/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmCPackDebGenerator.h" #include #include #include #include #include #include #include #include "cmsys/Glob.hxx" #include "cm_sys_stat.h" #include "cmArchiveWrite.h" #include "cmCPackComponentGroup.h" #include "cmCPackGenerator.h" #include "cmCPackLog.h" #include "cmCryptoHash.h" #include "cmGeneratedFileStream.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmValue.h" namespace { class DebGenerator { public: DebGenerator(cmCPackLog* logger, std::string outputName, std::string workDir, std::string topLevelDir, std::string temporaryDir, cmValue debianCompressionType, cmValue numThreads, cmValue debianArchiveType, std::map controlValues, bool genShLibs, std::string shLibsFilename, bool genPostInst, std::string postInst, bool genPostRm, std::string postRm, cmValue controlExtra, bool permissionStrctPolicy, std::vector packageFiles); bool generate() const; private: void generateDebianBinaryFile() const; void generateControlFile() const; bool generateDataTar() const; std::string generateMD5File() const; bool generateControlTar(std::string const& md5Filename) const; bool generateDeb() const; cmCPackLog* Logger; const std::string OutputName; const std::string WorkDir; std::string CompressionSuffix; const std::string TopLevelDir; const std::string TemporaryDir; const std::string DebianArchiveType; long NumThreads; const std::map ControlValues; const bool GenShLibs; const std::string ShLibsFilename; const bool GenPostInst; const std::string PostInst; const bool GenPostRm; const std::string PostRm; cmValue ControlExtra; const bool PermissionStrictPolicy; const std::vector PackageFiles; cmArchiveWrite::Compress TarCompressionType; }; DebGenerator::DebGenerator( cmCPackLog* logger, std::string outputName, std::string workDir, std::string topLevelDir, std::string temporaryDir, cmValue debCompressionType, cmValue numThreads, cmValue debianArchiveType, std::map controlValues, bool genShLibs, std::string shLibsFilename, bool genPostInst, std::string postInst, bool genPostRm, std::string postRm, cmValue controlExtra, bool permissionStrictPolicy, std::vector packageFiles) : Logger(logger) , OutputName(std::move(outputName)) , WorkDir(std::move(workDir)) , TopLevelDir(std::move(topLevelDir)) , TemporaryDir(std::move(temporaryDir)) , DebianArchiveType(debianArchiveType ? *debianArchiveType : "gnutar") , ControlValues(std::move(controlValues)) , GenShLibs(genShLibs) , ShLibsFilename(std::move(shLibsFilename)) , GenPostInst(genPostInst) , PostInst(std::move(postInst)) , GenPostRm(genPostRm) , PostRm(std::move(postRm)) , ControlExtra(controlExtra) , PermissionStrictPolicy(permissionStrictPolicy) , PackageFiles(std::move(packageFiles)) { std::string debianCompressionType = "gzip"; if (debCompressionType) { debianCompressionType = *debCompressionType; } if (debianCompressionType == "lzma") { this->CompressionSuffix = ".lzma"; this->TarCompressionType = cmArchiveWrite::CompressLZMA; } else if (debianCompressionType == "xz") { this->CompressionSuffix = ".xz"; this->TarCompressionType = cmArchiveWrite::CompressXZ; } else if (debianCompressionType == "bzip2") { this->CompressionSuffix = ".bz2"; this->TarCompressionType = cmArchiveWrite::CompressBZip2; } else if (debianCompressionType == "gzip") { this->CompressionSuffix = ".gz"; this->TarCompressionType = cmArchiveWrite::CompressGZip; } else if (debianCompressionType == "zstd") { this->CompressionSuffix = ".zst"; this->TarCompressionType = cmArchiveWrite::CompressZstd; } else if (debianCompressionType == "none") { this->CompressionSuffix.clear(); this->TarCompressionType = cmArchiveWrite::CompressNone; } else { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error unrecognized compression type: " << debianCompressionType << std::endl); } if (numThreads) { if (!cmStrToLong(*numThreads, &this->NumThreads)) { this->NumThreads = 1; cmCPackLogger(cmCPackLog::LOG_ERROR, "Unrecognized number of threads: " << numThreads << std::endl); } } else { this->NumThreads = 1; } } bool DebGenerator::generate() const { this->generateDebianBinaryFile(); this->generateControlFile(); if (!this->generateDataTar()) { return false; } std::string md5Filename = this->generateMD5File(); if (!this->generateControlTar(md5Filename)) { return false; } return this->generateDeb(); } void DebGenerator::generateDebianBinaryFile() const { // debian-binary file const std::string dbfilename = this->WorkDir + "/debian-binary"; cmGeneratedFileStream out; out.Open(dbfilename, false, true); out << "2.0\n"; // required for valid debian package } void DebGenerator::generateControlFile() const { std::string ctlfilename = this->WorkDir + "/control"; cmGeneratedFileStream out; out.Open(ctlfilename, false, true); for (auto const& kv : this->ControlValues) { out << kv.first << ": " << kv.second << "\n"; } unsigned long totalSize = 0; { for (std::string const& file : this->PackageFiles) { totalSize += cmSystemTools::FileLength(file); } } out << "Installed-Size: " << (totalSize + 1023) / 1024 << "\n\n"; } bool DebGenerator::generateDataTar() const { std::string filename_data_tar = this->WorkDir + "/data.tar" + this->CompressionSuffix; cmGeneratedFileStream fileStream_data_tar; fileStream_data_tar.Open(filename_data_tar, false, true); if (!fileStream_data_tar) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error opening the file \"" << filename_data_tar << "\" for writing" << std::endl); return false; } cmArchiveWrite data_tar(fileStream_data_tar, this->TarCompressionType, this->DebianArchiveType, 0, static_cast(this->NumThreads)); if (!data_tar.Open()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error opening the archive \"" << filename_data_tar << "\", ERROR = " << data_tar.GetError() << std::endl); return false; } // uid/gid should be the one of the root user, and this root user has // always uid/gid equal to 0. data_tar.SetUIDAndGID(0U, 0U); data_tar.SetUNAMEAndGNAME("root", "root"); // now add all directories which have to be compressed // collect all top level install dirs for that // e.g. /opt/bin/foo, /usr/bin/bar and /usr/bin/baz would // give /usr and /opt size_t topLevelLength = this->WorkDir.length(); cmCPackLogger(cmCPackLog::LOG_DEBUG, "WDIR: \"" << this->WorkDir << "\", length = " << topLevelLength << std::endl); std::set orderedFiles; // we have to reconstruct the parent folders as well for (std::string currentPath : this->PackageFiles) { while (currentPath != this->WorkDir) { // the last one IS WorkDir, but we do not want this one: // XXX/application/usr/bin/myprogram with GEN_WDIR=XXX/application // should not add XXX/application orderedFiles.insert(currentPath); currentPath = cmSystemTools::CollapseFullPath("..", currentPath); } } for (std::string const& file : orderedFiles) { cmCPackLogger(cmCPackLog::LOG_DEBUG, "FILEIT: \"" << file << "\"" << std::endl); std::string::size_type slashPos = file.find('/', topLevelLength + 1); std::string relativeDir = file.substr(topLevelLength, slashPos - topLevelLength); cmCPackLogger(cmCPackLog::LOG_DEBUG, "RELATIVEDIR: \"" << relativeDir << "\"" << std::endl); #ifdef _WIN32 std::string mode_t_adt_filename = file + ":cmake_mode_t"; cmsys::ifstream permissionStream(mode_t_adt_filename.c_str()); mode_t permissions = 0; if (permissionStream) { permissionStream >> std::oct >> permissions; } if (permissions != 0) { data_tar.SetPermissions(permissions); } else if (cmSystemTools::FileIsDirectory(file)) { data_tar.SetPermissions(0755); } else { data_tar.ClearPermissions(); } #endif // do not recurse because the loop will do it if (!data_tar.Add(file, topLevelLength, ".", false)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Problem adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#file: " << file << "\n" "#error:" << data_tar.GetError() << std::endl); return false; } } return true; } std::string DebGenerator::generateMD5File() const { std::string md5filename = this->WorkDir + "/md5sums"; cmGeneratedFileStream out; out.Open(md5filename, false, true); std::string topLevelWithTrailingSlash = cmStrCat(this->TemporaryDir, '/'); for (std::string const& file : this->PackageFiles) { // hash only regular files if (cmSystemTools::FileIsDirectory(file) || cmSystemTools::FileIsSymlink(file)) { continue; } std::string output = cmSystemTools::ComputeFileHash(file, cmCryptoHash::AlgoMD5); if (output.empty()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Problem computing the md5 of " << file << std::endl); } output += " " + file + "\n"; // debian md5sums entries are like this: // 014f3604694729f3bf19263bac599765 usr/bin/ccmake // thus strip the full path (with the trailing slash) cmSystemTools::ReplaceString(output, topLevelWithTrailingSlash.c_str(), ""); out << output; } // each line contains a eol. // Do not end the md5sum file with yet another (invalid) return md5filename; } bool DebGenerator::generateControlTar(std::string const& md5Filename) const { std::string filename_control_tar = this->WorkDir + "/control.tar.gz"; cmGeneratedFileStream fileStream_control_tar; fileStream_control_tar.Open(filename_control_tar, false, true); if (!fileStream_control_tar) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error opening the file \"" << filename_control_tar << "\" for writing" << std::endl); return false; } cmArchiveWrite control_tar(fileStream_control_tar, cmArchiveWrite::CompressGZip, this->DebianArchiveType); if (!control_tar.Open()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error opening the archive \"" << filename_control_tar << "\", ERROR = " << control_tar.GetError() << std::endl); return false; } // sets permissions and uid/gid for the files control_tar.SetUIDAndGID(0u, 0u); control_tar.SetUNAMEAndGNAME("root", "root"); /* permissions are set according to https://www.debian.org/doc/debian-policy/ch-files.html#s-permissions-owners and https://lintian.debian.org/tags/control-file-has-bad-permissions.html */ const mode_t permission644 = 0644; const mode_t permissionExecute = 0111; const mode_t permission755 = permission644 | permissionExecute; // for md5sum and control (that we have generated here), we use 644 // (RW-R--R--) // so that deb lintian doesn't warn about it control_tar.SetPermissions(permission644); // adds control and md5sums if (!control_tar.Add(md5Filename, this->WorkDir.length(), ".") || !control_tar.Add(this->WorkDir + "/control", this->WorkDir.length(), ".")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#file: \"control\" or \"md5sums\"\n" "#error:" << control_tar.GetError() << std::endl); return false; } // adds generated shlibs file if (this->GenShLibs) { if (!control_tar.Add(this->ShLibsFilename, this->WorkDir.length(), ".")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#file: \"shlibs\"\n" "#error:" << control_tar.GetError() << std::endl); return false; } } // adds LDCONFIG related files if (this->GenPostInst) { control_tar.SetPermissions(permission755); if (!control_tar.Add(this->PostInst, this->WorkDir.length(), ".")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#file: \"postinst\"\n" "#error:" << control_tar.GetError() << std::endl); return false; } control_tar.SetPermissions(permission644); } if (this->GenPostRm) { control_tar.SetPermissions(permission755); if (!control_tar.Add(this->PostRm, this->WorkDir.length(), ".")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#file: \"postinst\"\n" "#error:" << control_tar.GetError() << std::endl); return false; } control_tar.SetPermissions(permission644); } // for the other files, we use // -either the original permission on the files // -either a permission strictly defined by the Debian policies if (this->ControlExtra) { // permissions are now controlled by the original file permissions static const char* strictFiles[] = { "config", "postinst", "postrm", "preinst", "prerm" }; std::set setStrictFiles( strictFiles, strictFiles + sizeof(strictFiles) / sizeof(strictFiles[0])); // default control_tar.ClearPermissions(); std::vector controlExtraList = cmExpandedList(this->ControlExtra); for (std::string const& i : controlExtraList) { std::string filenamename = cmsys::SystemTools::GetFilenameName(i); std::string localcopy = this->WorkDir + "/" + filenamename; if (this->PermissionStrictPolicy) { control_tar.SetPermissions( setStrictFiles.count(filenamename) ? permission755 : permission644); } // if we can copy the file, it means it does exist, let's add it: if (!cmsys::SystemTools::FileExists(i)) { cmCPackLogger(cmCPackLog::LOG_WARNING, "Adding file to tar:\n" "#top level directory: " << this->WorkDir << "\n" "#missing file: " << i << std::endl); } if (cmsys::SystemTools::CopyFileIfDifferent(i, localcopy)) { control_tar.Add(localcopy, this->WorkDir.length(), "."); } } } return true; } bool DebGenerator::generateDeb() const { // ar -r your-package-name.deb debian-binary control.tar.* data.tar.* // A debian package .deb is simply an 'ar' archive. The only subtle // difference is that debian uses the BSD ar style archive whereas most // Linux distro have a GNU ar. // See http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=161593 for more info std::string const outputPath = this->TopLevelDir + "/" + this->OutputName; std::string const tlDir = this->WorkDir + "/"; cmGeneratedFileStream debStream; debStream.Open(outputPath, false, true); cmArchiveWrite deb(debStream, cmArchiveWrite::CompressNone, "arbsd"); if (!deb.Open()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error opening the archive \"" << outputPath << "\", ERROR = " << deb.GetError() << std::endl); return false; } // uid/gid should be the one of the root user, and this root user has // always uid/gid equal to 0. deb.SetUIDAndGID(0u, 0u); deb.SetUNAMEAndGNAME("root", "root"); if (!deb.Add(tlDir + "debian-binary", tlDir.length()) || !deb.Add(tlDir + "control.tar.gz", tlDir.length()) || !deb.Add(tlDir + "data.tar" + this->CompressionSuffix, tlDir.length())) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error creating debian package:\n" "#top level directory: " << this->TopLevelDir << "\n" "#file: " << this->OutputName << "\n" "#error:" << deb.GetError() << std::endl); return false; } return true; } std::vector findFilesIn(const std::string& path) { cmsys::Glob gl; std::string findExpr = path + "/*"; gl.RecurseOn(); gl.SetRecurseListDirs(true); gl.SetRecurseThroughSymlinks(false); if (!gl.FindFiles(findExpr)) { throw std::runtime_error( "Cannot find any files in the installed directory"); } std::vector files{ gl.GetFiles() }; // Sort files so that they have a reproducible order std::sort(files.begin(), files.end()); return files; } } // end anonymous namespace cmCPackDebGenerator::cmCPackDebGenerator() = default; cmCPackDebGenerator::~cmCPackDebGenerator() = default; int cmCPackDebGenerator::InitializeInternal() { this->SetOptionIfNotSet("CPACK_PACKAGING_INSTALL_PREFIX", "/usr"); if (cmIsOff(this->GetOption("CPACK_SET_DESTDIR"))) { this->SetOption("CPACK_SET_DESTDIR", "I_ON"); } return this->Superclass::InitializeInternal(); } int cmCPackDebGenerator::PackageOnePack(std::string const& initialTopLevel, std::string const& packageName) { // Begin the archive for this pack std::string localToplevel(initialTopLevel); std::string packageFileName( cmSystemTools::GetParentDirectory(this->toplevel)); std::string outputFileName(*this->GetOption("CPACK_PACKAGE_FILE_NAME") + "-" + packageName + this->GetOutputExtension()); localToplevel += "/" + packageName; /* replace the TEMP DIRECTORY with the component one */ this->SetOption("CPACK_TEMPORARY_DIRECTORY", localToplevel); packageFileName += "/" + outputFileName; /* replace proposed CPACK_OUTPUT_FILE_NAME */ this->SetOption("CPACK_OUTPUT_FILE_NAME", outputFileName); /* replace the TEMPORARY package file name */ this->SetOption("CPACK_TEMPORARY_PACKAGE_FILE_NAME", packageFileName); // Tell CPackDeb.cmake the name of the component GROUP. this->SetOption("CPACK_DEB_PACKAGE_COMPONENT", packageName); // Tell CPackDeb.cmake the path where the component is. std::string component_path = cmStrCat('/', packageName); this->SetOption("CPACK_DEB_PACKAGE_COMPONENT_PART_PATH", component_path); if (!this->ReadListFile("Internal/CPack/CPackDeb.cmake")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error while execution CPackDeb.cmake" << std::endl); return 0; } return this->createDebPackages(); } int cmCPackDebGenerator::PackageComponents(bool ignoreGroup) { // Reset package file name list it will be populated during the // component packaging run this->packageFileNames.clear(); std::string initialTopLevel(this->GetOption("CPACK_TEMPORARY_DIRECTORY")); int retval = 1; // The default behavior is to have one package by component group // unless CPACK_COMPONENTS_IGNORE_GROUP is specified. if (ignoreGroup) { // CPACK_COMPONENTS_IGNORE_GROUPS is set // We build 1 package per component for (auto const& comp : this->Components) { retval &= this->PackageOnePack(initialTopLevel, comp.first); } return retval; } for (auto const& compG : this->ComponentGroups) { cmCPackLogger(cmCPackLog::LOG_VERBOSE, "Packaging component group: " << compG.first << std::endl); // Begin the archive for this group retval &= this->PackageOnePack(initialTopLevel, compG.first); } // Handle Orphan components (components not belonging to any groups) for (auto const& comp : this->Components) { // Does the component belong to a group? if (comp.second.Group == nullptr) { cmCPackLogger( cmCPackLog::LOG_VERBOSE, "Component <" << comp.second.Name << "> does not belong to any group, package it separately." << std::endl); // Begin the archive for this orphan component retval &= this->PackageOnePack(initialTopLevel, comp.first); } } return retval; } //---------------------------------------------------------------------- int cmCPackDebGenerator::PackageComponentsAllInOne( const std::string& compInstDirName) { /* Reset package file name list it will be populated during the * component packaging run*/ this->packageFileNames.clear(); std::string initialTopLevel(this->GetOption("CPACK_TEMPORARY_DIRECTORY")); cmCPackLogger(cmCPackLog::LOG_VERBOSE, "Packaging all groups in one package..." "(CPACK_COMPONENTS_ALL_[GROUPS_]IN_ONE_PACKAGE is set)" << std::endl); // The ALL GROUPS in ONE package case std::string localToplevel(initialTopLevel); std::string packageFileName( cmSystemTools::GetParentDirectory(this->toplevel)); std::string outputFileName(*this->GetOption("CPACK_PACKAGE_FILE_NAME") + this->GetOutputExtension()); // all GROUP in one vs all COMPONENT in one // if must be here otherwise non component paths have a trailing / while // components don't if (!compInstDirName.empty()) { localToplevel += "/" + compInstDirName; } /* replace the TEMP DIRECTORY with the component one */ this->SetOption("CPACK_TEMPORARY_DIRECTORY", localToplevel); packageFileName += "/" + outputFileName; /* replace proposed CPACK_OUTPUT_FILE_NAME */ this->SetOption("CPACK_OUTPUT_FILE_NAME", outputFileName); /* replace the TEMPORARY package file name */ this->SetOption("CPACK_TEMPORARY_PACKAGE_FILE_NAME", packageFileName); if (!compInstDirName.empty()) { // Tell CPackDeb.cmake the path where the component is. std::string component_path = cmStrCat('/', compInstDirName); this->SetOption("CPACK_DEB_PACKAGE_COMPONENT_PART_PATH", component_path); } if (!this->ReadListFile("Internal/CPack/CPackDeb.cmake")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error while execution CPackDeb.cmake" << std::endl); return 0; } return this->createDebPackages(); } int cmCPackDebGenerator::PackageFiles() { /* Are we in the component packaging case */ if (this->WantsComponentInstallation()) { // CASE 1 : COMPONENT ALL-IN-ONE package // If ALL GROUPS or ALL COMPONENTS in ONE package has been requested // then the package file is unique and should be open here. if (this->componentPackageMethod == ONE_PACKAGE) { return this->PackageComponentsAllInOne("ALL_COMPONENTS_IN_ONE"); } // CASE 2 : COMPONENT CLASSICAL package(s) (i.e. not all-in-one) // There will be 1 package for each component group // however one may require to ignore component group and // in this case you'll get 1 package for each component. return this->PackageComponents(this->componentPackageMethod == ONE_PACKAGE_PER_COMPONENT); } // CASE 3 : NON COMPONENT package. return this->PackageComponentsAllInOne(""); } bool cmCPackDebGenerator::createDebPackages() { auto make_package = [this](const std::string& path, const char* const output_var, bool (cmCPackDebGenerator::*creator)()) -> bool { try { this->packageFiles = findFilesIn(path); } catch (const std::runtime_error& ex) { cmCPackLogger(cmCPackLog::LOG_ERROR, ex.what() << std::endl); return false; } if ((this->*creator)()) { // add the generated package to package file names list this->packageFileNames.emplace_back( cmStrCat(this->GetOption("CPACK_TOPLEVEL_DIRECTORY"), '/', this->GetOption(output_var))); return true; } return false; }; bool retval = make_package(this->GetOption("GEN_WDIR"), "GEN_CPACK_OUTPUT_FILE_NAME", &cmCPackDebGenerator::createDeb); cmValue dbgsymdir_path = this->GetOption("GEN_DBGSYMDIR"); if (this->IsOn("GEN_CPACK_DEBIAN_DEBUGINFO_PACKAGE") && dbgsymdir_path) { retval = make_package(*dbgsymdir_path, "GEN_CPACK_DBGSYM_OUTPUT_FILE_NAME", &cmCPackDebGenerator::createDbgsymDDeb) && retval; } return static_cast(retval); } bool cmCPackDebGenerator::createDeb() { std::map controlValues; // debian policy enforce lower case for package name controlValues["Package"] = cmsys::SystemTools::LowerCase( this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_NAME")); controlValues["Version"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_VERSION"); controlValues["Section"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_SECTION"); controlValues["Priority"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_PRIORITY"); controlValues["Architecture"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_ARCHITECTURE"); controlValues["Maintainer"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_MAINTAINER"); controlValues["Description"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_DESCRIPTION"); cmValue debian_pkg_source = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_SOURCE"); if (cmNonempty(debian_pkg_source)) { controlValues["Source"] = *debian_pkg_source; } cmValue debian_pkg_dep = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_DEPENDS"); if (cmNonempty(debian_pkg_dep)) { controlValues["Depends"] = *debian_pkg_dep; } cmValue debian_pkg_rec = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_RECOMMENDS"); if (cmNonempty(debian_pkg_rec)) { controlValues["Recommends"] = *debian_pkg_rec; } cmValue debian_pkg_sug = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_SUGGESTS"); if (cmNonempty(debian_pkg_sug)) { controlValues["Suggests"] = *debian_pkg_sug; } cmValue debian_pkg_url = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_HOMEPAGE"); if (cmNonempty(debian_pkg_url)) { controlValues["Homepage"] = *debian_pkg_url; } cmValue debian_pkg_predep = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_PREDEPENDS"); if (cmNonempty(debian_pkg_predep)) { controlValues["Pre-Depends"] = *debian_pkg_predep; } cmValue debian_pkg_enhances = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_ENHANCES"); if (cmNonempty(debian_pkg_enhances)) { controlValues["Enhances"] = *debian_pkg_enhances; } cmValue debian_pkg_breaks = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_BREAKS"); if (cmNonempty(debian_pkg_breaks)) { controlValues["Breaks"] = *debian_pkg_breaks; } cmValue debian_pkg_conflicts = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_CONFLICTS"); if (cmNonempty(debian_pkg_conflicts)) { controlValues["Conflicts"] = *debian_pkg_conflicts; } cmValue debian_pkg_provides = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_PROVIDES"); if (cmNonempty(debian_pkg_provides)) { controlValues["Provides"] = *debian_pkg_provides; } cmValue debian_pkg_replaces = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_REPLACES"); if (cmNonempty(debian_pkg_replaces)) { controlValues["Replaces"] = *debian_pkg_replaces; } const std::string strGenWDIR(this->GetOption("GEN_WDIR")); const std::string shlibsfilename = strGenWDIR + "/shlibs"; cmValue debian_pkg_shlibs = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_SHLIBS"); const bool gen_shibs = this->IsOn("CPACK_DEBIAN_PACKAGE_GENERATE_SHLIBS") && cmNonempty(debian_pkg_shlibs); if (gen_shibs) { cmGeneratedFileStream out; out.Open(shlibsfilename, false, true); out << debian_pkg_shlibs; out << '\n'; } const std::string postinst = strGenWDIR + "/postinst"; const std::string postrm = strGenWDIR + "/postrm"; if (this->IsOn("GEN_CPACK_DEBIAN_GENERATE_POSTINST")) { cmGeneratedFileStream out; out.Open(postinst, false, true); out << "#!/bin/sh\n\n" "set -e\n\n" "if [ \"$1\" = \"configure\" ]; then\n" "\tldconfig\n" "fi\n"; } if (this->IsOn("GEN_CPACK_DEBIAN_GENERATE_POSTRM")) { cmGeneratedFileStream out; out.Open(postrm, false, true); out << "#!/bin/sh\n\n" "set -e\n\n" "if [ \"$1\" = \"remove\" ]; then\n" "\tldconfig\n" "fi\n"; } DebGenerator gen( this->Logger, this->GetOption("GEN_CPACK_OUTPUT_FILE_NAME"), strGenWDIR, this->GetOption("CPACK_TOPLEVEL_DIRECTORY"), this->GetOption("CPACK_TEMPORARY_DIRECTORY"), this->GetOption("GEN_CPACK_DEBIAN_COMPRESSION_TYPE"), this->GetOption("CPACK_THREADS"), this->GetOption("GEN_CPACK_DEBIAN_ARCHIVE_TYPE"), controlValues, gen_shibs, shlibsfilename, this->IsOn("GEN_CPACK_DEBIAN_GENERATE_POSTINST"), postinst, this->IsOn("GEN_CPACK_DEBIAN_GENERATE_POSTRM"), postrm, this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_CONTROL_EXTRA"), this->IsSet("GEN_CPACK_DEBIAN_PACKAGE_CONTROL_STRICT_PERMISSION"), this->packageFiles); return gen.generate(); } bool cmCPackDebGenerator::createDbgsymDDeb() { // Packages containing debug symbols follow the same structure as .debs // but have different metadata and content. std::map controlValues; // debian policy enforce lower case for package name std::string packageNameLower = cmsys::SystemTools::LowerCase( this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_NAME")); cmValue debian_pkg_version = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_VERSION"); controlValues["Package"] = packageNameLower + "-dbgsym"; controlValues["Package-Type"] = "ddeb"; controlValues["Version"] = *debian_pkg_version; controlValues["Auto-Built-Package"] = "debug-symbols"; controlValues["Depends"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_NAME") + std::string(" (= ") + *debian_pkg_version + ")"; controlValues["Section"] = "debug"; controlValues["Priority"] = "optional"; controlValues["Architecture"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_ARCHITECTURE"); controlValues["Maintainer"] = *this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_MAINTAINER"); controlValues["Description"] = std::string("debug symbols for ") + packageNameLower; cmValue debian_pkg_source = this->GetOption("GEN_CPACK_DEBIAN_PACKAGE_SOURCE"); if (cmNonempty(debian_pkg_source)) { controlValues["Source"] = *debian_pkg_source; } cmValue debian_build_ids = this->GetOption("GEN_BUILD_IDS"); if (cmNonempty(debian_build_ids)) { controlValues["Build-Ids"] = *debian_build_ids; } DebGenerator gen( this->Logger, this->GetOption("GEN_CPACK_DBGSYM_OUTPUT_FILE_NAME"), this->GetOption("GEN_DBGSYMDIR"), this->GetOption("CPACK_TOPLEVEL_DIRECTORY"), this->GetOption("CPACK_TEMPORARY_DIRECTORY"), this->GetOption("GEN_CPACK_DEBIAN_COMPRESSION_TYPE"), this->GetOption("CPACK_THREADS"), this->GetOption("GEN_CPACK_DEBIAN_ARCHIVE_TYPE"), controlValues, false, "", false, "", false, "", nullptr, this->IsSet("GEN_CPACK_DEBIAN_PACKAGE_CONTROL_STRICT_PERMISSION"), this->packageFiles); return gen.generate(); } bool cmCPackDebGenerator::SupportsComponentInstallation() const { return this->IsOn("CPACK_DEB_COMPONENT_INSTALL"); } std::string cmCPackDebGenerator::GetComponentInstallDirNameSuffix( const std::string& componentName) { if (this->componentPackageMethod == ONE_PACKAGE_PER_COMPONENT) { return componentName; } if (this->componentPackageMethod == ONE_PACKAGE) { return { "ALL_COMPONENTS_IN_ONE" }; } // We have to find the name of the COMPONENT GROUP // the current COMPONENT belongs to. std::string groupVar = "CPACK_COMPONENT_" + cmSystemTools::UpperCase(componentName) + "_GROUP"; if (nullptr != this->GetOption(groupVar)) { return *this->GetOption(groupVar); } return componentName; }