class ConfigurationManager(object): #-------------------------------------------------------------------------- def __init__( self, definition_source=None, values_source_list=None, argv_source=None, #use_config_files=True, use_auto_help=True, use_admin_controls=True, quit_after_admin=True, options_banned_from_help=None, app_name='', app_version='', app_description='', config_pathname='.', config_optional=True, value_source_object_hook=DotDict, ): """create and initialize a configman object. parameters: definition_source - a namespace or list of namespaces from which configman is to fetch the definitions of the configuration parameters. values_source_list - (optional) a hierarchical list of sources for values for the configuration parameters. As values are copied from these sources, conficting values are resolved with sources on the right getting preference over sources on the left. argv_source - if the values_source_list contains a commandline source, this value is an alternative source for actual command line arguments. Useful for testing or preprocessing command line arguments. use_auto_help - set to True if configman is to automatically set up help output for command line invocations. use_admin_controls - configman can add command line flags that it interprets independently of the app defined arguments. True enables this capability, while, False supresses it. quit_after_admin - if True and admin controls are enabled and used, call sys.exit to end the app. This is useful to stop the app from running if all that was done was to write a config file or stop after help. options_banned_from_help - a list of strings that will censor the output of help to prevent specified options from being listed in the help output. This is useful for hiding debug or secret command line arguments. app_name - assigns a name to the app. This is used in help output and as a default basename for config files. app_version - assigns a version for the app used help output. app_description - assigns a description for the app to be used in the help output. config_pathname - a hard coded path to the directory of or the full path and name of the configuration file. config_optional - a boolean indicating if a missing default config file is optional. Note: this is only for the default config file. If a config file is specified on the commandline, it _must_ exist. value_source_object_hook - a class used for the internal representation of a value source. This is used to enable any special processing, like key translations. """ # instead of allowing mutables as default keyword argument values... if definition_source is None: definition_source_list = [] elif (isinstance(definition_source, collections.Sequence) and not isinstance(definition_source, (six.binary_type, six.text_type))): definition_source_list = list(definition_source) else: if isinstance(definition_source, (six.binary_type, six.text_type)): definition_source = to_str(definition_source) definition_source_list = [definition_source] if argv_source is None: self.argv_source = sys.argv[1:] self.app_invocation_name = sys.argv[0] else: self.argv_source = argv_source self.app_invocation_name = app_name if options_banned_from_help is None: options_banned_from_help = ['application'] self.config_pathname = config_pathname self.config_optional = config_optional self.use_auto_help = use_auto_help self.value_source_object_hook = value_source_object_hook self.app_name = app_name self.app_version = app_version self.app_description = app_description self.args = [] # extra commandline arguments that are not switches # will be stored here. self._config = None # eventual container for DOM-like config object self.option_definitions = Namespace() self.definition_source_list = definition_source_list command_line_value_source = command_line if values_source_list is None: # nothing set, assume defaults if use_admin_controls: values_source_list = (ConfigFileFutureProxy, environment, command_line_value_source) else: values_source_list = (environment, command_line_value_source) # determine which command_line facility to use for help if self.use_auto_help: # we need to iterate through all of our value sources looking for # one that can interact with the user on the commandline. for a_value_source in values_source_list: if inspect.ismodule(a_value_source): handler = \ type_handler_dispatch[a_value_source][0].ValueSource try: # if a value source is able to handle the command line # it will have defined 'command_line_value_source' as # true. Not all values sources may have this attribute if handler.command_line_value_source: handler._setup_auto_help(self) break except AttributeError: # not a commandline source because it doesn't have # the 'command_line_value_source' OR it doesn't have # a method that allows it to setup a help system. # this is OK, we can ignore it and move on until we # find an appropriate source. pass else: # While not actually necessary to have implemented, this # is the case where the value source is not a module. # So we know nothing about its interface. We cannot even # try to use it as a commandline value source. pass admin_tasks_done = False self.keys_blocked_from_output = [ 'help', 'admin.conf', 'admin.dump_conf', 'admin.print_conf', 'admin.strict', 'admin.expose_secrets', ] self.options_banned_from_help = options_banned_from_help if use_admin_controls: admin_options = self._setup_admin_options(values_source_list) self.definition_source_list.append(admin_options) # iterate through the option definitions to create the nested dict # hierarchy of all the options called 'option_definitions' for a_definition_source in self.definition_source_list: try: safe_copy_of_def_source = a_definition_source.safe_copy() except AttributeError: # apparently, the definition source was not in the form of a # Namespace object. This isn't a show stopper, but we don't # know how to make a copy of this object safely: we know from # experience that the stock copy.copy method leads to grief # as many sub-objects within an option definition source can # not be copied that way (classes, for example). # The only action we can take is to trust and continue with the # original copy of the definition source. safe_copy_of_def_source = a_definition_source setup_definitions(safe_copy_of_def_source, self.option_definitions) if use_admin_controls: # the name of the config file needs to be loaded from the command # line prior to processing the rest of the command line options. config_filename = config_filename_from_commandline(self) if (config_filename and ConfigFileFutureProxy in values_source_list): self.option_definitions.admin.conf.default = config_filename self.values_source_list = wrap_with_value_source_api( values_source_list, self) known_keys = self._overlay_expand() self._check_for_mismatches(known_keys) # the app_name, app_version and app_description are to come from # if 'application' option if it is present. If it is not present, # get the app_name,et al, from parameters passed into the constructor. # if those are empty, set app_name, et al, to empty strings try: app_option = self._get_option('application') self.app_name = getattr(app_option.value, 'app_name', '') self.app_version = getattr(app_option.value, 'app_version', '') self.app_description = getattr(app_option.value, 'app_description', '') except NotAnOptionError: # there is no 'application' option, continue to use the # 'app_name' from the parameters passed in, if they exist. pass try: if use_auto_help and self._get_option('help').value: self.output_summary() admin_tasks_done = True except NotAnOptionError: # the current command-line implementation already has a help # mechanism of its own that doesn't require the use of a # option in configman. This error is ignorable pass # keys that end with a "$" are called "blocked_by_suffix". # This means that these options are not to be written out to # configuration files. keys_blocked_by_suffix = [ key for key in self.option_definitions.keys_breadth_first() if key.endswith('$') ] self.keys_blocked_from_output.extend(keys_blocked_by_suffix) if use_admin_controls and self._get_option('admin.print_conf').value: self.print_conf() admin_tasks_done = True if use_admin_controls and self._get_option('admin.dump_conf').value: self.dump_conf() admin_tasks_done = True if quit_after_admin and admin_tasks_done: sys.exit() #-------------------------------------------------------------------------- @contextlib.contextmanager def context(self, mapping_class=DotDictWithAcquisition): """return a config as a context that calls close on every item when it goes out of scope""" config = None try: config = self.get_config(mapping_class=mapping_class) yield config finally: if config: self._walk_and_close(config) #-------------------------------------------------------------------------- def get_config(self, mapping_class=DotDictWithAcquisition): config = self._generate_config(mapping_class) if self._aggregate(self.option_definitions, config, config): # state changed, must regenerate return self._generate_config(mapping_class) else: return config #-------------------------------------------------------------------------- def output_summary(self, output_stream=sys.stdout): """outputs a usage tip and the list of acceptable commands. This is useful as the output of the 'help' option. parameters: output_stream - an open file-like object suitable for use as the target of a print function """ if self.app_name or self.app_description: print('Application: ', end='', file=output_stream) if self.app_name: print(self.app_name, self.app_version, file=output_stream) if self.app_description: print(self.app_description, file=output_stream) if self.app_name or self.app_description: print('', file=output_stream) names_list = self.get_option_names() print("usage:\n%s [OPTIONS]... " % self.app_invocation_name, end='', file=output_stream) bracket_count = 0 # this section prints the non-switch command line arguments for key in names_list: an_option = self.option_definitions[key] if an_option.is_argument: if an_option.default is None: # there's no option, assume the user must set this print(an_option.name, end='', file=output_stream) elif (inspect.isclass(an_option.value) or inspect.ismodule(an_option.value)): # this is already set and it could have expanded, most # likely this is a case where a sub-command has been # loaded and we're looking to show the help for it. # display show it as a constant already provided rather # than as an option the user must provide print(an_option.default, end='', file=output_stream) else: # this is an argument that the user may alternatively # provide print("[ %s" % an_option.name, end='', file=output_stream) bracket_count += 1 print(']' * bracket_count, '\n', file=output_stream) names_list.sort() if names_list: print('OPTIONS:', file=output_stream) pad = ' ' * 4 for name in names_list: if name in self.options_banned_from_help: continue option = self._get_option(name) line = ' ' * 2 # always start with 2 spaces if option.short_form: line += '-%s, ' % option.short_form line += '--%s' % name line += '\n' doc = option.doc if option.doc is not None else '' if doc: line += '%s%s\n' % (pad, doc) try: value = option.value type_of_value = type(value) converter_function = to_string_converters[type_of_value] default = converter_function(value) except KeyError: default = option.value if default is not None: if ((option.secret or 'password' in name.lower()) and not self. option_definitions.admin.expose_secrets.default): default = '*********' if name not in ('help', ): # don't bother with certain dead obvious ones line += '%s(default: %s)\n' % (pad, default) print(line, file=output_stream) #-------------------------------------------------------------------------- def print_conf(self): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" config_file_type = self._get_option('admin.print_conf').value @contextlib.contextmanager def stdout_opener(): yield sys.stdout skip_keys = [ k for (k, v) in six.iteritems(self.option_definitions) if isinstance(v, Option) and v.exclude_from_print_conf ] self.write_conf(config_file_type, stdout_opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def dump_conf(self, config_pathname=None): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" if not config_pathname: config_pathname = self._get_option('admin.dump_conf').value opener = functools.partial(open, config_pathname, 'w') config_file_type = os.path.splitext(config_pathname)[1][1:] skip_keys = [ k for (k, v) in six.iteritems(self.option_definitions) if isinstance(v, Option) and v.exclude_from_dump_conf ] self.write_conf(config_file_type, opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def write_conf(self, config_file_type, opener, skip_keys=None): """write a configuration file to a file-like object. parameters: config_file_type - a string containing a registered file type OR a for_XXX module from the value_source package. Passing in an string that is unregistered will result in a KeyError opener - a callable object or function that returns a file like object that works as a context in a with statement.""" blocked_keys = self.keys_blocked_from_output if skip_keys: blocked_keys.extend(skip_keys) if blocked_keys: option_defs = self.option_definitions.safe_copy() for a_blocked_key in blocked_keys: try: del option_defs[a_blocked_key] except (AttributeError, KeyError): # okay that key isn't here pass # remove empty namespaces all_keys = [ k for k in option_defs.keys_breadth_first(include_dicts=True) ] for key in all_keys: candidate = option_defs[key] if (isinstance(candidate, Namespace) and not len(candidate)): del option_defs[key] else: option_defs = self.option_definitions # find all of the secret options and overwrite their values with # '*' * 16 if not self.option_definitions.admin.expose_secrets.default: for a_key in option_defs.keys_breadth_first(): an_option = option_defs[a_key] if ((not a_key.startswith('admin')) and isinstance(an_option, Option) and an_option.secret): # force the option to be a string of * option_defs[a_key].value = '*' * 16 option_defs[a_key].from_string_converter = str dispatch_request_to_write(config_file_type, option_defs, opener) #-------------------------------------------------------------------------- def log_config(self, logger): """write out the current configuration to a log-like object. parameters: logger - a object that implements a method called 'info' with the same semantics as the call to 'logger.info'""" logger.info("app_name: %s", self.app_name) logger.info("app_version: %s", self.app_version) logger.info("current configuration:") config = [(key, self.option_definitions[key].value) for key in self.option_definitions.keys_breadth_first() if key not in self.keys_blocked_from_output] config.sort() for key, val in config: if (self.option_definitions[key].secret or 'password' in key.lower()): logger.info('%s: *********', key) else: try: logger.info('%s: %s', key, to_string_converters[type(key)](val)) except KeyError: logger.info('%s: %s', key, val) #-------------------------------------------------------------------------- def get_option_names(self): """returns a list of fully qualified option names. returns: a list of strings representing the Options in the source Namespace list. Each item will be fully qualified with dot delimited Namespace names. """ return [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] #-------------------------------------------------------------------------- def _create_reference_value_options(self, keys, finished_keys): """this method steps through the option definitions looking for alt paths. On finding one, it creates the 'reference_value_from' links within the option definitions and populates it with copied options.""" # a set of known reference_value_from_links set_of_reference_value_option_names = set() for key in keys: if key in finished_keys: continue an_option = self.option_definitions[key] if an_option.reference_value_from: fully_qualified_reference_name = '.'.join( (an_option.reference_value_from, an_option.name)) if fully_qualified_reference_name in keys: continue # this referenced value has already been defined # no need to repeat it - skip on to the next key reference_option = an_option.copy() reference_option.reference_value_from = None reference_option.name = fully_qualified_reference_name # wait, aren't we setting a fully qualified dotted name into # the name field? Yes, 'add_option' below sees that # full pathname and does the right thing with it to ensure # that the reference_option is created within the # correct namespace set_of_reference_value_option_names.add( fully_qualified_reference_name) self.option_definitions.add_option(reference_option) for a_reference_value_option_name in set_of_reference_value_option_names: for x in range(a_reference_value_option_name.count('.')): namespace_path = \ a_reference_value_option_name.rsplit('.', x + 1)[0] self.option_definitions[namespace_path].ref_value_namespace() return set_of_reference_value_option_names #-------------------------------------------------------------------------- def _overlay_expand(self): """This method overlays each of the value sources onto the default in each of the defined options. It does so using a breadth first iteration, overlaying and expanding each level of the tree in turn. As soon as no changes were made to any level, the loop breaks and the work is done. The actual action of the overlay is to take the value from the source and copy into the 'default' member of each Option object. "expansion" means converting an option value into its real type from string. The conversion is accomplished by simply calling the 'set_value' method of the Option object. If the resultant type has its own configuration options, bring those into the current namespace and then proceed to overlay/expand those. """ new_keys_have_been_discovered = True # loop control, False breaks loop finished_keys = set() all_reference_values = {} while new_keys_have_been_discovered: # loop until nothing more is done # names_of_all_exsting_options holds a list of all keys in the # option definitons in breadth first order using this form: # [ 'x', 'y', 'z', 'x.a', 'x.b', 'z.a', 'z.b', 'x.a.j', 'x.a.k', # 'x.b.h'] names_of_all_exsting_options = [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] new_keys_have_been_discovered = False # setup to break loop # create alternate paths options set_of_reference_value_option_names = \ self._create_reference_value_options( names_of_all_exsting_options, finished_keys ) for a_ref_option_name in set_of_reference_value_option_names: if a_ref_option_name not in all_reference_values: all_reference_values[a_ref_option_name] = [] all_keys = list(set_of_reference_value_option_names) \ + names_of_all_exsting_options # previous versions of this method pulled the values from the # values sources deeper within the following nested loops. # that was not necessary and caused a lot of redundant work. # the 'values_from_all_sources' now holds all the the values # from each of the value sources. values_from_all_sources = [ a_value_source.get_values( self, # pass in the config_manager itself True, # ignore mismatches self.value_source_object_hook # build with this class ) for a_value_source in self.values_source_list ] # overlay process: # fetch all the default values from the value sources before # applying the from string conversions for key in all_keys: if key in finished_keys: continue #if not isinstance(an_option, Option): # continue # aggregations and other types are ignored # loop through all the value sources looking for values # that match this current key. if self.option_definitions[key].reference_value_from: reference_value_from = ( self.option_definitions[key].reference_value_from) top_key = key.split('.')[-1] self.option_definitions[key].default = ( self.option_definitions[reference_value_from] [top_key].default) all_reference_values['.'.join( (reference_value_from, top_key))].append(key) an_option = self.option_definitions[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid finished_keys -= set(all_reference_values[key]) for val_src_dict in values_from_all_sources: try: # overlay the default with the new value from # the value source. This assignment may come # via acquisition, so the key given may not have # been an exact match for what was returned. an_option.has_changed = (an_option.default != val_src_dict[key]) an_option.default = val_src_dict[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid finished_keys -= set(all_reference_values[key]) except KeyError as x: pass # okay, that source doesn't have this value # expansion process: # step through all the keys converting them to their proper # types and bringing in any new keys in the process for key in all_keys: if key in finished_keys: continue # mark this key as having been seen and processed finished_keys.add(key) an_option = self.option_definitions[key] #if not isinstance(an_option, Option): # continue # aggregations, namespaces are ignored # apply the from string conversion to make the real value an_option.set_value(an_option.default) # new values have been seen, don't let loop break new_keys_have_been_discovered = True try: try: # try to fetch new requirements from this value new_requirements = \ an_option.value.get_required_config() except (AttributeError, KeyError): new_requirements = getattr(an_option.value, 'required_config', None) # make sure what we got as new_req is actually a # Mapping of some sort if not isinstance(new_requirements, collections.Mapping): # we didn't get a mapping, perhaps the option value # was a Mock object - in any case we can't try to # interpret 'new_req' as a configman requirement # collection. We must abandon processing this # option further continue if not isinstance(new_requirements, Namespace): new_requirements = Namespace( initializer=new_requirements) # get the parent namespace current_namespace = self.option_definitions.parent(key) if current_namespace is None: # we're at the top level, use the base namespace current_namespace = self.option_definitions if current_namespace._reference_value_from: # don't expand things that are in reference value # namespaces, they will be populated by expanding the # targets continue # some new Options to be brought in may have already been # seen and in the finished_keys set. They must be reset # as unfinished so that a new default doesn't permanently # overwrite any of the values already placed by the # overlays. So we've got to remove those keys from the # finished keys list. # Before we can do that however, we need the fully # qualified names for the new keys. qualified_parent_name_list = key.rsplit('.', 1) if len(qualified_parent_name_list) > 1: qualified_parent_name = qualified_parent_name_list[0] else: qualified_parent_name = '' finished_keys = finished_keys.difference( '.'.join((qualified_parent_name, ref_option_name)) for ref_option_name in new_requirements) # add the new Options to the namespace new_namespace = new_requirements.safe_copy( an_option.reference_value_from) for new_key in new_namespace.keys_breadth_first(): if new_key not in current_namespace: current_namespace[new_key] = new_namespace[new_key] except AttributeError as x: # there are apparently no new Options to bring in from # this option's value pass return finished_keys #-------------------------------------------------------------------------- def _check_for_mismatches(self, known_keys): """check for bad options from value sources""" for a_value_source in self.values_source_list: try: if a_value_source.always_ignore_mismatches: continue except AttributeError: # ok, this values source doesn't have the concept # always igoring mismatches, we won't tolerate mismatches pass # we want to fetch the keys from the value sources so that we can # check for mismatches. Commandline value sources, are different, # we never want to allow unmatched keys from the command line. # By detecting if this value source is a command line source, we # can employ the command line's own mismatch detection. The # boolean 'allow_mismatches' controls application of the tollerance # for mismatches. if hasattr(a_value_source, 'command_line_value_source'): allow_mismatches = False else: allow_mismatches = True # make a set of all the keys from a value source in the form # of strings like this: 'x.y.z' value_source_mapping = a_value_source.get_values( self, allow_mismatches, self.value_source_object_hook) value_source_keys_set = set([ k for k in DotDict(value_source_mapping).keys_breadth_first() ]) # make a set of the keys that didn't match any of the known # keys in the requirements unmatched_keys = value_source_keys_set.difference(known_keys) # some of the unmatched keys may actually be ok because the were # used during acquisition. # remove keys of the form 'y.z' if they match a known key of the # form 'x.y.z' for key in unmatched_keys.copy(): key_is_okay = six.moves.reduce(lambda x, y: x or y, (known_key.endswith(key) for known_key in known_keys)) if key_is_okay: unmatched_keys.remove(key) # anything left in the unmatched_key set is a badly formed key. # issue a warning if unmatched_keys: if self.option_definitions.admin.strict.default: # raise hell... if len(unmatched_keys) > 1: raise NotAnOptionError("%s are not valid Options" % unmatched_keys) elif len(unmatched_keys) == 1: raise NotAnOptionError("%s is not a valid Option" % unmatched_keys.pop()) else: warnings.warn('Invalid options: %s' % ', '.join(sorted(unmatched_keys))) #-------------------------------------------------------------------------- @staticmethod def _walk_and_close(a_dict): for val in six.itervalues(a_dict): if isinstance(val, collections.Mapping): ConfigurationManager._walk_and_close(val) try: if hasattr(val, 'close') and not inspect.isclass(val): val.close() except KeyError: # py3 will sometimes hit KeyError from the hasattr() pass #-------------------------------------------------------------------------- def _generate_config(self, mapping_class): """This routine generates a copy of the DotDict based config""" config = mapping_class() self._walk_config_copy_values(self.option_definitions, config, mapping_class) return config #-------------------------------------------------------------------------- def _setup_auto_help(self): help_option = Option(name='help', doc='print this', default=False) self.definition_source_list.append({'help': help_option}) #-------------------------------------------------------------------------- def _get_config_pathname(self): if os.path.isdir(self.config_pathname): # we've got a path with no file name at the end # use the appname as the file name and default to an 'ini' # config file type if self.app_name: return os.path.join(self.config_pathname, '%s.ini' % self.app_name) else: # there is no app_name yet # we'll decline to return anything return None return self.config_pathname #-------------------------------------------------------------------------- def _setup_admin_options(self, values_source_list): base_namespace = Namespace() base_namespace.admin = admin = Namespace() admin.add_option(name='print_conf', default=None, doc='write current config to stdout (%s)' % ', '.join(file_extension_dispatch.keys())) admin.add_option( name='dump_conf', default='', doc='a pathname to which to write the current config', ) admin.add_option(name='strict', default=False, doc='mismatched options generate exceptions rather' ' than just warnings') admin.add_option( name='expose_secrets', default=False, doc='should options marked secret get written out or hidden?') # only offer the config file admin options if they've been requested in # the values source list if ConfigFileFutureProxy in values_source_list: default_config_pathname = self._get_config_pathname() admin.add_option( name='conf', default=default_config_pathname, doc='the pathname of the config file (path/filename)', ) return base_namespace #-------------------------------------------------------------------------- def _walk_config_copy_values(self, source, destination, mapping_class): for key, val in source.items(): if key.endswith('$'): continue value_type = type(val) if isinstance(val, Option) or isinstance(val, Aggregation): destination[key] = val.value elif value_type == Namespace: destination[key] = d = mapping_class() self._walk_config_copy_values(val, d, mapping_class) #-------------------------------------------------------------------------- def _aggregate(self, source, base_namespace, local_namespace): aggregates_found = False for key, val in source.items(): if isinstance(val, Namespace): new_aggregates_found = self._aggregate(val, base_namespace, local_namespace[key]) aggregates_found = new_aggregates_found or aggregates_found elif isinstance(val, Aggregation): val.aggregate(base_namespace, local_namespace, self.args) aggregates_found = True # skip Options, we're only dealing with Aggregations return aggregates_found #-------------------------------------------------------------------------- @staticmethod def _option_sort(x_tuple): key, val = x_tuple if isinstance(val, Namespace): return 'zzzzzzzzzzz%s' % key else: return key #-------------------------------------------------------------------------- def _get_option(self, name): try: return self.option_definitions[name] except KeyError: raise NotAnOptionError('%s is not a known option name' % name) #-------------------------------------------------------------------------- def _get_options(self, source=None, options=None, prefix=''): return [(key, self.option_definitions[key]) for key in self.option_definitions.keys_breadth_first()]
class ConfigurationManager(object): #-------------------------------------------------------------------------- def __init__( self, definition_source=None, values_source_list=None, argv_source=None, #use_config_files=True, use_auto_help=True, use_admin_controls=True, quit_after_admin=True, options_banned_from_help=None, app_name='', app_version='', app_description='', config_pathname='.', config_optional=True, value_source_object_hook=DotDict, ): """create and initialize a configman object. parameters: definition_source - a namespace or list of namespaces from which configman is to fetch the definitions of the configuration parameters. values_source_list - (optional) a hierarchical list of sources for values for the configuration parameters. As values are copied from these sources, conficting values are resolved with sources on the right getting preference over sources on the left. argv_source - if the values_source_list contains a commandline source, this value is an alternative source for actual command line arguments. Useful for testing or preprocessing command line arguments. use_auto_help - set to True if configman is to automatically set up help output for command line invocations. use_admin_controls - configman can add command line flags that it interprets independently of the app defined arguments. True enables this capability, while, False supresses it. quit_after_admin - if True and admin controls are enabled and used, call sys.exit to end the app. This is useful to stop the app from running if all that was done was to write a config file or stop after help. options_banned_from_help - a list of strings that will censor the output of help to prevent specified options from being listed in the help output. This is useful for hiding debug or secret command line arguments. app_name - assigns a name to the app. This is used in help output and as a default basename for config files. app_version - assigns a version for the app used help output. app_description - assigns a description for the app to be used in the help output. config_pathname - a hard coded path to the directory of or the full path and name of the configuration file. config_optional - a boolean indicating if a missing default config file is optional. Note: this is only for the default config file. If a config file is specified on the commandline, it _must_ exist. value_source_object_hook - a class used for the internal representation of a value source. This is used to enable any special processing, like key translations. """ # instead of allowing mutables as default keyword argument values... if definition_source is None: definition_source_list = [] elif (isinstance(definition_source, collections.Sequence) and not isinstance(definition_source, basestring)): definition_source_list = list(definition_source) else: definition_source_list = [definition_source] if argv_source is None: self.argv_source = sys.argv[1:] self.app_invocation_name = sys.argv[0] else: self.argv_source = argv_source self.app_invocation_name = app_name if options_banned_from_help is None: options_banned_from_help = ['application'] self.config_pathname = config_pathname self.config_optional = config_optional self.value_source_object_hook = value_source_object_hook self.app_name = app_name self.app_version = app_version self.app_description = app_description self.args = [] # extra commandline arguments that are not switches # will be stored here. self._config = None # eventual container for DOM-like config object self.option_definitions = Namespace() self.definition_source_list = definition_source_list if values_source_list is None: # nothing set, assume defaults if use_admin_controls: values_source_list = (ConfigFileFutureProxy, environment, command_line) else: values_source_list = (environment, command_line) admin_tasks_done = False self.admin_controls_list = [ 'help', 'admin.conf', 'admin.dump_conf', 'admin.print_conf', 'admin.strict', 'admin.expose_secrets', ] self.options_banned_from_help = options_banned_from_help if use_auto_help: self._setup_auto_help() if use_admin_controls: admin_options = self._setup_admin_options(values_source_list) self.definition_source_list.append(admin_options) # iterate through the option definitions to create the nested dict # hierarchy of all the options called 'option_definitions' for a_definition_source in self.definition_source_list: try: safe_copy_of_def_source = a_definition_source.safe_copy() except AttributeError: # apparently, the definition source was not in the form of a # Namespace object. This isn't a show stopper, but we don't # know how to make a copy of this object safely: we know from # experience that the stock copy.copy method leads to grief # as many sub-objects within an option definition source can # not be copied that way (classes, for example). # The only action we can take is to trust and continue with the # original copy of the definition source. safe_copy_of_def_source = a_definition_source setup_definitions(safe_copy_of_def_source, self.option_definitions) if use_admin_controls: # the name of the config file needs to be loaded from the command # line prior to processing the rest of the command line options. config_filename = config_filename_from_commandline(self) if (config_filename and ConfigFileFutureProxy in values_source_list): self.option_definitions.admin.conf.default = config_filename self.values_source_list = wrap_with_value_source_api( values_source_list, self) known_keys = self._overlay_expand() self._check_for_mismatches(known_keys) # the app_name, app_version and app_description are to come from # if 'application' option if it is present. If it is not present, # get the app_name,et al, from parameters passed into the constructor. # if those are empty, set app_name, et al, to empty strings try: app_option = self._get_option('application') self.app_name = getattr(app_option.value, 'app_name', '') self.app_version = getattr(app_option.value, 'app_version', '') self.app_description = getattr(app_option.value, 'app_description', '') except NotAnOptionError: # there is no 'application' option, continue to use the # 'app_name' from the parameters passed in, if they exist. pass if use_auto_help and self._get_option('help').value: self.output_summary() admin_tasks_done = True if use_admin_controls and self._get_option('admin.print_conf').value: self.print_conf() admin_tasks_done = True if use_admin_controls and self._get_option('admin.dump_conf').value: self.dump_conf() admin_tasks_done = True if quit_after_admin and admin_tasks_done: sys.exit() #-------------------------------------------------------------------------- @contextlib.contextmanager def context(self, mapping_class=DotDictWithAcquisition): """return a config as a context that calls close on every item when it goes out of scope""" config = None try: config = self.get_config(mapping_class=mapping_class) yield config finally: if config: self._walk_and_close(config) #-------------------------------------------------------------------------- def get_config(self, mapping_class=DotDictWithAcquisition): config = self._generate_config(mapping_class) if self._aggregate(self.option_definitions, config, config): # state changed, must regenerate return self._generate_config(mapping_class) else: return config #-------------------------------------------------------------------------- def output_summary(self, output_stream=sys.stdout): """outputs a usage tip and the list of acceptable commands. This is useful as the output of the 'help' option. parameters: output_stream - an open file-like object suitable for use as the target of a print statement """ if self.app_name or self.app_description: print >> output_stream, 'Application:', if self.app_name: print >> output_stream, self.app_name, self.app_version if self.app_description: print >> output_stream, self.app_description if self.app_name or self.app_description: print >> output_stream, '' names_list = self.get_option_names() print >> output_stream, \ "usage:\n%s [OPTIONS]... " % self.app_invocation_name, bracket_count = 0 # this section prints the non-switch command line arguments for key in names_list: an_option = self.option_definitions[key] if an_option.is_argument: if an_option.default is None: # there's no option, assume the user must set this print >> output_stream, an_option.name, elif (inspect.isclass(an_option.value) or inspect.ismodule(an_option.value)): # this is already set and it could have expanded, most # likely this is a case where a sub-command has been # loaded and we're looking to show the help for it. # display show it as a constant already provided rather # than as an option the user must provide print >> output_stream, an_option.default, else: # this is an argument that the user may alternatively # provide print >> output_stream, "[ %s" % an_option.name, bracket_count += 1 print >> output_stream, ']' * bracket_count, '\n' names_list.sort() if names_list: print >> output_stream, 'OPTIONS:' pad = ' ' * 4 for name in names_list: if name in self.options_banned_from_help: continue option = self._get_option(name) line = ' ' * 2 # always start with 2 spaces if option.short_form: line += '-%s, ' % option.short_form line += '--%s' % name line += '\n' doc = option.doc if option.doc is not None else '' if doc: line += '%s%s\n' % (pad, doc) try: value = option.value type_of_value = type(value) converter_function = to_string_converters[type_of_value] default = converter_function(value) except KeyError: default = option.value if default is not None: if ((option.secret or 'password' in name.lower()) and not self. option_definitions.admin.expose_secrets.default): default = '*********' if name not in ('help', ): # don't bother with certain dead obvious ones line += '%s(default: %s)\n' % (pad, default) print >> output_stream, line #-------------------------------------------------------------------------- def print_conf(self): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" config_file_type = self._get_option('admin.print_conf').value @contextlib.contextmanager def stdout_opener(): yield sys.stdout skip_keys = [ k for (k, v) in self.option_definitions.iteritems() if isinstance(v, Option) and v.exclude_from_print_conf ] self.write_conf(config_file_type, stdout_opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def dump_conf(self, config_pathname=None): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" if not config_pathname: config_pathname = self._get_option('admin.dump_conf').value opener = functools.partial(open, config_pathname, 'w') config_file_type = os.path.splitext(config_pathname)[1][1:] skip_keys = [ k for (k, v) in self.option_definitions.iteritems() if isinstance(v, Option) and v.exclude_from_dump_conf ] self.write_conf(config_file_type, opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def write_conf(self, config_file_type, opener, skip_keys=None): """write a configuration file to a file-like object. parameters: config_file_type - a string containing a registered file type OR a for_XXX module from the value_source package. Passing in an string that is unregistered will result in a KeyError opener - a callable object or function that returns a file like object that works as a context in a with statement.""" blocked_keys = self.admin_controls_list if skip_keys: blocked_keys.extend(skip_keys) if blocked_keys: option_defs = self.option_definitions.safe_copy() for a_blocked_key in blocked_keys: try: del option_defs[a_blocked_key] except (AttributeError, KeyError): # okay that key isn't here pass # remove empty namespaces all_keys = [ k for k in option_defs.keys_breadth_first(include_dicts=True) ] for key in all_keys: candidate = option_defs[key] if (isinstance(candidate, Namespace) and not len(candidate)): del option_defs[key] else: option_defs = self.option_definitions # find all of the secret options and overwrite their values with '*' * 16 if not self.option_definitions.admin.expose_secrets.default: for a_key in option_defs.keys_breadth_first(): an_option = option_defs[a_key] if ((not a_key.startswith('admin')) and isinstance(an_option, Option) and an_option.secret): # force the option to be a string of * option_defs[a_key].value = '*' * 16 option_defs[a_key].from_string_converter = str dispatch_request_to_write(config_file_type, option_defs, opener) #-------------------------------------------------------------------------- def log_config(self, logger): """write out the current configuration to a log-like object. parameters: logger - a object that implements a method called 'info' with the same semantics as the call to 'logger.info'""" logger.info("app_name: %s", self.app_name) logger.info("app_version: %s", self.app_version) logger.info("current configuration:") config = [(key, self.option_definitions[key].value) for key in self.option_definitions.keys_breadth_first() if key not in self.admin_controls_list] config.sort() for key, val in config: if (self.option_definitions[key].secret or 'password' in key.lower()): logger.info('%s: *********', key) else: try: logger.info('%s: %s', key, to_string_converters[type(key)](val)) except KeyError: logger.info('%s: %s', key, val) #-------------------------------------------------------------------------- def get_option_names(self): """returns a list of fully qualified option names. returns: a list of strings representing the Options in the source Namespace list. Each item will be fully qualified with dot delimited Namespace names. """ return [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] #-------------------------------------------------------------------------- def _create_reference_value_from_links(self, keys, known_keys): """this method steps through the option definitions looking for alt paths. On finding one, it creates the 'reference_value_from' links within the option definitions and populates it with copied options.""" # a set of known reference_value_from_links set_of_reference_value_from_links = set() for key in (k for k in keys if k not in known_keys): an_option = self.option_definitions[key] if an_option.reference_value_from: reference_name = '.'.join( (an_option.reference_value_from, an_option.name)) if reference_name in self.option_definitions: continue # this referenced value has already been defined # no need to repeat it - skip on to the next key reference_option = an_option.copy() reference_option.reference_value_from = None reference_option.name = reference_name # wait, aren't we setting a fully qualified dotted name into # the name field? Yes, 'add_option' below sees that # full pathname and does the right thing with it to ensure # that the reference_option is created within the # correct namespace set_of_reference_value_from_links.add(reference_option.name) self.option_definitions.add_option(reference_option) for a_reference_value_from in set_of_reference_value_from_links: for x in range(a_reference_value_from.count('.')): namespace_path = a_reference_value_from.rsplit('.', x + 1)[0] self.option_definitions[namespace_path].ref_value_namespace() return set_of_reference_value_from_links #-------------------------------------------------------------------------- def _overlay_expand(self): """This method overlays each of the value sources onto the default in each of the defined options. It does so using a breadth first iteration, overlaying and expanding each level of the tree in turn. As soon as no changes were made to any level, the loop breaks and the work is done. The actual action of the overlay is to take the value from the source and copy into the 'default' member of each Option object. "expansion" means converting an option value into its real type from string. The conversion is accomplished by simply calling the 'set_value' method of the Option object. If the resultant type has its own configuration options, bring those into the current namespace and then proceed to overlay/expand those. """ new_keys_discovered = True # loop control, False breaks the loop known_keys = set() # a set of keys that have been expanded all_reference_values = {} while new_keys_discovered: # loop until nothing more is done # keys holds a list of all keys in the option definitons in # breadth first order using this form: [ 'x', 'y', 'z', 'x.a', # 'x.b', 'z.a', 'z.b', 'x.a.j', 'x.a.k', 'x.b.h'] keys = [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] new_keys_discovered = False # setup to break loop # create alternate paths options set_of_reference_value_from_links = \ self._create_reference_value_from_links( keys, known_keys ) for a_ref_value_key in set_of_reference_value_from_links: if a_ref_value_key not in all_reference_values: all_reference_values[a_ref_value_key] = [] all_keys = list(set_of_reference_value_from_links) + keys # overlay process: # fetch all the default values from the value sources before # applying the from string conversions # for key in (k for k in all_keys if k not in known_keys): #if not isinstance(an_option, Option): # continue # aggregations and other types are ignored # loop through all the value sources looking for values # that match this current key. if self.option_definitions[key].reference_value_from: reference_value_from = ( self.option_definitions[key].reference_value_from) top_key = key.split('.')[-1] self.option_definitions[key].default = ( self.option_definitions[reference_value_from] [top_key].default) all_reference_values['.'.join( (reference_value_from, top_key))].append(key) for a_value_source in self.values_source_list: try: # get all the option values from this value source val_src_dict = a_value_source.get_values( self, True, self.value_source_object_hook) # get the Option for this key opt = self.option_definitions[key] # overlay the default with the new value from # the value source. This assignment may come # via acquisition, so the key given may not have # been an exact match for what was returned. opt.has_changed = opt.default != val_src_dict[key] opt.default = val_src_dict[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid known_keys -= set(all_reference_values[key]) except KeyError, x: pass # okay, that source doesn't have this value # expansion process: # step through all the keys converting them to their proper # types and bringing in any new keys in the process for key in (k for k in all_keys if k not in known_keys): # mark this key as having been seen and processed known_keys.add(key) an_option = self.option_definitions[key] #if not isinstance(an_option, Option): # continue # aggregations, namespaces are ignored # apply the from string conversion to make the real value an_option.set_value(an_option.default) # new values have been seen, don't let loop break new_keys_discovered = True try: try: # try to fetch new requirements from this value new_req = an_option.value.get_required_config() except AttributeError: new_req = an_option.value.required_config # make sure what we got as new_req is actually a # Mapping of some sort if not isinstance(new_req, collections.Mapping): # we didn't get a mapping, perhaps the option value # was a Mock object - in any case we can't try to # interpret 'new_req' as a configman requirement # collection. We must abandon processing this # option further continue # get the parent namespace current_namespace = self.option_definitions.parent(key) if current_namespace is None: # we're at the top level, use the base namespace current_namespace = self.option_definitions if current_namespace._reference_value_from: # don't expand things that are in reference value # namespaces, they will be populated by expanding the # targets continue # some new Options to be brought in may have already been # seen and in the known_keys set. They must be marked # as unseen so that the new default doesn't overwrite any # of the overlays that have already taken place. known_keys = known_keys.difference( known_keys.intersection(new_req.keys())) # add the new Options to the namespace new_namespace = new_req.safe_copy( an_option.reference_value_from) for new_key in new_namespace.keys_breadth_first(): if new_key not in current_namespace: current_namespace[new_key] = new_namespace[new_key] except AttributeError, x: # there are apparently no new Options to bring in from # this option's value pass
class ConfigurationManager(object): #-------------------------------------------------------------------------- def __init__( self, definition_source=None, values_source_list=None, argv_source=None, #use_config_files=True, use_auto_help=True, use_admin_controls=True, quit_after_admin=True, options_banned_from_help=None, app_name='', app_version='', app_description='', config_pathname='.', config_optional=True, value_source_object_hook=DotDict, ): """create and initialize a configman object. parameters: definition_source - a namespace or list of namespaces from which configman is to fetch the definitions of the configuration parameters. values_source_list - (optional) a hierarchical list of sources for values for the configuration parameters. As values are copied from these sources, conficting values are resolved with sources on the right getting preference over sources on the left. argv_source - if the values_source_list contains a commandline source, this value is an alternative source for actual command line arguments. Useful for testing or preprocessing command line arguments. use_auto_help - set to True if configman is to automatically set up help output for command line invocations. use_admin_controls - configman can add command line flags that it interprets independently of the app defined arguments. True enables this capability, while, False supresses it. quit_after_admin - if True and admin controls are enabled and used, call sys.exit to end the app. This is useful to stop the app from running if all that was done was to write a config file or stop after help. options_banned_from_help - a list of strings that will censor the output of help to prevent specified options from being listed in the help output. This is useful for hiding debug or secret command line arguments. app_name - assigns a name to the app. This is used in help output and as a default basename for config files. app_version - assigns a version for the app used help output. app_description - assigns a description for the app to be used in the help output. config_pathname - a hard coded path to the directory of or the full path and name of the configuration file. config_optional - a boolean indicating if a missing default config file is optional. Note: this is only for the default config file. If a config file is specified on the commandline, it _must_ exist. value_source_object_hook - a class used for the internal representation of a value source. This is used to enable any special processing, like key translations. """ # instead of allowing mutables as default keyword argument values... if definition_source is None: definition_source_list = [] elif ( isinstance(definition_source, collections.Sequence) and not isinstance(definition_source, basestring) ): definition_source_list = list(definition_source) else: definition_source_list = [definition_source] if argv_source is None: self.argv_source = sys.argv[1:] self.app_invocation_name = sys.argv[0] else: self.argv_source = argv_source self.app_invocation_name = app_name if options_banned_from_help is None: options_banned_from_help = ['application'] self.config_pathname = config_pathname self.config_optional = config_optional self.value_source_object_hook = value_source_object_hook self.app_name = app_name self.app_version = app_version self.app_description = app_description self.args = [] # extra commandline arguments that are not switches # will be stored here. self._config = None # eventual container for DOM-like config object self.option_definitions = Namespace() self.definition_source_list = definition_source_list if values_source_list is None: # nothing set, assume defaults if use_admin_controls: values_source_list = ( ConfigFileFutureProxy, environment, command_line ) else: values_source_list = ( environment, command_line ) admin_tasks_done = False self.admin_controls_list = [ 'help', 'admin.conf', 'admin.dump_conf', 'admin.print_conf', 'admin.strict', 'admin.expose_secrets', ] self.options_banned_from_help = options_banned_from_help if use_auto_help: self._setup_auto_help() if use_admin_controls: admin_options = self._setup_admin_options(values_source_list) self.definition_source_list.append(admin_options) # iterate through the option definitions to create the nested dict # hierarchy of all the options called 'option_definitions' for a_definition_source in self.definition_source_list: try: safe_copy_of_def_source = a_definition_source.safe_copy() except AttributeError: # apparently, the definition source was not in the form of a # Namespace object. This isn't a show stopper, but we don't # know how to make a copy of this object safely: we know from # experience that the stock copy.copy method leads to grief # as many sub-objects within an option definition source can # not be copied that way (classes, for example). # The only action we can take is to trust and continue with the # original copy of the definition source. safe_copy_of_def_source = a_definition_source setup_definitions( safe_copy_of_def_source, self.option_definitions ) if use_admin_controls: # the name of the config file needs to be loaded from the command # line prior to processing the rest of the command line options. config_filename = config_filename_from_commandline(self) if ( config_filename and ConfigFileFutureProxy in values_source_list ): self.option_definitions.admin.conf.default = config_filename self.values_source_list = wrap_with_value_source_api( values_source_list, self ) known_keys = self._overlay_expand() self._check_for_mismatches(known_keys) # the app_name, app_version and app_description are to come from # if 'application' option if it is present. If it is not present, # get the app_name,et al, from parameters passed into the constructor. # if those are empty, set app_name, et al, to empty strings try: app_option = self._get_option('application') self.app_name = getattr(app_option.value, 'app_name', '') self.app_version = getattr(app_option.value, 'app_version', '') self.app_description = getattr( app_option.value, 'app_description', '' ) except NotAnOptionError: # there is no 'application' option, continue to use the # 'app_name' from the parameters passed in, if they exist. pass if use_auto_help and self._get_option('help').value: self.output_summary() admin_tasks_done = True if use_admin_controls and self._get_option('admin.print_conf').value: self.print_conf() admin_tasks_done = True if use_admin_controls and self._get_option('admin.dump_conf').value: self.dump_conf() admin_tasks_done = True if quit_after_admin and admin_tasks_done: sys.exit() #-------------------------------------------------------------------------- @contextlib.contextmanager def context(self, mapping_class=DotDictWithAcquisition): """return a config as a context that calls close on every item when it goes out of scope""" config = None try: config = self.get_config(mapping_class=mapping_class) yield config finally: if config: self._walk_and_close(config) #-------------------------------------------------------------------------- def get_config(self, mapping_class=DotDictWithAcquisition): config = self._generate_config(mapping_class) if self._aggregate(self.option_definitions, config, config): # state changed, must regenerate return self._generate_config(mapping_class) else: return config #-------------------------------------------------------------------------- def output_summary(self, output_stream=sys.stdout): """outputs a usage tip and the list of acceptable commands. This is useful as the output of the 'help' option. parameters: output_stream - an open file-like object suitable for use as the target of a print statement """ if self.app_name or self.app_description: print >> output_stream, 'Application:', if self.app_name: print >> output_stream, self.app_name, self.app_version if self.app_description: print >> output_stream, self.app_description if self.app_name or self.app_description: print >> output_stream, '' names_list = self.get_option_names() print >> output_stream, \ "usage:\n%s [OPTIONS]... " % self.app_invocation_name, bracket_count = 0 # this section prints the non-switch command line arguments for key in names_list: an_option = self.option_definitions[key] if an_option.is_argument: if an_option.default is None: # there's no option, assume the user must set this print >> output_stream, an_option.name, elif (inspect.isclass(an_option.value) or inspect.ismodule(an_option.value) ): # this is already set and it could have expanded, most # likely this is a case where a sub-command has been # loaded and we're looking to show the help for it. # display show it as a constant already provided rather # than as an option the user must provide print >> output_stream, an_option.default, else: # this is an argument that the user may alternatively # provide print >> output_stream, "[ %s" % an_option.name, bracket_count += 1 print >> output_stream, ']' * bracket_count, '\n' names_list.sort() if names_list: print >> output_stream, 'OPTIONS:' pad = ' ' * 4 for name in names_list: if name in self.options_banned_from_help: continue option = self._get_option(name) line = ' ' * 2 # always start with 2 spaces if option.short_form: line += '-%s, ' % option.short_form line += '--%s' % name line += '\n' doc = option.doc if option.doc is not None else '' if doc: line += '%s%s\n' % (pad, doc) try: value = option.value type_of_value = type(value) converter_function = to_string_converters[type_of_value] default = converter_function(value) except KeyError: default = option.value if default is not None: if ((option.secret or 'password' in name.lower()) and not self.option_definitions.admin.expose_secrets.default): default = '*********' if name not in ('help',): # don't bother with certain dead obvious ones line += '%s(default: %s)\n' % (pad, default) print >> output_stream, line #-------------------------------------------------------------------------- def print_conf(self): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" config_file_type = self._get_option('admin.print_conf').value @contextlib.contextmanager def stdout_opener(): yield sys.stdout skip_keys = [ k for (k, v) in self.option_definitions.iteritems() if isinstance(v, Option) and v.exclude_from_print_conf ] self.write_conf(config_file_type, stdout_opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def dump_conf(self, config_pathname=None): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" if not config_pathname: config_pathname = self._get_option('admin.dump_conf').value opener = functools.partial(open, config_pathname, 'w') config_file_type = os.path.splitext(config_pathname)[1][1:] skip_keys = [ k for (k, v) in self.option_definitions.iteritems() if isinstance(v, Option) and v.exclude_from_dump_conf ] self.write_conf(config_file_type, opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def write_conf(self, config_file_type, opener, skip_keys=None): """write a configuration file to a file-like object. parameters: config_file_type - a string containing a registered file type OR a for_XXX module from the value_source package. Passing in an string that is unregistered will result in a KeyError opener - a callable object or function that returns a file like object that works as a context in a with statement.""" blocked_keys = self.admin_controls_list if skip_keys: blocked_keys.extend(skip_keys) if blocked_keys: option_defs = self.option_definitions.safe_copy() for a_blocked_key in blocked_keys: try: del option_defs[a_blocked_key] except (AttributeError, KeyError): # okay that key isn't here pass # remove empty namespaces all_keys = [k for k in option_defs.keys_breadth_first(include_dicts=True)] for key in all_keys: candidate = option_defs[key] if (isinstance(candidate, Namespace) and not len(candidate)): del option_defs[key] else: option_defs = self.option_definitions # find all of the secret options and overwrite their values with '*' * 16 if not self.option_definitions.admin.expose_secrets.default: for a_key in option_defs.keys_breadth_first(): an_option = option_defs[a_key] if ((not a_key.startswith('admin')) and isinstance(an_option, Option) and an_option.secret ): # force the option to be a string of * option_defs[a_key].value = '*' * 16 option_defs[a_key].from_string_converter = str dispatch_request_to_write(config_file_type, option_defs, opener) #-------------------------------------------------------------------------- def log_config(self, logger): """write out the current configuration to a log-like object. parameters: logger - a object that implements a method called 'info' with the same semantics as the call to 'logger.info'""" logger.info("app_name: %s", self.app_name) logger.info("app_version: %s", self.app_version) logger.info("current configuration:") config = [(key, self.option_definitions[key].value) for key in self.option_definitions.keys_breadth_first() if key not in self.admin_controls_list] config.sort() for key, val in config: if ( self.option_definitions[key].secret or 'password' in key.lower() ): logger.info('%s: *********', key) else: try: logger.info('%s: %s', key, to_string_converters[type(key)](val)) except KeyError: logger.info('%s: %s', key, val) #-------------------------------------------------------------------------- def get_option_names(self): """returns a list of fully qualified option names. returns: a list of strings representing the Options in the source Namespace list. Each item will be fully qualified with dot delimited Namespace names. """ return [x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option)] #-------------------------------------------------------------------------- def _create_reference_value_from_links(self, keys, known_keys): """this method steps through the option definitions looking for alt paths. On finding one, it creates the 'reference_value_from' links within the option definitions and populates it with copied options.""" # a set of known reference_value_from_links set_of_reference_value_from_links = set() for key in (k for k in keys if k not in known_keys): an_option = self.option_definitions[key] if an_option.reference_value_from: reference_name = '.'.join(( an_option.reference_value_from, an_option.name )) if reference_name in self.option_definitions: continue # this referenced value has already been defined # no need to repeat it - skip on to the next key reference_option = an_option.copy() reference_option.reference_value_from = None reference_option.name = reference_name # wait, aren't we setting a fully qualified dotted name into # the name field? Yes, 'add_option' below sees that # full pathname and does the right thing with it to ensure # that the reference_option is created within the # correct namespace set_of_reference_value_from_links.add(reference_option.name) self.option_definitions.add_option(reference_option) for a_reference_value_from in set_of_reference_value_from_links: for x in range(a_reference_value_from.count('.')): namespace_path = a_reference_value_from.rsplit('.', x + 1)[0] self.option_definitions[namespace_path].ref_value_namespace() return set_of_reference_value_from_links #-------------------------------------------------------------------------- def _overlay_expand(self): """This method overlays each of the value sources onto the default in each of the defined options. It does so using a breadth first iteration, overlaying and expanding each level of the tree in turn. As soon as no changes were made to any level, the loop breaks and the work is done. The actual action of the overlay is to take the value from the source and copy into the 'default' member of each Option object. "expansion" means converting an option value into its real type from string. The conversion is accomplished by simply calling the 'set_value' method of the Option object. If the resultant type has its own configuration options, bring those into the current namespace and then proceed to overlay/expand those. """ new_keys_discovered = True # loop control, False breaks the loop known_keys = set() # a set of keys that have been expanded all_reference_values = {} while new_keys_discovered: # loop until nothing more is done # keys holds a list of all keys in the option definitons in # breadth first order using this form: [ 'x', 'y', 'z', 'x.a', # 'x.b', 'z.a', 'z.b', 'x.a.j', 'x.a.k', 'x.b.h'] keys = [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] new_keys_discovered = False # setup to break loop # create alternate paths options set_of_reference_value_from_links = \ self._create_reference_value_from_links( keys, known_keys ) for a_ref_value_key in set_of_reference_value_from_links: if a_ref_value_key not in all_reference_values: all_reference_values[a_ref_value_key] = [] all_keys = list(set_of_reference_value_from_links) + keys # overlay process: # fetch all the default values from the value sources before # applying the from string conversions # for key in (k for k in all_keys if k not in known_keys): #if not isinstance(an_option, Option): # continue # aggregations and other types are ignored # loop through all the value sources looking for values # that match this current key. if self.option_definitions[key].reference_value_from: reference_value_from = ( self.option_definitions[key].reference_value_from ) top_key = key.split('.')[-1] self.option_definitions[key].default = ( self.option_definitions[reference_value_from] [top_key].default ) all_reference_values[ '.'.join((reference_value_from, top_key)) ].append( key ) for a_value_source in self.values_source_list: try: # get all the option values from this value source val_src_dict = a_value_source.get_values( self, True, self.value_source_object_hook ) # get the Option for this key opt = self.option_definitions[key] # overlay the default with the new value from # the value source. This assignment may come # via acquisition, so the key given may not have # been an exact match for what was returned. opt.has_changed = opt.default != val_src_dict[key] opt.default = val_src_dict[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid known_keys -= set(all_reference_values[key]) except KeyError, x: pass # okay, that source doesn't have this value # expansion process: # step through all the keys converting them to their proper # types and bringing in any new keys in the process for key in (k for k in all_keys if k not in known_keys): # mark this key as having been seen and processed known_keys.add(key) an_option = self.option_definitions[key] #if not isinstance(an_option, Option): # continue # aggregations, namespaces are ignored # apply the from string conversion to make the real value an_option.set_value(an_option.default) # new values have been seen, don't let loop break new_keys_discovered = True try: try: # try to fetch new requirements from this value new_requirements = \ an_option.value.get_required_config() except AttributeError: new_requirements = an_option.value.required_config # make sure what we got as new_req is actually a # Mapping of some sort if not isinstance(new_requirements, collections.Mapping): # we didn't get a mapping, perhaps the option value # was a Mock object - in any case we can't try to # interpret 'new_req' as a configman requirement # collection. We must abandon processing this # option further continue if not isinstance(new_requirements, Namespace): new_requirements = Namespace( initializer=new_requirements ) # get the parent namespace current_namespace = self.option_definitions.parent(key) if current_namespace is None: # we're at the top level, use the base namespace current_namespace = self.option_definitions if current_namespace._reference_value_from: # don't expand things that are in reference value # namespaces, they will be populated by expanding the # targets continue # some new Options to be brought in may have already been # seen and in the known_keys set. They must be marked # as unseen so that the new default doesn't overwrite any # of the overlays that have already taken place. known_keys = known_keys.difference( known_keys.intersection(new_requirements.keys()) ) # add the new Options to the namespace new_namespace = new_requirements.safe_copy( an_option.reference_value_from ) for new_key in new_namespace.keys_breadth_first(): if new_key not in current_namespace: current_namespace[new_key] = new_namespace[new_key] except AttributeError, x: # there are apparently no new Options to bring in from # this option's value pass
class ConfigurationManager(object): #-------------------------------------------------------------------------- def __init__( self, definition_source=None, values_source_list=None, argv_source=None, #use_config_files=True, use_auto_help=True, use_admin_controls=True, quit_after_admin=True, options_banned_from_help=None, app_name='', app_version='', app_description='', config_pathname='.', config_optional=True, value_source_object_hook=DotDict, ): """create and initialize a configman object. parameters: definition_source - a namespace or list of namespaces from which configman is to fetch the definitions of the configuration parameters. values_source_list - (optional) a hierarchical list of sources for values for the configuration parameters. As values are copied from these sources, conficting values are resolved with sources on the right getting preference over sources on the left. argv_source - if the values_source_list contains a commandline source, this value is an alternative source for actual command line arguments. Useful for testing or preprocessing command line arguments. use_auto_help - set to True if configman is to automatically set up help output for command line invocations. use_admin_controls - configman can add command line flags that it interprets independently of the app defined arguments. True enables this capability, while, False supresses it. quit_after_admin - if True and admin controls are enabled and used, call sys.exit to end the app. This is useful to stop the app from running if all that was done was to write a config file or stop after help. options_banned_from_help - a list of strings that will censor the output of help to prevent specified options from being listed in the help output. This is useful for hiding debug or secret command line arguments. app_name - assigns a name to the app. This is used in help output and as a default basename for config files. app_version - assigns a version for the app used help output. app_description - assigns a description for the app to be used in the help output. config_pathname - a hard coded path to the directory of or the full path and name of the configuration file. config_optional - a boolean indicating if a missing default config file is optional. Note: this is only for the default config file. If a config file is specified on the commandline, it _must_ exist. value_source_object_hook - a class used for the internal representation of a value source. This is used to enable any special processing, like key translations. """ # instead of allowing mutables as default keyword argument values... if definition_source is None: definition_source_list = [] elif ( isinstance(definition_source, collections.Sequence) and not isinstance(definition_source, (six.binary_type, six.text_type)) ): definition_source_list = list(definition_source) else: if isinstance(definition_source, (six.binary_type, six.text_type)): definition_source = to_str(definition_source) definition_source_list = [definition_source] if argv_source is None: self.argv_source = sys.argv[1:] self.app_invocation_name = sys.argv[0] else: self.argv_source = argv_source self.app_invocation_name = app_name if options_banned_from_help is None: options_banned_from_help = ['application'] self.config_pathname = config_pathname self.config_optional = config_optional self.use_auto_help = use_auto_help self.value_source_object_hook = value_source_object_hook self.app_name = app_name self.app_version = app_version self.app_description = app_description self.args = [] # extra commandline arguments that are not switches # will be stored here. self._config = None # eventual container for DOM-like config object self.option_definitions = Namespace() self.definition_source_list = definition_source_list command_line_value_source = command_line if values_source_list is None: # nothing set, assume defaults if use_admin_controls: values_source_list = ( ConfigFileFutureProxy, environment, command_line_value_source ) else: values_source_list = ( environment, command_line_value_source ) # determine which command_line facility to use for help if self.use_auto_help: # we need to iterate through all of our value sources looking for # one that can interact with the user on the commandline. for a_value_source in values_source_list: if inspect.ismodule(a_value_source): handler = \ type_handler_dispatch[a_value_source][0].ValueSource try: # if a value source is able to handle the command line # it will have defined 'command_line_value_source' as # true. Not all values sources may have this attribute if handler.command_line_value_source: handler._setup_auto_help(self) break except AttributeError: # not a commandline source because it doesn't have # the 'command_line_value_source' OR it doesn't have # a method that allows it to setup a help system. # this is OK, we can ignore it and move on until we # find an appropriate source. pass else: # While not actually necessary to have implemented, this # is the case where the value source is not a module. # So we know nothing about its interface. We cannot even # try to use it as a commandline value source. pass admin_tasks_done = False self.keys_blocked_from_output = [ 'help', 'admin.conf', 'admin.dump_conf', 'admin.print_conf', 'admin.strict', 'admin.expose_secrets', ] self.options_banned_from_help = options_banned_from_help if use_admin_controls: admin_options = self._setup_admin_options(values_source_list) self.definition_source_list.append(admin_options) # iterate through the option definitions to create the nested dict # hierarchy of all the options called 'option_definitions' for a_definition_source in self.definition_source_list: try: safe_copy_of_def_source = a_definition_source.safe_copy() except AttributeError: # apparently, the definition source was not in the form of a # Namespace object. This isn't a show stopper, but we don't # know how to make a copy of this object safely: we know from # experience that the stock copy.copy method leads to grief # as many sub-objects within an option definition source can # not be copied that way (classes, for example). # The only action we can take is to trust and continue with the # original copy of the definition source. safe_copy_of_def_source = a_definition_source setup_definitions( safe_copy_of_def_source, self.option_definitions ) if use_admin_controls: # the name of the config file needs to be loaded from the command # line prior to processing the rest of the command line options. config_filename = config_filename_from_commandline(self) if ( config_filename and ConfigFileFutureProxy in values_source_list ): self.option_definitions.admin.conf.default = config_filename self.values_source_list = wrap_with_value_source_api( values_source_list, self ) known_keys = self._overlay_expand() self._check_for_mismatches(known_keys) # the app_name, app_version and app_description are to come from # if 'application' option if it is present. If it is not present, # get the app_name,et al, from parameters passed into the constructor. # if those are empty, set app_name, et al, to empty strings try: app_option = self._get_option('application') self.app_name = getattr(app_option.value, 'app_name', '') self.app_version = getattr(app_option.value, 'app_version', '') self.app_description = getattr( app_option.value, 'app_description', '' ) except NotAnOptionError: # there is no 'application' option, continue to use the # 'app_name' from the parameters passed in, if they exist. pass try: if use_auto_help and self._get_option('help').value: self.output_summary() admin_tasks_done = True except NotAnOptionError: # the current command-line implementation already has a help # mechanism of its own that doesn't require the use of a # option in configman. This error is ignorable pass # keys that end with a "$" are called "blocked_by_suffix". # This means that these options are not to be written out to # configuration files. keys_blocked_by_suffix = [ key for key in self.option_definitions.keys_breadth_first() if key.endswith('$') ] self.keys_blocked_from_output.extend(keys_blocked_by_suffix) if use_admin_controls and self._get_option('admin.print_conf').value: self.print_conf() admin_tasks_done = True if use_admin_controls and self._get_option('admin.dump_conf').value: self.dump_conf() admin_tasks_done = True if quit_after_admin and admin_tasks_done: sys.exit() #-------------------------------------------------------------------------- @contextlib.contextmanager def context(self, mapping_class=DotDictWithAcquisition): """return a config as a context that calls close on every item when it goes out of scope""" config = None try: config = self.get_config(mapping_class=mapping_class) yield config finally: if config: self._walk_and_close(config) #-------------------------------------------------------------------------- def get_config(self, mapping_class=DotDictWithAcquisition): config = self._generate_config(mapping_class) if self._aggregate(self.option_definitions, config, config): # state changed, must regenerate return self._generate_config(mapping_class) else: return config #-------------------------------------------------------------------------- def output_summary(self, output_stream=sys.stdout): """outputs a usage tip and the list of acceptable commands. This is useful as the output of the 'help' option. parameters: output_stream - an open file-like object suitable for use as the target of a print function """ if self.app_name or self.app_description: print('Application: ', end='', file=output_stream) if self.app_name: print(self.app_name, self.app_version, file=output_stream) if self.app_description: print(self.app_description, file=output_stream) if self.app_name or self.app_description: print('', file=output_stream) names_list = self.get_option_names() print( "usage:\n%s [OPTIONS]... " % self.app_invocation_name, end='', file=output_stream ) bracket_count = 0 # this section prints the non-switch command line arguments for key in names_list: an_option = self.option_definitions[key] if an_option.is_argument: if an_option.default is None: # there's no option, assume the user must set this print(an_option.name, end='', file=output_stream) elif ( inspect.isclass(an_option.value) or inspect.ismodule(an_option.value) ): # this is already set and it could have expanded, most # likely this is a case where a sub-command has been # loaded and we're looking to show the help for it. # display show it as a constant already provided rather # than as an option the user must provide print(an_option.default, end='', file=output_stream) else: # this is an argument that the user may alternatively # provide print("[ %s" % an_option.name, end='', file=output_stream) bracket_count += 1 print(']' * bracket_count, '\n', file=output_stream) names_list.sort() if names_list: print('OPTIONS:', file=output_stream) pad = ' ' * 4 for name in names_list: if name in self.options_banned_from_help: continue option = self._get_option(name) line = ' ' * 2 # always start with 2 spaces if option.short_form: line += '-%s, ' % option.short_form line += '--%s' % name line += '\n' doc = option.doc if option.doc is not None else '' if doc: line += '%s%s\n' % (pad, doc) try: value = option.value type_of_value = type(value) converter_function = to_string_converters[type_of_value] default = converter_function(value) except KeyError: default = option.value if default is not None: if ( (option.secret or 'password' in name.lower()) and not self.option_definitions.admin.expose_secrets.default ): default = '*********' if name not in ('help',): # don't bother with certain dead obvious ones line += '%s(default: %s)\n' % (pad, default) print(line, file=output_stream) #-------------------------------------------------------------------------- def print_conf(self): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" config_file_type = self._get_option('admin.print_conf').value @contextlib.contextmanager def stdout_opener(): yield sys.stdout skip_keys = [ k for (k, v) in six.iteritems(self.option_definitions) if isinstance(v, Option) and v.exclude_from_print_conf ] self.write_conf(config_file_type, stdout_opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def dump_conf(self, config_pathname=None): """write a config file to the pathname specified in the parameter. The file extention determines the type of file written and must match a registered type. parameters: config_pathname - the full path and filename of the target config file.""" if not config_pathname: config_pathname = self._get_option('admin.dump_conf').value opener = functools.partial(open, config_pathname, 'w') config_file_type = os.path.splitext(config_pathname)[1][1:] skip_keys = [ k for (k, v) in six.iteritems(self.option_definitions) if isinstance(v, Option) and v.exclude_from_dump_conf ] self.write_conf(config_file_type, opener, skip_keys=skip_keys) #-------------------------------------------------------------------------- def write_conf(self, config_file_type, opener, skip_keys=None): """write a configuration file to a file-like object. parameters: config_file_type - a string containing a registered file type OR a for_XXX module from the value_source package. Passing in an string that is unregistered will result in a KeyError opener - a callable object or function that returns a file like object that works as a context in a with statement.""" blocked_keys = self.keys_blocked_from_output if skip_keys: blocked_keys.extend(skip_keys) if blocked_keys: option_defs = self.option_definitions.safe_copy() for a_blocked_key in blocked_keys: try: del option_defs[a_blocked_key] except (AttributeError, KeyError): # okay that key isn't here pass # remove empty namespaces all_keys = [k for k in option_defs.keys_breadth_first(include_dicts=True)] for key in all_keys: candidate = option_defs[key] if (isinstance(candidate, Namespace) and not len(candidate)): del option_defs[key] else: option_defs = self.option_definitions # find all of the secret options and overwrite their values with # '*' * 16 if not self.option_definitions.admin.expose_secrets.default: for a_key in option_defs.keys_breadth_first(): an_option = option_defs[a_key] if ( (not a_key.startswith('admin')) and isinstance(an_option, Option) and an_option.secret ): # force the option to be a string of * option_defs[a_key].value = '*' * 16 option_defs[a_key].from_string_converter = str dispatch_request_to_write(config_file_type, option_defs, opener) #-------------------------------------------------------------------------- def log_config(self, logger): """write out the current configuration to a log-like object. parameters: logger - a object that implements a method called 'info' with the same semantics as the call to 'logger.info'""" logger.info("app_name: %s", self.app_name) logger.info("app_version: %s", self.app_version) logger.info("current configuration:") config = [(key, self.option_definitions[key].value) for key in self.option_definitions.keys_breadth_first() if key not in self.keys_blocked_from_output] config.sort() for key, val in config: if ( self.option_definitions[key].secret or 'password' in key.lower() ): logger.info('%s: *********', key) else: try: logger.info('%s: %s', key, to_string_converters[type(key)](val)) except KeyError: logger.info('%s: %s', key, val) #-------------------------------------------------------------------------- def get_option_names(self): """returns a list of fully qualified option names. returns: a list of strings representing the Options in the source Namespace list. Each item will be fully qualified with dot delimited Namespace names. """ return [x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option)] #-------------------------------------------------------------------------- def _create_reference_value_options(self, keys, finished_keys): """this method steps through the option definitions looking for alt paths. On finding one, it creates the 'reference_value_from' links within the option definitions and populates it with copied options.""" # a set of known reference_value_from_links set_of_reference_value_option_names = set() for key in keys: if key in finished_keys: continue an_option = self.option_definitions[key] if an_option.reference_value_from: fully_qualified_reference_name = '.'.join(( an_option.reference_value_from, an_option.name )) if fully_qualified_reference_name in keys: continue # this referenced value has already been defined # no need to repeat it - skip on to the next key reference_option = an_option.copy() reference_option.reference_value_from = None reference_option.name = fully_qualified_reference_name # wait, aren't we setting a fully qualified dotted name into # the name field? Yes, 'add_option' below sees that # full pathname and does the right thing with it to ensure # that the reference_option is created within the # correct namespace set_of_reference_value_option_names.add( fully_qualified_reference_name ) self.option_definitions.add_option(reference_option) for a_reference_value_option_name in set_of_reference_value_option_names: for x in range(a_reference_value_option_name.count('.')): namespace_path = \ a_reference_value_option_name.rsplit('.', x + 1)[0] self.option_definitions[namespace_path].ref_value_namespace() return set_of_reference_value_option_names #-------------------------------------------------------------------------- def _overlay_expand(self): """This method overlays each of the value sources onto the default in each of the defined options. It does so using a breadth first iteration, overlaying and expanding each level of the tree in turn. As soon as no changes were made to any level, the loop breaks and the work is done. The actual action of the overlay is to take the value from the source and copy into the 'default' member of each Option object. "expansion" means converting an option value into its real type from string. The conversion is accomplished by simply calling the 'set_value' method of the Option object. If the resultant type has its own configuration options, bring those into the current namespace and then proceed to overlay/expand those. """ new_keys_have_been_discovered = True # loop control, False breaks loop finished_keys = set() all_reference_values = {} while new_keys_have_been_discovered: # loop until nothing more is done # names_of_all_exsting_options holds a list of all keys in the # option definitons in breadth first order using this form: # [ 'x', 'y', 'z', 'x.a', 'x.b', 'z.a', 'z.b', 'x.a.j', 'x.a.k', # 'x.b.h'] names_of_all_exsting_options = [ x for x in self.option_definitions.keys_breadth_first() if isinstance(self.option_definitions[x], Option) ] new_keys_have_been_discovered = False # setup to break loop # create alternate paths options set_of_reference_value_option_names = \ self._create_reference_value_options( names_of_all_exsting_options, finished_keys ) for a_ref_option_name in set_of_reference_value_option_names: if a_ref_option_name not in all_reference_values: all_reference_values[a_ref_option_name] = [] all_keys = list(set_of_reference_value_option_names) \ + names_of_all_exsting_options # previous versions of this method pulled the values from the # values sources deeper within the following nested loops. # that was not necessary and caused a lot of redundant work. # the 'values_from_all_sources' now holds all the the values # from each of the value sources. values_from_all_sources = [ a_value_source.get_values( self, # pass in the config_manager itself True, # ignore mismatches self.value_source_object_hook # build with this class ) for a_value_source in self.values_source_list ] # overlay process: # fetch all the default values from the value sources before # applying the from string conversions for key in all_keys: if key in finished_keys: continue #if not isinstance(an_option, Option): # continue # aggregations and other types are ignored # loop through all the value sources looking for values # that match this current key. if self.option_definitions[key].reference_value_from: reference_value_from = ( self.option_definitions[key].reference_value_from ) top_key = key.split('.')[-1] self.option_definitions[key].default = ( self.option_definitions[reference_value_from] [top_key].default ) all_reference_values[ '.'.join((reference_value_from, top_key)) ].append( key ) an_option = self.option_definitions[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid finished_keys -= set( all_reference_values[key] ) for val_src_dict in values_from_all_sources: try: # overlay the default with the new value from # the value source. This assignment may come # via acquisition, so the key given may not have # been an exact match for what was returned. an_option.has_changed = ( an_option.default != val_src_dict[key] ) an_option.default = val_src_dict[key] if key in all_reference_values: # make sure that this value gets propagated to keys # even if the keys have already been overlaid finished_keys -= set( all_reference_values[key] ) except KeyError as x: pass # okay, that source doesn't have this value # expansion process: # step through all the keys converting them to their proper # types and bringing in any new keys in the process for key in all_keys: if key in finished_keys: continue # mark this key as having been seen and processed finished_keys.add(key) an_option = self.option_definitions[key] #if not isinstance(an_option, Option): # continue # aggregations, namespaces are ignored # apply the from string conversion to make the real value an_option.set_value(an_option.default) # new values have been seen, don't let loop break new_keys_have_been_discovered = True try: try: # try to fetch new requirements from this value new_requirements = \ an_option.value.get_required_config() except (AttributeError, KeyError): new_requirements = getattr( an_option.value, 'required_config', None ) # make sure what we got as new_req is actually a # Mapping of some sort if not isinstance(new_requirements, collections.Mapping): # we didn't get a mapping, perhaps the option value # was a Mock object - in any case we can't try to # interpret 'new_req' as a configman requirement # collection. We must abandon processing this # option further continue if not isinstance(new_requirements, Namespace): new_requirements = Namespace( initializer=new_requirements ) # get the parent namespace current_namespace = self.option_definitions.parent(key) if current_namespace is None: # we're at the top level, use the base namespace current_namespace = self.option_definitions if current_namespace._reference_value_from: # don't expand things that are in reference value # namespaces, they will be populated by expanding the # targets continue # some new Options to be brought in may have already been # seen and in the finished_keys set. They must be reset # as unfinished so that a new default doesn't permanently # overwrite any of the values already placed by the # overlays. So we've got to remove those keys from the # finished keys list. # Before we can do that however, we need the fully # qualified names for the new keys. qualified_parent_name_list = key.rsplit('.', 1) if len(qualified_parent_name_list) > 1: qualified_parent_name = qualified_parent_name_list[0] else: qualified_parent_name = '' finished_keys = finished_keys.difference( '.'.join((qualified_parent_name, ref_option_name)) for ref_option_name in new_requirements ) # add the new Options to the namespace new_namespace = new_requirements.safe_copy( an_option.reference_value_from ) for new_key in new_namespace.keys_breadth_first(): if new_key not in current_namespace: current_namespace[new_key] = new_namespace[new_key] except AttributeError as x: # there are apparently no new Options to bring in from # this option's value pass return finished_keys #-------------------------------------------------------------------------- def _check_for_mismatches(self, known_keys): """check for bad options from value sources""" for a_value_source in self.values_source_list: try: if a_value_source.always_ignore_mismatches: continue except AttributeError: # ok, this values source doesn't have the concept # always igoring mismatches, we won't tolerate mismatches pass # we want to fetch the keys from the value sources so that we can # check for mismatches. Commandline value sources, are different, # we never want to allow unmatched keys from the command line. # By detecting if this value source is a command line source, we # can employ the command line's own mismatch detection. The # boolean 'allow_mismatches' controls application of the tollerance # for mismatches. if hasattr(a_value_source, 'command_line_value_source'): allow_mismatches = False else: allow_mismatches = True # make a set of all the keys from a value source in the form # of strings like this: 'x.y.z' value_source_mapping = a_value_source.get_values( self, allow_mismatches, self.value_source_object_hook ) value_source_keys_set = set([ k for k in DotDict(value_source_mapping).keys_breadth_first() ]) # make a set of the keys that didn't match any of the known # keys in the requirements unmatched_keys = value_source_keys_set.difference(known_keys) # some of the unmatched keys may actually be ok because the were # used during acquisition. # remove keys of the form 'y.z' if they match a known key of the # form 'x.y.z' for key in unmatched_keys.copy(): key_is_okay = six.moves.reduce( lambda x, y: x or y, (known_key.endswith(key) for known_key in known_keys) ) if key_is_okay: unmatched_keys.remove(key) # anything left in the unmatched_key set is a badly formed key. # issue a warning if unmatched_keys: if self.option_definitions.admin.strict.default: # raise hell... if len(unmatched_keys) > 1: raise NotAnOptionError( "%s are not valid Options" % unmatched_keys ) elif len(unmatched_keys) == 1: raise NotAnOptionError( "%s is not a valid Option" % unmatched_keys.pop() ) else: warnings.warn( 'Invalid options: %s' % ', '.join(sorted(unmatched_keys)) ) #-------------------------------------------------------------------------- @staticmethod def _walk_and_close(a_dict): for val in six.itervalues(a_dict): if isinstance(val, collections.Mapping): ConfigurationManager._walk_and_close(val) try: if hasattr(val, 'close') and not inspect.isclass(val): val.close() except KeyError: # py3 will sometimes hit KeyError from the hasattr() pass #-------------------------------------------------------------------------- def _generate_config(self, mapping_class): """This routine generates a copy of the DotDict based config""" config = mapping_class() self._walk_config_copy_values( self.option_definitions, config, mapping_class ) return config #-------------------------------------------------------------------------- def _setup_auto_help(self): help_option = Option(name='help', doc='print this', default=False) self.definition_source_list.append({'help': help_option}) #-------------------------------------------------------------------------- def _get_config_pathname(self): if os.path.isdir(self.config_pathname): # we've got a path with no file name at the end # use the appname as the file name and default to an 'ini' # config file type if self.app_name: return os.path.join( self.config_pathname, '%s.ini' % self.app_name ) else: # there is no app_name yet # we'll decline to return anything return None return self.config_pathname #-------------------------------------------------------------------------- def _setup_admin_options(self, values_source_list): base_namespace = Namespace() base_namespace.admin = admin = Namespace() admin.add_option( name='print_conf', default=None, doc='write current config to stdout (%s)' % ', '.join(file_extension_dispatch.keys()) ) admin.add_option( name='dump_conf', default='', doc='a pathname to which to write the current config', ) admin.add_option( name='strict', default=False, doc='mismatched options generate exceptions rather' ' than just warnings' ) admin.add_option( name='expose_secrets', default=False, doc='should options marked secret get written out or hidden?' ) # only offer the config file admin options if they've been requested in # the values source list if ConfigFileFutureProxy in values_source_list: default_config_pathname = self._get_config_pathname() admin.add_option( name='conf', default=default_config_pathname, doc='the pathname of the config file (path/filename)', ) return base_namespace #-------------------------------------------------------------------------- def _walk_config_copy_values(self, source, destination, mapping_class): for key, val in source.items(): if key.endswith('$'): continue value_type = type(val) if isinstance(val, Option) or isinstance(val, Aggregation): destination[key] = val.value elif value_type == Namespace: destination[key] = d = mapping_class() self._walk_config_copy_values(val, d, mapping_class) #-------------------------------------------------------------------------- def _aggregate(self, source, base_namespace, local_namespace): aggregates_found = False for key, val in source.items(): if isinstance(val, Namespace): new_aggregates_found = self._aggregate( val, base_namespace, local_namespace[key] ) aggregates_found = new_aggregates_found or aggregates_found elif isinstance(val, Aggregation): val.aggregate(base_namespace, local_namespace, self.args) aggregates_found = True # skip Options, we're only dealing with Aggregations return aggregates_found #-------------------------------------------------------------------------- @staticmethod def _option_sort(x_tuple): key, val = x_tuple if isinstance(val, Namespace): return 'zzzzzzzzzzz%s' % key else: return key #-------------------------------------------------------------------------- def _get_option(self, name): try: return self.option_definitions[name] except KeyError: raise NotAnOptionError('%s is not a known option name' % name) #-------------------------------------------------------------------------- def _get_options(self, source=None, options=None, prefix=''): return [ (key, self.option_definitions[key]) for key in self.option_definitions.keys_breadth_first() ]