# -*- coding: utf-8 -*- # # Copyright (C) 2019 Chris Caron # All rights reserved. # # This code is licensed under the MIT License. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files(the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and / or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions : # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. import six import re import copy from os import listdir from os.path import dirname from os.path import abspath # Used for testing from . import NotifyEmail as NotifyEmailBase from .NotifyGrowl import gntp from .NotifyXMPP import SleekXmppAdapter # NotifyBase object is passed in as a module not class from . import NotifyBase from ..common import NotifyImageSize from ..common import NOTIFY_IMAGE_SIZES from ..common import NotifyType from ..common import NOTIFY_TYPES from ..utils import parse_list from ..utils import GET_SCHEMA_RE from ..AppriseLocale import gettext_lazy as _ from ..AppriseLocale import LazyTranslation # Maintains a mapping of all of the Notification services SCHEMA_MAP = {} __all__ = [ # Reference 'NotifyImageSize', 'NOTIFY_IMAGE_SIZES', 'NotifyType', 'NOTIFY_TYPES', 'NotifyBase', # NotifyEmail Base Module (used for NotifyEmail testing) 'NotifyEmailBase', # Tokenizer 'url_to_dict', # gntp (used for NotifyGrowl Testing) 'gntp', # sleekxmpp access points (used for NotifyXMPP Testing) 'SleekXmppAdapter', ] # we mirror our base purely for the ability to reset everything; this # is generally only used in testing and should not be used by developers MODULE_MAP = {} # Load our Lookup Matrix def __load_matrix(path=abspath(dirname(__file__)), name='apprise.plugins'): """ Dynamically load our schema map; this allows us to gracefully skip over modules we simply don't have the dependencies for. """ # Used for the detection of additional Notify Services objects # The .py extension is optional as we support loading directories too module_re = re.compile(r'^(?PNotify[a-z0-9]+)(\.py)?$', re.I) for f in listdir(path): match = module_re.match(f) if not match: # keep going continue # Store our notification/plugin name: plugin_name = match.group('name') try: module = __import__( '{}.{}'.format(name, plugin_name), globals(), locals(), fromlist=[plugin_name]) except ImportError: # No problem, we can't use this object continue if not hasattr(module, plugin_name): # Not a library we can load as it doesn't follow the simple rule # that the class must bear the same name as the notification # file itself. continue # Get our plugin plugin = getattr(module, plugin_name) if not hasattr(plugin, 'app_id'): # Filter out non-notification modules continue elif plugin_name in MODULE_MAP: # we're already handling this object continue # Add our plugin name to our module map MODULE_MAP[plugin_name] = { 'plugin': plugin, 'module': module, } # Add our module name to our __all__ __all__.append(plugin_name) # Load our module into memory so it's accessible to all globals()[plugin_name] = plugin # Load protocol(s) if defined proto = getattr(plugin, 'protocol', None) if isinstance(proto, six.string_types): if proto not in SCHEMA_MAP: SCHEMA_MAP[proto] = plugin elif isinstance(proto, (set, list, tuple)): # Support iterables list types for p in proto: if p not in SCHEMA_MAP: SCHEMA_MAP[p] = plugin # Load secure protocol(s) if defined protos = getattr(plugin, 'secure_protocol', None) if isinstance(protos, six.string_types): if protos not in SCHEMA_MAP: SCHEMA_MAP[protos] = plugin if isinstance(protos, (set, list, tuple)): # Support iterables list types for p in protos: if p not in SCHEMA_MAP: SCHEMA_MAP[p] = plugin return SCHEMA_MAP # Reset our Lookup Matrix def __reset_matrix(): """ Restores the Lookup matrix to it's base setting. This is only used through testing and should not be directly called. """ # Reset our schema map SCHEMA_MAP.clear() # Iterate over our module map so we can clear out our __all__ and globals for plugin_name in MODULE_MAP.keys(): # Clear out globals del globals()[plugin_name] # Remove element from plugins __all__.remove(plugin_name) # Clear out our module map MODULE_MAP.clear() # Dynamically build our schema base __load_matrix() def _sanitize_token(tokens, default_delimiter): """ This is called by the details() function and santizes the output by populating expected and consistent arguments if they weren't otherwise specified. """ # Iterate over our tokens for key in tokens.keys(): for element in tokens[key].keys(): # Perform translations (if detected to do so) if isinstance(tokens[key][element], LazyTranslation): tokens[key][element] = str(tokens[key][element]) if 'alias_of' in tokens[key]: # Do not touch this field continue if 'map_to' not in tokens[key]: # Default type to key tokens[key]['map_to'] = key if 'type' not in tokens[key]: # Default type to string tokens[key]['type'] = 'string' elif tokens[key]['type'].startswith('list') \ and 'delim' not in tokens[key]: # Default list delimiter (if not otherwise specified) tokens[key]['delim'] = default_delimiter elif tokens[key]['type'].startswith('choice') \ and 'default' not in tokens[key] \ and 'values' in tokens[key] \ and len(tokens[key]['values']) == 1: # If there is only one choice; then make it the default # - support dictionaries too tokens[key]['default'] = tokens[key]['values'][0] \ if not isinstance(tokens[key]['values'], dict) \ else next(iter(tokens[key]['values'])) if 'values' in tokens[key] and isinstance(tokens[key]['values'], dict): # Convert values into a list if it was defined as a dictionary tokens[key]['values'] = [k for k in tokens[key]['values'].keys()] if 'regex' in tokens[key]: # Verify that we are a tuple; convert strings to tuples if isinstance(tokens[key]['regex'], six.string_types): # Default tuple setup tokens[key]['regex'] = \ (tokens[key]['regex'], None) elif not isinstance(tokens[key]['regex'], (list, tuple)): # Invalid regex del tokens[key]['regex'] if 'required' not in tokens[key]: # Default required is False tokens[key]['required'] = False if 'private' not in tokens[key]: # Private flag defaults to False if not set tokens[key]['private'] = False return def details(plugin): """ Provides templates that can be used by developers to build URLs dynamically. If a list of templates is provided, then they will be used over the default value. If a list of tokens are provided, then they will over-ride any additional settings built from this script and/or will be appended to them afterwards. """ # Our unique list of parsing will be based on the provided templates # if none are provided we will use our own templates = tuple(plugin.templates) # The syntax is simple # { # # The token_name must tie back to an entry found in the # # templates list. # 'token_name': { # # # types can be 'string', 'int', 'choice', 'list, 'float' # # both choice and list may additionally have a : identify # # what the list/choice type is comprised of; the default # # is string. # 'type': 'choice:string', # # # values will only exist the type must be a fixed # # list of inputs (generated from type choice for example) # # # If this is a choice:bool then you should ALWAYS define # # this list as a (True, False) such as ('Yes, 'No') or # # ('Enabled', 'Disabled'), etc # 'values': [ 'http', 'https' ], # # # Identifies if the entry specified is required or not # 'required': True, # # # Identify a default value # 'default': 'http', # # # Optional Verification Entries min and max are for floats # # and/or integers # 'min': 4, # 'max': 5, # # # A list will always identify a delimiter. If this is # # part of a path, this may be a '/', or it could be a # # comma and/or space. delimiters are always in a list # # eg (if space and/or comma is a delimiter the entry # # would look like: 'delim': [',' , ' ' ] # 'delim': None, # # # Use regex if you want to share the regular expression # # required to validate the field. The regex will never # # accomodate the prefix (if one is specified). That is # # up to the user building the URLs to include the prefix # # on the URL when constructing it. # # The format is ('regex', 'reg options') # 'regex': (r'[A-Z0-9]+', 'i'), # # # A Prefix is always a string, to differentiate between # # multiple arguments, sometimes content is prefixed. # 'prefix': '@', # # # By default the key of this object is to be interpreted # # as the argument to the notification in question. However # # To accomodate cases where there are multiple types that # # all map to the same entry, one can find a map_to value. # 'map_to': 'function_arg', # # # Some arguments act as an alias_of an already defined object # # This plays a role more with configuration file generation # # since yaml files allow you to define different argumuments # # in line to simplify things. If this directive is set, then # # it should be treated exactly the same as the object it is # # an alias of # 'alias_of': 'function_arg', # # # Advise developers to consider the potential sensitivity # # of this field owned by the user. This is for passwords, # # and api keys, etc... # 'private': False, # }, # } # Template tokens identify the arguments required to initialize the # plugin itself. It identifies all of the tokens and provides some # details on their use. Each token defined should in some way map # back to at least one URL {token} defined in the templates # Since we nest a dictionary within a dictionary, a simple copy isn't # enough. a deepcopy allows us to manipulate this object in this # funtion without obstructing the original. template_tokens = copy.deepcopy(plugin.template_tokens) # Arguments and/or Options either have a default value and/or are # optional to be set. # # Since we nest a dictionary within a dictionary, a simple copy isn't # enough. a deepcopy allows us to manipulate this object in this # funtion without obstructing the original. template_args = copy.deepcopy(plugin.template_args) # Our template keyword arguments ?+key=value&-key=value # Basically the user provides both the key and the value. this is only # possibly by identifying the key prefix required for them to be # interpreted hence the +/- keys are built into apprise by default for easy # reference. In these cases, entry might look like '+' being the prefix: # { # 'arg_name': { # 'name': 'label', # 'prefix': '+', # } # } # # Since we nest a dictionary within a dictionary, a simple copy isn't # enough. a deepcopy allows us to manipulate this object in this # funtion without obstructing the original. template_kwargs = copy.deepcopy(plugin.template_kwargs) # We automatically create a schema entry template_tokens['schema'] = { 'name': _('Schema'), 'type': 'choice:string', 'required': True, 'values': parse_list(plugin.secure_protocol, plugin.protocol) } # Sanitize our tokens _sanitize_token(template_tokens, default_delimiter=('/', )) # Delimiter(s) are space and/or comma _sanitize_token(template_args, default_delimiter=(',', ' ')) _sanitize_token(template_kwargs, default_delimiter=(',', ' ')) # Argument/Option Handling for key in list(template_args.keys()): if 'alias_of' in template_args[key]: # Check if the mapped reference is a list; if it is, then # we need to store a different delimiter alias_of = template_tokens.get(template_args[key]['alias_of'], {}) if alias_of.get('type', '').startswith('list') \ and 'delim' not in template_args[key]: # Set a default delimiter of a comma and/or space if one # hasn't already been specified template_args[key]['delim'] = (',', ' ') # _lookup_default looks up what the default value if '_lookup_default' in template_args[key]: template_args[key]['default'] = getattr( plugin, template_args[key]['_lookup_default']) # Tidy as we don't want to pass this along in response del template_args[key]['_lookup_default'] # _exists_if causes the argument to only exist IF after checking # the return of an internal variable requiring a check if '_exists_if' in template_args[key]: if not getattr(plugin, template_args[key]['_exists_if']): # Remove entire object del template_args[key] else: # We only nee to remove this key del template_args[key]['_exists_if'] return { 'templates': templates, 'tokens': template_tokens, 'args': template_args, 'kwargs': template_kwargs, } def url_to_dict(url): """ Takes an apprise URL and returns the tokens associated with it if they can be acquired based on the plugins available. None is returned if the URL could not be parsed, otherwise the tokens are returned. These tokens can be loaded into apprise through it's add() function. """ # swap hash (#) tag values with their html version _url = url.replace('/#', '/%23') # Attempt to acquire the schema at the very least to allow our plugins to # determine if they can make a better interpretation of a URL geared for # them. schema = GET_SCHEMA_RE.match(_url) if schema is None: # Not a valid URL; take an early exit return None # Ensure our schema is always in lower case schema = schema.group('schema').lower() if schema not in SCHEMA_MAP: # Give the user the benefit of the doubt that the user may be using # one of the URLs provided to them by their notification service. # Before we fail for good, just scan all the plugins that support the # native_url() parse function results = \ next((r['plugin'].parse_native_url(_url) for r in MODULE_MAP.values() if r['plugin'].parse_native_url(_url) is not None), None) else: # Parse our url details of the server object as dictionary # containing all of the information parsed from our URL results = SCHEMA_MAP[schema].parse_url(_url) # Return our results return results