def setUp(self):
self.kv1 = KeyVal('kv1')
self.kv2 = KeyVal.connect('kv2')
self.values1 = (12, 'ab', 1.2, (1,2), [1,2], {'a': 1.2})
self.values2 = (123, 'abc', 12.3, (1,2,3), [1,2,3],
{'a': 1, 'b': 2.3})
self.keys = ['key{}'.format(i) for i, unused in enumerate(
self.values1)]
self.nokeys = ['nokey{}'.format(i) for i, unused in enumerate(
self.values1)]
def handle(self, **options):
command = options.get('command')
if not command:
raise SystemExit('Error: you must specify a command')
store_name = options.get('store_name')
if not store_name:
raise SystemExit('Error: you must specify a store name')
key = options.get('key')
if not key:
raise SystemExit('Error: you must specify a key')
kv = KeyVal(store_name)
if command == 'set':
value = options.get('value')
if not value:
raise SystemExit('Error: you must specify a value')
created = kv.set(key, value)
if created:
print('New key {} set to {}.'.format(key, value))
else:
print('Existing key {} overwritten to {}.'.format(key, value))
elif command == 'get':
try:
value = kv.get_default(key, None)
except NameError:
raise SystemExit('Error: store_name {} does not exist'.format(
store_name))
if value is None:
print('Warning: Key {} does not exist in {}.'.format(key,
store_name))
else:
print('Value for key {} is {}'.format(key, value))
elif command == 'del':
try:
deleted = kv.delete(key, ignore_keyerror=True)
except NameError:
raise SystemExit('Error: store_name {} does not exist'.format(
store_name))
if deleted:
print('Key {} deleted'.format(key))
else:
print('Warning: Key {} does not exist in {}.'.format(key,
store_name))
else:
raise SystemExit('Error: command {} is invalid'.format(command))
def test_disconnect(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# generate new kv's in kv2
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv2.set(key, value))
self.assertIsNone(self.kv1.disconnect())
# any operation on kv1 should raise an error, but kv2 should be ok
for key, value in zip(self.keys, self.values2):
#exists
self.assertRaises(NameError, self.kv1.exists, key)
self.assertTrue(self.kv2.exists(key))
#get
self.assertRaises(NameError, self.kv1.get, key)
self.assertEqual(self.kv2.get(key), value)
#set
self.assertRaises(NameError, self.kv1.set, key, value)
self.assertFalse(self.kv2.set(key, value))
#pop
self.assertRaises(NameError, self.kv1.pop, key)
self.assertEqual(self.kv2.pop(key), value)
# further tests on kv2 are pointless
#delete
self.assertRaises(NameError, self.kv1.delete, key)
#pop_default
self.assertRaises(NameError, self.kv1.pop_default, key, 0)
#get_default
self.assertRaises(NameError, self.kv1.get_default, key, 0)
#flush
self.assertRaises(NameError, self.kv1.flush)
# check if values in kv1 are still there
new_kv1 = KeyVal('kv1')
for key, value in zip(self.keys, self.values1):
self.assertEqual(new_kv1.get(key), value)
#flush_all should work!!
self.assertIsNone(self.kv1.flush_all())
class KeyValTestCase(test.TestCase):
'''
#TODO: put values in database fixture instead or relying on kv1.set
Until a database fixture is used, KeyVal.set is used in all tests.
KeyVal.exists is not explicitly tested, because it is used in most tests
anyway.
'''
def setUp(self):
self.kv1 = KeyVal('kv1')
self.kv2 = KeyVal.connect('kv2')
self.values1 = (12, 'ab', 1.2, (1,2), [1,2], {'a': 1.2})
self.values2 = (123, 'abc', 12.3, (1,2,3), [1,2,3],
{'a': 1, 'b': 2.3})
self.keys = ['key{}'.format(i) for i, unused in enumerate(
self.values1)]
self.nokeys = ['nokey{}'.format(i) for i, unused in enumerate(
self.values1)]
def test_set_get(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv1.set(key, value))
# overwrite kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertFalse(self.kv1.set(key, value))
# get (nonexistent) values in kv1
for key in self.nokeys:
self.assertRaises(KeyError, self.kv1.get, key)
# get (nonexistent) values in *empty* kv2
for key in self.keys:
self.assertRaises(KeyError, self.kv2.get, key)
# generate new kv's in kv2
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv2.set(key, value))
# check values in kv1
for key, value in zip(self.keys, self.values1):
self.assertEqual(self.kv1.get(key), value)
# check values in kv2
for key, value in zip(self.keys, self.values2):
self.assertEqual(self.kv2.get(key), value)
def test_delete(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# delete (nonexistent) kvs
for key in self.nokeys:
self.assertRaises(KeyError, self.kv1.delete, key)
self.assertFalse(self.kv1.delete(key, ignore_keyerror=True))
# delete kv1 keys:
for key in self.keys:
self.assertTrue(self.kv1.delete(key))
# check if they are gone:
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# delete kv1 keys:
for key in self.keys:
self.assertTrue(self.kv1.delete(key, ignore_keyerror=True))
# check if they are gone:
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
def test_pop(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# pop (nonexistent) kvs
for key in self.nokeys:
self.assertRaises(KeyError, self.kv1.pop, key)
# pop kv1 keys:
for key, value in zip(self.keys, self.values1):
self.assertEqual(self.kv1.pop(key), value)
# check if they are gone:
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
def test_pop_default(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# pop (nonexistent) kvs
for key in self.nokeys:
self.assertEqual(self.kv1.pop_default(key, 5), 5)
# pop kv1 keys:
for key, value in zip(self.keys, self.values1):
self.assertEqual(self.kv1.pop_default(key, 5), value)
# check if they are gone:
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
def test_get_default(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# get (nonexistent) kvs
for key in self.nokeys:
self.assertEqual(self.kv1.get_default(key, 5), 5)
# pop kv1 keys:
for key, value in zip(self.keys, self.values1):
self.assertEqual(self.kv1.get_default(key, 5), value)
def test_flush(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# generate new kv's in kv2
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv2.set(key, value))
# flush kv1:
self.assertIsNone(self.kv1.flush())
# kv1 should be empty
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
# kv2 should be full
for key in self.keys:
self.assertTrue(self.kv2.exists(key))
def test_flush_all(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# generate new kv's in kv2
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv2.set(key, value))
# the following is equivalent to KeyVal.flush_all()
self.assertIsNone(self.kv1.flush_all())
# kv1 should be empty
for key in self.keys:
self.assertFalse(self.kv1.exists(key))
# kv2 should be empty
for key in self.keys:
self.assertFalse(self.kv2.exists(key))
def test_disconnect(self):
# generate new kv's in kv1
for key, value in zip(self.keys, self.values1):
self.assertTrue(self.kv1.set(key, value))
# generate new kv's in kv2
for key, value in zip(self.keys, self.values2):
self.assertTrue(self.kv2.set(key, value))
self.assertIsNone(self.kv1.disconnect())
# any operation on kv1 should raise an error, but kv2 should be ok
for key, value in zip(self.keys, self.values2):
#exists
self.assertRaises(NameError, self.kv1.exists, key)
self.assertTrue(self.kv2.exists(key))
#get
self.assertRaises(NameError, self.kv1.get, key)
self.assertEqual(self.kv2.get(key), value)
#set
self.assertRaises(NameError, self.kv1.set, key, value)
self.assertFalse(self.kv2.set(key, value))
#pop
self.assertRaises(NameError, self.kv1.pop, key)
self.assertEqual(self.kv2.pop(key), value)
# further tests on kv2 are pointless
#delete
self.assertRaises(NameError, self.kv1.delete, key)
#pop_default
self.assertRaises(NameError, self.kv1.pop_default, key, 0)
#get_default
self.assertRaises(NameError, self.kv1.get_default, key, 0)
#flush
self.assertRaises(NameError, self.kv1.flush)
# check if values in kv1 are still there
new_kv1 = KeyVal('kv1')
for key, value in zip(self.keys, self.values1):
self.assertEqual(new_kv1.get(key), value)
#flush_all should work!!
self.assertIsNone(self.kv1.flush_all())
