/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmInstallTargetGenerator.h" #include #include #include #include #include #include #include #include #include #include "cmComputeLinkInformation.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmInstallType.h" #include "cmLocalGenerator.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmOutputConverter.h" #include "cmPolicies.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmValue.h" #include "cmake.h" namespace { std::string computeInstallObjectDir(cmGeneratorTarget* gt, std::string const& config) { std::string objectDir = "objects"; if (!config.empty()) { objectDir += "-"; objectDir += config; } objectDir += "/"; objectDir += gt->GetName(); return objectDir; } void computeFilesToInstall( cmInstallTargetGenerator::Files& files, cmInstallTargetGenerator::NamelinkModeType namelinkMode, std::string const& fromDirConfig, std::string const& output, std::string const& library, std::string const& real, cm::optional> GNUToMS = cm::nullopt) { bool haveNamelink = false; auto convert = [&GNUToMS](std::string const& file) { if (GNUToMS) { (*GNUToMS)(file); } }; // Library link name. std::string fromName = cmStrCat(fromDirConfig, output); std::string toName = output; // Library interface name. std::string fromSOName; std::string toSOName; if (library != output) { haveNamelink = true; fromSOName = cmStrCat(fromDirConfig, library); toSOName = library; } // Library implementation name. std::string fromRealName; std::string toRealName; if (real != output && real != library) { haveNamelink = true; fromRealName = cmStrCat(fromDirConfig, real); toRealName = real; } // Add the names based on the current namelink mode. if (haveNamelink) { files.NamelinkMode = namelinkMode; // With a namelink we need to check the mode. if (namelinkMode == cmInstallTargetGenerator::NamelinkModeOnly) { // Install the namelink only. files.From.emplace_back(fromName); files.To.emplace_back(toName); convert(output); } else { // Install the real file if it has its own name. if (!fromRealName.empty()) { files.From.emplace_back(fromRealName); files.To.emplace_back(toRealName); convert(real); } // Install the soname link if it has its own name. if (!fromSOName.empty()) { files.From.emplace_back(fromSOName); files.To.emplace_back(toSOName); convert(library); } // Install the namelink if it is not to be skipped. if (namelinkMode != cmInstallTargetGenerator::NamelinkModeSkip) { files.From.emplace_back(fromName); files.To.emplace_back(toName); convert(output); } } } else { // Without a namelink there will be only one file. Install it // if this is not a namelink-only rule. if (namelinkMode != cmInstallTargetGenerator::NamelinkModeOnly) { files.From.emplace_back(fromName); files.To.emplace_back(toName); convert(output); } } } } cmInstallTargetGenerator::cmInstallTargetGenerator( std::string targetName, std::string const& dest, bool implib, std::string file_permissions, std::vector const& configurations, std::string const& component, MessageLevel message, bool exclude_from_all, bool optional, cmListFileBacktrace backtrace) : cmInstallGenerator(dest, configurations, component, message, exclude_from_all, false, std::move(backtrace)) , TargetName(std::move(targetName)) , FilePermissions(std::move(file_permissions)) , ImportLibrary(implib) , Optional(optional) { this->ActionsPerConfig = true; this->NamelinkMode = NamelinkModeNone; this->ImportlinkMode = NamelinkModeNone; } cmInstallTargetGenerator::~cmInstallTargetGenerator() = default; void cmInstallTargetGenerator::GenerateScriptForConfig( std::ostream& os, const std::string& config, Indent indent) { // Compute the list of files to install for this target. Files files = this->GetFiles(config); // Skip this rule if no files are to be installed for the target. if (files.From.empty()) { return; } // Compute the effective install destination. std::string dest = this->GetDestination(config); if (!files.ToDir.empty()) { dest = cmStrCat(dest, '/', files.ToDir); } // Tweak files located in the destination directory. std::string toDir = cmStrCat(ConvertToAbsoluteDestination(dest), '/'); // Add pre-installation tweaks. if (!files.NoTweak) { AddTweak(os, indent, config, toDir, files.To, [this](std::ostream& o, Indent i, const std::string& c, const std::string& f) { this->PreReplacementTweaks(o, i, c, f); }); } // Write code to install the target file. const char* no_dir_permissions = nullptr; const char* no_rename = nullptr; bool optional = this->Optional || this->ImportLibrary; std::string literal_args; if (!files.FromDir.empty()) { literal_args += " FILES_FROM_DIR \"" + files.FromDir + "\""; } if (files.UseSourcePermissions) { literal_args += " USE_SOURCE_PERMISSIONS"; } this->AddInstallRule(os, dest, files.Type, files.From, optional, this->FilePermissions.c_str(), no_dir_permissions, no_rename, literal_args.c_str(), indent); // Add post-installation tweaks. if (!files.NoTweak) { AddTweak(os, indent, config, toDir, files.To, [this](std::ostream& o, Indent i, const std::string& c, const std::string& f) { this->PostReplacementTweaks(o, i, c, f); }); } } cmInstallTargetGenerator::Files cmInstallTargetGenerator::GetFiles( std::string const& config) const { Files files; cmStateEnums::TargetType targetType = this->Target->GetType(); switch (targetType) { case cmStateEnums::EXECUTABLE: files.Type = cmInstallType_EXECUTABLE; break; case cmStateEnums::STATIC_LIBRARY: files.Type = cmInstallType_STATIC_LIBRARY; break; case cmStateEnums::SHARED_LIBRARY: files.Type = cmInstallType_SHARED_LIBRARY; break; case cmStateEnums::MODULE_LIBRARY: files.Type = cmInstallType_MODULE_LIBRARY; break; case cmStateEnums::INTERFACE_LIBRARY: // Not reachable. We never create a cmInstallTargetGenerator for // an INTERFACE_LIBRARY. assert(false && "INTERFACE_LIBRARY targets have no installable outputs."); break; case cmStateEnums::OBJECT_LIBRARY: { // Compute all the object files inside this target std::vector objects; this->Target->GetTargetObjectNames(config, objects); files.Type = cmInstallType_FILES; files.NoTweak = true; files.FromDir = this->Target->GetObjectDirectory(config); files.ToDir = computeInstallObjectDir(this->Target, config); for (std::string& obj : objects) { files.From.emplace_back(obj); files.To.emplace_back(std::move(obj)); } return files; } case cmStateEnums::UTILITY: case cmStateEnums::GLOBAL_TARGET: case cmStateEnums::UNKNOWN_LIBRARY: this->Target->GetLocalGenerator()->IssueMessage( MessageType::INTERNAL_ERROR, "cmInstallTargetGenerator created with non-installable target."); return files; } // Compute the build tree directory from which to copy the target. std::string fromDirConfig; if (this->Target->NeedRelinkBeforeInstall(config)) { fromDirConfig = cmStrCat(this->Target->GetLocalGenerator()->GetCurrentBinaryDirectory(), "/CMakeFiles/CMakeRelink.dir/"); } else { cmStateEnums::ArtifactType artifact = this->ImportLibrary ? cmStateEnums::ImportLibraryArtifact : cmStateEnums::RuntimeBinaryArtifact; fromDirConfig = cmStrCat(this->Target->GetDirectory(config, artifact), '/'); } if (targetType == cmStateEnums::EXECUTABLE) { // There is a bug in cmInstallCommand if this fails. assert(this->NamelinkMode == NamelinkModeNone); cmGeneratorTarget::Names targetNames = this->Target->GetExecutableNames(config); if (this->ImportLibrary) { std::string from1 = fromDirConfig + targetNames.ImportLibrary; std::string to1 = targetNames.ImportLibrary; files.From.emplace_back(std::move(from1)); files.To.emplace_back(std::move(to1)); std::string targetNameImportLib; if (this->Target->GetImplibGNUtoMS(config, targetNames.ImportLibrary, targetNameImportLib)) { files.From.emplace_back(fromDirConfig + targetNameImportLib); files.To.emplace_back(targetNameImportLib); } // An import library looks like a static library. files.Type = cmInstallType_STATIC_LIBRARY; } else { std::string from1 = fromDirConfig + targetNames.Output; std::string to1 = targetNames.Output; // Handle OSX Bundles. if (this->Target->IsAppBundleOnApple()) { cmMakefile const* mf = this->Target->Target->GetMakefile(); // Get App Bundle Extension std::string ext; if (cmValue p = this->Target->GetProperty("BUNDLE_EXTENSION")) { ext = *p; } else { ext = "app"; } // Install the whole app bundle directory. files.Type = cmInstallType_DIRECTORY; files.UseSourcePermissions = true; from1 += "."; from1 += ext; // Tweaks apply to the binary inside the bundle. to1 += "."; to1 += ext; to1 += "/"; if (!mf->PlatformIsAppleEmbedded()) { to1 += "Contents/MacOS/"; } to1 += targetNames.Output; } else { // Tweaks apply to the real file, so list it first. if (targetNames.Real != targetNames.Output) { std::string from2 = fromDirConfig + targetNames.Real; std::string to2 = targetNames.Real; files.From.emplace_back(std::move(from2)); files.To.emplace_back(std::move(to2)); } } files.From.emplace_back(std::move(from1)); files.To.emplace_back(std::move(to1)); } } else { cmGeneratorTarget::Names targetNames = this->Target->GetLibraryNames(config); if (this->ImportLibrary) { // There is a bug in cmInstallCommand if this fails. assert(this->Target->Makefile->PlatformSupportsAppleTextStubs() || this->ImportlinkMode == NamelinkModeNone); auto GNUToMS = [this, &config, &files, &fromDirConfig](const std::string& lib) { std::string importLib; if (this->Target->GetImplibGNUtoMS(config, lib, importLib)) { files.From.emplace_back(fromDirConfig + importLib); files.To.emplace_back(importLib); } }; computeFilesToInstall( files, this->ImportlinkMode, fromDirConfig, targetNames.ImportOutput, targetNames.ImportLibrary, targetNames.ImportReal, GNUToMS); // An import library looks like a static library. files.Type = cmInstallType_STATIC_LIBRARY; } else if (this->Target->IsFrameworkOnApple()) { // FIXME: In principle we should be able to // assert(this->NamelinkMode == NamelinkModeNone); // but since the current install() command implementation checks // the FRAMEWORK property immediately instead of delaying until // generate time, it is possible for project code to set the // property after calling install(). In such a case, the install() // command will use the LIBRARY code path and create two install // generators, one for the namelink component (NamelinkModeOnly) // and one for the primary artifact component (NamelinkModeSkip). // Historically this was not diagnosed and resulted in silent // installation of a framework to the LIBRARY destination. // Retain that behavior and warn about the case. switch (this->NamelinkMode) { case NamelinkModeNone: // Normal case. break; case NamelinkModeOnly: // Assume the NamelinkModeSkip instance will warn and install. return files; case NamelinkModeSkip: { std::string e = "Target '" + this->Target->GetName() + "' was changed to a FRAMEWORK sometime after install(). " "This may result in the wrong install DESTINATION. " "Set the FRAMEWORK property earlier."; this->Target->GetGlobalGenerator()->GetCMakeInstance()->IssueMessage( MessageType::AUTHOR_WARNING, e, this->GetBacktrace()); } break; } // Install the whole framework directory. files.Type = cmInstallType_DIRECTORY; files.UseSourcePermissions = true; std::string from1 = fromDirConfig + targetNames.Output; from1 = cmSystemTools::GetFilenamePath(from1); // Tweaks apply to the binary inside the bundle. std::string to1 = targetNames.Real; files.From.emplace_back(std::move(from1)); files.To.emplace_back(std::move(to1)); } else if (this->Target->IsCFBundleOnApple()) { // Install the whole app bundle directory. files.Type = cmInstallType_DIRECTORY; files.UseSourcePermissions = true; std::string targetNameBase = targetNames.Output.substr(0, targetNames.Output.find('/')); std::string from1 = fromDirConfig + targetNameBase; std::string to1 = targetNames.Output; files.From.emplace_back(std::move(from1)); files.To.emplace_back(std::move(to1)); } else { computeFilesToInstall(files, this->NamelinkMode, fromDirConfig, targetNames.Output, targetNames.SharedObject, targetNames.Real); } } // If this fails the above code is buggy. assert(files.From.size() == files.To.size()); return files; } void cmInstallTargetGenerator::GetInstallObjectNames( std::string const& config, std::vector& objects) const { this->Target->GetTargetObjectNames(config, objects); for (std::string& o : objects) { o = cmStrCat(computeInstallObjectDir(this->Target, config), "/", o); } } std::string cmInstallTargetGenerator::GetDestination( std::string const& config) const { return cmGeneratorExpression::Evaluate( this->Destination, this->Target->GetLocalGenerator(), config); } std::string cmInstallTargetGenerator::GetInstallFilename( const std::string& config) const { NameType nameType = this->ImportLibrary ? NameImplib : NameNormal; return cmInstallTargetGenerator::GetInstallFilename(this->Target, config, nameType); } std::string cmInstallTargetGenerator::GetInstallFilename( cmGeneratorTarget const* target, const std::string& config, NameType nameType) { std::string fname; // Compute the name of the library. if (target->GetType() == cmStateEnums::EXECUTABLE) { cmGeneratorTarget::Names targetNames = target->GetExecutableNames(config); if (nameType == NameImplib) { // Use the import library name. if (!target->GetImplibGNUtoMS(config, targetNames.ImportLibrary, fname, "${CMAKE_IMPORT_LIBRARY_SUFFIX}")) { fname = targetNames.ImportLibrary; } } else if (nameType == NameImplibReal) { // Use the import library name. if (!target->GetImplibGNUtoMS(config, targetNames.ImportReal, fname, "${CMAKE_IMPORT_LIBRARY_SUFFIX}")) { fname = targetNames.ImportReal; } } else if (nameType == NameReal) { // Use the canonical name. fname = targetNames.Real; } else { // Use the canonical name. fname = targetNames.Output; } } else { cmGeneratorTarget::Names targetNames = target->GetLibraryNames(config); if (nameType == NameImplib || nameType == NameImplibReal) { const auto& importName = nameType == NameImplib ? targetNames.ImportLibrary : targetNames.ImportReal; // Use the import library name. if (!target->GetImplibGNUtoMS(config, importName, fname, "${CMAKE_IMPORT_LIBRARY_SUFFIX}")) { fname = importName; } } else if (nameType == NameSO) { // Use the soname. fname = targetNames.SharedObject; } else if (nameType == NameReal) { // Use the real name. fname = targetNames.Real; } else { // Use the canonical name. fname = targetNames.Output; } } return fname; } bool cmInstallTargetGenerator::Compute(cmLocalGenerator* lg) { // Lookup this target in the current directory. this->Target = lg->FindLocalNonAliasGeneratorTarget(this->TargetName); if (!this->Target) { // If no local target has been found, find it in the global scope. this->Target = lg->GetGlobalGenerator()->FindGeneratorTarget(this->TargetName); } return true; } void cmInstallTargetGenerator::PreReplacementTweaks(std::ostream& os, Indent indent, const std::string& config, std::string const& file) { this->AddRPathCheckRule(os, indent, config, file); } void cmInstallTargetGenerator::PostReplacementTweaks(std::ostream& os, Indent indent, const std::string& config, std::string const& file) { this->AddInstallNamePatchRule(os, indent, config, file); this->AddChrpathPatchRule(os, indent, config, file); this->AddUniversalInstallRule(os, indent, file); this->AddRanlibRule(os, indent, file); this->AddStripRule(os, indent, file); } void cmInstallTargetGenerator::AddInstallNamePatchRule( std::ostream& os, Indent indent, const std::string& config, std::string const& toDestDirPath) { if (this->ImportLibrary || this->NamelinkMode == NamelinkModeOnly || !(this->Target->GetType() == cmStateEnums::SHARED_LIBRARY || this->Target->GetType() == cmStateEnums::MODULE_LIBRARY || this->Target->GetType() == cmStateEnums::EXECUTABLE)) { return; } // Fix the install_name settings in installed binaries. std::string installNameTool = this->Target->Target->GetMakefile()->GetSafeDefinition( "CMAKE_INSTALL_NAME_TOOL"); if (installNameTool.empty()) { return; } // Build a map of build-tree install_name to install-tree install_name for // shared libraries linked to this target. std::map install_name_remap; if (cmComputeLinkInformation* cli = this->Target->GetLinkInformation(config)) { std::set const& sharedLibs = cli->GetSharedLibrariesLinked(); for (cmGeneratorTarget const* tgt : sharedLibs) { // The install_name of an imported target does not change. if (tgt->IsImported()) { continue; } // If the build tree and install tree use different path // components of the install_name field then we need to create a // mapping to be applied after installation. std::string for_build = tgt->GetInstallNameDirForBuildTree(config); std::string for_install = tgt->GetInstallNameDirForInstallTree( config, "${CMAKE_INSTALL_PREFIX}"); if (for_build != for_install) { // The directory portions differ. Append the filename to // create the mapping. std::string fname = this->GetInstallFilename(tgt, config, NameSO); // Map from the build-tree install_name. for_build += fname; // Map to the install-tree install_name. for_install += fname; // Store the mapping entry. install_name_remap[for_build] = for_install; } } } // Edit the install_name of the target itself if necessary. std::string new_id; if (this->Target->GetType() == cmStateEnums::SHARED_LIBRARY) { std::string for_build = this->Target->GetInstallNameDirForBuildTree(config); std::string for_install = this->Target->GetInstallNameDirForInstallTree( config, "${CMAKE_INSTALL_PREFIX}"); if (this->Target->IsFrameworkOnApple() && for_install.empty()) { // Frameworks seem to have an id corresponding to their own full // path. // ... // for_install = fullDestPath_without_DESTDIR_or_name; } // If the install name will change on installation set the new id // on the installed file. if (for_build != for_install) { // Prepare to refer to the install-tree install_name. new_id = cmStrCat( for_install, this->GetInstallFilename(this->Target, config, NameSO)); } } // Write a rule to run install_name_tool to set the install-tree // install_name value and references. if (!new_id.empty() || !install_name_remap.empty()) { os << indent << "execute_process(COMMAND \"" << installNameTool; os << "\""; if (!new_id.empty()) { os << "\n" << indent << " -id \"" << new_id << "\""; } for (auto const& i : install_name_remap) { os << "\n" << indent << " -change \"" << i.first << "\" \"" << i.second << "\""; } os << "\n" << indent << " \"" << toDestDirPath << "\")\n"; } } void cmInstallTargetGenerator::AddRPathCheckRule( std::ostream& os, Indent indent, const std::string& config, std::string const& toDestDirPath) { // Skip the chrpath if the target does not need it. if (this->ImportLibrary || this->NamelinkMode == NamelinkModeOnly || !this->Target->IsChrpathUsed(config)) { return; } // Skip if on Apple if (this->Target->Target->GetMakefile()->IsOn( "CMAKE_PLATFORM_HAS_INSTALLNAME")) { return; } // Get the link information for this target. // It can provide the RPATH. cmComputeLinkInformation* cli = this->Target->GetLinkInformation(config); if (!cli) { return; } // Write a rule to remove the installed file if its rpath is not the // new rpath. This is needed for existing build/install trees when // the installed rpath changes but the file is not rebuilt. os << indent << "file(RPATH_CHECK\n" << indent << " FILE \"" << toDestDirPath << "\"\n"; // CMP0095: ``RPATH`` entries are properly escaped in the intermediary // CMake install script. switch (this->Target->GetPolicyStatusCMP0095()) { case cmPolicies::WARN: // No author warning needed here, we warn later in // cmInstallTargetGenerator::AddChrpathPatchRule(). CM_FALLTHROUGH; case cmPolicies::OLD: { // Get the install RPATH from the link information. std::string newRpath = cli->GetChrpathString(); os << indent << " RPATH \"" << newRpath << "\")\n"; break; } default: { // Get the install RPATH from the link information and // escape any CMake syntax in the install RPATH. std::string escapedNewRpath = cmOutputConverter::EscapeForCMake(cli->GetChrpathString()); os << indent << " RPATH " << escapedNewRpath << ")\n"; break; } } } void cmInstallTargetGenerator::AddChrpathPatchRule( std::ostream& os, Indent indent, const std::string& config, std::string const& toDestDirPath) { // Skip the chrpath if the target does not need it. if (this->ImportLibrary || this->NamelinkMode == NamelinkModeOnly || !this->Target->IsChrpathUsed(config)) { return; } // Get the link information for this target. // It can provide the RPATH. cmComputeLinkInformation* cli = this->Target->GetLinkInformation(config); if (!cli) { return; } cmMakefile* mf = this->Target->Target->GetMakefile(); if (mf->IsOn("CMAKE_PLATFORM_HAS_INSTALLNAME")) { // If using install_name_tool, set up the rules to modify the rpaths. std::string installNameTool = mf->GetSafeDefinition("CMAKE_INSTALL_NAME_TOOL"); std::vector oldRuntimeDirs; std::vector newRuntimeDirs; cli->GetRPath(oldRuntimeDirs, false); cli->GetRPath(newRuntimeDirs, true); std::string darwin_major_version_s = mf->GetSafeDefinition("DARWIN_MAJOR_VERSION"); std::istringstream ss(darwin_major_version_s); int darwin_major_version; ss >> darwin_major_version; if (!ss.fail() && darwin_major_version <= 9 && (!oldRuntimeDirs.empty() || !newRuntimeDirs.empty())) { std::ostringstream msg; msg << "WARNING: Target \"" << this->Target->GetName() << "\" has runtime paths which cannot be changed during install. " << "To change runtime paths, OS X version 10.6 or newer is required. " << "Therefore, runtime paths will not be changed when installing. " << "CMAKE_BUILD_WITH_INSTALL_RPATH may be used to work around" " this limitation."; mf->IssueMessage(MessageType::WARNING, msg.str()); } else { // To be consistent with older versions, runpath changes must be ordered, // deleted first, then added, *and* the same path must only appear once. std::map runpath_change; std::vector ordered; for (std::string const& dir : oldRuntimeDirs) { // Normalize path and add to map of changes to make auto iter_inserted = runpath_change.insert( { mf->GetGlobalGenerator()->ExpandCFGIntDir(dir, config), "delete" }); if (iter_inserted.second) { // Add path to ordered list of changes ordered.push_back(iter_inserted.first->first); } } for (std::string const& dir : newRuntimeDirs) { // Normalize path and add to map of changes to make auto iter_inserted = runpath_change.insert( { mf->GetGlobalGenerator()->ExpandCFGIntDir(dir, config), "add" }); if (iter_inserted.second) { // Add path to ordered list of changes ordered.push_back(iter_inserted.first->first); } else if (iter_inserted.first->second != "add") { // Rpath was requested to be deleted and then later re-added. Drop it // from the list by marking as an empty value. iter_inserted.first->second.clear(); } } // Remove rpaths that are unchanged (value was set to empty) ordered.erase( std::remove_if(ordered.begin(), ordered.end(), [&runpath_change](const std::string& runpath) { return runpath_change.find(runpath)->second.empty(); }), ordered.end()); if (!ordered.empty()) { os << indent << "execute_process(COMMAND " << installNameTool << "\n"; for (std::string const& runpath : ordered) { // Either 'add_rpath' or 'delete_rpath' since we've removed empty // entries os << indent << " -" << runpath_change.find(runpath)->second << "_rpath \"" << runpath << "\"\n"; } os << indent << " \"" << toDestDirPath << "\")\n"; } } } else { // Construct the original rpath string to be replaced. std::string oldRpath = cli->GetRPathString(false); // Get the install RPATH from the link information. std::string newRpath = cli->GetChrpathString(); // Skip the rule if the paths are identical if (oldRpath == newRpath) { return; } // Escape any CMake syntax in the RPATHs. std::string escapedOldRpath = cmOutputConverter::EscapeForCMake(oldRpath); std::string escapedNewRpath = cmOutputConverter::EscapeForCMake(newRpath); // Write a rule to run chrpath to set the install-tree RPATH os << indent << "file(RPATH_CHANGE\n" << indent << " FILE \"" << toDestDirPath << "\"\n" << indent << " OLD_RPATH " << escapedOldRpath << "\n"; // CMP0095: ``RPATH`` entries are properly escaped in the intermediary // CMake install script. switch (this->Target->GetPolicyStatusCMP0095()) { case cmPolicies::WARN: this->IssueCMP0095Warning(newRpath); CM_FALLTHROUGH; case cmPolicies::OLD: os << indent << " NEW_RPATH \"" << newRpath << "\""; break; default: os << indent << " NEW_RPATH " << escapedNewRpath; break; } if (this->Target->GetPropertyAsBool("INSTALL_REMOVE_ENVIRONMENT_RPATH")) { os << "\n" << indent << " INSTALL_REMOVE_ENVIRONMENT_RPATH)\n"; } else { os << ")\n"; } } } void cmInstallTargetGenerator::AddStripRule(std::ostream& os, Indent indent, const std::string& toDestDirPath) { // don't strip static and import libraries, because it removes the only // symbol table they have so you can't link to them anymore if (this->Target->GetType() == cmStateEnums::STATIC_LIBRARY || this->ImportLibrary || this->NamelinkMode == NamelinkModeOnly) { return; } // Don't handle OSX Bundles. if (this->Target->IsApple() && this->Target->GetPropertyAsBool("MACOSX_BUNDLE")) { return; } if (!this->Target->Target->GetMakefile()->IsSet("CMAKE_STRIP")) { return; } std::string stripArgs; // macOS 'strip' is picky, executables need '-u -r' and dylibs need '-x'. if (this->Target->IsApple()) { if (this->Target->GetType() == cmStateEnums::SHARED_LIBRARY || this->Target->GetType() == cmStateEnums::MODULE_LIBRARY) { stripArgs = "-x "; } else if (this->Target->GetType() == cmStateEnums::EXECUTABLE) { stripArgs = "-u -r "; } } os << indent << "if(CMAKE_INSTALL_DO_STRIP)\n"; os << indent << " execute_process(COMMAND \"" << this->Target->Target->GetMakefile()->GetSafeDefinition("CMAKE_STRIP") << "\" " << stripArgs << "\"" << toDestDirPath << "\")\n"; os << indent << "endif()\n"; } void cmInstallTargetGenerator::AddRanlibRule(std::ostream& os, Indent indent, const std::string& toDestDirPath) { // Static libraries need ranlib on this platform. if (this->Target->GetType() != cmStateEnums::STATIC_LIBRARY) { return; } // Perform post-installation processing on the file depending // on its type. if (!this->Target->IsApple()) { return; } const std::string& ranlib = this->Target->Target->GetMakefile()->GetRequiredDefinition("CMAKE_RANLIB"); if (ranlib.empty()) { return; } os << indent << "execute_process(COMMAND \"" << ranlib << "\" \"" << toDestDirPath << "\")\n"; } void cmInstallTargetGenerator::AddUniversalInstallRule( std::ostream& os, Indent indent, const std::string& toDestDirPath) { cmMakefile const* mf = this->Target->Target->GetMakefile(); if (!mf->PlatformIsAppleEmbedded() || !mf->IsOn("XCODE")) { return; } cmValue xcodeVersion = mf->GetDefinition("XCODE_VERSION"); if (!xcodeVersion || cmSystemTools::VersionCompareGreater("6", *xcodeVersion)) { return; } switch (this->Target->GetType()) { case cmStateEnums::EXECUTABLE: case cmStateEnums::STATIC_LIBRARY: case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: break; default: return; } if (!this->Target->Target->GetPropertyAsBool("IOS_INSTALL_COMBINED")) { return; } os << indent << "include(CMakeIOSInstallCombined)\n"; os << indent << "ios_install_combined(" << "\"" << this->Target->Target->GetName() << "\" " << "\"" << toDestDirPath << "\")\n"; } void cmInstallTargetGenerator::IssueCMP0095Warning( const std::string& unescapedRpath) { // Reduce warning noise to cases where used RPATHs may actually be affected // by CMP0095. This filter is meant to skip warnings in cases when // non-curly-braces syntax (e.g. $ORIGIN) or no keyword is used which has // worked already before CMP0095. We intend to issue a warning in all cases // with curly-braces syntax, even if the workaround of double-escaping is in // place, since we deprecate the need for it with CMP0095. const bool potentially_affected(unescapedRpath.find("${") != std::string::npos); if (potentially_affected) { std::ostringstream w; w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0095) << "\n"; w << "RPATH entries for target '" << this->Target->GetName() << "' " << "will not be escaped in the intermediary " << "cmake_install.cmake script."; this->Target->GetGlobalGenerator()->GetCMakeInstance()->IssueMessage( MessageType::AUTHOR_WARNING, w.str(), this->GetBacktrace()); } }