from __future__ import annotations import errno import importlib import inspect import io import types from contextlib import suppress from pathlib import Path from dynaconf import default_settings from dynaconf.utils import DynaconfDict from dynaconf.utils import object_merge from dynaconf.utils import upperfy from dynaconf.utils.files import find_file def load(obj, settings_module, identifier="py", silent=False, key=None): """Tries to import a python module""" mod, loaded_from = get_module(obj, settings_module, silent) if not (mod and loaded_from): return load_from_python_object(obj, mod, settings_module, key, identifier) def load_from_python_object( obj, mod, settings_module, key=None, identifier=None ): file_merge = getattr(mod, "dynaconf_merge", False) or getattr( mod, "DYNACONF_MERGE", False ) for setting in dir(mod): # A setting var in a Python file should start with upper case # valid: A_value=1, ABC_value=3 A_BBB__default=1 # invalid: a_value=1, MyValue=3 # This is to avoid loading functions, classes and built-ins if setting.split("__")[0].isupper(): if key is None or key == setting: setting_value = getattr(mod, setting) obj.set( setting, setting_value, loader_identifier=identifier, merge=file_merge, ) obj._loaded_py_modules.append(mod.__name__) obj._loaded_files.append(mod.__file__) def try_to_load_from_py_module_name( obj, name, key=None, identifier="py", silent=False ): """Try to load module by its string name. Arguments: obj {LAzySettings} -- Dynaconf settings instance name {str} -- Name of the module e.g: foo.bar.zaz Keyword Arguments: key {str} -- Single key to be loaded (default: {None}) identifier {str} -- Name of identifier to store (default: 'py') silent {bool} -- Weather to raise or silence exceptions. """ ctx = suppress(ImportError, TypeError) if silent else suppress() with ctx: mod = importlib.import_module(str(name)) load_from_python_object(obj, mod, name, key, identifier) return True # loaded ok! # if it reaches this point that means exception occurred, module not found. return False def get_module(obj, filename, silent=False): try: mod = importlib.import_module(filename) loaded_from = "module" mod.is_error = False except (ImportError, TypeError): mod = import_from_filename(obj, filename, silent=silent) if mod and not mod._is_error: loaded_from = "filename" else: # it is important to return None in case of not loaded loaded_from = None return mod, loaded_from def import_from_filename(obj, filename, silent=False): # pragma: no cover """If settings_module is a filename path import it.""" if filename in [item.filename for item in inspect.stack()]: raise ImportError( "Looks like you are loading dynaconf " f"from inside the {filename} file and then it is trying " "to load itself entering in a circular reference " "problem. To solve it you have to " "invoke your program from another root folder " "or rename your program file." ) _find_file = getattr(obj, "find_file", find_file) if not filename.endswith(".py"): filename = f"{filename}.py" if filename in default_settings.SETTINGS_FILE_FOR_DYNACONF: silent = True mod = types.ModuleType(filename.rstrip(".py")) mod.__file__ = filename mod._is_error = False mod._error = None try: with open( _find_file(filename), encoding=default_settings.ENCODING_FOR_DYNACONF, ) as config_file: exec(compile(config_file.read(), filename, "exec"), mod.__dict__) except OSError as e: e.strerror = ( f"py_loader: error loading file " f"({e.strerror} {filename})\n" ) if silent and e.errno in (errno.ENOENT, errno.EISDIR): return mod._is_error = True mod._error = e return mod def write(settings_path, settings_data, merge=True): """Write data to a settings file. :param settings_path: the filepath :param settings_data: a dictionary with data :param merge: boolean if existing file should be merged with new data """ settings_path = Path(settings_path) if settings_path.exists() and merge: # pragma: no cover existing = DynaconfDict() load(existing, str(settings_path)) object_merge(existing, settings_data) with open( str(settings_path), "w", encoding=default_settings.ENCODING_FOR_DYNACONF, ) as f: f.writelines( [f"{upperfy(k)} = {repr(v)}\n" for k, v in settings_data.items()] )