"""Notebook related utilities""" # Copyright (c) Jupyter Development Team. # Distributed under the terms of the Modified BSD License. from __future__ import print_function import asyncio import concurrent.futures import ctypes import errno import inspect import os import socket import stat import sys from distutils.version import LooseVersion from urllib.parse import quote, unquote, urlparse, urljoin from urllib.request import pathname2url # tornado.concurrent.Future is asyncio.Future # in tornado >=5 with Python 3 from tornado.concurrent import Future as TornadoFuture from tornado import gen from ipython_genutils import py3compat # UF_HIDDEN is a stat flag not defined in the stat module. # It is used by BSD to indicate hidden files. UF_HIDDEN = getattr(stat, 'UF_HIDDEN', 32768) def exists(path): """Replacement for `os.path.exists` which works for host mapped volumes on Windows containers """ try: os.lstat(path) except OSError: return False return True def url_path_join(*pieces): """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): """Determine whether a given URL is absolute""" return urlparse(url).path.startswith("/") def path2url(path): """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): """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): """Escape special characters in a URL path Turns '/foo bar/' into '/foo%20bar/' """ parts = py3compat.unicode_to_str(path, encoding='utf8').split('/') return u'/'.join([quote(p) for p in parts]) def url_unescape(path): """Unescape special characters in a URL path Turns '/foo%20bar/' into '/foo bar/' """ return u'/'.join([ py3compat.str_to_unicode(unquote(p), encoding='utf8') for p in py3compat.unicode_to_str(path, encoding='utf8').split('/') ]) def is_file_hidden_win(abs_path, stat_res=None): """Is a file hidden? This only checks the file itself; it should be called in combination with checking the directory containing the file. Use is_hidden() instead to check the file and its parent directories. Parameters ---------- abs_path : unicode The absolute path to check. stat_res : os.stat_result, optional Ignored on Windows, exists for compatibility with POSIX version of the function. """ if os.path.basename(abs_path).startswith('.'): return True win32_FILE_ATTRIBUTE_HIDDEN = 0x02 try: attrs = ctypes.windll.kernel32.GetFileAttributesW( py3compat.cast_unicode(abs_path) ) except AttributeError: pass else: if attrs > 0 and attrs & win32_FILE_ATTRIBUTE_HIDDEN: return True return False def is_file_hidden_posix(abs_path, stat_res=None): """Is a file hidden? This only checks the file itself; it should be called in combination with checking the directory containing the file. Use is_hidden() instead to check the file and its parent directories. Parameters ---------- abs_path : unicode The absolute path to check. stat_res : os.stat_result, optional The result of calling stat() on abs_path. If not passed, this function will call stat() internally. """ if os.path.basename(abs_path).startswith('.'): return True if stat_res is None or stat.S_ISLNK(stat_res.st_mode): try: stat_res = os.stat(abs_path) except OSError as e: if e.errno == errno.ENOENT: return False raise # check that dirs can be listed if stat.S_ISDIR(stat_res.st_mode): # use x-access, not actual listing, in case of slow/large listings if not os.access(abs_path, os.X_OK | os.R_OK): return True # check UF_HIDDEN if getattr(stat_res, 'st_flags', 0) & UF_HIDDEN: return True return False if sys.platform == 'win32': is_file_hidden = is_file_hidden_win else: is_file_hidden = is_file_hidden_posix def is_hidden(abs_path, abs_root=''): """Is a file hidden or contained in a hidden directory? This will start with the rightmost path element and work backwards to the given root to see if a path is hidden or in a hidden directory. Hidden is determined by either name starting with '.' or the UF_HIDDEN flag as reported by stat. If abs_path is the same directory as abs_root, it will be visible even if that is a hidden folder. This only checks the visibility of files and directories *within* abs_root. Parameters ---------- abs_path : unicode The absolute path to check for hidden directories. abs_root : unicode The absolute path of the root directory in which hidden directories should be checked for. """ if os.path.normpath(abs_path) == os.path.normpath(abs_root): return False if is_file_hidden(abs_path): return True if not abs_root: abs_root = abs_path.split(os.sep, 1)[0] + os.sep inside_root = abs_path[len(abs_root):] if any(part.startswith('.') for part in inside_root.split(os.sep)): return True # check UF_HIDDEN on any location up to root. # is_file_hidden() already checked the file, so start from its parent dir path = os.path.dirname(abs_path) while path and path.startswith(abs_root) and path != abs_root: if not exists(path): path = os.path.dirname(path) continue try: # may fail on Windows junctions st = os.lstat(path) except OSError: return True if getattr(st, 'st_flags', 0) & UF_HIDDEN: return True path = os.path.dirname(path) return False def samefile_simple(path, other_path): """ 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: String representing a path to a file other_path: String 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, root=''): """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 = path.strip('/').split('/') parts = [p for p in parts if p != ''] # remove duplicate splits path = os.path.join(root, *parts) return path def to_api_path(os_path, root=''): """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 path def check_version(v, check): """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 LooseVersion(v) >= LooseVersion(check) except TypeError: return True # Copy of IPython.utils.process.check_pid: def _check_pid_win32(pid): import ctypes # OpenProcess returns 0 if no such process (of ours) exists # positive int otherwise return bool(ctypes.windll.kernel32.OpenProcess(1,0,pid)) def _check_pid_posix(pid): """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 def maybe_future(obj): """Like tornado's deprecated gen.maybe_future but more compatible with asyncio for recent versions of tornado """ if inspect.isawaitable(obj): return asyncio.ensure_future(obj) elif isinstance(obj, concurrent.futures.Future): return asyncio.wrap_future(obj) else: # not awaitable, wrap scalar in future f = asyncio.Future() f.set_result(obj) return f def run_sync(maybe_async): """If async, runs maybe_async and blocks until it has executed, possibly creating an event loop. If not async, just returns maybe_async as it is the result of something that has already executed. Parameters ---------- maybe_async : async or non-async object The object to be executed, if it is async. Returns ------- result : Whatever the async object returns, or the object itself. """ if not inspect.isawaitable(maybe_async): # that was not something async, just return it return maybe_async # it is async, we need to run it in an event loop def wrapped(): create_new_event_loop = False try: loop = asyncio.get_event_loop() except RuntimeError: create_new_event_loop = True else: if loop.is_closed(): create_new_event_loop = True if create_new_event_loop: loop = asyncio.new_event_loop() asyncio.set_event_loop(loop) try: result = loop.run_until_complete(maybe_async) except RuntimeError as e: if str(e) == 'This event loop is already running': # just return a Future, hoping that it will be awaited result = asyncio.ensure_future(maybe_async) return result return wrapped() def urlencode_unix_socket_path(socket_path): """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): """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): """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): """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 socket.error: return False else: return True finally: sock.close()