"""Library for data model for local calendar objects. This library contains [pydantic](https://pydantic-docs.helpmanual.io/) models for the Google Calendar API data model. These objects support all methods for parsing and serialization supported by pydnatic. """ from __future__ import annotations import datetime import logging from functools import cache import zoneinfo from collections.abc import Iterable from enum import Enum from typing import Any, Optional, Union from ical.component import ComponentModel from ical.recurrence import Recurrences from ical.exceptions import CalendarParseError from ical.iter import RulesetIterable from ical.timespan import Timespan from ical.types.data_types import DATA_TYPE from ical.types.recur import Frequency, Recur try: from pydantic.v1 import BaseModel, Field, root_validator, ValidationError except ImportError: from pydantic import BaseModel, Field, root_validator, ValidationError # type: ignore from .exceptions import CalendarParseException __all__ = [ "Calendar", "Event", "DateOrDatetime", "EventStatusEnum", "EventTypeEnum", "VisibilityEnum", "ResponseStatus", "Attendee", "Reminders", "ReminderOverride", "ReminderMethod", "AccessRole", "CalendarBasic", ] _LOGGER = logging.getLogger(__name__) DATE_STR_FORMAT = "%Y-%m-%d" EVENT_FIELDS = ( "id,iCalUID,summary,start,end,description,location,transparency,status,eventType," "visibility,attendees,attendeesOmitted,recurrence,recurringEventId,originalStartTime," "reminders" ) MIDNIGHT = datetime.time() ID_DELIM = "_" _AVAILABLE_TIMEZONES = zoneinfo.available_timezones() @cache def _create_zoneinfo(tz: str) -> zoneinfo.ZoneInfo: """Create a zoneinfo object for the given timezone.""" if tz not in _AVAILABLE_TIMEZONES: raise zoneinfo.ZoneInfoNotFoundError(f"Timezone '{tz}' not available") return zoneinfo.ZoneInfo(tz) # Pre-load all timezones to avoid blocking calls in async methods later. Catch # any exceptions and make this best effort. for tz in _AVAILABLE_TIMEZONES: try: _create_zoneinfo(tz) except zoneinfo.ZoneInfoNotFoundError: pass class AccessRole(str, Enum): """The effective access role of the caller.""" FREE_BUSY_READER = "freeBusyReader" """Provides read access to free/busy information.""" READER = "reader" """Provides read access to the calendar.""" WRITER = "writer" """Provides read and write access to the calendar.""" OWNER = "owner" """Provides ownership of the calendar.""" @property def is_writer(self) -> bool: """Return if this role can create, delete, update events.""" return self in (AccessRole.WRITER, AccessRole.OWNER) class CalendarBaseModel(BaseModel): """Base class for calendar models.""" def __init__(self, **data: Any) -> None: """Initialize the model.""" try: super().__init__(**data) except ValidationError as err: raise CalendarParseException(f"Failed to parse component: {err}") from err @root_validator(pre=True) def _remove_self(cls, values: dict[str, Any]) -> dict[str, Any]: """Rename any 'self' fields from all child values of the dictionary.""" if "self" in values: values["is_self"] = values["self"] del values["self"] # Mutate any children with "self" fields updates = {} for k, v in values.items(): if isinstance(v, dict): updates[k] = cls._remove_self(v) elif isinstance(v, list) and len(v) > 0 and isinstance(v[0], dict): updates[k] = [cls._remove_self(item) for item in v] values.update(updates) return values class Calendar(CalendarBaseModel): """Metadata associated with a calendar from the CalendarList API.""" id: str """Identifier of the calendar.""" summary: str = "" """Title of the calendar.""" description: Optional[str] = None """Description of the calendar.""" location: Optional[str] = None """Geographic location of the calendar as free-form text.""" timezone: Optional[str] = Field(alias="timeZone", default=None) """The time zone of the calendar.""" access_role: AccessRole = Field(alias="accessRole") """The effective access role that the authenticated user has on the calendar.""" selected: bool = False """Whether the calendar content shows up in the calendar UI.""" primary: bool = False """Whether the calendar is the primary calendar of the authenticated user.""" class Config: """Pydnatic model configuration.""" allow_population_by_field_name = True class CalendarBasic(CalendarBaseModel): """Metadata associated with a calendar from the Get API.""" id: str """Identifier of the calendar.""" summary: str = "" """Title of the calendar.""" description: Optional[str] = None """Description of the calendar.""" location: Optional[str] = None """Geographic location of the calendar as free-form text.""" timezone: Optional[str] = Field(alias="timeZone", default=None) """The time zone of the calendar.""" class Config: """Pydnatic model configuration.""" allow_population_by_field_name = True class DateOrDatetime(CalendarBaseModel): """A date or datetime.""" date: Optional[datetime.date] = Field(default=None) """The date, in the format "yyyy-mm-dd", if this is an all-day event.""" date_time: Optional[datetime.datetime] = Field(alias="dateTime", default=None) """The time, as a combined date-time value.""" # Note: timezone is only used for creating new events timezone: Optional[str] = Field(alias="timeZone", default=None) """The time zone in which the time is specified.""" @classmethod def parse(cls, value: datetime.date | datetime.datetime) -> DateOrDatetime: """Create a DateOrDatetime from a raw date or datetime value.""" if isinstance(value, datetime.datetime): return cls(date_time=value) return cls(date=value) @property def value(self) -> Union[datetime.date, datetime.datetime]: """Return either a datetime or date representing the Datetime. This only replace tzinfo/offset in the datetime when the API response did not specify one separately, preferring the offset specified in the event response. """ if self.date is not None: return self.date if self.date_time is not None: if self.timezone is not None: # Always use the timezone when there isn't one, otherwise only # override when using to start recurring events. Otherwise, just # use the simple offset specified in the event. try: use_tzinfo = _create_zoneinfo(self.timezone) except zoneinfo.ZoneInfoNotFoundError: _LOGGER.debug("Timezone '%s' not found; ignoring", self.timezone) return self.date_time if self.date_time.tzinfo is None: return self.date_time.replace(tzinfo=use_tzinfo) return self.date_time.astimezone(tz=use_tzinfo) return self.date_time raise ValueError("Datetime has invalid state with no date or date_time") def normalize(self, tzinfo: datetime.tzinfo | None = None) -> datetime.datetime: """Convert date or datetime to a value that can be used for comparison.""" value = self.value if not isinstance(value, datetime.datetime): value = datetime.datetime.combine(value, MIDNIGHT) if value.tzinfo is None: value = value.replace(tzinfo=(tzinfo if tzinfo else datetime.timezone.utc)) return value @root_validator def _check_date_or_datetime(cls, values: dict[str, Any]) -> dict[str, Any]: """Validate the date or datetime fields are set properly.""" if not values.get("date") and not values.get("date_time"): raise ValueError("Unexpected missing date or dateTime value") # Truncate microseconds for datetime serialization back to json if datetime_value := values.get("date_time"): if isinstance(datetime_value, datetime.datetime): values["date_time"] = datetime_value.replace(microsecond=0) elif values.get("timezone"): raise ValueError("Timezone with date (only) not supported") return values class Config: """Model configuration.""" allow_population_by_field_name = True arbitrary_types_allowed = True class EventStatusEnum(str, Enum): "Status of the event." CONFIRMED = "confirmed" """The event is confirmed.""" TENTATIVE = "tentative" """The event is tentatively confirmed.""" CANCELLED = "cancelled" """The event is cancelled (deleted).""" class EventTypeEnum(str, Enum): """Type of the event.""" DEFAULT = "default" """A regular event or not further specified.""" OUT_OF_OFFICE = "outOfOffice" """An out-of-office event.""" FOCUS_TIME = "focusTime" """A focus-time event.""" WORKING_LOCATION = "workingLocation" """A working location event.""" FROM_GMAIL = "fromGmail" """An event from Gmail.""" BIRTHDAY = "birthday" """A special all-day event with an annual recurrence.""" UNKNOWN = "unknown" """An unknown event type.""" class VisibilityEnum(str, Enum): """Visibility of the event.""" DEFAULT = "default" """Uses the default visibility for events on the calendar.""" PUBLIC = "public" """The event is public and event details are visible to all readers.""" PRIVATE = "private" # Same as confidential """The event is private and only event attendees may view event details.""" class ResponseStatus(str, Enum): """The attendee's response status.""" NEEDS_ACTION = "needsAction" """The attendee has not responded to the invitation (recommended for new events).""" DECLINED = "declined" """The attendee has declined the invitation.""" TENTATIVE = "tentative" """The attendee has tentatively accepted the invitation.""" ACCEPTED = "accepted" """The attendee has accepted the invitation.""" class Attendee(CalendarBaseModel): """An attendee of an event.""" id: Optional[str] = None """The attendee's Profile ID, if available.""" email: str = "" """The attendee's email address, if available.""" display_name: Optional[str] = Field(alias="displayName", default=None) """The attendee's name, if available.""" optional: bool = False """Whether this is an optional attendee.""" is_self: bool = False """Whether this entry represents the calendar on which this copy of the event appears.""" comment: Optional[str] = None """The attendee's response comment.""" response_status: ResponseStatus = Field( alias="responseStatus", default=ResponseStatus.NEEDS_ACTION ) """The attendee's response status.""" class SyntheticEventId: """Used to generate a event ids for synthetic recurring events. A `gcal_sync.timeline.Timeline` will create synthetic events for each instance of a recurring event. The API returns the original event id of the underlying event as `recurring_event_id`. This class is used to create the synthetic unique `event_id` that includes the date or datetime value of the event instance. This class does not generate values in the `recurring_event_id` field. """ def __init__( self, event_id: str, dtstart: datetime.date | datetime.datetime ) -> None: self._event_id = event_id self._dtstart = dtstart @classmethod def of( # pylint: disable=invalid-name] cls, event_id: str, dtstart: datetime.date | datetime.datetime, ) -> SyntheticEventId: """Create a SyntheticEventId based on the event instance.""" return SyntheticEventId(event_id, dtstart) @classmethod def parse(cls, synthetic_event_id: str) -> SyntheticEventId: """Parse a SyntheticEventId from the event id string.""" parts = synthetic_event_id.rsplit(ID_DELIM, maxsplit=1) if len(parts) != 2: raise ValueError( f"id was not a valid synthetic_event_id: {synthetic_event_id}" ) dtstart: datetime.date | datetime.datetime if len(parts[1]) != 8: if len(parts[1]) == 0 or parts[1][-1] != "Z": raise ValueError( f"SyntheticEventId had invalid date/time or timezone: " f"{synthetic_event_id}" ) dtstart = datetime.datetime.strptime( parts[1][:-1], "%Y%m%dT%H%M%S" ).replace(tzinfo=datetime.timezone.utc) else: dtstart = datetime.datetime.strptime(parts[1], "%Y%m%d").date() return SyntheticEventId(parts[0], dtstart) @classmethod def is_valid(cls, synthetic_event_id: str) -> bool: """Return true if the value is a valid SyntheticEventId string.""" try: cls.parse(synthetic_event_id) except ValueError: return False return True @property def event_id(self) -> str: """Return the string value of the new event id.""" if isinstance(self._dtstart, datetime.datetime): utc = self._dtstart.astimezone(datetime.timezone.utc) return f"{self._event_id}{ID_DELIM}{utc.strftime('%Y%m%dT%H%M%SZ')}" return f"{self._event_id}{ID_DELIM}{self._dtstart.strftime('%Y%m%d')}" @property def original_event_id(self) -> str: """Return the underlying/original event id.""" return self._event_id @property def dtstart(self) -> datetime.date | datetime.datetime: """Return the date value for the event id.""" return self._dtstart class Recurrence(ComponentModel): """A pydantic model that captures the objects in a Google Calendar recurrence.""" rrule: list[Recur] = [] """A recurrence rule specification. Defines a rule for specifying a repeated event. The recurrence set is the complete set of recurrence instances for a calendar component (based on rrule, rdate, exdate). The recurrence set is generated by gathering the rrule and rdate properties then excluding any times specified by exdate. The recurrence is generated with the dtstart property defining the first instance of the recurrence set. Typically a dtstart should be specified with a date local time and timezone to make sure all instances have the same start time regardless of time zone changing. """ rdate: list[Union[datetime.datetime, datetime.date]] = Field(default_factory=list) """Defines the list of date/time values for recurring events. Can appear along with the rrule property to define a set of repeating occurrences of the event. The recurrence set is the complete set of recurrence instances for a calendar component (based on rrule, rdate, exdate). The recurrence set is generated by gathering the rrule and rdate properties then excluding any times specified by exdate. """ exdate: list[Union[datetime.datetime, datetime.date]] = Field(default_factory=list) """Defines the list of exceptions for recurring events. The exception dates are used in computing the recurrence set. The recurrence set is the complete set of recurrence instances for a calendar component (based on rrule, rdate, exdate). The recurrence set is generated by gathering the rrule and rdate properties then excluding any times specified by exdate. """ @classmethod def from_recurrence(cls, recurrence: list[str]) -> "Recurrence": """Parse a Recurrence object form calendar API list of recurrence rules.""" try: recurrences = Recurrences.from_basic_contentlines(recurrence) except ValidationError as err: raise CalendarParseException(err) from err try: return cls( rrule=recurrences.rrule, rdate=recurrences.rdate, exdate=recurrences.exdate, ) except ValidationError as err: raise CalendarParseException(err) from err def as_rrule( self, dtstart: datetime.date | datetime.datetime ) -> Iterable[datetime.date | datetime.datetime]: """Return the set of recurrences as a rrule that emits start times.""" return RulesetIterable( dtstart, [rule.as_rrule(dtstart) for rule in self.rrule], self.rdate, self.exdate, ) def as_recurrence(self) -> list[str]: """Serialize the recurrence rule as an API string.""" return [prop.ics() for prop in self.__encode_component_root__().properties] class Config: """Configuration for IcsCalendarStream pydantic model.""" json_encoders = DATA_TYPE.encode_property_json validate_assignment = True allow_population_by_field_name = True class ReminderMethod(str, Enum): """The method to use to send a reminder.""" EMAIL = "email" """Reminders are sent via email.""" POPUP = "popup" """Reminders are sent via a UI popup.""" class ReminderOverride(CalendarBaseModel): """Reminder settings to use instead of calendar default.""" method: ReminderMethod """The method used by this reminder.""" minutes: int """Number of minutes before the start of the event to trigger.""" class Reminders(CalendarBaseModel): """Information about the event's reminders for the authenticated user.""" use_default: bool = Field(alias="useDefault", default=True) overrides: list[ReminderOverride] = Field(default_factory=list) """Reminders to use instead of the default reminders. If the event doesn't use the default reminders, this lists the reminders specific to the event, or, if not set, indicates that no reminders are set for this event. The maximum number of override reminders is 5. """ class Event(CalendarBaseModel): """A single event on a calendar.""" id: Optional[str] = None """Opaque identifier of the event.""" ical_uuid: Optional[str] = Field(alias="iCalUID", default=None) """Event unique identifier as defined in RFC5545. Note that the iCalUID and the id are not identical. One difference in their semantics is that in recurring events, all occurrences of one event have different ids while they all share the same iCalUIDs. """ summary: str = "" """Title of the event.""" start: DateOrDatetime """The (inclusive) start time of the event.""" end: DateOrDatetime """The (exclusive) end time of the event.""" description: Optional[str] = None """Description of the event, which can contain HTML.""" location: Optional[str] = None """Geographic location of the event as free-form text.""" transparency: str = Field(default="opaque") """Whether the event blocks time on the calendar. Will either be `opaque` which means the calendar does block time on the calendar or `transparent` which means it does not block time on the calendar. """ status: EventStatusEnum = EventStatusEnum.CONFIRMED """Status of the event. Note that deleted events are only returned in some scenarios based on request options such as enabling incremental sync or explicitly asking for deleted items. That is, most use cases should not need to involve checking the status. """ event_type: EventTypeEnum = Field( alias="eventType", default=EventTypeEnum.DEFAULT, ) """Specific type of the event.""" visibility: VisibilityEnum = VisibilityEnum.DEFAULT """Visibility of the event.""" attendees: list[Attendee] = [] """The attendees of the event.""" attendees_omitted: bool = Field(alias="attendeesOmitted", default=False) """Whether attendees may have been omitted from the event's representation.""" recurrence: list[str] = [] """List of RRULE, EXRULE, RDATE and EXDATE lines for a recurring event. See RFC5545 for more details.""" recur: Optional[Recurrence] = Field(default=None, exclude=True) recurring_event_id: Optional[str] = Field(alias="recurringEventId", default=None) """The id of the primary even to which this recurring event belongs.""" original_start_time: Optional[DateOrDatetime] = Field( alias="originalStartTime", default=None ) """A unique identifier event start in the original recurring event.""" reminders: Optional[Reminders] = None @property def computed_duration(self) -> datetime.timedelta: """Return the event duration.""" return self.end.value - self.start.value @property def rrule(self) -> Iterable[Union[datetime.date, datetime.datetime]]: """Return the recurrence rules as a set of rules.""" if len(self.recurrence) == 0 or not self.recur: return [] return self.recur.as_rrule(self.start.value) @root_validator(pre=True) def _allow_cancelled_events(cls, values: dict[str, Any]) -> dict[str, Any]: """Special case for canceled event tombstones missing required fields.""" if status := values.get("status"): if status == EventStatusEnum.CANCELLED: if "start" not in values: values["start"] = DateOrDatetime(date=datetime.date.min) if "end" not in values: values["end"] = DateOrDatetime(date=datetime.date.min) return values @root_validator(pre=True) def _adjust_visibility(cls, values: dict[str, Any]) -> dict[str, Any]: """Convert legacy visibility types to new types.""" if visibility := values.get("visibility"): if visibility == "confidential": values["visibility"] = "private" return values @root_validator(pre=True) def _adjust_invalid_recurrence_rules(cls, values: dict[str, Any]) -> dict[str, Any]: """Fix invalid rrule parameters not supported by dateutil.rrule.""" if not (recurrence_values := values.get("recurrence")): return values updated = [] for recurrence_value in recurrence_values: if recurrence_value.startswith("RRULE:DATE;"): recurrence_value = "RDATE;" + recurrence_value.removeprefix( "RRULE:DATE;" ) updated.append(recurrence_value) values["recurrence"] = updated return values @root_validator(pre=True) def _validate_recur(cls, values: dict[str, Any]) -> dict[str, Any]: """Remove rrule property parameters not supported by dateutil.rrule.""" if not values.get("recurrence"): return values try: values["recur"] = Recurrence.from_recurrence(values["recurrence"]) except CalendarParseError as err: raise ValueError(f"Failed to parse recurrence: {err}") from err return values @root_validator def _adjust_duration(cls, values: dict[str, Any]) -> dict[str, Any]: """Fix events with invalid durations.""" if ( (dtstart := values.get("start")) and (dtend := values.get("end")) and (dtend.value - dtstart.value) <= datetime.timedelta(seconds=0) ): if dtstart.date and dtend.date: dtend.date = dtstart.date + datetime.timedelta(days=1) values["end"] = dtend if dtstart.date_time and dtend.date_time: dtend.date_time = dtstart.date_time + datetime.timedelta(minutes=30) values["end"] = dtend return values @root_validator def _validate_rrule(cls, values: dict[str, Any]) -> dict[str, Any]: """The API returns invalid RRULEs that need to be coerced to valid.""" # Rules may need updating of start time has a timezone if not (recur := values.get("recur")) or not (dtstart := values.get("start")): return values for rule in recur.rrule: cls._adjust_rrule(rule, dtstart) recur.exdate = [ cls._adjust_recurrence_date(exdate, dtstart) for exdate in recur.exdate ] recur.rdate = [ cls._adjust_recurrence_date(rdate, dtstart) for rdate in recur.rdate ] return values @classmethod def _adjust_rrule(cls, rule: Recur, dtstart: DateOrDatetime) -> Recur: """Apply fixes to the rrule.""" if rule.until: rule.until = cls._adjust_recurrence_date(rule.until, dtstart) if rule.freq == Frequency.YEARLY and rule.by_month_day and not rule.by_month: # A FREQ=YEARLY;BYMONTHDAY=N rule is ambiguous and expanded # differently by google calendar vs dateutil.rrule. Add a # BYMONTH=Y to make it more explicitl. _LOGGER.debug("Correcting BYMONTHDAY rule: %s", rule) rule.by_month = [dtstart.value.month] return rule @classmethod def _adjust_recurrence_date( cls, date_value: datetime.datetime | datetime.date, dtstart: DateOrDatetime ) -> datetime.datetime | datetime.date: """Apply fixes to the recurrence rule date.""" if dtstart.date_time: if not isinstance(date_value, datetime.datetime): # Convert a date to a datetime return datetime.datetime.fromordinal(date_value.toordinal()).replace( tzinfo=dtstart.date_time.tzinfo ) if ( dtstart.date_time.tzinfo is None and isinstance(date_value, datetime.datetime) and date_value.tzinfo is not None ): # Date should be floating return date_value.replace(tzinfo=None) elif dtstart.date: if isinstance(date_value, datetime.datetime): # UNTIL is a DATE-TIME but must be a DATE return date_value.date() return date_value @root_validator(pre=True) def _adjust_unknown_event_type(cls, values: dict[str, Any]) -> dict[str, Any]: """Validate the event type.""" if event_type := values.get("eventType"): if event_type not in [member.value for member in EventTypeEnum]: _LOGGER.debug("Unknown event type: %s", event_type) values["eventType"] = EventTypeEnum.UNKNOWN return values @property def timespan(self) -> Timespan: """Return a timespan representing the event start and end.""" return self.timespan_of(datetime.timezone.utc) def timespan_of(self, tzinfo: datetime.tzinfo | None = None) -> Timespan: """Return a timespan representing the event start and end.""" if tzinfo is None: tzinfo = datetime.timezone.utc return Timespan.of( self.start.normalize(tzinfo), self.end.normalize(tzinfo), ) def intersects(self, other: "Event") -> bool: """Return True if this event overlaps with the other event.""" return self.timespan.intersects(other.timespan) def includes(self, other: "Event") -> bool: """Return True if the other event starts and ends within this event.""" return self.timespan.includes(other.timespan) def __lt__(self, other: Any) -> bool: if not isinstance(other, Event): return NotImplemented return self.timespan < other.timespan def __gt__(self, other: Any) -> bool: if not isinstance(other, Event): return NotImplemented return self.timespan > other.timespan def __le__(self, other: Any) -> bool: if not isinstance(other, Event): return NotImplemented return self.timespan <= other.timespan def __ge__(self, other: Any) -> bool: if not isinstance(other, Event): return NotImplemented return self.timespan >= other.timespan class Config: """Model configuration.""" allow_population_by_field_name = True