Mercurial > libervia-backend
view libervia/backend/bridge/bridge_constructor/base_constructor.py @ 4332:71c939e34ca6
XEP-0373 (OX): Adjust to gpgme updates: generate with explicit algorithm and subkeys
author | Syndace <me@syndace.dev> |
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date | Sat, 13 Jul 2024 18:28:28 +0200 |
parents | 4cf98f506269 |
children |
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#!/usr/bin/env python3 # Libervia: an XMPP client # Copyright (C) 2009-2021 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program 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 Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. """base constructor class""" from libervia.backend.bridge.bridge_constructor.constants import Const as C from configparser import NoOptionError import sys import os import os.path import re from importlib import import_module class ParseError(Exception): # Used when the signature parsing is going wrong (invalid signature ?) pass class Constructor(object): NAME = None # used in arguments parsing, filename will be used if not set # following attribute are used by default generation method # they can be set to dict of strings using python formatting syntax # dict keys will be used to select part to replace (e.g. "signals" key will # replace ##SIGNALS_PART## in template), while the value is the format # keys starting with "signal" will be used for signals, while ones starting with # "method" will be used for methods # check D-Bus constructor for an example CORE_FORMATS = None CORE_TEMPLATE = None CORE_DEST = None FRONTEND_FORMATS = None FRONTEND_TEMPLATE = None FRONTEND_DEST = None # set to False if your bridge needs only core FRONTEND_ACTIVATE = True def __init__(self, bridge_template, options): self.bridge_template = bridge_template self.args = options @property def constructor_dir(self): constructor_mod = import_module(self.__module__) return os.path.dirname(constructor_mod.__file__) def getValues(self, name): """Return values of a function in a dict @param name: Name of the function to get @return: dict, each key has the config value or None if the value is not set""" function = {} for option in ["type", "category", "sig_in", "sig_out", "doc"]: try: value = self.bridge_template.get(name, option) except NoOptionError: value = None function[option] = value return function def get_default(self, name): """Return default values of a function in a dict @param name: Name of the function to get @return: dict, each key is the integer param number (no key if no default value) """ default_dict = {} def_re = re.compile(r"param_(\d+)_default") for option in self.bridge_template.options(name): match = def_re.match(option) if match: try: idx = int(match.group(1)) except ValueError: raise ParseError( "Invalid value [%s] for parameter number" % match.group(1) ) default_dict[idx] = self.bridge_template.get(name, option) return default_dict def getFlags(self, name): """Return list of flags set for this function @param name: Name of the function to get @return: List of flags (string) """ flags = [] for option in self.bridge_template.options(name): if option in C.DECLARATION_FLAGS: flags.append(option) return flags def get_arguments_doc(self, name): """Return documentation of arguments @param name: Name of the function to get @return: dict, each key is the integer param number (no key if no argument doc), value is a tuple (name, doc) """ doc_dict = {} option_re = re.compile(r"doc_param_(\d+)") value_re = re.compile(r"^(\w+): (.*)$", re.MULTILINE | re.DOTALL) for option in self.bridge_template.options(name): if option == "doc_return": doc_dict["return"] = self.bridge_template.get(name, option) continue match = option_re.match(option) if match: try: idx = int(match.group(1)) except ValueError: raise ParseError( "Invalid value [%s] for parameter number" % match.group(1) ) value_match = value_re.match(self.bridge_template.get(name, option)) if not value_match: raise ParseError("Invalid value for parameter doc [%i]" % idx) doc_dict[idx] = (value_match.group(1), value_match.group(2)) return doc_dict def get_doc(self, name): """Return documentation of the method @param name: Name of the function to get @return: string documentation, or None""" if self.bridge_template.has_option(name, "doc"): return self.bridge_template.get(name, "doc") return None def arguments_parser(self, signature): """Generator which return individual arguments signatures from a global signature""" start = 0 i = 0 while i < len(signature): if signature[i] not in [ "b", "y", "n", "i", "x", "q", "u", "t", "d", "s", "a", ]: raise ParseError("Unmanaged attribute type [%c]" % signature[i]) if signature[i] == "a": i += 1 if ( signature[i] != "{" and signature[i] != "(" ): # FIXME: must manage tuples out of arrays i += 1 yield signature[start:i] start = i continue # we have a simple type for the array opening_car = signature[i] assert opening_car in ["{", "("] closing_car = "}" if opening_car == "{" else ")" opening_count = 1 while True: # we have a dict or a list of tuples i += 1 if i >= len(signature): raise ParseError("missing }") if signature[i] == opening_car: opening_count += 1 if signature[i] == closing_car: opening_count -= 1 if opening_count == 0: break i += 1 yield signature[start:i] start = i def get_arguments(self, signature, name=None, default=None, unicode_protect=False): """Return arguments to user given a signature @param signature: signature in the short form (using s,a,i,b etc) @param name: dictionary of arguments name like given by get_arguments_doc @param default: dictionary of default values, like given by get_default @param unicode_protect: activate unicode protection on strings (return strings as unicode(str)) @return (str): arguments that correspond to a signature (e.g.: "sss" return "arg1, arg2, arg3") """ idx = 0 attr_string = [] for arg in self.arguments_parser(signature): attr_string.append( ( "str(%(name)s)%(default)s" if (unicode_protect and arg == "s") else "%(name)s%(default)s" ) % { "name": name[idx][0] if (name and idx in name) else "arg_%i" % idx, "default": "=" + default[idx] if (default and idx in default) else "", } ) # give arg_1, arg2, etc or name1, name2=default, etc. # give unicode(arg_1), unicode(arg_2), etc. if unicode_protect is set and arg is a string idx += 1 return ", ".join(attr_string) def get_template_path(self, template_file): """return template path corresponding to file name @param template_file(str): name of template file """ return os.path.join(self.constructor_dir, template_file) def core_completion_method(self, completion, function, default, arg_doc, async_): """override this method to extend completion""" pass def core_completion_signal(self, completion, function, default, arg_doc, async_): """override this method to extend completion""" pass def frontend_completion_method(self, completion, function, default, arg_doc, async_): """override this method to extend completion""" pass def frontend_completion_signal(self, completion, function, default, arg_doc, async_): """override this method to extend completion""" pass def generate(self, side): """generate bridge call generate_core_side or generateFrontendSide if they exists else call generic self._generate method """ try: if side == "core": method = self.generate_core_side elif side == "frontend": if not self.FRONTEND_ACTIVATE: print("This constructor only handle core, please use core side") sys.exit(1) method = self.generateFrontendSide except AttributeError: self._generate(side) else: method() def _generate(self, side): """generate the backend this is a generic method which will use formats found in self.CORE_SIGNAL_FORMAT and self.CORE_METHOD_FORMAT (standard format method will be used) @param side(str): core or frontend """ side_vars = [] for var in ("FORMATS", "TEMPLATE", "DEST"): attr = "{}_{}".format(side.upper(), var) value = getattr(self, attr) if value is None: raise NotImplementedError side_vars.append(value) FORMATS, TEMPLATE, DEST = side_vars del side_vars parts = {part.upper(): [] for part in FORMATS} sections = self.bridge_template.sections() sections.sort() for section in sections: function = self.getValues(section) print(("Adding %s %s" % (section, function["type"]))) default = self.get_default(section) arg_doc = self.get_arguments_doc(section) async_ = "async" in self.getFlags(section) completion = { "sig_in": function["sig_in"] or "", "sig_out": function["sig_out"] or "", "category": "plugin" if function["category"] == "plugin" else "core", "name": section, # arguments with default values "args": self.get_arguments( function["sig_in"], name=arg_doc, default=default ), "args_no_default": self.get_arguments(function["sig_in"], name=arg_doc), } extend_method = getattr( self, "{}_completion_{}".format(side, function["type"]) ) extend_method(completion, function, default, arg_doc, async_) for part, fmt in FORMATS.items(): if part.startswith(function["type"]) or part.startswith( f"async_{function['type']}" ): parts[part.upper()].append(fmt.format(**completion)) # at this point, signals_part, methods_part and direct_calls should be filled, # we just have to place them in the right part of the template bridge = [] const_override = { env[len(C.ENV_OVERRIDE) :]: v for env, v in os.environ.items() if env.startswith(C.ENV_OVERRIDE) } template_path = self.get_template_path(TEMPLATE) try: with open(template_path) as template: for line in template: for part, extend_list in parts.items(): if line.lstrip().startswith("##{}_PART##".format(part)): bridge.extend(extend_list) break else: # the line is not a magic part replacement if line.lstrip().startswith("const_"): const_name = line[len("const_") : line.find(" = ")].strip() if const_name in const_override: print(("const {} overriden".format(const_name))) bridge.append( "const_{} = {}".format( const_name, const_override[const_name] ) ) continue bridge.append(line.replace("\n", "")) except IOError: print(("can't open template file [{}]".format(template_path))) sys.exit(1) # now we write to final file self.final_write(DEST, bridge) def final_write(self, filename, file_buf): """Write the final generated file in [dest dir]/filename @param filename: name of the file to generate @param file_buf: list of lines (stings) of the file """ if os.path.exists(self.args.dest_dir) and not os.path.isdir(self.args.dest_dir): print( "The destination dir [%s] can't be created: a file with this name already exists !" ) sys.exit(1) try: if not os.path.exists(self.args.dest_dir): os.mkdir(self.args.dest_dir) full_path = os.path.join(self.args.dest_dir, filename) if os.path.exists(full_path) and not self.args.force: print( ( "The destination file [%s] already exists ! Use --force to overwrite it" % full_path ) ) try: with open(full_path, "w") as dest_file: dest_file.write("\n".join(file_buf)) except IOError: print(("Can't open destination file [%s]" % full_path)) except OSError: print("It's not possible to generate the file, check your permissions") exit(1)