/** * @file dpm_interface.cpp * @brief Implementation of DPM command-line interface functions * * Implements the functions that provide human-readable interaction with the * DPM core functionality, including module path validation and module listing * capabilities. * * @copyright Copyright (c) 2025 SILO GROUP LLC * @author Chris Punches * * Part of the Dark Horse Linux Package Manager (DPM) * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * * For bug reports or contributions, please contact the dhlp-contributors * mailing list at: https://lists.darkhorselinux.org/mailman/listinfo/dhlp-contributors */ #include "dpm_interface.hpp" /* * DPM Interface methods. * * These are for entry points for the DPM cli. * * These are wrappers of DPM functionality that are meant to handle user * view, turning error codes into human-presentable information, etc. * * Also includes helpers related to the CLI. */ int main_check_module_path(const ModuleLoader& loader) { std::string path; loader.get_module_path(path); if (!std::filesystem::exists(path)) { g_logger.log(LoggingLevels::FATAL, "modules.modules_path does not exist: " + path); return 1; } if (!std::filesystem::is_directory(path)) { g_logger.log(LoggingLevels::FATAL, "modules.modules_path is not a directory: " + path); return 1; } try { auto perms = std::filesystem::status(path).permissions(); if ((perms & std::filesystem::perms::owner_read) == std::filesystem::perms::none) { g_logger.log(LoggingLevels::FATAL, "Permission denied: " + path); return 1; } } catch (const std::filesystem::filesystem_error&) { g_logger.log(LoggingLevels::FATAL, "Permission denied: " + path); return 1; } return 0; } int main_list_modules(const ModuleLoader& loader) { // initialize an empty modules list std::vector modules; // initialize an empty path std::string path; // set the module path DPMErrorCategory get_path_error = loader.get_module_path(path); if ( get_path_error != DPMErrorCategory::SUCCESS ) { g_logger.log(LoggingLevels::FATAL, "Failed to get modules.modules_path"); return 1; } DPMErrorCategory list_error = loader.list_available_modules(modules); if (list_error != DPMErrorCategory::SUCCESS) { g_logger.log(LoggingLevels::FATAL, "No modules found in modules.modules_path: " + path); return 1; } if (modules.empty()) { g_logger.log(LoggingLevels::FATAL, "No modules found in modules.modules_path: '" + path + "'."); return 0; } // First pass: Identify valid modules std::vector valid_modules; for (int i = 0; i < modules.size(); i++) { void* handle; DPMErrorCategory load_error = loader.load_module(modules[i], handle); if (load_error != DPMErrorCategory::SUCCESS) { continue; } std::vector missing_symbols; DPMErrorCategory validate_error = loader.validate_module_interface(handle, missing_symbols); if (validate_error == DPMErrorCategory::SUCCESS) { valid_modules.push_back(modules[i]); } dlclose(handle); } if ( valid_modules.empty() ) { g_logger.log(LoggingLevels::FATAL, "No valid modules found in modules.modules_path: '" + path + "'."); return 0; } // Second pass: Collect module information and calculate column widths size_t max_name_length = 0; size_t max_version_length = 0; std::vector versions(valid_modules.size(), "unknown"); std::vector descriptions(valid_modules.size(), "unknown"); for (int i = 0; i < valid_modules.size(); i++) { void* module_handle; max_name_length = std::max(max_name_length, valid_modules[i].length()); DPMErrorCategory load_error = loader.load_module(valid_modules[i], module_handle); if (load_error == DPMErrorCategory::SUCCESS) { // Get version std::string version = "unknown"; DPMErrorCategory version_error = loader.get_module_version(module_handle, version); if (version_error == DPMErrorCategory::SUCCESS) { versions[i] = version; max_version_length = std::max(max_version_length, version.length()); } // Get description std::string description = "unknown"; DPMErrorCategory desc_error = loader.get_module_description(module_handle, description); if (desc_error == DPMErrorCategory::SUCCESS) { descriptions[i] = description; } dlclose(module_handle); } } const int column_spacing = 4; // Display the table header g_logger.log(LoggingLevels::DEBUG, "\nAvailable modules in modules.modules_path: '" + path + "':\n"); std::cout << std::left << std::setw(max_name_length + column_spacing) << "MODULE" << std::setw(max_version_length + column_spacing) << "VERSION" << "DESCRIPTION" << std::endl; // Display the table rows for (int i = 0; i < valid_modules.size(); i++) { std::cout << std::left << std::setw(max_name_length + column_spacing) << valid_modules[i] << std::setw(max_version_length + column_spacing) << versions[i] << descriptions[i] << std::endl; } return 0; }