# Copyright 2022 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 re import sys import typing from humps import decamelize class Error(Exception): """ Any error that makes requested operation impossible to complete for reasons unrelated to the user input or script logic. """ pass class UnconfiguredSubsystem(Error): """ Requested operation is valid, but cannot be completed because corresponding subsystem is not configured and running. """ pass class DataUnavailable(Error): """ Requested operation is valid, but cannot be completed because data for it is not available. This error MAY be treated as temporary because such issues are often caused by transient events such as service restarts. """ pass class PermissionDenied(Error): """ Requested operation is valid, but the caller has no permission to perform it. """ pass class InternalError(Error): """ Any situation when VyOS detects that it could not perform an operation correctly due to logic errors in its own code or errors in underlying software. """ pass def _is_op_mode_function_name(name): if re.match(r"^(show|clear|reset|restart)", name): return True else: return False def _is_show(name): if re.match(r"^show", name): return True else: return False def _get_op_mode_functions(module): from inspect import getmembers, isfunction # Get all functions in that module funcs = getmembers(module, isfunction) # getmembers returns (name, func) tuples funcs = list(filter(lambda ft: _is_op_mode_function_name(ft[0]), funcs)) funcs_dict = {} for (name, thunk) in funcs: funcs_dict[name] = thunk return funcs_dict def _is_optional_type(t): # Optional[t] is internally an alias for Union[t, NoneType] # and there's no easy way to get union members it seems if (type(t) == typing._UnionGenericAlias): if (len(t.__args__) == 2): if t.__args__[1] == type(None): return True return False def _get_arg_type(t): """ Returns the type itself if it's a primitive type, or the "real" type of typing.Optional Doesn't work with anything else at the moment! """ if _is_optional_type(t): return t.__args__[0] else: return t def _normalize_field_name(name): # Convert the name to string if it is not # (in some cases they may be numbers) name = str(name) # Replace all separators with underscores name = re.sub(r'(\s|[\(\)\[\]\{\}\-\.\,:\"\'\`])+', '_', name) # Replace specific characters with textual descriptions name = re.sub(r'@', '_at_', name) name = re.sub(r'%', '_percentage_', name) name = re.sub(r'~', '_tilde_', name) # Force all letters to lowercase name = name.lower() # Remove leading and trailing underscores, if any name = re.sub(r'(^(_+)(?=[^_])|_+$)', '', name) # Ensure there are only single underscores name = re.sub(r'_+', '_', name) return name def _normalize_dict_field_names(old_dict): new_dict = {} for key in old_dict: new_key = _normalize_field_name(key) new_dict[new_key] = _normalize_field_names(old_dict[key]) # Sanity check if len(old_dict) != len(new_dict): raise InternalError("Dictionary fields do not allow unique normalization") else: return new_dict def _normalize_field_names(value): if isinstance(value, dict): return _normalize_dict_field_names(value) elif isinstance(value, list): return list(map(lambda v: _normalize_field_names(v), value)) else: return value def run(module): from argparse import ArgumentParser functions = _get_op_mode_functions(module) parser = ArgumentParser() subparsers = parser.add_subparsers(dest="subcommand") for function_name in functions: subparser = subparsers.add_parser(function_name, help=functions[function_name].__doc__) type_hints = typing.get_type_hints(functions[function_name]) if 'return' in type_hints: del type_hints['return'] for opt in type_hints: th = type_hints[opt] if _get_arg_type(th) == bool: subparser.add_argument(f"--{opt}", action='store_true') else: if _is_optional_type(th): subparser.add_argument(f"--{opt}", type=_get_arg_type(th), default=None) else: subparser.add_argument(f"--{opt}", type=_get_arg_type(th), required=True) # Get options as a dict rather than a namespace, # so that we can modify it and pack for passing to functions args = vars(parser.parse_args()) if not args["subcommand"]: print("Subcommand required!") parser.print_usage() sys.exit(1) function_name = args["subcommand"] func = functions[function_name] # Remove the subcommand from the arguments, # it would cause an extra argument error when we pass the dict to a function del args["subcommand"] # Show commands must always get the "raw" argument, # but other commands (clear/reset/restart) should not, # because they produce no output and it makes no sense for them. if ("raw" not in args) and _is_show(function_name): args["raw"] = False if re.match(r"^show", function_name): # Show commands are slightly special: # they may return human-formatted output # or a raw dict that we need to serialize in JSON for printing res = func(**args) if not args["raw"]: return res else: res = decamelize(res) res = _normalize_field_names(res) from json import dumps return dumps(res, indent=4) else: # Other functions should not return anything, # although they may print their own warnings or status messages func(**args)