# 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 . from typing import Union, Any from vyos.configdict import dict_merge class Xml: def __init__(self): self.ref = {} def define(self, ref: dict): self.ref = ref def _get_ref_node_data(self, node: dict, data: str) -> Union[bool, str]: res = node.get('node_data', {}) if not res: raise ValueError("non-existent node data") if data not in res: raise ValueError("non-existent data field") return res.get(data) def _get_ref_path(self, path: list) -> dict: ref_path = path.copy() d = self.ref while ref_path and d: d = d.get(ref_path[0], {}) ref_path.pop(0) if self._is_tag_node(d) and ref_path: ref_path.pop(0) return d def _is_tag_node(self, node: dict) -> bool: res = self._get_ref_node_data(node, 'node_type') return res == 'tag' def is_tag(self, path: list) -> bool: ref_path = path.copy() d = self.ref while ref_path and d: d = d.get(ref_path[0], {}) ref_path.pop(0) if self._is_tag_node(d) and ref_path: if len(ref_path) == 1: return False ref_path.pop(0) return self._is_tag_node(d) def is_tag_value(self, path: list) -> bool: if len(path) < 2: return False return self.is_tag(path[:-1]) def _is_multi_node(self, node: dict) -> bool: b = self._get_ref_node_data(node, 'multi') assert isinstance(b, bool) return b def is_multi(self, path: list) -> bool: d = self._get_ref_path(path) return self._is_multi_node(d) def _is_valueless_node(self, node: dict) -> bool: b = self._get_ref_node_data(node, 'valueless') assert isinstance(b, bool) return b def is_valueless(self, path: list) -> bool: d = self._get_ref_path(path) return self._is_valueless_node(d) def _is_leaf_node(self, node: dict) -> bool: res = self._get_ref_node_data(node, 'node_type') return res == 'leaf' def is_leaf(self, path: list) -> bool: d = self._get_ref_path(path) return self._is_leaf_node(d) def component_version(self) -> dict: d = {} for k, v in self.ref['component_version']: d[k] = int(v) return d def multi_to_list(self, rpath: list, conf: dict) -> dict: if rpath and rpath[-1] in list(conf): raise ValueError('rpath should be disjoint from conf keys') res: Any = {} for k in list(conf): d = self._get_ref_path(rpath + [k]) if self._is_leaf_node(d): if self._is_multi_node(d) and not isinstance(conf[k], list): res[k] = [conf[k]] else: res[k] = conf[k] else: res[k] = self.multi_to_list(rpath + [k], conf[k]) return res def _get_default_value(self, node: dict): return self._get_ref_node_data(node, "default_value") def get_defaults(self, path: list, get_first_key=False, recursive=False) -> dict: """Return dict containing default values below path Note that descent below path will not proceed beyond an encountered tag node, as no tag node value is known. For a default dict relative to an existing config dict containing tag node values, see function: 'relative_defaults' """ res: dict = {} d = self._get_ref_path(path) for k in list(d): if k in ('node_data', 'component_version') : continue d_k = d[k] if self._is_leaf_node(d_k): default_value = self._get_default_value(d_k) if default_value is not None: pos = default_value if self._is_multi_node(d_k) and not isinstance(pos, list): pos = [pos] res |= {k: pos} elif self.is_tag(path + [k]): # tag node defaults are used as suggestion, not default value; # should this change, append to path and continue if recursive pass else: if recursive: pos = self.get_defaults(path + [k], recursive=True) res |= pos if res: if get_first_key or not path: if not isinstance(res, dict): raise TypeError("Cannot get_first_key as data under node is not of type dict") return res return {path[-1]: res} return {} def _well_defined(self, path: list, conf: dict) -> bool: # test disjoint path + conf for sensible config paths def step(c): return [next(iter(c.keys()))] if c else [] try: tmp = step(conf) if self.is_tag_value(path + tmp): c = conf[tmp[0]] if not isinstance(c, dict): raise ValueError tmp = tmp + step(c) self._get_ref_path(path + tmp) else: self._get_ref_path(path + tmp) except ValueError: return False return True def relative_defaults(self, rpath: list, conf: dict, get_first_key=False, recursive=False) -> dict: """Return dict containing defaults along paths of a config dict """ if not conf: return self.get_defaults(rpath, get_first_key=get_first_key, recursive=recursive) if rpath and rpath[-1] in list(conf): conf = conf[rpath[-1]] if not isinstance(conf, dict): raise TypeError('conf at path is not of type dict') if not self._well_defined(rpath, conf): print('path to config dict does not define full config paths') return {} res: dict = {} for k in list(conf): pos = self.get_defaults(rpath + [k], recursive=recursive) res |= pos if isinstance(conf[k], dict): step = self.relative_defaults(rpath + [k], conf=conf[k], recursive=recursive) res |= step if res: if get_first_key: return res return {rpath[-1]: res} if rpath else res return {} def merge_defaults(self, path: list, conf: dict) -> dict: """Return config dict with defaults non-destructively merged This merges non-recursive defaults relative to the config dict. """ if path[-1] in list(conf): config = conf[path[-1]] if not isinstance(config, dict): raise TypeError('conf at path is not of type dict') shift = False else: config = conf shift = True if not self._well_defined(path, config): print('path to config dict does not define config paths; conf returned unchanged') return conf d = self.relative_defaults(path, conf=config, get_first_key=shift) d = dict_merge(d, conf) return d