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schema_metadata_test.py
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schema_metadata_test.py
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import pytest
import logging
from collections import defaultdict
from uuid import uuid4
from dtest import Tester, create_ks
since = pytest.mark.since
logger = logging.getLogger(__name__)
def establish_durable_writes_keyspace(version, session, table_name_prefix=""):
session.execute("""
CREATE KEYSPACE {}
WITH replication = {{'class': 'SimpleStrategy', 'replication_factor': 1}};
""".format(_cql_name_builder(table_name_prefix, "durable_writes_default")))
session.execute("""
CREATE KEYSPACE {}
WITH replication = {{'class': 'SimpleStrategy', 'replication_factor': 1}}
AND durable_writes = 'false';
""".format(_cql_name_builder(table_name_prefix, "durable_writes_false")))
session.execute("""
CREATE KEYSPACE {}
WITH replication = {{'class': 'SimpleStrategy', 'replication_factor': 1}}
AND durable_writes = 'true';
""".format(_cql_name_builder(table_name_prefix, "durable_writes_true")))
def verify_durable_writes_keyspace(created_on_version, current_version, keyspace, session, table_name_prefix=""):
expected = {
"durable_writes_default": True,
"durable_writes_true": True,
"durable_writes_false": False
}
for keyspace, is_durable in expected.items():
keyspace_name = _cql_name_builder(table_name_prefix, keyspace)
meta = session.cluster.metadata.keyspaces[keyspace_name]
assert is_durable == meta.durable_writes, "keyspace [{}] had durable_writes of [{}] should be [{}]".format(keyspace_name, meta.durable_writes, is_durable)
def establish_indexes_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_indexes")
cql = """
create table {0} (
a uuid,
b uuid,
c uuid,
d uuid,
e uuid,
primary key((a,b),c))
"""
session.execute(cql.format(table_name))
index_name = _cql_name_builder("idx_" + table_name_prefix, table_name)
logger.debug("table name: [{}], index name: [{}], prefix: [{}]".format(table_name, index_name, table_name_prefix))
session.execute("CREATE INDEX {0} ON {1}( d )".format(index_name, table_name))
def verify_indexes_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_indexes")
index_name = _cql_name_builder("idx_" + table_name_prefix, table_name)
logger.debug("table name: [{}], index name: [{}], prefix: [{}]".format(table_name, index_name, table_name_prefix))
meta = session.cluster.metadata.keyspaces[keyspace].indexes[index_name]
assert 'd' == meta.index_options['target']
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 1 == len(meta.clustering_key)
assert 'c' == meta.clustering_key[0].name
assert 1 == len(meta.indexes)
assert {'target': 'd'} == meta.indexes[index_name].index_options
assert 3 == len(meta.primary_key)
assert 'a' == meta.primary_key[0].name
assert 'b' == meta.primary_key[1].name
assert 'c' == meta.primary_key[2].name
def establish_clustering_order_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_clustering_order")
cql = """
CREATE TABLE {0} (
event_type text,
insertion_time timestamp,
event blob,
PRIMARY KEY (event_type, insertion_time)
)
WITH CLUSTERING ORDER BY (insertion_time DESC);
"""
session.execute(cql.format(table_name))
def verify_clustering_order_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_clustering_order")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 0 == len(meta.indexes)
assert 2 == len(meta.primary_key)
assert 'event_type' == meta.primary_key[0].name
assert 'insertion_time' == meta.primary_key[1].name
assert 1 == len(meta.clustering_key)
assert 'insertion_time' == meta.clustering_key[0].name
assert 'insertion_time DESC' in meta.as_cql_query()
def establish_compact_storage_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_compact_storage")
cql = """
CREATE TABLE {0} (
block_id uuid,
sub_block_id int,
stuff blob,
PRIMARY KEY (block_id, sub_block_id)
)
WITH COMPACT STORAGE;
"""
session.execute(cql.format(table_name))
def verify_compact_storage_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_compact_storage")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 3 == len(meta.columns)
assert 2 == len(meta.primary_key)
assert 1 == len(meta.clustering_key)
assert 'sub_block_id' == meta.clustering_key[0].name
assert 'block_id' == meta.primary_key[0].name
assert 'uuid' == meta.primary_key[0].cql_type
assert 'sub_block_id' == meta.primary_key[1].name
assert 'int' == meta.primary_key[1].cql_type
assert 1 == len(meta.clustering_key)
assert 'sub_block_id' == meta.clustering_key[0].name
def establish_compact_storage_composite_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_compact_storage_composite")
cql = """
CREATE TABLE {0} (
key text,
column1 int,
column2 int,
value text,
PRIMARY KEY(key, column1, column2)
) WITH COMPACT STORAGE;
"""
session.execute(cql.format(table_name))
def verify_compact_storage_composite_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_compact_storage_composite")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 4 == len(meta.columns)
assert 3 == len(meta.primary_key)
assert 'key' == meta.primary_key[0].name
assert 'text' == meta.primary_key[0].cql_type
assert 'column1' == meta.primary_key[1].name
assert 'int' == meta.primary_key[1].cql_type
assert 'column2' == meta.primary_key[2].name
assert 'int' == meta.primary_key[2].cql_type
assert 2 == len(meta.clustering_key)
assert 'column1' == meta.clustering_key[0].name
assert 'int' == meta.clustering_key[0].cql_type
assert 'column2' == meta.clustering_key[1].name
assert 'int' == meta.clustering_key[1].cql_type
def establish_nondefault_table_settings(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_nondefault_settings")
cql = """
create table {0} (
a uuid,
b uuid,
c uuid,
d uuid,
primary key((a,b),c) )
WITH gc_grace_seconds = 9999
AND bloom_filter_fp_chance = 0.5
AND comment = 'insightful information'
AND compaction = {{'class': 'LeveledCompactionStrategy'}}
"""
if version >= '3.0':
cql += " AND compression = {{'class': 'DeflateCompressor', 'chunk_length_in_kb' : 128}}"
else:
cql += " AND compression = {{'sstable_compression': 'DeflateCompressor', 'chunk_length_kb' : 128}}"
if version >= '3.0':
cql += """ AND memtable_flush_period_in_ms = 2121
AND speculative_retry = '55PERCENTILE'"""
if version >= '2.1':
cql += """ AND max_index_interval = 20
AND min_index_interval = 1
AND default_time_to_live = 86400
AND caching = {{'keys': 'NONE', 'rows_per_partition': 'ALL'}}"""
if version >= '2.0' and version <= '3.0':
cql += " AND index_interval = 1"
if version < '2.1':
cql += " AND caching = 'ROWS_ONLY'"
session.execute(cql.format(table_name))
def verify_nondefault_table_settings(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_nondefault_settings")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 'insightful information' == meta.options['comment']
assert 9999 == meta.options['gc_grace_seconds']
assert 0.5 == meta.options['bloom_filter_fp_chance']
if created_on_version >= '2.1':
assert 86400 == meta.options['default_time_to_live']
assert 1 == meta.options['min_index_interval']
assert 20 == meta.options['max_index_interval']
if created_on_version >= '3.0':
assert 2121 == meta.options['memtable_flush_period_in_ms']
if created_on_version >= '3.0':
if created_on_version >= '4.0':
assert '55p' == meta.options['speculative_retry']
else:
assert '55PERCENTILE' == meta.options['speculative_retry']
if current_version >= '3.0':
assert 'org.apache.cassandra.io.compress.DeflateCompressor' == meta.options['compression']['class']
assert '128' == meta.options['compression']['chunk_length_in_kb']
assert 'org.apache.cassandra.db.compaction.LeveledCompactionStrategy' == meta.options['compaction']['class']
if '2.1' <= current_version < '3.0':
assert '{"keys":"NONE", "rows_per_partition":"ALL"}' == meta.options['caching']
assert '"chunk_length_kb":"128"' in meta.options['compression_parameters']
assert '"sstable_compression":"org.apache.cassandra.io.compress.DeflateCompressor"' in meta.options['compression_parameters']
elif current_version >= '3.0':
assert 'NONE' == meta.options['caching']['keys']
assert 'ALL' == meta.options['caching']['rows_per_partition']
assert 'org.apache.cassandra.io.compress.DeflateCompressor' == meta.options['compression']['class']
assert '128' == meta.options['compression']['chunk_length_in_kb']
assert 'org.apache.cassandra.db.compaction.LeveledCompactionStrategy' == meta.options['compaction']['class']
else:
assert 'ROWS_ONLY' == meta.options['caching']
assert 2 == len(meta.partition_key)
assert meta.partition_key[0].name == 'a'
assert meta.partition_key[1].name == 'b'
assert 1 == len(meta.clustering_key)
assert meta.clustering_key[0].name == 'c'
def establish_uda(version, session, table_name_prefix=""):
if version < '2.2':
return
function_name = _cql_name_builder(table_name_prefix, "test_uda_function")
aggregate_name = _cql_name_builder(table_name_prefix, "test_uda_aggregate")
session.execute('''
CREATE FUNCTION {0}(current int, candidate int)
CALLED ON NULL INPUT
RETURNS int LANGUAGE java AS
'if (current == null) return candidate; else return Math.max(current, candidate);';
'''.format(function_name))
session.execute('''
CREATE AGGREGATE {0}(int)
SFUNC {1}
STYPE int
INITCOND null;
'''.format(aggregate_name, function_name))
def verify_uda(created_on_version, current_version, keyspace, session, table_name_prefix=""):
if created_on_version < '2.2':
return
function_name = _cql_name_builder(table_name_prefix, "test_uda_function")
aggregate_name = _cql_name_builder(table_name_prefix, "test_uda_aggregate")
assert function_name + "(int,int)" in list(session.cluster.metadata.keyspaces[keyspace].functions.keys())
assert aggregate_name + "(int)" in list(session.cluster.metadata.keyspaces[keyspace].aggregates.keys())
aggr_meta = session.cluster.metadata.keyspaces[keyspace].aggregates[aggregate_name + "(int)"]
assert function_name == aggr_meta.state_func
assert 'int' == aggr_meta.state_type
assert 'int' == aggr_meta.return_type
def establish_udf(version, session, table_name_prefix=""):
if version < '2.2':
return
function_name = _cql_name_builder(table_name_prefix, "test_udf")
session.execute('''
CREATE OR REPLACE FUNCTION {0} (input double) CALLED ON NULL INPUT RETURNS double LANGUAGE java AS 'return Double.valueOf(Math.log(input.doubleValue()));';
'''.format(function_name))
def verify_udf(created_on_version, current_version, keyspace, session, table_name_prefix=""):
if created_on_version < '2.2':
return
function_name = _cql_name_builder(table_name_prefix, "test_udf")
assert function_name + "(double)" in list(session.cluster.metadata.keyspaces[keyspace].functions.keys())
meta = session.cluster.metadata.keyspaces[keyspace].functions[function_name + "(double)"]
assert 'java' == meta.language
assert 'double' == meta.return_type
assert ['double'] == meta.argument_types
assert ['input'] == meta.argument_names
assert 'return Double.valueOf(Math.log(input.doubleValue()));' == meta.body
def establish_udt_table(version, session, table_name_prefix=""):
if version < '2.1':
return
table_name = _cql_name_builder(table_name_prefix, "test_udt")
session.execute('''
CREATE TYPE {0} (
street text,
city text,
zip int
)'''.format(table_name))
def verify_udt_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
if created_on_version < '2.1':
return
table_name = _cql_name_builder(table_name_prefix, "test_udt")
meta = session.cluster.metadata.keyspaces[keyspace].user_types[table_name]
assert meta.field_names == ['street', 'city', 'zip']
assert 'street' == meta.field_names[0]
assert 'text' == meta.field_types[0]
assert 'city' == meta.field_names[1]
assert 'text' == meta.field_types[1]
assert 'zip' == meta.field_names[2]
assert 'int' == meta.field_types[2]
def establish_static_column_table(version, session, table_name_prefix=""):
if version < '2.0':
return
table_name = _cql_name_builder(table_name_prefix, "test_static_column")
session.execute('''
CREATE TABLE {0} (
user text,
balance int static,
expense_id int,
amount int,
PRIMARY KEY (user, expense_id)
)'''.format(table_name))
def verify_static_column_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
if created_on_version < '2.0':
return
table_name = _cql_name_builder(table_name_prefix, "test_static_column")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
assert 4 == len(meta.columns)
assert 'text' == meta.columns['user'].cql_type
assert False == meta.columns['user'].is_static
assert 'int' == meta.columns['balance'].cql_type
assert True == meta.columns['balance'].is_static
assert 'int' == meta.columns['expense_id'].cql_type
assert False == meta.columns['expense_id'].is_static
assert 'int' == meta.columns['amount'].cql_type
assert False == meta.columns['amount'].is_static
def establish_collection_datatype_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_collection_datatypes")
cql = '''
CREATE TABLE {0} (
id uuid PRIMARY KEY,
a list<int>,
b list<text>,
c set<int>,
d set<text>,
e map<text, text>,
f map<text, int>,'''
if version > '2.1':
cql += '''
g frozen<list<int>>,
h frozen<list<text>>,
i frozen<set<int>>,
j frozen<set<text>>,
k frozen<map<text, text>>,
l frozen<map<text, int>>'''
cql += ')'
session.execute(cql.format(table_name))
def verify_collection_datatype_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_collection_datatypes")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
if created_on_version > '2.1':
assert 13 == len(meta.columns)
else:
assert 7 == len(meta.columns)
assert 'list<int>' == meta.columns['a'].cql_type
assert 'list<text>' == meta.columns['b'].cql_type
assert 'set<int>' == meta.columns['c'].cql_type
assert 'set<text>' == meta.columns['d'].cql_type
assert 'map<text, text>' == meta.columns['e'].cql_type
assert 'map<text, int>' == meta.columns['f'].cql_type
if created_on_version > '2.1':
assert 'frozen<list<int>>' == meta.columns['g'].cql_type
assert 'frozen<list<text>>' == meta.columns['h'].cql_type
assert 'frozen<set<int>>' == meta.columns['i'].cql_type
assert 'frozen<set<text>>' == meta.columns['j'].cql_type
assert 'frozen<map<text, text>>' == meta.columns['k'].cql_type
assert 'frozen<map<text, int>>' == meta.columns['l'].cql_type
def establish_basic_datatype_table(version, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_basic_datatypes")
cql = '''
CREATE TABLE {0} (
a ascii,
b bigint PRIMARY KEY,
c blob,
d boolean,
e decimal,
f double,
g float,
h inet,
i int,
j text,
k timestamp,
l timeuuid,
m uuid,
n varchar,
o varint,'''
if version > '2.2':
cql += ''' p date,
q smallint,
r time,
s tinyint'''
cql += ')'
session.execute(cql.format(table_name))
def verify_basic_datatype_table(created_on_version, current_version, keyspace, session, table_name_prefix=""):
table_name = _cql_name_builder(table_name_prefix, "test_basic_datatypes")
meta = session.cluster.metadata.keyspaces[keyspace].tables[table_name]
if created_on_version > '2.2':
assert 19 == len(meta.columns)
else:
assert 15 == len(meta.columns)
assert 1 == len(meta.primary_key)
assert 'b' == meta.primary_key[0].name
assert 'ascii' == meta.columns['a'].cql_type
assert 'bigint' == meta.columns['b'].cql_type
assert 'blob' == meta.columns['c'].cql_type
assert 'boolean' == meta.columns['d'].cql_type
assert 'decimal' == meta.columns['e'].cql_type
assert 'double' == meta.columns['f'].cql_type
assert 'float' == meta.columns['g'].cql_type
assert 'inet' == meta.columns['h'].cql_type
assert 'int' == meta.columns['i'].cql_type
assert 'text' == meta.columns['j'].cql_type
assert 'timestamp' == meta.columns['k'].cql_type
assert 'timeuuid' == meta.columns['l'].cql_type
assert 'uuid' == meta.columns['m'].cql_type
assert 'text' == meta.columns['n'].cql_type
assert 'varint' == meta.columns['o'].cql_type
if created_on_version > '2.2':
assert 'date' == meta.columns['p'].cql_type
assert 'smallint' == meta.columns['q'].cql_type
assert 'time' == meta.columns['r'].cql_type
assert 'tinyint' == meta.columns['s'].cql_type
def _cql_name_builder(prefix, table_name):
def get_uuid_str():
return str(uuid4()).replace('-', '')
try:
consistent_hasher = _cql_name_builder.consistent_hasher
except AttributeError:
consistent_hasher = defaultdict(get_uuid_str)
_cql_name_builder.consistent_hasher = consistent_hasher
return "gen_{}".format(consistent_hasher[prefix + table_name]) # 'gen' as in 'generated'
class TestSchemaMetadata(Tester):
@pytest.fixture(scope='function', autouse=True)
def fixture_set_cluster_settings(self, fixture_dtest_setup):
cluster = fixture_dtest_setup.cluster
cluster.schema_event_refresh_window = 0
if cluster.version() >= '3.0':
cluster.set_configuration_options({'enable_user_defined_functions': 'true',
'enable_scripted_user_defined_functions': 'true'})
elif cluster.version() >= '2.2':
cluster.set_configuration_options({'enable_user_defined_functions': 'true'})
cluster.populate(1).start()
self.session = fixture_dtest_setup.patient_cql_connection(cluster.nodelist()[0])
create_ks(self.session, 'ks', 1)
def _keyspace_meta(self, keyspace_name="ks"):
self.session.cluster.refresh_schema_metadata()
return self.session.cluster.metadata.keyspaces[keyspace_name]
def test_creating_and_dropping_keyspace(self):
starting_keyspace_count = len(self.session.cluster.metadata.keyspaces)
assert True == self._keyspace_meta().durable_writes
self.session.execute("""
CREATE KEYSPACE so_long
WITH replication = {'class': 'SimpleStrategy', 'replication_factor': 1}
AND durable_writes = false
""")
assert False == self._keyspace_meta('so_long').durable_writes
self.session.execute("DROP KEYSPACE so_long")
assert starting_keyspace_count == len(self.session.cluster.metadata.keyspaces)
def test_creating_and_dropping_table(self):
self.session.execute("create table born_to_die (id uuid primary key, name varchar)")
meta = self._keyspace_meta().tables['born_to_die']
assert 'ks' == meta.keyspace_name
assert 'born_to_die' == meta.name
assert 1 == len(meta.partition_key)
assert 'id' == meta.partition_key[0].name
assert 2 == len(meta.columns)
assert meta.columns.get('id') is not None
assert 'uuid' == meta.columns['id'].cql_type
assert meta.columns.get('name') is not None
assert 'text' == meta.columns['name'].cql_type
assert 0 == len(meta.clustering_key)
assert 0 == len(meta.triggers)
assert 0 == len(meta.indexes)
self.session.execute("drop table born_to_die")
assert self._keyspace_meta().tables.get('born_to_die') is None
def test_creating_and_dropping_table_with_2ary_indexes(self):
assert 0 == len(self._keyspace_meta().indexes)
self.session.execute("create table born_to_die (id uuid primary key, name varchar)")
self.session.execute("create index ix_born_to_die_name on born_to_die(name)")
assert 1 == len(self._keyspace_meta().indexes)
ix_meta = self._keyspace_meta().indexes['ix_born_to_die_name']
assert 'ix_born_to_die_name' == ix_meta.name
assert {'target': 'name'} == ix_meta.index_options
assert 'COMPOSITES' == ix_meta.kind
self.session.execute("drop table born_to_die")
assert self._keyspace_meta().tables.get('born_to_die') is None
assert self._keyspace_meta().indexes.get('ix_born_to_die_name') is None
assert 0 == len(self._keyspace_meta().indexes)
@since('2.1')
def test_creating_and_dropping_user_types(self):
assert 0 == len(self._keyspace_meta().user_types)
self.session.execute("CREATE TYPE soon_to_die (foo text, bar int)")
assert 1 == len(self._keyspace_meta().user_types)
ut_meta = self._keyspace_meta().user_types['soon_to_die']
assert 'ks' == ut_meta.keyspace
assert 'soon_to_die' == ut_meta.name
assert ['foo', 'bar'] == ut_meta.field_names
assert ['text', 'int'] == ut_meta.field_types
self.session.execute("DROP TYPE soon_to_die")
assert 0 == len(self._keyspace_meta().user_types)
@since('2.2')
def test_creating_and_dropping_udf(self):
assert 0 == len(self._keyspace_meta().functions), "expected to start with no indexes"
self.session.execute("""
CREATE OR REPLACE FUNCTION ks.wasteful_function (input double)
CALLED ON NULL INPUT
RETURNS double
LANGUAGE java AS 'return Double.valueOf(Math.log(input.doubleValue()));';
""")
assert 1 == len(self._keyspace_meta().functions), "udf count should be 1"
udf_meta = self._keyspace_meta().functions['wasteful_function(double)']
assert 'ks' == udf_meta.keyspace
assert 'wasteful_function' == udf_meta.name
assert ['double'] == udf_meta.argument_types
assert ['input'] == udf_meta.argument_names
assert 'double' == udf_meta.return_type
assert 'java' == udf_meta.language
assert 'return Double.valueOf(Math.log(input.doubleValue()));' == udf_meta.body
assert udf_meta.called_on_null_input
self.session.execute("DROP FUNCTION ks.wasteful_function")
assert 0 == len(self._keyspace_meta().functions), "expected udf list to be back to zero"
@since('2.2')
def test_creating_and_dropping_uda(self):
assert 0 == len(self._keyspace_meta().functions), "expected to start with no indexes"
assert 0 == len(self._keyspace_meta().aggregates), "expected to start with no aggregates"
self.session.execute('''
CREATE FUNCTION ks.max_val(current int, candidate int)
CALLED ON NULL INPUT
RETURNS int LANGUAGE java AS
'if (current == null) return candidate; else return Math.max(current, candidate);'
''')
self.session.execute('''
CREATE AGGREGATE ks.kind_of_max_agg(int)
SFUNC max_val
STYPE int
INITCOND -1
''')
assert 1 == len(self._keyspace_meta().functions), "udf count should be 1"
assert 1 == len(self._keyspace_meta().aggregates), "uda count should be 1"
udf_meta = self._keyspace_meta().functions['max_val(int,int)']
uda_meta = self._keyspace_meta().aggregates['kind_of_max_agg(int)']
assert 'ks' == udf_meta.keyspace
assert 'max_val' == udf_meta.name
assert ['int', 'int'] == udf_meta.argument_types
assert ['current', 'candidate'] == udf_meta.argument_names
assert 'int' == udf_meta.return_type
assert 'java' == udf_meta.language
assert 'if (current == null) return candidate; else return Math.max(current, candidate);' == udf_meta.body
assert udf_meta.called_on_null_input
assert 'ks' == uda_meta.keyspace
assert 'kind_of_max_agg' == uda_meta.name
assert ['int'] == uda_meta.argument_types
assert 'max_val' == uda_meta.state_func
assert 'int' == uda_meta.state_type
assert None == uda_meta.final_func
assert '-1' == uda_meta.initial_condition
assert 'int' == uda_meta.return_type
self.session.execute("DROP AGGREGATE ks.kind_of_max_agg")
assert 0 == len(self._keyspace_meta().aggregates), "expected uda list to be back to zero"
self.session.execute("DROP FUNCTION ks.max_val")
assert 0 == len(self._keyspace_meta().functions), "expected udf list to be back to zero"
def test_basic_table_datatype(self):
establish_basic_datatype_table(self.cluster.version(), self.session)
verify_basic_datatype_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
def test_collection_table_datatype(self):
establish_collection_datatype_table(self.cluster.version(), self.session)
verify_collection_datatype_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
def test_clustering_order(self):
establish_clustering_order_table(self.cluster.version(), self.session)
verify_clustering_order_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since("2.0", max_version="3.X") # Compact Storage
def test_compact_storage(self):
establish_compact_storage_table(self.cluster.version(), self.session)
verify_compact_storage_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since("2.0", max_version="3.X") # Compact Storage
def test_compact_storage_composite(self):
establish_compact_storage_composite_table(self.cluster.version(), self.session)
verify_compact_storage_composite_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
def test_nondefault_table_settings(self):
establish_nondefault_table_settings(self.cluster.version(), self.session)
verify_nondefault_table_settings(self.cluster.version(), self.cluster.version(), 'ks', self.session)
def test_indexes(self):
establish_indexes_table(self.cluster.version(), self.session)
verify_indexes_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
def test_durable_writes(self):
establish_durable_writes_keyspace(self.cluster.version(), self.session)
verify_durable_writes_keyspace(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since('2.0')
def test_static_column(self):
establish_static_column_table(self.cluster.version(), self.session)
verify_static_column_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since('2.1')
def test_udt_table(self):
establish_udt_table(self.cluster.version(), self.session)
verify_udt_table(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since('2.2')
def test_udf(self):
establish_udf(self.cluster.version(), self.session)
self.session.cluster.refresh_schema_metadata()
verify_udf(self.cluster.version(), self.cluster.version(), 'ks', self.session)
@since('2.2')
def test_uda(self):
establish_uda(self.cluster.version(), self.session)
self.session.cluster.refresh_schema_metadata()
verify_uda(self.cluster.version(), self.cluster.version(), 'ks', self.session)