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policies_test.go
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policies_test.go
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// Copyright (c) 2015 The gocql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gocql
import (
"errors"
"fmt"
"net"
"testing"
"time"
"github.com/hailocab/go-hostpool"
)
// Tests of the round-robin host selection policy implementation
func TestRoundRobbin(t *testing.T) {
policy := RoundRobinHostPolicy()
hosts := [...]*HostInfo{
{hostId: "0", connectAddress: net.IPv4(0, 0, 0, 1)},
{hostId: "1", connectAddress: net.IPv4(0, 0, 0, 2)},
}
for _, host := range hosts {
policy.AddHost(host)
}
got := make(map[string]bool)
it := policy.Pick(nil)
for h := it(); h != nil; h = it() {
id := h.Info().hostId
if got[id] {
t.Fatalf("got duplicate host: %v", id)
}
got[id] = true
}
if len(got) != len(hosts) {
t.Fatalf("expected %d hosts got %d", len(hosts), len(got))
}
}
// Tests of the token-aware host selection policy implementation with a
// round-robin host selection policy fallback.
func TestHostPolicy_TokenAware_SimpleStrategy(t *testing.T) {
const keyspace = "myKeyspace"
policy := TokenAwareHostPolicy(RoundRobinHostPolicy())
policyInternal := policy.(*tokenAwareHostPolicy)
policyInternal.getKeyspaceName = func() string { return keyspace }
policyInternal.getKeyspaceMetadata = func(ks string) (*KeyspaceMetadata, error) {
return nil, errors.New("not initalized")
}
query := &Query{}
query.getKeyspace = func() string { return keyspace }
iter := policy.Pick(nil)
if iter == nil {
t.Fatal("host iterator was nil")
}
actual := iter()
if actual != nil {
t.Fatalf("expected nil from iterator, but was %v", actual)
}
// set the hosts
hosts := [...]*HostInfo{
{hostId: "0", connectAddress: net.IPv4(10, 0, 0, 1), tokens: []string{"00"}},
{hostId: "1", connectAddress: net.IPv4(10, 0, 0, 2), tokens: []string{"25"}},
{hostId: "2", connectAddress: net.IPv4(10, 0, 0, 3), tokens: []string{"50"}},
{hostId: "3", connectAddress: net.IPv4(10, 0, 0, 4), tokens: []string{"75"}},
}
for _, host := range &hosts {
policy.AddHost(host)
}
policy.SetPartitioner("OrderedPartitioner")
policyInternal.getKeyspaceMetadata = func(keyspaceName string) (*KeyspaceMetadata, error) {
if keyspaceName != keyspace {
return nil, fmt.Errorf("unknown keyspace: %s", keyspaceName)
}
return &KeyspaceMetadata{
Name: keyspace,
StrategyClass: "SimpleStrategy",
StrategyOptions: map[string]interface{}{
"class": "SimpleStrategy",
"replication_factor": 2,
},
}, nil
}
policy.KeyspaceChanged(KeyspaceUpdateEvent{Keyspace: keyspace})
// The SimpleStrategy above should generate the following replicas.
// It's handy to have as reference here.
assertDeepEqual(t, "replicas", map[string]tokenRingReplicas{
"myKeyspace": {
{orderedToken("00"), []*HostInfo{hosts[0], hosts[1]}},
{orderedToken("25"), []*HostInfo{hosts[1], hosts[2]}},
{orderedToken("50"), []*HostInfo{hosts[2], hosts[3]}},
{orderedToken("75"), []*HostInfo{hosts[3], hosts[0]}},
},
}, policyInternal.getMetadataReadOnly().replicas)
// now the token ring is configured
query.RoutingKey([]byte("20"))
iter = policy.Pick(query)
iterCheck(t, iter, "0")
iterCheck(t, iter, "1")
}
// Tests of the host pool host selection policy implementation
func TestHostPolicy_HostPool(t *testing.T) {
policy := HostPoolHostPolicy(hostpool.New(nil))
hosts := []*HostInfo{
{hostId: "0", connectAddress: net.IPv4(10, 0, 0, 0)},
{hostId: "1", connectAddress: net.IPv4(10, 0, 0, 1)},
}
// Using set host to control the ordering of the hosts as calling "AddHost" iterates the map
// which will result in an unpredictable ordering
policy.(*hostPoolHostPolicy).SetHosts(hosts)
// the first host selected is actually at [1], but this is ok for RR
// interleaved iteration should always increment the host
iter := policy.Pick(nil)
actualA := iter()
if actualA.Info().HostID() != "0" {
t.Errorf("Expected hosts[0] but was hosts[%s]", actualA.Info().HostID())
}
actualA.Mark(nil)
actualB := iter()
if actualB.Info().HostID() != "1" {
t.Errorf("Expected hosts[1] but was hosts[%s]", actualB.Info().HostID())
}
actualB.Mark(fmt.Errorf("error"))
actualC := iter()
if actualC.Info().HostID() != "0" {
t.Errorf("Expected hosts[0] but was hosts[%s]", actualC.Info().HostID())
}
actualC.Mark(nil)
actualD := iter()
if actualD.Info().HostID() != "0" {
t.Errorf("Expected hosts[0] but was hosts[%s]", actualD.Info().HostID())
}
actualD.Mark(nil)
}
func TestHostPolicy_RoundRobin_NilHostInfo(t *testing.T) {
policy := RoundRobinHostPolicy()
host := &HostInfo{hostId: "host-1"}
policy.AddHost(host)
iter := policy.Pick(nil)
next := iter()
if next == nil {
t.Fatal("got nil host")
} else if v := next.Info(); v == nil {
t.Fatal("got nil HostInfo")
} else if v.HostID() != host.HostID() {
t.Fatalf("expected host %v got %v", host, v)
}
next = iter()
if next != nil {
t.Errorf("expected to get nil host got %+v", next)
if next.Info() == nil {
t.Fatalf("HostInfo is nil")
}
}
}
func TestHostPolicy_TokenAware_NilHostInfo(t *testing.T) {
policy := TokenAwareHostPolicy(RoundRobinHostPolicy())
policyInternal := policy.(*tokenAwareHostPolicy)
policyInternal.getKeyspaceName = func() string { return "myKeyspace" }
policyInternal.getKeyspaceMetadata = func(ks string) (*KeyspaceMetadata, error) {
return nil, errors.New("not initialized")
}
hosts := [...]*HostInfo{
{connectAddress: net.IPv4(10, 0, 0, 0), tokens: []string{"00"}},
{connectAddress: net.IPv4(10, 0, 0, 1), tokens: []string{"25"}},
{connectAddress: net.IPv4(10, 0, 0, 2), tokens: []string{"50"}},
{connectAddress: net.IPv4(10, 0, 0, 3), tokens: []string{"75"}},
}
for _, host := range hosts {
policy.AddHost(host)
}
policy.SetPartitioner("OrderedPartitioner")
query := &Query{}
query.getKeyspace = func() string { return "myKeyspace" }
query.RoutingKey([]byte("20"))
iter := policy.Pick(query)
next := iter()
if next == nil {
t.Fatal("got nil host")
} else if v := next.Info(); v == nil {
t.Fatal("got nil HostInfo")
} else if !v.ConnectAddress().Equal(hosts[1].ConnectAddress()) {
t.Fatalf("expected peer 1 got %v", v.ConnectAddress())
}
// Empty the hosts to trigger the panic when using the fallback.
for _, host := range hosts {
policy.RemoveHost(host)
}
next = iter()
if next != nil {
t.Errorf("expected to get nil host got %+v", next)
if next.Info() == nil {
t.Fatalf("HostInfo is nil")
}
}
}
func TestCOWList_Add(t *testing.T) {
var cow cowHostList
toAdd := [...]net.IP{net.IPv4(10, 0, 0, 1), net.IPv4(10, 0, 0, 2), net.IPv4(10, 0, 0, 3)}
for _, addr := range toAdd {
if !cow.add(&HostInfo{connectAddress: addr}) {
t.Fatal("did not add peer which was not in the set")
}
}
hosts := cow.get()
if len(hosts) != len(toAdd) {
t.Fatalf("expected to have %d hosts got %d", len(toAdd), len(hosts))
}
set := make(map[string]bool)
for _, host := range hosts {
set[string(host.ConnectAddress())] = true
}
for _, addr := range toAdd {
if !set[string(addr)] {
t.Errorf("addr was not in the host list: %q", addr)
}
}
}
// TestSimpleRetryPolicy makes sure that we only allow 1 + numRetries attempts
func TestSimpleRetryPolicy(t *testing.T) {
q := &Query{}
// this should allow a total of 3 tries.
rt := &SimpleRetryPolicy{NumRetries: 2}
cases := []struct {
attempts int
allow bool
}{
{0, true},
{1, true},
{2, true},
{3, false},
{4, false},
{5, false},
}
for _, c := range cases {
q.metrics = preFilledQueryMetrics(map[string]*hostMetrics{"127.0.0.1": {Attempts: c.attempts}})
if c.allow && !rt.Attempt(q) {
t.Fatalf("should allow retry after %d attempts", c.attempts)
}
if !c.allow && rt.Attempt(q) {
t.Fatalf("should not allow retry after %d attempts", c.attempts)
}
}
}
func TestExponentialBackoffPolicy(t *testing.T) {
// test with defaults
sut := &ExponentialBackoffRetryPolicy{NumRetries: 2}
cases := []struct {
attempts int
delay time.Duration
}{
{1, 100 * time.Millisecond},
{2, (2) * 100 * time.Millisecond},
{3, (2 * 2) * 100 * time.Millisecond},
{4, (2 * 2 * 2) * 100 * time.Millisecond},
}
for _, c := range cases {
// test 100 times for each case
for i := 0; i < 100; i++ {
d := sut.napTime(c.attempts)
if d < c.delay-(100*time.Millisecond)/2 {
t.Fatalf("Delay %d less than jitter min of %d", d, c.delay-100*time.Millisecond/2)
}
if d > c.delay+(100*time.Millisecond)/2 {
t.Fatalf("Delay %d greater than jitter max of %d", d, c.delay+100*time.Millisecond/2)
}
}
}
}
func TestDowngradingConsistencyRetryPolicy(t *testing.T) {
q := &Query{cons: LocalQuorum}
rewt0 := &RequestErrWriteTimeout{
Received: 0,
WriteType: "SIMPLE",
}
rewt1 := &RequestErrWriteTimeout{
Received: 1,
WriteType: "BATCH",
}
rewt2 := &RequestErrWriteTimeout{
WriteType: "UNLOGGED_BATCH",
}
rert := &RequestErrReadTimeout{}
reu0 := &RequestErrUnavailable{
Alive: 0,
}
reu1 := &RequestErrUnavailable{
Alive: 1,
}
// this should allow a total of 3 tries.
consistencyLevels := []Consistency{Three, Two, One}
rt := &DowngradingConsistencyRetryPolicy{ConsistencyLevelsToTry: consistencyLevels}
cases := []struct {
attempts int
allow bool
err error
retryType RetryType
}{
{0, true, rewt0, Rethrow},
{3, true, rewt1, Ignore},
{1, true, rewt2, Retry},
{2, true, rert, Retry},
{4, false, reu0, Rethrow},
{16, false, reu1, Retry},
}
for _, c := range cases {
q.metrics = preFilledQueryMetrics(map[string]*hostMetrics{"127.0.0.1": {Attempts: c.attempts}})
if c.retryType != rt.GetRetryType(c.err) {
t.Fatalf("retry type should be %v", c.retryType)
}
if c.allow && !rt.Attempt(q) {
t.Fatalf("should allow retry after %d attempts", c.attempts)
}
if !c.allow && rt.Attempt(q) {
t.Fatalf("should not allow retry after %d attempts", c.attempts)
}
}
}
func iterCheck(t *testing.T, iter NextHost, hostID string) {
t.Helper()
host := iter()
if host == nil || host.Info() == nil {
t.Fatalf("expected hostID %s got nil", hostID)
}
if host.Info().HostID() != hostID {
t.Fatalf("Expected peer %s but was %s", hostID, host.Info().HostID())
}
}
func TestHostPolicy_DCAwareRR(t *testing.T) {
p := DCAwareRoundRobinPolicy("local")
hosts := [...]*HostInfo{
{hostId: "0", connectAddress: net.ParseIP("10.0.0.1"), dataCenter: "local"},
{hostId: "1", connectAddress: net.ParseIP("10.0.0.2"), dataCenter: "local"},
{hostId: "2", connectAddress: net.ParseIP("10.0.0.3"), dataCenter: "remote"},
{hostId: "3", connectAddress: net.ParseIP("10.0.0.4"), dataCenter: "remote"},
}
for _, host := range hosts {
p.AddHost(host)
}
got := make(map[string]bool, len(hosts))
var dcs []string
it := p.Pick(nil)
for h := it(); h != nil; h = it() {
id := h.Info().hostId
dc := h.Info().dataCenter
if got[id] {
t.Fatalf("got duplicate host %s", id)
}
got[id] = true
dcs = append(dcs, dc)
}
if len(got) != len(hosts) {
t.Fatalf("expected %d hosts got %d", len(hosts), len(got))
}
var remote bool
for _, dc := range dcs {
if dc == "local" {
if remote {
t.Fatalf("got local dc after remote: %v", dcs)
}
} else {
remote = true
}
}
}
// Tests of the token-aware host selection policy implementation with a
// DC aware round-robin host selection policy fallback
// with {"class": "NetworkTopologyStrategy", "a": 1, "b": 1, "c": 1} replication.
func TestHostPolicy_TokenAware(t *testing.T) {
const keyspace = "myKeyspace"
policy := TokenAwareHostPolicy(DCAwareRoundRobinPolicy("local"))
policyInternal := policy.(*tokenAwareHostPolicy)
policyInternal.getKeyspaceName = func() string { return keyspace }
policyInternal.getKeyspaceMetadata = func(ks string) (*KeyspaceMetadata, error) {
return nil, errors.New("not initialized")
}
query := &Query{}
query.getKeyspace = func() string { return keyspace }
iter := policy.Pick(nil)
if iter == nil {
t.Fatal("host iterator was nil")
}
actual := iter()
if actual != nil {
t.Fatalf("expected nil from iterator, but was %v", actual)
}
// set the hosts
hosts := [...]*HostInfo{
{hostId: "0", connectAddress: net.IPv4(10, 0, 0, 1), tokens: []string{"05"}, dataCenter: "remote1"},
{hostId: "1", connectAddress: net.IPv4(10, 0, 0, 2), tokens: []string{"10"}, dataCenter: "local"},
{hostId: "2", connectAddress: net.IPv4(10, 0, 0, 3), tokens: []string{"15"}, dataCenter: "remote2"},
{hostId: "3", connectAddress: net.IPv4(10, 0, 0, 4), tokens: []string{"20"}, dataCenter: "remote1"},
{hostId: "4", connectAddress: net.IPv4(10, 0, 0, 5), tokens: []string{"25"}, dataCenter: "local"},
{hostId: "5", connectAddress: net.IPv4(10, 0, 0, 6), tokens: []string{"30"}, dataCenter: "remote2"},
{hostId: "6", connectAddress: net.IPv4(10, 0, 0, 7), tokens: []string{"35"}, dataCenter: "remote1"},
{hostId: "7", connectAddress: net.IPv4(10, 0, 0, 8), tokens: []string{"40"}, dataCenter: "local"},
{hostId: "8", connectAddress: net.IPv4(10, 0, 0, 9), tokens: []string{"45"}, dataCenter: "remote2"},
{hostId: "9", connectAddress: net.IPv4(10, 0, 0, 10), tokens: []string{"50"}, dataCenter: "remote1"},
{hostId: "10", connectAddress: net.IPv4(10, 0, 0, 11), tokens: []string{"55"}, dataCenter: "local"},
{hostId: "11", connectAddress: net.IPv4(10, 0, 0, 12), tokens: []string{"60"}, dataCenter: "remote2"},
}
for _, host := range hosts {
policy.AddHost(host)
}
// the token ring is not setup without the partitioner, but the fallback
// should work
if actual := policy.Pick(nil)(); actual == nil {
t.Fatal("expected to get host from fallback got nil")
}
query.RoutingKey([]byte("30"))
if actual := policy.Pick(query)(); actual == nil {
t.Fatal("expected to get host from fallback got nil")
}
policy.SetPartitioner("OrderedPartitioner")
policyInternal.getKeyspaceMetadata = func(keyspaceName string) (*KeyspaceMetadata, error) {
if keyspaceName != keyspace {
return nil, fmt.Errorf("unknown keyspace: %s", keyspaceName)
}
return &KeyspaceMetadata{
Name: keyspace,
StrategyClass: "NetworkTopologyStrategy",
StrategyOptions: map[string]interface{}{
"class": "NetworkTopologyStrategy",
"local": 1,
"remote1": 1,
"remote2": 1,
},
}, nil
}
policy.KeyspaceChanged(KeyspaceUpdateEvent{Keyspace: "myKeyspace"})
// The NetworkTopologyStrategy above should generate the following replicas.
// It's handy to have as reference here.
assertDeepEqual(t, "replicas", map[string]tokenRingReplicas{
"myKeyspace": {
{orderedToken("05"), []*HostInfo{hosts[0], hosts[1], hosts[2]}},
{orderedToken("10"), []*HostInfo{hosts[1], hosts[2], hosts[3]}},
{orderedToken("15"), []*HostInfo{hosts[2], hosts[3], hosts[4]}},
{orderedToken("20"), []*HostInfo{hosts[3], hosts[4], hosts[5]}},
{orderedToken("25"), []*HostInfo{hosts[4], hosts[5], hosts[6]}},
{orderedToken("30"), []*HostInfo{hosts[5], hosts[6], hosts[7]}},
{orderedToken("35"), []*HostInfo{hosts[6], hosts[7], hosts[8]}},
{orderedToken("40"), []*HostInfo{hosts[7], hosts[8], hosts[9]}},
{orderedToken("45"), []*HostInfo{hosts[8], hosts[9], hosts[10]}},
{orderedToken("50"), []*HostInfo{hosts[9], hosts[10], hosts[11]}},
{orderedToken("55"), []*HostInfo{hosts[10], hosts[11], hosts[0]}},
{orderedToken("60"), []*HostInfo{hosts[11], hosts[0], hosts[1]}},
},
}, policyInternal.getMetadataReadOnly().replicas)
// now the token ring is configured
query.RoutingKey([]byte("23"))
iter = policy.Pick(query)
// first should be host with matching token from the local DC
iterCheck(t, iter, "4")
// next are in non deterministic order
}
// Tests of the token-aware host selection policy implementation with a
// DC aware round-robin host selection policy fallback
// with {"class": "NetworkTopologyStrategy", "a": 2, "b": 2, "c": 2} replication.
func TestHostPolicy_TokenAware_NetworkStrategy(t *testing.T) {
const keyspace = "myKeyspace"
policy := TokenAwareHostPolicy(DCAwareRoundRobinPolicy("local"), NonLocalReplicasFallback())
policyInternal := policy.(*tokenAwareHostPolicy)
policyInternal.getKeyspaceName = func() string { return keyspace }
policyInternal.getKeyspaceMetadata = func(ks string) (*KeyspaceMetadata, error) {
return nil, errors.New("not initialized")
}
query := &Query{}
query.getKeyspace = func() string { return keyspace }
iter := policy.Pick(nil)
if iter == nil {
t.Fatal("host iterator was nil")
}
actual := iter()
if actual != nil {
t.Fatalf("expected nil from iterator, but was %v", actual)
}
// set the hosts
hosts := [...]*HostInfo{
{hostId: "0", connectAddress: net.IPv4(10, 0, 0, 1), tokens: []string{"05"}, dataCenter: "remote1"},
{hostId: "1", connectAddress: net.IPv4(10, 0, 0, 2), tokens: []string{"10"}, dataCenter: "local"},
{hostId: "2", connectAddress: net.IPv4(10, 0, 0, 3), tokens: []string{"15"}, dataCenter: "remote2"},
{hostId: "3", connectAddress: net.IPv4(10, 0, 0, 4), tokens: []string{"20"}, dataCenter: "remote1"}, // 1
{hostId: "4", connectAddress: net.IPv4(10, 0, 0, 5), tokens: []string{"25"}, dataCenter: "local"}, // 2
{hostId: "5", connectAddress: net.IPv4(10, 0, 0, 6), tokens: []string{"30"}, dataCenter: "remote2"}, // 3
{hostId: "6", connectAddress: net.IPv4(10, 0, 0, 7), tokens: []string{"35"}, dataCenter: "remote1"}, // 4
{hostId: "7", connectAddress: net.IPv4(10, 0, 0, 8), tokens: []string{"40"}, dataCenter: "local"}, // 5
{hostId: "8", connectAddress: net.IPv4(10, 0, 0, 9), tokens: []string{"45"}, dataCenter: "remote2"}, // 6
{hostId: "9", connectAddress: net.IPv4(10, 0, 0, 10), tokens: []string{"50"}, dataCenter: "remote1"},
{hostId: "10", connectAddress: net.IPv4(10, 0, 0, 11), tokens: []string{"55"}, dataCenter: "local"},
{hostId: "11", connectAddress: net.IPv4(10, 0, 0, 12), tokens: []string{"60"}, dataCenter: "remote2"},
}
for _, host := range hosts {
policy.AddHost(host)
}
policy.SetPartitioner("OrderedPartitioner")
policyInternal.getKeyspaceMetadata = func(keyspaceName string) (*KeyspaceMetadata, error) {
if keyspaceName != keyspace {
return nil, fmt.Errorf("unknown keyspace: %s", keyspaceName)
}
return &KeyspaceMetadata{
Name: keyspace,
StrategyClass: "NetworkTopologyStrategy",
StrategyOptions: map[string]interface{}{
"class": "NetworkTopologyStrategy",
"local": 2,
"remote1": 2,
"remote2": 2,
},
}, nil
}
policy.KeyspaceChanged(KeyspaceUpdateEvent{Keyspace: keyspace})
// The NetworkTopologyStrategy above should generate the following replicas.
// It's handy to have as reference here.
assertDeepEqual(t, "replicas", map[string]tokenRingReplicas{
keyspace: {
{orderedToken("05"), []*HostInfo{hosts[0], hosts[1], hosts[2], hosts[3], hosts[4], hosts[5]}},
{orderedToken("10"), []*HostInfo{hosts[1], hosts[2], hosts[3], hosts[4], hosts[5], hosts[6]}},
{orderedToken("15"), []*HostInfo{hosts[2], hosts[3], hosts[4], hosts[5], hosts[6], hosts[7]}},
{orderedToken("20"), []*HostInfo{hosts[3], hosts[4], hosts[5], hosts[6], hosts[7], hosts[8]}},
{orderedToken("25"), []*HostInfo{hosts[4], hosts[5], hosts[6], hosts[7], hosts[8], hosts[9]}},
{orderedToken("30"), []*HostInfo{hosts[5], hosts[6], hosts[7], hosts[8], hosts[9], hosts[10]}},
{orderedToken("35"), []*HostInfo{hosts[6], hosts[7], hosts[8], hosts[9], hosts[10], hosts[11]}},
{orderedToken("40"), []*HostInfo{hosts[7], hosts[8], hosts[9], hosts[10], hosts[11], hosts[0]}},
{orderedToken("45"), []*HostInfo{hosts[8], hosts[9], hosts[10], hosts[11], hosts[0], hosts[1]}},
{orderedToken("50"), []*HostInfo{hosts[9], hosts[10], hosts[11], hosts[0], hosts[1], hosts[2]}},
{orderedToken("55"), []*HostInfo{hosts[10], hosts[11], hosts[0], hosts[1], hosts[2], hosts[3]}},
{orderedToken("60"), []*HostInfo{hosts[11], hosts[0], hosts[1], hosts[2], hosts[3], hosts[4]}},
},
}, policyInternal.getMetadataReadOnly().replicas)
// now the token ring is configured
query.RoutingKey([]byte("23"))
iter = policy.Pick(query)
// first should be hosts with matching token from the local DC
iterCheck(t, iter, "4")
iterCheck(t, iter, "7")
// rest should be hosts with matching token from remote DCs
iterCheck(t, iter, "3")
iterCheck(t, iter, "5")
iterCheck(t, iter, "6")
iterCheck(t, iter, "8")
}