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longevity_alternator_ttl_test.py
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longevity_alternator_ttl_test.py
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import time
from longevity_test import LongevityTest
from sdcm.cluster import BaseNode
from sdcm.utils.alternator.consts import NO_LWT_TABLE_NAME
from sdcm.utils.common import skip_optional_stage
class AlternatorTtlLongevityTest(LongevityTest):
keyspace = f"alternator_{NO_LWT_TABLE_NAME}"
full_table_name = f'{keyspace}.{NO_LWT_TABLE_NAME}'
def _count_sstables_and_partitions(self, node: BaseNode) -> int:
cfstats = node.get_cfstats(self.full_table_name)
estimated_num_of_partitions = cfstats['Number of partitions (estimate)']
num_of_sstables = cfstats['SSTable count']
self.log.info('Table stats results are: %s sstables, %s estimated partitions',
num_of_sstables, estimated_num_of_partitions)
self.log.info('Run a table scan to count number of existing items')
with self.db_cluster.cql_connection_patient(node=node, connect_timeout=600) as session:
result = session.execute(f"SELECT count(*) FROM {self.full_table_name} using timeout 10m")
partitions_num_result = result.current_rows[0].count
self.log.info('Number of partitions found: %s', partitions_num_result)
return partitions_num_result
def count_sstables_and_partitions_after_major_compaction(self, run_repair: bool = True):
if run_repair:
self.log.info('Run a repair on nodes..')
for node in self.db_cluster.nodes:
node.run_nodetool(sub_cmd="repair -pr")
node: BaseNode = self.db_cluster.nodes[0]
self.log.info('force offstrategy on %s before running running a major compaction on node %s', self.keyspace,
node.name)
node.remoter.run(
"curl -X POST --header 'Content-Type: application/json' --header 'Accept: application/json'"
f" http://127.0.0.1:10000/storage_service/keyspace_offstrategy_compaction/{self.keyspace}")
self.log.info('Run a major compaction on node %s', node.name)
node.run_nodetool("compact")
self.wait_no_compactions_running()
return self._count_sstables_and_partitions(node=node)
def test_count_sstables_after_major_compaction(self):
"""
This test run the original test_custom_time first.
Waits a duration of TTL + scan + gc_grace_seconds.
Assume TTL=36 minutes, scan=8 minutes, gc_grace_seconds=4 minutes: Total sums to: 48 minutes.
Run a repair on nodes.
Select a node and run a major compaction.
Wait for node's compactions to finish.
count and print number of sstables, partitions and sizes.
"""
# Run the stress_cmd and wait for complete.
self.test_custom_time()
# Wait for all data to be expired.
# Should wait a total of 48 minutes.
# splitting to 30 minutes wait before stopping nemesis.
# Then an additional 18 minutes wait to complete a total of 48 minutes.
self.log.info('Wait TTL + scan interval + gc_grace_seconds')
wait_for_expired_items = 30 * 60
time.sleep(wait_for_expired_items)
self.stop_nemesis(self.db_cluster)
wait_for_expired_items = 18 * 60
time.sleep(wait_for_expired_items)
# Run a repair + a major compaction and count results.
self.count_sstables_and_partitions_after_major_compaction()
def test_custom_time_repeat_stress_cmd(self):
"""
This test run the original test_custom_time first.
Then after finished it re-execute the same stress_cmd again.
An example for a relevant scenario for that is for Alternator TTL that requires overwriting existing TTL data
after a while, where some items are already expired and/or scanned.
"""
# Run the stress_cmd a first time
self.test_custom_time()
# Rerun the stress_cmd a second time
stress_cmd = self.params.get('stress_cmd')
stress_queue = []
if stress_cmd and not skip_optional_stage('main_load'):
params = {'stress_cmd': stress_cmd, 'round_robin': self.params.get('round_robin')}
self._run_all_stress_cmds(stress_queue, params)
for stress in stress_queue:
self.verify_stress_thread(cs_thread_pool=stress)
self.count_sstables_and_partitions_after_major_compaction()
def test_disable_enable_ttl_scan(self):
"""
1. Run pre-create schema for Alternator, disabling TTL for tables.
2. Run the original test_custom_time prepare step.
3. Enable TTL for tables.
4. Wait for TTL-scan intervals to run
5. Run a background read stress while data is being expired.
"""
# pylint: disable=too-many-locals,too-many-branches,too-many-statements
self.db_cluster.add_nemesis(nemesis=self.get_nemesis_class(),
tester_obj=self)
stress_queue = []
# prepare write workload
prepare_write_cmd = self.params.get('prepare_write_cmd')
keyspace_num = 1
self.pre_create_alternator_tables()
# Disable TTL
self.alternator.modify_alternator_ttl_spec(enabled=False, node=self.db_cluster.nodes[0])
# Run write stress
self.run_prepare_write_cmd()
stress_cmd = self.params.get('stress_cmd')
if stress_cmd and not skip_optional_stage('main_load'):
params = {'keyspace_num': keyspace_num, 'stress_cmd': stress_cmd,
'round_robin': self.params.get('round_robin')}
self._run_all_stress_cmds(stress_queue, params)
if not prepare_write_cmd or not self.params.get('nemesis_during_prepare'):
self.db_cluster.start_nemesis()
for stress in stress_queue:
self.verify_stress_thread(cs_thread_pool=stress)
# Enable TTL
self.alternator.modify_alternator_ttl_spec(enabled=True, node=self.db_cluster.nodes[0])
stress_queue = []
# Run read stress as a background thread while TTL scans are going over existing data.
stress_read_cmd = self.params.get('stress_read_cmd')
if stress_read_cmd and not skip_optional_stage('main_load'):
params = {'keyspace_num': keyspace_num, 'stress_cmd': stress_read_cmd}
self._run_all_stress_cmds(stress_queue, params)
for stress in stress_queue:
self.verify_stress_thread(cs_thread_pool=stress)
self.count_sstables_and_partitions_after_major_compaction()
def test_multiple_ttl(self):
"""
This test run the original test_custom_time first.
It assumes multiple TTL values to run in stress commands.
It then waits a TTL+scan-interval duration for the second longest TTL stress:
2.5 hours (second longer stress TTL) + 4 minutes (scan-interval) + 10 minutes (max estimated scan duration)
This sums up to: 2 hours and 45 minutes (=165 minutes).
Then after finished it run a table full scan.
It validates only the data of longest TTL stress (10 days) exist.
"""
# Run the stress_cmd and wait for finish
self.test_custom_time()
self.log.info('Wait second-longer-stress TTL + scan-interval + max-estimated-scan-duration')
wait_for_expired_items = 165 * 60
time.sleep(wait_for_expired_items)
stress_cmd = self.params.get('stress_cmd')
longest_ttl_stress_cmd = stress_cmd[-1]
insert_count = [param for param in longest_ttl_stress_cmd.split() if 'insertcount=' in param]
insert_count = int(insert_count[0].split('=')[1])
self.log.info('The longest-TTL-load number of items is: %s', insert_count)
self.log.info('Run a major compaction on nodes for all expected expired data tombstones to be deleted.')
for node in self.db_cluster.nodes:
node.run_nodetool("compact")
self.wait_no_compactions_running()
self.log.info('Run a table scan to count number of existing items and compare to expected')
current_partitions_num = self._count_sstables_and_partitions(node=self.db_cluster.nodes[0])
assert current_partitions_num == insert_count, f"Result: {current_partitions_num}, Expected: {insert_count}"