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groupcache_test.go
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groupcache_test.go
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/*
Copyright 2012 Google Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
// Tests for groupcache.
package groupcache
import (
"context"
"errors"
"fmt"
"hash/crc32"
"reflect"
"sync"
"testing"
"time"
"unsafe"
"github.com/golang/protobuf/proto"
pb "github.com/mailgun/groupcache/v2/groupcachepb"
"github.com/mailgun/groupcache/v2/testpb"
"github.com/stretchr/testify/assert"
)
var (
once sync.Once
stringGroup, protoGroup, expireGroup Getter
stringc = make(chan string)
dummyCtx context.Context
// cacheFills is the number of times stringGroup or
// protoGroup's Getter have been called. Read using the
// cacheFills function.
cacheFills AtomicInt
)
const (
stringGroupName = "string-group"
protoGroupName = "proto-group"
expireGroupName = "expire-group"
testMessageType = "google3/net/groupcache/go/test_proto.TestMessage"
fromChan = "from-chan"
cacheSize = 1 << 20
)
func testSetup() {
stringGroup = NewGroup(stringGroupName, cacheSize, GetterFunc(func(_ context.Context, key string, dest Sink) error {
if key == fromChan {
key = <-stringc
}
cacheFills.Add(1)
return dest.SetString("ECHO:"+key, time.Time{})
}))
protoGroup = NewGroup(protoGroupName, cacheSize, GetterFunc(func(_ context.Context, key string, dest Sink) error {
if key == fromChan {
key = <-stringc
}
cacheFills.Add(1)
return dest.SetProto(&testpb.TestMessage{
Name: proto.String("ECHO:" + key),
City: proto.String("SOME-CITY"),
}, time.Time{})
}))
expireGroup = NewGroup(expireGroupName, cacheSize, GetterFunc(func(_ context.Context, key string, dest Sink) error {
cacheFills.Add(1)
return dest.SetString("ECHO:"+key, time.Now().Add(time.Millisecond*100))
}))
}
// tests that a Getter's Get method is only called once with two
// outstanding callers. This is the string variant.
func TestGetDupSuppressString(t *testing.T) {
once.Do(testSetup)
// Start two getters. The first should block (waiting reading
// from stringc) and the second should latch on to the first
// one.
resc := make(chan string, 2)
for i := 0; i < 2; i++ {
go func() {
var s string
if err := stringGroup.Get(dummyCtx, fromChan, StringSink(&s)); err != nil {
resc <- "ERROR:" + err.Error()
return
}
resc <- s
}()
}
// Wait a bit so both goroutines get merged together via
// singleflight.
// TODO(bradfitz): decide whether there are any non-offensive
// debug/test hooks that could be added to singleflight to
// make a sleep here unnecessary.
time.Sleep(250 * time.Millisecond)
// Unblock the first getter, which should unblock the second
// as well.
stringc <- "foo"
for i := 0; i < 2; i++ {
select {
case v := <-resc:
if v != "ECHO:foo" {
t.Errorf("got %q; want %q", v, "ECHO:foo")
}
case <-time.After(5 * time.Second):
t.Errorf("timeout waiting on getter #%d of 2", i+1)
}
}
}
// tests that a Getter's Get method is only called once with two
// outstanding callers. This is the proto variant.
func TestGetDupSuppressProto(t *testing.T) {
once.Do(testSetup)
// Start two getters. The first should block (waiting reading
// from stringc) and the second should latch on to the first
// one.
resc := make(chan *testpb.TestMessage, 2)
for i := 0; i < 2; i++ {
go func() {
tm := new(testpb.TestMessage)
if err := protoGroup.Get(dummyCtx, fromChan, ProtoSink(tm)); err != nil {
tm.Name = proto.String("ERROR:" + err.Error())
}
resc <- tm
}()
}
// Wait a bit so both goroutines get merged together via
// singleflight.
// TODO(bradfitz): decide whether there are any non-offensive
// debug/test hooks that could be added to singleflight to
// make a sleep here unnecessary.
time.Sleep(250 * time.Millisecond)
// Unblock the first getter, which should unblock the second
// as well.
stringc <- "Fluffy"
want := &testpb.TestMessage{
Name: proto.String("ECHO:Fluffy"),
City: proto.String("SOME-CITY"),
}
for i := 0; i < 2; i++ {
select {
case v := <-resc:
if !reflect.DeepEqual(v, want) {
t.Errorf(" Got: %v\nWant: %v", proto.CompactTextString(v), proto.CompactTextString(want))
}
case <-time.After(5 * time.Second):
t.Errorf("timeout waiting on getter #%d of 2", i+1)
}
}
}
func countFills(f func()) int64 {
fills0 := cacheFills.Get()
f()
return cacheFills.Get() - fills0
}
func TestCaching(t *testing.T) {
once.Do(testSetup)
fills := countFills(func() {
for i := 0; i < 10; i++ {
var s string
if err := stringGroup.Get(dummyCtx, "TestCaching-key", StringSink(&s)); err != nil {
t.Fatal(err)
}
}
})
if fills != 1 {
t.Errorf("expected 1 cache fill; got %d", fills)
}
}
func TestCachingExpire(t *testing.T) {
once.Do(testSetup)
fills := countFills(func() {
for i := 0; i < 3; i++ {
var s string
if err := expireGroup.Get(dummyCtx, "TestCachingExpire-key", StringSink(&s)); err != nil {
t.Fatal(err)
}
if i == 1 {
time.Sleep(time.Millisecond * 150)
}
}
})
if fills != 2 {
t.Errorf("expected 2 cache fill; got %d", fills)
}
}
func TestCacheEviction(t *testing.T) {
once.Do(testSetup)
testKey := "TestCacheEviction-key"
getTestKey := func() {
var res string
for i := 0; i < 10; i++ {
if err := stringGroup.Get(dummyCtx, testKey, StringSink(&res)); err != nil {
t.Fatal(err)
}
}
}
fills := countFills(getTestKey)
if fills != 1 {
t.Fatalf("expected 1 cache fill; got %d", fills)
}
g := stringGroup.(*Group)
evict0 := g.mainCache.nevict
// Trash the cache with other keys.
var bytesFlooded int64
// cacheSize/len(testKey) is approximate
for bytesFlooded < cacheSize+1024 {
var res string
key := fmt.Sprintf("dummy-key-%d", bytesFlooded)
stringGroup.Get(dummyCtx, key, StringSink(&res))
bytesFlooded += int64(len(key) + len(res))
}
evicts := g.mainCache.nevict - evict0
if evicts <= 0 {
t.Errorf("evicts = %v; want more than 0", evicts)
}
// Test that the key is gone.
fills = countFills(getTestKey)
if fills != 1 {
t.Fatalf("expected 1 cache fill after cache trashing; got %d", fills)
}
}
type fakePeer struct {
hits int
fail bool
}
func (p *fakePeer) Get(_ context.Context, in *pb.GetRequest, out *pb.GetResponse) error {
p.hits++
if p.fail {
return errors.New("simulated error from peer")
}
out.Value = []byte("got:" + in.GetKey())
return nil
}
func (p *fakePeer) Set(_ context.Context, in *pb.SetRequest) error {
p.hits++
if p.fail {
return errors.New("simulated error from peer")
}
return nil
}
func (p *fakePeer) Remove(_ context.Context, in *pb.GetRequest) error {
p.hits++
if p.fail {
return errors.New("simulated error from peer")
}
return nil
}
func (p *fakePeer) GetURL() string {
return "fakePeer"
}
type fakePeers []ProtoGetter
func (p fakePeers) PickPeer(key string) (peer ProtoGetter, ok bool) {
if len(p) == 0 {
return
}
n := crc32.Checksum([]byte(key), crc32.IEEETable) % uint32(len(p))
return p[n], p[n] != nil
}
func (p fakePeers) GetAll() []ProtoGetter {
return p
}
// tests that peers (virtual, in-process) are hit, and how much.
func TestPeers(t *testing.T) {
once.Do(testSetup)
peer0 := &fakePeer{}
peer1 := &fakePeer{}
peer2 := &fakePeer{}
peerList := fakePeers([]ProtoGetter{peer0, peer1, peer2, nil})
const cacheSize = 0 // disabled
localHits := 0
getter := func(_ context.Context, key string, dest Sink) error {
localHits++
return dest.SetString("got:"+key, time.Time{})
}
testGroup := newGroup("TestPeers-group", cacheSize, GetterFunc(getter), peerList)
run := func(name string, n int, wantSummary string) {
// Reset counters
localHits = 0
for _, p := range []*fakePeer{peer0, peer1, peer2} {
p.hits = 0
}
for i := 0; i < n; i++ {
key := fmt.Sprintf("key-%d", i)
want := "got:" + key
var got string
err := testGroup.Get(dummyCtx, key, StringSink(&got))
if err != nil {
t.Errorf("%s: error on key %q: %v", name, key, err)
continue
}
if got != want {
t.Errorf("%s: for key %q, got %q; want %q", name, key, got, want)
}
}
summary := func() string {
return fmt.Sprintf("localHits = %d, peers = %d %d %d", localHits, peer0.hits, peer1.hits, peer2.hits)
}
if got := summary(); got != wantSummary {
t.Errorf("%s: got %q; want %q", name, got, wantSummary)
}
}
resetCacheSize := func(maxBytes int64) {
g := testGroup
g.cacheBytes = maxBytes
g.mainCache = cache{}
g.hotCache = cache{}
}
// Base case; peers all up, with no problems.
resetCacheSize(1 << 20)
run("base", 200, "localHits = 49, peers = 51 49 51")
// Verify cache was hit. All localHits and peers are gone as the hotCache has
// the data we need
run("cached_base", 200, "localHits = 0, peers = 0 0 0")
resetCacheSize(0)
// With one of the peers being down.
// TODO(bradfitz): on a peer number being unavailable, the
// consistent hashing should maybe keep trying others to
// spread the load out. Currently it fails back to local
// execution if the first consistent-hash slot is unavailable.
peerList[0] = nil
run("one_peer_down", 200, "localHits = 100, peers = 0 49 51")
// Failing peer
peerList[0] = peer0
peer0.fail = true
run("peer0_failing", 200, "localHits = 100, peers = 51 49 51")
}
func TestTruncatingByteSliceTarget(t *testing.T) {
var buf [100]byte
s := buf[:]
if err := stringGroup.Get(dummyCtx, "short", TruncatingByteSliceSink(&s)); err != nil {
t.Fatal(err)
}
if want := "ECHO:short"; string(s) != want {
t.Errorf("short key got %q; want %q", s, want)
}
s = buf[:6]
if err := stringGroup.Get(dummyCtx, "truncated", TruncatingByteSliceSink(&s)); err != nil {
t.Fatal(err)
}
if want := "ECHO:t"; string(s) != want {
t.Errorf("truncated key got %q; want %q", s, want)
}
}
func TestAllocatingByteSliceTarget(t *testing.T) {
var dst []byte
sink := AllocatingByteSliceSink(&dst)
inBytes := []byte("some bytes")
sink.SetBytes(inBytes, time.Time{})
if want := "some bytes"; string(dst) != want {
t.Errorf("SetBytes resulted in %q; want %q", dst, want)
}
v, err := sink.view()
if err != nil {
t.Fatalf("view after SetBytes failed: %v", err)
}
if &inBytes[0] == &dst[0] {
t.Error("inBytes and dst share memory")
}
if &inBytes[0] == &v.b[0] {
t.Error("inBytes and view share memory")
}
if &dst[0] == &v.b[0] {
t.Error("dst and view share memory")
}
}
// orderedFlightGroup allows the caller to force the schedule of when
// orig.Do will be called. This is useful to serialize calls such
// that singleflight cannot dedup them.
type orderedFlightGroup struct {
mu sync.Mutex
stage1 chan bool
stage2 chan bool
orig flightGroup
}
func (g *orderedFlightGroup) Do(key string, fn func() (interface{}, error)) (interface{}, error) {
<-g.stage1
<-g.stage2
g.mu.Lock()
defer g.mu.Unlock()
return g.orig.Do(key, fn)
}
func (g *orderedFlightGroup) Lock(fn func()) {
fn()
}
// TestNoDedup tests invariants on the cache size when singleflight is
// unable to dedup calls.
func TestNoDedup(t *testing.T) {
const testkey = "testkey"
const testval = "testval"
g := newGroup("testgroup", 1024, GetterFunc(func(_ context.Context, key string, dest Sink) error {
return dest.SetString(testval, time.Time{})
}), nil)
orderedGroup := &orderedFlightGroup{
stage1: make(chan bool),
stage2: make(chan bool),
orig: g.loadGroup,
}
// Replace loadGroup with our wrapper so we can control when
// loadGroup.Do is entered for each concurrent request.
g.loadGroup = orderedGroup
// Issue two idential requests concurrently. Since the cache is
// empty, it will miss. Both will enter load(), but we will only
// allow one at a time to enter singleflight.Do, so the callback
// function will be called twice.
resc := make(chan string, 2)
for i := 0; i < 2; i++ {
go func() {
var s string
if err := g.Get(dummyCtx, testkey, StringSink(&s)); err != nil {
resc <- "ERROR:" + err.Error()
return
}
resc <- s
}()
}
// Ensure both goroutines have entered the Do routine. This implies
// both concurrent requests have checked the cache, found it empty,
// and called load().
orderedGroup.stage1 <- true
orderedGroup.stage1 <- true
orderedGroup.stage2 <- true
orderedGroup.stage2 <- true
for i := 0; i < 2; i++ {
if s := <-resc; s != testval {
t.Errorf("result is %s want %s", s, testval)
}
}
const wantItems = 1
if g.mainCache.items() != wantItems {
t.Errorf("mainCache has %d items, want %d", g.mainCache.items(), wantItems)
}
// If the singleflight callback doesn't double-check the cache again
// upon entry, we would increment nbytes twice but the entry would
// only be in the cache once.
const wantBytes = int64(len(testkey) + len(testval))
if g.mainCache.nbytes != wantBytes {
t.Errorf("cache has %d bytes, want %d", g.mainCache.nbytes, wantBytes)
}
}
func TestGroupStatsAlignment(t *testing.T) {
var g Group
off := unsafe.Offsetof(g.Stats)
if off%8 != 0 {
t.Fatal("Stats structure is not 8-byte aligned.")
}
}
type slowPeer struct {
fakePeer
}
func (p *slowPeer) Get(_ context.Context, in *pb.GetRequest, out *pb.GetResponse) error {
time.Sleep(time.Second)
out.Value = []byte("got:" + in.GetKey())
return nil
}
func TestContextDeadlineOnPeer(t *testing.T) {
once.Do(testSetup)
peer0 := &slowPeer{}
peer1 := &slowPeer{}
peer2 := &slowPeer{}
peerList := fakePeers([]ProtoGetter{peer0, peer1, peer2, nil})
getter := func(_ context.Context, key string, dest Sink) error {
return dest.SetString("got:"+key, time.Time{})
}
testGroup := newGroup("TestContextDeadlineOnPeer-group", cacheSize, GetterFunc(getter), peerList)
ctx, cancel := context.WithTimeout(context.Background(), time.Millisecond*300)
defer cancel()
var got string
err := testGroup.Get(ctx, "test-key", StringSink(&got))
if err != nil {
if err != context.DeadlineExceeded {
t.Errorf("expected Get to return context deadline exceeded")
}
}
}
func TestEnsureSizeReportedCorrectly(t *testing.T) {
c := &cache{}
// Add the first value
bv1 := ByteView{s: "first", e: time.Now().Add(100 * time.Second)}
c.add("key1", bv1)
v, ok := c.get("key1")
// Should be len("key1" + "first") == 9
assert.True(t, ok)
assert.True(t, v.Equal(bv1))
assert.Equal(t, int64(9), c.bytes())
// Add a second value
bv2 := ByteView{s: "second", e: time.Now().Add(200 * time.Second)}
c.add("key2", bv2)
v, ok = c.get("key2")
// Should be len("key2" + "second") == (10 + 9) == 19
assert.True(t, ok)
assert.True(t, v.Equal(bv2))
assert.Equal(t, int64(19), c.bytes())
// Replace the first value with a shorter value
bv3 := ByteView{s: "3", e: time.Now().Add(200 * time.Second)}
c.add("key1", bv3)
v, ok = c.get("key1")
// len("key1" + "3") == 5
// len("key2" + "second") == 10
assert.True(t, ok)
assert.True(t, v.Equal(bv3))
assert.Equal(t, int64(15), c.bytes())
// Replace the second value with a longer value
bv4 := ByteView{s: "this-string-is-28-chars-long", e: time.Now().Add(200 * time.Second)}
c.add("key2", bv4)
v, ok = c.get("key2")
// len("key1" + "3") == 5
// len("key2" + "this-string-is-28-chars-long") == 32
assert.True(t, ok)
assert.True(t, v.Equal(bv4))
assert.Equal(t, int64(37), c.bytes())
}
func TestEnsureUpdateExpiredValue(t *testing.T) {
c := &cache{}
curTime := time.Now()
// Override the now function so we control time
NowFunc = func() time.Time {
return curTime
}
// Expires in 1 second
c.add("key1", ByteView{s: "value1", e: curTime.Add(time.Second)})
_, ok := c.get("key1")
assert.True(t, ok)
// Advance 1.1 seconds into the future
curTime = curTime.Add(time.Millisecond * 1100)
// Value should have expired
_, ok = c.get("key1")
assert.False(t, ok)
// Add a new key that expires in 1 second
c.add("key2", ByteView{s: "value2", e: curTime.Add(time.Second)})
_, ok = c.get("key2")
assert.True(t, ok)
// Advance 0.5 seconds into the future
curTime = curTime.Add(time.Millisecond * 500)
// Value should still exist
_, ok = c.get("key2")
assert.True(t, ok)
// Replace the existing key, this should update the expired time
c.add("key2", ByteView{s: "updated value2", e: curTime.Add(time.Second)})
_, ok = c.get("key2")
assert.True(t, ok)
// Advance 0.6 seconds into the future, which puts us past the initial
// expired time for key2.
curTime = curTime.Add(time.Millisecond * 600)
// Should still exist
_, ok = c.get("key2")
assert.True(t, ok)
// Advance 1.1 seconds into the future
curTime = curTime.Add(time.Millisecond * 1100)
// Should not exist
_, ok = c.get("key2")
assert.False(t, ok)
}