import abc import datetime import logging import warnings from contextlib import suppress from decimal import Decimal, InvalidOperation from importlib import import_module from .errors import InvalidTypeError from .ewsdatetime import UTC, EWSDate, EWSDateTime, EWSTimeZone, NaiveDateTimeNotAllowed, UnknownTimeZone from .util import ( TNS, create_element, get_xml_attr, get_xml_attrs, is_iterable, set_xml_value, value_to_xml_text, xml_text_to_value, ) from .version import EXCHANGE_2013, SupportedVersionInstanceMixIn log = logging.getLogger(__name__) # DayOfWeekIndex enum. See # https://docs.microsoft.com/en-us/exchange/client-developer/web-service-reference/dayofweekindex FIRST = "First" SECOND = "Second" THIRD = "Third" FOURTH = "Fourth" LAST = "Last" WEEK_NUMBERS = (FIRST, SECOND, THIRD, FOURTH, LAST) # Month enum JANUARY = "January" FEBRUARY = "February" MARCH = "March" APRIL = "April" MAY = "May" JUNE = "June" JULY = "July" AUGUST = "August" SEPTEMBER = "September" OCTOBER = "October" NOVEMBER = "November" DECEMBER = "December" MONTHS = (JANUARY, FEBRUARY, MARCH, APRIL, MAY, JUNE, JULY, AUGUST, SEPTEMBER, OCTOBER, NOVEMBER, DECEMBER) # Weekday enum MONDAY = "Monday" TUESDAY = "Tuesday" WEDNESDAY = "Wednesday" THURSDAY = "Thursday" FRIDAY = "Friday" SATURDAY = "Saturday" SUNDAY = "Sunday" WEEKDAY_NAMES = (MONDAY, TUESDAY, WEDNESDAY, THURSDAY, FRIDAY, SATURDAY, SUNDAY) # Used for weekday recurrences except weekly recurrences. E.g. for "First WeekendDay in March" DAY = "Day" WEEK_DAY = "Weekday" # Non-weekend day WEEKEND_DAY = "WeekendDay" EXTRA_WEEKDAY_OPTIONS = (DAY, WEEK_DAY, WEEKEND_DAY) # DaysOfWeek enum: See # https://docs.microsoft.com/en-us/exchange/client-developer/web-service-reference/daysofweek-daysofweektype WEEKDAYS = WEEKDAY_NAMES + EXTRA_WEEKDAY_OPTIONS class InvalidField(ValueError): """Used when a field name does not match any defined fields.""" class InvalidFieldForVersion(ValueError): """Used when a field is not supported on the given Exchange version.""" class InvalidChoiceForVersion(ValueError): """Used when a value is not valid for an enum-type field.""" def split_field_path(field_path): """Split a string path into its field, label and subfield parts. :param field_path: :return Examples: 'start' -> ('start', None, None) 'phone_numbers__PrimaryPhone' -> ('phone_numbers', 'PrimaryPhone', None) 'physical_addresses__Home__street' -> ('physical_addresses', 'Home', 'street') """ if not isinstance(field_path, str): raise InvalidTypeError("field_path", field_path, str) search_parts = field_path.split("__") field = search_parts[0] try: label = search_parts[1] except IndexError: label = None try: subfield = search_parts[2] except IndexError: subfield = None return field, label, subfield def resolve_field_path(field_path, folder, strict=True): """Take the name of a field, or '__'-delimited path to a subfield, and return the corresponding Field object, label and SubField object. """ from .indexed_properties import MultiFieldIndexedElement, SingleFieldIndexedElement fieldname, label, subfield_name = split_field_path(field_path) field = folder.get_item_field_by_fieldname(fieldname) subfield = None if isinstance(field, IndexedField): if strict and not label: raise ValueError( f"IndexedField path {field_path!r} must specify label, e.g. " f"'{fieldname}__{field.value_cls.get_field_by_fieldname('label').default}'" ) valid_labels = field.value_cls.get_field_by_fieldname("label").supported_choices(version=folder.account.version) if label and label not in valid_labels: raise ValueError( f"Label {label!r} on IndexedField path {field_path!r} must be one of {sorted(valid_labels)}" ) if issubclass(field.value_cls, MultiFieldIndexedElement): if strict and not subfield_name: raise ValueError( f"IndexedField path {field_path!r} must specify subfield, e.g. " f"'{fieldname}__{label}__{field.value_cls.FIELDS[1].name}'" ) if subfield_name: try: subfield = field.value_cls.get_field_by_fieldname(subfield_name) except ValueError: field_names = ", ".join( f.name for f in field.value_cls.supported_fields(version=folder.account.version) ) raise ValueError( f"Subfield {subfield_name!r} on IndexedField path {field_path!r} " f"must be one of {sorted(field_names)}" ) else: if not issubclass(field.value_cls, SingleFieldIndexedElement): raise InvalidTypeError("field.value_cls", field.value_cls, SingleFieldIndexedElement) if subfield_name: raise ValueError( f"IndexedField path {field_path!r} must not specify subfield, e.g. just {fieldname}__{label}'" ) subfield = field.value_cls.value_field(version=folder.account.version) else: if label or subfield_name: raise ValueError(f"Field path {field_path!r} must not specify label or subfield, e.g. just {fieldname!r}") return field, label, subfield class FieldPath: """Holds values needed to point to a single field. For indexed properties, we allow setting either field, field and label, or field, label and subfield. This allows pointing to either the full indexed property set, a property with a specific label, or a particular subfield field on that property. """ def __init__(self, field, label=None, subfield=None): """ :param field: A FieldURIField or ExtendedPropertyField instance :param label: a str :param subfield: A SubField instance """ # 'label' and 'subfield' are only used for IndexedField fields self.field = field self.label = label self.subfield = subfield @classmethod def from_string(cls, field_path, folder, strict=False): field, label, subfield = resolve_field_path(field_path, folder=folder, strict=strict) return cls(field=field, label=label, subfield=subfield) def get_value(self, item): # For indexed properties, get either the full property set, the property with matching label, or a particular # subfield. if self.label: for sub_item in getattr(item, self.field.name): if sub_item.label == self.label: if self.subfield: return getattr(sub_item, self.subfield.name) return sub_item return None # No item with this label return getattr(item, self.field.name) def get_sort_value(self, item): # For fields that allow values of different types, we need to return a value that is val = self.get_value(item) if isinstance(self.field, DateOrDateTimeField) and isinstance(val, EWSDate): return item.date_to_datetime(field_name=self.field.name) return val def to_xml(self): if isinstance(self.field, IndexedField): if not self.label or not self.subfield: raise ValueError(f"Field path for indexed field {self.field.name!r} is missing label and/or subfield") return self.subfield.field_uri_xml(field_uri=self.field.field_uri, label=self.label) return self.field.field_uri_xml() def expand(self, version): # If this path does not point to a specific subfield on an indexed property, return all the possible path # combinations for this field path. if isinstance(self.field, IndexedField): labels = ( [self.label] if self.label else self.field.value_cls.get_field_by_fieldname("label").supported_choices(version=version) ) subfields = [self.subfield] if self.subfield else self.field.value_cls.supported_fields(version=version) for label in labels: for subfield in subfields: yield FieldPath(field=self.field, label=label, subfield=subfield) else: yield self @property def path(self): if self.label: from .indexed_properties import SingleFieldIndexedElement if issubclass(self.field.value_cls, SingleFieldIndexedElement) or not self.subfield: return f"{self.field.name}__{self.label}" return f"{self.field.name}__{self.label}__{self.subfield.name}" return self.field.name def __eq__(self, other): return hash(self) == hash(other) def __str__(self): return self.path def __repr__(self): return self.__class__.__name__ + repr((self.field, self.label, self.subfield)) def __hash__(self): return hash((self.field, self.label, self.subfield)) class FieldOrder: """Holds values needed to call server-side sorting on a single field path.""" def __init__(self, field_path, reverse=False): """ :param field_path: A FieldPath instance :param reverse: A bool """ self.field_path = field_path self.reverse = reverse @classmethod def from_string(cls, field_path, folder): return cls( field_path=FieldPath.from_string(field_path=field_path.lstrip("-"), folder=folder, strict=True), reverse=field_path.startswith("-"), ) def to_xml(self): field_order = create_element("t:FieldOrder", attrs=dict(Order="Descending" if self.reverse else "Ascending")) field_order.append(self.field_path.to_xml()) return field_order class Field(SupportedVersionInstanceMixIn, metaclass=abc.ABCMeta): """Holds information related to an item field.""" value_cls = None is_list = False # Is the field a complex EWS type? Quoting the EWS FindItem docs: # # The FindItem operation returns only the first 512 bytes of any streamable property. For Unicode, it returns # the first 255 characters by using a null-terminated Unicode string. It does not return any of the message # body formats or the recipient lists. # is_complex = False def __init__( self, name=None, is_required=False, is_required_after_save=False, is_read_only=False, is_read_only_after_send=False, is_searchable=True, is_attribute=False, default=None, **kwargs, ): self.name = name # Usually set by the EWSMeta metaclass self.default = default # Default value if none is given self.is_required = is_required # Some fields cannot be deleted on update. Default to True if 'is_required' is set self.is_required_after_save = is_required or is_required_after_save self.is_read_only = is_read_only # Set this for fields that raise ErrorInvalidPropertyUpdateSentMessage on update after send. Default to True # if 'is_read_only' is set self.is_read_only_after_send = is_read_only or is_read_only_after_send # Define whether the field can be used in a QuerySet. For some reason, EWS disallows searching on some fields, # instead throwing ErrorInvalidValueForProperty self.is_searchable = is_searchable # When true, this field is treated as an XML attribute instead of an element self.is_attribute = is_attribute super().__init__(**kwargs) def clean(self, value, version=None): if version and not self.supports_version(version): raise InvalidFieldForVersion( f"Field {self.name!r} does not support EWS builds prior to {self.supported_from} (server has {version})" ) if value is None: if self.is_required and self.default is None: raise ValueError(f"{self.name!r} is a required field with no default") return self.default if self.is_list: if not is_iterable(value): raise TypeError(f"Field {self.name!r} value {value!r} must be of type {list}") for v in value: if not isinstance(v, self.value_cls): raise TypeError(f"Field {self.name!r} value {v!r} must be of type {self.value_cls}") if hasattr(v, "clean"): v.clean(version=version) else: if not isinstance(value, self.value_cls): raise TypeError(f"Field {self.name!r} value {value!r} must be of type {self.value_cls}") if hasattr(value, "clean"): value.clean(version=version) return value @abc.abstractmethod def from_xml(self, elem, account): """Read a value from the given element""" @abc.abstractmethod def to_xml(self, value, version): """Convert this field to an XML element""" def __eq__(self, other): return hash(self) == hash(other) @abc.abstractmethod def __hash__(self): """Field instances must be hashable""" def __repr__(self): args_str = ", ".join( f"{f}={getattr(self, f)!r}" for f in ("name", "value_cls", "is_list", "is_complex", "default") ) return f"{self.__class__.__name__}({args_str})" class FieldURIField(Field): """A field that has a FieldURI value in EWS. This means it's value is contained in an XML element or attribute. It may additionally be a label for searching, filtering and limiting fields. In that case, the FieldURI format will be 'itemtype:FieldName' """ def __init__(self, *args, **kwargs): self.field_uri = kwargs.pop("field_uri", None) self.namespace = kwargs.pop("namespace", TNS) super().__init__(*args, **kwargs) # See all valid FieldURI values at # https://docs.microsoft.com/en-us/exchange/client-developer/web-service-reference/fielduri # The field_uri has a prefix when the FieldURI points to an Item field. if self.field_uri is None: self.field_uri_postfix = None elif ":" in self.field_uri: self.field_uri_postfix = self.field_uri.split(":")[1] else: self.field_uri_postfix = self.field_uri def _get_val_from_elem(self, elem): if self.is_attribute: return elem.get(self.field_uri) or None return get_xml_attr(elem, self.response_tag()) def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None: try: return xml_text_to_value(val, self.value_cls) except (ValueError, InvalidOperation): log.warning("Cannot convert value '%s' on field '%s' to type %s", val, self.name, self.value_cls) return None return self.default def to_xml(self, value, version): field_elem = create_element(self.request_tag()) return set_xml_value(field_elem, value, version=version) def field_uri_xml(self): from .properties import FieldURI if not self.field_uri: raise ValueError(f"'field_uri' value is missing on field '{self.name}'") return FieldURI(field_uri=self.field_uri).to_xml(version=None) def request_tag(self): if not self.field_uri_postfix: raise ValueError(f"'field_uri_postfix' value is missing on field '{self.name}'") return f"t:{self.field_uri_postfix}" def response_tag(self): if not self.field_uri_postfix: raise ValueError(f"'field_uri_postfix' value is missing on field '{self.name}'") return f"{{{self.namespace}}}{self.field_uri_postfix}" def __hash__(self): return hash(self.field_uri) class BooleanField(FieldURIField): """A field that handles boolean values.""" value_cls = bool class IntegerField(FieldURIField): """A field that handles integer values.""" value_cls = int def __init__(self, *args, **kwargs): self.min = kwargs.pop("min", None) self.max = kwargs.pop("max", None) super().__init__(*args, **kwargs) def _clean_single_value(self, v): if self.min is not None and v < self.min: raise ValueError(f"Value {v!r} on field {self.name!r} must be greater than {self.min}") if self.max is not None and v > self.max: raise ValueError(f"Value {v!r} on field {self.name!r} must be less than {self.max}") def clean(self, value, version=None): value = super().clean(value, version=version) if value is not None: if self.is_list: for v in value: self._clean_single_value(v) else: self._clean_single_value(value) return value class DecimalField(IntegerField): """A field that handles decimal values.""" value_cls = Decimal class EnumField(IntegerField): """A field type where you can enter either the 1-based index in an enum (tuple), or the enum value. Values will be stored internally as integers but output in XML as strings. """ def __init__(self, *args, **kwargs): self.enum = kwargs.pop("enum") # Set different min/max defaults than IntegerField if "max" in kwargs: raise AttributeError("EnumField does not support the 'max' attribute") kwargs["min"] = kwargs.pop("min", 1) kwargs["max"] = kwargs["min"] + len(self.enum) - 1 super().__init__(*args, **kwargs) def clean(self, value, version=None): if self.is_list: value = list(value) # Convert to something we can index for i, v in enumerate(value): if isinstance(v, str): if v not in self.enum: raise ValueError(f"List value {v!r} on field {self.name!r} must be one of {sorted(self.enum)}") value[i] = self.enum.index(v) + 1 if not value: raise ValueError(f"Value {value!r} on field {self.name!r} must not be empty") if len(value) > len(set(value)): raise ValueError(f"List entries {value!r} on field {self.name!r} must be unique") else: if isinstance(value, str): if value not in self.enum: raise ValueError(f"Value {value!r} on field {self.name!r} must be one of {sorted(self.enum)}") value = self.enum.index(value) + 1 return super().clean(value, version=version) def as_string(self, value): # Converts an integer in the enum to its equivalent string if self.is_list: return [self.enum[v - 1] for v in sorted(value)] return self.enum[value - 1] def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None: try: if self.is_list: return [self.enum.index(v) + 1 for v in val.split(" ")] return self.enum.index(val) + 1 except ValueError: log.warning("Cannot convert value '%s' on field '%s' to type %s", val, self.name, self.value_cls) return None return self.default def to_xml(self, value, version): field_elem = create_element(self.request_tag()) if self.is_list: return set_xml_value(field_elem, " ".join(self.as_string(value)), version=version) return set_xml_value(field_elem, self.as_string(value), version=version) class EnumListField(EnumField): """Like EnumField, but for lists of enum values.""" is_list = True class WeekdaysField(EnumListField): """Like EnumListField, allow a single value instead of a 1-element list.""" def clean(self, value, version=None): if isinstance(value, (int, str)): value = [value] return super().clean(value, version) class EnumAsIntField(EnumField): """Like EnumField, but communicates values with EWS in integers.""" def from_xml(self, elem, account): return super(EnumField, self).from_xml(elem=elem, account=account) def to_xml(self, value, version): field_elem = create_element(self.request_tag()) return set_xml_value(field_elem, value, version=version) class AppointmentStateField(IntegerField): """MSDN: https://docs.microsoft.com/en-us/exchange/client-developer/web-service-reference/appointmentstate""" NONE = "None" MEETING = "Meeting" RECEIVED = "Received" CANCELLED = "Canceled" STATES = { NONE: 0x0000, MEETING: 0x0001, RECEIVED: 0x0002, CANCELLED: 0x0004, } def from_xml(self, elem, account): val = super().from_xml(elem=elem, account=account) if val is None: return val return tuple(name for name, mask in self.STATES.items() if bool(val & mask)) class Base64Field(FieldURIField): """A field that handles binary data and automatically Base64 encodes and decodes the data.""" value_cls = bytes is_complex = True def __init__(self, *args, **kwargs): if "is_searchable" not in kwargs: kwargs["is_searchable"] = False super().__init__(*args, **kwargs) class MimeContentField(Base64Field): """Like Base64Field. This element has an optional 'CharacterSet' attribute, but it specifies the encoding of the base64-encoded string (which doesn't make sense since base64-encoded strings are always ASCII). We ignore it here because the decoded data could be in some other encoding, specified in the "Content-Type" HTTP header. """ class DateField(FieldURIField): """A field that handles date values.""" value_cls = EWSDate def clean(self, value, version=None): # Allow plain datetime.date values as input if type(value) is datetime.date: value = self.value_cls.from_date(value) return super().clean(value=value, version=version) class DateTimeBackedDateField(DateField): """A field that acts like a date, but where values are sent to EWS as EWSDateTime.""" def __init__(self, *args, **kwargs): # Not all fields assume a default time of 00:00, so make this configurable self._default_time = kwargs.pop("default_time", datetime.time(0, 0)) # Create internal field to handle datetime-only logic self._datetime_field = DateTimeField(*args, **kwargs) kwargs.pop("allow_naive", None) super().__init__(*args, **kwargs) def date_to_datetime(self, value): return self._datetime_field.value_cls.combine(value, self._default_time).replace(tzinfo=UTC) def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None and len(val) == 25: # This is a datetime string with timezone info, e.g. '2021-03-01T21:55:54+00:00'. We don't want to have # datetime values converted to UTC before converting to date. EWSDateTime.from_string() insists on # converting to UTC, but we don't have an EWSTimeZone we can convert the timezone info to. Instead, parse # the string with .fromisoformat(). return datetime.datetime.fromisoformat(val).date() # Revert to default parsing of datetime strings res = self._datetime_field.from_xml(elem=elem, account=account) if res is None: return res return res.date() def to_xml(self, value, version): # Convert date to datetime value = self.date_to_datetime(value) return self._datetime_field.to_xml(value=value, version=version) class TimeField(FieldURIField): """A field that handles time values.""" value_cls = datetime.time def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None: with suppress(ValueError): if ":" in val: # Assume a string of the form HH:MM:SS return datetime.datetime.strptime(val, "%H:%M:%S").time() # Assume an integer in minutes since midnight return (datetime.datetime(2000, 1, 1) + datetime.timedelta(minutes=int(val))).time() return self.default class TimeDeltaField(FieldURIField): """A field that handles timedelta values.""" value_cls = datetime.timedelta def __init__(self, *args, **kwargs): self.min = kwargs.pop("min", datetime.timedelta(0)) self.max = kwargs.pop("max", datetime.timedelta(days=1)) super().__init__(*args, **kwargs) def clean(self, value, version=None): if self.min is not None and value < self.min: raise ValueError(f"Value {value!r} on field {self.name!r} must be greater than {self.min}") if self.max is not None and value > self.max: raise ValueError(f"Value {value!r} on field {self.name!r} must be less than {self.max}") return super().clean(value, version=version) class DateTimeField(FieldURIField): """A field that handles datetime values.""" value_cls = EWSDateTime def __init__(self, *args, **kwargs): self.allow_naive = kwargs.pop("allow_naive", False) super().__init__(*args, **kwargs) def clean(self, value, version=None): if isinstance(value, datetime.datetime): if not value.tzinfo: raise ValueError(f"Value {value!r} on field {self.name!r} must be timezone aware") if type(value) is datetime.datetime: value = self.value_cls.from_datetime(value) return super().clean(value, version=version) def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None: try: return self.value_cls.from_string(val) except ValueError as e: if isinstance(e, NaiveDateTimeNotAllowed): # We encountered a naive datetime if account: # Convert to timezone-aware datetime using the default timezone of the account tz = account.default_timezone log.info("Found naive datetime %s on field %s. Assuming timezone %s", e.local_dt, self.name, tz) return e.local_dt.replace(tzinfo=tz) if not self.allow_naive: # There's nothing we can do but return the naive date. It's better than assuming e.g. UTC. # Making this a hard error is probably too risky. Warn instead. log.warning("Returning naive datetime %s on field %s", e.local_dt, self.name) return e.local_dt log.info("Cannot convert value '%s' on field '%s' to type %s", val, self.name, self.value_cls) return None return self.default class DateOrDateTimeField(DateTimeField): """This field can handle both EWSDate and EWSDateTime. Used for calendar items where 'start' and 'end' values are conceptually dates when the calendar item is an all-day event, but datetimes in all other cases, and for recurrences where the returned 'start' and 'end' values may be either dates or datetimes depending on whether the recurring item is a task or a calendar item. For all-day calendar items, we assume both start and end dates are inclusive. For filtering kwarg validation and other places where we must decide on a specific class, we settle on datetime. """ def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) # Create internal field to handle date-only logic self._date_field = DateField(*args, **kwargs) def clean(self, value, version=None): # Most calendar items will contain datetime values. We can't access the is_all_day value here, so CalendarItem # must handle that sanity check. if type(value) in (EWSDate, datetime.date): return self._date_field.clean(value=value, version=version) return super().clean(value=value, version=version) def from_xml(self, elem, account): val = self._get_val_from_elem(elem) if val is not None and len(val) in (11, 16): # This is a date with timezone info, as sent by task recurrences. Eg: '2006-01-09+01:00' or '2006-01-09Z' return self._date_field.from_xml(elem=elem, account=account) return super().from_xml(elem=elem, account=account) class TimeZoneField(FieldURIField): """A field that handles timezone values.""" value_cls = EWSTimeZone def clean(self, value, version=None): # Allow other timezone implementations as input if value is not None: value = self.value_cls.from_timezone(value) return super().clean(value=value, version=version) def from_xml(self, elem, account): field_elem = elem.find(self.response_tag()) if field_elem is not None: tz_id = field_elem.get("Id") or field_elem.get("Name") try: return self.value_cls.from_ms_id(tz_id) except UnknownTimeZone: warnings.warn( f"""\ Cannot convert value {tz_id!r} on field {self.name!r} to type {self.value_cls.__name__!r} (unknown timezone ID). You can fix this by adding a custom entry into the timezone translation map: from exchangelib.winzone import MS_TIMEZONE_TO_IANA_MAP, CLDR_TO_MS_TIMEZONE_MAP # Replace "Some_Region/Some_Location" with a reasonable value from CLDR_TO_MS_TIMEZONE_MAP.keys() MS_TIMEZONE_TO_IANA_MAP[{tz_id!r}] = "Some_Region/Some_Location" # Your code here""" ) return None return self.default def to_xml(self, value, version): attrs = dict(Id=value.ms_id) if value.ms_name: attrs["Name"] = value.ms_name return create_element(self.request_tag(), attrs=attrs) class TextField(FieldURIField): """A field that stores a string value with no length limit.""" value_cls = str is_complex = True class TextListField(TextField): """Like TextField, but for lists of text.""" is_list = True def __init__(self, *args, **kwargs): self.list_elem_name = kwargs.pop("list_elem_name", "String") super().__init__(*args, **kwargs) def list_elem_request_tag(self): return f"t:{self.list_elem_name}" def list_elem_response_tag(self): return f"{{{self.namespace}}}{self.list_elem_name}" def from_xml(self, elem, account): iter_elem = elem.find(self.response_tag()) if iter_elem is not None: return get_xml_attrs(iter_elem, self.list_elem_response_tag()) return self.default def to_xml(self, value, version): field_elem = create_element(self.request_tag()) for v in value: field_elem.append(set_xml_value(create_element(self.list_elem_request_tag()), v, version=version)) return field_elem class MessageField(TextField): """A field that handles the Message element.""" INNER_ELEMENT_NAME = "Message" def from_xml(self, elem, account): reply = elem.find(self.response_tag()) if reply is None: return None message = reply.find(f"{{{TNS}}}{self.INNER_ELEMENT_NAME}") if message is None: return None return message.text def to_xml(self, value, version): field_elem = create_element(self.request_tag()) message = create_element(f"t:{self.INNER_ELEMENT_NAME}") message.text = value return set_xml_value(field_elem, message, version=version) class CharField(TextField): """A field that stores a string value with a limited length.""" is_complex = False def __init__(self, *args, **kwargs): self.max_length = kwargs.pop("max_length", 255) if not 1 <= self.max_length <= 255: # A field supporting messages longer than 255 chars should be TextField raise ValueError("'max_length' must be in the range 1-255") super().__init__(*args, **kwargs) def clean(self, value, version=None): value = super().clean(value, version=version) if value is not None and len(value) > self.max_length: raise ValueError(f"{self.name!r} value {value!r} exceeds length {self.max_length}") return value class IdField(CharField): """A field to hold the 'Id' and 'Changekey' attributes on 'ItemId' type items. There is no guaranteed max length, but we can assume 512 bytes in practice. See https://docs.microsoft.com/en-us/exchange/client-developer/exchange-web-services/ews-identifiers-in-exchange """ def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.max_length = 512 # This is above the normal 255 limit, but this is actually an attribute, not a field self.is_searchable = False self.is_attribute = True class CharListField(TextListField): """Like TextListField, but for string values with a limited length.""" def __init__(self, *args, **kwargs): self.max_length = kwargs.pop("max_length", 255) if not 1 <= self.max_length <= 255: # A field supporting messages longer than 255 chars should be TextField raise ValueError("'max_length' must be in the range 1-255") super().__init__(*args, **kwargs) def clean(self, value, version=None): value = super().clean(value, version=version) if value is not None: for v in value: if len(v) > self.max_length: raise ValueError(f"{self.name!r} value {v!r} exceeds length {self.max_length}") return value class URIField(TextField): """Helper to mark strings that must conform to xsd:anyURI. If we want a URI validator, see https://stackoverflow.com/questions/14466585/is-this-regex-correct-for-xsdanyuri """ class EmailAddressField(CharField): """A helper class used for email address string that we can use for email validation.""" class CultureField(CharField): """Helper to mark strings that are # RFC 1766 culture values.""" class Choice(SupportedVersionInstanceMixIn): """Implement versioned choices for the ChoiceField field.""" def __init__(self, value, *args, **kwargs): self.value = value super().__init__(*args, **kwargs) class ChoiceField(CharField): """Like CharField, but restricts the value to a limited set of strings.""" def __init__(self, *args, **kwargs): self.choices = kwargs.pop("choices") super().__init__(*args, **kwargs) def clean(self, value, version=None): value = super().clean(value, version=version) if value is None: return None valid_choices = [c.value for c in self.choices] if version: valid_choices_for_version = self.supported_choices(version=version) if value in valid_choices_for_version: return value if value in valid_choices: raise InvalidChoiceForVersion( f"Choice {self.name!r} only supports server versions from {self.supported_from or '*'} to " f"{self.deprecated_from or '*'} (server has {version})" ) else: if value in valid_choices: return value raise ValueError(f"Invalid choice {value!r} for field {self.name!r}. Valid choices are {sorted(valid_choices)}") def supported_choices(self, version): return tuple(c.value for c in self.choices if c.supports_version(version)) FREE_BUSY_CHOICES = [ Choice("Free"), Choice("Tentative"), Choice("Busy"), Choice("OOF"), Choice("NoData"), Choice("WorkingElsewhere", supported_from=EXCHANGE_2013), ] class FreeBusyStatusField(ChoiceField): """Like ChoiceField, but specifically for Free/Busy values.""" def __init__(self, *args, **kwargs): kwargs["choices"] = set(FREE_BUSY_CHOICES) super().__init__(*args, **kwargs) class BodyField(TextField): """A TextField with specific requirements for the Item body.""" def __init__(self, *args, **kwargs): from .properties import Body self.value_cls = Body super().__init__(*args, **kwargs) def clean(self, value, version=None): if value is not None and not isinstance(value, self.value_cls): value = self.value_cls(value) return super().clean(value, version=version) def from_xml(self, elem, account): from .properties import Body, HTMLBody field_elem = elem.find(self.response_tag()) val = None if field_elem is None else field_elem.text or None if val is not None: body_type = field_elem.get("BodyType") return {Body.body_type: Body, HTMLBody.body_type: HTMLBody}[body_type](val) return self.default def to_xml(self, value, version): from .properties import Body, HTMLBody body_type = { Body: Body.body_type, HTMLBody: HTMLBody.body_type, }[type(value)] field_elem = create_element(self.request_tag(), attrs=dict(BodyType=body_type)) return set_xml_value(field_elem, value, version=version) class EWSElementField(FieldURIField): """A generic field for any EWSElement object.""" def __init__(self, *args, **kwargs): self._value_cls = kwargs.pop("value_cls") if "namespace" not in kwargs: kwargs["namespace"] = self.value_cls.NAMESPACE super().__init__(*args, **kwargs) @property def value_cls(self): if isinstance(self._value_cls, str): # Support 'value_cls' as string to allow self-referencing classes. The class must be importable from the # top-level module. self._value_cls = getattr(import_module(self.__module__.split(".")[0]), self._value_cls) return self._value_cls def from_xml(self, elem, account): if self.is_list: iter_elem = elem.find(self.response_tag()) if iter_elem is not None: return [ self.value_cls.from_xml(elem=e, account=account) for e in iter_elem.findall(self.value_cls.response_tag()) ] else: if self.field_uri is None: sub_elem = elem.find(self.value_cls.response_tag()) else: sub_elem = elem.find(self.response_tag()) if sub_elem is not None: return self.value_cls.from_xml(elem=sub_elem, account=account) return self.default def to_xml(self, value, version): if self.field_uri is None: return value.to_xml(version=version) field_elem = create_element(self.request_tag()) return set_xml_value(field_elem, value, version=version) class EWSElementListField(EWSElementField): """Like EWSElementField, but for lists of EWSElement objects.""" is_list = True is_complex = True class TransitionListField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import BaseTransition kwargs["value_cls"] = BaseTransition super().__init__(*args, **kwargs) def from_xml(self, elem, account): iter_elem = elem.find(self.response_tag()) if self.field_uri else elem if iter_elem is not None: return [ self.value_cls.transition_model_from_tag(e.tag).from_xml(elem=e, account=account) for e in iter_elem ] return self.default class AssociatedCalendarItemIdField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .properties import AssociatedCalendarItemId kwargs["value_cls"] = AssociatedCalendarItemId super().__init__(*args, **kwargs) def to_xml(self, value, version): return value.to_xml(version=version) class RecurrenceField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .recurrence import Recurrence kwargs["value_cls"] = Recurrence super().__init__(*args, **kwargs) def to_xml(self, value, version): return value.to_xml(version=version) class TaskRecurrenceField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .recurrence import TaskRecurrence kwargs["value_cls"] = TaskRecurrence super().__init__(*args, **kwargs) def to_xml(self, value, version): return value.to_xml(version=version) class ReferenceItemIdField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .properties import ReferenceItemId kwargs["value_cls"] = ReferenceItemId super().__init__(*args, **kwargs) def to_xml(self, value, version): return value.to_xml(version=version) class OccurrenceField(EWSElementField): is_complex = True class OccurrenceListField(OccurrenceField): is_list = True class MessageHeaderField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import MessageHeader kwargs["value_cls"] = MessageHeader super().__init__(*args, **kwargs) class BaseEmailField(EWSElementField, metaclass=abc.ABCMeta): """Base class for EWSElement classes that have an 'email_address' field that we want to provide helpers for.""" is_complex = True # FindItem only returns the name, not the email address def clean(self, value, version=None): if isinstance(value, str): value = self.value_cls(email_address=value) return super().clean(value, version=version) def from_xml(self, elem, account): if self.field_uri is None: sub_elem = elem.find(self.value_cls.response_tag()) else: sub_elem = elem.find(self.response_tag()) if sub_elem is not None: if self.field_uri is not None: # We want the nested Mailbox, not the wrapper element nested_elem = sub_elem.find(self.value_cls.response_tag()) if nested_elem is None: raise ValueError( f"Expected XML element {self.value_cls.response_tag()!r} missing on field {self.name!r}" ) return self.value_cls.from_xml(elem=nested_elem, account=account) return self.value_cls.from_xml(elem=sub_elem, account=account) return self.default class EmailField(BaseEmailField): def __init__(self, *args, **kwargs): from .properties import Email kwargs["value_cls"] = Email super().__init__(*args, **kwargs) class RecipientAddressField(BaseEmailField): def __init__(self, *args, **kwargs): from .properties import RecipientAddress kwargs["value_cls"] = RecipientAddress super().__init__(*args, **kwargs) class MailboxField(BaseEmailField): def __init__(self, *args, **kwargs): from .properties import Mailbox kwargs["value_cls"] = Mailbox super().__init__(*args, **kwargs) class MailboxListField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import Mailbox kwargs["value_cls"] = Mailbox super().__init__(*args, **kwargs) def clean(self, value, version=None): if value is not None: value = [self.value_cls(email_address=s) if isinstance(s, str) else s for s in value] return super().clean(value, version=version) class AddressListField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import Address kwargs["value_cls"] = Address super().__init__(*args, **kwargs) def clean(self, value, version=None): if value is not None: value = [self.value_cls(email_address=s) if isinstance(s, str) else s for s in value] return super().clean(value, version=version) class MemberListField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import Member kwargs["value_cls"] = Member super().__init__(*args, **kwargs) def clean(self, value, version=None): from .properties import Mailbox if value is not None: value = [self.value_cls(mailbox=Mailbox(email_address=s)) if isinstance(s, str) else s for s in value] return super().clean(value, version=version) class AttendeesField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import Attendee kwargs["value_cls"] = Attendee super().__init__(*args, **kwargs) def clean(self, value, version=None): from .properties import Mailbox if value is not None: value = [ self.value_cls(mailbox=Mailbox(email_address=s), response_type="Accept") if isinstance(s, str) else s for s in value ] return super().clean(value, version=version) class AttachmentField(EWSElementListField): """A field for item attachments.""" def __init__(self, *args, **kwargs): from .attachments import Attachment kwargs["value_cls"] = Attachment super().__init__(*args, **kwargs) def from_xml(self, elem, account): from .attachments import FileAttachment, ItemAttachment iter_elem = elem.find(self.response_tag()) # Look for both FileAttachment and ItemAttachment if iter_elem is not None: attachments = [] for att_type in (ItemAttachment, FileAttachment): attachments.extend( [att_type.from_xml(elem=e, account=account) for e in iter_elem.findall(att_type.response_tag())] ) return attachments return self.default class LabelField(ChoiceField): """A field to hold the label on an IndexedElement.""" def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.is_attribute = True def from_xml(self, elem, account): return elem.get(self.field_uri) class SubField(Field): """A field to hold the value on an IndexedElement.""" namespace = TNS value_cls = str def from_xml(self, elem, account): return elem.text def to_xml(self, value, version): return value @staticmethod def field_uri_xml(field_uri, label): from .properties import IndexedFieldURI return IndexedFieldURI(field_uri=field_uri, field_index=label).to_xml(version=None) def clean(self, value, version=None): value = super().clean(value, version=version) if self.is_required and not value: raise ValueError(f"Value for subfield {self.name!r} must be non-empty") return value def __hash__(self): return hash(self.name) class EmailSubField(SubField): """A field to hold the value on an SingleFieldIndexedElement.""" value_cls = str def from_xml(self, elem, account): return elem.text or elem.get("Name") # Sometimes elem.text is empty. Exchange saves the same in 'Name' attr class NamedSubField(SubField): """A field to hold the value on an MultiFieldIndexedElement.""" value_cls = str def __init__(self, *args, **kwargs): self.field_uri = kwargs.pop("field_uri") if ":" in self.field_uri: raise ValueError("'field_uri' value must not contain a colon") super().__init__(*args, **kwargs) def from_xml(self, elem, account): field_elem = elem.find(self.response_tag()) val = None if field_elem is None else field_elem.text or None if val is not None: return val return self.default def to_xml(self, value, version): field_elem = create_element(self.request_tag()) return set_xml_value(field_elem, value, version=version) def field_uri_xml(self, field_uri, label): from .properties import IndexedFieldURI return IndexedFieldURI(field_uri=f"{field_uri}:{self.field_uri}", field_index=label).to_xml(version=None) def request_tag(self): return f"t:{self.field_uri}" def response_tag(self): return f"{{{self.namespace}}}{self.field_uri}" class IndexedField(EWSElementField, metaclass=abc.ABCMeta): """A base class for all indexed fields.""" is_list = True is_complex = True PARENT_ELEMENT_NAME = None def __init__(self, *args, **kwargs): from .indexed_properties import IndexedElement value_cls = kwargs["value_cls"] if not issubclass(value_cls, IndexedElement): raise TypeError(f"'value_cls' {value_cls!r} must be a subclass of type {IndexedElement}") super().__init__(*args, **kwargs) def to_xml(self, value, version): return set_xml_value(create_element(f"t:{self.PARENT_ELEMENT_NAME}"), value, version=version) def response_tag(self): return f"{{{self.namespace}}}{self.PARENT_ELEMENT_NAME}" def __hash__(self): return hash(self.field_uri) class SingleFieldIndexedField(IndexedField): """A base class for all single-field indexed fields.""" def __init__(self, *args, **kwargs): from .indexed_properties import SingleFieldIndexedElement value_cls = kwargs["value_cls"] if not issubclass(value_cls, SingleFieldIndexedElement): raise TypeError(f"'value_cls' {value_cls!r} must be a subclass of type {SingleFieldIndexedElement}") super().__init__(*args, **kwargs) def clean(self, value, version=None): if value is not None: default_labels = self.value_cls.LABEL_CHOICES if len(value) > len(default_labels): raise ValueError(f"This field can handle at most {len(default_labels)} values (value: {value})") tmp = [] value_field_name = self.value_cls.value_field(version=version).name for s, default_label in zip(value, default_labels): if not isinstance(s, str): tmp.append(s) continue tmp.append(self.value_cls(**{"label": default_label, value_field_name: s})) value = tmp return super().clean(value, version=version) class EmailAddressesField(SingleFieldIndexedField): PARENT_ELEMENT_NAME = "EmailAddresses" def __init__(self, *args, **kwargs): from .indexed_properties import EmailAddress kwargs["value_cls"] = EmailAddress super().__init__(*args, **kwargs) class ImAddressField(SingleFieldIndexedField): PARENT_ELEMENT_NAME = "ImAddresses" def __init__(self, *args, **kwargs): from .indexed_properties import ImAddress kwargs["value_cls"] = ImAddress super().__init__(*args, **kwargs) class PhoneNumberField(SingleFieldIndexedField): PARENT_ELEMENT_NAME = "PhoneNumbers" def __init__(self, *args, **kwargs): from .indexed_properties import PhoneNumber kwargs["value_cls"] = PhoneNumber super().__init__(*args, **kwargs) class PhysicalAddressField(IndexedField): is_list = True is_complex = True PARENT_ELEMENT_NAME = "PhysicalAddresses" def __init__(self, *args, **kwargs): from .indexed_properties import PhysicalAddress kwargs["value_cls"] = PhysicalAddress super().__init__(*args, **kwargs) class ExtendedPropertyField(Field): is_complex = True def __init__(self, *args, **kwargs): self.value_cls = kwargs.pop("value_cls") super().__init__(*args, **kwargs) def clean(self, value, version=None): if value is None: if self.is_required: raise ValueError(f"{self.name!r} is a required field") return self.default if not isinstance(value, self.value_cls): # Allow keeping ExtendedProperty field values as their simple Python type, but run clean() anyway tmp = self.value_cls(value) tmp.clean(version=version) return value value.clean(version=version) return value def field_uri_xml(self): from .properties import ExtendedFieldURI cls = self.value_cls return ExtendedFieldURI( distinguished_property_set_id=cls.distinguished_property_set_id, property_set_id=cls.property_set_id.lower() if cls.property_set_id else None, property_tag=cls.property_tag_as_hex(), property_name=cls.property_name, property_id=value_to_xml_text(cls.property_id) if cls.property_id else None, property_type=cls.property_type, ).to_xml(version=None) def from_xml(self, elem, account): extended_properties = elem.findall(self.value_cls.response_tag()) for extended_property in extended_properties: if self.value_cls.is_property_instance(extended_property): return self.value_cls.from_xml(elem=extended_property, account=account) return self.default def to_xml(self, value, version): extended_property = create_element(self.value_cls.request_tag()) set_xml_value(extended_property, self.field_uri_xml(), version=version) if isinstance(value, self.value_cls): return set_xml_value(extended_property, value, version=version) # Allow keeping ExtendedProperty field values as their simple Python type return set_xml_value(extended_property, self.value_cls(value), version=version) def __hash__(self): return hash(self.name) class ExtendedPropertyListField(ExtendedPropertyField): is_list = True class ItemField(FieldURIField): @property def value_cls(self): from .items import Item return Item def from_xml(self, elem, account): from .items import ITEM_CLASSES for item_cls in ITEM_CLASSES: item_elem = elem.find(item_cls.response_tag()) if item_elem is not None: return item_cls.from_xml(elem=item_elem, account=account) return None def to_xml(self, value, version): # We don't want to wrap in an Item element return value.to_xml(version=version) class UnknownEntriesField(CharListField): def list_elem_tag(self): return f"{{{self.namespace}}}UnknownEntry" class PermissionSetField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .properties import PermissionSet kwargs["value_cls"] = PermissionSet super().__init__(*args, **kwargs) def to_xml(self, value, version): return value.to_xml(version=version) class EffectiveRightsField(EWSElementField): def __init__(self, *args, **kwargs): from .properties import EffectiveRights kwargs["value_cls"] = EffectiveRights super().__init__(*args, **kwargs) class RoutingTypeField(ChoiceField): def __init__(self, *args, **kwargs): kwargs["choices"] = {Choice("SMTP"), Choice("EX")} kwargs["default"] = "SMTP" super().__init__(*args, **kwargs) class IdElementField(EWSElementField): def __init__(self, *args, **kwargs): kwargs["is_searchable"] = False kwargs["is_read_only"] = True super().__init__(*args, **kwargs) class TypeValueField(FieldURIField): """This field type has no value_cls because values may have many types.""" TYPES_MAP = { "Boolean": bool, "Integer32": int, "UnsignedInteger32": int, "Integer64": int, "UnsignedInteger64": int, # Python doesn't have a single-byte type to represent 'Byte' "ByteArray": bytes, "String": str, "StringArray": str, # A list of strings "DateTime": EWSDateTime, } TYPES_MAP_REVERSED = { bool: "Boolean", int: "Integer64", # Python doesn't have a single-byte type to represent 'Byte' bytes: "ByteArray", str: "String", datetime.datetime: "DateTime", EWSDateTime: "DateTime", } @classmethod def get_type(cls, value): if isinstance(value, bytes) and len(value) == 1: # This is a single byte. Translate it to the 'Byte' type return "Byte" if is_iterable(value): # We don't allow generators as values, so keep the logic simple try: first = next(iter(value)) except StopIteration: first = None value_type = f"{cls.TYPES_MAP_REVERSED[type(first)]}Array" if value_type not in cls.TYPES_MAP: raise ValueError(f"{value!r} is not a supported type") return value_type return cls.TYPES_MAP_REVERSED[type(value)] @classmethod def is_array_type(cls, value_type): return value_type == "StringArray" def clean(self, value, version=None): if value is None: if self.is_required and self.default is None: raise ValueError(f"{self.name!r} is a required field with no default") return self.default return value def from_xml(self, elem, account): field_elem = elem.find(self.response_tag()) if field_elem is None: return self.default value_type_str = get_xml_attr(field_elem, f"{{{TNS}}}Type") value = get_xml_attr(field_elem, f"{{{TNS}}}Value") if value_type_str == "Byte": try: # The value is an unsigned integer in the range 0 -> 255. Convert it to a single byte return xml_text_to_value(value, int).to_bytes(1, "little", signed=False) except OverflowError as e: log.warning("Invalid byte value %r (%e)", value, e) return None value_type = self.TYPES_MAP[value_type_str] if self.is_array_type(value_type_str): return tuple(xml_text_to_value(value=v, value_type=value_type) for v in value.split(" ")) return xml_text_to_value(value=value, value_type=value_type) def to_xml(self, value, version): value_type_str = self.get_type(value) if value_type_str == "Byte": # A single byte is encoded to an unsigned integer in the range 0 -> 255 value = int.from_bytes(value, byteorder="little", signed=False) elif is_iterable(value): value = " ".join(value_to_xml_text(v) for v in value) field_elem = create_element(self.request_tag()) field_elem.append(set_xml_value(create_element("t:Type"), value_type_str, version=version)) field_elem.append(set_xml_value(create_element("t:Value"), value, version=version)) return field_elem class DictionaryField(FieldURIField): value_cls = dict def from_xml(self, elem, account): from .properties import DictionaryEntry iter_elem = elem.find(self.response_tag()) if iter_elem is not None: entries = [ DictionaryEntry.from_xml(elem=e, account=account) for e in iter_elem.findall(DictionaryEntry.response_tag()) ] return {e.key: e.value for e in entries} return self.default def clean(self, value, version=None): if isinstance(value, dict): cleaned = {} for k, v in value.items(): if type(k) is datetime.datetime: k = EWSDateTime.from_datetime(k) if type(v) is datetime.datetime: v = EWSDateTime.from_datetime(v) cleaned[k] = v value = cleaned return super().clean(value=value, version=version) def to_xml(self, value, version): from .properties import DictionaryEntry field_elem = create_element(self.request_tag()) entries = [DictionaryEntry(key=k, value=v) for k, v in value.items()] return set_xml_value(field_elem, entries, version=version) class PersonaPhoneNumberField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .properties import PhoneNumber kwargs["value_cls"] = PhoneNumber super().__init__(*args, **kwargs) class BodyContentAttributedValueField(EWSElementField): is_complex = True def __init__(self, *args, **kwargs): from .properties import BodyContentAttributedValue kwargs["value_cls"] = BodyContentAttributedValue super().__init__(*args, **kwargs) class StringAttributedValueField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import StringAttributedValue kwargs["value_cls"] = StringAttributedValue super().__init__(*args, **kwargs) class PhoneNumberAttributedValueField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import PhoneNumberAttributedValue kwargs["value_cls"] = PhoneNumberAttributedValue super().__init__(*args, **kwargs) class EmailAddressAttributedValueField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import EmailAddressAttributedValue kwargs["value_cls"] = EmailAddressAttributedValue super().__init__(*args, **kwargs) class PostalAddressAttributedValueField(EWSElementListField): def __init__(self, *args, **kwargs): from .properties import PostalAddressAttributedValue kwargs["value_cls"] = PostalAddressAttributedValue super().__init__(*args, **kwargs) class GenericEventListField(EWSElementField): """A list field that can contain all subclasses of Event.""" is_list = True @property def _event_types_map(self): return {v.response_tag(): v for v in self.value_classes} def __init__(self, *args, **kwargs): from .properties import ( CopiedEvent, CreatedEvent, DeletedEvent, FreeBusyChangedEvent, ModifiedEvent, MovedEvent, NewMailEvent, StatusEvent, ) kwargs["value_cls"] = None # Parent class requires this kwarg kwargs["namespace"] = None # Parent class requires this kwarg super().__init__(*args, **kwargs) self.value_classes = ( CopiedEvent, CreatedEvent, DeletedEvent, ModifiedEvent, MovedEvent, NewMailEvent, StatusEvent, FreeBusyChangedEvent, ) def from_xml(self, elem, account): events = [] for event in elem: # This may or may not be an event element. Could also be other child elements of Notification try: value_cls = self._event_types_map[event.tag] except KeyError: continue events.append(value_cls.from_xml(elem=event, account=account)) return events or self.default FLAG_ACTION_CHOICES = [ Choice("Any"), Choice("Call"), Choice("DoNotForward"), Choice("FollowUp"), Choice("FYI"), Choice("Forward"), Choice("NoResponseNecessary"), Choice("Read"), Choice("Reply"), Choice("ReplyToAll"), Choice("Review"), ] class FlaggedForActionField(ChoiceField): """ A field specifies the flag for action value that must appear on incoming messages in order for the condition or exception to apply. """ def __init__(self, *args, **kwargs): kwargs["choices"] = FLAG_ACTION_CHOICES super().__init__(*args, **kwargs) IMPORTANCE_CHOICES = [ Choice("Low"), Choice("Normal"), Choice("High"), ] class ImportanceField(ChoiceField): """ A field that describes the importance of an item or the aggregated importance of all items in a conversation in the current folder. """ def __init__(self, *args, **kwargs): kwargs["choices"] = IMPORTANCE_CHOICES super().__init__(*args, **kwargs) SENSITIVITY_CHOICES = [ Choice("Normal"), Choice("Personal"), Choice("Private"), Choice("Confidential"), ] class SensitivityField(ChoiceField): """A field that indicates the sensitivity level of an item.""" def __init__(self, *args, **kwargs): kwargs["choices"] = SENSITIVITY_CHOICES super().__init__(*args, **kwargs) class FolderActionField(EWSElementField): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) def clean(self, value, version=None): from .folders import DistinguishedFolderId, Folder if isinstance(value, Folder): folder_id = value.to_id() if isinstance(folder_id, DistinguishedFolderId): value = self.value_cls(distinguished_folder_id=folder_id) else: value = self.value_cls(folder_id=folder_id) return super().clean(value, version=version)