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token_test.go
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token_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 (
"bytes"
"fmt"
"math/big"
"net"
"sort"
"strconv"
"testing"
)
// Tests of the murmur3Patitioner
func TestMurmur3Partitioner(t *testing.T) {
token := murmur3Partitioner{}.ParseString("-1053604476080545076")
if "-1053604476080545076" != token.String() {
t.Errorf("Expected '-1053604476080545076' but was '%s'", token)
}
// at least verify that the partitioner
// doesn't return nil
pk, _ := marshalInt(nil, 1)
token = murmur3Partitioner{}.Hash(pk)
if token == nil {
t.Fatal("token was nil")
}
}
// Tests of the murmur3Token
func TestMurmur3Token(t *testing.T) {
if murmur3Token(42).Less(murmur3Token(42)) {
t.Errorf("Expected Less to return false, but was true")
}
if !murmur3Token(-42).Less(murmur3Token(42)) {
t.Errorf("Expected Less to return true, but was false")
}
if murmur3Token(42).Less(murmur3Token(-42)) {
t.Errorf("Expected Less to return false, but was true")
}
}
// Tests of the orderedPartitioner
func TestOrderedPartitioner(t *testing.T) {
// at least verify that the partitioner
// doesn't return nil
p := orderedPartitioner{}
pk, _ := marshalInt(nil, 1)
token := p.Hash(pk)
if token == nil {
t.Fatal("token was nil")
}
str := token.String()
parsedToken := p.ParseString(str)
if !bytes.Equal([]byte(token.(orderedToken)), []byte(parsedToken.(orderedToken))) {
t.Errorf("Failed to convert to and from a string %s expected %x but was %x",
str,
[]byte(token.(orderedToken)),
[]byte(parsedToken.(orderedToken)),
)
}
}
// Tests of the orderedToken
func TestOrderedToken(t *testing.T) {
if orderedToken([]byte{0, 0, 4, 2}).Less(orderedToken([]byte{0, 0, 4, 2})) {
t.Errorf("Expected Less to return false, but was true")
}
if !orderedToken([]byte{0, 0, 3}).Less(orderedToken([]byte{0, 0, 4, 2})) {
t.Errorf("Expected Less to return true, but was false")
}
if orderedToken([]byte{0, 0, 4, 2}).Less(orderedToken([]byte{0, 0, 3})) {
t.Errorf("Expected Less to return false, but was true")
}
}
// Tests of the randomPartitioner
func TestRandomPartitioner(t *testing.T) {
// at least verify that the partitioner
// doesn't return nil
p := randomPartitioner{}
pk, _ := marshalInt(nil, 1)
token := p.Hash(pk)
if token == nil {
t.Fatal("token was nil")
}
str := token.String()
parsedToken := p.ParseString(str)
if (*big.Int)(token.(*randomToken)).Cmp((*big.Int)(parsedToken.(*randomToken))) != 0 {
t.Errorf("Failed to convert to and from a string %s expected %v but was %v",
str,
token,
parsedToken,
)
}
}
func TestRandomPartitionerMatchesReference(t *testing.T) {
// example taken from datastax python driver
// >>> from cassandra.metadata import MD5Token
// >>> MD5Token.hash_fn("test")
// 12707736894140473154801792860916528374L
var p randomPartitioner
expect := "12707736894140473154801792860916528374"
actual := p.Hash([]byte("test")).String()
if actual != expect {
t.Errorf("expected random partitioner to generate tokens in the same way as the reference"+
" python client. Expected %s, but got %s", expect, actual)
}
}
// Tests of the randomToken
func TestRandomToken(t *testing.T) {
if ((*randomToken)(big.NewInt(42))).Less((*randomToken)(big.NewInt(42))) {
t.Errorf("Expected Less to return false, but was true")
}
if !((*randomToken)(big.NewInt(41))).Less((*randomToken)(big.NewInt(42))) {
t.Errorf("Expected Less to return true, but was false")
}
if ((*randomToken)(big.NewInt(42))).Less((*randomToken)(big.NewInt(41))) {
t.Errorf("Expected Less to return false, but was true")
}
}
type intToken int
func (i intToken) String() string { return strconv.Itoa(int(i)) }
func (i intToken) Less(token token) bool { return i < token.(intToken) }
// Test of the token ring implementation based on example at the start of this
// page of documentation:
// http://www.datastax.com/docs/0.8/cluster_architecture/partitioning
func TestTokenRing_Int(t *testing.T) {
host0 := &HostInfo{}
host25 := &HostInfo{}
host50 := &HostInfo{}
host75 := &HostInfo{}
ring := &tokenRing{
partitioner: nil,
// these tokens and hosts are out of order to test sorting
tokens: []hostToken{
{intToken(0), host0},
{intToken(50), host50},
{intToken(75), host75},
{intToken(25), host25},
},
}
sort.Sort(ring)
if host, endToken := ring.GetHostForToken(intToken(0)); host != host0 || endToken != intToken(0) {
t.Error("Expected host 0 for token 0")
}
if host, endToken := ring.GetHostForToken(intToken(1)); host != host25 || endToken != intToken(25) {
t.Error("Expected host 25 for token 1")
}
if host, endToken := ring.GetHostForToken(intToken(24)); host != host25 || endToken != intToken(25) {
t.Error("Expected host 25 for token 24")
}
if host, endToken := ring.GetHostForToken(intToken(25)); host != host25 || endToken != intToken(25) {
t.Error("Expected host 25 for token 25")
}
if host, endToken := ring.GetHostForToken(intToken(26)); host != host50 || endToken != intToken(50) {
t.Error("Expected host 50 for token 26")
}
if host, endToken := ring.GetHostForToken(intToken(49)); host != host50 || endToken != intToken(50) {
t.Error("Expected host 50 for token 49")
}
if host, endToken := ring.GetHostForToken(intToken(50)); host != host50 || endToken != intToken(50) {
t.Error("Expected host 50 for token 50")
}
if host, endToken := ring.GetHostForToken(intToken(51)); host != host75 || endToken != intToken(75) {
t.Error("Expected host 75 for token 51")
}
if host, endToken := ring.GetHostForToken(intToken(74)); host != host75 || endToken != intToken(75) {
t.Error("Expected host 75 for token 74")
}
if host, endToken := ring.GetHostForToken(intToken(75)); host != host75 || endToken != intToken(75) {
t.Error("Expected host 75 for token 75")
}
if host, endToken := ring.GetHostForToken(intToken(76)); host != host0 || endToken != intToken(0) {
t.Error("Expected host 0 for token 76")
}
if host, endToken := ring.GetHostForToken(intToken(99)); host != host0 || endToken != intToken(0) {
t.Error("Expected host 0 for token 99")
}
if host, endToken := ring.GetHostForToken(intToken(100)); host != host0 || endToken != intToken(0) {
t.Error("Expected host 0 for token 100")
}
}
// Test for the behavior of a nil pointer to tokenRing
func TestTokenRing_Nil(t *testing.T) {
var ring *tokenRing = nil
if host, endToken := ring.GetHostForToken(nil); host != nil || endToken != nil {
t.Error("Expected nil for nil token ring")
}
}
// Test of the recognition of the partitioner class
func TestTokenRing_UnknownPartition(t *testing.T) {
_, err := newTokenRing("UnknownPartitioner", nil)
if err == nil {
t.Error("Expected error for unknown partitioner value, but was nil")
}
}
func hostsForTests(n int) []*HostInfo {
hosts := make([]*HostInfo, n)
for i := 0; i < n; i++ {
host := &HostInfo{
connectAddress: net.IPv4(1, 1, 1, byte(n)),
tokens: []string{fmt.Sprintf("%d", n)},
}
hosts[i] = host
}
return hosts
}
// Test of the tokenRing with the Murmur3Partitioner
func TestTokenRing_Murmur3(t *testing.T) {
// Note, strings are parsed directly to int64, they are not murmur3 hashed
hosts := hostsForTests(4)
ring, err := newTokenRing("Murmur3Partitioner", hosts)
if err != nil {
t.Fatalf("Failed to create token ring due to error: %v", err)
}
p := murmur3Partitioner{}
for _, host := range hosts {
actual, _ := ring.GetHostForToken(p.ParseString(host.tokens[0]))
if !actual.ConnectAddress().Equal(host.ConnectAddress()) {
t.Errorf("Expected address %v for token %q, but was %v", host.ConnectAddress(),
host.tokens[0], actual.ConnectAddress())
}
}
actual, _ := ring.GetHostForToken(p.ParseString("12"))
if !actual.ConnectAddress().Equal(hosts[1].ConnectAddress()) {
t.Errorf("Expected address 1 for token \"12\", but was %s", actual.ConnectAddress())
}
actual, _ = ring.GetHostForToken(p.ParseString("24324545443332"))
if !actual.ConnectAddress().Equal(hosts[0].ConnectAddress()) {
t.Errorf("Expected address 0 for token \"24324545443332\", but was %s", actual.ConnectAddress())
}
}
// Test of the tokenRing with the OrderedPartitioner
func TestTokenRing_Ordered(t *testing.T) {
// Tokens here more or less are similar layout to the int tokens above due
// to each numeric character translating to a consistently offset byte.
hosts := hostsForTests(4)
ring, err := newTokenRing("OrderedPartitioner", hosts)
if err != nil {
t.Fatalf("Failed to create token ring due to error: %v", err)
}
p := orderedPartitioner{}
var actual *HostInfo
for _, host := range hosts {
actual, _ := ring.GetHostForToken(p.ParseString(host.tokens[0]))
if !actual.ConnectAddress().Equal(host.ConnectAddress()) {
t.Errorf("Expected address %v for token %q, but was %v", host.ConnectAddress(),
host.tokens[0], actual.ConnectAddress())
}
}
actual, _ = ring.GetHostForToken(p.ParseString("12"))
if !actual.peer.Equal(hosts[1].peer) {
t.Errorf("Expected address 1 for token \"12\", but was %s", actual.ConnectAddress())
}
actual, _ = ring.GetHostForToken(p.ParseString("24324545443332"))
if !actual.ConnectAddress().Equal(hosts[1].ConnectAddress()) {
t.Errorf("Expected address 1 for token \"24324545443332\", but was %s", actual.ConnectAddress())
}
}
// Test of the tokenRing with the RandomPartitioner
func TestTokenRing_Random(t *testing.T) {
// String tokens are parsed into big.Int in base 10
hosts := hostsForTests(4)
ring, err := newTokenRing("RandomPartitioner", hosts)
if err != nil {
t.Fatalf("Failed to create token ring due to error: %v", err)
}
p := randomPartitioner{}
var actual *HostInfo
for _, host := range hosts {
actual, _ := ring.GetHostForToken(p.ParseString(host.tokens[0]))
if !actual.ConnectAddress().Equal(host.ConnectAddress()) {
t.Errorf("Expected address %v for token %q, but was %v", host.ConnectAddress(),
host.tokens[0], actual.ConnectAddress())
}
}
actual, _ = ring.GetHostForToken(p.ParseString("12"))
if !actual.peer.Equal(hosts[1].peer) {
t.Errorf("Expected address 1 for token \"12\", but was %s", actual.ConnectAddress())
}
actual, _ = ring.GetHostForToken(p.ParseString("24324545443332"))
if !actual.ConnectAddress().Equal(hosts[0].ConnectAddress()) {
t.Errorf("Expected address 1 for token \"24324545443332\", but was %s", actual.ConnectAddress())
}
}