def test_secondary_failure(self):
c = MongoReplicaSetClient(self.seed,
replicaSet=self.name,
use_greenlets=use_greenlets)
self.assertTrue(bool(len(c.secondaries)))
primary = c.primary
secondaries = c.secondaries
def readers_changed():
for _ in xrange(20):
if c.secondaries != secondaries:
return True
sleep(1)
return False
killed = ha_tools.kill_secondary()
sleep(2 * MONITOR_INTERVAL)
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
self.assertTrue(readers_changed())
secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
self.assertTrue(readers_changed())
def test_secondary_failure(self):
c = ReplicaSetConnection(
self.seed, replicaSet=self.name, use_greenlets=use_greenlets)
self.assertTrue(bool(len(c.secondaries)))
primary = c.primary
secondaries = c.secondaries
def readers_changed():
for _ in xrange(20):
if c.secondaries != secondaries:
return True
sleep(1)
return False
killed = ha_tools.kill_secondary()
sleep(2 * MONITOR_INTERVAL)
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
self.assertTrue(readers_changed())
secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
self.assertTrue(readers_changed())
def test_secondary_failure(self, done):
loop = IOLoop.instance()
c = motor.MotorReplicaSetClient(self.seed, replicaSet=self.name)
c.open_sync()
self.assertTrue(bool(len(c.secondaries)))
primary = c.primary
secondaries = c.secondaries
killed = ha_tools.kill_secondary()
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
yield gen.Task(loop.add_timeout, time.time() + 2 * MONITOR_INTERVAL)
secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
# Wait for secondary to join, and for MotorReplicaSetClient
# to detect it.
for _ in xrange(30):
if c.secondaries != secondaries:
break
yield gen.Task(loop.add_timeout, time.time() + 1)
else:
self.fail("Dead secondary not detected")
done()
def test_ship_of_theseus(self):
c = MongoReplicaSetClient(
self.seed, replicaSet=self.name, use_greenlets=use_greenlets)
db = c.pymongo_test
db.test.insert({}, w=len(c.secondaries) + 1)
find_one = db.test.find_one
primary = ha_tools.get_primary()
secondary1 = ha_tools.get_random_secondary()
new_hosts = [ha_tools.add_member() for _ in range(3)]
# Wait for new members to join.
for _ in xrange(120):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 4:
break
sleep(1)
else:
self.fail("New secondaries didn't join")
ha_tools.kill_members([primary, secondary1], 9)
# Wait for primary.
for _ in xrange(30):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 2:
break
sleep(1)
else:
self.fail("No failover")
sleep(2 * MONITOR_INTERVAL)
# No error.
find_one()
find_one(read_preference=SECONDARY)
# All members down.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members(new_hosts)
# Should be able to reconnect to set even though original seed
# list is useless. Use SECONDARY so we don't have to wait for
# the election, merely for the client to detect members are up.
sleep(2 * MONITOR_INTERVAL)
find_one(read_preference=SECONDARY)
def test_secondary_failure(self):
c = MongoClient(self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
wait_until(lambda: c.primary, "discover primary")
wait_until(lambda: len(c.secondaries) == 2, "discover secondaries")
primary = c.primary
old_secondaries = c.secondaries
killed = ha_tools.kill_secondary()
time.sleep(2 * self.heartbeat_frequency)
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
wait_until(lambda: c.secondaries != old_secondaries,
"discover new secondaries",
timeout=30)
old_secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
wait_until(lambda: c.secondaries != old_secondaries,
"discover new secondaries",
timeout=30)
def test_secondary_failure(self):
c = motor.MotorReplicaSetClient(self.seed, replicaSet=self.name)
yield c.open()
self.assertTrue(c.secondaries)
primary = c.primary
killed = ha_tools.kill_secondary()
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
yield self.pause(2 * MONITOR_INTERVAL)
secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
# Wait for secondary to join, and for MotorReplicaSetClient
# to detect it.
for _ in xrange(30):
if c.secondaries != secondaries:
break
yield self.pause(1)
else:
self.fail("Dead secondary not detected")
def test_secondary_failure(self):
c = motor.MotorReplicaSetClient(self.seed, replicaSet=self.name)
yield c.open()
self.assertTrue(c.secondaries)
primary = c.primary
killed = ha_tools.kill_secondary()
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
yield self.pause(2 * MONITOR_INTERVAL)
secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
# Wait for secondary to join, and for MotorReplicaSetClient
# to detect it.
for _ in xrange(30):
if c.secondaries != secondaries:
break
yield self.pause(1)
else:
self.fail("Dead secondary not detected")
def test_secondary_failure(self):
c = MongoClient(
self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
wait_until(lambda: c.primary, "discover primary")
wait_until(lambda: len(c.secondaries) == 2, "discover secondaries")
primary = c.primary
old_secondaries = c.secondaries
killed = ha_tools.kill_secondary()
time.sleep(2 * self.heartbeat_frequency)
self.assertTrue(bool(len(killed)))
self.assertEqual(primary, c.primary)
wait_until(lambda: c.secondaries != old_secondaries,
"discover new secondaries",
timeout=30)
old_secondaries = c.secondaries
ha_tools.restart_members([killed])
self.assertEqual(primary, c.primary)
wait_until(lambda: c.secondaries != old_secondaries,
"discover new secondaries",
timeout=30)
def test_read_preference(self):
# This is long, but we put all the tests in one function to save time
# on setUp, which takes about 30 seconds to bring up a replica set.
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = ReplicaSetConnection(
self.seed, replicaSet=self.name, use_greenlets=use_greenlets,
auto_start_request=False)
def assertReadFrom(member, *args, **kwargs):
utils.assertReadFrom(self, c, member, *args, **kwargs)
def assertReadFromAll(members, *args, **kwargs):
utils.assertReadFromAll(self, c, members, *args, **kwargs)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
# To make the code terser, copy modes and hosts into local scope
PRIMARY = ReadPreference.PRIMARY
PRIMARY_PREFERRED = ReadPreference.PRIMARY_PREFERRED
SECONDARY = ReadPreference.SECONDARY
SECONDARY_PREFERRED = ReadPreference.SECONDARY_PREFERRED
NEAREST = ReadPreference.NEAREST
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, bad_tag)
assertReadFrom(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Multiple tags
assertReadFrom(secondary, SECONDARY_PREFERRED, self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'primary'})
# No matching secondaries
assertReadFrom(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
assertReadFromAll([secondary, other_secondary],
SECONDARY_PREFERRED, [bad_tag, {}])
assertReadFrom(other_secondary,
SECONDARY_PREFERRED, [bad_tag, {'dc': 'ny'}])
# NEAREST
self.clear_ping_times()
assertReadFromAll([primary, secondary, other_secondary], NEAREST)
assertReadFromAll([primary, other_secondary],
NEAREST, [bad_tag, {'dc': 'ny'}])
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 ms
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
assertReadFrom(primary, NEAREST)
# Tags override nearness
assertReadFrom(primary, NEAREST, {'name': 'primary'})
assertReadFrom(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 ms
self.set_ping_time(secondary, 0)
assertReadFrom(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
assertReadFrom(other_secondary, NEAREST)
# High secondaryAcceptableLatencyMS, should read from all members
assertReadFromAll(
[primary, secondary, other_secondary],
NEAREST, secondary_acceptable_latency_ms=1000*1000)
self.clear_ping_times()
assertReadFromAll([primary, other_secondary], NEAREST, [{'dc': 'ny'}])
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
sleep(2 * MONITOR_INTERVAL)
# PRIMARY
assertReadFrom(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
assertReadFromAll([secondary, other_secondary], PRIMARY_PREFERRED)
assertReadFrom(secondary, PRIMARY_PREFERRED, {'name': 'secondary'})
# No primary or matching secondary
assertReadFrom(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# Only primary matches
assertReadFrom(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
assertReadFrom(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Mode and tags both match
assertReadFrom(secondary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
self.clear_ping_times()
assertReadFromAll([secondary, other_secondary], NEAREST)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
for _ in range(30):
if ha_tools.get_primary():
break
sleep(1)
else:
self.fail("Primary didn't come back up")
ha_tools.kill_members([unpartition_node(secondary)], 2)
self.assertTrue(Connection(
unpartition_node(primary), use_greenlets=use_greenlets,
slave_okay=True
).admin.command('ismaster')['ismaster'])
sleep(2 * MONITOR_INTERVAL)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
# SECONDARY
assertReadFrom(other_secondary, SECONDARY)
assertReadFrom(other_secondary, SECONDARY, self.other_secondary_dc)
# Only the down secondary matches
assertReadFrom(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
assertReadFrom(other_secondary, SECONDARY_PREFERRED)
assertReadFrom(
other_secondary, SECONDARY_PREFERRED, self.other_secondary_dc)
# The secondary matching the tag is down, use primary
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
assertReadFromAll([primary, other_secondary], NEAREST)
assertReadFrom(other_secondary, NEAREST, {'name': 'other_secondary'})
assertReadFrom(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
self.assertTrue(Connection(
unpartition_node(primary), use_greenlets=use_greenlets,
slave_okay=True
).admin.command('ismaster')['ismaster'])
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
assertReadFrom(None, SECONDARY)
assertReadFrom(None, SECONDARY, self.other_secondary_dc)
assertReadFrom(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
assertReadFrom(primary, SECONDARY_PREFERRED)
assertReadFrom(primary, SECONDARY_PREFERRED, self.secondary_dc)
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
assertReadFrom(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
assertReadFrom(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_ship_of_theseus(self):
c = MongoReplicaSetClient(
self.seed, replicaSet=self.name, use_greenlets=use_greenlets)
db = c.pymongo_test
db.test.insert({}, w=len(c.secondaries) + 1)
find_one = db.test.find_one
primary = ha_tools.get_primary()
secondary1 = ha_tools.get_random_secondary()
new_hosts = [ha_tools.add_member() for _ in range(3)]
# Wait for new members to join.
for _ in xrange(120):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 4:
break
sleep(1)
else:
self.fail("New secondaries didn't join")
ha_tools.kill_members([primary, secondary1], 9)
# Wait for primary.
for _ in xrange(30):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 2:
break
sleep(1)
else:
self.fail("No failover")
sleep(2 * MONITOR_INTERVAL)
# No error.
find_one()
find_one(read_preference=SECONDARY)
# All members down.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members(new_hosts)
# Should be able to reconnect to set even though original seed
# list is useless. Use SECONDARY so we don't have to wait for
# the election, merely for the client to detect members are up.
sleep(2 * MONITOR_INTERVAL)
find_one(read_preference=SECONDARY)
# Kill new members and switch back to original two members.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members([primary, secondary1])
# Should be able to reconnect to set again.
sleep(2 * MONITOR_INTERVAL)
find_one(read_preference=SECONDARY)
def test_read_preference(self):
# This is long, but we put all the tests in one function to save time
# on setUp, which takes about 30 seconds to bring up a replica set.
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = motor.MotorReplicaSetClient(self.seed, replicaSet=self.name)
yield c.open()
@gen.coroutine
def read_from_which_host(
rsc,
mode,
tag_sets=None,
latency=15,
):
db = rsc.motor_test
db.read_preference = mode
if isinstance(tag_sets, dict):
tag_sets = [tag_sets]
db.tag_sets = tag_sets or [{}]
db.secondary_acceptable_latency_ms = latency
cursor = db.test.find()
try:
yield cursor.fetch_next
raise gen.Return(cursor.delegate._Cursor__connection_id)
except AutoReconnect:
raise gen.Return(None)
@gen.coroutine
def assert_read_from(member, *args, **kwargs):
for _ in range(10):
used = yield read_from_which_host(c, *args, **kwargs)
self.assertEqual(member, used)
@gen.coroutine
def assert_read_from_all(members, *args, **kwargs):
members = set(members)
all_used = set()
for _ in range(100):
used = yield read_from_which_host(c, *args, **kwargs)
all_used.add(used)
if members == all_used:
raise gen.Return() # Success
# This will fail
self.assertEqual(members, all_used)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
yield assert_read_from(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
yield assert_read_from(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
yield assert_read_from(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
yield assert_read_from(primary, PRIMARY_PREFERRED, bad_tag)
yield assert_read_from(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
yield assert_read_from_all(
[secondary, other_secondary], SECONDARY, latency=9999999)
# SECONDARY_PREFERRED
yield assert_read_from_all(
[secondary, other_secondary], SECONDARY_PREFERRED, latency=9999999)
# Multiple tags
yield assert_read_from(
secondary, SECONDARY_PREFERRED, self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
yield assert_read_from(
primary, SECONDARY_PREFERRED, {'name': 'primary'})
# No matching secondaries
yield assert_read_from(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
yield assert_read_from_all(
[secondary, other_secondary],
SECONDARY_PREFERRED, [bad_tag, {}], latency=9999999)
yield assert_read_from(
other_secondary,
SECONDARY_PREFERRED, [bad_tag, {'dc': 'ny'}])
# NEAREST
self.clear_ping_times()
yield assert_read_from_all(
[primary, secondary, other_secondary], NEAREST, latency=9999999)
yield assert_read_from_all(
[primary, other_secondary],
NEAREST, [bad_tag, {'dc': 'ny'}], latency=9999999)
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 milliseconds.
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
yield assert_read_from(primary, NEAREST)
# Tags override nearness
yield assert_read_from(primary, NEAREST, {'name': 'primary'})
yield assert_read_from(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 milliseconds.
self.set_ping_time(secondary, 0)
yield assert_read_from(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
yield assert_read_from(other_secondary, NEAREST)
# High secondaryAcceptableLatencyMS, should read from all members
yield assert_read_from_all(
[primary, secondary, other_secondary],
NEAREST, latency=9999999)
self.clear_ping_times()
yield assert_read_from_all(
[primary, other_secondary], NEAREST, [{'dc': 'ny'}],
latency=9999999)
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
yield self.pause(2 * MONITOR_INTERVAL)
# PRIMARY
yield assert_read_from(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
yield assert_read_from_all(
[secondary, other_secondary], PRIMARY_PREFERRED, latency=9999999)
yield assert_read_from(
secondary, PRIMARY_PREFERRED, {'name': 'secondary'})
# No primary or matching secondary
yield assert_read_from(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
yield assert_read_from_all(
[secondary, other_secondary], SECONDARY, latency=9999999)
# Only primary matches
yield assert_read_from(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
yield assert_read_from(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
yield assert_read_from_all(
[secondary, other_secondary], SECONDARY_PREFERRED, latency=9999999)
# Mode and tags both match
yield assert_read_from(
secondary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
self.clear_ping_times()
yield assert_read_from_all(
[secondary, other_secondary], NEAREST, latency=9999999)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
for _ in range(30):
if ha_tools.get_primary():
break
yield self.pause(1)
else:
self.fail("Primary didn't come back up")
ha_tools.kill_members([unpartition_node(secondary)], 2)
self.assertTrue(pymongo.MongoClient(
unpartition_node(primary),
slave_okay=True
).admin.command('ismaster')['ismaster'])
yield self.pause(2 * MONITOR_INTERVAL)
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
yield assert_read_from(primary, PRIMARY_PREFERRED)
# SECONDARY
yield assert_read_from(other_secondary, SECONDARY)
yield assert_read_from(
other_secondary, SECONDARY, self.other_secondary_dc)
# Only the down secondary matches
yield assert_read_from(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
yield assert_read_from(other_secondary, SECONDARY_PREFERRED)
yield assert_read_from(
other_secondary, SECONDARY_PREFERRED, self.other_secondary_dc)
# The secondary matching the tag is down, use primary
yield assert_read_from(
primary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
yield assert_read_from_all(
[primary, other_secondary], NEAREST, latency=9999999)
yield assert_read_from(
other_secondary, NEAREST, {'name': 'other_secondary'})
yield assert_read_from(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
self.assertTrue(pymongo.MongoClient(
unpartition_node(primary),
slave_okay=True
).admin.command('ismaster')['ismaster'])
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
yield assert_read_from(primary, PRIMARY_PREFERRED)
yield assert_read_from(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
yield assert_read_from(None, SECONDARY)
yield assert_read_from(None, SECONDARY, self.other_secondary_dc)
yield assert_read_from(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
yield assert_read_from(primary, SECONDARY_PREFERRED)
yield assert_read_from(primary, SECONDARY_PREFERRED, self.secondary_dc)
yield assert_read_from(
primary, SECONDARY_PREFERRED, {'name': 'secondary'})
yield assert_read_from(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
yield assert_read_from(primary, NEAREST)
yield assert_read_from(None, NEAREST, self.secondary_dc)
yield assert_read_from(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
yield assert_read_from(primary, NEAREST)
yield assert_read_from(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_read_preference(self):
# This is long, but we put all the tests in one function to save time
# on setUp, which takes about 30 seconds to bring up a replica set.
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = motor.MotorReplicaSetClient(self.seed, replicaSet=self.name)
yield c.open()
@gen.coroutine
def read_from_which_host(
rsc,
mode,
tag_sets=None,
latency=15,
):
db = rsc.motor_test
db.read_preference = mode
if isinstance(tag_sets, dict):
tag_sets = [tag_sets]
db.tag_sets = tag_sets or [{}]
db.secondary_acceptable_latency_ms = latency
cursor = db.test.find()
try:
yield cursor.fetch_next
raise gen.Return(cursor.delegate._Cursor__connection_id)
except AutoReconnect:
raise gen.Return(None)
@gen.coroutine
def assert_read_from(member, *args, **kwargs):
for _ in range(10):
used = yield read_from_which_host(c, *args, **kwargs)
self.assertEqual(member, used)
@gen.coroutine
def assert_read_from_all(members, *args, **kwargs):
members = set(members)
all_used = set()
for _ in range(100):
used = yield read_from_which_host(c, *args, **kwargs)
all_used.add(used)
if members == all_used:
raise gen.Return() # Success
# This will fail
self.assertEqual(members, all_used)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
yield assert_read_from(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
yield assert_read_from(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
yield assert_read_from(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
yield assert_read_from(primary, PRIMARY_PREFERRED, bad_tag)
yield assert_read_from(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
yield assert_read_from_all([secondary, other_secondary],
SECONDARY,
latency=9999999)
# SECONDARY_PREFERRED
yield assert_read_from_all([secondary, other_secondary],
SECONDARY_PREFERRED,
latency=9999999)
# Multiple tags
yield assert_read_from(secondary, SECONDARY_PREFERRED,
self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
yield assert_read_from(primary, SECONDARY_PREFERRED,
{'name': 'primary'})
# No matching secondaries
yield assert_read_from(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
yield assert_read_from_all([secondary, other_secondary],
SECONDARY_PREFERRED, [bad_tag, {}],
latency=9999999)
yield assert_read_from(other_secondary, SECONDARY_PREFERRED,
[bad_tag, {
'dc': 'ny'
}])
# NEAREST
self.clear_ping_times()
yield assert_read_from_all([primary, secondary, other_secondary],
NEAREST,
latency=9999999)
yield assert_read_from_all([primary, other_secondary],
NEAREST, [bad_tag, {
'dc': 'ny'
}],
latency=9999999)
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 milliseconds.
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
yield assert_read_from(primary, NEAREST)
# Tags override nearness
yield assert_read_from(primary, NEAREST, {'name': 'primary'})
yield assert_read_from(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 milliseconds.
self.set_ping_time(secondary, 0)
yield assert_read_from(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
yield assert_read_from(other_secondary, NEAREST)
# High secondaryAcceptableLatencyMS, should read from all members
yield assert_read_from_all([primary, secondary, other_secondary],
NEAREST,
latency=9999999)
self.clear_ping_times()
yield assert_read_from_all([primary, other_secondary],
NEAREST, [{
'dc': 'ny'
}],
latency=9999999)
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
yield self.pause(2 * MONITOR_INTERVAL)
# PRIMARY
yield assert_read_from(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
yield assert_read_from_all([secondary, other_secondary],
PRIMARY_PREFERRED,
latency=9999999)
yield assert_read_from(secondary, PRIMARY_PREFERRED,
{'name': 'secondary'})
# No primary or matching secondary
yield assert_read_from(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
yield assert_read_from_all([secondary, other_secondary],
SECONDARY,
latency=9999999)
# Only primary matches
yield assert_read_from(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
yield assert_read_from(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
yield assert_read_from_all([secondary, other_secondary],
SECONDARY_PREFERRED,
latency=9999999)
# Mode and tags both match
yield assert_read_from(secondary, SECONDARY_PREFERRED,
{'name': 'secondary'})
# NEAREST
self.clear_ping_times()
yield assert_read_from_all([secondary, other_secondary],
NEAREST,
latency=9999999)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
for _ in range(30):
if ha_tools.get_primary():
break
yield self.pause(1)
else:
self.fail("Primary didn't come back up")
ha_tools.kill_members([unpartition_node(secondary)], 2)
self.assertTrue(
pymongo.MongoClient(
unpartition_node(primary),
slave_okay=True).admin.command('ismaster')['ismaster'])
yield self.pause(2 * MONITOR_INTERVAL)
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
yield assert_read_from(primary, PRIMARY_PREFERRED)
# SECONDARY
yield assert_read_from(other_secondary, SECONDARY)
yield assert_read_from(other_secondary, SECONDARY,
self.other_secondary_dc)
# Only the down secondary matches
yield assert_read_from(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
yield assert_read_from(other_secondary, SECONDARY_PREFERRED)
yield assert_read_from(other_secondary, SECONDARY_PREFERRED,
self.other_secondary_dc)
# The secondary matching the tag is down, use primary
yield assert_read_from(primary, SECONDARY_PREFERRED,
{'name': 'secondary'})
# NEAREST
yield assert_read_from_all([primary, other_secondary],
NEAREST,
latency=9999999)
yield assert_read_from(other_secondary, NEAREST,
{'name': 'other_secondary'})
yield assert_read_from(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
self.assertTrue(
pymongo.MongoClient(
unpartition_node(primary),
slave_okay=True).admin.command('ismaster')['ismaster'])
# PRIMARY
yield assert_read_from(primary, PRIMARY)
# PRIMARY_PREFERRED
yield assert_read_from(primary, PRIMARY_PREFERRED)
yield assert_read_from(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
yield assert_read_from(None, SECONDARY)
yield assert_read_from(None, SECONDARY, self.other_secondary_dc)
yield assert_read_from(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
yield assert_read_from(primary, SECONDARY_PREFERRED)
yield assert_read_from(primary, SECONDARY_PREFERRED, self.secondary_dc)
yield assert_read_from(primary, SECONDARY_PREFERRED,
{'name': 'secondary'})
yield assert_read_from(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
yield assert_read_from(primary, NEAREST)
yield assert_read_from(None, NEAREST, self.secondary_dc)
yield assert_read_from(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
yield assert_read_from(primary, NEAREST)
yield assert_read_from(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_read_preference(self):
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = MongoReplicaSetClient(self.seed,
replicaSet=self.name,
use_greenlets=use_greenlets)
def assertReadFrom(member, *args, **kwargs):
utils.assertReadFrom(self, c, member, *args, **kwargs)
def assertReadFromAll(members, *args, **kwargs):
utils.assertReadFromAll(self, c, members, *args, **kwargs)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
# To make the code terser, copy hosts into local scope
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, bad_tag)
assertReadFrom(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Multiple tags
assertReadFrom(secondary, SECONDARY_PREFERRED, self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'primary'})
# No matching secondaries
assertReadFrom(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED,
[bad_tag, {}])
assertReadFrom(other_secondary, SECONDARY_PREFERRED,
[bad_tag, {
'dc': 'ny'
}])
# NEAREST
self.clear_ping_times()
assertReadFromAll([primary, secondary, other_secondary], NEAREST)
assertReadFromAll([primary, other_secondary], NEAREST,
[bad_tag, {
'dc': 'ny'
}])
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 ms
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
assertReadFrom(primary, NEAREST)
# Tags override nearness
assertReadFrom(primary, NEAREST, {'name': 'primary'})
assertReadFrom(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 ms
self.set_ping_time(secondary, 0)
assertReadFrom(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
assertReadFrom(other_secondary, NEAREST)
# High secondaryAcceptableLatencyMS, should read from all members
assertReadFromAll([primary, secondary, other_secondary],
NEAREST,
secondary_acceptable_latency_ms=1000 * 1000)
self.clear_ping_times()
assertReadFromAll([primary, other_secondary], NEAREST, [{'dc': 'ny'}])
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
sleep(2 * MONITOR_INTERVAL)
# PRIMARY
assertReadFrom(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
assertReadFromAll([secondary, other_secondary], PRIMARY_PREFERRED)
assertReadFrom(secondary, PRIMARY_PREFERRED, {'name': 'secondary'})
# No primary or matching secondary
assertReadFrom(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# Only primary matches
assertReadFrom(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
assertReadFrom(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Mode and tags both match
assertReadFrom(secondary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
self.clear_ping_times()
assertReadFromAll([secondary, other_secondary], NEAREST)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
for _ in range(30):
if ha_tools.get_primary():
break
sleep(1)
else:
self.fail("Primary didn't come back up")
ha_tools.kill_members([unpartition_node(secondary)], 2)
self.assertTrue(
MongoClient(unpartition_node(primary),
use_greenlets=use_greenlets,
read_preference=PRIMARY_PREFERRED).admin.command(
'ismaster')['ismaster'])
sleep(2 * MONITOR_INTERVAL)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
# SECONDARY
assertReadFrom(other_secondary, SECONDARY)
assertReadFrom(other_secondary, SECONDARY, self.other_secondary_dc)
# Only the down secondary matches
assertReadFrom(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
assertReadFrom(other_secondary, SECONDARY_PREFERRED)
assertReadFrom(other_secondary, SECONDARY_PREFERRED,
self.other_secondary_dc)
# The secondary matching the tag is down, use primary
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
assertReadFromAll([primary, other_secondary], NEAREST)
assertReadFrom(other_secondary, NEAREST, {'name': 'other_secondary'})
assertReadFrom(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
self.assertTrue(
MongoClient(unpartition_node(primary),
use_greenlets=use_greenlets,
read_preference=PRIMARY_PREFERRED).admin.command(
'ismaster')['ismaster'])
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
assertReadFrom(None, SECONDARY)
assertReadFrom(None, SECONDARY, self.other_secondary_dc)
assertReadFrom(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
assertReadFrom(primary, SECONDARY_PREFERRED)
assertReadFrom(primary, SECONDARY_PREFERRED, self.secondary_dc)
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
assertReadFrom(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
assertReadFrom(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_read_preference(self):
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = MongoClient(
self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
wait_until(lambda: c.primary, "discover primary")
wait_until(lambda: len(c.secondaries) == 2, "discover secondaries")
def assertReadFrom(member, *args, **kwargs):
utils.assertReadFrom(self, c, member, *args, **kwargs)
def assertReadFromAll(members, *args, **kwargs):
utils.assertReadFromAll(self, c, members, *args, **kwargs)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
# To make the code terser, copy hosts into local scope
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, bad_tag)
assertReadFrom(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Multiple tags
assertReadFrom(secondary, SECONDARY_PREFERRED, self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'primary'})
# No matching secondaries
assertReadFrom(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
assertReadFromAll([secondary, other_secondary],
SECONDARY_PREFERRED, [bad_tag, {}])
assertReadFrom(other_secondary,
SECONDARY_PREFERRED, [bad_tag, {'dc': 'ny'}])
# NEAREST
self.clear_ping_times()
assertReadFromAll([primary, secondary, other_secondary], NEAREST)
assertReadFromAll([primary, other_secondary],
NEAREST, [bad_tag, {'dc': 'ny'}])
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 ms
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
assertReadFrom(primary, NEAREST)
# Tags override nearness
assertReadFrom(primary, NEAREST, {'name': 'primary'})
assertReadFrom(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 ms
self.set_ping_time(secondary, 0)
assertReadFrom(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
assertReadFrom(other_secondary, NEAREST)
self.clear_ping_times()
assertReadFromAll([primary, other_secondary], NEAREST, [{'dc': 'ny'}])
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
time.sleep(2 * self.heartbeat_frequency)
# PRIMARY
assertReadFrom(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
assertReadFromAll([secondary, other_secondary], PRIMARY_PREFERRED)
assertReadFrom(secondary, PRIMARY_PREFERRED, {'name': 'secondary'})
# No primary or matching secondary
assertReadFrom(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# Only primary matches
assertReadFrom(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
assertReadFrom(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Mode and tags both match
assertReadFrom(secondary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
self.clear_ping_times()
assertReadFromAll([secondary, other_secondary], NEAREST)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
ha_tools.wait_for_primary()
ha_tools.kill_members([unpartition_node(secondary)], 2)
time.sleep(5)
ha_tools.wait_for_primary()
time.sleep(2 * self.heartbeat_frequency)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
# SECONDARY
assertReadFrom(other_secondary, SECONDARY)
assertReadFrom(other_secondary, SECONDARY, self.other_secondary_dc)
# Only the down secondary matches
assertReadFrom(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
assertReadFrom(other_secondary, SECONDARY_PREFERRED)
assertReadFrom(
other_secondary, SECONDARY_PREFERRED, self.other_secondary_dc)
# The secondary matching the tag is down, use primary
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
assertReadFromAll([primary, other_secondary], NEAREST)
assertReadFrom(other_secondary, NEAREST, {'name': 'other_secondary'})
assertReadFrom(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
assertReadFrom(None, SECONDARY)
assertReadFrom(None, SECONDARY, self.other_secondary_dc)
assertReadFrom(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
assertReadFrom(primary, SECONDARY_PREFERRED)
assertReadFrom(primary, SECONDARY_PREFERRED, self.secondary_dc)
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
assertReadFrom(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
assertReadFrom(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_ship_of_theseus(self):
c = MongoReplicaSetClient(
self.seed, replicaSet=self.name, use_greenlets=use_greenlets)
db = c.pymongo_test
db.test.insert({}, w=len(c.secondaries) + 1)
find_one = db.test.find_one
primary = ha_tools.get_primary()
secondary1 = ha_tools.get_random_secondary()
new_hosts = []
for i in range(3):
new_hosts.append(ha_tools.add_member())
# RS closes all connections after reconfig.
for j in xrange(30):
try:
if ha_tools.get_primary():
break
except (ConnectionFailure, OperationFailure):
pass
sleep(1)
else:
self.fail("Couldn't recover from reconfig")
# Wait for new members to join.
for _ in xrange(120):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 4:
break
sleep(1)
else:
self.fail("New secondaries didn't join")
ha_tools.kill_members([primary, secondary1], 9)
sleep(5)
# Wait for primary.
for _ in xrange(30):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 2:
break
sleep(1)
else:
self.fail("No failover")
sleep(2 * MONITOR_INTERVAL)
# No error.
find_one()
find_one(read_preference=SECONDARY)
# All members down.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members(new_hosts)
# Should be able to reconnect to set even though original seed
# list is useless. Use SECONDARY so we don't have to wait for
# the election, merely for the client to detect members are up.
sleep(2 * MONITOR_INTERVAL)
find_one(read_preference=SECONDARY)
# Kill new members and switch back to original two members.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members([primary, secondary1])
# Wait for members to figure out they're secondaries.
for _ in xrange(30):
try:
if len(ha_tools.get_secondaries()) == 2:
break
except ConnectionFailure:
pass
sleep(1)
else:
self.fail("Original members didn't become secondaries")
# Should be able to reconnect to set again.
sleep(2 * MONITOR_INTERVAL)
find_one(read_preference=SECONDARY)
def test_ship_of_theseus(self):
c = MongoClient(
self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
db = c.get_database(
"pymongo_test",
write_concern=WriteConcern(w=len(c.secondaries) + 1))
db.test.insert_one({})
find_one = db.test.find_one
primary = ha_tools.get_primary()
secondary1 = ha_tools.get_random_secondary()
new_hosts = []
for i in range(3):
new_hosts.append(ha_tools.add_member())
# RS closes all connections after reconfig.
for j in xrange(30):
try:
if ha_tools.get_primary():
break
except (ConnectionFailure, OperationFailure):
pass
time.sleep(1)
else:
self.fail("Couldn't recover from reconfig")
# Wait for new members to join.
for _ in xrange(120):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 4:
break
time.sleep(1)
else:
self.fail("New secondaries didn't join")
ha_tools.kill_members([primary, secondary1], 9)
time.sleep(5)
wait_until(lambda: (ha_tools.get_primary()
and len(ha_tools.get_secondaries()) == 2),
"fail over",
timeout=30)
time.sleep(2 * self.heartbeat_frequency)
# No error.
find_one()
find_one(read_preference=SECONDARY)
# All members down.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members(new_hosts)
# Should be able to reconnect to set even though original seed
# list is useless. Use SECONDARY so we don't have to wait for
# the election, merely for the client to detect members are up.
time.sleep(2 * self.heartbeat_frequency)
find_one(read_preference=SECONDARY)
# Kill new members and switch back to original two members.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members([primary, secondary1])
# Wait for members to figure out they're secondaries.
wait_until(lambda: len(ha_tools.get_secondaries()) == 2,
"detect two secondaries",
timeout=30)
# Should be able to reconnect to set again.
time.sleep(2 * self.heartbeat_frequency)
find_one(read_preference=SECONDARY)
def test_read_preference(self):
# We pass through four states:
#
# 1. A primary and two secondaries
# 2. Primary down
# 3. Primary up, one secondary down
# 4. Primary up, all secondaries down
#
# For each state, we verify the behavior of PRIMARY,
# PRIMARY_PREFERRED, SECONDARY, SECONDARY_PREFERRED, and NEAREST
c = MongoClient(
self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
wait_until(lambda: c.primary, "discover primary")
wait_until(lambda: len(c.secondaries) == 2, "discover secondaries")
def assertReadFrom(member, *args, **kwargs):
utils.assertReadFrom(self, c, member, *args, **kwargs)
def assertReadFromAll(members, *args, **kwargs):
utils.assertReadFromAll(self, c, members, *args, **kwargs)
def unpartition_node(node):
host, port = node
return '%s:%s' % (host, port)
# To make the code terser, copy hosts into local scope
primary = self.primary
secondary = self.secondary
other_secondary = self.other_secondary
bad_tag = {'bad': 'tag'}
# 1. THREE MEMBERS UP -------------------------------------------------
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
# Trivial: mode and tags both match
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Secondary matches but not primary, choose primary
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, self.primary_dc)
# Chooses primary, ignoring tag sets
assertReadFrom(primary, PRIMARY_PREFERRED, bad_tag)
assertReadFrom(primary, PRIMARY_PREFERRED, [bad_tag, {}])
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Multiple tags
assertReadFrom(secondary, SECONDARY_PREFERRED, self.secondary_tags)
# Fall back to primary if it's the only one matching the tags
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'primary'})
# No matching secondaries
assertReadFrom(primary, SECONDARY_PREFERRED, bad_tag)
# Fall back from non-matching tag set to matching set
assertReadFromAll([secondary, other_secondary],
SECONDARY_PREFERRED, [bad_tag, {}])
assertReadFrom(other_secondary,
SECONDARY_PREFERRED, [bad_tag, {'dc': 'ny'}])
# NEAREST
self.clear_ping_times()
assertReadFromAll([primary, secondary, other_secondary], NEAREST)
assertReadFromAll([primary, other_secondary],
NEAREST, [bad_tag, {'dc': 'ny'}])
self.set_ping_time(primary, 0)
self.set_ping_time(secondary, .03) # 30 ms
self.set_ping_time(other_secondary, 10)
# Nearest member, no tags
assertReadFrom(primary, NEAREST)
# Tags override nearness
assertReadFrom(primary, NEAREST, {'name': 'primary'})
assertReadFrom(secondary, NEAREST, self.secondary_dc)
# Make secondary fast
self.set_ping_time(primary, .03) # 30 ms
self.set_ping_time(secondary, 0)
assertReadFrom(secondary, NEAREST)
# Other secondary fast
self.set_ping_time(secondary, 10)
self.set_ping_time(other_secondary, 0)
assertReadFrom(other_secondary, NEAREST)
self.clear_ping_times()
assertReadFromAll([primary, other_secondary], NEAREST, [{'dc': 'ny'}])
# 2. PRIMARY DOWN -----------------------------------------------------
killed = ha_tools.kill_primary()
# Let monitor notice primary's gone
time.sleep(2 * self.heartbeat_frequency)
# PRIMARY
assertReadFrom(None, PRIMARY)
# PRIMARY_PREFERRED
# No primary, choose matching secondary
assertReadFromAll([secondary, other_secondary], PRIMARY_PREFERRED)
assertReadFrom(secondary, PRIMARY_PREFERRED, {'name': 'secondary'})
# No primary or matching secondary
assertReadFrom(None, PRIMARY_PREFERRED, bad_tag)
# SECONDARY
assertReadFromAll([secondary, other_secondary], SECONDARY)
# Only primary matches
assertReadFrom(None, SECONDARY, {'name': 'primary'})
# No matching secondaries
assertReadFrom(None, SECONDARY, bad_tag)
# SECONDARY_PREFERRED
assertReadFromAll([secondary, other_secondary], SECONDARY_PREFERRED)
# Mode and tags both match
assertReadFrom(secondary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
self.clear_ping_times()
assertReadFromAll([secondary, other_secondary], NEAREST)
# 3. PRIMARY UP, ONE SECONDARY DOWN -----------------------------------
ha_tools.restart_members([killed])
ha_tools.wait_for_primary()
ha_tools.kill_members([unpartition_node(secondary)], 2)
time.sleep(5)
ha_tools.wait_for_primary()
time.sleep(2 * self.heartbeat_frequency)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
# SECONDARY
assertReadFrom(other_secondary, SECONDARY)
assertReadFrom(other_secondary, SECONDARY, self.other_secondary_dc)
# Only the down secondary matches
assertReadFrom(None, SECONDARY, {'name': 'secondary'})
# SECONDARY_PREFERRED
assertReadFrom(other_secondary, SECONDARY_PREFERRED)
assertReadFrom(
other_secondary, SECONDARY_PREFERRED, self.other_secondary_dc)
# The secondary matching the tag is down, use primary
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
# NEAREST
assertReadFromAll([primary, other_secondary], NEAREST)
assertReadFrom(other_secondary, NEAREST, {'name': 'other_secondary'})
assertReadFrom(primary, NEAREST, {'name': 'primary'})
# 4. PRIMARY UP, ALL SECONDARIES DOWN ---------------------------------
ha_tools.kill_members([unpartition_node(other_secondary)], 2)
# PRIMARY
assertReadFrom(primary, PRIMARY)
# PRIMARY_PREFERRED
assertReadFrom(primary, PRIMARY_PREFERRED)
assertReadFrom(primary, PRIMARY_PREFERRED, self.secondary_dc)
# SECONDARY
assertReadFrom(None, SECONDARY)
assertReadFrom(None, SECONDARY, self.other_secondary_dc)
assertReadFrom(None, SECONDARY, {'dc': 'ny'})
# SECONDARY_PREFERRED
assertReadFrom(primary, SECONDARY_PREFERRED)
assertReadFrom(primary, SECONDARY_PREFERRED, self.secondary_dc)
assertReadFrom(primary, SECONDARY_PREFERRED, {'name': 'secondary'})
assertReadFrom(primary, SECONDARY_PREFERRED, {'dc': 'ny'})
# NEAREST
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
assertReadFrom(None, NEAREST, {'name': 'secondary'})
# Even if primary's slow, still read from it
self.set_ping_time(primary, 100)
assertReadFrom(primary, NEAREST)
assertReadFrom(None, NEAREST, self.secondary_dc)
self.clear_ping_times()
def test_ship_of_theseus(self):
c = MongoClient(
self.seed,
replicaSet=self.name,
serverSelectionTimeoutMS=self.server_selection_timeout)
db = c.get_database(
"pymongo_test",
write_concern=WriteConcern(w=len(c.secondaries) + 1))
db.test.insert_one({})
find_one = db.test.find_one
primary = ha_tools.get_primary()
secondary1 = ha_tools.get_random_secondary()
new_hosts = []
for i in range(3):
new_hosts.append(ha_tools.add_member())
# RS closes all connections after reconfig.
for j in xrange(30):
try:
if ha_tools.get_primary():
break
except (ConnectionFailure, OperationFailure):
pass
time.sleep(1)
else:
self.fail("Couldn't recover from reconfig")
# Wait for new members to join.
for _ in xrange(120):
if ha_tools.get_primary() and len(ha_tools.get_secondaries()) == 4:
break
time.sleep(1)
else:
self.fail("New secondaries didn't join")
ha_tools.kill_members([primary, secondary1], 9)
time.sleep(5)
wait_until(lambda: (ha_tools.get_primary()
and len(ha_tools.get_secondaries()) == 2),
"fail over",
timeout=30)
time.sleep(2 * self.heartbeat_frequency)
# No error.
find_one()
find_one(read_preference=SECONDARY)
# All members down.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members(new_hosts)
# Should be able to reconnect to set even though original seed
# list is useless. Use SECONDARY so we don't have to wait for
# the election, merely for the client to detect members are up.
time.sleep(2 * self.heartbeat_frequency)
find_one(read_preference=SECONDARY)
# Kill new members and switch back to original two members.
ha_tools.kill_members(new_hosts, 9)
self.assertRaises(
ConnectionFailure,
find_one, read_preference=SECONDARY)
ha_tools.restart_members([primary, secondary1])
# Wait for members to figure out they're secondaries.
wait_until(lambda: len(ha_tools.get_secondaries()) == 2,
"detect two secondaries",
timeout=30)
# Should be able to reconnect to set again.
time.sleep(2 * self.heartbeat_frequency)
find_one(read_preference=SECONDARY)
