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materialized_views_test.py
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materialized_views_test.py
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import collections
import re
import sys
import time
import traceback
import pytest
import threading
import logging
from flaky import flaky
from enum import Enum
from queue import Empty
from functools import partial
from multiprocessing import Process, Queue
from cassandra import ConsistencyLevel, InvalidRequest, WriteFailure
from cassandra.cluster import NoHostAvailable
from cassandra.concurrent import execute_concurrent_with_args
from cassandra.cluster import Cluster
from cassandra.query import SimpleStatement
from distutils.version import LooseVersion
from dtest import Tester, get_ip_from_node, create_ks, mk_bman_path
from tools.assertions import (assert_all, assert_crc_check_chance_equal,
assert_invalid, assert_none, assert_one,
assert_unavailable)
from tools.data import rows_to_list
from tools.misc import new_node
from tools.jmxutils import (JolokiaAgent, make_mbean)
since = pytest.mark.since
logger = logging.getLogger(__name__)
# CASSANDRA-10978. Migration wait (in seconds) to use in bootstrapping tests. Needed to handle
# pathological case of flushing schema keyspace for multiple data directories. See CASSANDRA-6696
# for multiple data directory changes and CASSANDRA-10421 for compaction logging that must be
# written.
MIGRATION_WAIT = 5
@flaky
@since('3.0')
class TestMaterializedViews(Tester):
"""
Test materialized views implementation.
@jira_ticket CASSANDRA-6477
@since 3.0
"""
def _rows_to_list(self, rows):
new_list = [list(row) for row in rows]
return new_list
def prepare(self, user_table=False, rf=1, options=None, nodes=3, install_byteman=False, **kwargs):
cluster = self.cluster
cluster.set_configuration_options({'enable_materialized_views': 'true', 'commitlog_sync_period_in_ms': 1000})
cluster.populate([nodes, 0], install_byteman=install_byteman)
if options:
cluster.set_configuration_options(values=options)
cluster.start(jvm_args=['-Dcassandra.reset_bootstrap_progress=false'])
node1 = cluster.nodelist()[0]
session = self.patient_cql_connection(node1, **kwargs)
create_ks(session, 'ks', rf)
if user_table:
session.execute(
("CREATE TABLE users (username varchar, password varchar, gender varchar, "
"session_token varchar, state varchar, birth_year bigint, "
"PRIMARY KEY (username));")
)
# create a materialized view
session.execute(("CREATE MATERIALIZED VIEW users_by_state AS "
"SELECT * FROM users WHERE STATE IS NOT NULL AND username IS NOT NULL "
"PRIMARY KEY (state, username)"))
return session
def update_view(self, session, query, flush, compact=False):
session.execute(query)
query_time = time.time()
self._replay_batchlogs()
if flush:
self.cluster.flush()
if compact:
self.cluster.compact()
return query_time
def _settle_nodes(self):
logger.debug("Settling all nodes")
stage_match = re.compile(r"(?P<name>\S+)\s+(?P<active>\d+)\s+(?P<pending>\d+)\s+(?P<completed>\d+)\s+(?P<blocked>\d+)\s+(?P<alltimeblocked>\d+)")
def _settled_stages(node):
(stdout, stderr, rc) = node.nodetool("tpstats")
lines = re.split("\n+", stdout)
for line in lines:
match = stage_match.match(line)
if match is not None:
active = int(match.group('active'))
pending = int(match.group('pending'))
if active != 0 or pending != 0:
logger.debug("%s - pool %s still has %d active and %d pending" % (node.name, match.group("name"), active, pending))
return False
return True
for node in self.cluster.nodelist():
if node.is_running():
node.nodetool("replaybatchlog")
attempts = 50 # 100 milliseconds per attempt, so 5 seconds total
while attempts > 0 and not _settled_stages(node):
time.sleep(0.1)
attempts -= 1
def _build_progress_table(self):
if self.cluster.version() >= '4':
return 'system.view_builds_in_progress'
else:
return 'system.views_builds_in_progress'
def _wait_for_view(self, ks, view):
logger.debug("waiting for view")
def _view_build_finished(node):
s = self.patient_exclusive_cql_connection(node)
query = "SELECT * FROM %s WHERE keyspace_name='%s' AND view_name='%s'" %\
(self._build_progress_table(), ks, view)
result = list(s.execute(query))
return len(result) == 0
for node in self.cluster.nodelist():
if node.is_running():
attempts = 50 # 1 sec per attempt, so 50 seconds total
while attempts > 0 and not _view_build_finished(node):
time.sleep(1)
attempts -= 1
if attempts <= 0:
raise RuntimeError("View {}.{} build not finished after 50 seconds.".format(ks, view))
def _wait_for_view_build_start(self, session, ks, view, wait_minutes=2):
"""Wait for the start of a MV build, ensuring that it has saved some progress"""
start = time.time()
while True:
try:
query = "SELECT COUNT(*) FROM %s WHERE keyspace_name='%s' AND view_name='%s'" %\
(self._build_progress_table(), ks, view)
result = list(session.execute(query))
assert 0 == result[0].count
except AssertionError:
break
elapsed = (time.time() - start) / 60
if elapsed > wait_minutes:
pytest.fail("The MV build hasn't started in 2 minutes.")
def _insert_data(self, session):
# insert data
insert_stmt = "INSERT INTO users (username, password, gender, state, birth_year) VALUES "
session.execute(insert_stmt + "('user1', 'ch@ngem3a', 'f', 'TX', 1968);")
session.execute(insert_stmt + "('user2', 'ch@ngem3b', 'm', 'CA', 1971);")
session.execute(insert_stmt + "('user3', 'ch@ngem3c', 'f', 'FL', 1978);")
session.execute(insert_stmt + "('user4', 'ch@ngem3d', 'm', 'TX', 1974);")
self._settle_nodes()
def _replay_batchlogs(self):
for node in self.cluster.nodelist():
if node.is_running():
logger.debug("Replaying batchlog on node {}".format(node.name))
node.nodetool("replaybatchlog")
# CASSANDRA-13069 - Ensure replayed mutations are removed from the batchlog
node_session = self.patient_exclusive_cql_connection(node)
result = list(node_session.execute("SELECT count(*) FROM system.batches;"))
assert result[0].count == 0
def _assert_view_meta(self, session, views, exists=True, nodes=2):
if exists:
assert_one(session, "SELECT COUNT(*) FROM system.built_views", [views])
if self.cluster.version() >= '3.11':
assert_one(session, "SELECT COUNT(*) FROM system_distributed.view_build_status", [views * nodes])
else:
assert_none(session, "SELECT * FROM system.built_views")
if self.cluster.version() >= '3.11':
assert_none(session, "SELECT * FROM system_distributed.view_build_status")
assert_none(session, "SELECT * FROM {}".format(self._build_progress_table()))
def test_view_metadata_cleanup(self):
"""
drop keyspace or view should clear built_views and view_build_status
"""
session = self.prepare(rf=2, nodes=2)
def populate_data(session, rows):
logger.debug("populate base data")
for v in range(rows):
session.execute("INSERT INTO t(k,c,a,b,e,f) VALUES({v},{v},{v},{v},{v},{v})".format(v=v))
def verify_data(session, rows, views):
logger.debug("verify view data")
for v in range(rows):
for view in range(views):
assert_one(session, "SELECT * FROM mv{} WHERE k={v} AND c={v}".format(view, v=v), [v, v, v, v, v, v])
def create_keyspace(session, ks="ks1", rf=2):
create_ks(session, ks, rf)
def create_table(session):
logger.debug("create base table")
session.execute("CREATE TABLE t (k int, c int, a int, b int, e int, f int, primary key(k, c))")
def create_views(session, views, keyspace="ks1"):
logger.debug("create view")
for view in range(views):
session.execute("CREATE MATERIALIZED VIEW mv{} AS SELECT * FROM t "
"WHERE k IS NOT NULL AND c IS NOT NULL PRIMARY KEY (c,k)".format(view),
timeout=60)
self._wait_for_view(keyspace, "mv{}".format(view))
def drop_keyspace(session, keyspace="ks1"):
logger.debug("drop keyspace {}".format(keyspace))
session.execute("DROP KEYSPACE IF EXISTS {}".format(keyspace),
timeout=60)
def drop_views(session, views):
logger.debug("drop all views")
for view in range(views):
session.execute("DROP MATERIALIZED VIEW IF EXISTS mv{}".format(view))
rows = 100
views = 5
create_keyspace(session)
create_table(session)
populate_data(session, rows)
create_views(session, views)
verify_data(session, rows, views)
self._assert_view_meta(session, views)
drop_keyspace(session)
self._assert_view_meta(session, views, exists=False)
create_keyspace(session)
create_table(session)
populate_data(session, rows)
create_views(session, views)
verify_data(session, rows, views)
self._assert_view_meta(session, views)
drop_views(session, views)
self._assert_view_meta(session, views, exists=False)
def test_create(self):
"""Test the materialized view creation"""
session = self.prepare(user_table=True)
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 1, "Expecting 1 materialized view == got" + str(result)
def test_gcgs_validation(self):
"""Verify that it's not possible to create or set a too low gc_grace_seconds on MVs"""
session = self.prepare(user_table=True)
# Shouldn't be able to alter the gc_grace_seconds of the base table to 0
assert_invalid(session,
"ALTER TABLE users WITH gc_grace_seconds = 0",
"Cannot alter gc_grace_seconds of the base table of a materialized view "
"to 0, since this value is used to TTL undelivered updates. Setting "
"gc_grace_seconds too low might cause undelivered updates to expire "
"before being replayed.")
# But can alter the gc_grace_seconds of the bease table to a value != 0
session.execute("ALTER TABLE users WITH gc_grace_seconds = 10")
# Shouldn't be able to alter the gc_grace_seconds of the MV to 0
assert_invalid(session,
"ALTER MATERIALIZED VIEW users_by_state WITH gc_grace_seconds = 0",
"Cannot alter gc_grace_seconds of a materialized view to 0, since "
"this value is used to TTL undelivered updates. Setting gc_grace_seconds "
"too low might cause undelivered updates to expire before being replayed.")
# Now let's drop MV
session.execute("DROP MATERIALIZED VIEW ks.users_by_state;")
# Now we should be able to set the gc_grace_seconds of the base table to 0
session.execute("ALTER TABLE users WITH gc_grace_seconds = 0")
# Now we shouldn't be able to create a new MV on this table
assert_invalid(session,
"CREATE MATERIALIZED VIEW users_by_state AS "
"SELECT * FROM users WHERE STATE IS NOT NULL AND username IS NOT NULL "
"PRIMARY KEY (state, username)",
"Cannot create materialized view 'users_by_state' for base table 'users' "
"with gc_grace_seconds of 0, since this value is used to TTL undelivered "
"updates. Setting gc_grace_seconds too low might cause undelivered updates"
" to expire before being replayed.")
def test_insert(self):
"""Test basic insertions"""
session = self.prepare(user_table=True)
self._insert_data(session)
result = list(session.execute("SELECT * FROM users;"))
assert len(result) == 4, "Expecting {} users, got {}".format(4 == len(result))
result = list(session.execute("SELECT * FROM users_by_state WHERE state='TX';"))
assert len(result) == 2, "Expecting {} users, got {}".format(2 == len(result))
result = list(session.execute("SELECT * FROM users_by_state WHERE state='CA';"))
assert len(result) == 1, "Expecting {} users, got {}".format(1 == len(result))
result = list(session.execute("SELECT * FROM users_by_state WHERE state='MA';"))
assert len(result) == 0, "Expecting {} users, got {}".format(0 == len(result))
def test_populate_mv_after_insert(self):
"""Test that a view is OK when created with existing data"""
session = self.prepare(consistency_level=ConsistencyLevel.QUORUM)
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
for i in range(1000):
session.execute("INSERT INTO t (id, v) VALUES ({v}, {v})".format(v=i))
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t WHERE v IS NOT NULL "
"AND id IS NOT NULL PRIMARY KEY (v, id)"))
logger.debug("wait for view to build")
self._wait_for_view("ks", "t_by_v")
logger.debug("wait that all batchlogs are replayed")
self._replay_batchlogs()
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(i), [i, i])
@pytest.mark.xfail(reason="Should be addressed with CASSANDRA-15845")
@since('4.0')
def test_populate_mv_after_insert_wide_rows_version40(self):
self.test_populate_mv_after_insert_wide_rows()
@since('3.0', max_version='3.X')
def test_populate_mv_after_insert_wide_rows(self):
"""Test that a view is OK when created with existing data with wide rows"""
session = self.prepare(consistency_level=ConsistencyLevel.QUORUM)
session.execute("CREATE TABLE t (id int, v int, PRIMARY KEY (id, v))")
session.cluster.control_connection.wait_for_schema_agreement()
for i in range(5):
for j in range(10000):
session.execute("INSERT INTO t (id, v) VALUES ({}, {})".format(i, j))
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t WHERE v IS NOT NULL "
"AND id IS NOT NULL PRIMARY KEY (v, id)"))
session.cluster.control_connection.wait_for_schema_agreement()
logger.debug("wait for view to build")
self._wait_for_view("ks", "t_by_v")
logger.debug("wait that all batchlogs are replayed")
self._replay_batchlogs()
for i in range(5):
for j in range(10000):
assert_one(session, "SELECT * FROM t_by_v WHERE id = {} AND v = {}".format(i, j), [j, i])
def test_crc_check_chance(self):
"""Test that crc_check_chance parameter is properly populated after mv creation and update"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t WHERE v IS NOT NULL "
"AND id IS NOT NULL PRIMARY KEY (v, id) WITH crc_check_chance = 0.5"))
assert_crc_check_chance_equal(session, "t_by_v", 0.5, view=True)
session.execute("ALTER MATERIALIZED VIEW t_by_v WITH crc_check_chance = 0.3")
assert_crc_check_chance_equal(session, "t_by_v", 0.3, view=True)
def test_prepared_statement(self):
"""Test basic insertions with prepared statement"""
session = self.prepare(user_table=True)
insertPrepared = session.prepare(
"INSERT INTO users (username, password, gender, state, birth_year) VALUES (?, ?, ?, ?, ?);"
)
selectPrepared = session.prepare(
"SELECT state, password, session_token FROM users_by_state WHERE state=?;"
)
# insert data
session.execute(insertPrepared.bind(('user1', 'ch@ngem3a', 'f', 'TX', 1968)))
session.execute(insertPrepared.bind(('user2', 'ch@ngem3b', 'm', 'CA', 1971)))
session.execute(insertPrepared.bind(('user3', 'ch@ngem3c', 'f', 'FL', 1978)))
session.execute(insertPrepared.bind(('user4', 'ch@ngem3d', 'm', 'TX', 1974)))
result = list(session.execute("SELECT * FROM users;"))
assert len(result) == 4, "Expecting {} users, got {}".format(4, len(result))
result = list(session.execute(selectPrepared.bind(['TX'])))
assert len(result) == 2, "Expecting {} users, got {}".format(2, len(result))
result = list(session.execute(selectPrepared.bind(['CA'])))
assert len(result) == 1, "Expecting {} users, got {}".format(1, len(result))
result = list(session.execute(selectPrepared.bind(['MA'])))
assert len(result) == 0, "Expecting {} users, got {}".format(0, len(result))
def test_immutable(self):
"""Test that a materialized view is immutable"""
session = self.prepare(user_table=True)
# cannot insert
assert_invalid(session, "INSERT INTO users_by_state (state, username) VALUES ('TX', 'user1');",
"Cannot directly modify a materialized view")
# cannot update
assert_invalid(session, "UPDATE users_by_state SET session_token='XYZ' WHERE username='user1' AND state = 'TX';",
"Cannot directly modify a materialized view")
# cannot delete a row
assert_invalid(session, "DELETE from users_by_state where state='TX';",
"Cannot directly modify a materialized view")
# cannot delete a cell
assert_invalid(session, "DELETE session_token from users_by_state where state='TX';",
"Cannot directly modify a materialized view")
# cannot alter a table
assert_invalid(session, "ALTER TABLE users_by_state ADD first_name varchar",
"Cannot use ALTER TABLE on Materialized View")
def test_drop_mv(self):
"""Test that we can drop a view properly"""
session = self.prepare(user_table=True)
# create another materialized view
session.execute(("CREATE MATERIALIZED VIEW users_by_birth_year AS "
"SELECT * FROM users WHERE birth_year IS NOT NULL AND "
"username IS NOT NULL PRIMARY KEY (birth_year, username)"))
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 2, "Expecting {} materialized view, got {}".format(2, len(result))
session.execute("DROP MATERIALIZED VIEW ks.users_by_state;")
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 1, "Expecting {} materialized view, got {}".format(1, len(result))
def test_drop_column(self):
"""Test that we cannot drop a column if it is used by a MV"""
session = self.prepare(user_table=True)
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 1, "Expecting {} materialized view, got {}".format(1, len(result))
assert_invalid(
session,
"ALTER TABLE ks.users DROP state;",
"Cannot drop column state on base table with materialized views."
)
def test_drop_table(self):
"""Test that we cannot drop a table without deleting its MVs first"""
session = self.prepare(user_table=True)
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 1, "Expecting {} materialized view, got {}".format(1, len(result))
assert_invalid(
session,
"DROP TABLE ks.users;",
"Cannot drop table when materialized views still depend on it"
)
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 1, "Expecting {} materialized view, got {}".format(1, len(result))
session.execute("DROP MATERIALIZED VIEW ks.users_by_state;")
session.execute("DROP TABLE ks.users;")
result = list(session.execute(("SELECT * FROM system_schema.views "
"WHERE keyspace_name='ks' AND base_table_name='users' ALLOW FILTERING")))
assert len(result) == 0, "Expecting {} materialized view, got {}".format(1, len(result))
def test_clustering_column(self):
"""Test that we can use clustering columns as primary key for a materialized view"""
session = self.prepare(consistency_level=ConsistencyLevel.QUORUM)
session.execute(("CREATE TABLE users (username varchar, password varchar, gender varchar, "
"session_token varchar, state varchar, birth_year bigint, "
"PRIMARY KEY (username, state, birth_year));"))
# create a materialized view that use a compound key
session.execute(("CREATE MATERIALIZED VIEW users_by_state_birth_year "
"AS SELECT * FROM users WHERE state IS NOT NULL AND birth_year IS NOT NULL "
"AND username IS NOT NULL PRIMARY KEY (state, birth_year, username)"))
session.cluster.control_connection.wait_for_schema_agreement()
self._insert_data(session)
result = list(session.execute("SELECT * FROM ks.users_by_state_birth_year WHERE state='TX'"))
assert len(result) == 2, "Expecting {} users, got {}".format(2, len(result))
result = list(session.execute("SELECT * FROM ks.users_by_state_birth_year WHERE state='TX' AND birth_year=1968"))
assert len(result) == 1, "Expecting {} users, got {}".format(1, len(result))
def _add_dc_after_mv_test(self, rf, nts):
"""
@jira_ticket CASSANDRA-10978
Add datacenter with configurable replication.
"""
session = self.prepare(rf=rf)
logger.debug("Creating schema")
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
logger.debug("Writing 1k to base")
for i in range(1000):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
logger.debug("Reading 1k from view")
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
logger.debug("Reading 1k from base")
for i in range(1000):
assert_one(session, "SELECT * FROM t WHERE id = {}".format(i), [i, -i])
logger.debug("Bootstrapping new node in another dc")
node4 = new_node(self.cluster, data_center='dc2')
node4.start(wait_for_binary_proto=True,
jvm_args=["-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT),
"-Dcassandra.reset_bootstrap_progress=false"])
logger.debug("Bootstrapping new node in another dc")
node5 = new_node(self.cluster, remote_debug_port='1414', data_center='dc2')
node5.start(jvm_args=["-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT),
"-Dcassandra.reset_bootstrap_progress=false"],
wait_for_binary_proto=True)
if nts:
session.execute("alter keyspace ks with replication = {'class':'NetworkTopologyStrategy', 'dc1':1, 'dc2':1}")
session.execute("alter keyspace system_auth with replication = {'class':'NetworkTopologyStrategy', 'dc1':1, 'dc2':1}")
session.execute("alter keyspace system_traces with replication = {'class':'NetworkTopologyStrategy', 'dc1':1, 'dc2':1}")
node4.nodetool('rebuild dc1')
node5.nodetool('rebuild dc1')
cl = ConsistencyLevel.LOCAL_ONE if nts else ConsistencyLevel.ONE
session2 = self.patient_exclusive_cql_connection(node4, consistency_level=cl)
logger.debug("Verifying data from new node in view")
for i in range(1000):
assert_one(session2, "SELECT * FROM ks.t_by_v WHERE v = {}".format(-i), [-i, i])
logger.debug("Inserting 100 into base")
for i in range(1000, 1100):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
logger.debug("Verify 100 in view")
for i in range(1000, 1100):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
@pytest.mark.resource_intensive
def test_add_dc_after_mv_simple_replication(self):
"""
@jira_ticket CASSANDRA-10634
Test that materialized views work as expected when adding a datacenter with SimpleStrategy.
"""
self._add_dc_after_mv_test(1, False)
@pytest.mark.resource_intensive
def test_add_dc_after_mv_network_replication(self):
"""
@jira_ticket CASSANDRA-10634
Test that materialized views work as expected when adding a datacenter with NetworkTopologyStrategy.
"""
self._add_dc_after_mv_test({'dc1': 1}, True)
@pytest.mark.resource_intensive
def test_add_node_after_mv(self):
"""
@jira_ticket CASSANDRA-10978
Test that materialized views work as expected when adding a node.
"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
for i in range(1000):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
node4 = new_node(self.cluster, data_center="dc1")
node4.start(wait_for_binary_proto=True, jvm_args=["-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT)])
session2 = self.patient_exclusive_cql_connection(node4)
"""
@jira_ticket CASSANDRA-12984
Assert that MVs are marked as build after bootstrap. Otherwise newly streamed MVs will be built again
"""
assert_one(session2, "SELECT count(*) FROM system.built_views WHERE keyspace_name = 'ks' AND view_name = 't_by_v'", [1])
for i in range(1000):
assert_one(session2, "SELECT * FROM ks.t_by_v WHERE v = {}".format(-i), [-i, i])
for i in range(1000, 1100):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
for i in range(1000, 1100):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
def test_insert_during_range_movement_rf1(self):
self._base_test_insert_during_range_movement(rf=1)
def test_insert_during_range_movement_rf2(self):
self._base_test_insert_during_range_movement(rf=2)
def test_insert_during_range_movement_rf3(self):
self._base_test_insert_during_range_movement(rf=3)
def _base_test_insert_during_range_movement(self, rf):
"""
@jira_ticket CASSANDRA-14251
Test that materialized views replication work in the middle of a join
for different replication factors.
"""
session = self.prepare(rf=rf)
logger.debug("Creating table and view")
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
logger.debug("Starting new node4 in write survey mode")
node4 = new_node(self.cluster, data_center="dc1")
# Set batchlog.replay_timeout_seconds=1 so we can ensure batchlog will be replayed below
node4.start(wait_for_binary_proto=True, jvm_args=["-Dcassandra.write_survey=true",
"-Dcassandra.batchlog.replay_timeout_in_ms=1"])
logger.debug("Insert data while node4 is joining")
for i in range(1000):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
logger.debug("Finish joining node4")
node4.nodetool("join")
logger.debug('Replay batchlogs')
time.sleep(0.001) # Wait batchlog.replay_timeout_in_ms=1 (ms)
self._replay_batchlogs()
logger.debug("Verify data")
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
@pytest.mark.resource_intensive
def test_add_node_after_wide_mv_with_range_deletions(self):
"""
@jira_ticket CASSANDRA-11670
Test that materialized views work with wide materialized views as expected when adding a node.
"""
session = self.prepare()
session.execute("CREATE TABLE t (id int, v int, PRIMARY KEY (id, v)) WITH compaction = { 'class': 'SizeTieredCompactionStrategy', 'enabled': 'false' }")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
for i in range(10):
for j in range(100):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=j))
self.cluster.flush()
for i in range(10):
for j in range(100):
assert_one(session, "SELECT * FROM t WHERE id = {} and v = {}".format(i, j), [i, j])
assert_one(session, "SELECT * FROM t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
for i in range(10):
for j in range(100):
if j % 10 == 0:
session.execute("DELETE FROM t WHERE id = {} AND v >= {} and v < {}".format(i, j, j + 2))
self.cluster.flush()
for i in range(10):
for j in range(100):
if j % 10 == 0 or (j - 1) % 10 == 0:
assert_none(session, "SELECT * FROM t WHERE id = {} and v = {}".format(i, j))
assert_none(session, "SELECT * FROM t_by_v WHERE id = {} and v = {}".format(i, j))
else:
assert_one(session, "SELECT * FROM t WHERE id = {} and v = {}".format(i, j), [i, j])
assert_one(session, "SELECT * FROM t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
node4 = new_node(self.cluster, data_center="dc1")
node4.set_configuration_options(values={'max_mutation_size_in_kb': 30}) # CASSANDRA-11670
logger.debug("Start join at {}".format(time.strftime("%H:%M:%S")))
node4.start(wait_for_binary_proto=True, jvm_args=["-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT)])
session2 = self.patient_exclusive_cql_connection(node4)
for i in range(10):
for j in range(100):
if j % 10 == 0 or (j - 1) % 10 == 0:
assert_none(session2, "SELECT * FROM ks.t WHERE id = {} and v = {}".format(i, j))
assert_none(session2, "SELECT * FROM ks.t_by_v WHERE id = {} and v = {}".format(i, j))
else:
assert_one(session2, "SELECT * FROM ks.t WHERE id = {} and v = {}".format(i, j), [i, j])
assert_one(session2, "SELECT * FROM ks.t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
for i in range(10):
for j in range(100, 110):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=j))
for i in range(10):
for j in range(110):
if j < 100 and (j % 10 == 0 or (j - 1) % 10 == 0):
assert_none(session2, "SELECT * FROM ks.t WHERE id = {} and v = {}".format(i, j))
assert_none(session2, "SELECT * FROM ks.t_by_v WHERE id = {} and v = {}".format(i, j))
else:
assert_one(session2, "SELECT * FROM ks.t WHERE id = {} and v = {}".format(i, j), [i, j])
assert_one(session2, "SELECT * FROM ks.t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
@pytest.mark.resource_intensive
def test_add_node_after_very_wide_mv(self):
"""
@jira_ticket CASSANDRA-11670
Test that materialized views work with very wide materialized views as expected when adding a node.
"""
session = self.prepare()
session.execute("CREATE TABLE t (id int, v int, PRIMARY KEY (id, v))")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
for i in range(5):
for j in range(5000):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=j))
self.cluster.flush()
for i in range(5):
for j in range(5000):
assert_one(session, "SELECT * FROM t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
node4 = new_node(self.cluster, data_center="dc1")
node4.set_configuration_options(values={'max_mutation_size_in_kb': 30}) # CASSANDRA-11670
logger.debug("Start join at {}".format(time.strftime("%H:%M:%S")))
node4.start(wait_for_binary_proto=True, jvm_args=["-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT)])
session2 = self.patient_exclusive_cql_connection(node4)
for i in range(5):
for j in range(5000):
assert_one(session2, "SELECT * FROM ks.t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
for i in range(5):
for j in range(5100):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=j))
for i in range(5):
for j in range(5100):
assert_one(session, "SELECT * FROM t_by_v WHERE id = {} and v = {}".format(i, j), [j, i])
@pytest.mark.resource_intensive
def test_add_write_survey_node_after_mv(self):
"""
@jira_ticket CASSANDRA-10621
@jira_ticket CASSANDRA-10978
Test that materialized views work as expected when adding a node in write survey mode.
"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
for i in range(1000):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
node4 = new_node(self.cluster, data_center="dc1")
node4.start(wait_for_binary_proto=True, jvm_args=["-Dcassandra.write_survey=true", "-Dcassandra.migration_task_wait_in_seconds={}".format(MIGRATION_WAIT)])
for i in range(1000, 1100):
session.execute("INSERT INTO t (id, v) VALUES ({id}, {v})".format(id=i, v=-i))
for i in range(1100):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {}".format(-i), [-i, i])
def test_allow_filtering(self):
"""Test that allow filtering works as usual for a materialized view"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int, v2 text, v3 decimal)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
session.execute(("CREATE MATERIALIZED VIEW t_by_v2 AS SELECT * FROM t "
"WHERE v2 IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v2, id)"))
for i in range(1000):
session.execute("INSERT INTO t (id, v, v2, v3) VALUES ({v}, {v}, 'a', 3.0)".format(v=i))
for i in range(1000):
assert_one(session, "SELECT * FROM t_by_v WHERE v = {v}".format(v=i), [i, i, 'a', 3.0])
rows = list(session.execute("SELECT * FROM t_by_v2 WHERE v2 = 'a'"))
assert len(rows) == 1000, "Expected 1000 rows but got {}".format(len(rows))
assert_invalid(session, "SELECT * FROM t_by_v WHERE v = 1 AND v2 = 'a'")
assert_invalid(session, "SELECT * FROM t_by_v2 WHERE v2 = 'a' AND v = 1")
for i in range(1000):
assert_one(
session,
"SELECT * FROM t_by_v WHERE v = {} AND v3 = 3.0 ALLOW FILTERING".format(i),
[i, i, 'a', 3.0]
)
assert_one(
session,
"SELECT * FROM t_by_v2 WHERE v2 = 'a' AND v = {} ALLOW FILTERING".format(i),
['a', i, i, 3.0]
)
def test_secondary_index(self):
"""Test that secondary indexes cannot be created on a materialized view"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int, v2 text, v3 decimal)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v AS SELECT * FROM t "
"WHERE v IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v, id)"))
assert_invalid(session, "CREATE INDEX ON t_by_v (v2)",
"Secondary indexes are not supported on materialized views")
def test_ttl(self):
"""
Test that TTL works as expected for a materialized view
@expected_result The TTL is propagated properly between tables.
"""
session = self.prepare()
session.execute("CREATE TABLE t (id int PRIMARY KEY, v int, v2 int, v3 int)")
session.execute(("CREATE MATERIALIZED VIEW t_by_v2 AS SELECT * FROM t "
"WHERE v2 IS NOT NULL AND id IS NOT NULL PRIMARY KEY (v2, id)"))
for i in range(100):
session.execute("INSERT INTO t (id, v, v2, v3) VALUES ({v}, {v}, {v}, {v}) USING TTL 10".format(v=i))
for i in range(100):
assert_one(session, "SELECT * FROM t_by_v2 WHERE v2 = {}".format(i), [i, i, i, i])
time.sleep(20)
rows = list(session.execute("SELECT * FROM t_by_v2"))
assert len(rows) == 0, "Expected 0 rows but got {}".format(len(rows))
def test_query_all_new_column(self):
"""
Test that a materialized view created with a 'SELECT *' works as expected when adding a new column
@expected_result The new column is present in the view.
"""
session = self.prepare(user_table=True)
self._insert_data(session)
assert_one(
session,
"SELECT * FROM users_by_state WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1', 1968, 'f', 'ch@ngem3a', None]
)
session.execute("ALTER TABLE users ADD first_name varchar;")
results = list(session.execute("SELECT * FROM users_by_state WHERE state = 'TX' AND username = 'user1'"))
assert len(results) == 1
assert hasattr(results[0], 'first_name'), 'Column "first_name" not found'
assert_one(
session,
"SELECT * FROM users_by_state WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1', 1968, None, 'f', 'ch@ngem3a', None]
)
def test_query_new_column(self):
"""
Test that a materialized view created with 'SELECT <col1, ...>' works as expected when adding a new column
@expected_result The new column is not present in the view.
"""
session = self.prepare(user_table=True)
session.execute(("CREATE MATERIALIZED VIEW users_by_state2 AS SELECT state, username FROM users "
"WHERE STATE IS NOT NULL AND USERNAME IS NOT NULL PRIMARY KEY (state, username)"))
self._insert_data(session)
assert_one(
session,
"SELECT * FROM users_by_state2 WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1']
)
session.execute("ALTER TABLE users ADD first_name varchar;")
results = list(session.execute("SELECT * FROM users_by_state2 WHERE state = 'TX' AND username = 'user1'"))
assert len(results) == 1
assert not hasattr(results[0], 'first_name'), 'Column "first_name" found in view'
assert_one(
session,
"SELECT * FROM users_by_state2 WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1']
)
def test_rename_column(self):
"""
Test that a materialized view created with a 'SELECT *' works as expected when renaming a column
@expected_result The column is also renamed in the view.
"""
session = self.prepare(user_table=True)
self._insert_data(session)
assert_one(
session,
"SELECT * FROM users_by_state WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1', 1968, 'f', 'ch@ngem3a', None]
)
session.execute("ALTER TABLE users RENAME username TO user")
results = list(session.execute("SELECT * FROM users_by_state WHERE state = 'TX' AND user = 'user1'"))
assert len(results) == 1
assert hasattr(results[0], 'user'), 'Column "user" not found'
assert_one(
session,
"SELECT state, user, birth_year, gender FROM users_by_state WHERE state = 'TX' AND user = 'user1'",
['TX', 'user1', 1968, 'f']
)
def test_rename_column_atomicity(self):
"""
Test that column renaming is atomically done between a table and its materialized views
@jira_ticket CASSANDRA-12952
"""
session = self.prepare(nodes=1, user_table=True, install_byteman=True)
node = self.cluster.nodelist()[0]
self._insert_data(session)
time.sleep(1)
assert_one(
session,
"SELECT * FROM users_by_state WHERE state = 'TX' AND username = 'user1'",
['TX', 'user1', 1968, 'f', 'ch@ngem3a', None]
)
# Rename a column with an injected byteman rule to kill the node after the first schema update
self.fixture_dtest_setup.allow_log_errors = True
script_version = '5_1' if self.cluster.version() >= LooseVersion('5.1') else '4x' if self.cluster.version() >= '4' else '3x'
node.byteman_submit([mk_bman_path('merge_schema_failure_{}.btm'.format(script_version))])
with pytest.raises(NoHostAvailable):
session.execute("ALTER TABLE users RENAME username TO user")
logger.debug('Restarting node')
node.stop()
node.start(wait_for_binary_proto=True)
session = self.patient_cql_connection(node, consistency_level=ConsistencyLevel.ONE)