"""JupyterLab command handler""" # Copyright (c) Jupyter Development Team. # Distributed under the terms of the Modified BSD License. import contextlib import errno import hashlib import itertools import json import logging import os import os.path as osp import re import shutil import site import stat import subprocess import sys import tarfile from copy import deepcopy from dataclasses import dataclass from glob import glob from pathlib import Path from tempfile import TemporaryDirectory from threading import Event from typing import FrozenSet, Optional from urllib.error import URLError from urllib.request import Request, quote, urljoin, urlopen from jupyter_core.paths import jupyter_config_dir from jupyter_server.extension.serverextension import GREEN_ENABLED, GREEN_OK, RED_DISABLED, RED_X from jupyterlab_server.config import ( get_allowed_levels, get_federated_extensions, get_package_url, get_page_config, get_static_page_config, write_page_config, ) from jupyterlab_server.process import Process, WatchHelper, list2cmdline, which from packaging.version import Version from traitlets import Bool, HasTraits, Instance, List, Unicode, default from jupyterlab._version import __version__ from jupyterlab.coreconfig import CoreConfig from jupyterlab.jlpmapp import HERE, YARN_PATH from jupyterlab.semver import Range, gt, gte, lt, lte, make_semver # The regex for expecting the webpack output. WEBPACK_EXPECT = re.compile(r".*theme-light-extension/style/theme.css") # The repo root directory REPO_ROOT = osp.abspath(osp.join(HERE, "..")) # The dev mode directory. DEV_DIR = osp.join(REPO_ROOT, "dev_mode") # If we are pinning the package, rename it `pin@` PIN_PREFIX = "pin@" # Default Yarn registry used in default yarn.lock YARN_DEFAULT_REGISTRY = "https://registry.yarnpkg.com" class ProgressProcess(Process): def __init__(self, cmd, logger=None, cwd=None, kill_event=None, env=None): """Start a subprocess that can be run asynchronously. Parameters ---------- cmd: list The command to run. logger: :class:`~logger.Logger`, optional The logger instance. cwd: string, optional The cwd of the process. kill_event: :class:`~threading.Event`, optional An event used to kill the process operation. env: dict, optional The environment for the process. """ if not isinstance(cmd, (list, tuple)): msg = "Command must be given as a list" raise ValueError(msg) if kill_event and kill_event.is_set(): msg = "Process aborted" raise ValueError(msg) self.logger = _ensure_logger(logger) self._last_line = "" self.cmd = cmd self.logger.debug(f"> {list2cmdline(cmd)}") self.proc = self._create_process( cwd=cwd, env=env, stderr=subprocess.STDOUT, stdout=subprocess.PIPE, universal_newlines=True, encoding="utf-8", ) self._kill_event = kill_event or Event() Process._procs.add(self) def wait(self): cache = [] proc = self.proc kill_event = self._kill_event spinner = itertools.cycle(["-", "\\", "|", "/"]) while proc.poll() is None: sys.stdout.write(next(spinner)) # write the next character sys.stdout.flush() # flush stdout buffer (actual character display) sys.stdout.write("\b") if kill_event.is_set(): self.terminate() msg = "Process was aborted" raise ValueError(msg) try: out, _ = proc.communicate(timeout=0.1) cache.append(out) except subprocess.TimeoutExpired: continue self.logger.debug("\n".join(cache)) sys.stdout.flush() return self.terminate() def pjoin(*args): """Join paths to create a real path.""" return osp.abspath(osp.join(*args)) def get_user_settings_dir(): """Get the configured JupyterLab user settings directory.""" settings_dir = os.environ.get("JUPYTERLAB_SETTINGS_DIR") settings_dir = settings_dir or pjoin(jupyter_config_dir(), "lab", "user-settings") return osp.abspath(settings_dir) def get_workspaces_dir(): """Get the configured JupyterLab workspaces directory.""" workspaces_dir = os.environ.get("JUPYTERLAB_WORKSPACES_DIR") workspaces_dir = workspaces_dir or pjoin(jupyter_config_dir(), "lab", "workspaces") return osp.abspath(workspaces_dir) def get_app_dir(): """Get the configured JupyterLab app directory.""" # Default to the override environment variable. if os.environ.get("JUPYTERLAB_DIR"): # We must resolve the path to get the canonical case of the path for # case-sensitive systems return str(Path(os.environ["JUPYTERLAB_DIR"]).resolve()) # Use the default locations for data_files. app_dir = pjoin(sys.prefix, "share", "jupyter", "lab") # Check for a user level install. # Ensure that USER_BASE is defined if hasattr(site, "getuserbase"): site.getuserbase() userbase = getattr(site, "USER_BASE", None) if HERE.startswith(userbase) and not app_dir.startswith(userbase): app_dir = pjoin(userbase, "share", "jupyter", "lab") # Check for a system install in '/usr/local/share'. elif ( sys.prefix.startswith("/usr") and not osp.exists(app_dir) and osp.exists("/usr/local/share/jupyter/lab") ): app_dir = "/usr/local/share/jupyter/lab" # We must resolve the path to get the canonical case of the path for # case-sensitive systems return str(Path(app_dir).resolve()) def dedupe_yarn(path, logger=None): """`yarn-deduplicate` with the `fewer` strategy to minimize total packages installed in a given staging directory This means a extension (or dependency) _could_ cause a downgrade of an version expected at publication time, but core should aggressively set pins above, for example, known-bad versions """ had_dupes = ( ProgressProcess( [ "node", YARN_PATH, "dlx", "yarn-berry-deduplicate", "-s", "fewerHighest", "--fail", ], cwd=path, logger=logger, ).wait() != 0 ) if had_dupes: yarn_proc = ProgressProcess(["node", YARN_PATH], cwd=path, logger=logger) yarn_proc.wait() def ensure_node_modules(cwd, logger=None): """Ensure that node_modules is up to date. Returns true if the node_modules was updated. """ logger = _ensure_logger(logger) yarn_proc = ProgressProcess( ["node", YARN_PATH, "--immutable", "--immutable-cache"], cwd=cwd, logger=logger ) ret = yarn_proc.wait() # Update node_modules if needed. if ret != 0: yarn_proc = ProgressProcess(["node", YARN_PATH], cwd=cwd, logger=logger) yarn_proc.wait() dedupe_yarn(REPO_ROOT, logger) return ret != 0 def ensure_dev(logger=None): """Ensure that the dev assets are available.""" logger = _ensure_logger(logger) target = pjoin(DEV_DIR, "static") # Determine whether to build. if ensure_node_modules(REPO_ROOT, logger) or not osp.exists(target): yarn_proc = ProgressProcess(["node", YARN_PATH, "build"], cwd=REPO_ROOT, logger=logger) yarn_proc.wait() def ensure_core(logger=None): """Ensure that the core assets are available.""" staging = pjoin(HERE, "staging") logger = _ensure_logger(logger) # Determine whether to build. target = pjoin(HERE, "static", "index.html") if not osp.exists(target): ensure_node_modules(staging, logger) yarn_proc = ProgressProcess(["node", YARN_PATH, "build"], cwd=staging, logger=logger) yarn_proc.wait() def ensure_app(app_dir): """Ensure that an application directory is available. If it does not exist, return a list of messages to prompt the user. """ if osp.exists(pjoin(app_dir, "static", "index.html")): return msgs = [ 'JupyterLab application assets not found in "%s"' % app_dir, "Please run `jupyter lab build` or use a different app directory", ] return msgs def watch_packages(logger=None): """Run watch mode for the source packages. Parameters ---------- logger: :class:`~logger.Logger`, optional The logger instance. Returns ------- A list of `WatchHelper` objects. """ logger = _ensure_logger(logger) ensure_node_modules(REPO_ROOT, logger) ts_dir = osp.abspath(osp.join(REPO_ROOT, "packages", "metapackage")) # Run typescript watch and wait for the string indicating it is done. ts_regex = r".* Found 0 errors\. Watching for file changes\." ts_proc = WatchHelper( ["node", YARN_PATH, "run", "watch"], cwd=ts_dir, logger=logger, startup_regex=ts_regex ) return [ts_proc] def watch_dev(logger=None): """Run watch mode in a given directory. Parameters ---------- logger: :class:`~logger.Logger`, optional The logger instance. Returns ------- A list of `WatchHelper` objects. """ logger = _ensure_logger(logger) package_procs = watch_packages(logger) # Run webpack watch and wait for compilation. wp_proc = WatchHelper( ["node", YARN_PATH, "run", "watch"], cwd=DEV_DIR, logger=logger, startup_regex=WEBPACK_EXPECT, ) return [*package_procs, wp_proc] class AppOptions(HasTraits): """Options object for build system""" def __init__(self, logger=None, core_config=None, **kwargs): if core_config is not None: kwargs["core_config"] = core_config if logger is not None: kwargs["logger"] = logger # use the default if app_dir is empty if "app_dir" in kwargs and not kwargs["app_dir"]: kwargs.pop("app_dir") super().__init__(**kwargs) app_dir = Unicode(help="The application directory") use_sys_dir = Bool( True, help=("Whether to shadow the default app_dir if that is set to a non-default value"), ) logger = Instance(logging.Logger, help="The logger to use") core_config = Instance(CoreConfig, help="Configuration for core data") kill_event = Instance(Event, args=(), help="Event for aborting call") labextensions_path = List( Unicode(), help="The paths to look in for prebuilt JupyterLab extensions" ) registry = Unicode(help="NPM packages registry URL") splice_source = Bool(False, help="Splice source packages into app directory.") skip_full_build_check = Bool( False, help=( "If true, perform only a quick check that the lab build is up to date." " If false, perform a thorough check, which verifies extension contents." ), ) verbose = Bool(False, help="Increase verbosity level.") @default("logger") def _default_logger(self): return logging.getLogger("jupyterlab") # These defaults need to be federated to pick up # any changes to env vars: @default("app_dir") def _default_app_dir(self): return get_app_dir() @default("core_config") def _default_core_config(self): return CoreConfig() @default("registry") def _default_registry(self): config = _yarn_config(self.logger)["yarn config"] return config.get("registry", YARN_DEFAULT_REGISTRY) def _ensure_options(options): """Helper to use deprecated kwargs for AppOption""" if options is None: return AppOptions() elif issubclass(options.__class__, AppOptions): return options else: return AppOptions(**options) def watch(app_options=None): """Watch the application. Parameters ---------- app_options: :class:`AppOptions`, optional The application options. Returns ------- A list of processes to run asynchronously. """ app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) package_procs = watch_packages(app_options.logger) if app_options.splice_source else [] return package_procs + handler.watch() def install_extension(extension, app_options=None, pin=None): """Install an extension package into JupyterLab. The extension is first validated. Returns `True` if a rebuild is recommended, `False` otherwise. """ app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) return handler.install_extension(extension, pin=pin) def uninstall_extension(name=None, app_options=None, all_=False): """Uninstall an extension by name or path. Returns `True` if a rebuild is recommended, `False` otherwise. """ app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) if all_ is True: return handler.uninstall_all_extensions() return handler.uninstall_extension(name) def update_extension(name=None, all_=False, app_dir=None, app_options=None): """Update an extension by name, or all extensions. Either `name` must be given as a string, or `all_` must be `True`. If `all_` is `True`, the value of `name` is ignored. Returns `True` if a rebuild is recommended, `False` otherwise. """ app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) if all_ is True: return handler.update_all_extensions() return handler.update_extension(name) def clean(app_options=None): """Clean the JupyterLab application directory.""" app_options = _ensure_options(app_options) logger = app_options.logger app_dir = app_options.app_dir logger.info("Cleaning %s...", app_dir) if app_dir == pjoin(HERE, "dev"): msg = "Cannot clean the dev app" raise ValueError(msg) if app_dir == pjoin(HERE, "core"): msg = "Cannot clean the core app" raise ValueError(msg) if getattr(app_options, "all", False): logger.info("Removing everything in %s...", app_dir) _rmtree_star(app_dir, logger) else: possible_targets = ["extensions", "settings", "staging", "static"] targets = [t for t in possible_targets if getattr(app_options, t)] for name in targets: target = pjoin(app_dir, name) if osp.exists(target): logger.info("Removing %s...", name) _rmtree(target, logger) else: logger.info("%s not present, skipping...", name) logger.info("Success!") if getattr(app_options, "all", False) or getattr(app_options, "extensions", False): logger.info("All of your extensions have been removed, and will need to be reinstalled") def build( name=None, version=None, static_url=None, kill_event=None, clean_staging=False, app_options=None, production=True, minimize=True, ): """Build the JupyterLab application.""" app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) return handler.build( name=name, version=version, static_url=static_url, production=production, minimize=minimize, clean_staging=clean_staging, ) def get_app_info(app_options=None): """Get a dictionary of information about the app.""" handler = _AppHandler(app_options) handler._ensure_disabled_info() return handler.info def enable_extension(extension, app_options=None, level="sys_prefix"): """Enable a JupyterLab extension/plugin. Returns `True` if a rebuild is recommended, `False` otherwise. """ handler = _AppHandler(app_options) return handler.toggle_extension(extension, False, level=level) def disable_extension(extension, app_options=None, level="sys_prefix"): """Disable a JupyterLab extension/plugin. Returns `True` if a rebuild is recommended, `False` otherwise. """ handler = _AppHandler(app_options) return handler.toggle_extension(extension, True, level=level) def check_extension(extension, installed=False, app_options=None): """Check if a JupyterLab extension is enabled or disabled.""" handler = _AppHandler(app_options) return handler.check_extension(extension, installed) def lock_extension(extension, app_options=None, level="sys_prefix"): """Lock a JupyterLab extension/plugin.""" handler = _AppHandler(app_options) return handler.toggle_extension_lock(extension, True, level=level) def unlock_extension(extension, app_options=None, level="sys_prefix"): """Unlock a JupyterLab extension/plugin.""" handler = _AppHandler(app_options) return handler.toggle_extension_lock(extension, False, level=level) def build_check(app_options=None): """Determine whether JupyterLab should be built. Returns a list of messages. """ app_options = _ensure_options(app_options) _node_check(app_options.logger) handler = _AppHandler(app_options) return handler.build_check() def list_extensions(app_options=None): """List the extensions.""" handler = _AppHandler(app_options) return handler.list_extensions() def link_package(path, app_options=None): """Link a package against the JupyterLab build. Returns `True` if a rebuild is recommended, `False` otherwise. """ handler = _AppHandler(app_options) return handler.link_package(path) def unlink_package(package, app_options=None): """Unlink a package from JupyterLab by path or name. Returns `True` if a rebuild is recommended, `False` otherwise. """ handler = _AppHandler(app_options) return handler.unlink_package(package) def get_app_version(app_options=None): """Get the application version.""" handler = _AppHandler(app_options) return handler.info["version"] def get_latest_compatible_package_versions(names, app_options=None): """Get the latest compatible version of a list of packages.""" handler = _AppHandler(app_options) return handler.latest_compatible_package_versions(names) def read_package(target): """Read the package data in a given target tarball.""" tar = tarfile.open(target, "r") f = tar.extractfile("package/package.json") data = json.loads(f.read().decode("utf8")) data["jupyterlab_extracted_files"] = [f.path[len("package/") :] for f in tar.getmembers()] tar.close() return data # ---------------------------------------------------------------------- # Implementation details # ---------------------------------------------------------------------- class _AppHandler: def __init__(self, options): """Create a new _AppHandler object""" options = _ensure_options(options) self._options = options self.app_dir = options.app_dir self.sys_dir = get_app_dir() if options.use_sys_dir else self.app_dir self.logger = options.logger # Make a deep copy of the core data so we don't influence the original copy self.core_data = deepcopy(options.core_config._data) self.labextensions_path = options.labextensions_path self.verbose = options.verbose self.kill_event = options.kill_event self.registry = options.registry self.skip_full_build_check = options.skip_full_build_check # Do this last since it relies on other attributes self.info = self._get_app_info() # Migrate from 4.0 which did not have "locked" status try: self._maybe_mirror_disabled_in_locked(level="sys_prefix") except (PermissionError, OSError): try: self.logger.info( "`sys_prefix` level settings are read-only, using `user` level for migration to `lockedExtensions`" ) self._maybe_mirror_disabled_in_locked(level="user") except (PermissionError, OSError): self.logger.warning( "Both `sys_prefix` and `user` level settings are read-only, cannot auto-migrate `disabledExtensions` to `lockedExtensions`" ) def install_extension(self, extension, existing=None, pin=None): """Install an extension package into JupyterLab. The extension is first validated. Returns `True` if a rebuild is recommended, `False` otherwise. """ extension = _normalize_path(extension) extensions = self.info["extensions"] # Check for a core extensions. if extension in self.info["core_extensions"]: config = self._read_build_config() uninstalled = config.get("uninstalled_core_extensions", []) if extension in uninstalled: self.logger.info("Installing core extension %s" % extension) uninstalled.remove(extension) config["uninstalled_core_extensions"] = uninstalled self._write_build_config(config) return True return False # Create the app dirs if needed. self._ensure_app_dirs() # Install the package using a temporary directory. with TemporaryDirectory() as tempdir: info = self._install_extension(extension, tempdir, pin=pin) name = info["name"] # Local directories get name mangled and stored in metadata. if info["is_dir"]: config = self._read_build_config() local = config.setdefault("local_extensions", {}) local[name] = info["source"] self._write_build_config(config) # Remove an existing extension with the same name and different path if name in extensions: other = extensions[name] if other["path"] != info["path"] and other["location"] == "app": os.remove(other["path"]) return True def build( self, name=None, version=None, static_url=None, clean_staging=False, production=True, minimize=True, ): """Build the application.""" if production is None: production = not (self.info["linked_packages"] or self.info["local_extensions"]) if not production: minimize = False # If splicing, make sure the source packages are built if self._options.splice_source: ensure_node_modules(REPO_ROOT, logger=self.logger) self._run(["node", YARN_PATH, "build:packages"], cwd=REPO_ROOT) info = ["production" if production else "development"] if production: info.append("minimized" if minimize else "not minimized") self.logger.info(f'Building jupyterlab assets ({", ".join(info)})') # Set up the build directory. app_dir = self.app_dir self._populate_staging( name=name, version=version, static_url=static_url, clean=clean_staging ) staging = pjoin(app_dir, "staging") # Make sure packages are installed. ret = self._run(["node", YARN_PATH, "install"], cwd=staging) if ret != 0: msg = "npm dependencies failed to install" self.logger.debug(msg) raise RuntimeError(msg) # Build the app. dedupe_yarn(staging, self.logger) command = f'build:{"prod" if production else "dev"}{":minimize" if minimize else ""}' ret = self._run(["node", YARN_PATH, "run", command], cwd=staging) if ret != 0: msg = "JupyterLab failed to build" self.logger.debug(msg) raise RuntimeError(msg) def watch(self): """Start the application watcher and then run the watch in the background. """ staging = pjoin(self.app_dir, "staging") self._populate_staging() # Make sure packages are installed. self._run(["node", YARN_PATH, "install"], cwd=staging) dedupe_yarn(staging, self.logger) proc = WatchHelper( ["node", YARN_PATH, "run", "watch"], cwd=pjoin(self.app_dir, "staging"), startup_regex=WEBPACK_EXPECT, logger=self.logger, ) return [proc] def list_extensions(self): # noqa """Print an output of the extensions.""" self._ensure_disabled_info() logger = self.logger info = self.info logger.info("JupyterLab v%s" % info["version"]) if info["federated_extensions"] or info["extensions"]: info["compat_errors"] = self._get_extension_compat() if info["federated_extensions"]: self._list_federated_extensions() if info["extensions"]: logger.info("Other labextensions (built into JupyterLab)") self._list_extensions(info, "app") self._list_extensions(info, "sys") local = info["local_extensions"] if local: logger.info("\n local extensions:") for name in sorted(local): logger.info(f" {name}: {local[name]}") linked_packages = info["linked_packages"] if linked_packages: logger.info("\n linked packages:") for key in sorted(linked_packages): source = linked_packages[key]["source"] logger.info(f" {key}: {source}") uninstalled_core = info["uninstalled_core"] if uninstalled_core: logger.info("\nUninstalled core extensions:") [logger.info(" %s" % item) for item in sorted(uninstalled_core)] all_exts = ( list(info["federated_extensions"]) + list(info["extensions"]) + list(info["core_extensions"]) ) # Ignore disabled extensions that are not installed disabled = [i for i in info["disabled"] if i.partition(":")[0] in all_exts] if disabled: logger.info("\nDisabled extensions:") for item in sorted(disabled): # Show that all plugins will be disabled if the whole extension matches if item in all_exts: item += " (all plugins)" # noqa PLW2901 logger.info(" %s" % item) # Here check if modules are improperly shadowed improper_shadowed = [] for ext_name in self.info["shadowed_exts"]: source_version = self.info["extensions"][ext_name]["version"] prebuilt_version = self.info["federated_extensions"][ext_name]["version"] if not gte(prebuilt_version, source_version, True): improper_shadowed.append(ext_name) if improper_shadowed: logger.info( "\nThe following source extensions are overshadowed by older prebuilt extensions:" ) [logger.info(" %s" % name) for name in sorted(improper_shadowed)] messages = self.build_check(fast=True) if messages: logger.info("\nBuild recommended, please run `jupyter lab build`:") [logger.info(" %s" % item) for item in messages] def build_check(self, fast=None): # noqa """Determine whether JupyterLab should be built. Returns a list of messages. """ if fast is None: fast = self.skip_full_build_check app_dir = self.app_dir local = self.info["local_extensions"] linked = self.info["linked_packages"] messages = [] # Check for no application. pkg_path = pjoin(app_dir, "static", "package.json") if not osp.exists(pkg_path): return ["No built application"] static_data = self.info["static_data"] old_jlab = static_data["jupyterlab"] old_deps = static_data.get("dependencies", {}) # Look for mismatched version. static_version = old_jlab.get("version", "") if not static_version.endswith("-spliced"): core_version = old_jlab["version"] if Version(static_version) != Version(core_version): msg = "Version mismatch: %s (built), %s (current)" return [msg % (static_version, core_version)] shadowed_exts = self.info["shadowed_exts"] # Look for mismatched extensions. new_package = self._get_package_template(silent=fast) new_jlab = new_package["jupyterlab"] new_deps = new_package.get("dependencies", {}) for ext_type in ["extensions", "mimeExtensions"]: # Extensions that were added. for ext in new_jlab[ext_type]: if ext in shadowed_exts: continue if ext not in old_jlab[ext_type]: messages.append("%s needs to be included in build" % ext) # Extensions that were removed. for ext in old_jlab[ext_type]: if ext in shadowed_exts: continue if ext not in new_jlab[ext_type]: messages.append("%s needs to be removed from build" % ext) # Look for mismatched dependencies src_pkg_dir = pjoin(REPO_ROOT, "packages") for pkg, dep in new_deps.items(): if old_deps.get(pkg, "").startswith(src_pkg_dir): continue if pkg not in old_deps: continue # Skip local and linked since we pick them up separately. if pkg in local or pkg in linked: continue if old_deps[pkg] != dep: msg = "%s changed from %s to %s" messages.append(msg % (pkg, old_deps[pkg], new_deps[pkg])) # Look for updated local extensions. for name, source in local.items(): if fast or name in shadowed_exts: continue dname = pjoin(app_dir, "extensions") if self._check_local(name, source, dname): messages.append("%s content changed" % name) # Look for updated linked packages. for name, item in linked.items(): if fast or name in shadowed_exts: continue dname = pjoin(app_dir, "staging", "linked_packages") if self._check_local(name, item["source"], dname): messages.append("%s content changed" % name) return messages def uninstall_extension(self, name): """Uninstall an extension by name. Returns `True` if a rebuild is recommended, `False` otherwise. """ info = self.info logger = self.logger if name in info["federated_extensions"]: if ( info["federated_extensions"][name] .get("install", {}) .get("uninstallInstructions", None) ): logger.error( "JupyterLab cannot uninstall this extension. %s" % info["federated_extensions"][name]["install"]["uninstallInstructions"] ) else: logger.error( "JupyterLab cannot uninstall %s since it was installed outside of JupyterLab. Use the same method used to install this extension to uninstall this extension." % name ) return False # Allow for uninstalled core extensions. if name in info["core_extensions"]: config = self._read_build_config() uninstalled = config.get("uninstalled_core_extensions", []) if name not in uninstalled: logger.info("Uninstalling core extension %s" % name) uninstalled.append(name) config["uninstalled_core_extensions"] = uninstalled self._write_build_config(config) return True return False local = info["local_extensions"] for extname, data in info["extensions"].items(): path = data["path"] if extname == name: msg = f"Uninstalling {name} from {osp.dirname(path)}" logger.info(msg) os.remove(path) # Handle local extensions. if extname in local: config = self._read_build_config() data = config.setdefault("local_extensions", {}) # noqa PLW2901 del data[extname] self._write_build_config(config) return True logger.warning('No labextension named "%s" installed' % name) return False def uninstall_all_extensions(self): """Uninstalls all extensions Returns `True` if a rebuild is recommended, `False` otherwise """ should_rebuild = False for extname, _ in self.info["extensions"].items(): uninstalled = self.uninstall_extension(extname) should_rebuild = should_rebuild or uninstalled return should_rebuild def update_all_extensions(self): """Update all non-local extensions. Returns `True` if a rebuild is recommended, `False` otherwise. """ should_rebuild = False for extname, _ in self.info["extensions"].items(): if extname in self.info["local_extensions"]: continue updated = self._update_extension(extname) # Rebuild if at least one update happens: should_rebuild = should_rebuild or updated return should_rebuild def update_extension(self, name): """Update an extension by name. Returns `True` if a rebuild is recommended, `False` otherwise. """ if name not in self.info["extensions"]: self.logger.warning('No labextension named "%s" installed' % name) return False return self._update_extension(name) def _update_extension(self, name): """Update an extension by name. Returns `True` if a rebuild is recommended, `False` otherwise. """ data = self.info["extensions"][name] if data["alias_package_source"]: self.logger.warning("Skipping updating pinned extension '%s'." % name) return False try: latest = self._latest_compatible_package_version(name) except URLError: return False if latest is None: self.logger.warning(f"No compatible version found for {name}!") return False if latest == data["version"]: self.logger.info("Extension %r already up to date" % name) return False self.logger.info(f"Updating {name} to version {latest}") return self.install_extension(f"{name}@{latest}") def link_package(self, path): """Link a package at the given path. Returns `True` if a rebuild is recommended, `False` otherwise. """ path = _normalize_path(path) if not osp.exists(path) or not osp.isdir(path): msg = 'Cannot install "%s" only link local directories' raise ValueError(msg % path) with TemporaryDirectory() as tempdir: info = self._extract_package(path, tempdir) messages = _validate_extension(info["data"]) if not messages: return self.install_extension(path) # Warn that it is a linked package. self.logger.warning( "Installing %s as a linked package because it does not have extension metadata:", path ) [self.logger.warning(" %s" % m) for m in messages] # Add to metadata. config = self._read_build_config() linked = config.setdefault("linked_packages", {}) linked[info["name"]] = info["source"] self._write_build_config(config) return True def unlink_package(self, path): """Unlink a package by name or at the given path. A ValueError is raised if the path is not an unlinkable package. Returns `True` if a rebuild is recommended, `False` otherwise. """ path = _normalize_path(path) config = self._read_build_config() linked = config.setdefault("linked_packages", {}) found = None for name, source in linked.items(): if path in {name, source}: found = name if found: del linked[found] else: local = config.setdefault("local_extensions", {}) for name, source in local.items(): if path in {name, source}: found = name if found: del local[found] path = self.info["extensions"][found]["path"] os.remove(path) if not found: raise ValueError("No linked package for %s" % path) self._write_build_config(config) return True def _is_extension_locked(self, extension, level="sys_prefix", include_higher_levels=True): app_settings_dir = osp.join(self.app_dir, "settings") page_config = get_static_page_config( app_settings_dir=app_settings_dir, logger=self.logger, level=level, include_higher_levels=True, ) locked = page_config.get("lockedExtensions", {}) return locked.get(extension, False) def toggle_extension(self, extension, value, level="sys_prefix"): """Enable or disable a lab extension. Returns `True` if a rebuild is recommended, `False` otherwise. """ app_settings_dir = osp.join(self.app_dir, "settings") # If extension is locked at a higher level, we don't toggle it. # The highest level at which an extension can be locked is system, # so we do not need to check levels above that one. if level != "system": allowed = get_allowed_levels() if self._is_extension_locked( extension, level=allowed[allowed.index(level) + 1], include_higher_levels=True ): self.logger.info("Extension locked at a higher level, cannot toggle status") return False complete_page_config = get_static_page_config( app_settings_dir=app_settings_dir, logger=self.logger, level="all" ) level_page_config = get_static_page_config( app_settings_dir=app_settings_dir, logger=self.logger, level=level ) disabled = complete_page_config.get("disabledExtensions", {}) disabled_at_level = level_page_config.get("disabledExtensions", {}) did_something = False is_disabled = disabled.get(extension, False) if value and not is_disabled: disabled_at_level[extension] = True did_something = True elif not value and is_disabled: disabled_at_level[extension] = False did_something = True if did_something: level_page_config["disabledExtensions"] = disabled_at_level write_page_config(level_page_config, level=level) return did_something def _maybe_mirror_disabled_in_locked(self, level="sys_prefix"): """Lock all extensions that were previously disabled. This exists to facilitate migration from 4.0 (which did not include lock function) to 4.1 which exposes the plugin management to users in UI. Returns `True` if migration happened, `False` otherwise. """ app_settings_dir = osp.join(self.app_dir, "settings") page_config = get_static_page_config( app_settings_dir=app_settings_dir, logger=self.logger, level=level ) if "lockedExtensions" in page_config: # short-circuit if migration already happened return False # copy disabled onto lockedExtensions, ensuring the mapping format disabled = page_config.get("disabledExtensions", {}) if isinstance(disabled, list): disabled = {extension: True for extension in disabled} page_config["lockedExtensions"] = disabled write_page_config(page_config, level=level) return True def toggle_extension_lock(self, extension, value, level="sys_prefix"): """Lock or unlock a lab extension (/plugin).""" app_settings_dir = osp.join(self.app_dir, "settings") # The highest level at which an extension can be locked is system, # so we do not need to check levels above that one. if level != "system": allowed = get_allowed_levels() if self._is_extension_locked( extension, level=allowed[allowed.index(level) + 1], include_higher_levels=True ): self.logger.info("Extension locked at a higher level, cannot toggle") return False page_config = get_static_page_config( app_settings_dir=app_settings_dir, logger=self.logger, level=level ) locked = page_config.get("lockedExtensions", {}) locked[extension] = value page_config["lockedExtensions"] = locked write_page_config(page_config, level=level) def check_extension(self, extension, check_installed_only=False): """Check if a lab extension is enabled or disabled""" self._ensure_disabled_info() info = self.info if extension in info["core_extensions"]: return self._check_core_extension(extension, info, check_installed_only) if extension in info["linked_packages"]: self.logger.info(f"{extension}:{GREEN_ENABLED}") return True return self._check_common_extension(extension, info, check_installed_only) def _check_core_extension(self, extension, info, check_installed_only): """Check if a core extension is enabled or disabled""" if extension in info["uninstalled_core"]: self.logger.info(f"{extension}:{RED_X}") return False if check_installed_only: self.logger.info(f"{extension}: {GREEN_OK}") return True if extension in info["disabled_core"]: self.logger.info(f"{extension}: {RED_DISABLED}") return False self.logger.info(f"{extension}:{GREEN_ENABLED}") return True def _check_common_extension(self, extension, info, check_installed_only): """Check if a common (non-core) extension is enabled or disabled""" if extension not in info["extensions"]: self.logger.info(f"{extension}:{RED_X}") return False errors = self._get_extension_compat()[extension] if errors: self.logger.info(f"{extension}:{RED_X} (compatibility errors)") return False if check_installed_only: self.logger.info(f"{extension}: {GREEN_OK}") return True if _is_disabled(extension, info["disabled"]): self.logger.info(f"{extension}: {RED_DISABLED}") return False self.logger.info(f"{extension}:{GREEN_ENABLED}") return True def _get_app_info(self): """Get information about the app.""" info = {} info["core_data"] = core_data = self.core_data info["extensions"] = extensions = self._get_extensions(core_data) info["local_extensions"] = self._get_local_extensions() info["linked_packages"] = self._get_linked_packages() info["app_extensions"] = app = [] info["sys_extensions"] = sys = [] for name, data in extensions.items(): data["is_local"] = name in info["local_extensions"] if data["location"] == "app": app.append(name) else: sys.append(name) info["uninstalled_core"] = self._get_uninstalled_core_extensions() info["static_data"] = _get_static_data(self.app_dir) app_data = info["static_data"] or core_data info["version"] = app_data["jupyterlab"]["version"] info["staticUrl"] = app_data["jupyterlab"].get("staticUrl", "") info["sys_dir"] = self.sys_dir info["app_dir"] = self.app_dir info["core_extensions"] = _get_core_extensions(self.core_data) info["federated_extensions"] = get_federated_extensions(self.labextensions_path) info["shadowed_exts"] = [ ext for ext in info["extensions"] if ext in info["federated_extensions"] ] return info def _ensure_disabled_info(self): info = self.info if "disabled" in info: return labextensions_path = self.labextensions_path app_settings_dir = osp.join(self.app_dir, "settings") page_config = get_page_config( labextensions_path, app_settings_dir=app_settings_dir, logger=self.logger ) disabled = page_config.get("disabledExtensions", {}) # handle disabledExtensions specified as a list (jupyterlab_server < 2.10) # see https://github.com/jupyterlab/jupyterlab_server/pull/192 for more info if isinstance(disabled, list): disabled = {extension: True for extension in disabled} info["disabled"] = disabled locked = page_config.get("lockedExtensions", {}) if isinstance(locked, list): locked = {extension: True for extension in locked} info["locked"] = locked disabled_core = [] for key in info["core_extensions"]: if key in info["disabled"]: disabled_core.append(key) info["disabled_core"] = disabled_core def _populate_staging(self, name=None, version=None, static_url=None, clean=False): # noqa """Set up the assets in the staging directory.""" app_dir = self.app_dir staging = pjoin(app_dir, "staging") if clean and osp.exists(staging): self.logger.info("Cleaning %s", staging) _rmtree(staging, self.logger) self._ensure_app_dirs() if not version: version = self.info["core_data"]["jupyterlab"]["version"] splice_source = self._options.splice_source if splice_source: self.logger.debug("Splicing dev packages into app directory.") source_dir = DEV_DIR version = __version__ + "-spliced" else: source_dir = pjoin(HERE, "staging") # Look for mismatched version. pkg_path = pjoin(staging, "package.json") if osp.exists(pkg_path): with open(pkg_path) as fid: data = json.load(fid) if data["jupyterlab"].get("version", "") != version: _rmtree(staging, self.logger) os.makedirs(staging) for fname in [ "index.js", "bootstrap.js", "publicpath.js", "webpack.config.js", "webpack.prod.config.js", "webpack.prod.minimize.config.js", ]: target = pjoin(staging, fname) shutil.copy(pjoin(source_dir, fname), target) for fname in [".yarnrc.yml", "yarn.js"]: target = pjoin(staging, fname) shutil.copy(pjoin(HERE, "staging", fname), target) # Ensure a clean templates directory templates = pjoin(staging, "templates") if osp.exists(templates): _rmtree(templates, self.logger) try: shutil.copytree(pjoin(source_dir, "templates"), templates) except shutil.Error as error: # `copytree` throws an error if copying to + from NFS even though # the copy is successful (see https://bugs.python.org/issue24564 # and https://github.com/jupyterlab/jupyterlab/issues/5233) real_error = "[Errno 22]" not in str(error) and "[Errno 5]" not in str(error) if real_error or not osp.exists(templates): raise # Ensure a clean linked packages directory. linked_dir = pjoin(staging, "linked_packages") if osp.exists(linked_dir): _rmtree(linked_dir, self.logger) os.makedirs(linked_dir) # Template the package.json file. # Update the local extensions. extensions = self.info["extensions"] removed = False for key, source in self.info["local_extensions"].items(): # Handle a local extension that was removed. if key not in extensions: config = self._read_build_config() data = config.setdefault("local_extensions", {}) del data[key] self._write_build_config(config) removed = True continue dname = pjoin(app_dir, "extensions") self._update_local(key, source, dname, extensions[key], "local_extensions") # Update the list of local extensions if any were removed. if removed: self.info["local_extensions"] = self._get_local_extensions() # Update the linked packages. linked = self.info["linked_packages"] for key, item in linked.items(): dname = pjoin(staging, "linked_packages") self._update_local(key, item["source"], dname, item, "linked_packages") # Then get the package template. data = self._get_package_template() jlab = data["jupyterlab"] if version: jlab["version"] = version if name: jlab["name"] = name if static_url: jlab["staticUrl"] = static_url # Handle splicing of packages if splice_source: # Splice workspace tree as linked dependencies for path in glob(pjoin(REPO_ROOT, "packages", "*", "package.json")): local_path = osp.dirname(osp.abspath(path)) pkg_data = json.loads(Path(path).read_text(encoding="utf-8")) name = pkg_data["name"] if name in data["dependencies"]: data["dependencies"][name] = local_path jlab["linkedPackages"][name] = local_path if name in data["resolutions"]: data["resolutions"][name] = local_path # splice the builder as well local_path = osp.abspath(pjoin(REPO_ROOT, "builder")) data["devDependencies"]["@jupyterlab/builder"] = local_path target = osp.join(staging, "node_modules", "@jupyterlab", "builder") # Remove node_modules so it gets re-populated node_modules = pjoin(staging, "node_modules") if osp.exists(node_modules): shutil.rmtree(node_modules, ignore_errors=True) # Write the package file pkg_path = pjoin(staging, "package.json") with open(pkg_path, "w") as fid: json.dump(data, fid, indent=4) # copy known-good yarn.lock if missing lock_path = pjoin(staging, "yarn.lock") lock_template = pjoin(HERE, "staging", "yarn.lock") if not osp.exists(lock_path): shutil.copy(lock_template, lock_path) os.chmod(lock_path, stat.S_IWRITE | stat.S_IREAD) def _get_package_template(self, silent=False): # noqa """Get the template the for staging package.json file.""" logger = self.logger # make a deep copy of the data so we don't influence the core data data = deepcopy(self.info["core_data"]) local = self.info["local_extensions"] linked = self.info["linked_packages"] extensions = self.info["extensions"] shadowed_exts = self.info["shadowed_exts"] jlab = data["jupyterlab"] def format_path(path): path = osp.relpath(path, osp.abspath(osp.realpath(pjoin(self.app_dir, "staging")))) path = "file:" + path.replace(os.sep, "/") if os.name == "nt": path = path.lower() return path jlab["linkedPackages"] = {} # Handle local extensions. for key, source in local.items(): if key in shadowed_exts: continue jlab["linkedPackages"][key] = source data["resolutions"][key] = "file:" + self.info["extensions"][key]["path"] # Handle linked packages. for key, item in linked.items(): if key in shadowed_exts: continue path = pjoin(self.app_dir, "staging", "linked_packages") path = pjoin(path, item["filename"]) data["dependencies"][key] = format_path(path) jlab["linkedPackages"][key] = item["source"] data["resolutions"][key] = format_path(path) data["jupyterlab"]["extensionMetadata"] = {} # Handle extensions compat_errors = self._get_extension_compat() for key, value in extensions.items(): # Reject incompatible extensions with a message. errors = compat_errors[key] if errors: if not silent: _log_single_compat_errors(logger, key, value["version"], errors) continue data["dependencies"][key] = format_path(value["path"]) jlab_data = value["jupyterlab"] for item in ["extension", "mimeExtension"]: ext = jlab_data.get(item, False) if not ext: continue if ext is True: ext = "" jlab[item + "s"][key] = ext # Add metadata for the extension data["jupyterlab"]["extensionMetadata"][key] = jlab_data # Handle uninstalled core extensions. for item in self.info["uninstalled_core"]: if item in jlab["extensions"]: data["jupyterlab"]["extensions"].pop(item) elif item in jlab["mimeExtensions"]: data["jupyterlab"]["mimeExtensions"].pop(item) # Remove from dependencies as well. if item in data["dependencies"]: data["dependencies"].pop(item) return data def _check_local(self, name, source, dname): """Check if a local package has changed. `dname` is the directory name of existing package tar archives. """ # Extract the package in a temporary directory. with TemporaryDirectory() as tempdir: info = self._extract_package(source, tempdir) # Test if the file content has changed. # This relies on `_extract_package` adding the hashsum # to the filename, allowing a simple exist check to # compare the hash to the "cache" in dname. target = pjoin(dname, info["filename"]) return not osp.exists(target) def _update_local(self, name, source, dname, data, dtype): """Update a local dependency. Return `True` if changed.""" # Extract the package in a temporary directory. existing = data["filename"] if not osp.exists(pjoin(dname, existing)): existing = "" with TemporaryDirectory() as tempdir: info = self._extract_package(source, tempdir) # Bail if the file content has not changed. if info["filename"] == existing: return existing shutil.move(info["path"], pjoin(dname, info["filename"])) # Remove the previous tarball and return the new file name. if existing: os.remove(pjoin(dname, existing)) data["filename"] = info["filename"] data["path"] = pjoin(data["tar_dir"], data["filename"]) return info["filename"] def _get_extensions(self, core_data): """Get the extensions for the application.""" app_dir = self.app_dir extensions = {} # Get system level packages. sys_path = pjoin(self.sys_dir, "extensions") app_path = pjoin(self.app_dir, "extensions") extensions = self._get_extensions_in_dir(self.sys_dir, core_data) # Look in app_dir if different. app_path = pjoin(app_dir, "extensions") if app_path == sys_path or not osp.exists(app_path): return extensions extensions.update(self._get_extensions_in_dir(app_dir, core_data)) return extensions def _get_extensions_in_dir(self, dname, core_data): """Get the extensions in a given directory.""" extensions = {} location = "app" if dname == self.app_dir else "sys" for target in glob(pjoin(dname, "extensions", "*.tgz")): data = read_package(target) deps = data.get("dependencies", {}) name = data["name"] jlab = data.get("jupyterlab", {}) path = osp.abspath(target) filename = osp.basename(target) if filename.startswith(PIN_PREFIX): alias = filename[len(PIN_PREFIX) : -len(".tgz")] else: alias = None url = get_package_url(data) extensions[alias or name] = { "description": data.get("description", ""), "path": path, "filename": osp.basename(path), "url": url, "version": data["version"], # Only save the package name if the extension name is an alias "alias_package_source": name if alias else None, "jupyterlab": jlab, "dependencies": deps, "tar_dir": osp.dirname(path), "location": location, } return extensions def _get_extension_compat(self): """Get the extension compatibility info.""" compat = {} core_data = self.info["core_data"] seen = set() for name, data in self.info["federated_extensions"].items(): deps = data["dependencies"] compat[name] = _validate_compatibility(name, deps, core_data) seen.add(name) for name, data in self.info["extensions"].items(): if name in seen: continue deps = data["dependencies"] compat[name] = _validate_compatibility(name, deps, core_data) return compat def _get_local_extensions(self): """Get the locally installed extensions.""" return self._get_local_data("local_extensions") def _get_linked_packages(self): """Get the linked packages.""" info = self._get_local_data("linked_packages") dname = pjoin(self.app_dir, "staging", "linked_packages") for name, source in info.items(): info[name] = {"source": source, "filename": "", "tar_dir": dname} if not osp.exists(dname): return info for path in glob(pjoin(dname, "*.tgz")): path = osp.abspath(path) # noqa PLW2901 data = read_package(path) name = data["name"] if name not in info: self.logger.warning("Removing orphaned linked package %s" % name) os.remove(path) continue item = info[name] item["filename"] = osp.basename(path) item["path"] = path item["version"] = data["version"] item["data"] = data return info def _get_uninstalled_core_extensions(self): """Get the uninstalled core extensions.""" config = self._read_build_config() return config.get("uninstalled_core_extensions", []) def _ensure_app_dirs(self): """Ensure that the application directories exist""" dirs = ["extensions", "settings", "staging", "schemas", "themes"] for dname in dirs: path = pjoin(self.app_dir, dname) if not osp.exists(path): try: os.makedirs(path) except OSError as e: if e.errno != errno.EEXIST: raise def _list_extensions(self, info, ext_type): """List the extensions of a given type.""" self._ensure_disabled_info() logger = self.logger names = info["%s_extensions" % ext_type] if not names: return dname = info["%s_dir" % ext_type] error_accumulator = {} logger.info(f" {ext_type} dir: {dname}") for name in sorted(names): if name in info["federated_extensions"]: continue data = info["extensions"][name] version = data["version"] errors = info["compat_errors"][name] extra = self._compose_extra_status(name, info, data, errors) # If we have the package name in the data, this means this extension's name is the alias name alias_package_source = data["alias_package_source"] if alias_package_source: logger.info(f" {name} {alias_package_source} v{version}{extra}") else: logger.info(f" {name} v{version}{extra}") if errors: error_accumulator[name] = (version, errors) # Write all errors at end: _log_multiple_compat_errors(logger, error_accumulator, self.verbose) # Write a blank line separator logger.info("") def _list_federated_extensions(self): self._ensure_disabled_info() info = self.info logger = self.logger error_accumulator = {} ext_dirs = {p: False for p in self.labextensions_path} for value in info["federated_extensions"].values(): ext_dirs[value["ext_dir"]] = True for ext_dir, has_exts in ext_dirs.items(): if not has_exts: continue logger.info(ext_dir) for name in info["federated_extensions"]: data = info["federated_extensions"][name] if data["ext_dir"] != ext_dir: continue version = data["version"] errors = info["compat_errors"][name] extra = self._compose_extra_status(name, info, data, errors) install = data.get("install") if install: extra += " ({}, {})".format(install["packageManager"], install["packageName"]) logger.info(f" {name} v{version}{extra}") if errors: error_accumulator[name] = (version, errors) # Add a spacer line after logger.info("") # Write all errors at end: _log_multiple_compat_errors(logger, error_accumulator, self.verbose) def _compose_extra_status(self, name: str, info: dict, data: dict, errors) -> str: extra = "" if _is_disabled(name, info["disabled"]): extra += " %s" % RED_DISABLED else: extra += " %s" % GREEN_ENABLED if errors: extra += " %s" % RED_X else: extra += " %s" % GREEN_OK if data["is_local"]: extra += "*" lock_status = _is_locked(name, info["locked"]) if lock_status.entire_extension_locked: extra += " 🔒 (all plugins locked)" elif lock_status.locked_plugins: plugin_list = ", ".join(sorted(lock_status.locked_plugins)) extra += " 🔒 (plugins: %s locked)" % plugin_list return extra def _read_build_config(self): """Get the build config data for the app dir.""" target = pjoin(self.app_dir, "settings", "build_config.json") if not osp.exists(target): return {} else: with open(target) as fid: return json.load(fid) def _write_build_config(self, config): """Write the build config to the app dir.""" self._ensure_app_dirs() target = pjoin(self.app_dir, "settings", "build_config.json") with open(target, "w") as fid: json.dump(config, fid, indent=4) def _get_local_data(self, source): """Get the local data for extensions or linked packages.""" config = self._read_build_config() data = config.setdefault(source, {}) dead = [] for name, source in data.items(): if not osp.exists(source): dead.append(name) for name in dead: link_type = source.replace("_", " ") msg = f'**Note: Removing dead {link_type} "{name}"' self.logger.warning(msg) del data[name] if dead: self._write_build_config(config) return data def _install_extension(self, extension, tempdir, pin=None): """Install an extension with validation and return the name and path.""" info = self._extract_package(extension, tempdir, pin=pin) data = info["data"] # Check for compatible version unless: # - A specific version was requested (@ in name, # but after first char to allow for scope marker). # - Package is locally installed. allow_fallback = "@" not in extension[1:] and not info["is_dir"] name = info["name"] # Verify that the package is an extension. messages = _validate_extension(data) if messages: msg = '"%s" is not a valid extension:\n%s' msg = msg % (extension, "\n".join(messages)) if allow_fallback: try: version = self._latest_compatible_package_version(name) except URLError: raise ValueError(msg) from None else: raise ValueError(msg) # Verify package compatibility. deps = data.get("dependencies", {}) errors = _validate_compatibility(extension, deps, self.core_data) if errors: msg = _format_compatibility_errors(data["name"], data["version"], errors) if allow_fallback: try: version = self._latest_compatible_package_version(name) except URLError: # We cannot add any additional information to error message raise ValueError(msg) from None if version and name: self.logger.debug("Incompatible extension:\n%s", name) self.logger.debug("Found compatible version: %s", version) with TemporaryDirectory() as tempdir2: return self._install_extension(f"{name}@{version}", tempdir2) # Extend message to better guide the user what to do: conflicts = "\n".join(msg.splitlines()[2:]) msg = "".join((self._format_no_compatible_package_version(name), "\n\n", conflicts)) raise ValueError(msg) # Move the file to the app directory. target = pjoin(self.app_dir, "extensions", info["filename"]) if osp.exists(target): os.remove(target) shutil.move(info["path"], target) info["path"] = target return info def _extract_package(self, source, tempdir, pin=None): """Call `npm pack` for an extension. The pack command will download the package tar if `source` is a package name, or run `npm pack` locally if `source` is a directory. """ is_dir = osp.exists(source) and osp.isdir(source) if is_dir and not osp.exists(pjoin(source, "node_modules")): self._run(["node", YARN_PATH, "install"], cwd=source) info = {"source": source, "is_dir": is_dir} ret = self._run([which("npm"), "pack", source], cwd=tempdir) if ret != 0: msg = '"%s" is not a valid npm package' raise ValueError(msg % source) path = glob(pjoin(tempdir, "*.tgz"))[0] info["data"] = read_package(path) if is_dir: info["sha"] = sha = _tarsum(path) target = path.replace(".tgz", "-%s.tgz" % sha) shutil.move(path, target) info["path"] = target else: info["path"] = path if pin: old_path = info["path"] new_path = pjoin(osp.dirname(old_path), f"{PIN_PREFIX}{pin}.tgz") shutil.move(old_path, new_path) info["path"] = new_path info["filename"] = osp.basename(info["path"]) info["name"] = info["data"]["name"] info["version"] = info["data"]["version"] return info def _latest_compatible_package_version(self, name): """Get the latest compatible version of a package""" core_data = self.info["core_data"] try: metadata = _fetch_package_metadata(self.registry, name, self.logger) except URLError: return versions = metadata.get("versions", {}) # Sort pre-release first, as we will reverse the sort: def sort_key(key_value): return _semver_key(key_value[0], prerelease_first=True) for version, data in sorted(versions.items(), key=sort_key, reverse=True): deps = data.get("dependencies", {}) errors = _validate_compatibility(name, deps, core_data) if not errors: # Found a compatible version # skip deprecated versions if "deprecated" in data: self.logger.debug( f"Disregarding compatible version of package as it is deprecated: {name}@{version}" ) continue # Verify that the version is a valid extension. with TemporaryDirectory() as tempdir: info = self._extract_package(f"{name}@{version}", tempdir) if _validate_extension(info["data"]): # Invalid, do not consider other versions return # Valid return version def latest_compatible_package_versions(self, names): """Get the latest compatible versions of several packages Like _latest_compatible_package_version, but optimized for retrieving the latest version for several packages in one go. """ core_data = self.info["core_data"] keys = [] for name in names: try: metadata = _fetch_package_metadata(self.registry, name, self.logger) except URLError: continue versions = metadata.get("versions", {}) # Sort pre-release first, as we will reverse the sort: def sort_key(key_value): return _semver_key(key_value[0], prerelease_first=True) for version, data in sorted(versions.items(), key=sort_key, reverse=True): # skip deprecated versions if "deprecated" in data: continue deps = data.get("dependencies", {}) errors = _validate_compatibility(name, deps, core_data) if not errors: # Found a compatible version keys.append(f"{name}@{version}") break # break inner for versions = {} if not keys: return versions with TemporaryDirectory() as tempdir: ret = self._run([which("npm"), "pack", *keys], cwd=tempdir) if ret != 0: msg = '"%s" is not a valid npm package' raise ValueError(msg % keys) for key in keys: fname = ( key[0].replace("@", "") + key[1:].replace("@", "-").replace("/", "-") + ".tgz" ) data = read_package(osp.join(tempdir, fname)) # Verify that the version is a valid extension. if not _validate_extension(data): # Valid versions[data["name"]] = data["version"] return versions def _format_no_compatible_package_version(self, name): """Get the latest compatible version of a package""" core_data = self.info["core_data"] # Whether lab version is too new: lab_newer_than_latest = False # Whether the latest version of the extension depend on a "future" version # of a singleton package (from the perspective of current lab version): latest_newer_than_lab = False try: metadata = _fetch_package_metadata(self.registry, name, self.logger) except URLError: pass else: versions = metadata.get("versions", {}) # Sort pre-release first, as we will reverse the sort: def sort_key(key_value): return _semver_key(key_value[0], prerelease_first=True) store = tuple(sorted(versions.items(), key=sort_key, reverse=True)) latest_deps = store[0][1].get("dependencies", {}) core_deps = core_data["resolutions"] singletons = core_data["jupyterlab"]["singletonPackages"] for key, value in latest_deps.items(): if key in singletons: # Drop prereleases in comparisons to allow extension authors # to not have to update their versions for each # Jupyterlab prerelease version. c = _compare_ranges(core_deps[key], value, drop_prerelease1=True) lab_newer_than_latest = lab_newer_than_latest or c < 0 latest_newer_than_lab = latest_newer_than_lab or c > 0 if lab_newer_than_latest: # All singleton deps in current version of lab are newer than those # in the latest version of the extension return ( 'The extension "%s" does not yet support the current version of ' "JupyterLab.\n" % name ) parts = [ "No version of {extension} could be found that is compatible with " "the current version of JupyterLab." ] if latest_newer_than_lab: parts.extend( ( "However, it seems to support a new version of JupyterLab.", "Consider upgrading JupyterLab.", ) ) return " ".join(parts).format(extension=name) def _run(self, cmd, **kwargs): """Run the command using our logger and abort callback. Returns the exit code. """ if self.kill_event.is_set(): msg = "Command was killed" raise ValueError(msg) kwargs["logger"] = self.logger kwargs["kill_event"] = self.kill_event proc = ProgressProcess(cmd, **kwargs) return proc.wait() def _node_check(logger): """Check for the existence of nodejs with the correct version.""" node = which("node") try: output = subprocess.check_output([node, "node-version-check.js"], cwd=HERE) # noqa S603 logger.debug(output.decode("utf-8")) except Exception: data = CoreConfig()._data ver = data["engines"]["node"] msg = ( "Please install nodejs %s before continuing. nodejs may be installed using conda or directly from the nodejs website." % ver ) raise ValueError(msg) from None def _yarn_config(logger): """Get the yarn configuration. Returns ------- {"yarn config": dict, "npm config": dict} if unsuccessfull the subdictionary are empty """ configuration = {"yarn config": {}, "npm config": {}} try: node = which("node") except ValueError: # Node not found == user with no need for building jupyterlab logger.debug("NodeJS was not found. Yarn user configuration is ignored.") return configuration try: output_binary = subprocess.check_output( [node, YARN_PATH, "config", "--json"], # noqa S603 stderr=subprocess.PIPE, cwd=HERE, ) output = output_binary.decode("utf-8") lines = iter(output.splitlines()) try: for line in lines: info = json.loads(line) if info["type"] == "info": key = info["data"] inspect = json.loads(next(lines)) if inspect["type"] == "inspect": configuration[key] = inspect["data"] except StopIteration: pass logger.debug("Yarn configuration loaded.") except subprocess.CalledProcessError as e: logger.error( "Fail to get yarn configuration. {!s}{!s}".format( e.stderr.decode("utf-8"), e.output.decode("utf-8") ) ) except Exception as e: logger.error(f"Fail to get yarn configuration. {e!s}") return configuration def _ensure_logger(logger=None): """Ensure that we have a logger""" return logger or logging.getLogger("jupyterlab") def _normalize_path(extension): """Normalize a given extension if it is a path.""" extension = osp.expanduser(extension) if osp.exists(extension): extension = osp.abspath(extension) return extension def _rmtree(path, logger): """Remove a tree, logging errors""" def onerror(*exc_info): logger.debug("Error in shutil.rmtree", exc_info=exc_info) shutil.rmtree(path, onerror=onerror) def _unlink(path, logger): """Remove a file, logging errors""" try: os.unlink(path) except Exception: logger.debug("Error in os.unlink", exc_info=sys.exc_info()) def _rmtree_star(path, logger): """Remove all files/trees within a dir, logging errors""" for filename in os.listdir(path): file_path = osp.join(path, filename) if osp.isfile(file_path) or osp.islink(file_path): _unlink(file_path, logger) elif osp.isdir(file_path): _rmtree(file_path, logger) def _validate_extension(data): # noqa """Detect if a package is an extension using its metadata. Returns any problems it finds. """ jlab = data.get("jupyterlab", None) if jlab is None: return ["No `jupyterlab` key"] if not isinstance(jlab, dict): return ["The `jupyterlab` key must be a JSON object"] extension = jlab.get("extension", False) mime_extension = jlab.get("mimeExtension", False) theme_path = jlab.get("themePath", "") schema_dir = jlab.get("schemaDir", "") messages = [] if not extension and not mime_extension: messages.append("No `extension` or `mimeExtension` key present") if extension == mime_extension: msg = "`mimeExtension` and `extension` must point to different modules" messages.append(msg) files = data["jupyterlab_extracted_files"] main = data.get("main", "index.js") if not main.endswith(".js"): main += ".js" if extension is True: extension = main elif extension and not extension.endswith(".js"): extension += ".js" if mime_extension is True: mime_extension = main elif mime_extension and not mime_extension.endswith(".js"): mime_extension += ".js" if extension and extension not in files: messages.append('Missing extension module "%s"' % extension) if mime_extension and mime_extension not in files: messages.append('Missing mimeExtension module "%s"' % mime_extension) if theme_path and not any(f.startswith(str(Path(theme_path))) for f in files): messages.append('themePath is empty: "%s"' % theme_path) if schema_dir and not any(f.startswith(str(Path(schema_dir))) for f in files): messages.append('schemaDir is empty: "%s"' % schema_dir) return messages def _tarsum(input_file): """ Compute the recursive sha sum of a tar file. """ tar = tarfile.open(input_file, "r") chunk_size = 100 * 1024 h = hashlib.new("sha1") # noqa: S324 for member in tar: if not member.isfile(): continue f = tar.extractfile(member) data = f.read(chunk_size) while data: h.update(data) data = f.read(chunk_size) return h.hexdigest() def _get_static_data(app_dir): """Get the data for the app static dir.""" target = pjoin(app_dir, "static", "package.json") if osp.exists(target): with open(target) as fid: return json.load(fid) else: return None def _validate_compatibility(extension, deps, core_data): """Validate the compatibility of an extension.""" core_deps = core_data["resolutions"] singletons = core_data["jupyterlab"]["singletonPackages"] errors = [] for key, value in deps.items(): if key in singletons: # Drop prereleases in comparisons to allow extension authors # to not have to update their versions for each # Jupyterlab prerelease version. overlap = _test_overlap(core_deps[key], value, drop_prerelease1=True) if overlap is False: errors.append((key, core_deps[key], value)) return errors def _test_overlap(spec1, spec2, drop_prerelease1=False, drop_prerelease2=False): """Test whether two version specs overlap. Returns `None` if we cannot determine compatibility, otherwise whether there is an overlap """ cmp = _compare_ranges( spec1, spec2, drop_prerelease1=drop_prerelease1, drop_prerelease2=drop_prerelease2 ) if cmp is None: return return cmp == 0 def _compare_ranges(spec1, spec2, drop_prerelease1=False, drop_prerelease2=False): # noqa """Test whether two version specs overlap. Returns `None` if we cannot determine compatibility, otherwise return 0 if there is an overlap, 1 if spec1 is lower/older than spec2, and -1 if spec1 is higher/newer than spec2. """ # Test for overlapping semver ranges. r1 = Range(spec1, True) r2 = Range(spec2, True) # If either range is empty, we cannot verify. if not r1.range or not r2.range: return # Set return_value to a sentinel value return_value = False # r1.set may be a list of ranges if the range involved an ||, so we need to test for overlaps between each pair. for r1set, r2set in itertools.product(r1.set, r2.set): x1 = r1set[0].semver x2 = r1set[-1].semver y1 = r2set[0].semver y2 = r2set[-1].semver if x1.prerelease and drop_prerelease1: x1 = x1.inc("patch") if y1.prerelease and drop_prerelease2: y1 = y1.inc("patch") o1 = r1set[0].operator o2 = r2set[0].operator # We do not handle (<) specifiers. if o1.startswith("<") or o2.startswith("<"): continue # Handle single value specifiers. lx = lte if x1 == x2 else lt ly = lte if y1 == y2 else lt gx = gte if x1 == x2 else gt gy = gte if x1 == x2 else gt # Handle unbounded (>) specifiers. def noop(x, y, z): return True if x1 == x2 and o1.startswith(">"): lx = noop if y1 == y2 and o2.startswith(">"): ly = noop # Check for overlap. if ( gte(x1, y1, True) and ly(x1, y2, True) or gy(x2, y1, True) and ly(x2, y2, True) or gte(y1, x1, True) and lx(y1, x2, True) or gx(y2, x1, True) and lx(y2, x2, True) ): # if we ever find an overlap, we can return immediately return 0 if gte(y1, x2, True): if return_value is False: # We can possibly return 1 return_value = 1 elif return_value == -1: # conflicting information, so we must return None return_value = None continue if gte(x1, y2, True): if return_value is False: return_value = -1 elif return_value == 1: # conflicting information, so we must return None return_value = None continue msg = "Unexpected case comparing version ranges" raise AssertionError(msg) if return_value is False: return_value = None return return_value def _is_disabled(name, disabled=None): """Test whether the package is disabled.""" disabled = disabled or {} for pattern, value in disabled.items(): # skip packages explicitly marked as not disabled if value is False: continue if name == pattern: return True if re.compile(pattern).match(name) is not None: return True return False @dataclass(frozen=True) class LockStatus: entire_extension_locked: bool # locked plugins are only given if extension is not locked as a whole locked_plugins: Optional[FrozenSet[str]] = None def _is_locked(name, locked=None) -> LockStatus: """Test whether the package is locked. If only a subset of extension plugins is locked return them. """ locked = locked or {} locked_plugins = set() for lock, value in locked.items(): # skip packages explicitly marked as not locked if value is False: continue if name == lock: return LockStatus(entire_extension_locked=True) extension_part = lock.partition(":")[0] if name == extension_part: locked_plugins.add(lock) return LockStatus(entire_extension_locked=False, locked_plugins=locked_plugins) def _format_compatibility_errors(name, version, errors): """Format a message for compatibility errors.""" msgs = [] l0 = 10 l1 = 10 for error in errors: pkg, jlab, ext = error jlab = str(Range(jlab, True)) ext = str(Range(ext, True)) msgs.append((pkg, jlab, ext)) l0 = max(l0, len(pkg) + 1) l1 = max(l1, len(jlab) + 1) msg = '\n"%s@%s" is not compatible with the current JupyterLab' msg = msg % (name, version) msg += "\nConflicting Dependencies:\n" msg += "JupyterLab".ljust(l0) msg += "Extension".ljust(l1) msg += "Package\n" for pkg, jlab, ext in msgs: msg += jlab.ljust(l0) + ext.ljust(l1) + pkg + "\n" return msg def _log_multiple_compat_errors(logger, errors_map, verbose: bool): """Log compatibility errors for multiple extensions at once""" outdated = [] for name, (_, errors) in errors_map.items(): age = _compat_error_age(errors) if age > 0: outdated.append(name) if outdated: logger.warning( "\n ".join( [ "\n The following extensions may be outdated or specify dependencies that are incompatible with the current version of jupyterlab:", *outdated, "\n If you are a user, check if an update is available for these packages.\n" + ( " If you are a developer, re-run with `--verbose` flag for more details.\n" if not verbose else " See below for the details.\n" ), ] ) ) # Print out compatibility errors for all extensions, even the ones inferred # to be possibly outdated, to guide developers upgrading their extensions. for name, (version, errors) in errors_map.items(): if name in outdated and not verbose: continue msg = _format_compatibility_errors(name, version, errors) logger.warning(f"{msg}\n") def _log_single_compat_errors(logger, name, version, errors): """Log compatability errors for a single extension""" age = _compat_error_age(errors) if age > 0: logger.warning('The extension "%s" is outdated.\n', name) else: msg = _format_compatibility_errors(name, version, errors) logger.warning(f"{msg}\n") def _compat_error_age(errors): """Compare all incompatibilities for an extension. Returns a number > 0 if all extensions are older than that supported by lab. Returns a number < 0 if all extensions are newer than that supported by lab. Returns 0 otherwise (i.e. a mix). """ # Do any extensions depend on too old lab packages? any_older = False # Do any extensions depend on too new lab packages? any_newer = False for _, jlab, ext in errors: # Drop prereleases in comparisons to allow extension authors # to not have to update their versions for each # Jupyterlab prerelease version. c = _compare_ranges(ext, jlab, drop_prerelease1=True) any_newer = any_newer or c < 0 any_older = any_older or c > 0 if any_older and not any_newer: return 1 elif any_newer and not any_older: return -1 return 0 def _get_core_extensions(core_data): """Get the core extensions.""" data = core_data["jupyterlab"] return list(data["extensions"]) + list(data["mimeExtensions"]) def _semver_prerelease_key(prerelease): """Sort key for prereleases. Precedence for two pre-release versions with the same major, minor, and patch version MUST be determined by comparing each dot separated identifier from left to right until a difference is found as follows: identifiers consisting of only digits are compare numerically and identifiers with letters or hyphens are compared lexically in ASCII sort order. Numeric identifiers always have lower precedence than non- numeric identifiers. A larger set of pre-release fields has a higher precedence than a smaller set, if all of the preceding identifiers are equal. """ for entry in prerelease: if isinstance(entry, int): # Assure numerics always sort before string yield ("", entry) else: # Use ASCII compare: yield (entry,) def _semver_key(version, prerelease_first=False): """A sort key-function for sorting semver version string. The default sorting order is ascending (0.x -> 1.x -> 2.x). If `prerelease_first`, pre-releases will come before ALL other semver keys (not just those with same version). I.e (1.0-pre, 2.0-pre -> 0.x -> 1.x -> 2.x). Otherwise it will sort in the standard way that it simply comes before any release with shared version string (0.x -> 1.0-pre -> 1.x -> 2.0-pre -> 2.x). """ v = make_semver(version, True) key = ((0,) if v.prerelease else (1,)) if prerelease_first else () key = (*key, v.major, v.minor, v.patch) if not prerelease_first: # NOT having a prerelease is > having one key = (*key, 0) if v.prerelease else (1,) if v.prerelease: key = key + tuple(_semver_prerelease_key(v.prerelease)) return key def _fetch_package_metadata(registry, name, logger): """Fetch the metadata for a package from the npm registry""" req = Request( # noqa S310 urljoin(registry, quote(name, safe="@")), headers={ "Accept": ("application/vnd.npm.install-v1+json; q=1.0, application/json; q=0.8, */*") }, ) try: logger.debug("Fetching URL: %s" % (req.full_url)) except AttributeError: logger.debug("Fetching URL: %s" % (req.get_full_url())) try: with contextlib.closing(urlopen(req)) as response: # noqa S310 return json.loads(response.read().decode("utf-8")) except URLError as exc: logger.warning("Failed to fetch package metadata for %r: %r", name, exc) raise if __name__ == "__main__": watch_dev(HERE)