# Copyright 2019 VyOS maintainers and contributors # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library. If not, see . import os import re import grp import sys import time import subprocess import psutil import vyos.defaults def read_file(path): """ Read a file to string """ with open(path, 'r') as f: data = f.read().strip() return data def colon_separated_to_dict(data_string, uniquekeys=False): """ Converts a string containing newline-separated entries of colon-separated key-value pairs into a dict. Such files are common in Linux /proc filesystem Args: data_string (str): data string uniquekeys (bool): whether to insist that keys are unique or not Returns: dict Raises: ValueError: if uniquekeys=True and the data string has duplicate keys. Note: If uniquekeys=True, then dict entries are always strings, otherwise they are always lists of strings. """ key_value_re = re.compile('([^:]+)\s*\:\s*(.*)') data_raw = re.split('\n', data_string) data = {} for l in data_raw: l = l.strip() if l: match = re.match(key_value_re, l) if match: key = match.groups()[0].strip() value = match.groups()[1].strip() if key in data.keys(): if uniquekeys: raise ValueError("Data string has duplicate keys: {0}".format(key)) else: data[key].append(value) else: if uniquekeys: data[key] = value else: data[key] = [value] else: pass return data def process_running(pid_file): """ Checks if a process with PID in pid_file is running """ with open(pid_file, 'r') as f: pid = f.read().strip() return psutil.pid_exists(int(pid)) def seconds_to_human(s, separator=""): """ Converts number of seconds passed to a human-readable interval such as 1w4d18h35m59s """ s = int(s) week = 60 * 60 * 24 * 7 day = 60 * 60 * 24 hour = 60 * 60 remainder = 0 result = "" weeks = s // week if weeks > 0: result = "{0}w".format(weeks) s = s % week days = s // day if days > 0: result = "{0}{1}{2}d".format(result, separator, days) s = s % day hours = s // hour if hours > 0: result = "{0}{1}{2}h".format(result, separator, hours) s = s % hour minutes = s // 60 if minutes > 0: result = "{0}{1}{2}m".format(result, separator, minutes) s = s % 60 seconds = s if seconds > 0: result = "{0}{1}{2}s".format(result, separator, seconds) return result def get_cfg_group_id(): group_data = grp.getgrnam(vyos.defaults.cfg_group) return group_data.gr_gid def file_is_persistent(path): if not re.match(r'^(/config|/opt/vyatta/etc/config)', os.path.dirname(path)): warning = "Warning: file {0} is outside the /config directory\n".format(path) warning += "It will not be automatically migrated to a new image on system update" return (False, warning) else: return (True, None) def wait_for_inotify(file_path, pre_hook=None, event_type=None, timeout=None, sleep_interval=0.1): """ Waits for an inotify event to occur """ if not os.path.dirname(file_path): raise ValueError( "File path {} does not have a directory part (required for inotify watching)".format(file_path)) if not os.path.basename(file_path): raise ValueError( "File path {} does not have a file part, do not know what to watch for".format(file_path)) from inotify.adapters import Inotify from time import time time_start = time() i = Inotify() i.add_watch(os.path.dirname(file_path)) if pre_hook: pre_hook() for event in i.event_gen(yield_nones=True): if (timeout is not None) and ((time() - time_start) > timeout): # If the function didn't return until this point, # the file failed to have been written to and closed within the timeout raise OSError("Waiting for file {} to be written has failed".format(file_path)) if event is not None: (_, type_names, path, filename) = event if filename == os.path.basename(file_path): if event_type in type_names: return def wait_for_file_write_complete(file_path, pre_hook=None, timeout=None, sleep_interval=0.1): """ Waits for a process to close a file after opening it in write mode. """ wait_for_inotify(file_path, event_type='IN_CLOSE_WRITE', pre_hook=pre_hook, timeout=timeout, sleep_interval=sleep_interval) def commit_in_progress(): """ Not to be used in normal op mode scripts! """ # The CStore backend locks the config by opening a file # The file is not removed after commit, so just checking # if it exists is insufficient, we need to know if it's open by anyone # There are two ways to check if any other process keeps a file open. # The first one is to try opening it and see if the OS objects. # That's faster but prone to race conditions and can be intrusive. # The other one is to actually check if any process keeps it open. # It's non-intrusive but needs root permissions, else you can't check # processes of other users. # # Since this will be used in scripts that modify the config outside of the CLI # framework, those knowingly have root permissions. # For everything else, we add a safeguard. id = subprocess.check_output(['/usr/bin/id', '-u']).decode().strip() if id != '0': raise OSError("This functions needs root permissions to return correct results") for proc in psutil.process_iter(): try: files = proc.open_files() if files: for f in files: if f.path == vyos.defaults.commit_lock: return True except psutil.NoSuchProcess as err: # Process died before we could examine it pass # Default case return False def wait_for_commit_lock(): """ Not to be used in normal op mode scripts! """ # Very synchronous approach to multiprocessing while commit_in_progress(): time.sleep(1) def ask_yes_no(question, default=False) -> bool: """Ask a yes/no question via input() and return their answer.""" default_msg = "[Y/n]" if default else "[y/N]" while True: sys.stdout.write("%s %s " % (question, default_msg)) c = input().lower().strip() if c == '': return default elif c in ("y", "ye", "yes"): return True elif c in ("n", "no"): return False else: sys.stdout.write("Please respond with yes/y or no/n\n") def process_named_running(name): """ Checks if process with given name is running and returns its PID. If Process is not running, return None """ for p in psutil.process_iter(): if name in p.name(): return p.pid return None