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- # Copyright (c) 2023 UltiMaker
- # Cura is released under the terms of the LGPLv3 or higher.
- import json
- import os
- import platform
- import time
- from typing import Optional, Set, TYPE_CHECKING
- from PyQt6.QtCore import pyqtSlot, QObject
- from PyQt6.QtNetwork import QNetworkRequest
- from UM.Extension import Extension
- from UM.Scene.Iterator.DepthFirstIterator import DepthFirstIterator
- from UM.i18n import i18nCatalog
- from UM.Logger import Logger
- from UM.PluginRegistry import PluginRegistry
- from UM.Qt.Duration import DurationFormat
- from cura import ApplicationMetadata
- if TYPE_CHECKING:
- from PyQt6.QtNetwork import QNetworkReply
- catalog = i18nCatalog("cura")
- class SliceInfo(QObject, Extension):
- """This Extension runs in the background and sends several bits of information to the UltiMaker servers.
- The data is only sent when the user in question gave permission to do so. All data is anonymous and
- no model files are being sent (Just a SHA256 hash of the model).
- """
- info_url = "https://stats.ultimaker.com/api/cura"
- def __init__(self, parent = None):
- QObject.__init__(self, parent)
- Extension.__init__(self)
- from cura.CuraApplication import CuraApplication
- self._application = CuraApplication.getInstance()
- self._application.getOutputDeviceManager().writeStarted.connect(self._onWriteStarted)
- self._application.getPreferences().addPreference("info/send_slice_info", True)
- self._application.getPreferences().addPreference("info/asked_send_slice_info", False)
- self._more_info_dialog = None
- self._example_data_content = None
- self._application.initializationFinished.connect(self._onAppInitialized)
- def _onAppInitialized(self):
- # DO NOT read any preferences values in the constructor because at the time plugins are created, no version
- # upgrade has been performed yet because version upgrades are plugins too!
- if self._more_info_dialog is None:
- self._more_info_dialog = self._createDialog("MoreInfoWindow.qml")
- def messageActionTriggered(self, message_id, action_id):
- """Perform action based on user input.
- Note that clicking "Disable" won't actually disable the data sending, but rather take the user to preferences where they can disable it.
- """
- self._application.getPreferences().setValue("info/asked_send_slice_info", True)
- if action_id == "MoreInfo":
- self.showMoreInfoDialog()
- self.send_slice_info_message.hide()
- def showMoreInfoDialog(self):
- if self._more_info_dialog is None:
- self._more_info_dialog = self._createDialog("MoreInfoWindow.qml")
- self._more_info_dialog.show()
- def _createDialog(self, qml_name):
- Logger.log("d", "Creating dialog [%s]", qml_name)
- file_path = os.path.join(PluginRegistry.getInstance().getPluginPath(self.getPluginId()), qml_name)
- dialog = self._application.createQmlComponent(file_path, {"manager": self})
- return dialog
- @pyqtSlot(result = str)
- def getExampleData(self) -> Optional[str]:
- if self._example_data_content is None:
- plugin_path = PluginRegistry.getInstance().getPluginPath(self.getPluginId())
- if not plugin_path:
- Logger.log("e", "Could not get plugin path!", self.getPluginId())
- return None
- file_path = os.path.join(plugin_path, "example_data.html")
- if file_path:
- try:
- with open(file_path, "r", encoding = "utf-8") as f:
- self._example_data_content = f.read()
- except EnvironmentError as e:
- Logger.error(f"Unable to read example slice info data to show to the user: {e}")
- self._example_data_content = "<i>" + catalog.i18nc("@text", "Unable to read example data file.") + "</i>"
- return self._example_data_content
- @pyqtSlot(bool)
- def setSendSliceInfo(self, enabled: bool):
- self._application.getPreferences().setValue("info/send_slice_info", enabled)
- def _getUserModifiedSettingKeys(self) -> list:
- machine_manager = self._application.getMachineManager()
- global_stack = machine_manager.activeMachine
- user_modified_setting_keys = set() # type: Set[str]
- for stack in [global_stack] + global_stack.extruderList:
- # Get all settings in user_changes and quality_changes
- all_keys = stack.userChanges.getAllKeys() | stack.qualityChanges.getAllKeys()
- user_modified_setting_keys |= all_keys
- return list(sorted(user_modified_setting_keys))
- def _onWriteStarted(self, output_device):
- try:
- if not self._application.getPreferences().getValue("info/send_slice_info"):
- Logger.log("d", "'info/send_slice_info' is turned off.")
- return # Do nothing, user does not want to send data
- machine_manager = self._application.getMachineManager()
- print_information = self._application.getPrintInformation()
- user_profile = self._application.getCuraAPI().account.userProfile
- global_stack = machine_manager.activeMachine
- data = dict() # The data that we're going to submit.
- data["time_stamp"] = time.time()
- data["schema_version"] = 0
- data["cura_version"] = self._application.getVersion()
- data["cura_build_type"] = ApplicationMetadata.CuraBuildType
- org_id = user_profile.get("organization_id", None) if user_profile else None
- data["is_logged_in"] = self._application.getCuraAPI().account.isLoggedIn
- data["organization_id"] = org_id if org_id else None
- data["subscriptions"] = user_profile.get("subscriptions", []) if user_profile else []
- data["slice_uuid"] = print_information.slice_uuid
- active_mode = self._application.getPreferences().getValue("cura/active_mode")
- if active_mode == 0:
- data["active_mode"] = "recommended"
- else:
- data["active_mode"] = "custom"
- data["camera_view"] = self._application.getPreferences().getValue("general/camera_perspective_mode")
- if data["camera_view"] == "orthographic":
- data["camera_view"] = "orthogonal" #The database still only recognises the old name "orthogonal".
- definition_changes = global_stack.definitionChanges
- machine_settings_changed_by_user = False
- if definition_changes.getId() != "empty":
- # Now a definition_changes container will always be created for a stack,
- # so we also need to check if there is any instance in the definition_changes container
- if definition_changes.getAllKeys():
- machine_settings_changed_by_user = True
- data["machine_settings_changed_by_user"] = machine_settings_changed_by_user
- data["language"] = self._application.getPreferences().getValue("general/language")
- data["os"] = {"type": platform.system(), "version": platform.version()}
- data["active_machine"] = {"definition_id": global_stack.definition.getId(),
- "manufacturer": global_stack.definition.getMetaDataEntry("manufacturer", "")}
- # add extruder specific data to slice info
- data["extruders"] = []
- extruders = global_stack.extruderList
- extruders = sorted(extruders, key = lambda extruder: extruder.getMetaDataEntry("position"))
- for extruder in extruders:
- extruder_dict = dict()
- extruder_dict["active"] = machine_manager.activeStack == extruder
- extruder_dict["material"] = {"GUID": extruder.material.getMetaData().get("GUID", ""),
- "type": extruder.material.getMetaData().get("material", ""),
- "brand": extruder.material.getMetaData().get("brand", "")
- }
- extruder_position = int(extruder.getMetaDataEntry("position", "0"))
- if len(print_information.materialLengths) > extruder_position:
- extruder_dict["material_used"] = print_information.materialLengths[extruder_position]
- extruder_dict["variant"] = extruder.variant.getName()
- extruder_dict["nozzle_size"] = extruder.getProperty("machine_nozzle_size", "value")
- extruder_settings = dict()
- extruder_settings["wall_line_count"] = extruder.getProperty("wall_line_count", "value")
- extruder_settings["retraction_enable"] = extruder.getProperty("retraction_enable", "value")
- extruder_settings["infill_sparse_density"] = extruder.getProperty("infill_sparse_density", "value")
- extruder_settings["infill_pattern"] = extruder.getProperty("infill_pattern", "value")
- extruder_settings["gradual_infill_steps"] = extruder.getProperty("gradual_infill_steps", "value")
- extruder_settings["default_material_print_temperature"] = extruder.getProperty("default_material_print_temperature", "value")
- extruder_settings["material_print_temperature"] = extruder.getProperty("material_print_temperature", "value")
- extruder_dict["extruder_settings"] = extruder_settings
- data["extruders"].append(extruder_dict)
- data["intent_category"] = global_stack.getIntentCategory()
- data["quality_profile"] = global_stack.quality.getMetaData().get("quality_type")
- data["user_modified_setting_keys"] = self._getUserModifiedSettingKeys()
- data["models"] = []
- # Listing all files placed on the build plate
- for node in DepthFirstIterator(self._application.getController().getScene().getRoot()):
- if node.callDecoration("isSliceable"):
- model = dict()
- model["hash"] = node.getMeshData().getHash()
- bounding_box = node.getBoundingBox()
- if not bounding_box:
- continue
- model["bounding_box"] = {"minimum": {"x": bounding_box.minimum.x,
- "y": bounding_box.minimum.y,
- "z": bounding_box.minimum.z},
- "maximum": {"x": bounding_box.maximum.x,
- "y": bounding_box.maximum.y,
- "z": bounding_box.maximum.z}}
- model["transformation"] = {"data": str(node.getWorldTransformation(copy = False).getData()).replace("\n", "")}
- extruder_position = node.callDecoration("getActiveExtruderPosition")
- model["extruder"] = 0 if extruder_position is None else int(extruder_position)
- model_settings = dict()
- model_stack = node.callDecoration("getStack")
- if model_stack:
- model_settings["support_enabled"] = model_stack.getProperty("support_enable", "value")
- model_settings["support_extruder_nr"] = int(model_stack.getExtruderPositionValueWithDefault("support_extruder_nr"))
- # Mesh modifiers;
- model_settings["infill_mesh"] = model_stack.getProperty("infill_mesh", "value")
- model_settings["cutting_mesh"] = model_stack.getProperty("cutting_mesh", "value")
- model_settings["support_mesh"] = model_stack.getProperty("support_mesh", "value")
- model_settings["anti_overhang_mesh"] = model_stack.getProperty("anti_overhang_mesh", "value")
- model_settings["wall_line_count"] = model_stack.getProperty("wall_line_count", "value")
- model_settings["retraction_enable"] = model_stack.getProperty("retraction_enable", "value")
- # Infill settings
- model_settings["infill_sparse_density"] = model_stack.getProperty("infill_sparse_density", "value")
- model_settings["infill_pattern"] = model_stack.getProperty("infill_pattern", "value")
- model_settings["gradual_infill_steps"] = model_stack.getProperty("gradual_infill_steps", "value")
- model["model_settings"] = model_settings
- if node.source_mime_type is None:
- model["mime_type"] = ""
- else:
- model["mime_type"] = node.source_mime_type.name
- data["models"].append(model)
- print_times = print_information.printTimes()
- data["print_times"] = {"travel": int(print_times["travel"].getDisplayString(DurationFormat.Format.Seconds)),
- "support": int(print_times["support"].getDisplayString(DurationFormat.Format.Seconds)),
- "infill": int(print_times["infill"].getDisplayString(DurationFormat.Format.Seconds)),
- "total": int(print_information.currentPrintTime.getDisplayString(DurationFormat.Format.Seconds))}
- print_settings = dict()
- print_settings["layer_height"] = global_stack.getProperty("layer_height", "value")
- # Support settings
- print_settings["support_enabled"] = global_stack.getProperty("support_enable", "value")
- print_settings["support_extruder_nr"] = int(global_stack.getExtruderPositionValueWithDefault("support_extruder_nr"))
- # Platform adhesion settings
- print_settings["adhesion_type"] = global_stack.getProperty("adhesion_type", "value")
- # Shell settings
- print_settings["wall_line_count"] = global_stack.getProperty("wall_line_count", "value")
- print_settings["retraction_enable"] = global_stack.getProperty("retraction_enable", "value")
- # Prime tower settings
- print_settings["prime_tower_enable"] = global_stack.getProperty("prime_tower_enable", "value")
- print_settings["prime_tower_mode"] = global_stack.getProperty("prime_tower_mode", "value")
- # Infill settings
- print_settings["infill_sparse_density"] = global_stack.getProperty("infill_sparse_density", "value")
- print_settings["infill_pattern"] = global_stack.getProperty("infill_pattern", "value")
- print_settings["gradual_infill_steps"] = global_stack.getProperty("gradual_infill_steps", "value")
- print_settings["print_sequence"] = global_stack.getProperty("print_sequence", "value")
- data["print_settings"] = print_settings
- # Send the name of the output device type that is used.
- data["output_to"] = type(output_device).__name__
- # Engine Statistics (Slicing Time, ...)
- # Call it backend-time, sice we might want to get the actual slice time from the engine itself,
- # to also identify problems in between the users pressing the button and the engine actually starting
- # (and the other way around with data that arrives back from the engine).
- time_setup = 0.0
- time_backend = 0.0
- if not print_information.preSliced:
- backend_info = self._application.getBackend().resetAndReturnLastSliceTimeStats()
- time_start_process = backend_info["time_start_process"]
- time_send_message = backend_info["time_send_message"]
- time_end_slice = backend_info["time_end_slice"]
- if time_start_process and time_send_message and time_end_slice:
- time_setup = time_send_message - time_start_process
- time_backend = time_end_slice - time_send_message
- data["engine_stats"] = {
- "is_presliced": int(print_information.preSliced),
- "time_setup": int(round(time_setup)),
- "time_backend": int(round(time_backend)),
- }
- # Convert data to bytes
- binary_data = json.dumps(data).encode("utf-8")
- # Send slice info non-blocking
- network_manager = self._application.getHttpRequestManager()
- network_manager.post(self.info_url, data = binary_data,
- callback = self._onRequestFinished, error_callback = self._onRequestError)
- except Exception:
- # We really can't afford to have a mistake here, as this would break the sending of g-code to a device
- # (Either saving or directly to a printer). The functionality of the slice data is not *that* important.
- Logger.logException("e", "Exception raised while sending slice info.") # But we should be notified about these problems of course.
- def _onRequestFinished(self, reply: "QNetworkReply") -> None:
- status_code = reply.attribute(QNetworkRequest.Attribute.HttpStatusCodeAttribute)
- if status_code == 200:
- Logger.log("i", "SliceInfo sent successfully")
- return
- data = reply.readAll().data().decode("utf-8")
- Logger.log("e", "SliceInfo request failed, status code %s, data: %s", status_code, data)
- def _onRequestError(self, reply: "QNetworkReply", error: "QNetworkReply.NetworkError") -> None:
- Logger.log("e", "Got error for SliceInfo request: %s", reply.errorString())
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