""" XML serializer. """ from __future__ import unicode_literals from collections import OrderedDict from xml.dom import pulldom from xml.sax import handler from xml.sax.expatreader import ExpatParser as _ExpatParser from django.apps import apps from django.conf import settings from django.core.serializers import base from django.db import DEFAULT_DB_ALIAS, models from django.utils.encoding import smart_text from django.utils.xmlutils import ( SimplerXMLGenerator, UnserializableContentError, ) class Serializer(base.Serializer): """ Serializes a QuerySet to XML. """ def indent(self, level): if self.options.get('indent') is not None: self.xml.ignorableWhitespace('\n' + ' ' * self.options.get('indent') * level) def start_serialization(self): """ Start serialization -- open the XML document and the root element. """ self.xml = SimplerXMLGenerator(self.stream, self.options.get("encoding", settings.DEFAULT_CHARSET)) self.xml.startDocument() self.xml.startElement("django-objects", {"version": "1.0"}) def end_serialization(self): """ End serialization -- end the document. """ self.indent(0) self.xml.endElement("django-objects") self.xml.endDocument() def start_object(self, obj): """ Called as each object is handled. """ if not hasattr(obj, "_meta"): raise base.SerializationError("Non-model object (%s) encountered during serialization" % type(obj)) self.indent(1) attrs = OrderedDict([("model", smart_text(obj._meta))]) if not self.use_natural_primary_keys or not hasattr(obj, 'natural_key'): obj_pk = obj._get_pk_val() if obj_pk is not None: attrs['pk'] = smart_text(obj_pk) self.xml.startElement("object", attrs) def end_object(self, obj): """ Called after handling all fields for an object. """ self.indent(1) self.xml.endElement("object") def handle_field(self, obj, field): """ Called to handle each field on an object (except for ForeignKeys and ManyToManyFields) """ self.indent(2) self.xml.startElement("field", OrderedDict([ ("name", field.name), ("type", field.get_internal_type()), ])) # Get a "string version" of the object's data. if getattr(obj, field.name) is not None: try: self.xml.characters(field.value_to_string(obj)) except UnserializableContentError: raise ValueError("%s.%s (pk:%s) contains unserializable characters" % ( obj.__class__.__name__, field.name, obj._get_pk_val())) else: self.xml.addQuickElement("None") self.xml.endElement("field") def handle_fk_field(self, obj, field): """ Called to handle a ForeignKey (we need to treat them slightly differently from regular fields). """ self._start_relational_field(field) related_att = getattr(obj, field.get_attname()) if related_att is not None: if self.use_natural_foreign_keys and hasattr(field.remote_field.model, 'natural_key'): related = getattr(obj, field.name) # If related object has a natural key, use it related = related.natural_key() # Iterable natural keys are rolled out as subelements for key_value in related: self.xml.startElement("natural", {}) self.xml.characters(smart_text(key_value)) self.xml.endElement("natural") else: self.xml.characters(smart_text(related_att)) else: self.xml.addQuickElement("None") self.xml.endElement("field") def handle_m2m_field(self, obj, field): """ Called to handle a ManyToManyField. Related objects are only serialized as references to the object's PK (i.e. the related *data* is not dumped, just the relation). """ if field.remote_field.through._meta.auto_created: self._start_relational_field(field) if self.use_natural_foreign_keys and hasattr(field.remote_field.model, 'natural_key'): # If the objects in the m2m have a natural key, use it def handle_m2m(value): natural = value.natural_key() # Iterable natural keys are rolled out as subelements self.xml.startElement("object", {}) for key_value in natural: self.xml.startElement("natural", {}) self.xml.characters(smart_text(key_value)) self.xml.endElement("natural") self.xml.endElement("object") else: def handle_m2m(value): self.xml.addQuickElement("object", attrs={ 'pk': smart_text(value._get_pk_val()) }) for relobj in getattr(obj, field.name).iterator(): handle_m2m(relobj) self.xml.endElement("field") def _start_relational_field(self, field): """ Helper to output the element for relational fields """ self.indent(2) self.xml.startElement("field", OrderedDict([ ("name", field.name), ("rel", field.remote_field.__class__.__name__), ("to", smart_text(field.remote_field.model._meta)), ])) class Deserializer(base.Deserializer): """ Deserialize XML. """ def __init__(self, stream_or_string, **options): super(Deserializer, self).__init__(stream_or_string, **options) self.event_stream = pulldom.parse(self.stream, self._make_parser()) self.db = options.pop('using', DEFAULT_DB_ALIAS) self.ignore = options.pop('ignorenonexistent', False) def _make_parser(self): """Create a hardened XML parser (no custom/external entities).""" return DefusedExpatParser() def __next__(self): for event, node in self.event_stream: if event == "START_ELEMENT" and node.nodeName == "object": self.event_stream.expandNode(node) return self._handle_object(node) raise StopIteration def _handle_object(self, node): """ Convert an node to a DeserializedObject. """ # Look up the model using the model loading mechanism. If this fails, # bail. Model = self._get_model_from_node(node, "model") # Start building a data dictionary from the object. data = {} if node.hasAttribute('pk'): data[Model._meta.pk.attname] = Model._meta.pk.to_python( node.getAttribute('pk')) # Also start building a dict of m2m data (this is saved as # {m2m_accessor_attribute : [list_of_related_objects]}) m2m_data = {} field_names = {f.name for f in Model._meta.get_fields()} # Deserialize each field. for field_node in node.getElementsByTagName("field"): # If the field is missing the name attribute, bail (are you # sensing a pattern here?) field_name = field_node.getAttribute("name") if not field_name: raise base.DeserializationError(" node is missing the 'name' attribute") # Get the field from the Model. This will raise a # FieldDoesNotExist if, well, the field doesn't exist, which will # be propagated correctly unless ignorenonexistent=True is used. if self.ignore and field_name not in field_names: continue field = Model._meta.get_field(field_name) # As is usually the case, relation fields get the special treatment. if field.remote_field and isinstance(field.remote_field, models.ManyToManyRel): m2m_data[field.name] = self._handle_m2m_field_node(field_node, field) elif field.remote_field and isinstance(field.remote_field, models.ManyToOneRel): data[field.attname] = self._handle_fk_field_node(field_node, field) else: if field_node.getElementsByTagName('None'): value = None else: value = field.to_python(getInnerText(field_node).strip()) data[field.name] = value obj = base.build_instance(Model, data, self.db) # Return a DeserializedObject so that the m2m data has a place to live. return base.DeserializedObject(obj, m2m_data) def _handle_fk_field_node(self, node, field): """ Handle a node for a ForeignKey """ # Check if there is a child node named 'None', returning None if so. if node.getElementsByTagName('None'): return None else: model = field.remote_field.model if hasattr(model._default_manager, 'get_by_natural_key'): keys = node.getElementsByTagName('natural') if keys: # If there are 'natural' subelements, it must be a natural key field_value = [getInnerText(k).strip() for k in keys] obj = model._default_manager.db_manager(self.db).get_by_natural_key(*field_value) obj_pk = getattr(obj, field.remote_field.field_name) # If this is a natural foreign key to an object that # has a FK/O2O as the foreign key, use the FK value if field.remote_field.model._meta.pk.remote_field: obj_pk = obj_pk.pk else: # Otherwise, treat like a normal PK field_value = getInnerText(node).strip() obj_pk = model._meta.get_field(field.remote_field.field_name).to_python(field_value) return obj_pk else: field_value = getInnerText(node).strip() return model._meta.get_field(field.remote_field.field_name).to_python(field_value) def _handle_m2m_field_node(self, node, field): """ Handle a node for a ManyToManyField. """ model = field.remote_field.model default_manager = model._default_manager if hasattr(default_manager, 'get_by_natural_key'): def m2m_convert(n): keys = n.getElementsByTagName('natural') if keys: # If there are 'natural' subelements, it must be a natural key field_value = [getInnerText(k).strip() for k in keys] obj_pk = default_manager.db_manager(self.db).get_by_natural_key(*field_value).pk else: # Otherwise, treat like a normal PK value. obj_pk = model._meta.pk.to_python(n.getAttribute('pk')) return obj_pk else: def m2m_convert(n): return model._meta.pk.to_python(n.getAttribute('pk')) return [m2m_convert(c) for c in node.getElementsByTagName("object")] def _get_model_from_node(self, node, attr): """ Helper to look up a model from a or a node. """ model_identifier = node.getAttribute(attr) if not model_identifier: raise base.DeserializationError( "<%s> node is missing the required '%s' attribute" % (node.nodeName, attr)) try: return apps.get_model(model_identifier) except (LookupError, TypeError): raise base.DeserializationError( "<%s> node has invalid model identifier: '%s'" % (node.nodeName, model_identifier)) def getInnerText(node): """ Get all the inner text of a DOM node (recursively). """ # inspired by http://mail.python.org/pipermail/xml-sig/2005-March/011022.html inner_text = [] for child in node.childNodes: if child.nodeType == child.TEXT_NODE or child.nodeType == child.CDATA_SECTION_NODE: inner_text.append(child.data) elif child.nodeType == child.ELEMENT_NODE: inner_text.extend(getInnerText(child)) else: pass return "".join(inner_text) # Below code based on Christian Heimes' defusedxml class DefusedExpatParser(_ExpatParser): """ An expat parser hardened against XML bomb attacks. Forbids DTDs, external entity references """ def __init__(self, *args, **kwargs): _ExpatParser.__init__(self, *args, **kwargs) self.setFeature(handler.feature_external_ges, False) self.setFeature(handler.feature_external_pes, False) def start_doctype_decl(self, name, sysid, pubid, has_internal_subset): raise DTDForbidden(name, sysid, pubid) def entity_decl(self, name, is_parameter_entity, value, base, sysid, pubid, notation_name): raise EntitiesForbidden(name, value, base, sysid, pubid, notation_name) def unparsed_entity_decl(self, name, base, sysid, pubid, notation_name): # expat 1.2 raise EntitiesForbidden(name, None, base, sysid, pubid, notation_name) def external_entity_ref_handler(self, context, base, sysid, pubid): raise ExternalReferenceForbidden(context, base, sysid, pubid) def reset(self): _ExpatParser.reset(self) parser = self._parser parser.StartDoctypeDeclHandler = self.start_doctype_decl parser.EntityDeclHandler = self.entity_decl parser.UnparsedEntityDeclHandler = self.unparsed_entity_decl parser.ExternalEntityRefHandler = self.external_entity_ref_handler class DefusedXmlException(ValueError): """Base exception.""" def __repr__(self): return str(self) class DTDForbidden(DefusedXmlException): """Document type definition is forbidden.""" def __init__(self, name, sysid, pubid): super(DTDForbidden, self).__init__() self.name = name self.sysid = sysid self.pubid = pubid def __str__(self): tpl = "DTDForbidden(name='{}', system_id={!r}, public_id={!r})" return tpl.format(self.name, self.sysid, self.pubid) class EntitiesForbidden(DefusedXmlException): """Entity definition is forbidden.""" def __init__(self, name, value, base, sysid, pubid, notation_name): super(EntitiesForbidden, self).__init__() self.name = name self.value = value self.base = base self.sysid = sysid self.pubid = pubid self.notation_name = notation_name def __str__(self): tpl = "EntitiesForbidden(name='{}', system_id={!r}, public_id={!r})" return tpl.format(self.name, self.sysid, self.pubid) class ExternalReferenceForbidden(DefusedXmlException): """Resolving an external reference is forbidden.""" def __init__(self, context, base, sysid, pubid): super(ExternalReferenceForbidden, self).__init__() self.context = context self.base = base self.sysid = sysid self.pubid = pubid def __str__(self): tpl = "ExternalReferenceForbidden(system_id='{}', public_id={})" return tpl.format(self.sysid, self.pubid)