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Fixed #13513 -- Ensured that queries collecting deleted objects are issued on the right database, especially when dealing with m2m intermediate tables. Thanks to gavoja for the report. 

git-svn-id: http://code.djangoproject.com/svn/django/trunk@13232 bcc190cf-cafb-0310-a4f2-bffc1f526a37
This commit is contained in:
Russell Keith-Magee 2010-05-11 13:06:03 +00:00
parent 8d9bef9a46
commit f6b0f742d1
3 changed files with 120 additions and 4 deletions
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7
django/db/models/base.py
View File

@ -588,20 +588,22 @@ class Model(object):
for related in self._meta.get_all_related_many_to_many_objects():
if related.field.rel.through:
db = router.db_for_write(related.field.rel.through.__class__, instance=self)
opts = related.field.rel.through._meta
reverse_field_name = related.field.m2m_reverse_field_name()
nullable = opts.get_field(reverse_field_name).null
filters = {reverse_field_name: self}
for sub_obj in related.field.rel.through._base_manager.filter(**filters):
for sub_obj in related.field.rel.through._base_manager.using(db).filter(**filters):
sub_obj._collect_sub_objects(seen_objs, self, nullable)
for f in self._meta.many_to_many:
if f.rel.through:
db = router.db_for_write(f.rel.through.__class__, instance=self)
opts = f.rel.through._meta
field_name = f.m2m_field_name()
nullable = opts.get_field(field_name).null
filters = {field_name: self}
for sub_obj in f.rel.through._base_manager.filter(**filters):
for sub_obj in f.rel.through._base_manager.using(db).filter(**filters):
sub_obj._collect_sub_objects(seen_objs, self, nullable)
else:
# m2m-ish but with no through table? GenericRelation: cascade delete
@ -627,7 +629,6 @@ class Model(object):
def delete(self, using=None):
using = using or router.db_for_write(self.__class__, instance=self)
connection = connections[using]
assert self._get_pk_val() is not None, "%s object can't be deleted because its %s attribute is set to None." % (self._meta.object_name, self._meta.pk.attname)
# Find all the objects than need to be deleted.

10
tests/regressiontests/multiple_database/models.py
View File

@ -44,6 +44,16 @@ class Book(models.Model):
class Meta:
ordering = ('title',)
class Pet(models.Model):
name = models.CharField(max_length=100)
owner = models.ForeignKey(Person)
def __unicode__(self):
return self.name
class Meta:
ordering = ('name',)
class UserProfile(models.Model):
user = models.OneToOneField(User, null=True)
flavor = models.CharField(max_length=100)

107
tests/regressiontests/multiple_database/tests.py
View File

@ -10,7 +10,7 @@ from django.db import connections, router, DEFAULT_DB_ALIAS
from django.db.utils import ConnectionRouter
from django.test import TestCase
from models import Book, Person, Review, UserProfile
from models import Book, Person, Pet, Review, UserProfile
try:
# we only have these models if the user is using multi-db, it's safe the
@ -321,6 +321,66 @@ class QueryTestCase(TestCase):
except ValueError:
pass
def test_m2m_deletion(self):
"Cascaded deletions of m2m relations issue queries on the right database"
# Create a book and author on the other database
dive = Book.objects.using('other').create(title="Dive into Python",
published=datetime.date(2009, 5, 4))
mark = Person.objects.using('other').create(name="Mark Pilgrim")
dive.authors = [mark]
# Check the initial state
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Book.authors.through.objects.using('default').count(), 0)
self.assertEquals(Person.objects.using('other').count(), 1)
self.assertEquals(Book.objects.using('other').count(), 1)
self.assertEquals(Book.authors.through.objects.using('other').count(), 1)
# Delete the object on the other database
dive.delete(using='other')
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Book.authors.through.objects.using('default').count(), 0)
# The person still exists ...
self.assertEquals(Person.objects.using('other').count(), 1)
# ... but the book has been deleted
self.assertEquals(Book.objects.using('other').count(), 0)
# ... and the relationship object has also been deleted.
self.assertEquals(Book.authors.through.objects.using('other').count(), 0)
# Now try deletion in the reverse direction. Set up the relation again
dive = Book.objects.using('other').create(title="Dive into Python",
published=datetime.date(2009, 5, 4))
dive.authors = [mark]
# Check the initial state
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Book.authors.through.objects.using('default').count(), 0)
self.assertEquals(Person.objects.using('other').count(), 1)
self.assertEquals(Book.objects.using('other').count(), 1)
self.assertEquals(Book.authors.through.objects.using('other').count(), 1)
# Delete the object on the other database
mark.delete(using='other')
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Book.authors.through.objects.using('default').count(), 0)
# The person has been deleted ...
self.assertEquals(Person.objects.using('other').count(), 0)
# ... but the book still exists
self.assertEquals(Book.objects.using('other').count(), 1)
# ... and the relationship object has been deleted.
self.assertEquals(Book.authors.through.objects.using('other').count(), 0)
def test_foreign_key_separation(self):
"FK fields are constrained to a single database"
# Create a book and author on the default database
@ -498,6 +558,28 @@ class QueryTestCase(TestCase):
self.assertEquals(list(Book.objects.using('other').values_list('title',flat=True)),
[u'Dive into HTML5', u'Dive into Python', u'Dive into Water'])
def test_foreign_key_deletion(self):
"Cascaded deletions of Foreign Key relations issue queries on the right database"
mark = Person.objects.using('other').create(name="Mark Pilgrim")
fido = Pet.objects.using('other').create(name="Fido", owner=mark)
# Check the initial state
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Pet.objects.using('default').count(), 0)
self.assertEquals(Person.objects.using('other').count(), 1)
self.assertEquals(Pet.objects.using('other').count(), 1)
# Delete the person object, which will cascade onto the pet
mark.delete(using='other')
self.assertEquals(Person.objects.using('default').count(), 0)
self.assertEquals(Pet.objects.using('default').count(), 0)
# Both the pet and the person have been deleted from the right database
self.assertEquals(Person.objects.using('other').count(), 0)
self.assertEquals(Pet.objects.using('other').count(), 0)
def test_o2o_separation(self):
"OneToOne fields are constrained to a single database"
# Create a user and profile on the default database
@ -729,6 +811,29 @@ class QueryTestCase(TestCase):
self.assertEquals(list(Review.objects.using('other').filter(object_id=dive.pk).values_list('source',flat=True)),
[u'Python Daily', u'Python Weekly'])
def test_generic_key_deletion(self):
"Cascaded deletions of Generic Key relations issue queries on the right database"
dive = Book.objects.using('other').create(title="Dive into Python",
published=datetime.date(2009, 5, 4))
review = Review.objects.using('other').create(source="Python Weekly", content_object=dive)
# Check the initial state
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Review.objects.using('default').count(), 0)
self.assertEquals(Book.objects.using('other').count(), 1)
self.assertEquals(Review.objects.using('other').count(), 1)
# Delete the Book object, which will cascade onto the pet
dive.delete(using='other')
self.assertEquals(Book.objects.using('default').count(), 0)
self.assertEquals(Review.objects.using('default').count(), 0)
# Both the pet and the person have been deleted from the right database
self.assertEquals(Book.objects.using('other').count(), 0)
self.assertEquals(Review.objects.using('other').count(), 0)
def test_ordering(self):
"get_next_by_XXX commands stick to a single database"
pro = Book.objects.create(title="Pro Django",