/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmInstallCommand.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "cmsys/Glob.hxx" #include "cmArgumentParser.h" #include "cmArgumentParserTypes.h" #include "cmExecutionStatus.h" #include "cmExportSet.h" #include "cmFileSet.h" #include "cmGeneratorExpression.h" #include "cmGlobalGenerator.h" #include "cmInstallCommandArguments.h" #include "cmInstallCxxModuleBmiGenerator.h" #include "cmInstallDirectoryGenerator.h" #include "cmInstallExportGenerator.h" #include "cmInstallFileSetGenerator.h" #include "cmInstallFilesGenerator.h" #include "cmInstallGenerator.h" #include "cmInstallGetRuntimeDependenciesGenerator.h" #include "cmInstallImportedRuntimeArtifactsGenerator.h" #include "cmInstallRuntimeDependencySet.h" #include "cmInstallRuntimeDependencySetGenerator.h" #include "cmInstallScriptGenerator.h" #include "cmInstallTargetGenerator.h" #include "cmList.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmPolicies.h" #include "cmRange.h" #include "cmRuntimeDependencyArchive.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSubcommandTable.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmTargetExport.h" #include "cmValue.h" class cmListFileBacktrace; namespace { struct RuntimeDependenciesArgs { ArgumentParser::MaybeEmpty> Directories; ArgumentParser::MaybeEmpty> PreIncludeRegexes; ArgumentParser::MaybeEmpty> PreExcludeRegexes; ArgumentParser::MaybeEmpty> PostIncludeRegexes; ArgumentParser::MaybeEmpty> PostExcludeRegexes; ArgumentParser::MaybeEmpty> PostIncludeFiles; ArgumentParser::MaybeEmpty> PostExcludeFiles; }; auto const RuntimeDependenciesArgHelper = cmArgumentParser{} .Bind("DIRECTORIES"_s, &RuntimeDependenciesArgs::Directories) .Bind("PRE_INCLUDE_REGEXES"_s, &RuntimeDependenciesArgs::PreIncludeRegexes) .Bind("PRE_EXCLUDE_REGEXES"_s, &RuntimeDependenciesArgs::PreExcludeRegexes) .Bind("POST_INCLUDE_REGEXES"_s, &RuntimeDependenciesArgs::PostIncludeRegexes) .Bind("POST_EXCLUDE_REGEXES"_s, &RuntimeDependenciesArgs::PostExcludeRegexes) .Bind("POST_INCLUDE_FILES"_s, &RuntimeDependenciesArgs::PostIncludeFiles) .Bind("POST_EXCLUDE_FILES"_s, &RuntimeDependenciesArgs::PostExcludeFiles); class Helper { public: Helper(cmExecutionStatus& status) : Status(status) , Makefile(&status.GetMakefile()) { this->DefaultComponentName = this->Makefile->GetSafeDefinition( "CMAKE_INSTALL_DEFAULT_COMPONENT_NAME"); if (this->DefaultComponentName.empty()) { this->DefaultComponentName = "Unspecified"; } } void SetError(std::string const& err) { this->Status.SetError(err); } bool MakeFilesFullPath(const char* modeName, const std::vector& relFiles, std::vector& absFiles); bool MakeFilesFullPath(const char* modeName, const std::string& basePath, const std::vector& relFiles, std::vector& absFiles); bool CheckCMP0006(bool& failure) const; std::string GetDestination(const cmInstallCommandArguments* args, const std::string& varName, const std::string& guess) const; std::string GetRuntimeDestination( const cmInstallCommandArguments* args) const; std::string GetSbinDestination(const cmInstallCommandArguments* args) const; std::string GetArchiveDestination( const cmInstallCommandArguments* args) const; std::string GetLibraryDestination( const cmInstallCommandArguments* args) const; std::string GetCxxModulesBmiDestination( const cmInstallCommandArguments* args) const; std::string GetIncludeDestination( const cmInstallCommandArguments* args) const; std::string GetSysconfDestination( const cmInstallCommandArguments* args) const; std::string GetSharedStateDestination( const cmInstallCommandArguments* args) const; std::string GetLocalStateDestination( const cmInstallCommandArguments* args) const; std::string GetRunStateDestination( const cmInstallCommandArguments* args) const; std::string GetDataRootDestination( const cmInstallCommandArguments* args) const; std::string GetDataDestination(const cmInstallCommandArguments* args) const; std::string GetInfoDestination(const cmInstallCommandArguments* args) const; std::string GetLocaleDestination( const cmInstallCommandArguments* args) const; std::string GetManDestination(const cmInstallCommandArguments* args) const; std::string GetDocDestination(const cmInstallCommandArguments* args) const; std::string GetDestinationForType(const cmInstallCommandArguments* args, const std::string& type) const; cmExecutionStatus& Status; cmMakefile* Makefile; std::string DefaultComponentName; }; std::unique_ptr CreateInstallTargetGenerator( cmTarget& target, const cmInstallCommandArguments& args, bool impLib, cmListFileBacktrace const& backtrace, const std::string& destination, bool forceOpt = false, bool namelink = false) { cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(target.GetMakefile()); target.SetHaveInstallRule(true); const std::string& component = namelink ? args.GetNamelinkComponent() : args.GetComponent(); auto g = cm::make_unique( target.GetName(), destination, impLib, args.GetPermissions(), args.GetConfigurations(), component, message, args.GetExcludeFromAll(), args.GetOptional() || forceOpt, backtrace); target.AddInstallGenerator(g.get()); return g; } std::unique_ptr CreateInstallTargetGenerator( cmTarget& target, const cmInstallCommandArguments& args, bool impLib, cmListFileBacktrace const& backtrace, bool forceOpt = false, bool namelink = false) { return CreateInstallTargetGenerator(target, args, impLib, backtrace, args.GetDestination(), forceOpt, namelink); } std::unique_ptr CreateInstallFilesGenerator( cmMakefile* mf, const std::vector& absFiles, const cmInstallCommandArguments& args, bool programs, const std::string& destination) { cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(mf); return cm::make_unique( absFiles, destination, programs, args.GetPermissions(), args.GetConfigurations(), args.GetComponent(), message, args.GetExcludeFromAll(), args.GetRename(), args.GetOptional(), mf->GetBacktrace()); } std::unique_ptr CreateInstallFilesGenerator( cmMakefile* mf, const std::vector& absFiles, const cmInstallCommandArguments& args, bool programs) { return CreateInstallFilesGenerator(mf, absFiles, args, programs, args.GetDestination()); } std::unique_ptr CreateInstallFileSetGenerator( Helper& helper, cmTarget& target, cmFileSet* fileSet, const std::string& destination, const cmInstallCommandArguments& args) { cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(helper.Makefile); return cm::make_unique( target.GetName(), fileSet, destination, args.GetPermissions(), args.GetConfigurations(), args.GetComponent(), message, args.GetExcludeFromAll(), args.GetOptional(), helper.Makefile->GetBacktrace()); } void AddInstallRuntimeDependenciesGenerator( Helper& helper, cmInstallRuntimeDependencySet* runtimeDependencySet, const cmInstallCommandArguments& runtimeArgs, const cmInstallCommandArguments& libraryArgs, const cmInstallCommandArguments& frameworkArgs, RuntimeDependenciesArgs runtimeDependenciesArgs, bool& installsRuntime, bool& installsLibrary, bool& installsFramework) { bool dllPlatform = !helper.Makefile->GetSafeDefinition("CMAKE_IMPORT_LIBRARY_SUFFIX").empty(); bool apple = helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME") == "Darwin"; auto const& runtimeDependenciesArgsRef = dllPlatform ? runtimeArgs : libraryArgs; std::vector configurations = runtimeDependenciesArgsRef.GetConfigurations(); if (apple) { std::copy(frameworkArgs.GetConfigurations().begin(), frameworkArgs.GetConfigurations().end(), std::back_inserter(configurations)); } // Create file(GET_RUNTIME_DEPENDENCIES) generator. auto getRuntimeDependenciesGenerator = cm::make_unique( runtimeDependencySet, std::move(runtimeDependenciesArgs.Directories), std::move(runtimeDependenciesArgs.PreIncludeRegexes), std::move(runtimeDependenciesArgs.PreExcludeRegexes), std::move(runtimeDependenciesArgs.PostIncludeRegexes), std::move(runtimeDependenciesArgs.PostExcludeRegexes), std::move(runtimeDependenciesArgs.PostIncludeFiles), std::move(runtimeDependenciesArgs.PostExcludeFiles), runtimeDependenciesArgsRef.GetComponent(), apple ? frameworkArgs.GetComponent() : "", true, "_CMAKE_DEPS", "_CMAKE_RPATH", configurations, cmInstallGenerator::SelectMessageLevel(helper.Makefile), runtimeDependenciesArgsRef.GetExcludeFromAll() && (apple ? frameworkArgs.GetExcludeFromAll() : true), helper.Makefile->GetBacktrace()); helper.Makefile->AddInstallGenerator( std::move(getRuntimeDependenciesGenerator)); // Create the library dependencies generator. auto libraryRuntimeDependenciesGenerator = cm::make_unique( cmInstallRuntimeDependencySetGenerator::DependencyType::Library, runtimeDependencySet, std::vector{}, true, std::string{}, true, "_CMAKE_DEPS", "_CMAKE_RPATH", "_CMAKE_TMP", dllPlatform ? helper.GetRuntimeDestination(&runtimeArgs) : helper.GetLibraryDestination(&libraryArgs), runtimeDependenciesArgsRef.GetConfigurations(), runtimeDependenciesArgsRef.GetComponent(), runtimeDependenciesArgsRef.GetPermissions(), cmInstallGenerator::SelectMessageLevel(helper.Makefile), runtimeDependenciesArgsRef.GetExcludeFromAll(), helper.Makefile->GetBacktrace()); helper.Makefile->AddInstallGenerator( std::move(libraryRuntimeDependenciesGenerator)); if (dllPlatform) { installsRuntime = true; } else { installsLibrary = true; } if (apple) { // Create the framework dependencies generator. auto frameworkRuntimeDependenciesGenerator = cm::make_unique( cmInstallRuntimeDependencySetGenerator::DependencyType::Framework, runtimeDependencySet, std::vector{}, true, std::string{}, true, "_CMAKE_DEPS", "_CMAKE_RPATH", "_CMAKE_TMP", frameworkArgs.GetDestination(), frameworkArgs.GetConfigurations(), frameworkArgs.GetComponent(), frameworkArgs.GetPermissions(), cmInstallGenerator::SelectMessageLevel(helper.Makefile), frameworkArgs.GetExcludeFromAll(), helper.Makefile->GetBacktrace()); helper.Makefile->AddInstallGenerator( std::move(frameworkRuntimeDependenciesGenerator)); installsFramework = true; } } std::set const allowedTypes{ "BIN", "SBIN", "LIB", "INCLUDE", "SYSCONF", "SHAREDSTATE", "LOCALSTATE", "RUNSTATE", "DATA", "INFO", "LOCALE", "MAN", "DOC", }; template bool AddBundleExecutable(Helper& helper, cmInstallRuntimeDependencySet* runtimeDependencySet, T&& bundleExecutable) { if (!runtimeDependencySet->AddBundleExecutable(bundleExecutable)) { helper.SetError( "A runtime dependency set may only have one bundle executable."); return false; } return true; } bool HandleScriptMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); std::string component = helper.DefaultComponentName; int componentCount = 0; bool doing_script = false; bool doing_code = false; bool exclude_from_all = false; bool all_components = false; // Scan the args once for COMPONENT. Only allow one. // for (size_t i = 0; i < args.size(); ++i) { if (args[i] == "COMPONENT" && i + 1 < args.size()) { ++componentCount; ++i; component = args[i]; } if (args[i] == "EXCLUDE_FROM_ALL") { exclude_from_all = true; } else if (args[i] == "ALL_COMPONENTS") { all_components = true; } } if (componentCount > 1) { status.SetError("given more than one COMPONENT for the SCRIPT or CODE " "signature of the INSTALL command. " "Use multiple INSTALL commands with one COMPONENT each."); return false; } if (all_components && componentCount == 1) { status.SetError("ALL_COMPONENTS and COMPONENT are mutually exclusive"); return false; } // Scan the args again, this time adding install generators each time we // encounter a SCRIPT or CODE arg: // for (std::string const& arg : args) { if (arg == "SCRIPT") { doing_script = true; doing_code = false; } else if (arg == "CODE") { doing_script = false; doing_code = true; } else if (arg == "COMPONENT") { doing_script = false; doing_code = false; } else if (doing_script) { doing_script = false; std::string script = arg; if (!cmHasLiteralPrefix(script, "$")) { if (!cmSystemTools::FileIsFullPath(script)) { script = cmStrCat(helper.Makefile->GetCurrentSourceDirectory(), '/', arg); } if (cmSystemTools::FileIsDirectory(script)) { status.SetError("given a directory as value of SCRIPT argument."); return false; } } helper.Makefile->AddInstallGenerator( cm::make_unique( script, false, component, exclude_from_all, all_components, helper.Makefile->GetBacktrace())); } else if (doing_code) { doing_code = false; std::string const& code = arg; helper.Makefile->AddInstallGenerator( cm::make_unique( code, true, component, exclude_from_all, all_components, helper.Makefile->GetBacktrace())); } } if (doing_script) { status.SetError("given no value for SCRIPT argument."); return false; } if (doing_code) { status.SetError("given no value for CODE argument."); return false; } // Tell the global generator about any installation component names // specified. helper.Makefile->GetGlobalGenerator()->AddInstallComponent(component); return true; } bool HandleTargetsMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); // This is the TARGETS mode. std::vector targets; struct ArgVectors { ArgumentParser::MaybeEmpty> Archive; ArgumentParser::MaybeEmpty> Library; ArgumentParser::MaybeEmpty> Runtime; ArgumentParser::MaybeEmpty> Object; ArgumentParser::MaybeEmpty> Framework; ArgumentParser::MaybeEmpty> Bundle; ArgumentParser::MaybeEmpty> Includes; ArgumentParser::MaybeEmpty> PrivateHeader; ArgumentParser::MaybeEmpty> PublicHeader; ArgumentParser::MaybeEmpty> Resource; ArgumentParser::MaybeEmpty> CxxModulesBmi; std::vector> FileSets; }; static auto const argHelper = cmArgumentParser{} .Bind("ARCHIVE"_s, &ArgVectors::Archive) .Bind("LIBRARY"_s, &ArgVectors::Library) .Bind("RUNTIME"_s, &ArgVectors::Runtime) .Bind("OBJECTS"_s, &ArgVectors::Object) .Bind("FRAMEWORK"_s, &ArgVectors::Framework) .Bind("BUNDLE"_s, &ArgVectors::Bundle) .Bind("INCLUDES"_s, &ArgVectors::Includes) .Bind("PRIVATE_HEADER"_s, &ArgVectors::PrivateHeader) .Bind("PUBLIC_HEADER"_s, &ArgVectors::PublicHeader) .Bind("RESOURCE"_s, &ArgVectors::Resource) .Bind("FILE_SET"_s, &ArgVectors::FileSets) .Bind("CXX_MODULES_BMI"_s, &ArgVectors::CxxModulesBmi); std::vector genericArgVector; ArgVectors const argVectors = argHelper.Parse(args, &genericArgVector); // now parse the generic args (i.e. the ones not specialized on LIBRARY/ // ARCHIVE, RUNTIME etc. (see above) // These generic args also contain the targets and the export stuff ArgumentParser::MaybeEmpty> targetList; std::string exports; cm::optional>> runtimeDependenciesArgVector; std::string runtimeDependencySetArg; std::vector unknownArgs; cmInstallCommandArguments genericArgs(helper.DefaultComponentName); genericArgs.Bind("TARGETS"_s, targetList); genericArgs.Bind("EXPORT"_s, exports); genericArgs.Bind("RUNTIME_DEPENDENCIES"_s, runtimeDependenciesArgVector); genericArgs.Bind("RUNTIME_DEPENDENCY_SET"_s, runtimeDependencySetArg); genericArgs.Parse(genericArgVector, &unknownArgs); bool success = genericArgs.Finalize(); RuntimeDependenciesArgs runtimeDependenciesArgs = runtimeDependenciesArgVector ? RuntimeDependenciesArgHelper.Parse(*runtimeDependenciesArgVector, &unknownArgs) : RuntimeDependenciesArgs(); cmInstallCommandArguments archiveArgs(helper.DefaultComponentName); cmInstallCommandArguments libraryArgs(helper.DefaultComponentName); cmInstallCommandArguments runtimeArgs(helper.DefaultComponentName); cmInstallCommandArguments objectArgs(helper.DefaultComponentName); cmInstallCommandArguments frameworkArgs(helper.DefaultComponentName); cmInstallCommandArguments bundleArgs(helper.DefaultComponentName); cmInstallCommandArguments privateHeaderArgs(helper.DefaultComponentName); cmInstallCommandArguments publicHeaderArgs(helper.DefaultComponentName); cmInstallCommandArguments resourceArgs(helper.DefaultComponentName); cmInstallCommandIncludesArgument includesArgs; std::vector fileSetArgs( argVectors.FileSets.size(), { helper.DefaultComponentName }); cmInstallCommandArguments cxxModuleBmiArgs(helper.DefaultComponentName); // now parse the args for specific parts of the target (e.g. LIBRARY, // RUNTIME, ARCHIVE etc. archiveArgs.Parse(argVectors.Archive, &unknownArgs); libraryArgs.Parse(argVectors.Library, &unknownArgs); runtimeArgs.Parse(argVectors.Runtime, &unknownArgs); objectArgs.Parse(argVectors.Object, &unknownArgs); frameworkArgs.Parse(argVectors.Framework, &unknownArgs); bundleArgs.Parse(argVectors.Bundle, &unknownArgs); privateHeaderArgs.Parse(argVectors.PrivateHeader, &unknownArgs); publicHeaderArgs.Parse(argVectors.PublicHeader, &unknownArgs); resourceArgs.Parse(argVectors.Resource, &unknownArgs); includesArgs.Parse(&argVectors.Includes, &unknownArgs); cxxModuleBmiArgs.Parse(argVectors.CxxModulesBmi, &unknownArgs); for (std::size_t i = 0; i < argVectors.FileSets.size(); i++) { // We have to create a separate object for the parsing because // cmArgumentParser::Bind() binds to a specific address, but the // objects in the vector can move around. So we parse in an object with a // fixed address and then copy the data into the vector. cmInstallCommandFileSetArguments fileSetArg(helper.DefaultComponentName); fileSetArg.Parse(argVectors.FileSets[i], &unknownArgs); fileSetArgs[i] = std::move(fileSetArg); } if (!unknownArgs.empty()) { // Unknown argument. status.SetError( cmStrCat("TARGETS given unknown argument \"", unknownArgs[0], "\".")); return false; } // apply generic args archiveArgs.SetGenericArguments(&genericArgs); libraryArgs.SetGenericArguments(&genericArgs); runtimeArgs.SetGenericArguments(&genericArgs); objectArgs.SetGenericArguments(&genericArgs); frameworkArgs.SetGenericArguments(&genericArgs); bundleArgs.SetGenericArguments(&genericArgs); privateHeaderArgs.SetGenericArguments(&genericArgs); publicHeaderArgs.SetGenericArguments(&genericArgs); resourceArgs.SetGenericArguments(&genericArgs); for (auto& fileSetArg : fileSetArgs) { fileSetArg.SetGenericArguments(&genericArgs); } cxxModuleBmiArgs.SetGenericArguments(&genericArgs); success = success && archiveArgs.Finalize(); success = success && libraryArgs.Finalize(); success = success && runtimeArgs.Finalize(); success = success && objectArgs.Finalize(); success = success && frameworkArgs.Finalize(); success = success && bundleArgs.Finalize(); success = success && privateHeaderArgs.Finalize(); success = success && publicHeaderArgs.Finalize(); success = success && resourceArgs.Finalize(); success = success && cxxModuleBmiArgs.Finalize(); for (auto& fileSetArg : fileSetArgs) { success = success && fileSetArg.Finalize(); } if (!success) { return false; } // Enforce argument rules too complex to specify for the // general-purpose parser. if (runtimeArgs.GetNamelinkOnly() || objectArgs.GetNamelinkOnly() || frameworkArgs.GetNamelinkOnly() || bundleArgs.GetNamelinkOnly() || privateHeaderArgs.GetNamelinkOnly() || publicHeaderArgs.GetNamelinkOnly() || resourceArgs.GetNamelinkOnly() || std::any_of(fileSetArgs.begin(), fileSetArgs.end(), [](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return fileSetArg.GetNamelinkOnly(); }) || cxxModuleBmiArgs.GetNamelinkOnly()) { status.SetError( "TARGETS given NAMELINK_ONLY option not in LIBRARY or ARCHIVE group. " "The NAMELINK_ONLY option may be specified only following LIBRARY or " "ARCHIVE."); return false; } if (runtimeArgs.GetNamelinkSkip() || objectArgs.GetNamelinkSkip() || frameworkArgs.GetNamelinkSkip() || bundleArgs.GetNamelinkSkip() || privateHeaderArgs.GetNamelinkSkip() || publicHeaderArgs.GetNamelinkSkip() || resourceArgs.GetNamelinkSkip() || std::any_of(fileSetArgs.begin(), fileSetArgs.end(), [](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return fileSetArg.GetNamelinkSkip(); }) || cxxModuleBmiArgs.GetNamelinkSkip()) { status.SetError( "TARGETS given NAMELINK_SKIP option not in LIBRARY or ARCHIVE group. " "The NAMELINK_SKIP option may be specified only following LIBRARY or " "ARCHIVE."); return false; } if (runtimeArgs.HasNamelinkComponent() || objectArgs.HasNamelinkComponent() || frameworkArgs.HasNamelinkComponent() || bundleArgs.HasNamelinkComponent() || privateHeaderArgs.HasNamelinkComponent() || publicHeaderArgs.HasNamelinkComponent() || resourceArgs.HasNamelinkComponent() || std::any_of(fileSetArgs.begin(), fileSetArgs.end(), [](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return fileSetArg.HasNamelinkComponent(); }) || cxxModuleBmiArgs.HasNamelinkComponent()) { status.SetError( "TARGETS given NAMELINK_COMPONENT option not in LIBRARY or ARCHIVE " "group. The NAMELINK_COMPONENT option may be specified only following " "LIBRARY or ARCHIVE."); return false; } if (libraryArgs.GetNamelinkOnly() && libraryArgs.GetNamelinkSkip()) { status.SetError("TARGETS given NAMELINK_ONLY and NAMELINK_SKIP. " "At most one of these two options may be specified."); return false; } if (!genericArgs.GetType().empty() || !archiveArgs.GetType().empty() || !libraryArgs.GetType().empty() || !runtimeArgs.GetType().empty() || !objectArgs.GetType().empty() || !frameworkArgs.GetType().empty() || !bundleArgs.GetType().empty() || !privateHeaderArgs.GetType().empty() || !publicHeaderArgs.GetType().empty() || !resourceArgs.GetType().empty() || std::any_of(fileSetArgs.begin(), fileSetArgs.end(), [](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return !fileSetArg.GetType().empty(); }) || !cxxModuleBmiArgs.GetType().empty()) { status.SetError( "TARGETS given TYPE option. The TYPE option may only be specified in " " install(FILES) and install(DIRECTORIES)."); return false; } if (std::any_of(fileSetArgs.begin(), fileSetArgs.end(), [](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return fileSetArg.GetFileSet().empty(); })) { status.SetError("TARGETS given FILE_SET option without file set name."); return false; } cmInstallRuntimeDependencySet* runtimeDependencySet = nullptr; if (runtimeDependenciesArgVector) { if (!runtimeDependencySetArg.empty()) { status.SetError("TARGETS cannot have both RUNTIME_DEPENDENCIES and " "RUNTIME_DEPENDENCY_SET."); return false; } auto system = helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME"); if (!cmRuntimeDependencyArchive::PlatformSupportsRuntimeDependencies( system)) { status.SetError( cmStrCat("TARGETS RUNTIME_DEPENDENCIES is not supported on system \"", system, '"')); return false; } if (helper.Makefile->IsOn("CMAKE_CROSSCOMPILING")) { status.SetError("TARGETS RUNTIME_DEPENDENCIES is not supported " "when cross-compiling."); return false; } if (helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME") == "Darwin" && frameworkArgs.GetDestination().empty()) { status.SetError( "TARGETS RUNTIME_DEPENDENCIES given no FRAMEWORK DESTINATION"); return false; } runtimeDependencySet = helper.Makefile->GetGlobalGenerator() ->CreateAnonymousRuntimeDependencySet(); } else if (!runtimeDependencySetArg.empty()) { auto system = helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME"); if (!cmRuntimeDependencyArchive::PlatformSupportsRuntimeDependencies( system)) { status.SetError(cmStrCat( "TARGETS RUNTIME_DEPENDENCY_SET is not supported on system \"", system, '"')); return false; } runtimeDependencySet = helper.Makefile->GetGlobalGenerator()->GetNamedRuntimeDependencySet( runtimeDependencySetArg); } // Select the mode for installing symlinks to versioned shared libraries. cmInstallTargetGenerator::NamelinkModeType namelinkMode = cmInstallTargetGenerator::NamelinkModeNone; if (libraryArgs.GetNamelinkOnly()) { namelinkMode = cmInstallTargetGenerator::NamelinkModeOnly; } else if (libraryArgs.GetNamelinkSkip()) { namelinkMode = cmInstallTargetGenerator::NamelinkModeSkip; } // Select the mode for installing symlinks to versioned imported libraries. cmInstallTargetGenerator::NamelinkModeType importlinkMode = cmInstallTargetGenerator::NamelinkModeNone; if (archiveArgs.GetNamelinkOnly()) { importlinkMode = cmInstallTargetGenerator::NamelinkModeOnly; } else if (archiveArgs.GetNamelinkSkip()) { importlinkMode = cmInstallTargetGenerator::NamelinkModeSkip; } // Check if there is something to do. if (targetList.empty()) { return true; } for (std::string const& tgt : targetList) { if (helper.Makefile->IsAlias(tgt)) { status.SetError( cmStrCat("TARGETS given target \"", tgt, "\" which is an alias.")); return false; } // Lookup this target in the current directory. cmTarget* target = helper.Makefile->FindLocalNonAliasTarget(tgt); if (!target) { // If no local target has been found, find it in the global scope. cmTarget* const global_target = helper.Makefile->GetGlobalGenerator()->FindTarget(tgt, true); if (global_target && !global_target->IsImported()) { target = global_target; } } if (target) { // Found the target. Check its type. if (target->GetType() != cmStateEnums::EXECUTABLE && target->GetType() != cmStateEnums::STATIC_LIBRARY && target->GetType() != cmStateEnums::SHARED_LIBRARY && target->GetType() != cmStateEnums::MODULE_LIBRARY && target->GetType() != cmStateEnums::OBJECT_LIBRARY && target->GetType() != cmStateEnums::INTERFACE_LIBRARY) { status.SetError( cmStrCat("TARGETS given target \"", tgt, "\" which is not an executable, library, or module.")); return false; } // Store the target in the list to be installed. targets.push_back(target); } else { // Did not find the target. status.SetError( cmStrCat("TARGETS given target \"", tgt, "\" which does not exist.")); return false; } } // Keep track of whether we will be performing an installation of // any files of the given type. bool installsArchive = false; bool installsLibrary = false; bool installsNamelink = false; bool installsImportlink = false; bool installsRuntime = false; bool installsObject = false; bool installsFramework = false; bool installsBundle = false; bool installsPrivateHeader = false; bool installsPublicHeader = false; bool installsResource = false; std::vector installsFileSet(fileSetArgs.size(), false); bool installsCxxModuleBmi = false; // Generate install script code to install the given targets. for (cmTarget* ti : targets) { // Handle each target type. cmTarget& target = *ti; std::unique_ptr archiveGenerator; std::unique_ptr libraryGenerator; std::unique_ptr namelinkGenerator; std::unique_ptr importlinkGenerator; std::unique_ptr runtimeGenerator; std::unique_ptr objectGenerator; std::unique_ptr frameworkGenerator; std::unique_ptr bundleGenerator; std::unique_ptr privateHeaderGenerator; std::unique_ptr publicHeaderGenerator; std::unique_ptr resourceGenerator; std::vector> fileSetGenerators; std::unique_ptr cxxModuleBmiGenerator; // Avoid selecting default destinations for PUBLIC_HEADER and // PRIVATE_HEADER if any artifacts are specified. bool artifactsSpecified = false; // Track whether this is a namelink-only rule. bool namelinkOnly = false; auto addTargetExport = [&]() -> bool { // Add this install rule to an export if one was specified. if (!exports.empty()) { auto interfaceFileSets = target.GetAllInterfaceFileSets(); if (std::any_of( interfaceFileSets.begin(), interfaceFileSets.end(), [=](const std::string& name) -> bool { return !std::any_of( fileSetArgs.begin(), fileSetArgs.end(), [=](const cmInstallCommandFileSetArguments& fileSetArg) -> bool { return fileSetArg.GetFileSet() == name; }); })) { status.SetError(cmStrCat("TARGETS target ", target.GetName(), " is exported but not all of its interface " "file sets are installed")); return false; } auto te = cm::make_unique(); te->TargetName = target.GetName(); te->ArchiveGenerator = archiveGenerator.get(); te->BundleGenerator = bundleGenerator.get(); te->FrameworkGenerator = frameworkGenerator.get(); te->HeaderGenerator = publicHeaderGenerator.get(); te->LibraryGenerator = libraryGenerator.get(); te->RuntimeGenerator = runtimeGenerator.get(); te->ObjectsGenerator = objectGenerator.get(); for (auto const& gen : fileSetGenerators) { te->FileSetGenerators[gen->GetFileSet()] = gen.get(); } te->CxxModuleBmiGenerator = cxxModuleBmiGenerator.get(); target.AddInstallIncludeDirectories( *te, cmMakeRange(includesArgs.GetIncludeDirs())); te->NamelinkOnly = namelinkOnly; helper.Makefile->GetGlobalGenerator() ->GetExportSets()[exports] .AddTargetExport(std::move(te)); } return true; }; switch (target.GetType()) { case cmStateEnums::SHARED_LIBRARY: { // Shared libraries are handled differently on DLL and non-DLL // platforms. All windows platforms are DLL platforms including // cygwin. Currently no other platform is a DLL platform. if (target.IsDLLPlatform()) { // When in namelink only mode skip all libraries on Windows. if (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly) { namelinkOnly = true; if (!addTargetExport()) { return false; } continue; } // This is a DLL platform. if (!archiveArgs.GetDestination().empty()) { // The import library uses the ARCHIVE properties. archiveGenerator = CreateInstallTargetGenerator( target, archiveArgs, true, helper.Makefile->GetBacktrace()); artifactsSpecified = true; } if (!runtimeArgs.GetDestination().empty()) { // The DLL uses the RUNTIME properties. runtimeGenerator = CreateInstallTargetGenerator( target, runtimeArgs, false, helper.Makefile->GetBacktrace()); artifactsSpecified = true; } if (!archiveGenerator && !runtimeGenerator) { archiveGenerator = CreateInstallTargetGenerator( target, archiveArgs, true, helper.Makefile->GetBacktrace(), helper.GetArchiveDestination(nullptr)); runtimeGenerator = CreateInstallTargetGenerator( target, runtimeArgs, false, helper.Makefile->GetBacktrace(), helper.GetRuntimeDestination(nullptr)); } if (runtimeDependencySet && runtimeGenerator) { runtimeDependencySet->AddLibrary(runtimeGenerator.get()); } } else { // This is a non-DLL platform. // If it is marked with FRAMEWORK property use the FRAMEWORK set of // INSTALL properties. Otherwise, use the LIBRARY properties. if (target.IsFrameworkOnApple()) { // When in namelink only mode skip frameworks. if (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly) { namelinkOnly = true; if (!addTargetExport()) { return false; } continue; } // Use the FRAMEWORK properties. if (!frameworkArgs.GetDestination().empty()) { frameworkGenerator = CreateInstallTargetGenerator( target, frameworkArgs, false, helper.Makefile->GetBacktrace()); } else { status.SetError( cmStrCat("TARGETS given no FRAMEWORK DESTINATION for shared " "library FRAMEWORK target \"", target.GetName(), "\".")); return false; } } else { // The shared library uses the LIBRARY properties. if (!libraryArgs.GetDestination().empty()) { artifactsSpecified = true; } if (namelinkMode != cmInstallTargetGenerator::NamelinkModeOnly) { libraryGenerator = CreateInstallTargetGenerator( target, libraryArgs, false, helper.Makefile->GetBacktrace(), helper.GetLibraryDestination(&libraryArgs)); libraryGenerator->SetNamelinkMode( cmInstallTargetGenerator::NamelinkModeSkip); } if (namelinkMode != cmInstallTargetGenerator::NamelinkModeSkip) { namelinkGenerator = CreateInstallTargetGenerator( target, libraryArgs, false, helper.Makefile->GetBacktrace(), helper.GetLibraryDestination(&libraryArgs), false, true); namelinkGenerator->SetNamelinkMode( cmInstallTargetGenerator::NamelinkModeOnly); } namelinkOnly = (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly); if (target.GetMakefile()->PlatformSupportsAppleTextStubs() && target.IsSharedLibraryWithExports()) { // Apple .tbd files use the ARCHIVE properties if (!archiveArgs.GetDestination().empty()) { artifactsSpecified = true; } if (importlinkMode != cmInstallTargetGenerator::NamelinkModeOnly) { archiveGenerator = CreateInstallTargetGenerator( target, archiveArgs, true, helper.Makefile->GetBacktrace(), helper.GetLibraryDestination(&archiveArgs)); archiveGenerator->SetImportlinkMode( cmInstallTargetGenerator::NamelinkModeSkip); } if (importlinkMode != cmInstallTargetGenerator::NamelinkModeSkip) { importlinkGenerator = CreateInstallTargetGenerator( target, archiveArgs, true, helper.Makefile->GetBacktrace(), helper.GetLibraryDestination(&archiveArgs), false, true); importlinkGenerator->SetImportlinkMode( cmInstallTargetGenerator::NamelinkModeOnly); } namelinkOnly = (importlinkMode == cmInstallTargetGenerator::NamelinkModeOnly); } } if (runtimeDependencySet && libraryGenerator) { runtimeDependencySet->AddLibrary(libraryGenerator.get()); } } } break; case cmStateEnums::STATIC_LIBRARY: { // If it is marked with FRAMEWORK property use the FRAMEWORK set of // INSTALL properties. Otherwise, use the LIBRARY properties. if (target.IsFrameworkOnApple()) { // When in namelink only mode skip frameworks. if (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly) { namelinkOnly = true; if (!addTargetExport()) { return false; } continue; } // Use the FRAMEWORK properties. if (!frameworkArgs.GetDestination().empty()) { frameworkGenerator = CreateInstallTargetGenerator( target, frameworkArgs, false, helper.Makefile->GetBacktrace()); } else { status.SetError( cmStrCat("TARGETS given no FRAMEWORK DESTINATION for static " "library FRAMEWORK target \"", target.GetName(), "\".")); return false; } } else { // Static libraries use ARCHIVE properties. if (!archiveArgs.GetDestination().empty()) { artifactsSpecified = true; } archiveGenerator = CreateInstallTargetGenerator( target, archiveArgs, false, helper.Makefile->GetBacktrace(), helper.GetArchiveDestination(&archiveArgs)); } } break; case cmStateEnums::MODULE_LIBRARY: { // Modules use LIBRARY properties. if (!libraryArgs.GetDestination().empty()) { libraryGenerator = CreateInstallTargetGenerator( target, libraryArgs, false, helper.Makefile->GetBacktrace()); libraryGenerator->SetNamelinkMode(namelinkMode); namelinkOnly = (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly); if (runtimeDependencySet) { runtimeDependencySet->AddModule(libraryGenerator.get()); } } else { status.SetError( cmStrCat("TARGETS given no LIBRARY DESTINATION for module " "target \"", target.GetName(), "\".")); return false; } } break; case cmStateEnums::OBJECT_LIBRARY: { // Objects use OBJECT properties. if (!objectArgs.GetDestination().empty()) { // Verify that we know where the objects are to install them. std::string reason; if (!target.HasKnownObjectFileLocation(&reason)) { status.SetError( cmStrCat("TARGETS given OBJECT library \"", target.GetName(), "\" whose objects may not be installed", reason, ".")); return false; } objectGenerator = CreateInstallTargetGenerator( target, objectArgs, false, helper.Makefile->GetBacktrace()); } else { // Installing an OBJECT library without a destination transforms // it to an INTERFACE library. It installs no files but can be // exported. } } break; case cmStateEnums::EXECUTABLE: { if (target.IsAppBundleOnApple()) { // Application bundles use the BUNDLE properties. if (!bundleArgs.GetDestination().empty()) { bundleGenerator = CreateInstallTargetGenerator( target, bundleArgs, false, helper.Makefile->GetBacktrace()); } else if (!runtimeArgs.GetDestination().empty()) { bool failure = false; if (helper.CheckCMP0006(failure)) { // For CMake 2.4 compatibility fallback to the RUNTIME // properties. bundleGenerator = CreateInstallTargetGenerator( target, runtimeArgs, false, helper.Makefile->GetBacktrace()); } else if (failure) { return false; } } if (!bundleGenerator) { status.SetError(cmStrCat("TARGETS given no BUNDLE DESTINATION for " "MACOSX_BUNDLE executable target \"", target.GetName(), "\".")); return false; } if (runtimeDependencySet) { if (!AddBundleExecutable(helper, runtimeDependencySet, bundleGenerator.get())) { return false; } } } else { // Executables use the RUNTIME properties. if (!runtimeArgs.GetDestination().empty()) { artifactsSpecified = true; } runtimeGenerator = CreateInstallTargetGenerator( target, runtimeArgs, false, helper.Makefile->GetBacktrace(), helper.GetRuntimeDestination(&runtimeArgs)); if (runtimeDependencySet) { runtimeDependencySet->AddExecutable(runtimeGenerator.get()); } } // On DLL platforms an executable may also have an import // library. Install it to the archive destination if it // exists. if ((target.IsDLLPlatform() || target.IsAIX()) && !archiveArgs.GetDestination().empty() && target.IsExecutableWithExports()) { // The import library uses the ARCHIVE properties. artifactsSpecified = true; archiveGenerator = CreateInstallTargetGenerator( target, archiveArgs, true, helper.Makefile->GetBacktrace(), true); } } break; case cmStateEnums::INTERFACE_LIBRARY: // Nothing to do. An INTERFACE_LIBRARY can be installed, but the // only effect of that is to make it exportable. It installs no // other files itself. default: // This should never happen due to the above type check. // Ignore the case. break; } // These well-known sets of files are installed *automatically* for // FRAMEWORK SHARED library targets on the Mac as part of installing the // FRAMEWORK. For other target types or on other platforms, they are not // installed automatically and so we need to create install files // generators for them. bool createInstallGeneratorsForTargetFileSets = true; if (target.IsFrameworkOnApple()) { createInstallGeneratorsForTargetFileSets = false; } if (createInstallGeneratorsForTargetFileSets && !namelinkOnly) { cmValue files = target.GetProperty("PRIVATE_HEADER"); if (cmNonempty(files)) { cmList relFiles{ *files }; std::vector absFiles; if (!helper.MakeFilesFullPath("PRIVATE_HEADER", relFiles, absFiles)) { return false; } // Create the files install generator. if (!artifactsSpecified || !privateHeaderArgs.GetDestination().empty()) { privateHeaderGenerator = CreateInstallFilesGenerator( helper.Makefile, absFiles, privateHeaderArgs, false, helper.GetIncludeDestination(&privateHeaderArgs)); } else { std::ostringstream e; e << "Target " << target.GetName() << " has " << "PRIVATE_HEADER files but no PRIVATE_HEADER DESTINATION."; helper.Makefile->IssueMessage(MessageType::AUTHOR_WARNING, e.str()); } } files = target.GetProperty("PUBLIC_HEADER"); if (cmNonempty(files)) { cmList relFiles{ *files }; std::vector absFiles; if (!helper.MakeFilesFullPath("PUBLIC_HEADER", relFiles, absFiles)) { return false; } // Create the files install generator. if (!artifactsSpecified || !publicHeaderArgs.GetDestination().empty()) { publicHeaderGenerator = CreateInstallFilesGenerator( helper.Makefile, absFiles, publicHeaderArgs, false, helper.GetIncludeDestination(&publicHeaderArgs)); } else { std::ostringstream e; e << "Target " << target.GetName() << " has " << "PUBLIC_HEADER files but no PUBLIC_HEADER DESTINATION."; helper.Makefile->IssueMessage(MessageType::AUTHOR_WARNING, e.str()); } } files = target.GetProperty("RESOURCE"); if (cmNonempty(files)) { cmList relFiles{ *files }; std::vector absFiles; if (!helper.MakeFilesFullPath("RESOURCE", relFiles, absFiles)) { return false; } // Create the files install generator. if (!resourceArgs.GetDestination().empty()) { resourceGenerator = CreateInstallFilesGenerator( helper.Makefile, absFiles, resourceArgs, false); } else if (!target.IsAppBundleOnApple()) { helper.Makefile->IssueMessage( MessageType::AUTHOR_WARNING, cmStrCat("Target ", target.GetName(), " has RESOURCE files but no RESOURCE DESTINATION.")); } } } if (!namelinkOnly) { for (std::size_t i = 0; i < fileSetArgs.size(); i++) { if (auto* fileSet = target.GetFileSet(fileSetArgs[i].GetFileSet())) { cmList interfaceFileSetEntries{ target.GetSafeProperty( cmTarget::GetInterfaceFileSetsPropertyName(fileSet->GetType())) }; if (std::find(interfaceFileSetEntries.begin(), interfaceFileSetEntries.end(), fileSetArgs[i].GetFileSet()) != interfaceFileSetEntries.end()) { std::string destination; if (fileSet->GetType() == "HEADERS"_s) { destination = helper.GetIncludeDestination(&fileSetArgs[i]); } else { destination = fileSetArgs[i].GetDestination(); if (destination.empty()) { status.SetError(cmStrCat( "TARGETS given no FILE_SET DESTINATION for target \"", target.GetName(), "\" file set \"", fileSet->GetName(), "\".")); return false; } } fileSetGenerators.push_back(CreateInstallFileSetGenerator( helper, target, fileSet, destination, fileSetArgs[i])); installsFileSet[i] = true; } } } } if (!cxxModuleBmiArgs.GetDestination().empty()) { cxxModuleBmiGenerator = cm::make_unique( target.GetName(), helper.GetCxxModulesBmiDestination(&cxxModuleBmiArgs), cxxModuleBmiArgs.GetPermissions(), cxxModuleBmiArgs.GetConfigurations(), cxxModuleBmiArgs.GetComponent(), cmInstallGenerator::SelectMessageLevel(target.GetMakefile()), cxxModuleBmiArgs.GetExcludeFromAll(), cxxModuleBmiArgs.GetOptional(), helper.Makefile->GetBacktrace()); target.SetHaveInstallRule(true); } // Add this install rule to an export if one was specified. if (!addTargetExport()) { return false; } // Keep track of whether we're installing anything in each category installsArchive = installsArchive || archiveGenerator; installsLibrary = installsLibrary || libraryGenerator; installsNamelink = installsNamelink || namelinkGenerator; installsImportlink = installsImportlink || importlinkGenerator; installsRuntime = installsRuntime || runtimeGenerator; installsObject = installsObject || objectGenerator; installsFramework = installsFramework || frameworkGenerator; installsBundle = installsBundle || bundleGenerator; installsPrivateHeader = installsPrivateHeader || privateHeaderGenerator; installsPublicHeader = installsPublicHeader || publicHeaderGenerator; installsResource = installsResource || resourceGenerator; installsCxxModuleBmi = installsCxxModuleBmi || cxxModuleBmiGenerator; helper.Makefile->AddInstallGenerator(std::move(archiveGenerator)); helper.Makefile->AddInstallGenerator(std::move(libraryGenerator)); helper.Makefile->AddInstallGenerator(std::move(namelinkGenerator)); helper.Makefile->AddInstallGenerator(std::move(importlinkGenerator)); helper.Makefile->AddInstallGenerator(std::move(runtimeGenerator)); helper.Makefile->AddInstallGenerator(std::move(objectGenerator)); helper.Makefile->AddInstallGenerator(std::move(frameworkGenerator)); helper.Makefile->AddInstallGenerator(std::move(bundleGenerator)); helper.Makefile->AddInstallGenerator(std::move(privateHeaderGenerator)); helper.Makefile->AddInstallGenerator(std::move(publicHeaderGenerator)); helper.Makefile->AddInstallGenerator(std::move(resourceGenerator)); for (auto& gen : fileSetGenerators) { helper.Makefile->AddInstallGenerator(std::move(gen)); } helper.Makefile->AddInstallGenerator(std::move(cxxModuleBmiGenerator)); } if (runtimeDependenciesArgVector && !runtimeDependencySet->Empty()) { AddInstallRuntimeDependenciesGenerator( helper, runtimeDependencySet, runtimeArgs, libraryArgs, frameworkArgs, std::move(runtimeDependenciesArgs), installsRuntime, installsLibrary, installsFramework); } // Tell the global generator about any installation component names // specified if (installsArchive) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( archiveArgs.GetComponent()); } if (installsLibrary) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( libraryArgs.GetComponent()); } if (installsNamelink) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( libraryArgs.GetNamelinkComponent()); } if (installsImportlink) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( archiveArgs.GetNamelinkComponent()); } if (installsRuntime) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( runtimeArgs.GetComponent()); } if (installsObject) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( objectArgs.GetComponent()); } if (installsFramework) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( frameworkArgs.GetComponent()); } if (installsBundle) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( bundleArgs.GetComponent()); } if (installsPrivateHeader) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( privateHeaderArgs.GetComponent()); } if (installsPublicHeader) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( publicHeaderArgs.GetComponent()); } if (installsResource) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( resourceArgs.GetComponent()); } for (std::size_t i = 0; i < fileSetArgs.size(); i++) { if (installsFileSet[i]) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( fileSetArgs[i].GetComponent()); } } if (installsCxxModuleBmi) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( cxxModuleBmiArgs.GetComponent()); } return true; } bool HandleImportedRuntimeArtifactsMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); // This is the IMPORTED_RUNTIME_ARTIFACTS mode. std::vector targets; struct ArgVectors { ArgumentParser::MaybeEmpty> Library; ArgumentParser::MaybeEmpty> Runtime; ArgumentParser::MaybeEmpty> Framework; ArgumentParser::MaybeEmpty> Bundle; }; static auto const argHelper = cmArgumentParser{} .Bind("LIBRARY"_s, &ArgVectors::Library) .Bind("RUNTIME"_s, &ArgVectors::Runtime) .Bind("FRAMEWORK"_s, &ArgVectors::Framework) .Bind("BUNDLE"_s, &ArgVectors::Bundle); std::vector genericArgVector; ArgVectors const argVectors = argHelper.Parse(args, &genericArgVector); // now parse the generic args (i.e. the ones not specialized on LIBRARY, // RUNTIME etc. (see above) ArgumentParser::MaybeEmpty> targetList; std::string runtimeDependencySetArg; std::vector unknownArgs; cmInstallCommandArguments genericArgs(helper.DefaultComponentName); genericArgs.Bind("IMPORTED_RUNTIME_ARTIFACTS"_s, targetList) .Bind("RUNTIME_DEPENDENCY_SET"_s, runtimeDependencySetArg); genericArgs.Parse(genericArgVector, &unknownArgs); bool success = genericArgs.Finalize(); cmInstallCommandArguments libraryArgs(helper.DefaultComponentName); cmInstallCommandArguments runtimeArgs(helper.DefaultComponentName); cmInstallCommandArguments frameworkArgs(helper.DefaultComponentName); cmInstallCommandArguments bundleArgs(helper.DefaultComponentName); // now parse the args for specific parts of the target (e.g. LIBRARY, // RUNTIME etc. libraryArgs.Parse(argVectors.Library, &unknownArgs); runtimeArgs.Parse(argVectors.Runtime, &unknownArgs); frameworkArgs.Parse(argVectors.Framework, &unknownArgs); bundleArgs.Parse(argVectors.Bundle, &unknownArgs); if (!unknownArgs.empty()) { // Unknown argument. status.SetError( cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given unknown argument \"", unknownArgs[0], "\".")); return false; } // apply generic args libraryArgs.SetGenericArguments(&genericArgs); runtimeArgs.SetGenericArguments(&genericArgs); frameworkArgs.SetGenericArguments(&genericArgs); bundleArgs.SetGenericArguments(&genericArgs); success = success && libraryArgs.Finalize(); success = success && runtimeArgs.Finalize(); success = success && frameworkArgs.Finalize(); success = success && bundleArgs.Finalize(); if (!success) { return false; } cmInstallRuntimeDependencySet* runtimeDependencySet = nullptr; if (!runtimeDependencySetArg.empty()) { auto system = helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME"); if (!cmRuntimeDependencyArchive::PlatformSupportsRuntimeDependencies( system)) { status.SetError( cmStrCat("IMPORTED_RUNTIME_ARTIFACTS RUNTIME_DEPENDENCY_SET is not " "supported on system \"", system, '"')); return false; } runtimeDependencySet = helper.Makefile->GetGlobalGenerator()->GetNamedRuntimeDependencySet( runtimeDependencySetArg); } // Check if there is something to do. if (targetList.empty()) { return true; } for (std::string const& tgt : targetList) { if (helper.Makefile->IsAlias(tgt)) { status.SetError(cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given target \"", tgt, "\" which is an alias.")); return false; } // Lookup this target in the current directory. cmTarget* target = helper.Makefile->FindTargetToUse(tgt); if (!target || !target->IsImported()) { // If no local target has been found, find it in the global scope. cmTarget* const global_target = helper.Makefile->GetGlobalGenerator()->FindTarget(tgt, true); if (global_target && global_target->IsImported()) { target = global_target; } } if (target) { // Found the target. Check its type. if (target->GetType() != cmStateEnums::EXECUTABLE && target->GetType() != cmStateEnums::SHARED_LIBRARY && target->GetType() != cmStateEnums::MODULE_LIBRARY) { status.SetError( cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given target \"", tgt, "\" which is not an executable, library, or module.")); return false; } // Store the target in the list to be installed. targets.push_back(target); } else { // Did not find the target. status.SetError(cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given target \"", tgt, "\" which does not exist.")); return false; } } // Keep track of whether we will be performing an installation of // any files of the given type. bool installsLibrary = false; bool installsRuntime = false; bool installsFramework = false; bool installsBundle = false; auto const createInstallGenerator = [helper](cmTarget& target, const cmInstallCommandArguments& typeArgs, const std::string& destination) -> std::unique_ptr { return cm::make_unique( target.GetName(), destination, typeArgs.GetPermissions(), typeArgs.GetConfigurations(), typeArgs.GetComponent(), cmInstallGenerator::SelectMessageLevel(helper.Makefile), typeArgs.GetExcludeFromAll(), typeArgs.GetOptional(), helper.Makefile->GetBacktrace()); }; // Generate install script code to install the given targets. for (cmTarget* ti : targets) { // Handle each target type. cmTarget& target = *ti; std::unique_ptr libraryGenerator; std::unique_ptr runtimeGenerator; std::unique_ptr frameworkGenerator; std::unique_ptr bundleGenerator; switch (target.GetType()) { case cmStateEnums::SHARED_LIBRARY: if (target.IsDLLPlatform()) { runtimeGenerator = createInstallGenerator( target, runtimeArgs, helper.GetRuntimeDestination(&runtimeArgs)); if (runtimeDependencySet) { runtimeDependencySet->AddLibrary(runtimeGenerator.get()); } } else if (target.IsFrameworkOnApple()) { if (frameworkArgs.GetDestination().empty()) { status.SetError(cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given no " "FRAMEWORK DESTINATION for shared " "library FRAMEWORK target \"", target.GetName(), "\".")); return false; } frameworkGenerator = createInstallGenerator( target, frameworkArgs, frameworkArgs.GetDestination()); if (runtimeDependencySet) { runtimeDependencySet->AddLibrary(frameworkGenerator.get()); } } else { libraryGenerator = createInstallGenerator( target, libraryArgs, helper.GetLibraryDestination(&libraryArgs)); if (runtimeDependencySet) { runtimeDependencySet->AddLibrary(libraryGenerator.get()); } } break; case cmStateEnums::MODULE_LIBRARY: libraryGenerator = createInstallGenerator( target, libraryArgs, helper.GetLibraryDestination(&libraryArgs)); if (runtimeDependencySet) { runtimeDependencySet->AddModule(libraryGenerator.get()); } break; case cmStateEnums::EXECUTABLE: if (target.IsAppBundleOnApple()) { if (bundleArgs.GetDestination().empty()) { status.SetError( cmStrCat("IMPORTED_RUNTIME_ARTIFACTS given no BUNDLE " "DESTINATION for MACOSX_BUNDLE executable target \"", target.GetName(), "\".")); return false; } bundleGenerator = createInstallGenerator( target, bundleArgs, bundleArgs.GetDestination()); if (runtimeDependencySet) { if (!AddBundleExecutable(helper, runtimeDependencySet, bundleGenerator.get())) { return false; } } } else { runtimeGenerator = createInstallGenerator( target, runtimeArgs, helper.GetRuntimeDestination(&runtimeArgs)); if (runtimeDependencySet) { runtimeDependencySet->AddExecutable(runtimeGenerator.get()); } } break; default: assert(false && "This should never happen"); break; } // Keep track of whether we're installing anything in each category installsLibrary = installsLibrary || libraryGenerator; installsRuntime = installsRuntime || runtimeGenerator; installsFramework = installsFramework || frameworkGenerator; installsBundle = installsBundle || bundleGenerator; helper.Makefile->AddInstallGenerator(std::move(libraryGenerator)); helper.Makefile->AddInstallGenerator(std::move(runtimeGenerator)); helper.Makefile->AddInstallGenerator(std::move(frameworkGenerator)); helper.Makefile->AddInstallGenerator(std::move(bundleGenerator)); } // Tell the global generator about any installation component names // specified if (installsLibrary) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( libraryArgs.GetComponent()); } if (installsRuntime) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( runtimeArgs.GetComponent()); } if (installsFramework) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( frameworkArgs.GetComponent()); } if (installsBundle) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( bundleArgs.GetComponent()); } return true; } bool HandleFilesMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); // This is the FILES mode. bool programs = (args[0] == "PROGRAMS"); cmInstallCommandArguments ica(helper.DefaultComponentName); ArgumentParser::MaybeEmpty> files; ica.Bind(programs ? "PROGRAMS"_s : "FILES"_s, files); std::vector unknownArgs; ica.Parse(args, &unknownArgs); if (!unknownArgs.empty()) { // Unknown argument. status.SetError( cmStrCat(args[0], " given unknown argument \"", unknownArgs[0], "\".")); return false; } std::string type = ica.GetType(); if (!type.empty() && allowedTypes.count(type) == 0) { status.SetError( cmStrCat(args[0], " given non-type \"", type, "\" with TYPE argument.")); return false; } const std::vector& filesVector = files; // Check if there is something to do. if (filesVector.empty()) { return true; } if (!ica.GetRename().empty() && filesVector.size() > 1) { // The rename option works only with one file. status.SetError( cmStrCat(args[0], " given RENAME option with more than one file.")); return false; } std::vector absFiles; if (!helper.MakeFilesFullPath(args[0].c_str(), filesVector, absFiles)) { return false; } cmPolicies::PolicyStatus policyStatus = helper.Makefile->GetPolicyStatus(cmPolicies::CMP0062); cmGlobalGenerator* gg = helper.Makefile->GetGlobalGenerator(); for (std::string const& file : filesVector) { if (gg->IsExportedTargetsFile(file)) { const char* modal = nullptr; std::ostringstream e; MessageType messageType = MessageType::AUTHOR_WARNING; switch (policyStatus) { case cmPolicies::WARN: e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0062) << "\n"; modal = "should"; CM_FALLTHROUGH; case cmPolicies::OLD: break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::NEW: modal = "may"; messageType = MessageType::FATAL_ERROR; break; } if (modal) { e << "The file\n " << file << "\nwas generated by the export() " "command. It " << modal << " not be installed with the " "install() command. Use the install(EXPORT) mechanism " "instead. See the cmake-packages(7) manual for more.\n"; helper.Makefile->IssueMessage(messageType, e.str()); if (messageType == MessageType::FATAL_ERROR) { return false; } } } } if (!ica.Finalize()) { return false; } if (!type.empty() && !ica.GetDestination().empty()) { status.SetError(cmStrCat(args[0], " given both TYPE and DESTINATION arguments. " "You may only specify one.")); return false; } std::string destination = helper.GetDestinationForType(&ica, type); if (destination.empty()) { // A destination is required. status.SetError(cmStrCat(args[0], " given no DESTINATION!")); return false; } // Create the files install generator. helper.Makefile->AddInstallGenerator(CreateInstallFilesGenerator( helper.Makefile, absFiles, ica, programs, destination)); // Tell the global generator about any installation component names // specified. helper.Makefile->GetGlobalGenerator()->AddInstallComponent( ica.GetComponent()); return true; } bool HandleDirectoryMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); enum Doing { DoingNone, DoingDirs, DoingDestination, DoingPattern, DoingRegex, DoingPermsFile, DoingPermsDir, DoingPermsMatch, DoingConfigurations, DoingComponent, DoingType }; Doing doing = DoingDirs; bool in_match_mode = false; bool optional = false; bool exclude_from_all = false; bool message_never = false; std::vector dirs; const std::string* destination = nullptr; std::string permissions_file; std::string permissions_dir; std::vector configurations; std::string component = helper.DefaultComponentName; std::string literal_args; std::string type; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "DESTINATION") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the destination property. doing = DoingDestination; } else if (args[i] == "TYPE") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the type. doing = DoingType; } else if (args[i] == "OPTIONAL") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Mark the rule as optional. optional = true; doing = DoingNone; } else if (args[i] == "MESSAGE_NEVER") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Mark the rule as quiet. message_never = true; doing = DoingNone; } else if (args[i] == "PATTERN") { // Switch to a new pattern match rule. doing = DoingPattern; in_match_mode = true; } else if (args[i] == "REGEX") { // Switch to a new regex match rule. doing = DoingRegex; in_match_mode = true; } else if (args[i] == "EXCLUDE") { // Add this property to the current match rule. if (!in_match_mode || doing == DoingPattern || doing == DoingRegex) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" before a PATTERN or REGEX is given.")); return false; } literal_args += " EXCLUDE"; doing = DoingNone; } else if (args[i] == "PERMISSIONS") { if (!in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" before a PATTERN or REGEX is given.")); return false; } // Switch to setting the current match permissions property. literal_args += " PERMISSIONS"; doing = DoingPermsMatch; } else if (args[i] == "FILE_PERMISSIONS") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the file permissions property. doing = DoingPermsFile; } else if (args[i] == "DIRECTORY_PERMISSIONS") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the directory permissions property. doing = DoingPermsDir; } else if (args[i] == "USE_SOURCE_PERMISSIONS") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Add this option literally. literal_args += " USE_SOURCE_PERMISSIONS"; doing = DoingNone; } else if (args[i] == "FILES_MATCHING") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Add this option literally. literal_args += " FILES_MATCHING"; doing = DoingNone; } else if (args[i] == "CONFIGURATIONS") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the configurations property. doing = DoingConfigurations; } else if (args[i] == "COMPONENT") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } // Switch to setting the component property. doing = DoingComponent; } else if (args[i] == "EXCLUDE_FROM_ALL") { if (in_match_mode) { status.SetError(cmStrCat(args[0], " does not allow \"", args[i], "\" after PATTERN or REGEX.")); return false; } exclude_from_all = true; doing = DoingNone; } else if (doing == DoingDirs) { // Convert this directory to a full path. std::string dir = args[i]; std::string::size_type gpos = cmGeneratorExpression::Find(dir); if (gpos != 0 && !cmSystemTools::FileIsFullPath(dir)) { dir = cmStrCat(helper.Makefile->GetCurrentSourceDirectory(), '/', args[i]); } // Make sure the name is a directory. if (cmSystemTools::FileExists(dir, true)) { status.SetError(cmStrCat(args[0], " given non-directory \"", args[i], "\" to install.")); return false; } // Store the directory for installation. dirs.push_back(std::move(dir)); } else if (doing == DoingConfigurations) { configurations.push_back(args[i]); } else if (doing == DoingDestination) { destination = &args[i]; doing = DoingNone; } else if (doing == DoingType) { if (allowedTypes.count(args[i]) == 0) { status.SetError(cmStrCat(args[0], " given non-type \"", args[i], "\" with TYPE argument.")); return false; } type = args[i]; doing = DoingNone; } else if (doing == DoingPattern) { // Convert the pattern to a regular expression. Require a // leading slash and trailing end-of-string in the matched // string to make sure the pattern matches only whole file // names. literal_args += " REGEX \"/"; std::string regex = cmsys::Glob::PatternToRegex(args[i], false); cmSystemTools::ReplaceString(regex, "\\", "\\\\"); literal_args += regex; literal_args += "$\""; doing = DoingNone; } else if (doing == DoingRegex) { literal_args += " REGEX \""; // Match rules are case-insensitive on some platforms. #if defined(_WIN32) || defined(__APPLE__) std::string regex = cmSystemTools::LowerCase(args[i]); #else std::string regex = args[i]; #endif cmSystemTools::ReplaceString(regex, "\\", "\\\\"); literal_args += regex; literal_args += "\""; doing = DoingNone; } else if (doing == DoingComponent) { component = args[i]; doing = DoingNone; } else if (doing == DoingPermsFile) { // Check the requested permission. if (!cmInstallCommandArguments::CheckPermissions(args[i], permissions_file)) { status.SetError(cmStrCat(args[0], " given invalid file permission \"", args[i], "\".")); return false; } } else if (doing == DoingPermsDir) { // Check the requested permission. if (!cmInstallCommandArguments::CheckPermissions(args[i], permissions_dir)) { status.SetError(cmStrCat( args[0], " given invalid directory permission \"", args[i], "\".")); return false; } } else if (doing == DoingPermsMatch) { // Check the requested permission. if (!cmInstallCommandArguments::CheckPermissions(args[i], literal_args)) { status.SetError( cmStrCat(args[0], " given invalid permission \"", args[i], "\".")); return false; } } else { // Unknown argument. status.SetError( cmStrCat(args[0], " given unknown argument \"", args[i], "\".")); return false; } } // Support installing an empty directory. if (dirs.empty() && destination) { dirs.emplace_back(); } // Check if there is something to do. if (dirs.empty()) { return true; } std::string destinationStr; if (!destination) { if (type.empty()) { // A destination is required. status.SetError(cmStrCat(args[0], " given no DESTINATION!")); return false; } destinationStr = helper.GetDestinationForType(nullptr, type); destination = &destinationStr; } else if (!type.empty()) { status.SetError(cmStrCat(args[0], " given both TYPE and DESTINATION " "arguments. You may only specify one.")); return false; } cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(helper.Makefile, message_never); // Create the directory install generator. helper.Makefile->AddInstallGenerator( cm::make_unique( dirs, *destination, permissions_file, permissions_dir, configurations, component, message, exclude_from_all, literal_args, optional, helper.Makefile->GetBacktrace())); // Tell the global generator about any installation component names // specified. helper.Makefile->GetGlobalGenerator()->AddInstallComponent(component); return true; } bool HandleExportAndroidMKMode(std::vector const& args, cmExecutionStatus& status) { #ifndef CMAKE_BOOTSTRAP Helper helper(status); // This is the EXPORT mode. cmInstallCommandArguments ica(helper.DefaultComponentName); std::string exp; std::string name_space; bool exportOld = false; std::string filename; ica.Bind("EXPORT_ANDROID_MK"_s, exp); ica.Bind("NAMESPACE"_s, name_space); ica.Bind("EXPORT_LINK_INTERFACE_LIBRARIES"_s, exportOld); ica.Bind("FILE"_s, filename); std::vector unknownArgs; ica.Parse(args, &unknownArgs); if (!unknownArgs.empty()) { // Unknown argument. status.SetError( cmStrCat(args[0], " given unknown argument \"", unknownArgs[0], "\".")); return false; } if (!ica.Finalize()) { return false; } // Make sure there is a destination. if (ica.GetDestination().empty()) { // A destination is required. status.SetError(cmStrCat(args[0], " given no DESTINATION!")); return false; } // Check the file name. std::string fname = filename; if (fname.find_first_of(":/\\") != std::string::npos) { status.SetError(cmStrCat(args[0], " given invalid export file name \"", fname, "\". The FILE argument may not contain a path. " "Specify the path in the DESTINATION argument.")); return false; } // Check the file extension. if (!fname.empty() && cmSystemTools::GetFilenameLastExtension(fname) != ".mk") { status.SetError(cmStrCat( args[0], " given invalid export file name \"", fname, R"(". The FILE argument must specify a name ending in ".mk".)")); return false; } if (fname.find_first_of(":/\\") != std::string::npos) { status.SetError( cmStrCat(args[0], " given export name \"", exp, "\". " "This name cannot be safely converted to a file name. " "Specify a different export name or use the FILE option to set " "a file name explicitly.")); return false; } // Use the default name if (fname.empty()) { fname = "Android.mk"; } cmExportSet& exportSet = helper.Makefile->GetGlobalGenerator()->GetExportSets()[exp]; cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(helper.Makefile); // Create the export install generator. helper.Makefile->AddInstallGenerator( cm::make_unique( &exportSet, ica.GetDestination(), ica.GetPermissions(), ica.GetConfigurations(), ica.GetComponent(), message, ica.GetExcludeFromAll(), fname, name_space, "", exportOld, true, false, helper.Makefile->GetBacktrace())); return true; #else static_cast(args); status.SetError("EXPORT_ANDROID_MK not supported in bootstrap cmake"); return false; #endif } bool HandleExportMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); // This is the EXPORT mode. cmInstallCommandArguments ica(helper.DefaultComponentName); std::string exp; std::string name_space; bool exportOld = false; std::string filename; std::string cxx_modules_directory; bool exportPackageDependencies = false; ica.Bind("EXPORT"_s, exp); ica.Bind("NAMESPACE"_s, name_space); ica.Bind("EXPORT_LINK_INTERFACE_LIBRARIES"_s, exportOld); ica.Bind("FILE"_s, filename); ica.Bind("CXX_MODULES_DIRECTORY"_s, cxx_modules_directory); ica.Bind("EXPORT_PACKAGE_DEPENDENCIES"_s, exportPackageDependencies); std::vector unknownArgs; ica.Parse(args, &unknownArgs); if (!unknownArgs.empty()) { // Unknown argument. status.SetError( cmStrCat(args[0], " given unknown argument \"", unknownArgs[0], "\".")); return false; } if (!ica.Finalize()) { return false; } // Make sure there is a destination. if (ica.GetDestination().empty()) { // A destination is required. status.SetError(cmStrCat(args[0], " given no DESTINATION!")); return false; } // Check the file name. std::string fname = filename; if (fname.find_first_of(":/\\") != std::string::npos) { status.SetError(cmStrCat(args[0], " given invalid export file name \"", fname, "\". " "The FILE argument may not contain a path. " "Specify the path in the DESTINATION argument.")); return false; } // Check the file extension. if (!fname.empty() && cmSystemTools::GetFilenameLastExtension(fname) != ".cmake") { status.SetError( cmStrCat(args[0], " given invalid export file name \"", fname, "\". " "The FILE argument must specify a name ending in \".cmake\".")); return false; } // Construct the file name. if (fname.empty()) { fname = cmStrCat(exp, ".cmake"); if (fname.find_first_of(":/\\") != std::string::npos) { status.SetError(cmStrCat( args[0], " given export name \"", exp, "\". " "This name cannot be safely converted to a file name. " "Specify a different export name or use the FILE option to set " "a file name explicitly.")); return false; } } cmExportSet& exportSet = helper.Makefile->GetGlobalGenerator()->GetExportSets()[exp]; if (exportOld) { for (auto const& te : exportSet.GetTargetExports()) { cmTarget* tgt = helper.Makefile->GetGlobalGenerator()->FindTarget(te->TargetName); const bool newCMP0022Behavior = (tgt && tgt->GetPolicyStatusCMP0022() != cmPolicies::WARN && tgt->GetPolicyStatusCMP0022() != cmPolicies::OLD); if (!newCMP0022Behavior) { status.SetError(cmStrCat( "INSTALL(EXPORT) given keyword \"" "EXPORT_LINK_INTERFACE_LIBRARIES\", but target \"", te->TargetName, "\" does not have policy CMP0022 set to NEW.")); return false; } } } cmInstallGenerator::MessageLevel message = cmInstallGenerator::SelectMessageLevel(helper.Makefile); // Create the export install generator. helper.Makefile->AddInstallGenerator( cm::make_unique( &exportSet, ica.GetDestination(), ica.GetPermissions(), ica.GetConfigurations(), ica.GetComponent(), message, ica.GetExcludeFromAll(), fname, name_space, cxx_modules_directory, exportOld, false, exportPackageDependencies, helper.Makefile->GetBacktrace())); return true; } bool HandleRuntimeDependencySetMode(std::vector const& args, cmExecutionStatus& status) { Helper helper(status); auto system = helper.Makefile->GetSafeDefinition("CMAKE_HOST_SYSTEM_NAME"); if (!cmRuntimeDependencyArchive::PlatformSupportsRuntimeDependencies( system)) { status.SetError(cmStrCat( "RUNTIME_DEPENDENCY_SET is not supported on system \"", system, '"')); return false; } // This is the RUNTIME_DEPENDENCY_SET mode. cmInstallRuntimeDependencySet* runtimeDependencySet; struct ArgVectors { ArgumentParser::MaybeEmpty> Library; ArgumentParser::MaybeEmpty> Runtime; ArgumentParser::MaybeEmpty> Framework; }; static auto const argHelper = cmArgumentParser{} .Bind("LIBRARY"_s, &ArgVectors::Library) .Bind("RUNTIME"_s, &ArgVectors::Runtime) .Bind("FRAMEWORK"_s, &ArgVectors::Framework); std::vector genericArgVector; ArgVectors const argVectors = argHelper.Parse(args, &genericArgVector); // now parse the generic args (i.e. the ones not specialized on LIBRARY, // RUNTIME, FRAMEWORK etc. (see above) // These generic args also contain the runtime dependency set std::string runtimeDependencySetArg; std::vector runtimeDependencyArgVector; cmInstallCommandArguments genericArgs(helper.DefaultComponentName); genericArgs.Bind("RUNTIME_DEPENDENCY_SET"_s, runtimeDependencySetArg); genericArgs.Parse(genericArgVector, &runtimeDependencyArgVector); bool success = genericArgs.Finalize(); cmInstallCommandArguments libraryArgs(helper.DefaultComponentName); cmInstallCommandArguments runtimeArgs(helper.DefaultComponentName); cmInstallCommandArguments frameworkArgs(helper.DefaultComponentName); // Now also parse the file(GET_RUNTIME_DEPENDENCY) args std::vector unknownArgs; auto runtimeDependencyArgs = RuntimeDependenciesArgHelper.Parse( runtimeDependencyArgVector, &unknownArgs); // now parse the args for specific parts of the target (e.g. LIBRARY, // RUNTIME, FRAMEWORK etc. libraryArgs.Parse(argVectors.Library, &unknownArgs); runtimeArgs.Parse(argVectors.Runtime, &unknownArgs); frameworkArgs.Parse(argVectors.Framework, &unknownArgs); libraryArgs.SetGenericArguments(&genericArgs); runtimeArgs.SetGenericArguments(&genericArgs); frameworkArgs.SetGenericArguments(&genericArgs); success = success && libraryArgs.Finalize(); success = success && runtimeArgs.Finalize(); success = success && frameworkArgs.Finalize(); if (!success) { return false; } if (!unknownArgs.empty()) { helper.SetError( cmStrCat("RUNTIME_DEPENDENCY_SET given unknown argument \"", unknownArgs.front(), "\".")); return false; } if (runtimeDependencySetArg.empty()) { helper.SetError( "RUNTIME_DEPENDENCY_SET not given a runtime dependency set."); return false; } runtimeDependencySet = helper.Makefile->GetGlobalGenerator()->GetNamedRuntimeDependencySet( runtimeDependencySetArg); bool installsRuntime = false; bool installsLibrary = false; bool installsFramework = false; AddInstallRuntimeDependenciesGenerator( helper, runtimeDependencySet, runtimeArgs, libraryArgs, frameworkArgs, std::move(runtimeDependencyArgs), installsRuntime, installsLibrary, installsFramework); // Tell the global generator about any installation component names // specified if (installsLibrary) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( libraryArgs.GetComponent()); } if (installsRuntime) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( runtimeArgs.GetComponent()); } if (installsFramework) { helper.Makefile->GetGlobalGenerator()->AddInstallComponent( frameworkArgs.GetComponent()); } return true; } bool Helper::MakeFilesFullPath(const char* modeName, const std::vector& relFiles, std::vector& absFiles) { return this->MakeFilesFullPath( modeName, this->Makefile->GetCurrentSourceDirectory(), relFiles, absFiles); } bool Helper::MakeFilesFullPath(const char* modeName, const std::string& basePath, const std::vector& relFiles, std::vector& absFiles) { for (std::string const& relFile : relFiles) { std::string file = relFile; std::string::size_type gpos = cmGeneratorExpression::Find(file); if (gpos != 0 && !cmSystemTools::FileIsFullPath(file)) { file = cmStrCat(basePath, '/', relFile); } // Make sure the file is not a directory. if (gpos == std::string::npos && !cmSystemTools::FileIsSymlink(file) && cmSystemTools::FileIsDirectory(file)) { this->SetError( cmStrCat(modeName, " given directory \"", relFile, "\" to install.")); return false; } // Store the file for installation. absFiles.push_back(std::move(file)); } return true; } bool Helper::CheckCMP0006(bool& failure) const { switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0006)) { case cmPolicies::WARN: this->Makefile->IssueMessage( MessageType::AUTHOR_WARNING, cmPolicies::GetPolicyWarning(cmPolicies::CMP0006)); CM_FALLTHROUGH; case cmPolicies::OLD: // OLD behavior is to allow compatibility return true; case cmPolicies::NEW: // NEW behavior is to disallow compatibility break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: failure = true; this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0006)); break; } return false; } std::string Helper::GetDestination(const cmInstallCommandArguments* args, const std::string& varName, const std::string& guess) const { if (args && !args->GetDestination().empty()) { return args->GetDestination(); } std::string val = this->Makefile->GetSafeDefinition(varName); if (!val.empty()) { return val; } return guess; } std::string Helper::GetRuntimeDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_BINDIR", "bin"); } std::string Helper::GetSbinDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_SBINDIR", "sbin"); } std::string Helper::GetArchiveDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_LIBDIR", "lib"); } std::string Helper::GetLibraryDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_LIBDIR", "lib"); } std::string Helper::GetCxxModulesBmiDestination( const cmInstallCommandArguments* args) const { if (args) { return args->GetDestination(); } return {}; } std::string Helper::GetIncludeDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_INCLUDEDIR", "include"); } std::string Helper::GetSysconfDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_SYSCONFDIR", "etc"); } std::string Helper::GetSharedStateDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_SHAREDSTATEDIR", "com"); } std::string Helper::GetLocalStateDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_LOCALSTATEDIR", "var"); } std::string Helper::GetRunStateDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_RUNSTATEDIR", this->GetLocalStateDestination(nullptr) + "/run"); } std::string Helper::GetDataRootDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_DATAROOTDIR", "share"); } std::string Helper::GetDataDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_DATADIR", this->GetDataRootDestination(nullptr)); } std::string Helper::GetInfoDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_INFODIR", this->GetDataRootDestination(nullptr) + "/info"); } std::string Helper::GetLocaleDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_LOCALEDIR", this->GetDataRootDestination(nullptr) + "/locale"); } std::string Helper::GetManDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_MANDIR", this->GetDataRootDestination(nullptr) + "/man"); } std::string Helper::GetDocDestination( const cmInstallCommandArguments* args) const { return this->GetDestination(args, "CMAKE_INSTALL_DOCDIR", this->GetDataRootDestination(nullptr) + "/doc"); } std::string Helper::GetDestinationForType( const cmInstallCommandArguments* args, const std::string& type) const { if (args && !args->GetDestination().empty()) { return args->GetDestination(); } if (type == "BIN") { return this->GetRuntimeDestination(nullptr); } if (type == "SBIN") { return this->GetSbinDestination(nullptr); } if (type == "SYSCONF") { return this->GetSysconfDestination(nullptr); } if (type == "SHAREDSTATE") { return this->GetSharedStateDestination(nullptr); } if (type == "LOCALSTATE") { return this->GetLocalStateDestination(nullptr); } if (type == "RUNSTATE") { return this->GetRunStateDestination(nullptr); } if (type == "LIB") { return this->GetLibraryDestination(nullptr); } if (type == "INCLUDE") { return this->GetIncludeDestination(nullptr); } if (type == "DATA") { return this->GetDataDestination(nullptr); } if (type == "INFO") { return this->GetInfoDestination(nullptr); } if (type == "LOCALE") { return this->GetLocaleDestination(nullptr); } if (type == "MAN") { return this->GetManDestination(nullptr); } if (type == "DOC") { return this->GetDocDestination(nullptr); } return ""; } } // namespace bool cmInstallCommand(std::vector const& args, cmExecutionStatus& status) { // Allow calling with no arguments so that arguments may be built up // using a variable that may be left empty. if (args.empty()) { return true; } // Enable the install target. status.GetMakefile().GetGlobalGenerator()->EnableInstallTarget(); static cmSubcommandTable const subcommand{ { "SCRIPT"_s, HandleScriptMode }, { "CODE"_s, HandleScriptMode }, { "TARGETS"_s, HandleTargetsMode }, { "IMPORTED_RUNTIME_ARTIFACTS"_s, HandleImportedRuntimeArtifactsMode }, { "FILES"_s, HandleFilesMode }, { "PROGRAMS"_s, HandleFilesMode }, { "DIRECTORY"_s, HandleDirectoryMode }, { "EXPORT"_s, HandleExportMode }, { "EXPORT_ANDROID_MK"_s, HandleExportAndroidMKMode }, { "RUNTIME_DEPENDENCY_SET"_s, HandleRuntimeDependencySetMode }, }; return subcommand(args[0], args, status); }