#include "Snapshot.hpp" #include #include #include #include #include #include #include #include #include "libslic3r/PresetBundle.hpp" #include "libslic3r/format.hpp" #include "libslic3r/libslic3r.h" #include "libslic3r/Time.hpp" #include "libslic3r/Config.hpp" #include "libslic3r/FileParserError.hpp" #include "libslic3r/Utils.hpp" #include "../GUI/GUI.hpp" #include "../GUI/GUI_App.hpp" #include "../GUI/I18N.hpp" #include "../GUI/MainFrame.hpp" <<<<<<< HEAD ======= #include "../GUI/MsgDialog.hpp" >>>>>>> master #include #define SLIC3R_SNAPSHOTS_DIR "snapshots" #define SLIC3R_SNAPSHOT_FILE "snapshot.ini" namespace Slic3r { namespace GUI { namespace Config { void Snapshot::clear() { this->id.clear(); this->time_captured = 0; this->slic3r_version_captured = Semver::invalid(); this->comment.clear(); this->reason = SNAPSHOT_UNKNOWN; this->print.clear(); this->sla_print.clear(); this->filaments.clear(); this->sla_material.clear(); this->printer.clear(); this->physical_printer.clear(); } void Snapshot::load_ini(const std::string &path) { this->clear(); auto throw_on_parse_error = [&path](const std::string &msg) { throw file_parser_error(std::string("Failed loading the snapshot file. Reason: ") + msg, path); }; // Load the snapshot.ini file. boost::property_tree::ptree tree; try { boost::nowide::ifstream ifs(path); boost::property_tree::read_ini(ifs, tree); } catch (const std::ifstream::failure &err) { throw file_parser_error(std::string("The snapshot file cannot be loaded. Reason: ") + err.what(), path); } catch (const std::runtime_error &err) { throw_on_parse_error(err.what()); } // Parse snapshot.ini std::string group_name_vendor = "Vendor:"; std::string key_filament = "filament"; std::string key_prefix_model = "model_"; for (auto §ion : tree) { if (section.first == "snapshot") { // Parse the common section. for (auto &kvp : section.second) { if (kvp.first == "id") this->id = kvp.second.data(); else if (kvp.first == "time_captured") { this->time_captured = Slic3r::Utils::parse_iso_utc_timestamp(kvp.second.data()); if (this->time_captured == (time_t)-1) throw_on_parse_error("invalid timestamp"); } else if (kvp.first == "slic3r_version_captured") { auto semver = Semver::parse(kvp.second.data()); if (! semver) throw_on_parse_error("invalid slic3r_version_captured semver"); this->slic3r_version_captured = *semver; } else if (kvp.first == "comment") { this->comment = kvp.second.data(); } else if (kvp.first == "reason") { std::string rsn = kvp.second.data(); if (rsn == "upgrade") this->reason = SNAPSHOT_UPGRADE; else if (rsn == "downgrade") this->reason = SNAPSHOT_DOWNGRADE; else if (rsn == "before_rollback") this->reason = SNAPSHOT_BEFORE_ROLLBACK; else if (rsn == "user") this->reason = SNAPSHOT_USER; else this->reason = SNAPSHOT_UNKNOWN; } } } else if (section.first == "presets") { // Load the names of the active presets. for (auto &kvp : section.second) { if (kvp.first == "print") { this->print = kvp.second.data(); } else if (kvp.first == "sla_print") { this->sla_print = kvp.second.data(); } else if (boost::starts_with(kvp.first, "filament")) { int idx = 0; if (kvp.first == "filament" || sscanf(kvp.first.c_str(), "filament_%d", &idx) == 1) { if (int(this->filaments.size()) <= idx) this->filaments.resize(idx + 1, std::string()); this->filaments[idx] = kvp.second.data(); } } else if (kvp.first == "sla_material") { this->sla_material = kvp.second.data(); } else if (kvp.first == "printer") { this->printer = kvp.second.data(); } else if (kvp.first == "physical_printer") { this->physical_printer = kvp.second.data(); } } } else if (boost::starts_with(section.first, group_name_vendor) && section.first.size() > group_name_vendor.size()) { // Vendor specific section. VendorConfig vc; vc.name = section.first.substr(group_name_vendor.size()); for (auto &kvp : section.second) { if (kvp.first == "version" || kvp.first == "min_slic3r_version" || kvp.first == "max_slic3r_version") { // Version of the vendor specific config bundle bundled with this snapshot. auto semver = Semver::parse(kvp.second.data()); if (! semver) throw_on_parse_error("invalid " + kvp.first + " format for " + section.first); if (kvp.first == "version") vc.version.config_version = *semver; else if (kvp.first == "min_slic3r_version") vc.version.min_slic3r_version = *semver; else vc.version.max_slic3r_version = *semver; } else if (boost::starts_with(kvp.first, key_prefix_model) && kvp.first.size() > key_prefix_model.size()) { // Parse the printer variants installed for the current model. auto &set_variants = vc.models_variants_installed[kvp.first.substr(key_prefix_model.size())]; std::vector variants; if (unescape_strings_cstyle(kvp.second.data(), variants)) for (auto &variant : variants) set_variants.insert(std::move(variant)); } } this->vendor_configs.emplace_back(std::move(vc)); } } // Sort the vendors lexicographically. std::sort(this->vendor_configs.begin(), this->vendor_configs.begin(), [](const VendorConfig &cfg1, const VendorConfig &cfg2) { return cfg1.name < cfg2.name; }); } static std::string reason_string(const Snapshot::Reason reason) { switch (reason) { case Snapshot::SNAPSHOT_UPGRADE: return "upgrade"; case Snapshot::SNAPSHOT_DOWNGRADE: return "downgrade"; case Snapshot::SNAPSHOT_BEFORE_ROLLBACK: return "before_rollback"; case Snapshot::SNAPSHOT_USER: return "user"; case Snapshot::SNAPSHOT_UNKNOWN: default: return "unknown"; } } void Snapshot::save_ini(const std::string &path) { boost::nowide::ofstream c; c.open(path, std::ios::out | std::ios::trunc); c << "# " << Slic3r::header_slic3r_generated() << std::endl; // Export the common "snapshot". c << std::endl << "[snapshot]" << std::endl; c << "id = " << this->id << std::endl; c << "time_captured = " << Slic3r::Utils::iso_utc_timestamp(this->time_captured) << std::endl; c << "slic3r_version_captured = " << this->slic3r_version_captured.to_string() << std::endl; c << "comment = " << this->comment << std::endl; c << "reason = " << reason_string(this->reason) << std::endl; // Export the active presets at the time of the snapshot. c << std::endl << "[presets]" << std::endl; c << "print = " << this->print << std::endl; c << "sla_print = " << this->sla_print << std::endl; c << "filament = " << this->filaments.front() << std::endl; for (size_t i = 1; i < this->filaments.size(); ++ i) c << "filament_" << std::to_string(i) << " = " << this->filaments[i] << std::endl; c << "sla_material = " << this->sla_material << std::endl; c << "printer = " << this->printer << std::endl; c << "physical_printer = " << this->physical_printer << std::endl; // Export the vendor configs. for (const VendorConfig &vc : this->vendor_configs) { c << std::endl << "[Vendor:" << vc.name << "]" << std::endl; c << "version = " << vc.version.config_version.to_string() << std::endl; c << "min_slic3r_version = " << vc.version.min_slic3r_version.to_string() << std::endl; c << "max_slic3r_version = " << vc.version.max_slic3r_version.to_string() << std::endl; // Export installed printer models and their variants. for (const auto &model : vc.models_variants_installed) { if (model.second.size() == 0) continue; const std::vector variants(model.second.begin(), model.second.end()); const auto escaped = escape_strings_cstyle(variants); c << "model_" << model.first << " = " << escaped << std::endl; } } c.close(); } void Snapshot::export_selections(AppConfig &config) const { assert(filaments.size() >= 1); config.clear_section("presets"); config.set("presets", "print", print); config.set("presets", "sla_print", sla_print); config.set("presets", "filament", filaments.front()); for (unsigned i = 1; i < filaments.size(); ++i) { char name[64]; sprintf(name, "filament_%u", i); config.set("presets", name, filaments[i]); } config.set("presets", "sla_material", sla_material); config.set("presets", "printer", printer); config.set("presets", "physical_printer", physical_printer); } void Snapshot::export_vendor_configs(AppConfig &config) const { std::map>> vendors; for (const VendorConfig &vc : vendor_configs) vendors[vc.name] = vc.models_variants_installed; config.set_vendors(std::move(vendors)); } static constexpr auto snapshot_subdirs = { "print", "sla_print", "filament", "sla_material", "printer", "physical_printer", "vendor" }; // Perform a deep compare of the active print / sla_print / filament / sla_material / printer / physical_printer / vendor directories. // Return true if the content of the current print / sla_print / filament / sla_material / printer / physical_printer / vendor directories // matches the state stored in this snapshot. bool Snapshot::equal_to_active(const AppConfig &app_config) const { // 1) Check, whether this snapshot contains the same set of active vendors, printer models and variants // as app_config. { std::set matched; for (const VendorConfig &vc : this->vendor_configs) { auto it_vendor_models_variants = app_config.vendors().find(vc.name); if (it_vendor_models_variants == app_config.vendors().end() || it_vendor_models_variants->second != vc.models_variants_installed) // There are more vendors enabled in the snapshot than currently installed. return false; matched.insert(vc.name); } for (const auto &v : app_config.vendors()) if (matched.find(v.first) == matched.end() && ! v.second.empty()) // There are more vendors currently installed than enabled in the snapshot. return false; } // 2) Check, whether this snapshot references the same set of ini files as the current state. boost::filesystem::path data_dir = boost::filesystem::path(Slic3r::data_dir()); boost::filesystem::path snapshot_dir = boost::filesystem::path(Slic3r::data_dir()) / SLIC3R_SNAPSHOTS_DIR / this->id; for (const char *subdir : snapshot_subdirs) { boost::filesystem::path path1 = data_dir / subdir; boost::filesystem::path path2 = snapshot_dir / subdir; std::vector files1, files2; if (boost::filesystem::is_directory(path1)) for (auto &dir_entry : boost::filesystem::directory_iterator(path1)) if (Slic3r::is_ini_file(dir_entry)) files1.emplace_back(dir_entry.path().filename().string()); if (boost::filesystem::is_directory(path2)) for (auto &dir_entry : boost::filesystem::directory_iterator(path2)) if (Slic3r::is_ini_file(dir_entry)) files2.emplace_back(dir_entry.path().filename().string()); std::sort(files1.begin(), files1.end()); std::sort(files2.begin(), files2.end()); if (files1 != files2) return false; for (const std::string &filename : files1) { FILE *f1 = boost::nowide::fopen((path1 / filename).string().c_str(), "rb"); FILE *f2 = boost::nowide::fopen((path2 / filename).string().c_str(), "rb"); bool same = true; if (f1 && f2) { char buf1[4096]; char buf2[4096]; do { size_t r1 = fread(buf1, 1, 4096, f1); size_t r2 = fread(buf2, 1, 4096, f2); if (r1 != r2 || memcmp(buf1, buf2, r1)) { same = false; break; } } while (! feof(f1) || ! feof(f2)); } else same = false; if (f1) fclose(f1); if (f2) fclose(f2); if (! same) return false; } } return true; } size_t SnapshotDB::load_db() { boost::filesystem::path snapshots_dir = SnapshotDB::create_db_dir(); m_snapshots.clear(); // Walk over the snapshot directories and load their index. std::string errors_cummulative; for (auto &dir_entry : boost::filesystem::directory_iterator(snapshots_dir)) if (boost::filesystem::is_directory(dir_entry.status())) { // Try to read "snapshot.ini". boost::filesystem::path path_ini = dir_entry.path() / SLIC3R_SNAPSHOT_FILE; Snapshot snapshot; try { snapshot.load_ini(path_ini.string()); } catch (const std::runtime_error &err) { errors_cummulative += err.what(); errors_cummulative += "\n"; continue; } // Check that the name of the snapshot directory matches the snapshot id stored in the snapshot.ini file. if (dir_entry.path().filename().string() != snapshot.id) { errors_cummulative += std::string("Snapshot ID ") + snapshot.id + " does not match the snapshot directory " + dir_entry.path().filename().string() + "\n"; continue; } m_snapshots.emplace_back(std::move(snapshot)); } // Sort the snapshots by their date/time. std::sort(m_snapshots.begin(), m_snapshots.end(), [](const Snapshot &s1, const Snapshot &s2) { return s1.time_captured < s2.time_captured; }); if (! errors_cummulative.empty()) throw Slic3r::RuntimeError(errors_cummulative); return m_snapshots.size(); } void SnapshotDB::update_slic3r_versions(std::vector &index_db) { for (Snapshot &snapshot : m_snapshots) { for (Snapshot::VendorConfig &vendor_config : snapshot.vendor_configs) { auto it = std::find_if(index_db.begin(), index_db.end(), [&vendor_config](const Index &idx) { return idx.vendor() == vendor_config.name; }); if (it != index_db.end()) { Index::const_iterator it_version = it->find(vendor_config.version.config_version); if (it_version != it->end()) { vendor_config.version.min_slic3r_version = it_version->min_slic3r_version; vendor_config.version.max_slic3r_version = it_version->max_slic3r_version; } } } } } static void copy_config_dir_single_level(const boost::filesystem::path &path_src, const boost::filesystem::path &path_dst) { if (! boost::filesystem::is_directory(path_dst) && ! boost::filesystem::create_directory(path_dst)) throw Slic3r::RuntimeError(std::string("PrusaSlicer was unable to create a directory at ") + path_dst.string()); for (auto &dir_entry : boost::filesystem::directory_iterator(path_src)) if (Slic3r::is_ini_file(dir_entry)) if (std::string error_message; copy_file(dir_entry.path().string(), (path_dst / dir_entry.path().filename()).string(), error_message, false) != SUCCESS) throw Slic3r::RuntimeError(format("Failed copying \"%1%\" to \"%2%\": %3%", path_src.string(), path_dst.string(), error_message)); } static void delete_existing_ini_files(const boost::filesystem::path &path) { if (! boost::filesystem::is_directory(path)) return; for (auto &dir_entry : boost::filesystem::directory_iterator(path)) if (boost::filesystem::is_regular_file(dir_entry.status()) && boost::algorithm::iends_with(dir_entry.path().filename().string(), ".ini")) boost::filesystem::remove(dir_entry.path()); } const Snapshot& SnapshotDB::take_snapshot(const AppConfig &app_config, Snapshot::Reason reason, const std::string &comment) { boost::filesystem::path data_dir = boost::filesystem::path(Slic3r::data_dir()); boost::filesystem::path snapshot_db_dir = SnapshotDB::create_db_dir(); // 1) Prepare the snapshot structure. Snapshot snapshot; // Snapshot header. snapshot.time_captured = Slic3r::Utils::get_current_time_utc(); snapshot.id = Slic3r::Utils::iso_utc_timestamp(snapshot.time_captured); snapshot.slic3r_version_captured = Slic3r::SEMVER; snapshot.comment = comment; snapshot.reason = reason; // Active presets at the time of the snapshot. snapshot.print = app_config.get("presets", "print"); snapshot.sla_print = app_config.get("presets", "sla_print"); snapshot.filaments.emplace_back(app_config.get("presets", "filament")); snapshot.sla_material = app_config.get("presets", "sla_material"); snapshot.printer = app_config.get("presets", "printer"); snapshot.physical_printer = app_config.get("presets", "physical_printer"); for (unsigned i = 1; i < 1000; ++ i) { char name[64]; sprintf(name, "filament_%u", i); if (! app_config.has("presets", name)) break; snapshot.filaments.emplace_back(app_config.get("presets", name)); } // Vendor specific config bundles and installed printers. for (const auto &vendor : app_config.vendors()) { Snapshot::VendorConfig cfg; cfg.name = vendor.first; cfg.models_variants_installed = vendor.second; for (auto it = cfg.models_variants_installed.begin(); it != cfg.models_variants_installed.end();) if (it->second.empty()) cfg.models_variants_installed.erase(it ++); else ++ it; // Read the active config bundle, parse the config version. PresetBundle bundle; bundle.load_configbundle((data_dir / "vendor" / (cfg.name + ".ini")).string(), PresetBundle::LoadConfigBundleAttribute::LoadVendorOnly, ForwardCompatibilitySubstitutionRule::EnableSilent); for (const auto &vp : bundle.vendors) if (vp.second.id == cfg.name) cfg.version.config_version = vp.second.config_version; // Fill-in the min/max slic3r version from the config index, if possible. try { // Load the config index for the vendor. Index index; index.load(data_dir / "vendor" / (cfg.name + ".idx")); auto it = index.find(cfg.version.config_version); if (it != index.end()) { cfg.version.min_slic3r_version = it->min_slic3r_version; cfg.version.max_slic3r_version = it->max_slic3r_version; } } catch (const std::runtime_error & /* err */) { } snapshot.vendor_configs.emplace_back(std::move(cfg)); } boost::filesystem::path snapshot_dir = snapshot_db_dir / snapshot.id; try { boost::filesystem::create_directory(snapshot_dir); // Backup the presets. for (const char *subdir : snapshot_subdirs) copy_config_dir_single_level(data_dir / subdir, snapshot_dir / subdir); snapshot.save_ini((snapshot_dir / "snapshot.ini").string()); assert(m_snapshots.empty() || m_snapshots.back().time_captured <= snapshot.time_captured); m_snapshots.emplace_back(std::move(snapshot)); } catch (...) { if (boost::filesystem::is_directory(snapshot_dir)) { try { // Clean up partially copied snapshot. boost::filesystem::remove_all(snapshot_dir); } catch (...) { BOOST_LOG_TRIVIAL(error) << "Failed taking snapshot and failed removing the snapshot directory " << snapshot_dir; } } throw; } return m_snapshots.back(); } const Snapshot& SnapshotDB::restore_snapshot(const std::string &id, AppConfig &app_config) { for (const Snapshot &snapshot : m_snapshots) if (snapshot.id == id) { this->restore_snapshot(snapshot, app_config); return snapshot; } throw Slic3r::RuntimeError(std::string("Snapshot with id " + id + " was not found.")); } void SnapshotDB::restore_snapshot(const Snapshot &snapshot, AppConfig &app_config) { boost::filesystem::path data_dir = boost::filesystem::path(Slic3r::data_dir()); boost::filesystem::path snapshot_db_dir = SnapshotDB::create_db_dir(); boost::filesystem::path snapshot_dir = snapshot_db_dir / snapshot.id; // Remove existing ini files and restore the ini files from the snapshot. for (const char *subdir : snapshot_subdirs) { boost::filesystem::path src = snapshot_dir / subdir; boost::filesystem::path dst = data_dir / subdir; delete_existing_ini_files(dst); if (boost::filesystem::is_directory(src)) copy_config_dir_single_level(src, dst); } // Update AppConfig with the selections of the print / sla_print / filament / sla_material / printer profiles // and about the installed printer types and variants. snapshot.export_selections(app_config); snapshot.export_vendor_configs(app_config); } bool SnapshotDB::is_on_snapshot(AppConfig &app_config) const { // Is the "on_snapshot" configuration value set? std::string on_snapshot = app_config.get("on_snapshot"); if (on_snapshot.empty()) // No, we are not on a snapshot. return false; // Is the "on_snapshot" equal to the current configuration state? auto it_snapshot = this->snapshot(on_snapshot); if (it_snapshot != this->end() && it_snapshot->equal_to_active(app_config)) // Yes, we are on the snapshot. return true; // No, we are no more on a snapshot. Reset the state. app_config.set("on_snapshot", ""); return false; } SnapshotDB::const_iterator SnapshotDB::snapshot_with_vendor_preset(const std::string &vendor_name, const Semver &config_version) { auto it_found = m_snapshots.end(); Snapshot::VendorConfig key; key.name = vendor_name; for (auto it = m_snapshots.begin(); it != m_snapshots.end(); ++ it) { const Snapshot &snapshot = *it; auto it_vendor_config = std::lower_bound(snapshot.vendor_configs.begin(), snapshot.vendor_configs.end(), key, [](const Snapshot::VendorConfig &cfg1, const Snapshot::VendorConfig &cfg2) { return cfg1.name < cfg2.name; }); if (it_vendor_config != snapshot.vendor_configs.end() && it_vendor_config->name == vendor_name && config_version == it_vendor_config->version.config_version) { // Vendor config found with the correct version. // Save it, but continue searching, as we want the newest snapshot. it_found = it; } } return it_found; } SnapshotDB::const_iterator SnapshotDB::snapshot(const std::string &id) const { for (const_iterator it = m_snapshots.begin(); it != m_snapshots.end(); ++ it) if (it->id == id) return it; return m_snapshots.end(); } boost::filesystem::path SnapshotDB::create_db_dir() { boost::filesystem::path data_dir = boost::filesystem::path(Slic3r::data_dir()); boost::filesystem::path snapshots_dir = data_dir / SLIC3R_SNAPSHOTS_DIR; for (const boost::filesystem::path &path : { data_dir, snapshots_dir }) { boost::filesystem::path subdir = path; subdir.make_preferred(); if (! boost::filesystem::is_directory(subdir) && ! boost::filesystem::create_directory(subdir)) throw Slic3r::RuntimeError(std::string("Slic3r was unable to create a directory at ") + subdir.string()); } return snapshots_dir; } SnapshotDB& SnapshotDB::singleton() { static SnapshotDB instance; static bool loaded = false; if (! loaded) { try { loaded = true; // Load the snapshot database. instance.load_db(); // Load the vendor specific configuration indices. std::vector index_db = Index::load_db(); // Update the min / max slic3r versions compatible with the configurations stored inside the snapshots // based on the min / max slic3r versions defined by the vendor specific config indices. instance.update_slic3r_versions(index_db); } catch (std::exception & /* ex */) { } } return instance; } const Snapshot* take_config_snapshot_report_error(const AppConfig &app_config, Snapshot::Reason reason, const std::string &comment) { try { return &SnapshotDB::singleton().take_snapshot(app_config, reason, comment); } catch (std::exception &err) { show_error(static_cast(wxGetApp().mainframe), _L("Taking a configuration snapshot failed.") + "\n\n" + from_u8(err.what())); return nullptr; } } <<<<<<< HEAD bool take_config_snapshot_cancel_on_error(const AppConfig &app_config, Snapshot::Reason reason, const std::string &comment, const std::string &message) { try { SnapshotDB::singleton().take_snapshot(app_config, reason, comment); return true; } catch (std::exception &err) { wxRichMessageDialog dlg(static_cast(wxGetApp().mainframe), ======= bool take_config_snapshot_cancel_on_error(const AppConfig &app_config, Snapshot::Reason reason, const std::string &comment, const std::string &message, Snapshot const **psnapshot) { try { const Snapshot *snapshot = &SnapshotDB::singleton().take_snapshot(app_config, reason, comment); if (psnapshot) *psnapshot = snapshot; return true; } catch (std::exception &err) { RichMessageDialog dlg(static_cast(wxGetApp().mainframe), >>>>>>> master _L("PrusaSlicer has encountered an error while taking a configuration snapshot.") + "\n\n" + from_u8(err.what()) + "\n\n" + from_u8(message), _L("PrusaSlicer error"), wxYES_NO); dlg.SetYesNoLabels(_L("Continue"), _L("Abort")); return dlg.ShowModal() == wxID_YES; } } } // namespace Config } // namespace GUI } // namespace Slic3r