#include "pch.h" #include "vcpkg_Commands.h" #include "vcpkglib.h" #include "vcpkg_Files.h" #include "vcpkg_System.h" #include "vcpkg_Dependencies.h" #include "vcpkg_Input.h" #include "vcpkg_Chrono.h" #include "Paragraphs.h" namespace vcpkg::Commands::CI { using Dependencies::package_spec_with_install_plan; using Dependencies::install_plan_type; using Build::BuildResult; static std::vector load_all_package_specs(const fs::path& ports_directory, const triplet& target_triplet) { std::vector ports = Paragraphs::load_all_ports(ports_directory); std::vector specs; for (const SourceParagraph& p : ports) { specs.push_back(package_spec::from_name_and_triplet(p.name, target_triplet).get_or_throw(VCPKG_LINE_INFO)); } return specs; } void perform_and_exit(const vcpkg_cmd_arguments& args, const vcpkg_paths& paths, const triplet& default_target_triplet) { static const std::string example = Commands::Help::create_example_string("ci x64-windows"); args.check_max_arg_count(1, example); const triplet target_triplet = args.command_arguments.size() == 1 ? triplet::from_canonical_name(args.command_arguments.at(0)) : default_target_triplet; Input::check_triplet(target_triplet, paths); args.check_and_get_optional_command_arguments({}); const std::vector specs = load_all_package_specs(paths.ports, target_triplet); StatusParagraphs status_db = database_load_check(paths); const std::vector install_plan = Dependencies::create_install_plan(paths, specs, status_db); Checks::check_exit(VCPKG_LINE_INFO, !install_plan.empty(), "Install plan cannot be empty"); std::vector results; std::vector timing; const ElapsedTime timer = ElapsedTime::createStarted(); size_t counter = 0; const size_t package_count = install_plan.size(); for (const package_spec_with_install_plan& action : install_plan) { const ElapsedTime build_timer = ElapsedTime::createStarted(); counter++; System::println("Starting package %d/%d: %s", counter, package_count, action.spec.toString()); timing.push_back(-1); results.push_back(BuildResult::NULLVALUE); try { if (action.plan.plan_type == install_plan_type::ALREADY_INSTALLED) { results.back() = BuildResult::SUCCEEDED; System::println(System::color::success, "Package %s is already installed", action.spec); } else if (action.plan.plan_type == install_plan_type::BUILD_AND_INSTALL) { const BuildResult result = Commands::Build::build_package(*action.plan.source_pgh, action.spec, paths, paths.port_dir(action.spec), status_db); timing.back() = build_timer.elapsed().count(); results.back() = result; if (result != BuildResult::SUCCEEDED) { System::println(System::color::error, Build::create_error_message(result, action.spec)); continue; } const BinaryParagraph bpgh = Paragraphs::try_load_cached_package(paths, action.spec).get_or_throw(VCPKG_LINE_INFO); Install::install_package(paths, bpgh, &status_db); System::println(System::color::success, "Package %s is installed", action.spec); } else if (action.plan.plan_type == install_plan_type::INSTALL) { results.back() = BuildResult::SUCCEEDED; Install::install_package(paths, *action.plan.binary_pgh, &status_db); System::println(System::color::success, "Package %s is installed from cache", action.spec); } else Checks::unreachable(VCPKG_LINE_INFO); } catch (const std::exception& e) { System::println(System::color::error, "Error: Could not install package %s: %s", action.spec, e.what()); results.back() = BuildResult::NULLVALUE; } System::println("Elapsed time for package %s: %s", action.spec, build_timer.toString()); } System::println("Total time taken: %s", timer.toString()); for (size_t i = 0; i < results.size(); i++) { System::println("%s: %s: %dms", install_plan[i].spec.toString(), Build::to_string(results[i]), timing[i]); } std::map summary; for (const BuildResult& v : Build::BuildResult_values) { summary[v] = 0; } for (const BuildResult& r : results) { summary[r]++; } System::println("\n\nSUMMARY"); for (const std::pair& entry : summary) { System::println(" %s: %d", Build::to_string(entry.first), entry.second); } exit(EXIT_SUCCESS); } }