->FindNormalLibraryNamesPerDir(); } return this->FindNormalLibraryDirsPerName(); } std::string cmFindLibraryCommand::FindNormalLibraryNamesPerDir() { // Search for all names in each directory. cmFindLibraryHelper helper(this->Makefile); for (std::vector::const_iterator ni = this->Names.begin(); ni != this->Names.end(); ++ni) { helper.AddName(*ni); } // Search every directory. for (std::vector::const_iterator p = this->SearchPaths.begin(); p != this->SearchPaths.end(); ++p) { if (helper.CheckDirectory(*p)) { return helper.BestPath; } } // Couldn't find the library. return ""; } std::string cmFindLibraryCommand::FindNormalLibraryDirsPerName() { // Search the entire path for each name. cmFindLibraryHelper helper(this->Makefile); for (std::vector::const_iterator ni = this->Names.begin(); ni != this->Names.end(); ++ni) { // Switch to searching for this name. helper.SetName(*ni); // Search every directory. for (std::vector::const_iterator p = this->SearchPaths.begin(); p != this->SearchPaths.end(); ++p) { if (helper.CheckDirectory(*p)) { return helper.BestPath; } } } // Couldn't find the library. return ""; } std::string cmFindLibraryCommand::FindFrameworkLibrary() { if (this->NamesPerDir) { return this->FindFrameworkLibraryNamesPerDir(); } return this->FindFrameworkLibraryDirsPerName(); } std::string cmFindLibraryCommand::FindFrameworkLibraryNamesPerDir() { std::string fwPath; // Search for all names in each search path. for (std::vector::const_iterator di = this->SearchPaths.begin(); di != this->SearchPaths.end(); ++di) { for (std::vector::const_iterator ni = this->Names.begin(); ni != this->Names.end(); ++ni) { fwPath = *di; fwPath += *ni; fwPath += ".framework"; if (cmSystemTools::FileIsDirectory(fwPath)) { return cmSystemTools::CollapseFullPath(fwPath); } } } // No framework found. return ""; } std::string cmFindLibraryCommand::FindFrameworkLibraryDirsPerName() { std::string fwPath; // Search for each name in all search paths. for (std::vector::const_iterator ni = this->Names.begin(); ni != this->Names.end(); ++ni) { for (std::vector::const_iterator di = this->SearchPaths.begin(); di != this->SearchPaths.end(); ++di) { fwPath = *di; fwPath += *ni; fwPath += ".framework"; if (cmSystemTools::FileIsDirectory(fwPath)) { return cmSystemTools::CollapseFullPath(fwPath); } } } // No framework found. return ""; }