# Copyright 2023 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 . 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. """ import re key_value_re = re.compile(r'([^:]+)\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 and (len(match.groups()) == 2): key = match.groups()[0].strip() value = match.groups()[1].strip() else: raise ValueError(f"""Line "{l}" could not be parsed a colon-separated pair """, l) 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 mangle_dict_keys(data, regex, replacement, abs_path=None, no_tag_node_value_mangle=False): """ Mangles dict keys according to a regex and replacement character. Some libraries like Jinja2 do not like certain characters in dict keys. This function can be used for replacing all offending characters with something acceptable. Args: data (dict): Original dict to mangle regex, replacement (str): arguments to re.sub(regex, replacement, ...) abs_path (list): if data is a config dict and no_tag_node_value_mangle is True then abs_path should be the absolute config path to the first keys of data, non-inclusive no_tag_node_value_mangle (bool): do not mangle keys of tag node values Returns: dict """ import re from vyos.xml_ref import is_tag_value if abs_path is None: abs_path = [] new_dict = type(data)() for k in data.keys(): if no_tag_node_value_mangle and is_tag_value(abs_path + [k]): new_key = k else: new_key = re.sub(regex, replacement, k) value = data[k] if isinstance(value, dict): new_dict[new_key] = mangle_dict_keys(value, regex, replacement, abs_path=abs_path + [k], no_tag_node_value_mangle=no_tag_node_value_mangle) else: new_dict[new_key] = value return new_dict def _get_sub_dict(d, lpath): k = lpath[0] if k not in d.keys(): return {} c = {k: d[k]} lpath = lpath[1:] if not lpath: return c elif not isinstance(c[k], dict): return {} return _get_sub_dict(c[k], lpath) def get_sub_dict(source, lpath, get_first_key=False): """ Returns the sub-dict of a nested dict, defined by path of keys. Args: source (dict): Source dict to extract from lpath (list[str]): sequence of keys Returns: source, if lpath is empty, else {key : source[..]..[key]} for key the last element of lpath, if exists {} otherwise """ if not isinstance(source, dict): raise TypeError("source must be of type dict") if not isinstance(lpath, list): raise TypeError("path must be of type list") if not lpath: return source ret = _get_sub_dict(source, lpath) if get_first_key and lpath and ret: tmp = next(iter(ret.values())) if not isinstance(tmp, dict): raise TypeError("Data under node is not of type dict") ret = tmp return ret def dict_search(path, dict_object): """ Traverse Python dictionary (dict_object) delimited by dot (.). Return value of key if found, None otherwise. This is faster implementation then jmespath.search('foo.bar', dict_object)""" if not isinstance(dict_object, dict) or not path: return None parts = path.split('.') inside = parts[:-1] if not inside: if path not in dict_object: return None return dict_object[path] c = dict_object for p in parts[:-1]: c = c.get(p, {}) return c.get(parts[-1], None) def dict_search_args(dict_object, *path): # Traverse dictionary using variable arguments # Added due to above function not allowing for '.' in the key names # Example: dict_search_args(some_dict, 'key', 'subkey', 'subsubkey', ...) if not isinstance(dict_object, dict) or not path: return None for item in path: if item not in dict_object: return None dict_object = dict_object[item] return dict_object def dict_search_recursive(dict_object, key, path=[]): """ Traverse a dictionary recurisvely and return the value of the key we are looking for. Thankfully copied from https://stackoverflow.com/a/19871956 Modified to yield optional path to found keys """ if isinstance(dict_object, list): for i in dict_object: new_path = path + [i] for x in dict_search_recursive(i, key, new_path): yield x elif isinstance(dict_object, dict): if key in dict_object: new_path = path + [key] yield dict_object[key], new_path for k, j in dict_object.items(): new_path = path + [k] for x in dict_search_recursive(j, key, new_path): yield x def dict_set(key_path, value, dict_object): """ Set value to Python dictionary (dict_object) using path to key delimited by dot (.). The key will be added if it does not exist. """ path_list = key_path.split(".") dynamic_dict = dict_object if len(path_list) > 0: for i in range(0, len(path_list)-1): dynamic_dict = dynamic_dict[path_list[i]] dynamic_dict[path_list[len(path_list)-1]] = value def dict_delete(key_path, dict_object): """ Delete key in Python dictionary (dict_object) using path to key delimited by dot (.). """ path_dict = dict_object path_list = key_path.split('.') inside = path_list[:-1] if not inside: del dict_object[path_list] else: for key in path_list[:-1]: path_dict = path_dict[key] del path_dict[path_list[len(path_list)-1]] def dict_to_list(d, save_key_to=None): """ Convert a dict to a list of dicts. Optionally, save the original key of the dict inside dicts stores in that list. """ def save_key(i, k): if isinstance(i, dict): i[save_key_to] = k return elif isinstance(i, list): for _i in i: save_key(_i, k) else: raise ValueError(f"Cannot save the key: the item is {type(i)}, not a dict") collect = [] for k,_ in d.items(): item = d[k] if save_key_to is not None: save_key(item, k) if isinstance(item, list): collect += item else: collect.append(item) return collect def dict_to_paths_values(conf: dict) -> dict: """ Convert nested dictionary to simple dictionary, where key is a path is delimited by dot (.). """ list_of_paths = [] dict_of_options ={} for path in dict_to_key_paths(conf): str_path = '.'.join(path) list_of_paths.append(str_path) for path in list_of_paths: dict_of_options[path] = dict_search(path,conf) return dict_of_options def dict_to_key_paths(d: dict) -> list: """ Generator to return list of key paths from dict of list[str]|str """ def func(d, path): if isinstance(d, dict): if not d: yield path for k, v in d.items(): for r in func(v, path + [k]): yield r elif isinstance(d, list): yield path elif isinstance(d, str): yield path else: raise ValueError('object is not a dict of strings/list of strings') for r in func(d, []): yield r def dict_to_paths(d: dict) -> list: """ Generator to return list of paths from dict of list[str]|str """ def func(d, path): if isinstance(d, dict): if not d: yield path for k, v in d.items(): for r in func(v, path + [k]): yield r elif isinstance(d, list): for i in d: for r in func(i, path): yield r elif isinstance(d, str): yield path + [d] else: raise ValueError('object is not a dict of strings/list of strings') for r in func(d, []): yield r def embed_dict(p: list[str], d: dict) -> dict: path = p.copy() ret = d while path: ret = {path.pop(): ret} return ret def check_mutually_exclusive_options(d, keys, required=False): """ Checks if a dict has at most one or only one of mutually exclusive keys. """ present_keys = [] for k in d: if k in keys: present_keys.append(k) # Un-mangle the keys to make them match CLI option syntax from re import sub orig_keys = list(map(lambda s: sub(r'_', '-', s), keys)) orig_present_keys = list(map(lambda s: sub(r'_', '-', s), present_keys)) if len(present_keys) > 1: raise ValueError(f"Options {orig_keys} are mutually-exclusive but more than one of them is present: {orig_present_keys}") if required and (len(present_keys) < 1): raise ValueError(f"At least one of the following options is required: {orig_keys}") class FixedDict(dict): """ FixedDict: A dictionnary not allowing new keys to be created after initialisation. >>> f = FixedDict(**{'count':1}) >>> f['count'] = 2 >>> f['king'] = 3 File "...", line ..., in __setitem__ raise ConfigError(f'Option "{k}" has no defined default') """ from vyos import ConfigError def __init__(self, **options): self._allowed = options.keys() super().__init__(**options) def __setitem__(self, k, v): """ __setitem__ is a builtin which is called by python when setting dict values: >>> d = dict() >>> d['key'] = 'value' >>> d {'key': 'value'} is syntaxic sugar for >>> d = dict() >>> d.__setitem__('key','value') >>> d {'key': 'value'} """ if k not in self._allowed: raise ConfigError(f'Option "{k}" has no defined default') super().__setitem__(k, v)