import datetime import posixpath from django import forms from django.core import checks from django.core.files.base import File from django.core.files.images import ImageFile from django.core.files.storage import Storage, default_storage from django.core.files.utils import validate_file_name from django.db.models import signals from django.db.models.fields import Field from django.db.models.query_utils import DeferredAttribute from django.db.models.utils import AltersData from django.utils.translation import gettext_lazy as _ class FieldFile(File, AltersData): def __init__(self, instance, field, name): super().__init__(None, name) self.instance = instance self.field = field self.storage = field.storage self._committed = True def __eq__(self, other): # Older code may be expecting FileField values to be simple strings. # By overriding the == operator, it can remain backwards compatibility. if hasattr(other, "name"): return self.name == other.name return self.name == other def __hash__(self): return hash(self.name) # The standard File contains most of the necessary properties, but # FieldFiles can be instantiated without a name, so that needs to # be checked for here. def _require_file(self): if not self: raise ValueError( "The '%s' attribute has no file associated with it." % self.field.name ) def _get_file(self): self._require_file() if getattr(self, "_file", None) is None: self._file = self.storage.open(self.name, "rb") return self._file def _set_file(self, file): self._file = file def _del_file(self): del self._file file = property(_get_file, _set_file, _del_file) @property def path(self): self._require_file() return self.storage.path(self.name) @property def url(self): self._require_file() return self.storage.url(self.name) @property def size(self): self._require_file() if not self._committed: return self.file.size return self.storage.size(self.name) def open(self, mode="rb"): self._require_file() if getattr(self, "_file", None) is None: self.file = self.storage.open(self.name, mode) else: self.file.open(mode) return self # open() doesn't alter the file's contents, but it does reset the pointer open.alters_data = True # In addition to the standard File API, FieldFiles have extra methods # to further manipulate the underlying file, as well as update the # associated model instance. def save(self, name, content, save=True): name = self.field.generate_filename(self.instance, name) self.name = self.storage.save(name, content, max_length=self.field.max_length) setattr(self.instance, self.field.attname, self.name) self._committed = True # Save the object because it has changed, unless save is False if save: self.instance.save() save.alters_data = True def delete(self, save=True): if not self: return # Only close the file if it's already open, which we know by the # presence of self._file if hasattr(self, "_file"): self.close() del self.file self.storage.delete(self.name) self.name = None setattr(self.instance, self.field.attname, self.name) self._committed = False if save: self.instance.save() delete.alters_data = True @property def closed(self): file = getattr(self, "_file", None) return file is None or file.closed def close(self): file = getattr(self, "_file", None) if file is not None: file.close() def __getstate__(self): # FieldFile needs access to its associated model field, an instance and # the file's name. Everything else will be restored later, by # FileDescriptor below. return { "name": self.name, "closed": False, "_committed": True, "_file": None, "instance": self.instance, "field": self.field, } def __setstate__(self, state): self.__dict__.update(state) self.storage = self.field.storage class FileDescriptor(DeferredAttribute): """ The descriptor for the file attribute on the model instance. Return a FieldFile when accessed so you can write code like:: >>> from myapp.models import MyModel >>> instance = MyModel.objects.get(pk=1) >>> instance.file.size Assign a file object on assignment so you can do:: >>> with open('/path/to/hello.world') as f: ... instance.file = File(f) """ def __get__(self, instance, cls=None): if instance is None: return self # This is slightly complicated, so worth an explanation. # instance.file needs to ultimately return some instance of `File`, # probably a subclass. Additionally, this returned object needs to have # the FieldFile API so that users can easily do things like # instance.file.path and have that delegated to the file storage engine. # Easy enough if we're strict about assignment in __set__, but if you # peek below you can see that we're not. So depending on the current # value of the field we have to dynamically construct some sort of # "thing" to return. # The instance dict contains whatever was originally assigned # in __set__. file = super().__get__(instance, cls) # If this value is a string (instance.file = "path/to/file") or None # then we simply wrap it with the appropriate attribute class according # to the file field. [This is FieldFile for FileFields and # ImageFieldFile for ImageFields; it's also conceivable that user # subclasses might also want to subclass the attribute class]. This # object understands how to convert a path to a file, and also how to # handle None. if isinstance(file, str) or file is None: attr = self.field.attr_class(instance, self.field, file) instance.__dict__[self.field.attname] = attr # Other types of files may be assigned as well, but they need to have # the FieldFile interface added to them. Thus, we wrap any other type of # File inside a FieldFile (well, the field's attr_class, which is # usually FieldFile). elif isinstance(file, File) and not isinstance(file, FieldFile): file_copy = self.field.attr_class(instance, self.field, file.name) file_copy.file = file file_copy._committed = False instance.__dict__[self.field.attname] = file_copy # Finally, because of the (some would say boneheaded) way pickle works, # the underlying FieldFile might not actually itself have an associated # file. So we need to reset the details of the FieldFile in those cases. elif isinstance(file, FieldFile) and not hasattr(file, "field"): file.instance = instance file.field = self.field file.storage = self.field.storage # Make sure that the instance is correct. elif isinstance(file, FieldFile) and instance is not file.instance: file.instance = instance # That was fun, wasn't it? return instance.__dict__[self.field.attname] def __set__(self, instance, value): instance.__dict__[self.field.attname] = value class FileField(Field): # The class to wrap instance attributes in. Accessing the file object off # the instance will always return an instance of attr_class. attr_class = FieldFile # The descriptor to use for accessing the attribute off of the class. descriptor_class = FileDescriptor description = _("File") def __init__( self, verbose_name=None, name=None, upload_to="", storage=None, **kwargs ): self._primary_key_set_explicitly = "primary_key" in kwargs self.storage = storage or default_storage if callable(self.storage): # Hold a reference to the callable for deconstruct(). self._storage_callable = self.storage self.storage = self.storage() if not isinstance(self.storage, Storage): raise TypeError( "%s.storage must be a subclass/instance of %s.%s" % ( self.__class__.__qualname__, Storage.__module__, Storage.__qualname__, ) ) self.upload_to = upload_to kwargs.setdefault("max_length", 100) super().__init__(verbose_name, name, **kwargs) def check(self, **kwargs): return [ *super().check(**kwargs), *self._check_primary_key(), *self._check_upload_to(), ] def _check_primary_key(self): if self._primary_key_set_explicitly: return [ checks.Error( "'primary_key' is not a valid argument for a %s." % self.__class__.__name__, obj=self, id="fields.E201", ) ] else: return [] def _check_upload_to(self): if isinstance(self.upload_to, str) and self.upload_to.startswith("/"): return [ checks.Error( "%s's 'upload_to' argument must be a relative path, not an " "absolute path." % self.__class__.__name__, obj=self, id="fields.E202", hint="Remove the leading slash.", ) ] else: return [] def deconstruct(self): name, path, args, kwargs = super().deconstruct() if kwargs.get("max_length") == 100: del kwargs["max_length"] kwargs["upload_to"] = self.upload_to storage = getattr(self, "_storage_callable", self.storage) if storage is not default_storage: kwargs["storage"] = storage return name, path, args, kwargs def get_internal_type(self): return "FileField" def get_prep_value(self, value): value = super().get_prep_value(value) # Need to convert File objects provided via a form to string for # database insertion. if value is None: return None return str(value) def pre_save(self, model_instance, add): file = super().pre_save(model_instance, add) if file and not file._committed: # Commit the file to storage prior to saving the model file.save(file.name, file.file, save=False) return file def contribute_to_class(self, cls, name, **kwargs): super().contribute_to_class(cls, name, **kwargs) setattr(cls, self.attname, self.descriptor_class(self)) def generate_filename(self, instance, filename): """ Apply (if callable) or prepend (if a string) upload_to to the filename, then delegate further processing of the name to the storage backend. Until the storage layer, all file paths are expected to be Unix style (with forward slashes). """ if callable(self.upload_to): filename = self.upload_to(instance, filename) else: dirname = datetime.datetime.now().strftime(str(self.upload_to)) filename = posixpath.join(dirname, filename) filename = validate_file_name(filename, allow_relative_path=True) return self.storage.generate_filename(filename) def save_form_data(self, instance, data): # Important: None means "no change", other false value means "clear" # This subtle distinction (rather than a more explicit marker) is # needed because we need to consume values that are also sane for a # regular (non Model-) Form to find in its cleaned_data dictionary. if data is not None: # This value will be converted to str and stored in the # database, so leaving False as-is is not acceptable. setattr(instance, self.name, data or "") def formfield(self, **kwargs): return super().formfield( **{ "form_class": forms.FileField, "max_length": self.max_length, **kwargs, } ) class ImageFileDescriptor(FileDescriptor): """ Just like the FileDescriptor, but for ImageFields. The only difference is assigning the width/height to the width_field/height_field, if appropriate. """ def __set__(self, instance, value): previous_file = instance.__dict__.get(self.field.attname) super().__set__(instance, value) # To prevent recalculating image dimensions when we are instantiating # an object from the database (bug #11084), only update dimensions if # the field had a value before this assignment. Since the default # value for FileField subclasses is an instance of field.attr_class, # previous_file will only be None when we are called from # Model.__init__(). The ImageField.update_dimension_fields method # hooked up to the post_init signal handles the Model.__init__() cases. # Assignment happening outside of Model.__init__() will trigger the # update right here. if previous_file is not None: self.field.update_dimension_fields(instance, force=True) class ImageFieldFile(ImageFile, FieldFile): def delete(self, save=True): # Clear the image dimensions cache if hasattr(self, "_dimensions_cache"): del self._dimensions_cache super().delete(save) class ImageField(FileField): attr_class = ImageFieldFile descriptor_class = ImageFileDescriptor description = _("Image") def __init__( self, verbose_name=None, name=None, width_field=None, height_field=None, **kwargs, ): self.width_field, self.height_field = width_field, height_field super().__init__(verbose_name, name, **kwargs) def check(self, **kwargs): return [ *super().check(**kwargs), *self._check_image_library_installed(), ] def _check_image_library_installed(self): try: from PIL import Image # NOQA except ImportError: return [ checks.Error( "Cannot use ImageField because Pillow is not installed.", hint=( "Get Pillow at https://pypi.org/project/Pillow/ " 'or run command "python -m pip install Pillow".' ), obj=self, id="fields.E210", ) ] else: return [] def deconstruct(self): name, path, args, kwargs = super().deconstruct() if self.width_field: kwargs["width_field"] = self.width_field if self.height_field: kwargs["height_field"] = self.height_field return name, path, args, kwargs def contribute_to_class(self, cls, name, **kwargs): super().contribute_to_class(cls, name, **kwargs) # Attach update_dimension_fields so that dimension fields declared # after their corresponding image field don't stay cleared by # Model.__init__, see bug #11196. # Only run post-initialization dimension update on non-abstract models if not cls._meta.abstract: signals.post_init.connect(self.update_dimension_fields, sender=cls) def update_dimension_fields(self, instance, force=False, *args, **kwargs): """ Update field's width and height fields, if defined. This method is hooked up to model's post_init signal to update dimensions after instantiating a model instance. However, dimensions won't be updated if the dimensions fields are already populated. This avoids unnecessary recalculation when loading an object from the database. Dimensions can be forced to update with force=True, which is how ImageFileDescriptor.__set__ calls this method. """ # Nothing to update if the field doesn't have dimension fields or if # the field is deferred. has_dimension_fields = self.width_field or self.height_field if not has_dimension_fields or self.attname not in instance.__dict__: return # getattr will call the ImageFileDescriptor's __get__ method, which # coerces the assigned value into an instance of self.attr_class # (ImageFieldFile in this case). file = getattr(instance, self.attname) # Nothing to update if we have no file and not being forced to update. if not file and not force: return dimension_fields_filled = not ( (self.width_field and not getattr(instance, self.width_field)) or (self.height_field and not getattr(instance, self.height_field)) ) # When both dimension fields have values, we are most likely loading # data from the database or updating an image field that already had # an image stored. In the first case, we don't want to update the # dimension fields because we are already getting their values from the # database. In the second case, we do want to update the dimensions # fields and will skip this return because force will be True since we # were called from ImageFileDescriptor.__set__. if dimension_fields_filled and not force: return # file should be an instance of ImageFieldFile or should be None. if file: width = file.width height = file.height else: # No file, so clear dimensions fields. width = None height = None # Update the width and height fields. if self.width_field: setattr(instance, self.width_field, width) if self.height_field: setattr(instance, self.height_field, height) def formfield(self, **kwargs): return super().formfield( **{ "form_class": forms.ImageField, **kwargs, } )