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- #
- # Copyright 2018-2022 Elyra Authors
- #
- # Licensed under the Apache License, Version 2.0 (the "License");
- # you may not use this file except in compliance with the License.
- # You may obtain a copy of the License at
- #
- # http://www.apache.org/licenses/LICENSE-2.0
- #
- # Unless required by applicable law or agreed to in writing, software
- # distributed under the License is distributed on an "AS IS" BASIS,
- # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- # See the License for the specific language governing permissions and
- # limitations under the License.
- #
- import json
- from logging import Logger
- import os
- from pathlib import Path
- from queue import Empty
- from queue import Queue
- from threading import Event
- from threading import Thread
- import time
- from typing import Dict
- from typing import List
- from typing import Optional
- from typing import Union
- import entrypoints
- from jinja2 import Environment
- from jinja2 import PackageLoader
- from jinja2 import Template
- from jupyter_core.paths import jupyter_runtime_dir
- from traitlets.config import SingletonConfigurable
- from watchdog.events import FileSystemEventHandler
- from watchdog.observers import Observer
- from elyra.metadata.manager import MetadataManager
- from elyra.metadata.metadata import Metadata
- from elyra.metadata.schemaspaces import ComponentCatalogs
- from elyra.pipeline.catalog_connector import ComponentCatalogConnector
- from elyra.pipeline.component import Component
- from elyra.pipeline.component import ComponentParser
- from elyra.pipeline.component_metadata import ComponentCatalogMetadata
- from elyra.pipeline.pipeline_constants import ELYRA_COMPONENT_PROPERTIES
- from elyra.pipeline.runtime_type import RuntimeProcessorType
- BLOCKING_TIMEOUT = 0.5
- NONBLOCKING_TIMEOUT = 0.10
- # Issue warnings if catalog update takes longer than this value in seconds
- CATALOG_UPDATE_TIMEOUT = int(os.getenv("ELYRA_CATALOG_UPDATE_TIMEOUT", 15))
- # Issue warnings when outstanding worker thread counts exceed this value
- WORKER_THREAD_WARNING_THRESHOLD = int(os.getenv("ELYRA_WORKER_THREAD_WARNING_THRESHOLD", 10))
- # Define custom type to describe the component cache
- ComponentCacheType = Dict[str, Dict[str, Dict[str, Dict[str, Union[Component, str, List[str]]]]]]
- class RefreshInProgressError(Exception):
- def __init__(self):
- super().__init__("A catalog refresh is in progress. Try the request later.")
- class RefreshQueue(Queue):
- """Entries are associated with a complete refresh of the Component Cache."""
- _refreshing: bool
- def __init__(self):
- super().__init__()
- self._refreshing = False
- @property
- def refreshing(self) -> bool:
- return self._refreshing
- @refreshing.setter
- def refreshing(self, value: bool) -> None:
- self._refreshing = value
- def get(self, block: bool = True, timeout: Optional[float] = None):
- """Overrides the superclass method to set the refreshing property to false when empty."""
- try:
- entry = super().get(block=block, timeout=timeout)
- except Empty:
- self.refreshing = False
- raise
- return entry
- def put(self, item, block=True, timeout=None):
- """Overrides the superclass method to set the refreshing property to true."""
- super().put(item, block=block, timeout=timeout)
- self.refreshing = True
- class UpdateQueue(Queue):
- """Entries are associated with a single update of the Component Cache.
- This class merely exists to distinguish it from the RefreshQueue instance.
- """
- pass
- class CacheUpdateManager(Thread):
- """
- Primary thread for maintaining consistency of the component cache.
- The component cache manager maintains the cache queue, whose entries are a
- tuple of 'catalog' and 'action'. The 'catalog' is a catalog instance against
- which the 'action' is applied. The 'action' is one of 'modify' or 'delete'.
- For 'delete' the components of the referenced catalog are removed. For 'modify'
- the components of the referenced catalog are inserted or updated (depending on
- its prior existence).
- """
- def __init__(
- self, log: Logger, component_cache: ComponentCacheType, refresh_queue: RefreshQueue, update_queue: UpdateQueue
- ):
- super().__init__()
- self.daemon = True
- self.name = "CacheUpdateManager"
- self.log: Logger = log
- self._component_cache: ComponentCacheType = component_cache
- self._refresh_queue: RefreshQueue = refresh_queue
- self._update_queue: UpdateQueue = update_queue
- self._check_refresh_queue = False
- self._threads: List[CacheUpdateWorker] = []
- self.stop_event: Event = Event() # Set when server process stops
- def run(self):
- """Process queue queue entries until server is stopped."""
- while not self.stop_event.is_set():
- self.manage_cache_tasks()
- def manage_cache_tasks(self):
- """
- Check the cache queue for a cache update action and start
- a corresponding worker thread to complete the update
- """
- outstanding_threads = self._has_outstanding_threads()
- try:
- # Get a task from the cache queue, waiting less if we have active threads.
- timeout = NONBLOCKING_TIMEOUT if outstanding_threads else BLOCKING_TIMEOUT
- # Toggle between refresh and update queues so as to prevent starvation.
- self._check_refresh_queue = not self._check_refresh_queue
- if self._check_refresh_queue:
- catalog, action = self._refresh_queue.get(timeout=timeout)
- else:
- catalog, action = self._update_queue.get(timeout=timeout)
- except Empty:
- # No task exists in the cache queue, proceed to check for thread execution
- pass
- else:
- # Create and start a thread for the task
- updater_thread = CacheUpdateWorker(
- self._component_cache,
- self._refresh_queue if self._check_refresh_queue else self._update_queue,
- catalog,
- action,
- )
- updater_thread.start()
- queue_clause = "refreshing" if self._check_refresh_queue else "updating"
- self.log.debug(f"CacheUpdateWorker {queue_clause} catalog: '{updater_thread.name}', action: '{action}'...")
- self._threads.append(updater_thread)
- def _has_outstanding_threads(self) -> bool:
- """
- Join finished threads and report on long-running threads as needed.
- """
- outstanding_threads = False
- for thread in self._threads:
- # Attempt to join thread within the given amount of time
- thread.join(timeout=NONBLOCKING_TIMEOUT)
- cumulative_run_time = int(time.time() - thread.task_start_time)
- if thread.is_alive():
- # Thread is still running (thread join timed out)
- outstanding_threads = True
- # Report on a long-running thread if CATALOG_UPDATE_TIMEOUT is exceeded
- time_since_last_check = int(time.time() - thread.last_warn_time)
- if time_since_last_check > CATALOG_UPDATE_TIMEOUT:
- thread.last_warn_time = time.time()
- self.log.warning(
- f"Cache update for catalog '{thread.name}' is still processing "
- f"after {cumulative_run_time} seconds ..."
- )
- else:
- self.log.debug(f"CacheUpdateWorker completed for catalog: '{thread.name}', action: '{thread.action}'.")
- # Thread has been joined and can be removed from the list
- self._threads.remove(thread)
- # Mark cache task as complete
- thread.queue.task_done()
- # Report successful join for threads that have previously logged a
- # cache update duration warning
- if thread.last_warn_time != thread.task_start_time:
- self.log.info(
- f"Cache update for catalog '{thread.name}' has "
- f"completed after {cumulative_run_time} seconds"
- )
- if len(self._threads) > WORKER_THREAD_WARNING_THRESHOLD:
- self.log.warning(
- f"CacheUpdateWorker outstanding threads threshold "
- f"({WORKER_THREAD_WARNING_THRESHOLD}) has been exceeded. "
- f"{len(self._threads)} threads are outstanding. This may "
- f"indicate a possible issue."
- )
- return outstanding_threads
- def is_refreshing(self) -> bool:
- return self._refresh_queue.refreshing
- def init_refresh(self) -> None:
- self._refresh_queue.refreshing = True
- def stop(self):
- """Trigger completion of the manager thread."""
- self._refresh_queue.refreshing = False
- self.stop_event.set()
- self.log.debug("CacheUpdateManager stopped.")
- class CacheUpdateWorker(Thread):
- """Spawned by the CacheUpdateManager to perform work against the component cache."""
- def __init__(
- self,
- component_cache: ComponentCacheType,
- queue: Queue,
- catalog: ComponentCatalogMetadata,
- action: Optional[str] = None,
- ):
- super().__init__()
- self.daemon = True
- self.name = catalog.name # Let the name of the thread reflect the catalog being managed
- self._component_cache: ComponentCacheType = component_cache
- # Task-specific properties
- self.queue: Queue = queue
- self.catalog: ComponentCatalogMetadata = catalog
- self.action: str = action
- # Thread metadata
- self.task_start_time = time.time()
- self.last_warn_time = self.task_start_time
- # Prepare component cache for modification
- runtime_type = None
- if self.catalog.metadata:
- runtime_type = self.catalog.runtime_type.name
- self.prepare_cache_for_catalog(runtime_type)
- def run(self):
- """Apply the relative action to the given catalog entry in the cache."""
- if self.action == "delete":
- # Check all runtime types in cache for an entry of the given name.
- # If found, remove only the components from this catalog
- for runtime_type in self._component_cache:
- if self.catalog.name in self._component_cache[runtime_type]:
- self._component_cache[runtime_type].pop(self.catalog.name, None)
- break
- else: # 'modify' - replace (or add) components from the given catalog an update its status
- runtime_type = self.catalog.runtime_type.name
- catalog_state = self._component_cache[runtime_type][self.catalog.name].get("status")
- try:
- # Replace all components for the given catalog
- self._component_cache[runtime_type][self.catalog.name][
- "components"
- ] = ComponentCache.instance().read_component_catalog(self.catalog)
- catalog_state["state"] = "current"
- catalog_state["errors"] = [] # reset any errors that may have been present
- except Exception as e:
- # Update state with an 'error' action and the relevant message
- catalog_state["state"] = "error"
- catalog_state["errors"].append(str(e))
- def prepare_cache_for_catalog(self, runtime_type: Optional[str] = None):
- """
- Add entries to the component cache for the runtime type and/or catalog
- of focus for this thread, and set the catalog state to 'updating'.
- """
- if self.action == "delete":
- # On 'delete' the runtime_type parameter will be None and since catalog names
- # are essentially unique across runtime types, we can break out of this loop
- # on first occurrence and let _that_ runtime type be used in the following code.
- for runtime_type in self._component_cache:
- if self.catalog.name in self._component_cache[runtime_type]:
- break
- # Add sub-dictionary for this runtime type if not present
- if not self._component_cache.get(runtime_type):
- self._component_cache[runtime_type] = {}
- # Add sub-dictionary for this catalog if not present - this will occur when
- # a catalog instance is created, so we're essentially adding a placeholder.
- if not self._component_cache[runtime_type].get(self.catalog.name):
- self._component_cache[runtime_type][self.catalog.name] = {
- "components": {},
- "status": {"state": "updating", "errors": []},
- }
- else: # Set state to 'updating' for an existing entry
- self._component_cache[runtime_type][self.catalog.name]["status"]["state"] = "updating"
- class ComponentCache(SingletonConfigurable):
- """Represents the cache of component definitions indexed by runtime-type, then by catalog name."""
- # The component_cache is indexed at the top level by runtime type name, e.g. 'APACHE_AIRFLOW',
- # and has as its value another dictionary. At the second level, each sub-dictionary is indexed by
- # a ComponentCatalogMetadata instance name; its value is also a sub-dictionary. This sub-dictionary
- # consists of two additional dictionaries: 1.) one with key "components" whose dictionary is
- # indexed by component id and maps to the corresponding Component object, and 2.) one with key
- # "status" and value of a final sub-dictionary with key-value pairs "state":"<current/updating/errors>"
- # and "errors":["<error1>", "<error2>", ...] to dynamically indicate the status of this catalog instance
- _component_cache: ComponentCacheType = {}
- _generic_category_label = "Elyra"
- _generic_components: Dict[str, Component] = {
- "notebook": Component(
- id="notebook",
- name="Notebook",
- description="Run notebook file",
- op="execute-notebook-node",
- catalog_type="elyra",
- component_reference="elyra",
- extensions=[".ipynb"],
- categories=[_generic_category_label],
- ),
- "python-script": Component(
- id="python-script",
- name="Python Script",
- description="Run Python script",
- op="execute-python-node",
- catalog_type="elyra",
- component_reference="elyra",
- extensions=[".py"],
- categories=[_generic_category_label],
- ),
- "r-script": Component(
- id="r-script",
- name="R Script",
- description="Run R script",
- op="execute-r-node",
- catalog_type="elyra",
- component_reference="elyra",
- extensions=[".r"],
- categories=[_generic_category_label],
- ),
- }
- def __init__(self, **kwargs):
- emulate_server_app: bool = kwargs.pop("emulate_server_app", False)
- super().__init__(**kwargs)
- self._component_cache = {}
- self.is_server_process = ComponentCache._determine_server_process(emulate_server_app, **kwargs)
- self.manifest_dir = jupyter_runtime_dir()
- # Ensure queue attribute exists for non-server instances as well.
- self.refresh_queue: Optional[RefreshQueue] = None
- self.update_queue: Optional[UpdateQueue] = None
- if self.is_server_process:
- self.refresh_queue = RefreshQueue()
- self.update_queue = UpdateQueue()
- # Set up watchdog for manifest file for out-of-process updates
- self.observer = Observer()
- self.observer.schedule(ManifestFileChangeHandler(self), self.manifest_dir)
- # Start a thread to manage updates to the component cache
- manager = CacheUpdateManager(self.log, self._component_cache, self.refresh_queue, self.update_queue)
- self.cache_manager = manager
- self.cache_manager.start()
- self.log.debug("CacheUpdateManager started...")
- else:
- self.manifest_filename = os.path.join(self.manifest_dir, f"elyra-component-manifest-{os.getpid()}.json")
- @staticmethod
- def _determine_server_process(emulate_server_app: bool, **kwargs) -> bool:
- """Determines if this process is a server (extension) process."""
- app_names = ["ServerApp", "ElyraApp"]
- is_server_process = False
- if "parent" in kwargs and kwargs["parent"].__class__.__name__ in app_names:
- is_server_process = True
- elif emulate_server_app: # Used in unittests
- is_server_process = True
- return is_server_process
- def load(self):
- """
- Completes a series of actions during system startup, such as creating
- the component manifest file and triggering the build of the component
- cache for existing ComponentCatalog metadata instances.
- """
- # Proceed only if singleton instance has been created
- if self.initialized:
- # The cache manager will work on manifest and cache tasks on an
- # in-process basis as load() is only called during startup from
- # the server process.
- if self.is_server_process:
- # Remove all existing manifest files from previous processes
- self._remove_all_manifest_files()
- # Start the watchdog if it's not alive, prevents redundant starts
- if not self.observer.is_alive():
- self.observer.start()
- # Fetch all component catalog instances and trigger their add to the
- # component cache if this is not already happening (it seems some server
- # test fixtures could be loading the server extensions multiple times).
- if not self.cache_manager.is_refreshing():
- self.refresh()
- def refresh(self):
- """Triggers a refresh of all catalogs in the component cache.
- Raises RefreshInProgressError if a complete refresh is in progress.
- Note that we do not preclude non-server processes from performing a
- complete refresh. In such cases, each of the catalog entries will be
- written to the manifest, which will be placed into the update queue.
- As a result, non-server applications could by-pass the "refresh in progress"
- constraint, but we're assuming a CLI application won't be as likely to
- "pound" refresh like a UI application can.
- """
- if self.is_server_process and self.cache_manager.is_refreshing():
- raise RefreshInProgressError()
- catalogs = MetadataManager(schemaspace=ComponentCatalogs.COMPONENT_CATALOGS_SCHEMASPACE_ID).get_all()
- for catalog in catalogs:
- self._insert_request(self.refresh_queue, catalog, "modify")
- def update(self, catalog: Metadata, action: str):
- """
- Triggers an update of the component cache for the given catalog name. If this is a non-server
- process, the entry is written to the manifest file where it will be "processed" by the watchdog
- and inserted into the component cache queue, otherwise we update the cache queue directly.
- """
- self._insert_request(self.update_queue, catalog, action)
- def _insert_request(self, queue: Queue, catalog: Metadata, action: str):
- """
- If running as a server process, the request is submitted to the desired queue, otherwise
- it is posted to the manifest where the server process (if running) can detect the manifest
- file update and send the request to the update queue.
- Note that any calls to ComponentCache.refresh() from non-server processes will still
- perform the refresh, but via the update queue rather than the refresh queue. We could,
- instead, raise NotImplementedError in such cases, but we may want the ability to refresh
- the entire component cache from a CLI utility and the current implementation would allow that.
- """
- if self.is_server_process:
- queue.put((catalog, action))
- else:
- manifest: Dict[str, str] = self._load_manifest()
- manifest[catalog.name] = action
- self.update_manifest(manifest=manifest)
- def _remove_all_manifest_files(self):
- """
- Remove all existing manifest files in the Jupyter runtimes directory.
- """
- manifest_files = Path(self.manifest_dir).glob("**/elyra-component-manifest-*.json")
- for file in manifest_files:
- os.remove(str(file))
- def _load_manifest(self, filename: Optional[str] = None) -> Dict[str, str]:
- """Read and return the contents of a manifest file.
- If 'filename' is not provided, this process's manifest file will be read.
- """
- filename = filename or self.manifest_filename
- if not os.path.isfile(filename):
- self.log.debug(f"Manifest file '{filename}' doesn't exist and will be created.")
- return {}
- with open(filename, "r") as f:
- manifest: Dict[str, str] = json.load(f)
- self.log.debug(f"Reading manifest '{manifest}' from file '{filename}'")
- return manifest
- def update_manifest(self, filename: Optional[str] = None, manifest: Optional[Dict[str, str]] = None) -> None:
- """Update the manifest file with the given entry."""
- filename = filename or self.manifest_filename
- manifest = manifest or {}
- self.log.debug(f"Updating manifest '{manifest}' to file '{filename}'")
- with open(filename, "w") as f:
- json.dump(manifest, f, indent=2)
- def wait_for_all_cache_tasks(self):
- """
- Block execution and wait for all tasks in the cache task update queue to complete.
- Primarily used for testing.
- """
- if self.is_server_process:
- self.update_queue.join()
- self.refresh_queue.join()
- def get_all_components(self, platform: RuntimeProcessorType) -> List[Component]:
- """
- Retrieve all components from component catalog cache
- """
- components: List[Component] = []
- catalogs = self._component_cache.get(platform.name, {})
- for catalog_name, catalog_properties in catalogs.items():
- components.extend(list(catalog_properties.get("components", {}).values()))
- if not components and platform != RuntimeProcessorType.LOCAL:
- self.log.error(f"No components could be found in any catalog for platform type '{platform.name}'.")
- return components
- def get_component(self, platform: RuntimeProcessorType, component_id: str) -> Optional[Component]:
- """
- Retrieve the component with a given component_id from component catalog cache
- """
- component: Optional[Component] = None
- catalogs = self._component_cache.get(platform.name, {})
- for catalog_name, catalog_properties in catalogs.items():
- component = catalog_properties.get("components", {}).get(component_id)
- if component:
- break
- if not component:
- self.log.error(f"Component with ID '{component_id}' could not be found in any catalog.")
- return component
- def _load_catalog_reader_class(
- self, catalog: ComponentCatalogMetadata, file_types: List[str]
- ) -> Optional[ComponentCatalogConnector]:
- """
- Load the appropriate entrypoint class based on the schema name indicated in
- the ComponentCatalogMetadata instance and the file types associated with the component
- parser in use
- """
- try:
- catalog_reader = entrypoints.get_group_named("elyra.component.catalog_types").get(catalog.schema_name)
- if not catalog_reader:
- self.log.error(
- f"No entrypoint with name '{catalog.schema_name}' was found in group "
- f"'elyra.component.catalog_types' to match the 'schema_name' given in catalog "
- f"'{catalog.display_name}'. Skipping..."
- )
- return None
- catalog_reader = catalog_reader.load()(file_types, parent=self.parent)
- except Exception as e:
- self.log.error(f"Could not load appropriate ComponentCatalogConnector class: {e}. Skipping...")
- return None
- return catalog_reader
- def read_component_catalog(self, catalog: ComponentCatalogMetadata) -> Dict[str, Component]:
- """
- Read a component catalog and return a dictionary of components indexed by component_id.
- :param catalog: a metadata instances from which to read and construct Component objects
- :returns: a dictionary of component id to Component object for all read/parsed components
- """
- components: Dict[str, Component] = {}
- # Assign component parser based on the runtime platform type
- parser = ComponentParser.create_instance(platform=catalog.runtime_type)
- # Assign reader based on the type of the catalog (the 'schema_name')
- catalog_reader = self._load_catalog_reader_class(catalog, parser.file_types)
- if not catalog_reader:
- return components
- # Get content of component definition file for each component in this catalog
- self.log.debug(f"Processing components in catalog '{catalog.display_name}'")
- catalog_entries = catalog_reader.read_component_definitions(catalog)
- if not catalog_entries:
- return components
- for catalog_entry in catalog_entries:
- # Parse the entry to get a fully qualified Component object
- try:
- parsed_components = parser.parse(catalog_entry) or []
- except Exception as e:
- self.log.warning(
- f"Could not parse definition for component with identifying information: "
- f"'{catalog_entry.entry_reference}' -> {str(e)}"
- )
- else:
- for component in parsed_components:
- components[component.id] = component
- return components
- @staticmethod
- def get_generic_components() -> List[Component]:
- return list(ComponentCache._generic_components.values())
- @staticmethod
- def get_generic_component(component_id: str) -> Optional[Component]:
- return ComponentCache._generic_components.get(component_id)
- @staticmethod
- def get_generic_component_ops() -> List[str]:
- return [component.op for component in ComponentCache.get_generic_components()]
- @staticmethod
- def load_jinja_template(template_name: str) -> Template:
- """
- Loads the jinja template of the given name from the
- elyra/templates/components folder
- """
- loader = PackageLoader("elyra", "templates/components")
- template_env = Environment(loader=loader)
- return template_env.get_template(template_name)
- @staticmethod
- def to_canvas_palette(components: List[Component]) -> Dict:
- """
- Converts catalog components into appropriate canvas palette format
- """
- template = ComponentCache.load_jinja_template("canvas_palette_template.jinja2")
- # Define a fallback category for components with no given categories
- fallback_category_name = "No Category"
- # Convert the list of all components into a dictionary of
- # component lists keyed by category
- category_to_components: Dict[str, List[Component]] = {}
- for component in components:
- categories = component.categories
- # Assign a fallback category so that component is not
- # lost during palette render
- if not categories:
- categories = [fallback_category_name]
- for category in categories:
- if category not in category_to_components.keys():
- category_to_components[category] = []
- if component.id not in [comp.id for comp in category_to_components[category]]:
- category_to_components[category].append(component)
- # Render template
- canvas_palette = template.render(category_dict=category_to_components)
- return json.loads(canvas_palette)
- @staticmethod
- def to_canvas_properties(component: Component) -> Dict:
- """
- Converts catalog components into appropriate canvas properties format
- If component_id is one of the generic set, generic template is rendered,
- otherwise, the runtime-specific property template is rendered
- """
- kwargs = {}
- if ComponentCache.get_generic_component(component.id) is not None:
- template = ComponentCache.load_jinja_template("generic_properties_template.jinja2")
- else:
- # Determine which component properties parsed from the definition
- # collide with Elyra-defined properties (in the case of a collision,
- # only the parsed property will be displayed)
- kwargs = {"elyra_property_collisions_list": []}
- for param in component.properties:
- if param.ref in ELYRA_COMPONENT_PROPERTIES:
- kwargs["elyra_property_collisions_list"].append(param.ref)
- template = ComponentCache.load_jinja_template("canvas_properties_template.jinja2")
- canvas_properties = template.render(component=component, **kwargs)
- return json.loads(canvas_properties)
- class ManifestFileChangeHandler(FileSystemEventHandler):
- """Watchdog handler that filters on .json files within specific metadata directories."""
- def __init__(self, component_cache: ComponentCache, **kwargs):
- super().__init__(**kwargs)
- self.component_cache = component_cache
- self.log = component_cache.log
- def dispatch(self, event):
- """Dispatches delete and modification events pertaining to the manifest filename"""
- if "elyra-component-manifest" in event.src_path:
- super().dispatch(event)
- def on_modified(self, event):
- """Fires when the component manifest file is modified."""
- self.log.debug(f"ManifestFileChangeHandler: file '{event.src_path}' has been modified.")
- manifest = self.component_cache._load_manifest(filename=event.src_path)
- if manifest: # only update the manifest if there is work to do
- for catalog, action in manifest.items():
- self.log.debug(f"ManifestFileChangeHandler: inserting ({catalog},{action}) into update queue...")
- if action == "delete":
- # The metadata instance has already been deleted, so we must
- # fabricate an instance that only consists of a catalog name
- catalog_instance = ComponentCatalogMetadata(name=catalog)
- else: # cache_action == 'modify':
- # Fetch the catalog instance associated with this action
- catalog_instance = MetadataManager(
- schemaspace=ComponentCatalogs.COMPONENT_CATALOGS_SCHEMASPACE_ID
- ).get(name=catalog)
- self.component_cache.update(catalog=catalog_instance, action=action)
- self.component_cache.update_manifest(filename=event.src_path) # clear the manifest
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