"""Notebook related utilities""" # Copyright (c) Jupyter Development Team. # Distributed under the terms of the Modified BSD License. from __future__ import annotations import errno import importlib.util import os import socket import sys import warnings from _frozen_importlib_external import _NamespacePath from contextlib import contextmanager from pathlib import Path from typing import TYPE_CHECKING, Any, NewType from urllib.parse import ( SplitResult, quote, unquote, urlparse, urlsplit, urlunsplit, ) from urllib.parse import ( urljoin as _urljoin, ) from urllib.request import pathname2url as _pathname2url from jupyter_core.utils import ensure_async as _ensure_async from packaging.version import Version from tornado.httpclient import AsyncHTTPClient, HTTPClient, HTTPRequest, HTTPResponse from tornado.netutil import Resolver if TYPE_CHECKING: from collections.abc import Generator, Sequence ApiPath = NewType("ApiPath", str) # Re-export urljoin = _urljoin pathname2url = _pathname2url ensure_async = _ensure_async def url_path_join(*pieces: str) -> str: """Join components of url into a relative url Use to prevent double slash when joining subpath. This will leave the initial and final / in place """ initial = pieces[0].startswith("/") final = pieces[-1].endswith("/") stripped = [s.strip("/") for s in pieces] result = "/".join(s for s in stripped if s) if initial: result = "/" + result if final: result = result + "/" if result == "//": result = "/" return result def url_is_absolute(url: str) -> bool: """Determine whether a given URL is absolute""" return urlparse(url).path.startswith("/") def path2url(path: str) -> str: """Convert a local file path to a URL""" pieces = [quote(p) for p in path.split(os.sep)] # preserve trailing / if pieces[-1] == "": pieces[-1] = "/" url = url_path_join(*pieces) return url def url2path(url: str) -> str: """Convert a URL to a local file path""" pieces = [unquote(p) for p in url.split("/")] path = os.path.join(*pieces) return path def url_escape(path: str) -> str: """Escape special characters in a URL path Turns '/foo bar/' into '/foo%20bar/' """ parts = path.split("/") return "/".join([quote(p) for p in parts]) def url_unescape(path: str) -> str: """Unescape special characters in a URL path Turns '/foo%20bar/' into '/foo bar/' """ return "/".join([unquote(p) for p in path.split("/")]) def samefile_simple(path: str, other_path: str) -> bool: """ Fill in for os.path.samefile when it is unavailable (Windows+py2). Do a case-insensitive string comparison in this case plus comparing the full stat result (including times) because Windows + py2 doesn't support the stat fields needed for identifying if it's the same file (st_ino, st_dev). Only to be used if os.path.samefile is not available. Parameters ---------- path : str representing a path to a file other_path : str representing a path to another file Returns ------- same: Boolean that is True if both path and other path are the same """ path_stat = os.stat(path) other_path_stat = os.stat(other_path) return path.lower() == other_path.lower() and path_stat == other_path_stat def to_os_path(path: ApiPath, root: str = "") -> str: """Convert an API path to a filesystem path If given, root will be prepended to the path. root must be a filesystem path already. """ parts = str(path).strip("/").split("/") parts = [p for p in parts if p != ""] # remove duplicate splits path_ = os.path.join(root, *parts) return os.path.normpath(path_) def to_api_path(os_path: str, root: str = "") -> ApiPath: """Convert a filesystem path to an API path If given, root will be removed from the path. root must be a filesystem path already. """ if os_path.startswith(root): os_path = os_path[len(root) :] parts = os_path.strip(os.path.sep).split(os.path.sep) parts = [p for p in parts if p != ""] # remove duplicate splits path = "/".join(parts) return ApiPath(path) def check_version(v: str, check: str) -> bool: """check version string v >= check If dev/prerelease tags result in TypeError for string-number comparison, it is assumed that the dependency is satisfied. Users on dev branches are responsible for keeping their own packages up to date. """ try: return bool(Version(v) >= Version(check)) except TypeError: return True # Copy of IPython.utils.process.check_pid: def _check_pid_win32(pid: int) -> bool: import ctypes # OpenProcess returns 0 if no such process (of ours) exists # positive int otherwise return bool(ctypes.windll.kernel32.OpenProcess(1, 0, pid)) # type:ignore[attr-defined] def _check_pid_posix(pid: int) -> bool: """Copy of IPython.utils.process.check_pid""" try: os.kill(pid, 0) except OSError as err: if err.errno == errno.ESRCH: return False elif err.errno == errno.EPERM: # Don't have permission to signal the process - probably means it exists return True raise else: return True if sys.platform == "win32": check_pid = _check_pid_win32 else: check_pid = _check_pid_posix async def run_sync_in_loop(maybe_async): """**DEPRECATED**: Use ``ensure_async`` from jupyter_core instead.""" warnings.warn( "run_sync_in_loop is deprecated since Jupyter Server 2.0, use 'ensure_async' from jupyter_core instead", DeprecationWarning, stacklevel=2, ) return ensure_async(maybe_async) def urlencode_unix_socket_path(socket_path: str) -> str: """Encodes a UNIX socket path string from a socket path for the `http+unix` URI form.""" return socket_path.replace("/", "%2F") def urldecode_unix_socket_path(socket_path: str) -> str: """Decodes a UNIX sock path string from an encoded sock path for the `http+unix` URI form.""" return socket_path.replace("%2F", "/") def urlencode_unix_socket(socket_path: str) -> str: """Encodes a UNIX socket URL from a socket path for the `http+unix` URI form.""" return "http+unix://%s" % urlencode_unix_socket_path(socket_path) def unix_socket_in_use(socket_path: str) -> bool: """Checks whether a UNIX socket path on disk is in use by attempting to connect to it.""" if not os.path.exists(socket_path): return False try: sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) sock.connect(socket_path) except OSError: return False else: return True finally: sock.close() @contextmanager def _request_for_tornado_client( urlstring: str, method: str = "GET", body: Any = None, headers: Any = None ) -> Generator[HTTPRequest, None, None]: """A utility that provides a context that handles HTTP, HTTPS, and HTTP+UNIX request. Creates a tornado HTTPRequest object with a URL that tornado's HTTPClients can accept. If the request is made to a unix socket, temporarily configure the AsyncHTTPClient to resolve the URL and connect to the proper socket. """ parts = urlsplit(urlstring) if parts.scheme in ["http", "https"]: pass elif parts.scheme == "http+unix": # If unix socket, mimic HTTP. parts = SplitResult( scheme="http", netloc=parts.netloc, path=parts.path, query=parts.query, fragment=parts.fragment, ) class UnixSocketResolver(Resolver): """A resolver that routes HTTP requests to unix sockets in tornado HTTP clients. Due to constraints in Tornados' API, the scheme of the must be `http` (not `http+unix`). Applications should replace the scheme in URLS before making a request to the HTTP client. """ def initialize(self, resolver): self.resolver = resolver def close(self): self.resolver.close() async def resolve(self, host, port, *args, **kwargs): return [(socket.AF_UNIX, urldecode_unix_socket_path(host))] resolver = UnixSocketResolver(resolver=Resolver()) AsyncHTTPClient.configure(None, resolver=resolver) else: msg = "Unknown URL scheme." raise Exception(msg) # Yield the request for the given client. url = urlunsplit(parts) request = HTTPRequest(url, method=method, body=body, headers=headers, validate_cert=False) yield request def fetch( urlstring: str, method: str = "GET", body: Any = None, headers: Any = None ) -> HTTPResponse: """ Send a HTTP, HTTPS, or HTTP+UNIX request to a Tornado Web Server. Returns a tornado HTTPResponse. """ with _request_for_tornado_client( urlstring, method=method, body=body, headers=headers ) as request: response = HTTPClient(AsyncHTTPClient).fetch(request) return response async def async_fetch( urlstring: str, method: str = "GET", body: Any = None, headers: Any = None, io_loop: Any = None ) -> HTTPResponse: """ Send an asynchronous HTTP, HTTPS, or HTTP+UNIX request to a Tornado Web Server. Returns a tornado HTTPResponse. """ with _request_for_tornado_client( urlstring, method=method, body=body, headers=headers ) as request: response = await AsyncHTTPClient(io_loop).fetch(request) return response def is_namespace_package(namespace: str) -> bool | None: """Is the provided namespace a Python Namespace Package (PEP420). https://www.python.org/dev/peps/pep-0420/#specification Returns `None` if module is not importable. """ # NOTE: using submodule_search_locations because the loader can be None try: spec = importlib.util.find_spec(namespace) except ValueError: # spec is not set - see https://docs.python.org/3/library/importlib.html#importlib.util.find_spec return None if not spec: # e.g. module not installed return None return isinstance(spec.submodule_search_locations, _NamespacePath) def filefind(filename: str, path_dirs: Sequence[str]) -> str: """Find a file by looking through a sequence of paths. For use in FileFindHandler. Iterates through a sequence of paths looking for a file and returns the full, absolute path of the first occurrence of the file. Absolute paths are not accepted for inputs. This function does not automatically try any paths, such as the cwd or the user's home directory. Parameters ---------- filename : str The filename to look for. Must be a relative path. path_dirs : sequence of str The sequence of paths to look in for the file. Walk through each element and join with ``filename``. Only after ensuring the path resolves within the directory is it checked for existence. Returns ------- Raises :exc:`OSError` or returns absolute path to file. """ file_path = Path(filename) # If the input is an absolute path, reject it if file_path.is_absolute(): msg = f"{filename} is absolute, filefind only accepts relative paths." raise OSError(msg) for path_str in path_dirs: path = Path(path_str).absolute() test_path = path / file_path # os.path.abspath resolves '..', but Path.absolute() doesn't # Path.resolve() does, but traverses symlinks, which we don't want test_path = Path(os.path.abspath(test_path)) if not test_path.is_relative_to(path): # points outside root, e.g. via `filename='../foo'` continue # make sure we don't call is_file before we know it's a file within a prefix # GHSA-hrw6-wg82-cm62 - can leak password hash on windows. if test_path.is_file(): return os.path.abspath(test_path) msg = f"File {filename!r} does not exist in any of the search paths: {path_dirs!r}" raise OSError(msg) def import_item(name: str) -> Any: """Import and return ``bar`` given the string ``foo.bar``. Calling ``bar = import_item("foo.bar")`` is the functional equivalent of executing the code ``from foo import bar``. Parameters ---------- name : str The fully qualified name of the module/package being imported. Returns ------- mod : module object The module that was imported. """ parts = name.rsplit(".", 1) if len(parts) == 2: # called with 'foo.bar....' package, obj = parts module = __import__(package, fromlist=[obj]) try: pak = getattr(module, obj) except AttributeError as e: raise ImportError("No module named %s" % obj) from e return pak else: # called with un-dotted string return __import__(parts[0]) class JupyterServerAuthWarning(RuntimeWarning): """Emitted when authentication configuration issue is detected. Intended for filtering out expected warnings in tests, including downstream tests, rather than for users to silence this warning. """