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grow_cluster_test.py
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grow_cluster_test.py
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#!/usr/bin/env python
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See LICENSE for more details.
#
# Copyright (c) 2016 ScyllaDB
import time
import datetime
import random
from sdcm.tester import ClusterTester
from sdcm.utils.common import get_data_dir_path
from sdcm import nemesis
from sdcm import prometheus
class GrowClusterTest(ClusterTester):
"""
Test scylla cluster growth (adding nodes after an initial cluster size).
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._cluster_starting_size = self.params.get('n_db_nodes')
self._cluster_target_size = self.params.get('cluster_target_size')
self.metrics_srv = prometheus.nemesis_metrics_obj()
def get_stress_cmd_profile(self):
cs_custom_config = get_data_dir_path('cassandra-stress-custom-mixed-narrow-wide-row.yaml')
with open(cs_custom_config, 'r') as cs_custom_config_file:
self.log.info('Using custom cassandra-stress config:')
self.log.info(cs_custom_config_file.read())
for node in self.loaders.nodes:
node.remoter.send_files(cs_custom_config,
'/tmp/cassandra-stress-custom-mixed-narrow-wide-row.yaml',
verbose=True)
ip = self.db_cluster.get_node_private_ips()[0]
return (r'cassandra-stress user '
r'profile=/tmp/cassandra-stress-custom-mixed-narrow-wide-row.yaml '
r'ops\(insert=1\) -node %s' % ip)
def get_stress_cmd(self, mode='write', duration=None):
"""
Get a cassandra stress cmd string suitable for grow cluster purposes.
:param duration: Duration of stress (minutes).
:param threads: Number of threads used by cassandra stress.
:param population_size: Size of the -pop seq1..%s argument.
:return: Cassandra stress string
:rtype: basestring
"""
ip = self.db_cluster.get_node_private_ips()[0]
population_size = self.params.get('cassandra_stress_population_size')
if not duration:
duration = self.params.get('test_duration')
threads = self.params.get('cassandra_stress_threads')
return ("cassandra-stress %s cl=QUORUM duration=%sm "
"-schema 'replication(factor=3)' -port jmx=6868 -col 'size=FIXED(2) n=FIXED(1)' "
"-mode cql3 native -rate threads=%s "
"-pop seq=1..%s -node %s" %
(mode, duration, threads, population_size, ip))
def add_nodes(self, add_node_cnt):
self.metrics_srv.event_start('add_node')
new_nodes = self.db_cluster.add_nodes(count=add_node_cnt, enable_auto_bootstrap=True)
self.db_cluster.wait_for_init(node_list=new_nodes)
self.metrics_srv.event_stop('add_node')
self.monitors.reconfigure_scylla_monitoring()
def grow_cluster(self, cluster_target_size, stress_cmd):
self.db_cluster.add_nemesis(nemesis=self.get_nemesis_class(),
tester_obj=self)
# default=1440 min (one day) if test_duration is not defined
duration = self.params.get('test_duration')
cs_thread_pool = self.run_stress_thread(stress_cmd=stress_cmd,
duration=duration)
time.sleep(2 * 60)
start = datetime.datetime.now()
self.log.info('Starting to grow cluster: %s', str(start))
add_node_cnt = self.params.get('add_node_cnt')
node_cnt = len(self.db_cluster.nodes)
while node_cnt < cluster_target_size:
time.sleep(60)
self.add_nodes(add_node_cnt)
node_cnt = len(self.db_cluster.nodes)
end = datetime.datetime.now()
self.log.info('Growing cluster finished: %s', str(end))
self.log.info('Growing cluster costs: %s', str(end - start))
# Run 2 more minutes before start nemesis
time.sleep(2 * 60)
if self.params.get('nemesis_class_name').lower() != 'noopmonkey':
self.db_cluster.start_nemesis()
self.verify_stress_thread(cs_thread_pool=cs_thread_pool)
def test_grow_x_to_y(self):
"""
1) Start a x node cluster
2) Start cassandra-stress on the loader node
3) Add a new node
4) Keep repeating 3) until we get to the target number of y nodes
"""
self.grow_cluster(cluster_target_size=self._cluster_target_size,
stress_cmd=self.get_stress_cmd())
def test_grow_3_to_4_large_partition(self): # pylint: disable=invalid-name
"""
Shorter version of the cluster growth test.
1) Start a 1 node cluster
2) Start cassandra-stress on the loader node
3) Add a new node
"""
self.grow_cluster(cluster_target_size=4,
stress_cmd=self.get_stress_cmd_profile())
def test_add_remove_nodes(self):
"""
1) Start a x node cluster
2) Start cassandra-stress on the loader node
3) Add a new node
4) Decommission random chosen node
5) Repeat 3) and 4) for number of times
"""
cs_thread_pool = self.run_stress_thread(stress_cmd=self.get_stress_cmd())
start = datetime.datetime.now()
duration = 0
wait_interval = 60
max_random_cnt = 3
self.log.info('Starting to add/remove nodes: %s', str(start))
while duration <= self._duration:
time.sleep(wait_interval)
node_cnt = len(self.db_cluster.nodes)
max_add_cnt = max_random_cnt if max_random_cnt <= self._cluster_target_size - node_cnt else\
self._cluster_target_size - node_cnt
if max_add_cnt >= 1:
add_cnt = random.randint(1, max_add_cnt)
self.log.info('Add %s nodes to cluster', add_cnt)
for _ in range(add_cnt):
self.add_nodes(1)
time.sleep(wait_interval)
rm_cnt = random.randint(1, max_random_cnt) if len(self.db_cluster.nodes) >= 10 else 0
if rm_cnt > 0:
self.log.info('Remove %s nodes from cluster', rm_cnt)
for _ in range(rm_cnt):
decommision_nemesis = nemesis.DecommissionMonkey(
tester_obj=self, termination_event=self.db_cluster.nemesis_termination_event)
decommision_nemesis.disrupt_nodetool_decommission(add_node=False)
duration = (datetime.datetime.now() - start).seconds / 60 # current duration in minutes
self.log.info('Count of nodes in cluster: %s', len(self.db_cluster.nodes))
end = datetime.datetime.now()
self.log.info('Add/remove nodes finished: %s', str(end))
self.log.info('Duration: %s', str(end - start))
# Run 2 more minutes before stop c-s
time.sleep(2 * 60)
# Kill c-s when decommission is done
self.kill_stress_thread()
self.verify_stress_thread(cs_thread_pool=cs_thread_pool)
self.run_stress(stress_cmd=self.get_stress_cmd('read', 10))