/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmBinUtilsMacOSMachOLinker.h" #include "cmAlgorithms.h" #include "cmBinUtilsMacOSMachOOToolGetRuntimeDependenciesTool.h" #include "cmRuntimeDependencyArchive.h" #include "cmSystemTools.h" #include #include #include cmBinUtilsMacOSMachOLinker::cmBinUtilsMacOSMachOLinker( cmRuntimeDependencyArchive* archive) : cmBinUtilsLinker(archive) { } bool cmBinUtilsMacOSMachOLinker::Prepare() { std::string tool = this->Archive->GetGetRuntimeDependenciesTool(); if (tool.empty()) { tool = "otool"; } if (tool == "otool") { this->Tool = cm::make_unique( this->Archive); } else { std::ostringstream e; e << "Invalid value for CMAKE_GET_RUNTIME_DEPENDENCIES_TOOL: " << tool; this->SetError(e.str()); return false; } return true; } bool cmBinUtilsMacOSMachOLinker::ScanDependencies( std::string const& file, cmStateEnums::TargetType type) { std::string executableFile; if (type == cmStateEnums::EXECUTABLE) { executableFile = file; } else { executableFile = this->Archive->GetBundleExecutable(); } std::string executablePath; if (!executableFile.empty()) { executablePath = cmSystemTools::GetFilenamePath(executableFile); } return this->ScanDependencies(file, executablePath); } bool cmBinUtilsMacOSMachOLinker::ScanDependencies( std::string const& file, std::string const& executablePath) { std::vector libs, rpaths; if (!this->Tool->GetFileInfo(file, libs, rpaths)) { return false; } std::string loaderPath = cmSystemTools::GetFilenamePath(file); return this->GetFileDependencies(libs, executablePath, loaderPath, rpaths); } bool cmBinUtilsMacOSMachOLinker::GetFileDependencies( std::vector const& names, std::string const& executablePath, std::string const& loaderPath, std::vector const& rpaths) { for (std::string const& name : names) { if (!this->Archive->IsPreExcluded(name)) { std::string path; bool resolved; if (!this->ResolveDependency(name, executablePath, loaderPath, rpaths, path, resolved)) { return false; } if (resolved) { if (!this->Archive->IsPostExcluded(path)) { auto filename = cmSystemTools::GetFilenameName(path); bool unique; this->Archive->AddResolvedPath(filename, path, unique); if (unique && !this->ScanDependencies(path, executablePath)) { return false; } } } else { this->Archive->AddUnresolvedPath(name); } } } return true; } bool cmBinUtilsMacOSMachOLinker::ResolveDependency( std::string const& name, std::string const& executablePath, std::string const& loaderPath, std::vector const& rpaths, std::string& path, bool& resolved) { resolved = false; if (cmHasLiteralPrefix(name, "@rpath/")) { if (!this->ResolveRPathDependency(name, executablePath, loaderPath, rpaths, path, resolved)) { return false; } } else if (cmHasLiteralPrefix(name, "@loader_path/")) { if (!this->ResolveLoaderPathDependency(name, loaderPath, path, resolved)) { return false; } } else if (cmHasLiteralPrefix(name, "@executable_path/")) { if (!this->ResolveExecutablePathDependency(name, executablePath, path, resolved)) { return false; } } else { resolved = true; path = name; } if (resolved && !cmSystemTools::FileIsFullPath(path)) { this->SetError("Resolved path is not absolute"); return false; } return true; } bool cmBinUtilsMacOSMachOLinker::ResolveExecutablePathDependency( std::string const& name, std::string const& executablePath, std::string& path, bool& resolved) { if (executablePath.empty()) { resolved = false; return true; } // 16 is == "@executable_path".length() path = name; path.replace(0, 16, executablePath); if (!cmSystemTools::PathExists(path)) { resolved = false; return true; } resolved = true; return true; } bool cmBinUtilsMacOSMachOLinker::ResolveLoaderPathDependency( std::string const& name, std::string const& loaderPath, std::string& path, bool& resolved) { if (loaderPath.empty()) { resolved = false; return true; } // 12 is "@loader_path".length(); path = name; path.replace(0, 12, loaderPath); if (!cmSystemTools::PathExists(path)) { resolved = false; return true; } resolved = true; return true; } bool cmBinUtilsMacOSMachOLinker::ResolveRPathDependency( std::string const& name, std::string const& executablePath, std::string const& loaderPath, std::vector const& rpaths, std::string& path, bool& resolved) { for (std::string const& rpath : rpaths) { std::string searchFile = name; searchFile.replace(0, 6, rpath); if (cmHasLiteralPrefix(searchFile, "@loader_path/")) { if (!this->ResolveLoaderPathDependency(searchFile, loaderPath, path, resolved)) { return false; } if (resolved) { return true; } } else if (cmHasLiteralPrefix(searchFile, "@executable_path/")) { if (!this->ResolveExecutablePathDependency(searchFile, executablePath, path, resolved)) { return false; } if (resolved) { return true; } } else if (cmSystemTools::PathExists(searchFile)) { /* * paraphrasing @ben.boeckel: * if /b/libB.dylib is supposed to be used, * /a/libbB.dylib will be found first if it exists. CMake tries to * sort rpath directories to avoid this, but sometimes there is no * right answer. * * I believe it is possible to resolve this using otools -l * then checking the LC_LOAD_DYLIB command whose name is * equal to the value of search_file, UNLESS the build * specifically sets the RPath to paths that will match * duplicate libs; at this point can we just point to * user error, or is there a reason why the advantages * to this scenario outweigh its disadvantages? * * Also priority seems to be the order as passed in when compiled * so as long as this method's resolution guarantees priority * in that manner further checking should not be necessary? */ path = searchFile; resolved = true; return true; } } resolved = false; return true; }