OpenStack Common DB Code
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oslo.db/tests/sqlalchemy/test_utils.py

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33 KiB

# Copyright (c) 2013 Boris Pavlovic (boris@pavlovic.me).
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import uuid
import warnings
from migrate.changeset import UniqueConstraint
import mock
from oslotest import base as test_base
import six
from six import moves
from six.moves.urllib import parse
import sqlalchemy
from sqlalchemy.dialects import mysql
from sqlalchemy import Boolean, Index, Integer, DateTime, String
from sqlalchemy import MetaData, Table, Column, ForeignKey
from sqlalchemy.engine import reflection
from sqlalchemy.exc import SAWarning, OperationalError
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.sql import select
from sqlalchemy.types import UserDefinedType, NullType
from oslo.db import exception
from oslo.db.openstack.common.fixture import moxstubout
from oslo.db.sqlalchemy import models
from oslo.db.sqlalchemy import session
from oslo.db.sqlalchemy import test_migrations
from oslo.db.sqlalchemy import utils
from tests import utils as test_utils
SA_VERSION = tuple(map(int, sqlalchemy.__version__.split('.')))
class TestSanitizeDbUrl(test_base.BaseTestCase):
def test_url_with_cred(self):
db_url = 'myproto://johndoe:secret@localhost/myschema'
expected = 'myproto://****:****@localhost/myschema'
actual = utils.sanitize_db_url(db_url)
self.assertEqual(expected, actual)
def test_url_with_no_cred(self):
db_url = 'sqlite:///mysqlitefile'
actual = utils.sanitize_db_url(db_url)
self.assertEqual(db_url, actual)
class CustomType(UserDefinedType):
"""Dummy column type for testing unsupported types."""
def get_col_spec(self):
return "CustomType"
class FakeModel(object):
def __init__(self, values):
self.values = values
def __getattr__(self, name):
try:
value = self.values[name]
except KeyError:
raise AttributeError(name)
return value
def __getitem__(self, key):
if key in self.values:
return self.values[key]
else:
raise NotImplementedError()
def __repr__(self):
return '<FakeModel: %s>' % self.values
class TestPaginateQuery(test_base.BaseTestCase):
def setUp(self):
super(TestPaginateQuery, self).setUp()
mox_fixture = self.useFixture(moxstubout.MoxStubout())
self.mox = mox_fixture.mox
self.query = self.mox.CreateMockAnything()
self.mox.StubOutWithMock(sqlalchemy, 'asc')
self.mox.StubOutWithMock(sqlalchemy, 'desc')
self.marker = FakeModel({
'user_id': 'user',
'project_id': 'p',
'snapshot_id': 's',
})
self.model = FakeModel({
'user_id': 'user',
'project_id': 'project',
'snapshot_id': 'snapshot',
})
def test_paginate_query_no_pagination_no_sort_dirs(self):
sqlalchemy.asc('user').AndReturn('asc_3')
self.query.order_by('asc_3').AndReturn(self.query)
sqlalchemy.asc('project').AndReturn('asc_2')
self.query.order_by('asc_2').AndReturn(self.query)
sqlalchemy.asc('snapshot').AndReturn('asc_1')
self.query.order_by('asc_1').AndReturn(self.query)
self.query.limit(5).AndReturn(self.query)
self.mox.ReplayAll()
utils.paginate_query(self.query, self.model, 5,
['user_id', 'project_id', 'snapshot_id'])
def test_paginate_query_no_pagination(self):
sqlalchemy.asc('user').AndReturn('asc')
self.query.order_by('asc').AndReturn(self.query)
sqlalchemy.desc('project').AndReturn('desc')
self.query.order_by('desc').AndReturn(self.query)
self.query.limit(5).AndReturn(self.query)
self.mox.ReplayAll()
utils.paginate_query(self.query, self.model, 5,
['user_id', 'project_id'],
sort_dirs=['asc', 'desc'])
def test_paginate_query_attribute_error(self):
sqlalchemy.asc('user').AndReturn('asc')
self.query.order_by('asc').AndReturn(self.query)
self.mox.ReplayAll()
self.assertRaises(utils.InvalidSortKey,
utils.paginate_query, self.query,
self.model, 5, ['user_id', 'non-existent key'])
def test_paginate_query_assertion_error(self):
self.mox.ReplayAll()
self.assertRaises(AssertionError,
utils.paginate_query, self.query,
self.model, 5, ['user_id'],
marker=self.marker,
sort_dir='asc', sort_dirs=['asc'])
def test_paginate_query_assertion_error_2(self):
self.mox.ReplayAll()
self.assertRaises(AssertionError,
utils.paginate_query, self.query,
self.model, 5, ['user_id'],
marker=self.marker,
sort_dir=None, sort_dirs=['asc', 'desk'])
def test_paginate_query(self):
sqlalchemy.asc('user').AndReturn('asc_1')
self.query.order_by('asc_1').AndReturn(self.query)
sqlalchemy.desc('project').AndReturn('desc_1')
self.query.order_by('desc_1').AndReturn(self.query)
self.mox.StubOutWithMock(sqlalchemy.sql, 'and_')
sqlalchemy.sql.and_(False).AndReturn('some_crit')
sqlalchemy.sql.and_(True, False).AndReturn('another_crit')
self.mox.StubOutWithMock(sqlalchemy.sql, 'or_')
sqlalchemy.sql.or_('some_crit', 'another_crit').AndReturn('some_f')
self.query.filter('some_f').AndReturn(self.query)
self.query.limit(5).AndReturn(self.query)
self.mox.ReplayAll()
utils.paginate_query(self.query, self.model, 5,
['user_id', 'project_id'],
marker=self.marker,
sort_dirs=['asc', 'desc'])
def test_paginate_query_value_error(self):
sqlalchemy.asc('user').AndReturn('asc_1')
self.query.order_by('asc_1').AndReturn(self.query)
self.mox.ReplayAll()
self.assertRaises(ValueError, utils.paginate_query,
self.query, self.model, 5, ['user_id', 'project_id'],
marker=self.marker, sort_dirs=['asc', 'mixed'])
class TestMigrationUtils(test_migrations.BaseMigrationTestCase):
"""Class for testing utils that are used in db migrations."""
def setUp(self):
super(TestMigrationUtils, self).setUp()
def _populate_db_for_drop_duplicate_entries(self, engine, meta,
table_name):
values = [
{'id': 11, 'a': 3, 'b': 10, 'c': 'abcdef'},
{'id': 12, 'a': 5, 'b': 10, 'c': 'abcdef'},
{'id': 13, 'a': 6, 'b': 10, 'c': 'abcdef'},
{'id': 14, 'a': 7, 'b': 10, 'c': 'abcdef'},
{'id': 21, 'a': 1, 'b': 20, 'c': 'aa'},
{'id': 31, 'a': 1, 'b': 20, 'c': 'bb'},
{'id': 41, 'a': 1, 'b': 30, 'c': 'aef'},
{'id': 42, 'a': 2, 'b': 30, 'c': 'aef'},
{'id': 43, 'a': 3, 'b': 30, 'c': 'aef'}
]
test_table = Table(table_name, meta,
Column('id', Integer, primary_key=True,
nullable=False),
Column('a', Integer),
Column('b', Integer),
Column('c', String(255)),
Column('deleted', Integer, default=0),
Column('deleted_at', DateTime),
Column('updated_at', DateTime))
test_table.create()
engine.execute(test_table.insert(), values)
return test_table, values
def test_drop_old_duplicate_entries_from_table(self):
table_name = "__test_tmp_table__"
for engine in self.engines.values():
meta = MetaData()
meta.bind = engine
test_table, values = self._populate_db_for_drop_duplicate_entries(
engine, meta, table_name)
utils.drop_old_duplicate_entries_from_table(
engine, table_name, False, 'b', 'c')
uniq_values = set()
expected_ids = []
for value in sorted(values, key=lambda x: x['id'], reverse=True):
uniq_value = (('b', value['b']), ('c', value['c']))
if uniq_value in uniq_values:
continue
uniq_values.add(uniq_value)
expected_ids.append(value['id'])
real_ids = [row[0] for row in
engine.execute(select([test_table.c.id])).fetchall()]
self.assertEqual(len(real_ids), len(expected_ids))
for id_ in expected_ids:
self.assertTrue(id_ in real_ids)
def test_drop_old_duplicate_entries_from_table_soft_delete(self):
table_name = "__test_tmp_table__"
for engine in self.engines.values():
meta = MetaData()
meta.bind = engine
table, values = self._populate_db_for_drop_duplicate_entries(
engine, meta, table_name)
utils.drop_old_duplicate_entries_from_table(engine, table_name,
True, 'b', 'c')
uniq_values = set()
expected_values = []
soft_deleted_values = []
for value in sorted(values, key=lambda x: x['id'], reverse=True):
uniq_value = (('b', value['b']), ('c', value['c']))
if uniq_value in uniq_values:
soft_deleted_values.append(value)
continue
uniq_values.add(uniq_value)
expected_values.append(value)
base_select = table.select()
rows_select = base_select.where(table.c.deleted != table.c.id)
row_ids = [row['id'] for row in
engine.execute(rows_select).fetchall()]
self.assertEqual(len(row_ids), len(expected_values))
for value in expected_values:
self.assertTrue(value['id'] in row_ids)
deleted_rows_select = base_select.where(
table.c.deleted == table.c.id)
deleted_rows_ids = [row['id'] for row in
engine.execute(deleted_rows_select).fetchall()]
self.assertEqual(len(deleted_rows_ids),
len(values) - len(row_ids))
for value in soft_deleted_values:
self.assertTrue(value['id'] in deleted_rows_ids)
def test_change_deleted_column_type_does_not_drop_index(self):
table_name = 'abc'
for engine in self.engines.values():
meta = MetaData(bind=engine)
indexes = {
'idx_a_deleted': ['a', 'deleted'],
'idx_b_deleted': ['b', 'deleted'],
'idx_a': ['a']
}
index_instances = [Index(name, *columns)
for name, columns in six.iteritems(indexes)]
table = Table(table_name, meta,
Column('id', Integer, primary_key=True),
Column('a', String(255)),
Column('b', String(255)),
Column('deleted', Boolean),
*index_instances)
table.create()
utils.change_deleted_column_type_to_id_type(engine, table_name)
utils.change_deleted_column_type_to_boolean(engine, table_name)
insp = reflection.Inspector.from_engine(engine)
real_indexes = insp.get_indexes(table_name)
self.assertEqual(len(real_indexes), 3)
for index in real_indexes:
name = index['name']
self.assertIn(name, indexes)
self.assertEqual(set(index['column_names']),
set(indexes[name]))
def test_change_deleted_column_type_to_id_type_integer(self):
table_name = 'abc'
for engine in self.engines.values():
meta = MetaData()
meta.bind = engine
table = Table(table_name, meta,
Column('id', Integer, primary_key=True),
Column('deleted', Boolean))
table.create()
utils.change_deleted_column_type_to_id_type(engine, table_name)
table = utils.get_table(engine, table_name)
self.assertTrue(isinstance(table.c.deleted.type, Integer))
def test_change_deleted_column_type_to_id_type_string(self):
table_name = 'abc'
for engine in self.engines.values():
meta = MetaData()
meta.bind = engine
table = Table(table_name, meta,
Column('id', String(255), primary_key=True),
Column('deleted', Boolean))
table.create()
utils.change_deleted_column_type_to_id_type(engine, table_name)
table = utils.get_table(engine, table_name)
self.assertTrue(isinstance(table.c.deleted.type, String))
def test_change_deleted_column_type_to_id_type_custom(self):
table_name = 'abc'
engine = self.engines['sqlite']
meta = MetaData()
meta.bind = engine
table = Table(table_name, meta,
Column('id', Integer, primary_key=True),
Column('foo', CustomType),
Column('deleted', Boolean))
table.create()
# reflection of custom types has been fixed upstream
if SA_VERSION < (0, 9, 0):
self.assertRaises(utils.ColumnError,
utils.change_deleted_column_type_to_id_type,
engine, table_name)
fooColumn = Column('foo', CustomType())
utils.change_deleted_column_type_to_id_type(engine, table_name,
foo=fooColumn)
table = utils.get_table(engine, table_name)
# NOTE(boris-42): There is no way to check has foo type CustomType.
# but sqlalchemy will set it to NullType. This has
# been fixed upstream in recent SA versions
if SA_VERSION < (0, 9, 0):
self.assertTrue(isinstance(table.c.foo.type, NullType))
self.assertTrue(isinstance(table.c.deleted.type, Integer))
def test_change_deleted_column_type_to_boolean(self):
table_name = 'abc'
for key, engine in self.engines.items():
meta = MetaData()
meta.bind = engine
table = Table(table_name, meta,
Column('id', Integer, primary_key=True),
Column('deleted', Integer))
table.create()
utils.change_deleted_column_type_to_boolean(engine, table_name)
table = utils.get_table(engine, table_name)
expected_type = Boolean if key != "mysql" else mysql.TINYINT
self.assertTrue(isinstance(table.c.deleted.type, expected_type))
def test_change_deleted_column_type_to_boolean_with_fc(self):
table_name_1 = 'abc'
table_name_2 = 'bcd'
for key, engine in self.engines.items():
meta = MetaData()
meta.bind = engine
table_1 = Table(table_name_1, meta,
Column('id', Integer, primary_key=True),
Column('deleted', Integer))
table_1.create()
table_2 = Table(table_name_2, meta,
Column('id', Integer, primary_key=True),
Column('foreign_id', Integer,
ForeignKey('%s.id' % table_name_1)),
Column('deleted', Integer))
table_2.create()
utils.change_deleted_column_type_to_boolean(engine, table_name_2)
table = utils.get_table(engine, table_name_2)
expected_type = Boolean if key != "mysql" else mysql.TINYINT
self.assertTrue(isinstance(table.c.deleted.type, expected_type))
def test_change_deleted_column_type_to_boolean_type_custom(self):
table_name = 'abc'
engine = self.engines['sqlite']
meta = MetaData()
meta.bind = engine
table = Table(table_name, meta,
Column('id', Integer, primary_key=True),
Column('foo', CustomType),
Column('deleted', Integer))
table.create()
# reflection of custom types has been fixed upstream
if SA_VERSION < (0, 9, 0):
self.assertRaises(utils.ColumnError,
utils.change_deleted_column_type_to_boolean,
engine, table_name)
fooColumn = Column('foo', CustomType())
utils.change_deleted_column_type_to_boolean(engine, table_name,
foo=fooColumn)
table = utils.get_table(engine, table_name)
# NOTE(boris-42): There is no way to check has foo type CustomType.
# but sqlalchemy will set it to NullType. This has
# been fixed upstream in recent SA versions
if SA_VERSION < (0, 9, 0):
self.assertTrue(isinstance(table.c.foo.type, NullType))
self.assertTrue(isinstance(table.c.deleted.type, Boolean))
def test_utils_drop_unique_constraint(self):
table_name = "__test_tmp_table__"
uc_name = 'uniq_foo'
values = [
{'id': 1, 'a': 3, 'foo': 10},
{'id': 2, 'a': 2, 'foo': 20},
{'id': 3, 'a': 1, 'foo': 30},
]
for engine in self.engines.values():
meta = MetaData()
meta.bind = engine
test_table = Table(
table_name, meta,
Column('id', Integer, primary_key=True, nullable=False),
Column('a', Integer),
Column('foo', Integer),
UniqueConstraint('a', name='uniq_a'),
UniqueConstraint('foo', name=uc_name),
)
test_table.create()
engine.execute(test_table.insert(), values)
# NOTE(boris-42): This method is generic UC dropper.
utils.drop_unique_constraint(engine, table_name, uc_name, 'foo')
s = test_table.select().order_by(test_table.c.id)
rows = engine.execute(s).fetchall()
for i in moves.range(len(values)):
v = values[i]
self.assertEqual((v['id'], v['a'], v['foo']), rows[i])
# NOTE(boris-42): Update data about Table from DB.
meta = MetaData()
meta.bind = engine
test_table = Table(table_name, meta, autoload=True)
constraints = [c for c in test_table.constraints
if c.name == uc_name]
self.assertEqual(len(constraints), 0)
self.assertEqual(len(test_table.constraints), 1)
test_table.drop()
def test_util_drop_unique_constraint_with_not_supported_sqlite_type(self):
table_name = "__test_tmp_table__"
uc_name = 'uniq_foo'
values = [
{'id': 1, 'a': 3, 'foo': 10},
{'id': 2, 'a': 2, 'foo': 20},
{'id': 3, 'a': 1, 'foo': 30}
]
engine = self.engines['sqlite']
meta = MetaData(bind=engine)
test_table = Table(
table_name, meta,
Column('id', Integer, primary_key=True, nullable=False),
Column('a', Integer),
Column('foo', CustomType, default=0),
UniqueConstraint('a', name='uniq_a'),
UniqueConstraint('foo', name=uc_name),
)
test_table.create()
engine.execute(test_table.insert(), values)
warnings.simplefilter("ignore", SAWarning)
# reflection of custom types has been fixed upstream
if SA_VERSION < (0, 9, 0):
# NOTE(boris-42): Missing info about column `foo` that has
# unsupported type CustomType.
self.assertRaises(utils.ColumnError,
utils.drop_unique_constraint,
engine, table_name, uc_name, 'foo')
# NOTE(boris-42): Wrong type of foo instance. it should be
# instance of sqlalchemy.Column.
self.assertRaises(utils.ColumnError,
utils.drop_unique_constraint,
engine, table_name, uc_name, 'foo',
foo=Integer())
foo = Column('foo', CustomType, default=0)
utils.drop_unique_constraint(
engine, table_name, uc_name, 'foo', foo=foo)
s = test_table.select().order_by(test_table.c.id)
rows = engine.execute(s).fetchall()
for i in moves.range(len(values)):
v = values[i]
self.assertEqual((v['id'], v['a'], v['foo']), rows[i])
# NOTE(boris-42): Update data about Table from DB.
meta = MetaData(bind=engine)
test_table = Table(table_name, meta, autoload=True)
constraints = [c for c in test_table.constraints if c.name == uc_name]
self.assertEqual(len(constraints), 0)
self.assertEqual(len(test_table.constraints), 1)
test_table.drop()
def test_drop_unique_constraint_in_sqlite_fk_recreate(self):
engine = self.engines['sqlite']
meta = MetaData()
meta.bind = engine
parent_table = Table(
'table0', meta,
Column('id', Integer, primary_key=True),
Column('foo', Integer),
)
parent_table.create()
table_name = 'table1'
table = Table(
table_name, meta,
Column('id', Integer, primary_key=True),
Column('baz', Integer),
Column('bar', Integer, ForeignKey("table0.id")),
UniqueConstraint('baz', name='constr1')
)
table.create()
utils.drop_unique_constraint(engine, table_name, 'constr1', 'baz')
insp = reflection.Inspector.from_engine(engine)
f_keys = insp.get_foreign_keys(table_name)
self.assertEqual(len(f_keys), 1)
f_key = f_keys[0]
self.assertEqual(f_key['referred_table'], 'table0')
self.assertEqual(f_key['referred_columns'], ['id'])
self.assertEqual(f_key['constrained_columns'], ['bar'])
def test_insert_from_select(self):
insert_table_name = "__test_insert_to_table__"
select_table_name = "__test_select_from_table__"
uuidstrs = []
for unused in range(10):
uuidstrs.append(uuid.uuid4().hex)
for key, engine in self.engines.items():
meta = MetaData()
meta.bind = engine
conn = engine.connect()
insert_table = Table(
insert_table_name, meta,
Column('id', Integer, primary_key=True,
nullable=False, autoincrement=True),
Column('uuid', String(36), nullable=False))
select_table = Table(
select_table_name, meta,
Column('id', Integer, primary_key=True,
nullable=False, autoincrement=True),
Column('uuid', String(36), nullable=False))
insert_table.create()
select_table.create()
# Add 10 rows to select_table
for uuidstr in uuidstrs:
ins_stmt = select_table.insert().values(uuid=uuidstr)
conn.execute(ins_stmt)
# Select 4 rows in one chunk from select_table
column = select_table.c.id
query_insert = select([select_table],
select_table.c.id < 5).order_by(column)
insert_statement = utils.InsertFromSelect(insert_table,
query_insert)
result_insert = conn.execute(insert_statement)
# Verify we insert 4 rows
self.assertEqual(result_insert.rowcount, 4)
query_all = select([insert_table]).where(
insert_table.c.uuid.in_(uuidstrs))
rows = conn.execute(query_all).fetchall()
# Verify we really have 4 rows in insert_table
self.assertEqual(len(rows), 4)
insert_table.drop()
select_table.drop()
class TestConnectionUtils(test_utils.BaseTestCase):
def setUp(self):
super(TestConnectionUtils, self).setUp()
self.full_credentials = {'backend': 'mysql',
'database': 'test',
'user': 'dude',
'passwd': 'pass'}
self.connect_string = 'mysql://dude:pass@localhost/test'
def test_connect_string(self):
connect_string = utils.get_connect_string(**self.full_credentials)
self.assertEqual(connect_string, self.connect_string)
def test_connect_string_sqlite(self):
sqlite_credentials = {'backend': 'sqlite', 'database': 'test.db'}
connect_string = utils.get_connect_string(**sqlite_credentials)
self.assertEqual(connect_string, 'sqlite:///test.db')
def test_is_backend_avail(self):
self.mox.StubOutWithMock(sqlalchemy.engine.base.Engine, 'connect')
fake_connection = self.mox.CreateMockAnything()
fake_connection.close()
sqlalchemy.engine.base.Engine.connect().AndReturn(fake_connection)
self.mox.ReplayAll()
self.assertTrue(utils.is_backend_avail(**self.full_credentials))
def test_is_backend_unavail(self):
self.mox.StubOutWithMock(sqlalchemy.engine.base.Engine, 'connect')
sqlalchemy.engine.base.Engine.connect().AndRaise(OperationalError)
self.mox.ReplayAll()
self.assertFalse(utils.is_backend_avail(**self.full_credentials))
def test_get_db_connection_info(self):
conn_pieces = parse.urlparse(self.connect_string)
self.assertEqual(utils.get_db_connection_info(conn_pieces),
('dude', 'pass', 'test', 'localhost'))
class TestRaiseDuplicateEntryError(test_base.BaseTestCase):
def _test_impl(self, engine_name, error_msg):
try:
error = sqlalchemy.exc.IntegrityError('test', 'test', error_msg)
session._raise_if_duplicate_entry_error(error, engine_name)
except exception.DBDuplicateEntry as e:
self.assertEqual(e.columns, ['a', 'b'])
else:
self.fail('DBDuplicateEntry was not raised')
def test_sqlite(self):
self._test_impl(
'sqlite',
'(IntegrityError) column a, b are not unique'
)
def test_sqlite_3_7_16_or_3_8_2_and_higher(self):
self._test_impl(
'sqlite',
'(IntegrityError) UNIQUE constraint failed: tbl.a, tbl.b'
)
def test_mysql(self):
self._test_impl(
'mysql',
'(IntegrityError) (1062, "Duplicate entry '
'\'2-3\' for key \'uniq_tbl0a0b\'")'
)
def test_postgresql(self):
self._test_impl(
'postgresql',
'(IntegrityError) duplicate key value violates unique constraint'
'"uniq_tbl0a0b"'
'\nDETAIL: Key (a, b)=(2, 3) already exists.\n'
)
def test_unsupported_backend_returns_none(self):
error = sqlalchemy.exc.IntegrityError('test', 'test', 'test')
rv = session._raise_if_duplicate_entry_error('oracle', error)
self.assertIsNone(rv)
class MyModelSoftDeletedProjectId(declarative_base(), models.ModelBase,
models.SoftDeleteMixin):
__tablename__ = 'soft_deleted_project_id_test_model'
id = Column(Integer, primary_key=True)
project_id = Column(Integer)
class MyModel(declarative_base(), models.ModelBase):
__tablename__ = 'test_model'
id = Column(Integer, primary_key=True)
class MyModelSoftDeleted(declarative_base(), models.ModelBase,
models.SoftDeleteMixin):
__tablename__ = 'soft_deleted_test_model'
id = Column(Integer, primary_key=True)
class TestModelQuery(test_base.BaseTestCase):
def setUp(self):
super(TestModelQuery, self).setUp()
self.session = mock.MagicMock()
self.session.query.return_value = self.session.query
self.session.query.filter.return_value = self.session.query
self.user_context = mock.MagicMock(is_admin=False, read_deleted='yes',
user_id=42, project_id=43)
def test_wrong_model(self):
self.assertRaises(TypeError, utils.model_query, self.user_context,
FakeModel, session=self.session)
def test_no_soft_deleted(self):
self.assertRaises(ValueError, utils.model_query, self.user_context,
MyModel, session=self.session)
def test_read_deleted_only(self):
mock_query = utils.model_query(
self.user_context, MyModelSoftDeleted,
session=self.session, read_deleted='only')
deleted_filter = mock_query.filter.call_args[0][0]
self.assertEqual(str(deleted_filter),
'soft_deleted_test_model.deleted != :deleted_1')
self.assertEqual(deleted_filter.right.value,
MyModelSoftDeleted.__mapper__.c.deleted.default.arg)
def test_read_deleted_no(self):
mock_query = utils.model_query(
self.user_context, MyModelSoftDeleted,
session=self.session, read_deleted='no')
deleted_filter = mock_query.filter.call_args[0][0]
self.assertEqual(str(deleted_filter),
'soft_deleted_test_model.deleted = :deleted_1')
self.assertEqual(deleted_filter.right.value,
MyModelSoftDeleted.__mapper__.c.deleted.default.arg)
def test_read_deleted_yes(self):
mock_query = utils.model_query(
self.user_context, MyModelSoftDeleted,
session=self.session, read_deleted='yes')
self.assertEqual(mock_query.filter.call_count, 0)
def test_wrong_read_deleted(self):
self.assertRaises(ValueError, utils.model_query, self.user_context,
MyModelSoftDeleted, session=self.session,
read_deleted='ololo')
def test_project_only_true(self):
mock_query = utils.model_query(
self.user_context, MyModelSoftDeletedProjectId,
session=self.session, project_only=True)
deleted_filter = mock_query.filter.call_args[0][0]
self.assertEqual(
str(deleted_filter),
'soft_deleted_project_id_test_model.project_id = :project_id_1')
self.assertEqual(deleted_filter.right.value,
self.user_context.project_id)
def test_project_filter_wrong_model(self):
self.assertRaises(ValueError, utils.model_query, self.user_context,
MyModelSoftDeleted, session=self.session,
project_only=True)
def test_read_deleted_allow_none(self):
mock_query = utils.model_query(
self.user_context, MyModelSoftDeletedProjectId,
session=self.session, project_only='allow_none')
self.assertEqual(
str(mock_query.filter.call_args[0][0]),
'soft_deleted_project_id_test_model.project_id = :project_id_1 OR'
' soft_deleted_project_id_test_model.project_id IS NULL'
)
@mock.patch.object(utils, "_read_deleted_filter")
@mock.patch.object(utils, "_project_filter")
def test_context_show_deleted(self, _project_filter, _read_deleted_filter):
user_context = mock.MagicMock(is_admin=False, show_deleted='yes',
user_id=42, project_id=43)
delattr(user_context, 'read_deleted')
_read_deleted_filter.return_value = self.session.query
_project_filter.return_value = self.session.query
utils.model_query(user_context, MyModel,
args=(MyModel.id,), session=self.session)
self.session.query.assert_called_with(MyModel.id)
_read_deleted_filter.assert_called_with(
self.session.query, MyModel, user_context.show_deleted)
_project_filter.assert_called_with(
self.session.query, MyModel, user_context, False)
@mock.patch.object(utils, "_read_deleted_filter")
@mock.patch.object(utils, "_project_filter")
def test_model_query_common(self, _project_filter, _read_deleted_filter):
_read_deleted_filter.return_value = self.session.query
_project_filter.return_value = self.session.query
utils.model_query(self.user_context, MyModel,
args=(MyModel.id,), session=self.session)
self.session.query.assert_called_with(MyModel.id)
_read_deleted_filter.assert_called_with(
self.session.query, MyModel, self.user_context.read_deleted)
_project_filter.assert_called_with(
self.session.query, MyModel, self.user_context, False)