# Copyright (c) 2006,2007,2008 Mitch Garnaat http://garnaat.org/ # # 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, dis- # tribute, sublicense, and/or sell copies of the Software, and to permit # persons to whom the Software is furnished to do so, subject to the fol- # lowing 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 MERCHANTABIL- # ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT # SHALL THE AUTHOR 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 datetime from boto.sdb.db.key import Key from boto.utils import Password from boto.sdb.db.query import Query import re import boto import boto.s3.key from boto.sdb.db.blob import Blob from boto.compat import six, long_type class Property(object): data_type = str type_name = '' name = '' verbose_name = '' def __init__(self, verbose_name=None, name=None, default=None, required=False, validator=None, choices=None, unique=False): self.verbose_name = verbose_name self.name = name self.default = default self.required = required self.validator = validator self.choices = choices if self.name: self.slot_name = '_' + self.name else: self.slot_name = '_' self.unique = unique def __get__(self, obj, objtype): if obj: obj.load() return getattr(obj, self.slot_name) else: return None def __set__(self, obj, value): self.validate(value) # Fire off any on_set functions try: if obj._loaded and hasattr(obj, "on_set_%s" % self.name): fnc = getattr(obj, "on_set_%s" % self.name) value = fnc(value) except Exception: boto.log.exception("Exception running on_set_%s" % self.name) setattr(obj, self.slot_name, value) def __property_config__(self, model_class, property_name): self.model_class = model_class self.name = property_name self.slot_name = '_' + self.name def default_validator(self, value): if isinstance(value, six.string_types) or value == self.default_value(): return if not isinstance(value, self.data_type): raise TypeError('Validation Error, %s.%s expecting %s, got %s' % (self.model_class.__name__, self.name, self.data_type, type(value))) def default_value(self): return self.default def validate(self, value): if self.required and value is None: raise ValueError('%s is a required property' % self.name) if self.choices and value and value not in self.choices: raise ValueError('%s not a valid choice for %s.%s' % (value, self.model_class.__name__, self.name)) if self.validator: self.validator(value) else: self.default_validator(value) return value def empty(self, value): return not value def get_value_for_datastore(self, model_instance): return getattr(model_instance, self.name) def make_value_from_datastore(self, value): return value def get_choices(self): if callable(self.choices): return self.choices() return self.choices def validate_string(value): if value is None: return elif isinstance(value, six.string_types): if len(value) > 1024: raise ValueError('Length of value greater than maxlength') else: raise TypeError('Expecting String, got %s' % type(value)) class StringProperty(Property): type_name = 'String' def __init__(self, verbose_name=None, name=None, default='', required=False, validator=validate_string, choices=None, unique=False): super(StringProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) class TextProperty(Property): type_name = 'Text' def __init__(self, verbose_name=None, name=None, default='', required=False, validator=None, choices=None, unique=False, max_length=None): super(TextProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.max_length = max_length def validate(self, value): value = super(TextProperty, self).validate(value) if not isinstance(value, six.string_types): raise TypeError('Expecting Text, got %s' % type(value)) if self.max_length and len(value) > self.max_length: raise ValueError('Length of value greater than maxlength %s' % self.max_length) class PasswordProperty(StringProperty): """ Hashed property whose original value can not be retrieved, but still can be compared. Works by storing a hash of the original value instead of the original value. Once that's done all that can be retrieved is the hash. The comparison obj.password == 'foo' generates a hash of 'foo' and compares it to the stored hash. Underlying data type for hashing, storing, and comparing is boto.utils.Password. The default hash function is defined there ( currently sha512 in most cases, md5 where sha512 is not available ) It's unlikely you'll ever need to use a different hash function, but if you do, you can control the behavior in one of two ways: 1) Specifying hashfunc in PasswordProperty constructor import hashlib class MyModel(model): password = PasswordProperty(hashfunc=hashlib.sha224) 2) Subclassing Password and PasswordProperty class SHA224Password(Password): hashfunc=hashlib.sha224 class SHA224PasswordProperty(PasswordProperty): data_type=MyPassword type_name="MyPassword" class MyModel(Model): password = SHA224PasswordProperty() """ data_type = Password type_name = 'Password' def __init__(self, verbose_name=None, name=None, default='', required=False, validator=None, choices=None, unique=False, hashfunc=None): """ The hashfunc parameter overrides the default hashfunc in boto.utils.Password. The remaining parameters are passed through to StringProperty.__init__""" super(PasswordProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.hashfunc = hashfunc def make_value_from_datastore(self, value): p = self.data_type(value, hashfunc=self.hashfunc) return p def get_value_for_datastore(self, model_instance): value = super(PasswordProperty, self).get_value_for_datastore(model_instance) if value and len(value): return str(value) else: return None def __set__(self, obj, value): if not isinstance(value, self.data_type): p = self.data_type(hashfunc=self.hashfunc) p.set(value) value = p super(PasswordProperty, self).__set__(obj, value) def __get__(self, obj, objtype): return self.data_type(super(PasswordProperty, self).__get__(obj, objtype), hashfunc=self.hashfunc) def validate(self, value): value = super(PasswordProperty, self).validate(value) if isinstance(value, self.data_type): if len(value) > 1024: raise ValueError('Length of value greater than maxlength') else: raise TypeError('Expecting %s, got %s' % (type(self.data_type), type(value))) class BlobProperty(Property): data_type = Blob type_name = "blob" def __set__(self, obj, value): if value != self.default_value(): if not isinstance(value, Blob): oldb = self.__get__(obj, type(obj)) id = None if oldb: id = oldb.id b = Blob(value=value, id=id) value = b super(BlobProperty, self).__set__(obj, value) class S3KeyProperty(Property): data_type = boto.s3.key.Key type_name = 'S3Key' validate_regex = "^s3:\/\/([^\/]*)\/(.*)$" def __init__(self, verbose_name=None, name=None, default=None, required=False, validator=None, choices=None, unique=False): super(S3KeyProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) def validate(self, value): value = super(S3KeyProperty, self).validate(value) if value == self.default_value() or value == str(self.default_value()): return self.default_value() if isinstance(value, self.data_type): return match = re.match(self.validate_regex, value) if match: return raise TypeError('Validation Error, expecting %s, got %s' % (self.data_type, type(value))) def __get__(self, obj, objtype): value = super(S3KeyProperty, self).__get__(obj, objtype) if value: if isinstance(value, self.data_type): return value match = re.match(self.validate_regex, value) if match: s3 = obj._manager.get_s3_connection() bucket = s3.get_bucket(match.group(1), validate=False) k = bucket.get_key(match.group(2)) if not k: k = bucket.new_key(match.group(2)) k.set_contents_from_string("") return k else: return value def get_value_for_datastore(self, model_instance): value = super(S3KeyProperty, self).get_value_for_datastore(model_instance) if value: return "s3://%s/%s" % (value.bucket.name, value.name) else: return None class IntegerProperty(Property): data_type = int type_name = 'Integer' def __init__(self, verbose_name=None, name=None, default=0, required=False, validator=None, choices=None, unique=False, max=2147483647, min=-2147483648): super(IntegerProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.max = max self.min = min def validate(self, value): value = int(value) value = super(IntegerProperty, self).validate(value) if value > self.max: raise ValueError('Maximum value is %d' % self.max) if value < self.min: raise ValueError('Minimum value is %d' % self.min) return value def empty(self, value): return value is None def __set__(self, obj, value): if value == "" or value is None: value = 0 return super(IntegerProperty, self).__set__(obj, value) class LongProperty(Property): data_type = long_type type_name = 'Long' def __init__(self, verbose_name=None, name=None, default=0, required=False, validator=None, choices=None, unique=False): super(LongProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) def validate(self, value): value = long_type(value) value = super(LongProperty, self).validate(value) min = -9223372036854775808 max = 9223372036854775807 if value > max: raise ValueError('Maximum value is %d' % max) if value < min: raise ValueError('Minimum value is %d' % min) return value def empty(self, value): return value is None class BooleanProperty(Property): data_type = bool type_name = 'Boolean' def __init__(self, verbose_name=None, name=None, default=False, required=False, validator=None, choices=None, unique=False): super(BooleanProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) def empty(self, value): return value is None class FloatProperty(Property): data_type = float type_name = 'Float' def __init__(self, verbose_name=None, name=None, default=0.0, required=False, validator=None, choices=None, unique=False): super(FloatProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) def validate(self, value): value = float(value) value = super(FloatProperty, self).validate(value) return value def empty(self, value): return value is None class DateTimeProperty(Property): """This class handles both the datetime.datetime object And the datetime.date objects. It can return either one, depending on the value stored in the database""" data_type = datetime.datetime type_name = 'DateTime' def __init__(self, verbose_name=None, auto_now=False, auto_now_add=False, name=None, default=None, required=False, validator=None, choices=None, unique=False): super(DateTimeProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.auto_now = auto_now self.auto_now_add = auto_now_add def default_value(self): if self.auto_now or self.auto_now_add: return self.now() return super(DateTimeProperty, self).default_value() def validate(self, value): if value is None: return if isinstance(value, datetime.date): return value return super(DateTimeProperty, self).validate(value) def get_value_for_datastore(self, model_instance): if self.auto_now: setattr(model_instance, self.name, self.now()) return super(DateTimeProperty, self).get_value_for_datastore(model_instance) def now(self): return datetime.datetime.utcnow() class DateProperty(Property): data_type = datetime.date type_name = 'Date' def __init__(self, verbose_name=None, auto_now=False, auto_now_add=False, name=None, default=None, required=False, validator=None, choices=None, unique=False): super(DateProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.auto_now = auto_now self.auto_now_add = auto_now_add def default_value(self): if self.auto_now or self.auto_now_add: return self.now() return super(DateProperty, self).default_value() def validate(self, value): value = super(DateProperty, self).validate(value) if value is None: return if not isinstance(value, self.data_type): raise TypeError('Validation Error, expecting %s, got %s' % (self.data_type, type(value))) def get_value_for_datastore(self, model_instance): if self.auto_now: setattr(model_instance, self.name, self.now()) val = super(DateProperty, self).get_value_for_datastore(model_instance) if isinstance(val, datetime.datetime): val = val.date() return val def now(self): return datetime.date.today() class TimeProperty(Property): data_type = datetime.time type_name = 'Time' def __init__(self, verbose_name=None, name=None, default=None, required=False, validator=None, choices=None, unique=False): super(TimeProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) def validate(self, value): value = super(TimeProperty, self).validate(value) if value is None: return if not isinstance(value, self.data_type): raise TypeError('Validation Error, expecting %s, got %s' % (self.data_type, type(value))) class ReferenceProperty(Property): data_type = Key type_name = 'Reference' def __init__(self, reference_class=None, collection_name=None, verbose_name=None, name=None, default=None, required=False, validator=None, choices=None, unique=False): super(ReferenceProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.reference_class = reference_class self.collection_name = collection_name def __get__(self, obj, objtype): if obj: value = getattr(obj, self.slot_name) if value == self.default_value(): return value # If the value is still the UUID for the referenced object, we need to create # the object now that is the attribute has actually been accessed. This lazy # instantiation saves unnecessary roundtrips to SimpleDB if isinstance(value, six.string_types): value = self.reference_class(value) setattr(obj, self.name, value) return value def __set__(self, obj, value): """Don't allow this object to be associated to itself This causes bad things to happen""" if value is not None and (obj.id == value or (hasattr(value, "id") and obj.id == value.id)): raise ValueError("Can not associate an object with itself!") return super(ReferenceProperty, self).__set__(obj, value) def __property_config__(self, model_class, property_name): super(ReferenceProperty, self).__property_config__(model_class, property_name) if self.collection_name is None: self.collection_name = '%s_%s_set' % (model_class.__name__.lower(), self.name) if hasattr(self.reference_class, self.collection_name): raise ValueError('duplicate property: %s' % self.collection_name) setattr(self.reference_class, self.collection_name, _ReverseReferenceProperty(model_class, property_name, self.collection_name)) def check_uuid(self, value): # This does a bit of hand waving to "type check" the string t = value.split('-') if len(t) != 5: raise ValueError def check_instance(self, value): try: obj_lineage = value.get_lineage() cls_lineage = self.reference_class.get_lineage() if obj_lineage.startswith(cls_lineage): return raise TypeError('%s not instance of %s' % (obj_lineage, cls_lineage)) except: raise ValueError('%s is not a Model' % value) def validate(self, value): if self.validator: self.validator(value) if self.required and value is None: raise ValueError('%s is a required property' % self.name) if value == self.default_value(): return if not isinstance(value, six.string_types): self.check_instance(value) class _ReverseReferenceProperty(Property): data_type = Query type_name = 'query' def __init__(self, model, prop, name): self.__model = model self.__property = prop self.collection_name = prop self.name = name self.item_type = model def __get__(self, model_instance, model_class): """Fetches collection of model instances of this collection property.""" if model_instance is not None: query = Query(self.__model) if isinstance(self.__property, list): props = [] for prop in self.__property: props.append("%s =" % prop) return query.filter(props, model_instance) else: return query.filter(self.__property + ' =', model_instance) else: return self def __set__(self, model_instance, value): """Not possible to set a new collection.""" raise ValueError('Virtual property is read-only') class CalculatedProperty(Property): def __init__(self, verbose_name=None, name=None, default=None, required=False, validator=None, choices=None, calculated_type=int, unique=False, use_method=False): super(CalculatedProperty, self).__init__(verbose_name, name, default, required, validator, choices, unique) self.calculated_type = calculated_type self.use_method = use_method def __get__(self, obj, objtype): value = self.default_value() if obj: try: value = getattr(obj, self.slot_name) if self.use_method: value = value() except AttributeError: pass return value def __set__(self, obj, value): """Not possible to set a new AutoID.""" pass def _set_direct(self, obj, value): if not self.use_method: setattr(obj, self.slot_name, value) def get_value_for_datastore(self, model_instance): if self.calculated_type in [str, int, bool]: value = self.__get__(model_instance, model_instance.__class__) return value else: return None class ListProperty(Property): data_type = list type_name = 'List' def __init__(self, item_type, verbose_name=None, name=None, default=None, **kwds): if default is None: default = [] self.item_type = item_type super(ListProperty, self).__init__(verbose_name, name, default=default, required=True, **kwds) def validate(self, value): if self.validator: self.validator(value) if value is not None: if not isinstance(value, list): value = [value] if self.item_type in six.integer_types: item_type = six.integer_types elif self.item_type in six.string_types: item_type = six.string_types else: item_type = self.item_type for item in value: if not isinstance(item, item_type): if item_type == six.integer_types: raise ValueError('Items in the %s list must all be integers.' % self.name) else: raise ValueError('Items in the %s list must all be %s instances' % (self.name, self.item_type.__name__)) return value def empty(self, value): return value is None def default_value(self): return list(super(ListProperty, self).default_value()) def __set__(self, obj, value): """Override the set method to allow them to set the property to an instance of the item_type instead of requiring a list to be passed in""" if self.item_type in six.integer_types: item_type = six.integer_types elif self.item_type in six.string_types: item_type = six.string_types else: item_type = self.item_type if isinstance(value, item_type): value = [value] elif value is None: # Override to allow them to set this to "None" to remove everything value = [] return super(ListProperty, self).__set__(obj, value) class MapProperty(Property): data_type = dict type_name = 'Map' def __init__(self, item_type=str, verbose_name=None, name=None, default=None, **kwds): if default is None: default = {} self.item_type = item_type super(MapProperty, self).__init__(verbose_name, name, default=default, required=True, **kwds) def validate(self, value): value = super(MapProperty, self).validate(value) if value is not None: if not isinstance(value, dict): raise ValueError('Value must of type dict') if self.item_type in six.integer_types: item_type = six.integer_types elif self.item_type in six.string_types: item_type = six.string_types else: item_type = self.item_type for key in value: if not isinstance(value[key], item_type): if item_type == six.integer_types: raise ValueError('Values in the %s Map must all be integers.' % self.name) else: raise ValueError('Values in the %s Map must all be %s instances' % (self.name, self.item_type.__name__)) return value def empty(self, value): return value is None def default_value(self): return {}