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django/tests/admin_checks/tests.py

670 lines
21 KiB
Python

from __future__ import unicode_literals
from django import forms
from django.contrib import admin
from django.contrib.contenttypes.admin import GenericStackedInline
from django.core import checks
from django.test import TestCase, override_settings
from .models import Song, Book, Album, TwoAlbumFKAndAnE, City, State, Influence
class SongForm(forms.ModelForm):
pass
class ValidFields(admin.ModelAdmin):
form = SongForm
fields = ['title']
class ValidFormFieldsets(admin.ModelAdmin):
def get_form(self, request, obj=None, **kwargs):
class ExtraFieldForm(SongForm):
name = forms.CharField(max_length=50)
return ExtraFieldForm
fieldsets = (
(None, {
'fields': ('name',),
}),
)
class MyAdmin(admin.ModelAdmin):
@classmethod
def check(cls, model, **kwargs):
return ['error!']
@override_settings(
SILENCED_SYSTEM_CHECKS=['fields.W342'], # ForeignKey(unique=True)
INSTALLED_APPS=['django.contrib.auth', 'django.contrib.contenttypes', 'admin_checks']
)
class SystemChecksTestCase(TestCase):
@override_settings(DEBUG=True)
def test_checks_are_performed(self):
admin.site.register(Song, MyAdmin)
try:
errors = checks.run_checks()
expected = ['error!']
self.assertEqual(errors, expected)
finally:
admin.site.unregister(Song)
admin.sites.system_check_errors = []
@override_settings(DEBUG=True)
def test_custom_adminsite(self):
class CustomAdminSite(admin.AdminSite):
pass
custom_site = CustomAdminSite()
custom_site.register(Song, MyAdmin)
try:
errors = checks.run_checks()
expected = ['error!']
self.assertEqual(errors, expected)
finally:
custom_site.unregister(Song)
admin.sites.system_check_errors = []
def test_readonly_and_editable(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = ["original_release"]
list_display = ["pk", "original_release"]
list_editable = ["original_release"]
fieldsets = [
(None, {
"fields": ["title", "original_release"],
}),
]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
("The value of 'list_editable[0]' refers to 'original_release', "
"which is not editable through the admin."),
hint=None,
obj=SongAdmin,
id='admin.E125',
)
]
self.assertEqual(errors, expected)
def test_editable(self):
class SongAdmin(admin.ModelAdmin):
list_display = ["pk", "title"]
list_editable = ["title"]
fieldsets = [
(None, {
"fields": ["title", "original_release"],
}),
]
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_custom_modelforms_with_fields_fieldsets(self):
"""
# Regression test for #8027: custom ModelForms with fields/fieldsets
"""
errors = ValidFields.check(model=Song)
self.assertEqual(errors, [])
def test_custom_get_form_with_fieldsets(self):
"""
Ensure that the fieldsets checks are skipped when the ModelAdmin.get_form() method
is overridden.
Refs #19445.
"""
errors = ValidFormFieldsets.check(model=Song)
self.assertEqual(errors, [])
def test_fieldsets_fields_non_tuple(self):
"""
Tests for a tuple/list within fieldsets[1]['fields'].
"""
class NotATupleAdmin(admin.ModelAdmin):
list_display = ["pk", "title"]
list_editable = ["title"]
fieldsets = [
(None, {
"fields": "title" # not a tuple
}),
]
errors = NotATupleAdmin.check(model=Song)
expected = [
checks.Error(
"The value of 'fieldsets[1]['fields']' must be a list or tuple.",
hint=None,
obj=NotATupleAdmin,
id='admin.E008',
)
]
self.assertEqual(errors, expected)
def test_nonfirst_fieldset(self):
"""
Tests for a tuple/list within the second fieldsets[2]['fields'].
"""
class NotATupleAdmin(admin.ModelAdmin):
fieldsets = [
(None, {
"fields": ("title",)
}),
('foo', {
"fields": "author" # not a tuple
}),
]
errors = NotATupleAdmin.check(model=Song)
expected = [
checks.Error(
"The value of 'fieldsets[1]['fields']' must be a list or tuple.",
hint=None,
obj=NotATupleAdmin,
id='admin.E008',
)
]
self.assertEqual(errors, expected)
def test_exclude_values(self):
"""
Tests for basic system checks of 'exclude' option values (#12689)
"""
class ExcludedFields1(admin.ModelAdmin):
exclude = 'foo'
errors = ExcludedFields1.check(model=Book)
expected = [
checks.Error(
"The value of 'exclude' must be a list or tuple.",
hint=None,
obj=ExcludedFields1,
id='admin.E014',
)
]
self.assertEqual(errors, expected)
def test_exclude_duplicate_values(self):
class ExcludedFields2(admin.ModelAdmin):
exclude = ('name', 'name')
errors = ExcludedFields2.check(model=Book)
expected = [
checks.Error(
"The value of 'exclude' contains duplicate field(s).",
hint=None,
obj=ExcludedFields2,
id='admin.E015',
)
]
self.assertEqual(errors, expected)
def test_exclude_in_inline(self):
class ExcludedFieldsInline(admin.TabularInline):
model = Song
exclude = 'foo'
class ExcludedFieldsAlbumAdmin(admin.ModelAdmin):
model = Album
inlines = [ExcludedFieldsInline]
errors = ExcludedFieldsAlbumAdmin.check(model=Album)
expected = [
checks.Error(
"The value of 'exclude' must be a list or tuple.",
hint=None,
obj=ExcludedFieldsInline,
id='admin.E014',
)
]
self.assertEqual(errors, expected)
def test_exclude_inline_model_admin(self):
"""
Regression test for #9932 - exclude in InlineModelAdmin should not
contain the ForeignKey field used in ModelAdmin.model
"""
class SongInline(admin.StackedInline):
model = Song
exclude = ['album']
class AlbumAdmin(admin.ModelAdmin):
model = Album
inlines = [SongInline]
errors = AlbumAdmin.check(model=Album)
expected = [
checks.Error(
("Cannot exclude the field 'album', because it is the foreign key "
"to the parent model 'admin_checks.Album'."),
hint=None,
obj=SongInline,
id='admin.E201',
)
]
self.assertEqual(errors, expected)
def test_valid_generic_inline_model_admin(self):
"""
Regression test for #22034 - check that generic inlines don't look for
normal ForeignKey relations.
"""
class InfluenceInline(GenericStackedInline):
model = Influence
class SongAdmin(admin.ModelAdmin):
inlines = [InfluenceInline]
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_generic_inline_model_admin_non_generic_model(self):
"""
Ensure that a model without a GenericForeignKey raises problems if it's included
in an GenericInlineModelAdmin definition.
"""
class BookInline(GenericStackedInline):
model = Book
class SongAdmin(admin.ModelAdmin):
inlines = [BookInline]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
"'admin_checks.Book' has no GenericForeignKey.",
hint=None,
obj=BookInline,
id='admin.E301',
)
]
self.assertEqual(errors, expected)
def test_generic_inline_model_admin_bad_ct_field(self):
"A GenericInlineModelAdmin raises problems if the ct_field points to a non-existent field."
class InfluenceInline(GenericStackedInline):
model = Influence
ct_field = 'nonexistent'
class SongAdmin(admin.ModelAdmin):
inlines = [InfluenceInline]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
"'ct_field' references 'nonexistent', which is not a field on 'admin_checks.Influence'.",
hint=None,
obj=InfluenceInline,
id='admin.E302',
)
]
self.assertEqual(errors, expected)
def test_generic_inline_model_admin_bad_fk_field(self):
"A GenericInlineModelAdmin raises problems if the ct_fk_field points to a non-existent field."
class InfluenceInline(GenericStackedInline):
model = Influence
ct_fk_field = 'nonexistent'
class SongAdmin(admin.ModelAdmin):
inlines = [InfluenceInline]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
"'ct_fk_field' references 'nonexistent', which is not a field on 'admin_checks.Influence'.",
hint=None,
obj=InfluenceInline,
id='admin.E303',
)
]
self.assertEqual(errors, expected)
def test_generic_inline_model_admin_non_gfk_ct_field(self):
"A GenericInlineModelAdmin raises problems if the ct_field points to a field that isn't part of a GenericForeignKey"
class InfluenceInline(GenericStackedInline):
model = Influence
ct_field = 'name'
class SongAdmin(admin.ModelAdmin):
inlines = [InfluenceInline]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
"'admin_checks.Influence' has no GenericForeignKey using content type field 'name' and object ID field 'object_id'.",
hint=None,
obj=InfluenceInline,
id='admin.E304',
)
]
self.assertEqual(errors, expected)
def test_generic_inline_model_admin_non_gfk_fk_field(self):
"A GenericInlineModelAdmin raises problems if the ct_fk_field points to a field that isn't part of a GenericForeignKey"
class InfluenceInline(GenericStackedInline):
model = Influence
ct_fk_field = 'name'
class SongAdmin(admin.ModelAdmin):
inlines = [InfluenceInline]
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
"'admin_checks.Influence' has no GenericForeignKey using content type field 'content_type' and object ID field 'name'.",
hint=None,
obj=InfluenceInline,
id='admin.E304',
)
]
self.assertEqual(errors, expected)
def test_app_label_in_admin_checks(self):
"""
Regression test for #15669 - Include app label in admin system check messages
"""
class RawIdNonexistingAdmin(admin.ModelAdmin):
raw_id_fields = ('nonexisting',)
errors = RawIdNonexistingAdmin.check(model=Album)
expected = [
checks.Error(
("The value of 'raw_id_fields[0]' refers to 'nonexisting', which is "
"not an attribute of 'admin_checks.Album'."),
hint=None,
obj=RawIdNonexistingAdmin,
id='admin.E002',
)
]
self.assertEqual(errors, expected)
def test_fk_exclusion(self):
"""
Regression test for #11709 - when testing for fk excluding (when exclude is
given) make sure fk_name is honored or things blow up when there is more
than one fk to the parent model.
"""
class TwoAlbumFKAndAnEInline(admin.TabularInline):
model = TwoAlbumFKAndAnE
exclude = ("e",)
fk_name = "album1"
class MyAdmin(admin.ModelAdmin):
inlines = [TwoAlbumFKAndAnEInline]
errors = MyAdmin.check(model=Album)
self.assertEqual(errors, [])
def test_inline_self_check(self):
class TwoAlbumFKAndAnEInline(admin.TabularInline):
model = TwoAlbumFKAndAnE
class MyAdmin(admin.ModelAdmin):
inlines = [TwoAlbumFKAndAnEInline]
errors = MyAdmin.check(model=Album)
expected = [
checks.Error(
"'admin_checks.TwoAlbumFKAndAnE' has more than one ForeignKey to 'admin_checks.Album'.",
hint=None,
obj=TwoAlbumFKAndAnEInline,
id='admin.E202',
)
]
self.assertEqual(errors, expected)
def test_inline_with_specified(self):
class TwoAlbumFKAndAnEInline(admin.TabularInline):
model = TwoAlbumFKAndAnE
fk_name = "album1"
class MyAdmin(admin.ModelAdmin):
inlines = [TwoAlbumFKAndAnEInline]
errors = MyAdmin.check(model=Album)
self.assertEqual(errors, [])
def test_readonly(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = ("title",)
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_readonly_on_method(self):
def my_function(obj):
pass
class SongAdmin(admin.ModelAdmin):
readonly_fields = (my_function,)
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_readonly_on_modeladmin(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = ("readonly_method_on_modeladmin",)
def readonly_method_on_modeladmin(self, obj):
pass
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_readonly_method_on_model(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = ("readonly_method_on_model",)
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_nonexistent_field(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = ("title", "nonexistent")
errors = SongAdmin.check(model=Song)
expected = [
checks.Error(
("The value of 'readonly_fields[1]' is not a callable, an attribute "
"of 'SongAdmin', or an attribute of 'admin_checks.Song'."),
hint=None,
obj=SongAdmin,
id='admin.E035',
)
]
self.assertEqual(errors, expected)
def test_nonexistent_field_on_inline(self):
class CityInline(admin.TabularInline):
model = City
readonly_fields = ['i_dont_exist'] # Missing attribute
errors = CityInline.check(State)
expected = [
checks.Error(
("The value of 'readonly_fields[0]' is not a callable, an attribute "
"of 'CityInline', or an attribute of 'admin_checks.City'."),
hint=None,
obj=CityInline,
id='admin.E035',
)
]
self.assertEqual(errors, expected)
def test_extra(self):
class SongAdmin(admin.ModelAdmin):
def awesome_song(self, instance):
if instance.title == "Born to Run":
return "Best Ever!"
return "Status unknown."
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_readonly_lambda(self):
class SongAdmin(admin.ModelAdmin):
readonly_fields = (lambda obj: "test",)
errors = SongAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_graceful_m2m_fail(self):
"""
Regression test for #12203/#12237 - Fail more gracefully when a M2M field that
specifies the 'through' option is included in the 'fields' or the 'fieldsets'
ModelAdmin options.
"""
class BookAdmin(admin.ModelAdmin):
fields = ['authors']
errors = BookAdmin.check(model=Book)
expected = [
checks.Error(
("The value of 'fields' cannot include the ManyToManyField 'authors', "
"because that field manually specifies a relationship model."),
hint=None,
obj=BookAdmin,
id='admin.E013',
)
]
self.assertEqual(errors, expected)
def test_cannot_include_through(self):
class FieldsetBookAdmin(admin.ModelAdmin):
fieldsets = (
('Header 1', {'fields': ('name',)}),
('Header 2', {'fields': ('authors',)}),
)
errors = FieldsetBookAdmin.check(model=Book)
expected = [
checks.Error(
("The value of 'fieldsets[1][1][\"fields\"]' cannot include the ManyToManyField "
"'authors', because that field manually specifies a relationship model."),
hint=None,
obj=FieldsetBookAdmin,
id='admin.E013',
)
]
self.assertEqual(errors, expected)
def test_nested_fields(self):
class NestedFieldsAdmin(admin.ModelAdmin):
fields = ('price', ('name', 'subtitle'))
errors = NestedFieldsAdmin.check(model=Book)
self.assertEqual(errors, [])
def test_nested_fieldsets(self):
class NestedFieldsetAdmin(admin.ModelAdmin):
fieldsets = (
('Main', {'fields': ('price', ('name', 'subtitle'))}),
)
errors = NestedFieldsetAdmin.check(model=Book)
self.assertEqual(errors, [])
def test_explicit_through_override(self):
"""
Regression test for #12209 -- If the explicitly provided through model
is specified as a string, the admin should still be able use
Model.m2m_field.through
"""
class AuthorsInline(admin.TabularInline):
model = Book.authors.through
class BookAdmin(admin.ModelAdmin):
inlines = [AuthorsInline]
errors = BookAdmin.check(model=Book)
self.assertEqual(errors, [])
def test_non_model_fields(self):
"""
Regression for ensuring ModelAdmin.fields can contain non-model fields
that broke with r11737
"""
class SongForm(forms.ModelForm):
extra_data = forms.CharField()
class FieldsOnFormOnlyAdmin(admin.ModelAdmin):
form = SongForm
fields = ['title', 'extra_data']
errors = FieldsOnFormOnlyAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_non_model_first_field(self):
"""
Regression for ensuring ModelAdmin.field can handle first elem being a
non-model field (test fix for UnboundLocalError introduced with r16225).
"""
class SongForm(forms.ModelForm):
extra_data = forms.CharField()
class Meta:
model = Song
fields = '__all__'
class FieldsOnFormOnlyAdmin(admin.ModelAdmin):
form = SongForm
fields = ['extra_data', 'title']
errors = FieldsOnFormOnlyAdmin.check(model=Song)
self.assertEqual(errors, [])
def test_check_sublists_for_duplicates(self):
class MyModelAdmin(admin.ModelAdmin):
fields = ['state', ['state']]
errors = MyModelAdmin.check(model=Song)
expected = [
checks.Error(
"The value of 'fields' contains duplicate field(s).",
hint=None,
obj=MyModelAdmin,
id='admin.E006'
)
]
self.assertEqual(errors, expected)
def test_check_fieldset_sublists_for_duplicates(self):
class MyModelAdmin(admin.ModelAdmin):
fieldsets = [
(None, {
'fields': ['title', 'album', ('title', 'album')]
}),
]
errors = MyModelAdmin.check(model=Song)
expected = [
checks.Error(
"There are duplicate field(s) in 'fieldsets[0][1]'.",
hint=None,
obj=MyModelAdmin,
id='admin.E012'
)
]
self.assertEqual(errors, expected)