"""Template helper methods for rendering strings with Home Assistant data.""" from datetime import datetime import json import logging import random import re import jinja2 from jinja2 import contextfilter from jinja2.sandbox import ImmutableSandboxedEnvironment from homeassistant.const import ( STATE_UNKNOWN, ATTR_LATITUDE, ATTR_LONGITUDE, MATCH_ALL) from homeassistant.core import State from homeassistant.exceptions import TemplateError from homeassistant.helpers import location as loc_helper from homeassistant.loader import get_component from homeassistant.util import convert, dt as dt_util, location as loc_util from homeassistant.util.async import run_callback_threadsafe _LOGGER = logging.getLogger(__name__) _SENTINEL = object() DATE_STR_FORMAT = "%Y-%m-%d %H:%M:%S" _RE_NONE_ENTITIES = re.compile(r"distance\(|closest\(", re.I | re.M) _RE_GET_ENTITIES = re.compile( r"(?:(?:states\.|(?:is_state|is_state_attr|states)\(.)([\w]+\.[\w]+))", re.I | re.M ) def attach(hass, obj): """Recursively attach hass to all template instances in list and dict.""" if isinstance(obj, list): for child in obj: attach(hass, child) elif isinstance(obj, dict): for child in obj.values(): attach(hass, child) elif isinstance(obj, Template): obj.hass = hass def extract_entities(template): """Extract all entities for state_changed listener from template string.""" if template is None or _RE_NONE_ENTITIES.search(template): return MATCH_ALL extraction = _RE_GET_ENTITIES.findall(template) if len(extraction) > 0: return list(set(extraction)) return MATCH_ALL class Template(object): """Class to hold a template and manage caching and rendering.""" def __init__(self, template, hass=None): """Instantiate a template.""" if not isinstance(template, str): raise TypeError('Expected template to be a string') self.template = template self._compiled_code = None self._compiled = None self.hass = hass def ensure_valid(self): """Return if template is valid.""" if self._compiled_code is not None: return try: self._compiled_code = ENV.compile(self.template) except jinja2.exceptions.TemplateSyntaxError as err: raise TemplateError(err) def extract_entities(self): """Extract all entities for state_changed listener.""" return extract_entities(self.template) def render(self, variables=None, **kwargs): """Render given template.""" if variables is not None: kwargs.update(variables) return run_callback_threadsafe( self.hass.loop, self.async_render, kwargs).result() def async_render(self, variables=None, **kwargs): """Render given template. This method must be run in the event loop. """ self._ensure_compiled() if variables is not None: kwargs.update(variables) try: return self._compiled.render(kwargs).strip() except jinja2.TemplateError as err: raise TemplateError(err) def render_with_possible_json_value(self, value, error_value=_SENTINEL): """Render template with value exposed. If valid JSON will expose value_json too. """ return run_callback_threadsafe( self.hass.loop, self.async_render_with_possible_json_value, value, error_value).result() # pylint: disable=invalid-name def async_render_with_possible_json_value(self, value, error_value=_SENTINEL): """Render template with value exposed. If valid JSON will expose value_json too. This method must be run in the event loop. """ self._ensure_compiled() variables = { 'value': value } try: variables['value_json'] = json.loads(value) except ValueError: pass try: return self._compiled.render(variables).strip() except jinja2.TemplateError as ex: _LOGGER.error("Error parsing value: %s (value: %s, template: %s)", ex, value, self.template) return value if error_value is _SENTINEL else error_value def _ensure_compiled(self): """Bind a template to a specific hass instance.""" if self._compiled is not None: return self.ensure_valid() assert self.hass is not None, 'hass variable not set on template' location_methods = LocationMethods(self.hass) global_vars = ENV.make_globals({ 'closest': location_methods.closest, 'distance': location_methods.distance, 'is_state': self.hass.states.is_state, 'is_state_attr': self.hass.states.is_state_attr, 'states': AllStates(self.hass), }) self._compiled = jinja2.Template.from_code( ENV, self._compiled_code, global_vars, None) return self._compiled def __eq__(self, other): """Compare template with another.""" return (self.__class__ == other.__class__ and self.template == other.template and self.hass == other.hass) class AllStates(object): """Class to expose all HA states as attributes.""" def __init__(self, hass): """Initialize all states.""" self._hass = hass def __getattr__(self, name): """Return the domain state.""" return DomainStates(self._hass, name) def __iter__(self): """Return all states.""" return iter(sorted(self._hass.states.async_all(), key=lambda state: state.entity_id)) def __call__(self, entity_id): """Return the states.""" state = self._hass.states.get(entity_id) return STATE_UNKNOWN if state is None else state.state class DomainStates(object): """Class to expose a specific HA domain as attributes.""" def __init__(self, hass, domain): """Initialize the domain states.""" self._hass = hass self._domain = domain def __getattr__(self, name): """Return the states.""" return self._hass.states.get('{}.{}'.format(self._domain, name)) def __iter__(self): """Return the iteration over all the states.""" return iter(sorted( (state for state in self._hass.states.async_all() if state.domain == self._domain), key=lambda state: state.entity_id)) class LocationMethods(object): """Class to expose distance helpers to templates.""" def __init__(self, hass): """Initialize the distance helpers.""" self._hass = hass def closest(self, *args): """Find closest entity. Closest to home: closest(states) closest(states.device_tracker) closest('group.children') closest(states.group.children) Closest to a point: closest(23.456, 23.456, 'group.children') closest('zone.school', 'group.children') closest(states.zone.school, 'group.children') """ if len(args) == 1: latitude = self._hass.config.latitude longitude = self._hass.config.longitude entities = args[0] elif len(args) == 2: point_state = self._resolve_state(args[0]) if point_state is None: _LOGGER.warning("Closest:Unable to find state %s", args[0]) return None elif not loc_helper.has_location(point_state): _LOGGER.warning( "Closest:State does not contain valid location: %s", point_state) return None latitude = point_state.attributes.get(ATTR_LATITUDE) longitude = point_state.attributes.get(ATTR_LONGITUDE) entities = args[1] else: latitude = convert(args[0], float) longitude = convert(args[1], float) if latitude is None or longitude is None: _LOGGER.warning( "Closest:Received invalid coordinates: %s, %s", args[0], args[1]) return None entities = args[2] if isinstance(entities, (AllStates, DomainStates)): states = list(entities) else: if isinstance(entities, State): gr_entity_id = entities.entity_id else: gr_entity_id = str(entities) group = get_component('group') states = [self._hass.states.get(entity_id) for entity_id in group.expand_entity_ids(self._hass, [gr_entity_id])] return loc_helper.closest(latitude, longitude, states) def distance(self, *args): """Calculate distance. Will calculate distance from home to a point or between points. Points can be passed in using state objects or lat/lng coordinates. """ locations = [] to_process = list(args) while to_process: value = to_process.pop(0) if isinstance(value, State): latitude = value.attributes.get(ATTR_LATITUDE) longitude = value.attributes.get(ATTR_LONGITUDE) if latitude is None or longitude is None: _LOGGER.warning( "Distance:State does not contains a location: %s", value) return None else: # We expect this and next value to be lat&lng if not to_process: _LOGGER.warning( "Distance:Expected latitude and longitude, got %s", value) return None value_2 = to_process.pop(0) latitude = convert(value, float) longitude = convert(value_2, float) if latitude is None or longitude is None: _LOGGER.warning("Distance:Unable to process latitude and " "longitude: %s, %s", value, value_2) return None locations.append((latitude, longitude)) if len(locations) == 1: return self._hass.config.distance(*locations[0]) return self._hass.config.units.length( loc_util.distance(*locations[0] + locations[1]), 'm') def _resolve_state(self, entity_id_or_state): """Return state or entity_id if given.""" if isinstance(entity_id_or_state, State): return entity_id_or_state elif isinstance(entity_id_or_state, str): return self._hass.states.get(entity_id_or_state) return None def forgiving_round(value, precision=0): """Round accepted strings.""" try: value = round(float(value), precision) return int(value) if precision == 0 else value except (ValueError, TypeError): # If value can't be converted to float return value def multiply(value, amount): """Filter to convert value to float and multiply it.""" try: return float(value) * amount except (ValueError, TypeError): # If value can't be converted to float return value def timestamp_custom(value, date_format=DATE_STR_FORMAT, local=True): """Filter to convert given timestamp to format.""" try: date = dt_util.utc_from_timestamp(value) if local: date = dt_util.as_local(date) return date.strftime(date_format) except (ValueError, TypeError): # If timestamp can't be converted return value def timestamp_local(value): """Filter to convert given timestamp to local date/time.""" try: return dt_util.as_local( dt_util.utc_from_timestamp(value)).strftime(DATE_STR_FORMAT) except (ValueError, TypeError): # If timestamp can't be converted return value def timestamp_utc(value): """Filter to convert given timestamp to UTC date/time.""" try: return dt_util.utc_from_timestamp(value).strftime(DATE_STR_FORMAT) except (ValueError, TypeError): # If timestamp can't be converted return value def forgiving_as_timestamp(value): """Try to convert value to timestamp.""" try: return dt_util.as_timestamp(value) except (ValueError, TypeError): return None def strptime(string, fmt): """Parse a time string to datetime.""" try: return datetime.strptime(string, fmt) except (ValueError, AttributeError): return string def fail_when_undefined(value): """Filter to force a failure when the value is undefined.""" if isinstance(value, jinja2.Undefined): value() return value def forgiving_float(value): """Try to convert value to a float.""" try: return float(value) except (ValueError, TypeError): return value @contextfilter def random_every_time(context, values): """Choose a random value. Unlike Jinja's random filter, this is context-dependent to avoid caching the chosen value. """ return random.choice(values) class TemplateEnvironment(ImmutableSandboxedEnvironment): """The Home Assistant template environment.""" def is_safe_callable(self, obj): """Test if callback is safe.""" return isinstance(obj, AllStates) or super().is_safe_callable(obj) ENV = TemplateEnvironment() ENV.filters['round'] = forgiving_round ENV.filters['multiply'] = multiply ENV.filters['timestamp_custom'] = timestamp_custom ENV.filters['timestamp_local'] = timestamp_local ENV.filters['timestamp_utc'] = timestamp_utc ENV.filters['is_defined'] = fail_when_undefined ENV.filters['max'] = max ENV.filters['min'] = min ENV.filters['random'] = random_every_time ENV.globals['float'] = forgiving_float ENV.globals['now'] = dt_util.now ENV.globals['utcnow'] = dt_util.utcnow ENV.globals['as_timestamp'] = forgiving_as_timestamp ENV.globals['relative_time'] = dt_util.get_age ENV.globals['strptime'] = strptime