# Copyright (c) 2018 Jaime van Kessel, Ultimaker B.V. # The PostProcessingPlugin is released under the terms of the AGPLv3 or higher. import configparser # The script lists are stored in metadata as serialised config files. import importlib.util import io # To allow configparser to write to a string. import os.path import pkgutil import sys from typing import Dict, Type, TYPE_CHECKING, List, Optional, cast from PyQt6.QtCore import QObject, pyqtProperty, pyqtSignal, pyqtSlot from UM.Application import Application from UM.Extension import Extension from UM.Logger import Logger from UM.PluginRegistry import PluginRegistry from UM.Resources import Resources from UM.Trust import Trust, TrustBasics from UM.i18n import i18nCatalog from cura import ApplicationMetadata from cura.CuraApplication import CuraApplication i18n_catalog = i18nCatalog("cura") if TYPE_CHECKING: from .Script import Script class PostProcessingPlugin(QObject, Extension): """Extension type plugin that enables pre-written scripts to post process g-code files.""" def __init__(self, parent = None) -> None: QObject.__init__(self, parent) Extension.__init__(self) self.setMenuName(i18n_catalog.i18nc("@item:inmenu", "Post Processing")) self.addMenuItem(i18n_catalog.i18nc("@item:inmenu", "Modify G-Code"), self.showPopup) self._view = None # Loaded scripts are all scripts that can be used self._loaded_scripts = {} # type: Dict[str, Type[Script]] self._script_labels = {} # type: Dict[str, str] # Script list contains instances of scripts in loaded_scripts. # There can be duplicates, which will be executed in sequence. self._script_list = [] # type: List[Script] self._selected_script_index = -1 self._global_container_stack = Application.getInstance().getGlobalContainerStack() if self._global_container_stack: self._global_container_stack.metaDataChanged.connect(self._restoreScriptInforFromMetadata) Application.getInstance().getOutputDeviceManager().writeStarted.connect(self.execute) Application.getInstance().globalContainerStackChanged.connect(self._onGlobalContainerStackChanged) # When the current printer changes, update the list of scripts. CuraApplication.getInstance().mainWindowChanged.connect(self._createView) # When the main window is created, create the view so that we can display the post-processing icon if necessary. selectedIndexChanged = pyqtSignal() @pyqtProperty(str, notify = selectedIndexChanged) def selectedScriptDefinitionId(self) -> Optional[str]: try: return self._script_list[self._selected_script_index].getDefinitionId() except IndexError: return "" @pyqtProperty(str, notify=selectedIndexChanged) def selectedScriptStackId(self) -> Optional[str]: try: return self._script_list[self._selected_script_index].getStackId() except IndexError: return "" def execute(self, output_device) -> None: """Execute all post-processing scripts on the gcode.""" scene = Application.getInstance().getController().getScene() # If the scene does not have a gcode, do nothing if not hasattr(scene, "gcode_dict"): return gcode_dict = getattr(scene, "gcode_dict") if not gcode_dict: return # get gcode list for the active build plate active_build_plate_id = CuraApplication.getInstance().getMultiBuildPlateModel().activeBuildPlate gcode_list = gcode_dict[active_build_plate_id] if not gcode_list: return if ";POSTPROCESSED" not in gcode_list[0]: for script in self._script_list: try: gcode_list = script.execute(gcode_list) except Exception: Logger.logException("e", "Exception in post-processing script.") if len(self._script_list): # Add comment to g-code if any changes were made. gcode_list[0] += ";POSTPROCESSED\n" gcode_dict[active_build_plate_id] = gcode_list setattr(scene, "gcode_dict", gcode_dict) else: Logger.log("e", "Already post processed") @pyqtSlot(int) def setSelectedScriptIndex(self, index: int) -> None: if self._selected_script_index != index: self._selected_script_index = index self.selectedIndexChanged.emit() @pyqtProperty(int, notify = selectedIndexChanged) def selectedScriptIndex(self) -> int: return self._selected_script_index @pyqtSlot(int, int) def moveScript(self, index: int, new_index: int) -> None: if new_index < 0 or new_index > len(self._script_list) - 1: return # nothing needs to be done else: # Magical switch code. self._script_list[new_index], self._script_list[index] = self._script_list[index], self._script_list[new_index] self.scriptListChanged.emit() self.selectedIndexChanged.emit() #Ensure that settings are updated self._propertyChanged() @pyqtSlot(int) def removeScriptByIndex(self, index: int) -> None: """Remove a script from the active script list by index.""" self._script_list.pop(index) if len(self._script_list) - 1 < self._selected_script_index: self._selected_script_index = len(self._script_list) - 1 self.scriptListChanged.emit() self.selectedIndexChanged.emit() # Ensure that settings are updated self._propertyChanged() def loadAllScripts(self) -> None: """Load all scripts from all paths where scripts can be found. This should probably only be done on init. """ if self._loaded_scripts: # Already loaded. return # Make sure a "scripts" folder exists in the main configuration folder and the preferences folder. # On some platforms the resources and preferences folders resolve to the same folder, # but on Linux they can be different. for path in set([os.path.join(Resources.getStoragePath(r), "scripts") for r in [Resources.Resources, Resources.Preferences]]): if not os.path.isdir(path): try: os.makedirs(path) except OSError: Logger.log("w", "Unable to create a folder for scripts: " + path) # The PostProcessingPlugin path is for built-in scripts. # The Resources path is where the user should store custom scripts. # The Preferences path is legacy, where the user may previously have stored scripts. resource_folders = [PluginRegistry.getInstance().getPluginPath("PostProcessingPlugin"), Resources.getStoragePath(Resources.Preferences)] resource_folders.extend(Resources.getAllPathsForType(Resources.Resources)) for root in resource_folders: if root is None: continue path = os.path.join(root, "scripts") if not os.path.isdir(path): continue self.loadScripts(path) def loadScripts(self, path: str) -> None: """Load all scripts from provided path. This should probably only be done on init. :param path: Path to check for scripts. """ if ApplicationMetadata.IsEnterpriseVersion: # Delete all __pycache__ not in installation folder, as it may present a security risk. # It prevents this very strange scenario (should already be prevented on enterprise because signed-fault): # - Copy an existing script from the postprocessing-script folder to the appdata scripts folder. # - Also copy the entire __pycache__ folder from the first to the last location. # - Leave the __pycache__ as is, but write malicious code just before the class begins. # - It'll execute, despite that the script has not been signed. # It's not known if these reproduction steps are minimal, but it does at least happen in this case. install_prefix = os.path.abspath(CuraApplication.getInstance().getInstallPrefix()) try: is_in_installation_path = os.path.commonpath([install_prefix, path]).startswith(install_prefix) except ValueError: is_in_installation_path = False if not is_in_installation_path: TrustBasics.removeCached(path) scripts = pkgutil.iter_modules(path = [path]) """Load all scripts in the scripts folders""" for loader, script_name, ispkg in scripts: # Iterate over all scripts. if script_name not in sys.modules: try: file_path = os.path.join(path, script_name + ".py") if not self._isScriptAllowed(file_path): Logger.warning("Skipped loading post-processing script {}: not trusted".format(file_path)) continue spec = importlib.util.spec_from_file_location(__name__ + "." + script_name, file_path) if spec is None: continue loaded_script = importlib.util.module_from_spec(spec) if spec.loader is None: continue spec.loader.exec_module(loaded_script) # type: ignore sys.modules[script_name] = loaded_script #TODO: This could be a security risk. Overwrite any module with a user-provided name? loaded_class = getattr(loaded_script, script_name) temp_object = loaded_class() Logger.log("d", "Begin loading of script: %s", script_name) try: setting_data = temp_object.getSettingData() if "name" in setting_data and "key" in setting_data: self._script_labels[setting_data["key"]] = setting_data["name"] self._loaded_scripts[setting_data["key"]] = loaded_class else: Logger.log("w", "Script %s.py has no name or key", script_name) self._script_labels[script_name] = script_name self._loaded_scripts[script_name] = loaded_class except AttributeError: Logger.log("e", "Script %s.py is not a recognised script type. Ensure it inherits Script", script_name) except NotImplementedError: Logger.log("e", "Script %s.py has no implemented settings", script_name) except Exception as e: Logger.logException("e", "Exception occurred while loading post processing plugin: {error_msg}".format(error_msg = str(e))) loadedScriptListChanged = pyqtSignal() @pyqtProperty("QVariantList", notify = loadedScriptListChanged) def loadedScriptList(self) -> List[str]: return sorted(list(self._loaded_scripts.keys())) @pyqtSlot(str, result = str) def getScriptLabelByKey(self, key: str) -> Optional[str]: return self._script_labels.get(key) scriptListChanged = pyqtSignal() @pyqtProperty("QStringList", notify = scriptListChanged) def scriptList(self) -> List[str]: script_list = [script.getSettingData()["key"] for script in self._script_list] return script_list @pyqtSlot(str) def addScriptToList(self, key: str) -> None: Logger.log("d", "Adding script %s to list.", key) new_script = self._loaded_scripts[key]() new_script.initialize() self._script_list.append(new_script) self.setSelectedScriptIndex(len(self._script_list) - 1) self.scriptListChanged.emit() self._propertyChanged() def _restoreScriptInforFromMetadata(self): self.loadAllScripts() new_stack = self._global_container_stack if new_stack is None: return self._script_list.clear() if not new_stack.getMetaDataEntry("post_processing_scripts"): # Missing or empty. self.scriptListChanged.emit() # Even emit this if it didn't change. We want it to write the empty list to the stack's metadata. self.setSelectedScriptIndex(-1) return self._script_list.clear() scripts_list_strs = new_stack.getMetaDataEntry("post_processing_scripts") for script_str in scripts_list_strs.split( "\n"): # Encoded config files should never contain three newlines in a row. At most 2, just before section headers. if not script_str: # There were no scripts in this one (or a corrupt file caused more than 3 consecutive newlines here). continue script_str = script_str.replace(r"\\\n", "\n").replace(r"\\\\", "\\\\") # Unescape escape sequences. script_parser = configparser.ConfigParser(interpolation=None) script_parser.optionxform = str # type: ignore # Don't transform the setting keys as they are case-sensitive. try: script_parser.read_string(script_str) except configparser.Error as e: Logger.error("Stored post-processing scripts have syntax errors: {err}".format(err = str(e))) continue for script_name, settings in script_parser.items(): # There should only be one, really! Otherwise we can't guarantee the order or allow multiple uses of the same script. if script_name == "DEFAULT": # ConfigParser always has a DEFAULT section, but we don't fill it. Ignore this one. continue if script_name not in self._loaded_scripts: # Don't know this post-processing plug-in. Logger.log("e", "Unknown post-processing script {script_name} was encountered in this global stack.".format( script_name=script_name)) continue new_script = self._loaded_scripts[script_name]() new_script.initialize() for setting_key, setting_value in settings.items(): # Put all setting values into the script. if new_script._instance is not None: new_script._instance.setProperty(setting_key, "value", setting_value) self._script_list.append(new_script) self.setSelectedScriptIndex(0) # Ensure that we always force an update (otherwise the fields don't update correctly!) self.selectedIndexChanged.emit() self.scriptListChanged.emit() self._propertyChanged() def _onGlobalContainerStackChanged(self) -> None: """When the global container stack is changed, swap out the list of active scripts.""" if self._global_container_stack: self._global_container_stack.metaDataChanged.disconnect(self._restoreScriptInforFromMetadata) self._global_container_stack = Application.getInstance().getGlobalContainerStack() if self._global_container_stack: self._global_container_stack.metaDataChanged.connect(self._restoreScriptInforFromMetadata) self._restoreScriptInforFromMetadata() @pyqtSlot() def writeScriptsToStack(self) -> None: script_list_strs = [] # type: List[str] for script in self._script_list: parser = configparser.ConfigParser(interpolation = None) # We'll encode the script as a config with one section. The section header is the key and its values are the settings. parser.optionxform = str # type: ignore # Don't transform the setting keys as they are case-sensitive. script_name = script.getSettingData()["key"] parser.add_section(script_name) for key in script.getSettingData()["settings"]: value = script.getSettingValueByKey(key) parser[script_name][key] = str(value) serialized = io.StringIO() # ConfigParser can only write to streams. Fine. parser.write(serialized) serialized.seek(0) script_str = serialized.read() script_str = script_str.replace("\\\\", r"\\\\").replace("\n", r"\\\n") # Escape newlines because configparser sees those as section delimiters. script_list_strs.append(script_str) script_list_string = "\n".join(script_list_strs) # ConfigParser should never output three newlines in a row when serialised, so it's a safe delimiter. if self._global_container_stack is None: return # Ensure we don't get triggered by our own write. self._global_container_stack.metaDataChanged.disconnect(self._restoreScriptInforFromMetadata) if "post_processing_scripts" not in self._global_container_stack.getMetaData(): self._global_container_stack.setMetaDataEntry("post_processing_scripts", "") self._global_container_stack.setMetaDataEntry("post_processing_scripts", script_list_string) # We do want to listen to other events. self._global_container_stack.metaDataChanged.connect(self._restoreScriptInforFromMetadata) def _createView(self) -> None: """Creates the view used by show popup. The view is saved because of the fairly aggressive garbage collection. """ Logger.log("d", "Creating post processing plugin view.") self.loadAllScripts() # Create the plugin dialog component path = os.path.join(cast(str, PluginRegistry.getInstance().getPluginPath("PostProcessingPlugin")), "PostProcessingPlugin.qml") self._view = CuraApplication.getInstance().createQmlComponent(path, {"manager": self}) if self._view is None: Logger.log("e", "Not creating PostProcessing button near save button because the QML component failed to be created.") return Logger.log("d", "Post processing view created.") # Create the save button component CuraApplication.getInstance().addAdditionalComponent("saveButton", self._view.findChild(QObject, "postProcessingSaveAreaButton")) def showPopup(self) -> None: """Show the (GUI) popup of the post processing plugin.""" if self._view is None: self._createView() if self._view is None: Logger.log("e", "Not creating PostProcessing window since the QML component failed to be created.") return self._view.show() def _propertyChanged(self) -> None: """Property changed: trigger re-slice To do this we use the global container stack propertyChanged. Re-slicing is necessary for setting changes in this plugin, because the changes are applied only once per "fresh" gcode """ global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack is not None: global_container_stack.propertyChanged.emit("post_processing_plugin", "value") @staticmethod def _isScriptAllowed(file_path: str) -> bool: """Checks whether the given file is allowed to be loaded""" if not ApplicationMetadata.IsEnterpriseVersion: # No signature needed return True dir_path = os.path.split(file_path)[0] # type: str plugin_path = PluginRegistry.getInstance().getPluginPath("PostProcessingPlugin") assert plugin_path is not None # appease mypy bundled_path = os.path.join(plugin_path, "scripts") if dir_path == bundled_path: # Bundled scripts are trusted. return True trust_instance = Trust.getInstanceOrNone() if trust_instance is not None and Trust.signatureFileExistsFor(file_path): if trust_instance.signedFileCheck(file_path): return True return False # Default verdict should be False, being the most secure fallback