/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmCPackDragNDropGenerator.h" #include #include #include #include #include #include #include "cmsys/Base64.h" #include "cmsys/FStream.hxx" #include "cmsys/RegularExpression.hxx" #include "cmCPackGenerator.h" #include "cmCPackLog.h" #include "cmDuration.h" #include "cmGeneratedFileStream.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmXMLWriter.h" #ifdef HAVE_CoreServices // For the old LocaleStringToLangAndRegionCodes() function, to convert // to the old Script Manager RegionCode values needed for the 'LPic' data // structure used for generating multi-lingual SLAs. # include #endif static const uint16_t DefaultLpic[] = { /* clang-format off */ 0x0002, 0x0011, 0x0003, 0x0001, 0x0000, 0x0000, 0x0002, 0x0000, 0x0008, 0x0003, 0x0000, 0x0001, 0x0004, 0x0000, 0x0004, 0x0005, 0x0000, 0x000E, 0x0006, 0x0001, 0x0005, 0x0007, 0x0000, 0x0007, 0x0008, 0x0000, 0x0047, 0x0009, 0x0000, 0x0034, 0x000A, 0x0001, 0x0035, 0x000B, 0x0001, 0x0020, 0x000C, 0x0000, 0x0011, 0x000D, 0x0000, 0x005B, 0x0004, 0x0000, 0x0033, 0x000F, 0x0001, 0x000C, 0x0010, 0x0000, 0x000B, 0x000E, 0x0000 /* clang-format on */ }; static const std::vector DefaultMenu = { { "English", "Agree", "Disagree", "Print", "Save...", // NOLINTNEXTLINE(bugprone-suspicious-missing-comma) "You agree to the License Agreement terms when " "you click the \"Agree\" button.", "Software License Agreement", "This text cannot be saved. " "This disk may be full or locked, or the file may be locked.", "Unable to print. Make sure you have selected a printer." } }; cmCPackDragNDropGenerator::cmCPackDragNDropGenerator() : singleLicense(false) { // default to one package file for components this->componentPackageMethod = ONE_PACKAGE; } cmCPackDragNDropGenerator::~cmCPackDragNDropGenerator() = default; int cmCPackDragNDropGenerator::InitializeInternal() { // Starting with Xcode 4.3, look in "/Applications/Xcode.app" first: // std::vector paths; paths.emplace_back("/Applications/Xcode.app/Contents/Developer/Tools"); paths.emplace_back("/Developer/Tools"); const std::string hdiutil_path = cmSystemTools::FindProgram("hdiutil", std::vector(), false); if (hdiutil_path.empty()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Cannot locate hdiutil command" << std::endl); return 0; } this->SetOptionIfNotSet("CPACK_COMMAND_HDIUTIL", hdiutil_path.c_str()); const std::string setfile_path = cmSystemTools::FindProgram("SetFile", paths, false); if (setfile_path.empty()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Cannot locate SetFile command" << std::endl); return 0; } this->SetOptionIfNotSet("CPACK_COMMAND_SETFILE", setfile_path.c_str()); const std::string rez_path = cmSystemTools::FindProgram("Rez", paths, false); if (rez_path.empty()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Cannot locate Rez command" << std::endl); return 0; } this->SetOptionIfNotSet("CPACK_COMMAND_REZ", rez_path.c_str()); if (this->IsSet("CPACK_DMG_SLA_DIR")) { slaDirectory = this->GetOption("CPACK_DMG_SLA_DIR"); if (!slaDirectory.empty() && this->IsSet("CPACK_RESOURCE_FILE_LICENSE")) { std::string license_file = this->GetOption("CPACK_RESOURCE_FILE_LICENSE"); if (!license_file.empty() && (license_file.find("CPack.GenericLicense.txt") == std::string::npos)) { cmCPackLogger( cmCPackLog::LOG_OUTPUT, "Both CPACK_DMG_SLA_DIR and CPACK_RESOURCE_FILE_LICENSE specified, " "using CPACK_RESOURCE_FILE_LICENSE as a license for all languages." << std::endl); singleLicense = true; } } if (!this->IsSet("CPACK_DMG_SLA_LANGUAGES")) { cmCPackLogger(cmCPackLog::LOG_ERROR, "CPACK_DMG_SLA_DIR set but no languages defined " "(set CPACK_DMG_SLA_LANGUAGES)" << std::endl); return 0; } if (!cmSystemTools::FileExists(slaDirectory, false)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "CPACK_DMG_SLA_DIR does not exist" << std::endl); return 0; } std::vector languages = cmExpandedList(this->GetOption("CPACK_DMG_SLA_LANGUAGES")); if (languages.empty()) { cmCPackLogger(cmCPackLog::LOG_ERROR, "CPACK_DMG_SLA_LANGUAGES set but empty" << std::endl); return 0; } for (auto const& language : languages) { std::string license = slaDirectory + "/" + language + ".license.txt"; std::string license_rtf = slaDirectory + "/" + language + ".license.rtf"; if (!singleLicense) { if (!cmSystemTools::FileExists(license) && !cmSystemTools::FileExists(license_rtf)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Missing license file " << language << ".license.txt" << " / " << language << ".license.rtf" << std::endl); return 0; } } std::string menu = slaDirectory + "/" + language + ".menu.txt"; if (!cmSystemTools::FileExists(menu)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Missing menu file " << language << ".menu.txt" << std::endl); return 0; } } } return this->Superclass::InitializeInternal(); } const char* cmCPackDragNDropGenerator::GetOutputExtension() { return ".dmg"; } int cmCPackDragNDropGenerator::PackageFiles() { // gather which directories to make dmg files for // multiple directories occur if packaging components or groups separately // monolith if (this->Components.empty()) { return this->CreateDMG(toplevel, packageFileNames[0]); } // component install std::vector package_files; std::map::iterator compIt; for (compIt = this->Components.begin(); compIt != this->Components.end(); ++compIt) { std::string name = GetComponentInstallDirNameSuffix(compIt->first); package_files.push_back(name); } std::sort(package_files.begin(), package_files.end()); package_files.erase(std::unique(package_files.begin(), package_files.end()), package_files.end()); // loop to create dmg files packageFileNames.clear(); for (auto const& package_file : package_files) { std::string full_package_name = std::string(toplevel) + std::string("/"); if (package_file == "ALL_IN_ONE") { full_package_name += this->GetOption("CPACK_PACKAGE_FILE_NAME"); } else { full_package_name += package_file; } full_package_name += std::string(GetOutputExtension()); packageFileNames.push_back(full_package_name); std::string src_dir = cmStrCat(toplevel, '/', package_file); if (0 == this->CreateDMG(src_dir, full_package_name)) { return 0; } } return 1; } bool cmCPackDragNDropGenerator::CopyFile(std::ostringstream& source, std::ostringstream& target) { if (!cmSystemTools::CopyFileIfDifferent(source.str(), target.str())) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error copying " << source.str() << " to " << target.str() << std::endl); return false; } return true; } bool cmCPackDragNDropGenerator::CreateEmptyFile(std::ostringstream& target, size_t size) { cmsys::ofstream fout(target.str().c_str(), std::ios::out | std::ios::binary); if (!fout) { return false; } // Seek to desired size - 1 byte fout.seekp(size - 1, std::ios::beg); char byte = 0; // Write one byte to ensure file grows fout.write(&byte, 1); return true; } bool cmCPackDragNDropGenerator::RunCommand(std::ostringstream& command, std::string* output) { int exit_code = 1; bool result = cmSystemTools::RunSingleCommand( command.str(), output, output, &exit_code, nullptr, this->GeneratorVerbose, cmDuration::zero()); if (!result || exit_code) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error executing: " << command.str() << std::endl); return false; } return true; } int cmCPackDragNDropGenerator::CreateDMG(const std::string& src_dir, const std::string& output_file) { // Get optional arguments ... const std::string cpack_package_icon = this->GetOption("CPACK_PACKAGE_ICON") ? this->GetOption("CPACK_PACKAGE_ICON") : ""; const std::string cpack_dmg_volume_name = this->GetOption("CPACK_DMG_VOLUME_NAME") ? this->GetOption("CPACK_DMG_VOLUME_NAME") : this->GetOption("CPACK_PACKAGE_FILE_NAME"); const std::string cpack_dmg_format = this->GetOption("CPACK_DMG_FORMAT") ? this->GetOption("CPACK_DMG_FORMAT") : "UDZO"; // Get optional arguments ... std::string cpack_license_file = this->GetOption("CPACK_RESOURCE_FILE_LICENSE") ? this->GetOption("CPACK_RESOURCE_FILE_LICENSE") : ""; const std::string cpack_dmg_background_image = this->GetOption("CPACK_DMG_BACKGROUND_IMAGE") ? this->GetOption("CPACK_DMG_BACKGROUND_IMAGE") : ""; const std::string cpack_dmg_ds_store = this->GetOption("CPACK_DMG_DS_STORE") ? this->GetOption("CPACK_DMG_DS_STORE") : ""; const std::string cpack_dmg_languages = this->GetOption("CPACK_DMG_SLA_LANGUAGES") ? this->GetOption("CPACK_DMG_SLA_LANGUAGES") : ""; const std::string cpack_dmg_ds_store_setup_script = this->GetOption("CPACK_DMG_DS_STORE_SETUP_SCRIPT") ? this->GetOption("CPACK_DMG_DS_STORE_SETUP_SCRIPT") : ""; const bool cpack_dmg_disable_applications_symlink = this->IsOn("CPACK_DMG_DISABLE_APPLICATIONS_SYMLINK"); // only put license on dmg if is user provided if (!cpack_license_file.empty() && cpack_license_file.find("CPack.GenericLicense.txt") != std::string::npos) { cpack_license_file = ""; } // use sla_dir if both sla_dir and license_file are set if (!cpack_license_file.empty() && !slaDirectory.empty() && !singleLicense) { cpack_license_file = ""; } // The staging directory contains everything that will end-up inside the // final disk image ... std::ostringstream staging; staging << src_dir; // Add a symlink to /Applications so users can drag-and-drop the bundle // into it unless this behaviour was disabled if (!cpack_dmg_disable_applications_symlink) { std::ostringstream application_link; application_link << staging.str() << "/Applications"; cmSystemTools::CreateSymlink("/Applications", application_link.str()); } // Optionally add a custom volume icon ... if (!cpack_package_icon.empty()) { std::ostringstream package_icon_source; package_icon_source << cpack_package_icon; std::ostringstream package_icon_destination; package_icon_destination << staging.str() << "/.VolumeIcon.icns"; if (!this->CopyFile(package_icon_source, package_icon_destination)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error copying disk volume icon. " "Check the value of CPACK_PACKAGE_ICON." << std::endl); return 0; } } // Optionally add a custom .DS_Store file // (e.g. for setting background/layout) ... if (!cpack_dmg_ds_store.empty()) { std::ostringstream package_settings_source; package_settings_source << cpack_dmg_ds_store; std::ostringstream package_settings_destination; package_settings_destination << staging.str() << "/.DS_Store"; if (!this->CopyFile(package_settings_source, package_settings_destination)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error copying disk volume settings file. " "Check the value of CPACK_DMG_DS_STORE." << std::endl); return 0; } } // Optionally add a custom background image ... // Make sure the background file type is the same as the custom image // and that the file is hidden so it doesn't show up. if (!cpack_dmg_background_image.empty()) { const std::string extension = cmSystemTools::GetFilenameLastExtension(cpack_dmg_background_image); std::ostringstream package_background_source; package_background_source << cpack_dmg_background_image; std::ostringstream package_background_destination; package_background_destination << staging.str() << "/.background/background" << extension; if (!this->CopyFile(package_background_source, package_background_destination)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error copying disk volume background image. " "Check the value of CPACK_DMG_BACKGROUND_IMAGE." << std::endl); return 0; } } bool remount_image = !cpack_package_icon.empty() || !cpack_dmg_ds_store_setup_script.empty(); std::string temp_image_format = "UDZO"; // Create 1 MB dummy padding file in staging area when we need to remount // image, so we have enough space for storing changes ... if (remount_image) { std::ostringstream dummy_padding; dummy_padding << staging.str() << "/.dummy-padding-file"; if (!this->CreateEmptyFile(dummy_padding, 1048576)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error creating dummy padding file." << std::endl); return 0; } temp_image_format = "UDRW"; } // Create a temporary read-write disk image ... std::string temp_image = cmStrCat(this->GetOption("CPACK_TOPLEVEL_DIRECTORY"), "/temp.dmg"); std::string create_error; std::ostringstream temp_image_command; temp_image_command << this->GetOption("CPACK_COMMAND_HDIUTIL"); temp_image_command << " create"; temp_image_command << " -ov"; temp_image_command << " -srcfolder \"" << staging.str() << "\""; temp_image_command << " -volname \"" << cpack_dmg_volume_name << "\""; temp_image_command << " -fs HFS+"; temp_image_command << " -format " << temp_image_format; temp_image_command << " \"" << temp_image << "\""; if (!this->RunCommand(temp_image_command, &create_error)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error generating temporary disk image." << std::endl << create_error << std::endl); return 0; } if (remount_image) { // Store that we have a failure so that we always unmount the image // before we exit. bool had_error = false; std::ostringstream attach_command; attach_command << this->GetOption("CPACK_COMMAND_HDIUTIL"); attach_command << " attach"; attach_command << " \"" << temp_image << "\""; std::string attach_output; if (!this->RunCommand(attach_command, &attach_output)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error attaching temporary disk image." << std::endl); return 0; } cmsys::RegularExpression mountpoint_regex(".*(/Volumes/[^\n]+)\n.*"); mountpoint_regex.find(attach_output.c_str()); std::string const temp_mount = mountpoint_regex.match(1); std::string const temp_mount_name = temp_mount.substr(sizeof("/Volumes/") - 1); // Remove dummy padding file so we have enough space on RW image ... std::ostringstream dummy_padding; dummy_padding << temp_mount << "/.dummy-padding-file"; if (!cmSystemTools::RemoveFile(dummy_padding.str())) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error removing dummy padding file." << std::endl); had_error = true; } // Optionally set the custom icon flag for the image ... if (!had_error && !cpack_package_icon.empty()) { std::string error; std::ostringstream setfile_command; setfile_command << this->GetOption("CPACK_COMMAND_SETFILE"); setfile_command << " -a C"; setfile_command << " \"" << temp_mount << "\""; if (!this->RunCommand(setfile_command, &error)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error assigning custom icon to temporary disk image." << std::endl << error << std::endl); had_error = true; } } // Optionally we can execute a custom apple script to generate // the .DS_Store for the volume folder ... if (!had_error && !cpack_dmg_ds_store_setup_script.empty()) { std::ostringstream setup_script_command; setup_script_command << "osascript" << " \"" << cpack_dmg_ds_store_setup_script << "\"" << " \"" << temp_mount_name << "\""; std::string error; if (!this->RunCommand(setup_script_command, &error)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error executing custom script on disk image." << std::endl << error << std::endl); had_error = true; } } std::ostringstream detach_command; detach_command << this->GetOption("CPACK_COMMAND_HDIUTIL"); detach_command << " detach"; detach_command << " \"" << temp_mount << "\""; if (!this->RunCommand(detach_command)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error detaching temporary disk image." << std::endl); return 0; } if (had_error) { return 0; } } // Create the final compressed read-only disk image ... std::ostringstream final_image_command; final_image_command << this->GetOption("CPACK_COMMAND_HDIUTIL"); final_image_command << " convert \"" << temp_image << "\""; final_image_command << " -format "; final_image_command << cpack_dmg_format; final_image_command << " -imagekey"; final_image_command << " zlib-level=9"; final_image_command << " -o \"" << output_file << "\""; std::string convert_error; if (!this->RunCommand(final_image_command, &convert_error)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error compressing disk image." << std::endl << convert_error << std::endl); return 0; } if (!cpack_license_file.empty() || !slaDirectory.empty()) { // Use old hardcoded style if sla_dir is not set bool oldStyle = slaDirectory.empty(); std::string sla_xml = cmStrCat(this->GetOption("CPACK_TOPLEVEL_DIRECTORY"), "/sla.xml"); std::vector languages; if (!oldStyle) { cmExpandList(cpack_dmg_languages, languages); } std::vector header_data; if (oldStyle) { header_data = std::vector( DefaultLpic, DefaultLpic + (sizeof(DefaultLpic) / sizeof(*DefaultLpic))); } else { /* * LPic Layout * (https://github.com/pypt/dmg-add-license/blob/master/main.c) * as far as I can tell (no official documentation seems to exist): * struct LPic { * uint16_t default_language; // points to a resid, defaulting to 0, * // which is the first set language * uint16_t length; * struct { * uint16_t language_code; * uint16_t resid; * uint16_t encoding; // Encoding from TextCommon.h, * // forcing MacRoman (0) for now. Might need to * // allow overwrite per license by user later * } item[1]; * } */ header_data.push_back(0); header_data.push_back(languages.size()); for (size_t i = 0; i < languages.size(); ++i) { CFStringRef language_cfstring = CFStringCreateWithCString( nullptr, languages[i].c_str(), kCFStringEncodingUTF8); CFStringRef iso_language = CFLocaleCreateCanonicalLanguageIdentifierFromString( nullptr, language_cfstring); if (!iso_language) { cmCPackLogger(cmCPackLog::LOG_ERROR, languages[i] << " is not a recognized language" << std::endl); } char iso_language_cstr[65]; CFStringGetCString(iso_language, iso_language_cstr, sizeof(iso_language_cstr) - 1, kCFStringEncodingMacRoman); LangCode lang = 0; RegionCode region = 0; #ifdef HAVE_CoreServices OSStatus err = LocaleStringToLangAndRegionCodes(iso_language_cstr, &lang, ®ion); if (err != noErr) #endif { cmCPackLogger(cmCPackLog::LOG_ERROR, "No language/region code available for " << iso_language_cstr << std::endl); return 0; } #ifdef HAVE_CoreServices header_data.push_back(region); header_data.push_back(i); header_data.push_back(0); #endif } } RezDoc rez; { RezDict lpic = { {}, 5000, {} }; lpic.Data.reserve(header_data.size() * sizeof(header_data[0])); for (uint16_t x : header_data) { // LPic header is big-endian. char* d = reinterpret_cast(&x); #if KWIML_ABI_ENDIAN_ID == KWIML_ABI_ENDIAN_ID_LITTLE lpic.Data.push_back(d[1]); lpic.Data.push_back(d[0]); #else lpic.Data.push_back(d[0]); lpic.Data.push_back(d[1]); #endif } rez.LPic.Entries.emplace_back(std::move(lpic)); } bool have_write_license_error = false; std::string error; if (oldStyle) { if (!this->WriteLicense(rez, 0, "", cpack_license_file, &error)) { have_write_license_error = true; } } else { for (size_t i = 0; i < languages.size() && !have_write_license_error; ++i) { if (singleLicense) { if (!this->WriteLicense(rez, i + 5000, languages[i], cpack_license_file, &error)) { have_write_license_error = true; } } else { if (!this->WriteLicense(rez, i + 5000, languages[i], "", &error)) { have_write_license_error = true; } } } } if (have_write_license_error) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error writing license file to SLA." << std::endl << error << std::endl); return 0; } this->WriteRezXML(sla_xml, rez); // Create the final compressed read-only disk image ... std::ostringstream embed_sla_command; embed_sla_command << this->GetOption("CPACK_COMMAND_HDIUTIL"); embed_sla_command << " udifrez"; embed_sla_command << " -xml"; embed_sla_command << " \"" << sla_xml << "\""; embed_sla_command << " FIXME_WHY_IS_THIS_ARGUMENT_NEEDED"; embed_sla_command << " \"" << output_file << "\""; std::string embed_error; if (!this->RunCommand(embed_sla_command, &embed_error)) { cmCPackLogger(cmCPackLog::LOG_ERROR, "Error compressing disk image." << std::endl << embed_error << std::endl); return 0; } } return 1; } bool cmCPackDragNDropGenerator::SupportsComponentInstallation() const { return true; } std::string cmCPackDragNDropGenerator::GetComponentInstallDirNameSuffix( const std::string& componentName) { // we want to group components together that go in the same dmg package std::string package_file_name = this->GetOption("CPACK_PACKAGE_FILE_NAME"); // we have 3 mutually exclusive modes to work in // 1. all components in one package // 2. each group goes in its own package with left over // components in their own package // 3. ignore groups - if grouping is defined, it is ignored // and each component goes in its own package if (this->componentPackageMethod == ONE_PACKAGE) { return "ALL_IN_ONE"; } if (this->componentPackageMethod == ONE_PACKAGE_PER_GROUP) { // We have to find the name of the COMPONENT GROUP // the current COMPONENT belongs to. std::string groupVar = "CPACK_COMPONENT_" + cmSystemTools::UpperCase(componentName) + "_GROUP"; const char* _groupName = GetOption(groupVar); if (_groupName) { std::string groupName = _groupName; groupName = GetComponentPackageFileName(package_file_name, groupName, true); return groupName; } } std::string componentFileName = "CPACK_DMG_" + cmSystemTools::UpperCase(componentName) + "_FILE_NAME"; if (this->IsSet(componentFileName)) { return this->GetOption(componentFileName); } return GetComponentPackageFileName(package_file_name, componentName, false); } void cmCPackDragNDropGenerator::WriteRezXML(std::string const& file, RezDoc const& rez) { cmGeneratedFileStream fxml(file); cmXMLWriter xml(fxml); xml.StartDocument(); xml.StartElement("plist"); xml.Attribute("version", "1.0"); xml.StartElement("dict"); this->WriteRezArray(xml, rez.LPic); this->WriteRezArray(xml, rez.Menu); this->WriteRezArray(xml, rez.Text); this->WriteRezArray(xml, rez.RTF); xml.EndElement(); // dict xml.EndElement(); // plist xml.EndDocument(); fxml.Close(); } void cmCPackDragNDropGenerator::WriteRezArray(cmXMLWriter& xml, RezArray const& array) { if (array.Entries.empty()) { return; } xml.StartElement("key"); xml.Content(array.Key); xml.EndElement(); // key xml.StartElement("array"); for (RezDict const& dict : array.Entries) { this->WriteRezDict(xml, dict); } xml.EndElement(); // array } void cmCPackDragNDropGenerator::WriteRezDict(cmXMLWriter& xml, RezDict const& dict) { std::vector base64buf(dict.Data.size() * 3 / 2 + 5); size_t base64len = cmsysBase64_Encode(dict.Data.data(), dict.Data.size(), reinterpret_cast(base64buf.data()), 0); std::string base64data(base64buf.data(), base64len); /* clang-format off */ xml.StartElement("dict"); xml.StartElement("key"); xml.Content("Attributes"); xml.EndElement(); xml.StartElement("string"); xml.Content("0x0000"); xml.EndElement(); xml.StartElement("key"); xml.Content("Data"); xml.EndElement(); xml.StartElement("data"); xml.Content(base64data); xml.EndElement(); xml.StartElement("key"); xml.Content("ID"); xml.EndElement(); xml.StartElement("string"); xml.Content(dict.ID); xml.EndElement(); xml.StartElement("key"); xml.Content("Name"); xml.EndElement(); xml.StartElement("string"); xml.Content(dict.Name); xml.EndElement(); xml.EndElement(); // dict /* clang-format on */ } bool cmCPackDragNDropGenerator::WriteLicense(RezDoc& rez, size_t licenseNumber, std::string licenseLanguage, const std::string& licenseFile, std::string* error) { if (!licenseFile.empty() && !singleLicense) { licenseNumber = 5002; licenseLanguage = "English"; } // License file RezArray* licenseArray = &rez.Text; std::string actual_license; if (!licenseFile.empty()) { if (cmHasLiteralSuffix(licenseFile, ".rtf")) { licenseArray = &rez.RTF; } actual_license = licenseFile; } else { std::string license_wo_ext = slaDirectory + "/" + licenseLanguage + ".license"; if (cmSystemTools::FileExists(license_wo_ext + ".txt")) { actual_license = license_wo_ext + ".txt"; } else { licenseArray = &rez.RTF; actual_license = license_wo_ext + ".rtf"; } } // License body { RezDict license = { licenseLanguage, licenseNumber, {} }; std::vector lines; if (!this->ReadFile(actual_license, lines, error)) { return false; } this->EncodeLicense(license, lines); licenseArray->Entries.emplace_back(std::move(license)); } // Menu body { RezDict menu = { licenseLanguage, licenseNumber, {} }; if (!licenseFile.empty() && !singleLicense) { this->EncodeMenu(menu, DefaultMenu); } else { std::vector lines; std::string actual_menu = slaDirectory + "/" + licenseLanguage + ".menu.txt"; if (!this->ReadFile(actual_menu, lines, error)) { return false; } this->EncodeMenu(menu, lines); } rez.Menu.Entries.emplace_back(std::move(menu)); } return true; } void cmCPackDragNDropGenerator::EncodeLicense( RezDict& dict, std::vector const& lines) { // License text uses CR newlines. for (std::string const& l : lines) { dict.Data.insert(dict.Data.end(), l.begin(), l.end()); dict.Data.push_back('\r'); } dict.Data.push_back('\r'); } void cmCPackDragNDropGenerator::EncodeMenu( RezDict& dict, std::vector const& lines) { // Menu resources start with a big-endian uint16_t for number of lines: { uint16_t numLines = static_cast(lines.size()); char* d = reinterpret_cast(&numLines); #if KWIML_ABI_ENDIAN_ID == KWIML_ABI_ENDIAN_ID_LITTLE dict.Data.push_back(d[1]); dict.Data.push_back(d[0]); #else dict.Data.push_back(d[0]); dict.Data.push_back(d[1]); #endif } // Each line starts with a uint8_t length, plus the bytes themselves: for (std::string const& l : lines) { dict.Data.push_back(static_cast(l.length())); dict.Data.insert(dict.Data.end(), l.begin(), l.end()); } } bool cmCPackDragNDropGenerator::ReadFile(std::string const& file, std::vector& lines, std::string* error) { cmsys::ifstream ifs(file); std::string line; while (std::getline(ifs, line)) { if (!this->BreakLongLine(line, lines, error)) { return false; } } return true; } bool cmCPackDragNDropGenerator::BreakLongLine(const std::string& line, std::vector& lines, std::string* error) { const size_t max_line_length = 255; size_t line_length = max_line_length; for (size_t i = 0; i < line.size(); i += line_length) { line_length = max_line_length; if (i + line_length > line.size()) { line_length = line.size() - i; } else { while (line_length > 0 && line[i + line_length - 1] != ' ') { line_length = line_length - 1; } } if (line_length == 0) { *error = "Please make sure there are no words " "(or character sequences not broken up by spaces or newlines) " "in your license file which are more than 255 characters long."; return false; } lines.push_back(line.substr(i, line_length)); } return true; }