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topology_test.py
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topology_test.py
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from dtest import Tester
from tools import *
from assertions import *
import os, sys, time
from ccmlib.cluster import Cluster
class TestTopology(Tester):
@no_vnodes()
def movement_test(self):
cluster = self.cluster
# Create an unbalanced ring
cluster.populate(3, tokens=[0, 2**48, 2**62]).start()
[node1, node2, node3] = cluster.nodelist()
cursor = self.cql_connection(node1).cursor()
self.create_ks(cursor, 'ks', 1)
self.create_cf(cursor, 'cf', columns={'c1': 'text', 'c2': 'text'})
for n in xrange(0, 10000):
insert_c1c2(cursor, n, "ONE")
cluster.flush()
# Move nodes to balance the cluster
balancing_tokens = cluster.balanced_tokens(3)
if cluster.version() >= '1.2':
node1.move('\\%s' % balancing_tokens[0]) # can't assume 0 is balanced with m3p
node2.move('\\%s' % balancing_tokens[1])
node3.move('\\%s' % balancing_tokens[2])
else:
node2.move(balancing_tokens[1])
node3.move(balancing_tokens[2])
time.sleep(1)
cluster.cleanup()
# Check we can get all the keys
for n in xrange(0, 10000):
query_c1c2(cursor, n, "ONE")
# Now the load should be basically even
sizes = [ node.data_size() for node in [node1, node2, node3] ]
assert_almost_equal(sizes[0], sizes[1])
assert_almost_equal(sizes[0], sizes[2])
assert_almost_equal(sizes[1], sizes[2])
@no_vnodes()
def decomission_test(self):
cluster = self.cluster
tokens = cluster.balanced_tokens(4)
cluster.populate(4, tokens=tokens).start()
[node1, node2, node3, node4] = cluster.nodelist()
cursor = self.cql_connection(node1).cursor()
self.create_ks(cursor, 'ks', 2)
self.create_cf(cursor, 'cf',columns={'c1': 'text', 'c2': 'text'})
for n in xrange(0, 10000):
insert_c1c2(cursor, n, "QUORUM")
cluster.flush()
sizes = [ node.data_size() for node in cluster.nodelist() if node.is_running()]
init_size = sizes[0]
assert_almost_equal(*sizes)
time.sleep(.5)
node4.decommission()
node4.stop()
cluster.cleanup()
time.sleep(.5)
# Check we can get all the keys
for n in xrange(0, 10000):
query_c1c2(cursor, n, "QUORUM")
sizes = [ node.data_size() for node in cluster.nodelist() if node.is_running() ]
three_node_sizes = sizes
assert_almost_equal(sizes[0], sizes[1])
assert_almost_equal((2.0/3.0) * sizes[0], sizes[2])
assert_almost_equal(sizes[2], init_size)
if cluster.version() <= '1.2':
node3.stop(wait_other_notice=True)
node1.removeToken(tokens[2])
time.sleep(.5)
cluster.cleanup()
time.sleep(.5)
# Check we can get all the keys
for n in xrange(0, 10000):
query_c1c2(cursor, n, "QUORUM")
sizes = [ node.data_size() for node in cluster.nodelist() if node.is_running() ]
assert_almost_equal(*sizes)
assert_almost_equal(sizes[0], 2 * init_size)
node5 = new_node(cluster, token=(tokens[2]+1)).start()
time.sleep(.5)
cluster.cleanup()
time.sleep(.5)
cluster.compact()
time.sleep(.5)
# Check we can get all the keys
for n in xrange(0, 10000):
query_c1c2(cursor, n, "QUORUM")
sizes = [ node.data_size() for node in cluster.nodelist() if node.is_running() ]
# We should be back to the earlir 3 nodes situation
for i in xrange(0, len(sizes)):
assert_almost_equal(sizes[i], three_node_sizes[i])
@no_vnodes()
def replace_test(self):
cluster = self.cluster
tokens = cluster.balanced_tokens(3)
cluster.populate(3, tokens=tokens).start()
[node1, node2, node3] = cluster.nodelist()
cursor = self.cql_connection(node1).cursor()
self.create_ks(cursor, 'ks', 3)
self.create_cf(cursor, 'cf', columns={'c1': 'text', 'c2': 'text'})
for n in xrange(0, 10000):
insert_c1c2(cursor, n, "QUORUM")
cluster.flush()
node3.stop(wait_other_notice=True)
time.sleep(.5)
node4 = new_node(cluster, token=tokens[2])
node4.start(replace_token=tokens[2])
time.sleep(.5)
cluster.cleanup()
time.sleep(.5)
for n in xrange(0, 10000):
query_c1c2(cursor, n, "QUORUM")
sizes = [ node.data_size() for node in cluster.nodelist() if node.is_running()]
assert_almost_equal(*sizes)
@no_vnodes()
def move_single_node_test(self):
""" Test moving a node in a single-node cluster (#4200) """
cluster = self.cluster
# Create an unbalanced ring
cluster.populate(1, tokens=[0]).start()
node1 = cluster.nodelist()[0]
time.sleep(0.2)
cursor = self.cql_connection(node1).cursor()
self.create_ks(cursor, 'ks', 1)
self.create_cf(cursor, 'cf', columns={'c1': 'text', 'c2': 'text'})
for n in xrange(0, 10000):
insert_c1c2(cursor, n, "ONE")
cluster.flush()
node1.move(2**25)
time.sleep(1)
cluster.cleanup()
# Check we can get all the keys
for n in xrange(0, 10000):
query_c1c2(cursor, n, "ONE")