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asynq/internal/rdb/rdb_test.go

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// Copyright 2020 Kentaro Hibino. All rights reserved.
// Use of this source code is governed by a MIT license
// that can be found in the LICENSE file.
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package rdb
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import (
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"context"
"encoding/json"
"flag"
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"math"
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"strconv"
"strings"
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"sync"
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"testing"
"time"
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"github.com/go-redis/redis/v8"
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"github.com/google/go-cmp/cmp"
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"github.com/google/go-cmp/cmp/cmpopts"
"github.com/google/uuid"
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"github.com/hibiken/asynq/internal/base"
"github.com/hibiken/asynq/internal/errors"
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h "github.com/hibiken/asynq/internal/testutil"
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"github.com/hibiken/asynq/internal/timeutil"
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)
// variables used for package testing.
var (
redisAddr string
redisDB int
useRedisCluster bool
redisClusterAddrs string // comma-separated list of host:port
)
func init() {
flag.StringVar(&redisAddr, "redis_addr", "localhost:6379", "redis address to use in testing")
flag.IntVar(&redisDB, "redis_db", 15, "redis db number to use in testing")
flag.BoolVar(&useRedisCluster, "redis_cluster", false, "use redis cluster as a broker in testing")
flag.StringVar(&redisClusterAddrs, "redis_cluster_addrs", "localhost:7000,localhost:7001,localhost:7002", "comma separated list of redis server addresses")
}
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func setup(tb testing.TB) (r *RDB) {
tb.Helper()
if useRedisCluster {
addrs := strings.Split(redisClusterAddrs, ",")
if len(addrs) == 0 {
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tb.Fatal("No redis cluster addresses provided. Please set addresses using --redis_cluster_addrs flag.")
}
r = NewRDB(redis.NewClusterClient(&redis.ClusterOptions{
Addrs: addrs,
}))
} else {
r = NewRDB(redis.NewClient(&redis.Options{
Addr: redisAddr,
DB: redisDB,
}))
}
// Start each test with a clean slate.
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h.FlushDB(tb, r.client)
return r
}
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func TestEnqueue(t *testing.T) {
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r := setup(t)
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defer r.Close()
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t1 := h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"to": "exampleuser@gmail.com", "from": "noreply@example.com"}))
t2 := h.NewTaskMessageWithQueue("generate_csv", h.JSON(map[string]interface{}{}), "csv")
t3 := h.NewTaskMessageWithQueue("sync", nil, "low")
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enqueueTime := time.Now()
r.SetClock(timeutil.NewSimulatedClock(enqueueTime))
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tests := []struct {
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msg *base.TaskMessage
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}{
{t1},
{t2},
{t3},
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}
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for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
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err := r.Enqueue(context.Background(), tc.msg)
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if err != nil {
t.Errorf("(*RDB).Enqueue(msg) = %v, want nil", err)
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continue
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}
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// Check Pending list has task ID.
pendingKey := base.PendingKey(tc.msg.Queue)
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pendingIDs := r.client.LRange(context.Background(), pendingKey, 0, -1).Val()
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if n := len(pendingIDs); n != 1 {
t.Errorf("Redis LIST %q contains %d IDs, want 1", pendingKey, n)
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continue
}
if pendingIDs[0] != tc.msg.ID {
t.Errorf("Redis LIST %q: got %v, want %v", pendingKey, pendingIDs, []string{tc.msg.ID})
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continue
}
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// Check the value under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
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encoded := r.client.HGet(context.Background(), taskKey, "msg").Val() // "msg" field
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decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s", decoded, tc.msg, diff)
}
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state := r.client.HGet(context.Background(), taskKey, "state").Val() // "state" field
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if state != "pending" {
t.Errorf("state field under task-key is set to %q, want %q", state, "pending")
}
pendingSince := r.client.HGet(context.Background(), taskKey, "pending_since").Val() // "pending_since" field
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if want := strconv.Itoa(int(enqueueTime.UnixNano())); pendingSince != want {
t.Errorf("pending_since field under task-key is set to %v, want %v", pendingSince, want)
}
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// Check queue is in the AllQueues set.
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if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
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}
}
func TestEnqueueTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
}
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
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if err := r.Enqueue(context.Background(), tc.firstMsg); err != nil {
t.Errorf("First message: Enqueue failed: %v", err)
continue
}
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if err := r.Enqueue(context.Background(), tc.secondMsg); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: Enqueue returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
func TestEnqueueUnique(t *testing.T) {
r := setup(t)
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defer r.Close()
m1 := base.TaskMessage{
ID: uuid.NewString(),
Type: "email",
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Payload: h.JSON(map[string]interface{}{"user_id": json.Number("123")}),
Queue: base.DefaultQueueName,
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UniqueKey: base.UniqueKey(base.DefaultQueueName, "email", h.JSON(map[string]interface{}{"user_id": 123})),
}
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enqueueTime := time.Now()
r.SetClock(timeutil.NewSimulatedClock(enqueueTime))
tests := []struct {
msg *base.TaskMessage
ttl time.Duration // uniqueness ttl
}{
{&m1, time.Minute},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
// Enqueue the first message, should succeed.
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err := r.EnqueueUnique(context.Background(), tc.msg, tc.ttl)
if err != nil {
t.Errorf("First message: (*RDB).EnqueueUnique(%v, %v) = %v, want nil",
tc.msg, tc.ttl, err)
continue
}
gotPending := h.GetPendingMessages(t, r.client, tc.msg.Queue)
if len(gotPending) != 1 {
t.Errorf("%q has length %d, want 1", base.PendingKey(tc.msg.Queue), len(gotPending))
continue
}
if diff := cmp.Diff(tc.msg, gotPending[0]); diff != "" {
t.Errorf("persisted data differed from the original input (-want, +got)\n%s", diff)
}
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if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
// Check Pending list has task ID.
pendingKey := base.PendingKey(tc.msg.Queue)
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pendingIDs := r.client.LRange(context.Background(), pendingKey, 0, -1).Val()
if len(pendingIDs) != 1 {
t.Errorf("Redis LIST %q contains %d IDs, want 1", pendingKey, len(pendingIDs))
continue
}
if pendingIDs[0] != tc.msg.ID {
t.Errorf("Redis LIST %q: got %v, want %v", pendingKey, pendingIDs, []string{tc.msg.ID})
continue
}
// Check the value under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
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encoded := r.client.HGet(context.Background(), taskKey, "msg").Val() // "msg" field
decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s", decoded, tc.msg, diff)
}
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state := r.client.HGet(context.Background(), taskKey, "state").Val() // "state" field
if state != "pending" {
t.Errorf("state field under task-key is set to %q, want %q", state, "pending")
}
pendingSince := r.client.HGet(context.Background(), taskKey, "pending_since").Val() // "pending_since" field
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if want := strconv.Itoa(int(enqueueTime.UnixNano())); pendingSince != want {
t.Errorf("pending_since field under task-key is set to %v, want %v", pendingSince, want)
}
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uniqueKey := r.client.HGet(context.Background(), taskKey, "unique_key").Val() // "unique_key" field
if uniqueKey != tc.msg.UniqueKey {
t.Errorf("uniqueue_key field under task key is set to %q, want %q", uniqueKey, tc.msg.UniqueKey)
}
// Check queue is in the AllQueues set.
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if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
// Enqueue the second message, should fail.
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got := r.EnqueueUnique(context.Background(), tc.msg, tc.ttl)
if !errors.Is(got, errors.ErrDuplicateTask) {
t.Errorf("Second message: (*RDB).EnqueueUnique(msg, ttl) = %v, want %v", got, errors.ErrDuplicateTask)
continue
}
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gotTTL := r.client.TTL(context.Background(), tc.msg.UniqueKey).Val()
if !cmp.Equal(tc.ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 2)) {
t.Errorf("TTL %q = %v, want %v", tc.msg.UniqueKey, gotTTL, tc.ttl)
continue
}
}
}
func TestEnqueueUniqueTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
UniqueKey: "unique_key_one",
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
UniqueKey: "unique_key_two",
}
const ttl = 30 * time.Second
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
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if err := r.EnqueueUnique(context.Background(), tc.firstMsg, ttl); err != nil {
t.Errorf("First message: EnqueueUnique failed: %v", err)
continue
}
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if err := r.EnqueueUnique(context.Background(), tc.secondMsg, ttl); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: EnqueueUnique returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
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func TestDequeue(t *testing.T) {
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r := setup(t)
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defer r.Close()
now := time.Now()
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r.SetClock(timeutil.NewSimulatedClock(now))
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
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Payload: h.JSON(map[string]interface{}{"subject": "hello!"}),
Queue: "default",
Timeout: 1800,
Deadline: 0,
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "export_csv",
Payload: nil,
Queue: "critical",
Timeout: 0,
Deadline: 1593021600,
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Queue: "low",
Timeout: int64((5 * time.Minute).Seconds()),
Deadline: time.Now().Add(10 * time.Minute).Unix(),
}
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tests := []struct {
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pending map[string][]*base.TaskMessage
qnames []string // list of queues to query
wantMsg *base.TaskMessage
wantExpirationTime time.Time
wantPending map[string][]*base.TaskMessage
wantActive map[string][]*base.TaskMessage
wantLease map[string][]base.Z
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}{
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{
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pending: map[string][]*base.TaskMessage{
"default": {t1},
},
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qnames: []string{"default"},
wantMsg: t1,
wantExpirationTime: now.Add(LeaseDuration),
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wantPending: map[string][]*base.TaskMessage{
"default": {},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {t1},
},
wantLease: map[string][]base.Z{
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"default": {{Message: t1, Score: now.Add(LeaseDuration).Unix()}},
},
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},
{
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pending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {t2},
"low": {t3},
},
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qnames: []string{"critical", "default", "low"},
wantMsg: t2,
wantExpirationTime: now.Add(LeaseDuration),
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wantPending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {},
"low": {t3},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
"critical": {t2},
"low": {},
},
wantLease: map[string][]base.Z{
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"default": {},
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"critical": {{Message: t2, Score: now.Add(LeaseDuration).Unix()}},
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"low": {},
},
},
{
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pending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {},
"low": {t3},
},
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qnames: []string{"critical", "default", "low"},
wantMsg: t1,
wantExpirationTime: now.Add(LeaseDuration),
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wantPending: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {t3},
},
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wantActive: map[string][]*base.TaskMessage{
"default": {t1},
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"critical": {},
"low": {},
},
wantLease: map[string][]base.Z{
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"default": {{Message: t1, Score: now.Add(LeaseDuration).Unix()}},
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"critical": {},
"low": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllPendingQueues(t, r.client, tc.pending)
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gotMsg, gotExpirationTime, err := r.Dequeue(tc.qnames...)
if err != nil {
t.Errorf("(*RDB).Dequeue(%v) returned error %v", tc.qnames, err)
continue
}
if !cmp.Equal(gotMsg, tc.wantMsg) {
t.Errorf("(*RDB).Dequeue(%v) returned message %v; want %v",
tc.qnames, gotMsg, tc.wantMsg)
continue
}
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if gotExpirationTime != tc.wantExpirationTime {
t.Errorf("(*RDB).Dequeue(%v) returned expiration time %v, want %v",
tc.qnames, gotExpirationTime, tc.wantExpirationTime)
}
for queue, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.PendingKey(queue), diff)
}
}
for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.ActiveKey(queue), diff)
}
}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.LeaseKey(queue), diff)
}
}
}
}
func TestDequeueError(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
pending map[string][]*base.TaskMessage
qnames []string // list of queues to query
wantErr error
wantPending map[string][]*base.TaskMessage
wantActive map[string][]*base.TaskMessage
wantLease map[string][]base.Z
}{
{
pending: map[string][]*base.TaskMessage{
"default": {},
},
qnames: []string{"default"},
wantErr: errors.ErrNoProcessableTask,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantLease: map[string][]base.Z{
"default": {},
},
},
{
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pending: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
qnames: []string{"critical", "default", "low"},
wantErr: errors.ErrNoProcessableTask,
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wantPending: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
"critical": {},
"low": {},
},
wantLease: map[string][]base.Z{
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"default": {},
"critical": {},
"low": {},
},
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},
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}
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for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
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h.SeedAllPendingQueues(t, r.client, tc.pending)
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gotMsg, _, gotErr := r.Dequeue(tc.qnames...)
if !errors.Is(gotErr, tc.wantErr) {
t.Errorf("(*RDB).Dequeue(%v) returned error %v; want %v",
tc.qnames, gotErr, tc.wantErr)
continue
}
if gotMsg != nil {
t.Errorf("(*RDB).Dequeue(%v) returned message %v; want nil", tc.qnames, gotMsg)
continue
}
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for queue, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.PendingKey(queue), diff)
}
}
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for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.ActiveKey(queue), diff)
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}
}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.LeaseKey(queue), diff)
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}
}
}
}
func TestDequeueIgnoresPausedQueues(t *testing.T) {
r := setup(t)
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defer r.Close()
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t1 := &base.TaskMessage{
ID: uuid.NewString(),
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Type: "send_email",
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Payload: h.JSON(map[string]interface{}{"subject": "hello!"}),
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Queue: "default",
Timeout: 1800,
Deadline: 0,
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
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Type: "export_csv",
Payload: nil,
Queue: "critical",
Timeout: 1800,
Deadline: 0,
}
tests := []struct {
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paused []string // list of paused queues
pending map[string][]*base.TaskMessage
qnames []string // list of queues to query
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wantMsg *base.TaskMessage
wantErr error
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wantPending map[string][]*base.TaskMessage
wantActive map[string][]*base.TaskMessage
}{
{
paused: []string{"default"},
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pending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {t2},
},
qnames: []string{"default", "critical"},
wantMsg: t2,
wantErr: nil,
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wantPending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
"critical": {t2},
},
},
{
paused: []string{"default"},
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pending: map[string][]*base.TaskMessage{
"default": {t1},
},
qnames: []string{"default"},
wantMsg: nil,
wantErr: errors.ErrNoProcessableTask,
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wantPending: map[string][]*base.TaskMessage{
"default": {t1},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
},
},
{
paused: []string{"critical", "default"},
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pending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {t2},
},
qnames: []string{"default", "critical"},
wantMsg: nil,
wantErr: errors.ErrNoProcessableTask,
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wantPending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {t2},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
"critical": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
for _, qname := range tc.paused {
if err := r.Pause(qname); err != nil {
t.Fatal(err)
}
}
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h.SeedAllPendingQueues(t, r.client, tc.pending)
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got, _, err := r.Dequeue(tc.qnames...)
if !cmp.Equal(got, tc.wantMsg) || !errors.Is(err, tc.wantErr) {
t.Errorf("Dequeue(%v) = %v, %v; want %v, %v",
tc.qnames, got, err, tc.wantMsg, tc.wantErr)
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continue
}
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for queue, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.PendingKey(queue), diff)
}
}
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for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want,+got):\n%s", base.ActiveKey(queue), diff)
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}
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}
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}
}
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func TestDone(t *testing.T) {
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r := setup(t)
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defer r.Close()
now := time.Now()
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: nil,
Timeout: 1800,
Deadline: 0,
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Queue: "default",
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "export_csv",
Payload: nil,
Timeout: 0,
Deadline: 1592485787,
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Queue: "custom",
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Timeout: 1800,
Deadline: 0,
UniqueKey: "asynq:{default}:unique:b0804ec967f48520697662a204f5fe72",
Queue: "default",
}
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tests := []struct {
desc string
active map[string][]*base.TaskMessage // initial state of the active list
lease map[string][]base.Z // initial state of the lease set
target *base.TaskMessage // task to remove
wantActive map[string][]*base.TaskMessage // final state of the active list
wantLease map[string][]base.Z // final state of the lease set
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}{
{
desc: "removes message from the correct queue",
active: map[string][]*base.TaskMessage{
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"default": {t1},
"custom": {t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
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},
target: t1,
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wantActive: map[string][]*base.TaskMessage{
"default": {},
"custom": {t2},
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},
wantLease: map[string][]base.Z{
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"default": {},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
},
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},
{
desc: "with one queue",
active: map[string][]*base.TaskMessage{
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"default": {t1},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
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},
target: t1,
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
},
wantLease: map[string][]base.Z{
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"default": {},
},
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},
{
desc: "with multiple messages in a queue",
active: map[string][]*base.TaskMessage{
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"default": {t1, t3},
"custom": {t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(15 * time.Second).Unix()}, {Message: t3, Score: now.Add(10 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
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},
target: t3,
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wantActive: map[string][]*base.TaskMessage{
"default": {t1},
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"custom": {t2},
},
wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(15 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
},
},
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}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllLease(t, r.client, tc.lease)
h.SeedAllActiveQueues(t, r.client, tc.active)
for _, msgs := range tc.active {
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for _, msg := range msgs {
// Set uniqueness lock if unique key is present.
if len(msg.UniqueKey) > 0 {
err := r.client.SetNX(context.Background(), msg.UniqueKey, msg.ID, time.Minute).Err()
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if err != nil {
t.Fatal(err)
}
}
}
}
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err := r.Done(context.Background(), tc.target)
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if err != nil {
t.Errorf("%s; (*RDB).Done(task) = %v, want nil", tc.desc, err)
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continue
}
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for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q: (-want, +got):\n%s", tc.desc, base.ActiveKey(queue), diff)
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continue
}
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}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s; mismatch found in %q: (-want, +got):\n%s", tc.desc, base.LeaseKey(queue), diff)
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continue
}
}
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processedKey := base.ProcessedKey(tc.target.Queue, time.Now())
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gotProcessed := r.client.Get(context.Background(), processedKey).Val()
if gotProcessed != "1" {
t.Errorf("%s; GET %q = %q, want 1", tc.desc, processedKey, gotProcessed)
}
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gotTTL := r.client.TTL(context.Background(), processedKey).Val()
if gotTTL > statsTTL {
t.Errorf("%s; TTL %q = %v, want less than or equal to %v", tc.desc, processedKey, gotTTL, statsTTL)
}
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processedTotalKey := base.ProcessedTotalKey(tc.target.Queue)
gotProcessedTotal := r.client.Get(context.Background(), processedTotalKey).Val()
if gotProcessedTotal != "1" {
t.Errorf("%s; GET %q = %q, want 1", tc.desc, processedTotalKey, gotProcessedTotal)
}
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if len(tc.target.UniqueKey) > 0 && r.client.Exists(context.Background(), tc.target.UniqueKey).Val() != 0 {
t.Errorf("%s; Uniqueness lock %q still exists", tc.desc, tc.target.UniqueKey)
}
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}
}
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// Make sure that processed_total counter wraps to 1 when reaching int64 max value.
func TestDoneWithMaxCounter(t *testing.T) {
r := setup(t)
defer r.Close()
msg := &base.TaskMessage{
ID: uuid.NewString(),
Type: "foo",
Payload: nil,
Timeout: 1800,
Deadline: 0,
Queue: "default",
}
z := base.Z{
Message: msg,
Score: time.Now().Add(15 * time.Second).Unix(),
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}
h.SeedLease(t, r.client, []base.Z{z}, msg.Queue)
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h.SeedActiveQueue(t, r.client, []*base.TaskMessage{msg}, msg.Queue)
processedTotalKey := base.ProcessedTotalKey(msg.Queue)
ctx := context.Background()
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if err := r.client.Set(ctx, processedTotalKey, math.MaxInt64, 0).Err(); err != nil {
t.Fatalf("Redis command failed: SET %q %v", processedTotalKey, math.MaxInt64)
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}
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if err := r.Done(context.Background(), msg); err != nil {
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t.Fatalf("RDB.Done failed: %v", err)
}
gotProcessedTotal := r.client.Get(ctx, processedTotalKey).Val()
if gotProcessedTotal != "1" {
t.Errorf("GET %q = %v, want 1", processedTotalKey, gotProcessedTotal)
}
}
func TestMarkAsComplete(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: nil,
Timeout: 1800,
Deadline: 0,
Queue: "default",
Retention: 3600,
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "export_csv",
Payload: nil,
Timeout: 0,
Deadline: now.Add(2 * time.Hour).Unix(),
Queue: "custom",
Retention: 7200,
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Timeout: 1800,
Deadline: 0,
UniqueKey: "asynq:{default}:unique:b0804ec967f48520697662a204f5fe72",
Queue: "default",
Retention: 1800,
}
tests := []struct {
desc string
active map[string][]*base.TaskMessage // initial state of the active list
lease map[string][]base.Z // initial state of the lease set
completed map[string][]base.Z // initial state of the completed set
target *base.TaskMessage // task to mark as completed
wantActive map[string][]*base.TaskMessage // final state of the active list
wantLease map[string][]base.Z // final state of the lease set
wantCompleted map[string][]base.Z // final state of the completed set
}{
{
desc: "select a message from the correct queue",
active: map[string][]*base.TaskMessage{
"default": {t1},
"custom": {t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(30 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
},
completed: map[string][]base.Z{
"default": {},
"custom": {},
},
target: t1,
wantActive: map[string][]*base.TaskMessage{
"default": {},
"custom": {t2},
},
wantLease: map[string][]base.Z{
"default": {},
"custom": {{Message: t2, Score: now.Add(20 * time.Second).Unix()}},
},
wantCompleted: map[string][]base.Z{
"default": {{Message: h.TaskMessageWithCompletedAt(*t1, now), Score: now.Unix() + t1.Retention}},
"custom": {},
},
},
{
desc: "with one queue",
active: map[string][]*base.TaskMessage{
"default": {t1},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
},
completed: map[string][]base.Z{
"default": {},
},
target: t1,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantLease: map[string][]base.Z{
"default": {},
},
wantCompleted: map[string][]base.Z{
"default": {{Message: h.TaskMessageWithCompletedAt(*t1, now), Score: now.Unix() + t1.Retention}},
},
},
{
desc: "with multiple messages in a queue",
active: map[string][]*base.TaskMessage{
"default": {t1, t3},
"custom": {t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t3, Score: now.Add(12 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(12 * time.Second).Unix()}},
},
completed: map[string][]base.Z{
"default": {},
"custom": {},
},
target: t3,
wantActive: map[string][]*base.TaskMessage{
"default": {t1},
"custom": {t2},
},
wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
"custom": {{Message: t2, Score: now.Add(12 * time.Second).Unix()}},
},
wantCompleted: map[string][]base.Z{
"default": {{Message: h.TaskMessageWithCompletedAt(*t3, now), Score: now.Unix() + t3.Retention}},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllLease(t, r.client, tc.lease)
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllCompletedQueues(t, r.client, tc.completed)
for _, msgs := range tc.active {
for _, msg := range msgs {
// Set uniqueness lock if unique key is present.
if len(msg.UniqueKey) > 0 {
err := r.client.SetNX(context.Background(), msg.UniqueKey, msg.ID, time.Minute).Err()
if err != nil {
t.Fatal(err)
}
}
}
}
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err := r.MarkAsComplete(context.Background(), tc.target)
if err != nil {
t.Errorf("%s; (*RDB).MarkAsCompleted(task) = %v, want nil", tc.desc, err)
continue
}
for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q: (-want, +got):\n%s", tc.desc, base.ActiveKey(queue), diff)
continue
}
}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s; mismatch found in %q: (-want, +got):\n%s", tc.desc, base.LeaseKey(queue), diff)
continue
}
}
for queue, want := range tc.wantCompleted {
gotCompleted := h.GetCompletedEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotCompleted, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s; mismatch found in %q: (-want, +got):\n%s", tc.desc, base.CompletedKey(queue), diff)
continue
}
}
processedKey := base.ProcessedKey(tc.target.Queue, time.Now())
gotProcessed := r.client.Get(context.Background(), processedKey).Val()
if gotProcessed != "1" {
t.Errorf("%s; GET %q = %q, want 1", tc.desc, processedKey, gotProcessed)
}
gotTTL := r.client.TTL(context.Background(), processedKey).Val()
if gotTTL > statsTTL {
t.Errorf("%s; TTL %q = %v, want less than or equal to %v", tc.desc, processedKey, gotTTL, statsTTL)
}
if len(tc.target.UniqueKey) > 0 && r.client.Exists(context.Background(), tc.target.UniqueKey).Val() != 0 {
t.Errorf("%s; Uniqueness lock %q still exists", tc.desc, tc.target.UniqueKey)
}
}
}
func TestRequeue(t *testing.T) {
r := setup(t)
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defer r.Close()
now := time.Now()
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: nil,
Queue: "default",
Timeout: 1800,
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "export_csv",
Payload: nil,
Queue: "default",
Timeout: 3000,
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: nil,
Queue: "critical",
Timeout: 80,
}
tests := []struct {
pending map[string][]*base.TaskMessage // initial state of queues
active map[string][]*base.TaskMessage // initial state of the active list
lease map[string][]base.Z // initial state of the lease set
target *base.TaskMessage // task to requeue
wantPending map[string][]*base.TaskMessage // final state of queues
wantActive map[string][]*base.TaskMessage // final state of the active list
wantLease map[string][]base.Z // final state of the lease set
}{
{
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pending: map[string][]*base.TaskMessage{
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"default": {},
},
active: map[string][]*base.TaskMessage{
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"default": {t1, t2},
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},
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
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},
},
target: t1,
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wantPending: map[string][]*base.TaskMessage{
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"default": {t1},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {t2},
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},
wantLease: map[string][]base.Z{
"default": {
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
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},
},
},
{
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pending: map[string][]*base.TaskMessage{
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"default": {t1},
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},
active: map[string][]*base.TaskMessage{
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"default": {t2},
},
lease: map[string][]base.Z{
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"default": {
{Message: t2, Score: now.Add(20 * time.Second).Unix()},
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},
},
target: t2,
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wantPending: map[string][]*base.TaskMessage{
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"default": {t1, t2},
},
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wantActive: map[string][]*base.TaskMessage{
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"default": {},
},
wantLease: map[string][]base.Z{
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"default": {},
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},
},
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{
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pending: map[string][]*base.TaskMessage{
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"default": {t1},
"critical": {},
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},
active: map[string][]*base.TaskMessage{
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"default": {t2},
"critical": {t3},
},
lease: map[string][]base.Z{
"default": {{Message: t2, Score: now.Add(10 * time.Second).Unix()}},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
target: t3,
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wantPending: map[string][]*base.TaskMessage{
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"default": {t1},
"critical": {t3},
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},
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wantActive: map[string][]*base.TaskMessage{
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"default": {t2},
"critical": {},
},
wantLease: map[string][]base.Z{
"default": {{Message: t2, Score: now.Add(10 * time.Second).Unix()}},
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"critical": {},
},
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},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
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h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllLease(t, r.client, tc.lease)
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err := r.Requeue(context.Background(), tc.target)
if err != nil {
t.Errorf("(*RDB).Requeue(task) = %v, want nil", err)
continue
}
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for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.PendingKey(qname), diff)
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}
}
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for qname, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want, +got):\n%s", base.ActiveKey(qname), diff)
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}
}
for qname, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want, +got):\n%s", base.LeaseKey(qname), diff)
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}
}
}
}
func TestAddToGroup(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
msg := h.NewTaskMessage("mytask", []byte("foo"))
ctx := context.Background()
tests := []struct {
msg *base.TaskMessage
groupKey string
}{
{
msg: msg,
groupKey: "mygroup",
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
err := r.AddToGroup(ctx, tc.msg, tc.groupKey)
if err != nil {
t.Errorf("r.AddToGroup(ctx, msg, %q) returned error: %v", tc.groupKey, err)
continue
}
// Check Group zset has task ID
gkey := base.GroupKey(tc.msg.Queue, tc.groupKey)
zs := r.client.ZRangeWithScores(ctx, gkey, 0, -1).Val()
if n := len(zs); n != 1 {
t.Errorf("Redis ZSET %q contains %d elements, want 1", gkey, n)
continue
}
if got := zs[0].Member.(string); got != tc.msg.ID {
t.Errorf("Redis ZSET %q member: got %v, want %v", gkey, got, tc.msg.ID)
continue
}
if got := int64(zs[0].Score); got != now.Unix() {
t.Errorf("Redis ZSET %q score: got %d, want %d", gkey, got, now.Unix())
continue
}
// Check the values under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
encoded := r.client.HGet(ctx, taskKey, "msg").Val() // "msg" field
decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s", decoded, tc.msg, diff)
}
state := r.client.HGet(ctx, taskKey, "state").Val() // "state" field
if want := "aggregating"; state != want {
t.Errorf("state field under task-key is set to %q, want %q", state, want)
}
group := r.client.HGet(ctx, taskKey, "group").Val() // "group" field
if want := tc.groupKey; group != want {
t.Errorf("group field under task-key is set to %q, want %q", group, want)
}
// Check queue is in the AllQueues set.
if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
}
}
func TestAddToGroupeTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
ctx := context.Background()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
UniqueKey: "unique_key_one",
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
UniqueKey: "unique_key_two",
}
const groupKey = "mygroup"
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
if err := r.AddToGroup(ctx, tc.firstMsg, groupKey); err != nil {
t.Errorf("First message: AddToGroup failed: %v", err)
continue
}
if err := r.AddToGroup(ctx, tc.secondMsg, groupKey); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: AddToGroup returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
func TestAddToGroupUnique(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
msg := h.NewTaskMessage("mytask", []byte("foo"))
msg.UniqueKey = base.UniqueKey(msg.Queue, msg.Type, msg.Payload)
ctx := context.Background()
tests := []struct {
msg *base.TaskMessage
groupKey string
ttl time.Duration
}{
{
msg: msg,
groupKey: "mygroup",
ttl: 30 * time.Second,
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
err := r.AddToGroupUnique(ctx, tc.msg, tc.groupKey, tc.ttl)
if err != nil {
t.Errorf("First message: r.AddToGroupUnique(ctx, msg, %q) returned error: %v", tc.groupKey, err)
continue
}
// Check Group zset has task ID
gkey := base.GroupKey(tc.msg.Queue, tc.groupKey)
zs := r.client.ZRangeWithScores(ctx, gkey, 0, -1).Val()
if n := len(zs); n != 1 {
t.Errorf("Redis ZSET %q contains %d elements, want 1", gkey, n)
continue
}
if got := zs[0].Member.(string); got != tc.msg.ID {
t.Errorf("Redis ZSET %q member: got %v, want %v", gkey, got, tc.msg.ID)
continue
}
if got := int64(zs[0].Score); got != now.Unix() {
t.Errorf("Redis ZSET %q score: got %d, want %d", gkey, got, now.Unix())
continue
}
// Check the values under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
encoded := r.client.HGet(ctx, taskKey, "msg").Val() // "msg" field
decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s", decoded, tc.msg, diff)
}
state := r.client.HGet(ctx, taskKey, "state").Val() // "state" field
if want := "aggregating"; state != want {
t.Errorf("state field under task-key is set to %q, want %q", state, want)
}
group := r.client.HGet(ctx, taskKey, "group").Val() // "group" field
if want := tc.groupKey; group != want {
t.Errorf("group field under task-key is set to %q, want %q", group, want)
}
// Check queue is in the AllQueues set.
if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
got := r.AddToGroupUnique(ctx, tc.msg, tc.groupKey, tc.ttl)
if !errors.Is(got, errors.ErrDuplicateTask) {
t.Errorf("Second message: r.AddGroupUnique(ctx, msg, %q) = %v, want %v",
tc.groupKey, got, errors.ErrDuplicateTask)
continue
}
gotTTL := r.client.TTL(ctx, tc.msg.UniqueKey).Val()
if !cmp.Equal(tc.ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 1)) {
t.Errorf("TTL %q = %v, want %v", tc.msg.UniqueKey, gotTTL, tc.ttl)
continue
}
}
}
func TestAddToGroupUniqueTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
ctx := context.Background()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
UniqueKey: "unique_key_one",
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
UniqueKey: "unique_key_two",
}
const groupKey = "mygroup"
const ttl = 30 * time.Second
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
if err := r.AddToGroupUnique(ctx, tc.firstMsg, groupKey, ttl); err != nil {
t.Errorf("First message: AddToGroupUnique failed: %v", err)
continue
}
if err := r.AddToGroupUnique(ctx, tc.secondMsg, groupKey, ttl); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: AddToGroupUnique returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
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func TestSchedule(t *testing.T) {
r := setup(t)
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defer r.Close()
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msg := h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"subject": "hello"}))
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tests := []struct {
msg *base.TaskMessage
processAt time.Time
}{
{msg, time.Now().Add(15 * time.Minute)},
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}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
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err := r.Schedule(context.Background(), tc.msg, tc.processAt)
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if err != nil {
t.Errorf("(*RDB).Schedule(%v, %v) = %v, want nil", tc.msg, tc.processAt, err)
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continue
}
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// Check Scheduled zset has task ID.
scheduledKey := base.ScheduledKey(tc.msg.Queue)
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zs := r.client.ZRangeWithScores(context.Background(), scheduledKey, 0, -1).Val()
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if n := len(zs); n != 1 {
t.Errorf("Redis ZSET %q contains %d elements, want 1", scheduledKey, n)
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continue
}
if got := zs[0].Member.(string); got != tc.msg.ID {
t.Errorf("Redis ZSET %q member: got %v, want %v", scheduledKey, got, tc.msg.ID)
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continue
}
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if got := int64(zs[0].Score); got != tc.processAt.Unix() {
t.Errorf("Redis ZSET %q score: got %d, want %d",
scheduledKey, got, tc.processAt.Unix())
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continue
}
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// Check the values under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
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encoded := r.client.HGet(context.Background(), taskKey, "msg").Val() // "msg" field
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decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s",
decoded, tc.msg, diff)
}
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state := r.client.HGet(context.Background(), taskKey, "state").Val() // "state" field
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if want := "scheduled"; state != want {
t.Errorf("state field under task-key is set to %q, want %q",
state, want)
}
// Check queue is in the AllQueues set.
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if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
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}
}
func TestScheduleTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
UniqueKey: "unique_key_one",
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
UniqueKey: "unique_key_two",
}
processAt := time.Now().Add(30 * time.Second)
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
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if err := r.Schedule(context.Background(), tc.firstMsg, processAt); err != nil {
t.Errorf("First message: Schedule failed: %v", err)
continue
}
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if err := r.Schedule(context.Background(), tc.secondMsg, processAt); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: Schedule returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
func TestScheduleUnique(t *testing.T) {
r := setup(t)
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defer r.Close()
m1 := base.TaskMessage{
ID: uuid.NewString(),
Type: "email",
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Payload: h.JSON(map[string]interface{}{"user_id": 123}),
Queue: base.DefaultQueueName,
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UniqueKey: base.UniqueKey(base.DefaultQueueName, "email", h.JSON(map[string]interface{}{"user_id": 123})),
}
tests := []struct {
msg *base.TaskMessage
processAt time.Time
ttl time.Duration // uniqueness lock ttl
}{
{&m1, time.Now().Add(15 * time.Minute), time.Minute},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
desc := "(*RDB).ScheduleUnique(msg, processAt, ttl)"
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err := r.ScheduleUnique(context.Background(), tc.msg, tc.processAt, tc.ttl)
if err != nil {
t.Errorf("First task: %s = %v, want nil", desc, err)
continue
}
// Check Scheduled zset has task ID.
scheduledKey := base.ScheduledKey(tc.msg.Queue)
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zs := r.client.ZRangeWithScores(context.Background(), scheduledKey, 0, -1).Val()
if n := len(zs); n != 1 {
t.Errorf("Redis ZSET %q contains %d elements, want 1",
scheduledKey, n)
continue
}
if got := zs[0].Member.(string); got != tc.msg.ID {
t.Errorf("Redis ZSET %q member: got %v, want %v",
scheduledKey, got, tc.msg.ID)
continue
}
if got := int64(zs[0].Score); got != tc.processAt.Unix() {
t.Errorf("Redis ZSET %q score: got %d, want %d",
scheduledKey, got, tc.processAt.Unix())
continue
}
// Check the values under the task key.
taskKey := base.TaskKey(tc.msg.Queue, tc.msg.ID)
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encoded := r.client.HGet(context.Background(), taskKey, "msg").Val() // "msg" field
decoded := h.MustUnmarshal(t, encoded)
if diff := cmp.Diff(tc.msg, decoded); diff != "" {
t.Errorf("persisted message was %v, want %v; (-want, +got)\n%s",
decoded, tc.msg, diff)
}
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state := r.client.HGet(context.Background(), taskKey, "state").Val() // "state" field
if want := "scheduled"; state != want {
t.Errorf("state field under task-key is set to %q, want %q",
state, want)
}
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uniqueKey := r.client.HGet(context.Background(), taskKey, "unique_key").Val() // "unique_key" field
if uniqueKey != tc.msg.UniqueKey {
t.Errorf("uniqueue_key field under task key is set to %q, want %q", uniqueKey, tc.msg.UniqueKey)
}
// Check queue is in the AllQueues set.
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if !r.client.SIsMember(context.Background(), base.AllQueues, tc.msg.Queue).Val() {
t.Errorf("%q is not a member of SET %q", tc.msg.Queue, base.AllQueues)
}
// Enqueue the second message, should fail.
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got := r.ScheduleUnique(context.Background(), tc.msg, tc.processAt, tc.ttl)
if !errors.Is(got, errors.ErrDuplicateTask) {
t.Errorf("Second task: %s = %v, want %v", desc, got, errors.ErrDuplicateTask)
continue
}
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gotTTL := r.client.TTL(context.Background(), tc.msg.UniqueKey).Val()
if !cmp.Equal(tc.ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 1)) {
t.Errorf("TTL %q = %v, want %v", tc.msg.UniqueKey, gotTTL, tc.ttl)
continue
}
}
}
func TestScheduleUniqueTaskIdConflictError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := base.TaskMessage{
ID: "custom_id",
Type: "foo",
Payload: nil,
UniqueKey: "unique_key_one",
}
m2 := base.TaskMessage{
ID: "custom_id",
Type: "bar",
Payload: nil,
UniqueKey: "unique_key_two",
}
const ttl = 30 * time.Second
processAt := time.Now().Add(30 * time.Second)
tests := []struct {
firstMsg *base.TaskMessage
secondMsg *base.TaskMessage
}{
{firstMsg: &m1, secondMsg: &m2},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case.
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if err := r.ScheduleUnique(context.Background(), tc.firstMsg, processAt, ttl); err != nil {
t.Errorf("First message: ScheduleUnique failed: %v", err)
continue
}
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if err := r.ScheduleUnique(context.Background(), tc.secondMsg, processAt, ttl); !errors.Is(err, errors.ErrTaskIdConflict) {
t.Errorf("Second message: ScheduleUnique returned %v, want %v", err, errors.ErrTaskIdConflict)
continue
}
}
}
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func TestRetry(t *testing.T) {
r := setup(t)
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defer r.Close()
now := time.Now()
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r.SetClock(timeutil.NewSimulatedClock(now))
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
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Payload: h.JSON(map[string]interface{}{"subject": "Hola!"}),
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Retried: 10,
Timeout: 1800,
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Queue: "default",
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "gen_thumbnail",
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Payload: h.JSON(map[string]interface{}{"path": "some/path/to/image.jpg"}),
Timeout: 3000,
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Queue: "default",
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Timeout: 60,
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Queue: "default",
}
t4 := &base.TaskMessage{
ID: uuid.NewString(),
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Type: "send_notification",
Payload: nil,
Timeout: 1800,
Queue: "custom",
}
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errMsg := "SMTP server is not responding"
tests := []struct {
active map[string][]*base.TaskMessage
lease map[string][]base.Z
retry map[string][]base.Z
msg *base.TaskMessage
processAt time.Time
errMsg string
wantActive map[string][]*base.TaskMessage
wantLease map[string][]base.Z
wantRetry map[string][]base.Z
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}{
{
active: map[string][]*base.TaskMessage{
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"default": {t1, t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(10 * time.Second).Unix()}},
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},
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retry: map[string][]base.Z{
"default": {{Message: t3, Score: now.Add(time.Minute).Unix()}},
},
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msg: t1,
processAt: now.Add(5 * time.Minute),
errMsg: errMsg,
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wantActive: map[string][]*base.TaskMessage{
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"default": {t2},
},
wantLease: map[string][]base.Z{
"default": {{Message: t2, Score: now.Add(10 * time.Second).Unix()}},
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},
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wantRetry: map[string][]base.Z{
"default": {
{Message: h.TaskMessageAfterRetry(*t1, errMsg, now), Score: now.Add(5 * time.Minute).Unix()},
{Message: t3, Score: now.Add(time.Minute).Unix()},
},
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},
},
{
active: map[string][]*base.TaskMessage{
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"default": {t1, t2},
"custom": {t4},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(20 * time.Second).Unix()}},
"custom": {{Message: t4, Score: now.Add(10 * time.Second).Unix()}},
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},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
msg: t4,
processAt: now.Add(5 * time.Minute),
errMsg: errMsg,
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wantActive: map[string][]*base.TaskMessage{
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"default": {t1, t2},
"custom": {},
},
wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(20 * time.Second).Unix()}},
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"custom": {},
},
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wantRetry: map[string][]base.Z{
"default": {},
"custom": {
{Message: h.TaskMessageAfterRetry(*t4, errMsg, now), Score: now.Add(5 * time.Minute).Unix()},
},
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},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllLease(t, r.client, tc.lease)
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h.SeedAllRetryQueues(t, r.client, tc.retry)
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err := r.Retry(context.Background(), tc.msg, tc.processAt, tc.errMsg, true /*isFailure*/)
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if err != nil {
t.Errorf("(*RDB).Retry = %v, want nil", err)
continue
}
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for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ActiveKey(queue), diff)
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}
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}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.LeaseKey(queue), diff)
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}
}
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for queue, want := range tc.wantRetry {
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gotRetry := h.GetRetryEntries(t, r.client, queue)
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if diff := cmp.Diff(want, gotRetry, h.SortZSetEntryOpt); diff != "" {
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t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.RetryKey(queue), diff)
}
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}
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processedKey := base.ProcessedKey(tc.msg.Queue, time.Now())
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gotProcessed := r.client.Get(context.Background(), processedKey).Val()
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if gotProcessed != "1" {
t.Errorf("GET %q = %q, want 1", processedKey, gotProcessed)
}
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gotTTL := r.client.TTL(context.Background(), processedKey).Val()
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if gotTTL > statsTTL {
t.Errorf("TTL %q = %v, want less than or equal to %v", processedKey, gotTTL, statsTTL)
}
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failedKey := base.FailedKey(tc.msg.Queue, time.Now())
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gotFailed := r.client.Get(context.Background(), failedKey).Val()
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if gotFailed != "1" {
t.Errorf("GET %q = %q, want 1", failedKey, gotFailed)
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}
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gotTTL = r.client.TTL(context.Background(), failedKey).Val()
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if gotTTL > statsTTL {
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t.Errorf("TTL %q = %v, want less than or equal to %v", failedKey, gotTTL, statsTTL)
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}
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processedTotalKey := base.ProcessedTotalKey(tc.msg.Queue)
gotProcessedTotal := r.client.Get(context.Background(), processedTotalKey).Val()
if gotProcessedTotal != "1" {
t.Errorf("GET %q = %q, want 1", processedTotalKey, gotProcessedTotal)
}
failedTotalKey := base.FailedTotalKey(tc.msg.Queue)
gotFailedTotal := r.client.Get(context.Background(), failedTotalKey).Val()
if gotFailedTotal != "1" {
t.Errorf("GET %q = %q, want 1", failedTotalKey, gotFailedTotal)
}
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}
}
func TestRetryWithNonFailureError(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
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r.SetClock(timeutil.NewSimulatedClock(now))
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: h.JSON(map[string]interface{}{"subject": "Hola!"}),
Retried: 10,
Timeout: 1800,
Queue: "default",
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "gen_thumbnail",
Payload: h.JSON(map[string]interface{}{"path": "some/path/to/image.jpg"}),
Timeout: 3000,
Queue: "default",
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Timeout: 60,
Queue: "default",
}
t4 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_notification",
Payload: nil,
Timeout: 1800,
Queue: "custom",
}
errMsg := "SMTP server is not responding"
tests := []struct {
active map[string][]*base.TaskMessage
lease map[string][]base.Z
retry map[string][]base.Z
msg *base.TaskMessage
processAt time.Time
errMsg string
wantActive map[string][]*base.TaskMessage
wantLease map[string][]base.Z
wantRetry map[string][]base.Z
}{
{
active: map[string][]*base.TaskMessage{
"default": {t1, t2},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(10 * time.Second).Unix()}},
},
retry: map[string][]base.Z{
"default": {{Message: t3, Score: now.Add(time.Minute).Unix()}},
},
msg: t1,
processAt: now.Add(5 * time.Minute),
errMsg: errMsg,
wantActive: map[string][]*base.TaskMessage{
"default": {t2},
},
wantLease: map[string][]base.Z{
"default": {{Message: t2, Score: now.Add(10 * time.Second).Unix()}},
},
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wantRetry: map[string][]base.Z{
"default": {
// Task message should include the error message but without incrementing the retry count.
{Message: h.TaskMessageWithError(*t1, errMsg, now), Score: now.Add(5 * time.Minute).Unix()},
{Message: t3, Score: now.Add(time.Minute).Unix()},
},
},
},
{
active: map[string][]*base.TaskMessage{
"default": {t1, t2},
"custom": {t4},
},
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(10 * time.Second).Unix()}},
"custom": {{Message: t4, Score: now.Add(10 * time.Second).Unix()}},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
msg: t4,
processAt: now.Add(5 * time.Minute),
errMsg: errMsg,
wantActive: map[string][]*base.TaskMessage{
"default": {t1, t2},
"custom": {},
},
wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(10 * time.Second).Unix()}},
"custom": {},
},
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wantRetry: map[string][]base.Z{
"default": {},
"custom": {
// Task message should include the error message but without incrementing the retry count.
{Message: h.TaskMessageWithError(*t4, errMsg, now), Score: now.Add(5 * time.Minute).Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllLease(t, r.client, tc.lease)
h.SeedAllRetryQueues(t, r.client, tc.retry)
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err := r.Retry(context.Background(), tc.msg, tc.processAt, tc.errMsg, false /*isFailure*/)
if err != nil {
t.Errorf("(*RDB).Retry = %v, want nil", err)
continue
}
for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ActiveKey(queue), diff)
}
}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.LeaseKey(queue), diff)
}
}
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for queue, want := range tc.wantRetry {
gotRetry := h.GetRetryEntries(t, r.client, queue)
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if diff := cmp.Diff(want, gotRetry, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.RetryKey(queue), diff)
}
}
// If isFailure is set to false, no stats should be recorded to avoid skewing the error rate.
processedKey := base.ProcessedKey(tc.msg.Queue, time.Now())
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gotProcessed := r.client.Get(context.Background(), processedKey).Val()
if gotProcessed != "" {
t.Errorf("GET %q = %q, want empty", processedKey, gotProcessed)
}
// If isFailure is set to false, no stats should be recorded to avoid skewing the error rate.
failedKey := base.FailedKey(tc.msg.Queue, time.Now())
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gotFailed := r.client.Get(context.Background(), failedKey).Val()
if gotFailed != "" {
t.Errorf("GET %q = %q, want empty", failedKey, gotFailed)
}
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processedTotalKey := base.ProcessedTotalKey(tc.msg.Queue)
gotProcessedTotal := r.client.Get(context.Background(), processedTotalKey).Val()
if gotProcessedTotal != "" {
t.Errorf("GET %q = %q, want empty", processedTotalKey, gotProcessedTotal)
}
failedTotalKey := base.FailedTotalKey(tc.msg.Queue)
gotFailedTotal := r.client.Get(context.Background(), failedTotalKey).Val()
if gotFailedTotal != "" {
t.Errorf("GET %q = %q, want empty", failedTotalKey, gotFailedTotal)
}
}
}
func TestArchive(t *testing.T) {
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r := setup(t)
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defer r.Close()
now := time.Now()
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r.SetClock(timeutil.NewSimulatedClock(now))
t1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "send_email",
Payload: nil,
Queue: "default",
Retry: 25,
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Retried: 25,
Timeout: 1800,
}
t2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "reindex",
Payload: nil,
Queue: "default",
Retry: 25,
Retried: 0,
Timeout: 3000,
}
t3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "generate_csv",
Payload: nil,
Queue: "default",
Retry: 25,
Retried: 0,
Timeout: 60,
}
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t4 := &base.TaskMessage{
ID: uuid.NewString(),
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Type: "send_email",
Payload: nil,
Queue: "custom",
Retry: 25,
Retried: 25,
Timeout: 1800,
}
errMsg := "SMTP server not responding"
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// TODO(hibiken): add test cases for trimming
tests := []struct {
active map[string][]*base.TaskMessage
lease map[string][]base.Z
archived map[string][]base.Z
target *base.TaskMessage // task to archive
wantActive map[string][]*base.TaskMessage
wantLease map[string][]base.Z
wantArchived map[string][]base.Z
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}{
{
active: map[string][]*base.TaskMessage{
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"default": {t1, t2},
},
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
},
},
archived: map[string][]base.Z{
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"default": {
{Message: t3, Score: now.Add(-time.Hour).Unix()},
},
},
target: t1,
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wantActive: map[string][]*base.TaskMessage{
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"default": {t2},
},
wantLease: map[string][]base.Z{
"default": {{Message: t2, Score: now.Add(10 * time.Second).Unix()}},
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},
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wantArchived: map[string][]base.Z{
"default": {
{Message: h.TaskMessageWithError(*t1, errMsg, now), Score: now.Unix()},
{Message: t3, Score: now.Add(-time.Hour).Unix()},
},
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},
},
{
active: map[string][]*base.TaskMessage{
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"default": {t1, t2, t3},
},
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
{Message: t3, Score: now.Add(10 * time.Second).Unix()},
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},
},
archived: map[string][]base.Z{
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"default": {},
},
target: t1,
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wantActive: map[string][]*base.TaskMessage{
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"default": {t2, t3},
},
wantLease: map[string][]base.Z{
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"default": {
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
{Message: t3, Score: now.Add(10 * time.Second).Unix()},
},
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},
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wantArchived: map[string][]base.Z{
"default": {
{Message: h.TaskMessageWithError(*t1, errMsg, now), Score: now.Unix()},
},
},
},
{
active: map[string][]*base.TaskMessage{
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"default": {t1},
"custom": {t4},
},
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
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},
"custom": {
{Message: t4, Score: now.Add(10 * time.Second).Unix()},
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},
},
archived: map[string][]base.Z{
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"default": {},
"custom": {},
},
target: t4,
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wantActive: map[string][]*base.TaskMessage{
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"default": {t1},
"custom": {},
},
wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
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"custom": {},
},
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wantArchived: map[string][]base.Z{
"default": {},
"custom": {
{Message: h.TaskMessageWithError(*t4, errMsg, now), Score: now.Unix()},
},
},
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},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllLease(t, r.client, tc.lease)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
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err := r.Archive(context.Background(), tc.target, errMsg)
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if err != nil {
t.Errorf("(*RDB).Archive(%v, %v) = %v, want nil", tc.target, errMsg, err)
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continue
}
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for queue, want := range tc.wantActive {
gotActive := h.GetActiveMessages(t, r.client, queue)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q: (-want, +got)\n%s", base.ActiveKey(queue), diff)
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}
}
for queue, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q after calling (*RDB).Archive: (-want, +got):\n%s", base.LeaseKey(queue), diff)
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}
}
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for queue, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, queue)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt, zScoreCmpOpt, timeCmpOpt); diff != "" {
t.Errorf("mismatch found in %q after calling (*RDB).Archive: (-want, +got):\n%s", base.ArchivedKey(queue), diff)
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}
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}
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processedKey := base.ProcessedKey(tc.target.Queue, time.Now())
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gotProcessed := r.client.Get(context.Background(), processedKey).Val()
if gotProcessed != "1" {
t.Errorf("GET %q = %q, want 1", processedKey, gotProcessed)
}
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gotTTL := r.client.TTL(context.Background(), processedKey).Val()
if gotTTL > statsTTL {
t.Errorf("TTL %q = %v, want less than or equal to %v", processedKey, gotTTL, statsTTL)
}
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failedKey := base.FailedKey(tc.target.Queue, time.Now())
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gotFailed := r.client.Get(context.Background(), failedKey).Val()
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if gotFailed != "1" {
t.Errorf("GET %q = %q, want 1", failedKey, gotFailed)
}
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gotTTL = r.client.TTL(context.Background(), processedKey).Val()
if gotTTL > statsTTL {
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t.Errorf("TTL %q = %v, want less than or equal to %v", failedKey, gotTTL, statsTTL)
}
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processedTotalKey := base.ProcessedTotalKey(tc.target.Queue)
gotProcessedTotal := r.client.Get(context.Background(), processedTotalKey).Val()
if gotProcessedTotal != "1" {
t.Errorf("GET %q = %q, want 1", processedTotalKey, gotProcessedTotal)
}
failedTotalKey := base.FailedTotalKey(tc.target.Queue)
gotFailedTotal := r.client.Get(context.Background(), failedTotalKey).Val()
if gotFailedTotal != "1" {
t.Errorf("GET %q = %q, want 1", failedTotalKey, gotFailedTotal)
}
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}
}
func TestForwardIfReadyWithGroup(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("generate_csv", nil)
t3 := h.NewTaskMessage("gen_thumbnail", nil)
t4 := h.NewTaskMessageWithQueue("important_task", nil, "critical")
t5 := h.NewTaskMessageWithQueue("minor_task", nil, "low")
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// Set group keys for the tasks.
t1.GroupKey = "notifications"
t2.GroupKey = "csv"
t4.GroupKey = "critical_task_group"
t5.GroupKey = "minor_task_group"
ctx := context.Background()
secondAgo := now.Add(-time.Second)
tests := []struct {
scheduled map[string][]base.Z
retry map[string][]base.Z
qnames []string
wantPending map[string][]*base.TaskMessage
wantScheduled map[string][]*base.TaskMessage
wantRetry map[string][]*base.TaskMessage
wantGroup map[string]map[string][]base.Z
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: secondAgo.Unix()},
{Message: t2, Score: secondAgo.Unix()},
},
},
retry: map[string][]base.Z{
"default": {{Message: t3, Score: secondAgo.Unix()}},
},
qnames: []string{"default"},
wantPending: map[string][]*base.TaskMessage{
"default": {t3},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
wantGroup: map[string]map[string][]base.Z{
"default": {
"notifications": {{Message: t1, Score: now.Unix()}},
"csv": {{Message: t2, Score: now.Unix()}},
},
},
},
{
scheduled: map[string][]base.Z{
"default": {{Message: t1, Score: secondAgo.Unix()}},
"critical": {{Message: t4, Score: secondAgo.Unix()}},
"low": {},
},
retry: map[string][]base.Z{
"default": {},
"critical": {},
"low": {{Message: t5, Score: secondAgo.Unix()}},
},
qnames: []string{"default", "critical", "low"},
wantPending: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
wantGroup: map[string]map[string][]base.Z{
"default": {
"notifications": {{Message: t1, Score: now.Unix()}},
},
"critical": {
"critical_task_group": {{Message: t4, Score: now.Unix()}},
},
"low": {
"minor_task_group": {{Message: t5, Score: now.Unix()}},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllRetryQueues(t, r.client, tc.retry)
err := r.ForwardIfReady(tc.qnames...)
if err != nil {
t.Errorf("(*RDB).ForwardIfReady(%v) = %v, want nil", tc.qnames, err)
continue
}
for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.PendingKey(qname), diff)
}
// Make sure "pending_since" field is set
for _, msg := range gotPending {
pendingSince := r.client.HGet(ctx, base.TaskKey(msg.Queue, msg.ID), "pending_since").Val()
if want := strconv.Itoa(int(now.UnixNano())); pendingSince != want {
t.Error("pending_since field is not set for newly pending message")
}
}
}
for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ScheduledKey(qname), diff)
}
}
for qname, want := range tc.wantRetry {
gotRetry := h.GetRetryMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotRetry, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.RetryKey(qname), diff)
}
}
for qname, groups := range tc.wantGroup {
for groupKey, wantGroup := range groups {
gotGroup := h.GetGroupEntries(t, r.client, qname, groupKey)
if diff := cmp.Diff(wantGroup, gotGroup, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.GroupKey(qname, groupKey), diff)
}
}
}
}
}
func TestForwardIfReady(t *testing.T) {
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r := setup(t)
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defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("generate_csv", nil)
t3 := h.NewTaskMessage("gen_thumbnail", nil)
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t4 := h.NewTaskMessageWithQueue("important_task", nil, "critical")
t5 := h.NewTaskMessageWithQueue("minor_task", nil, "low")
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secondAgo := time.Now().Add(-time.Second)
hourFromNow := time.Now().Add(time.Hour)
tests := []struct {
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scheduled map[string][]base.Z
retry map[string][]base.Z
qnames []string
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wantPending map[string][]*base.TaskMessage
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wantScheduled map[string][]*base.TaskMessage
wantRetry map[string][]*base.TaskMessage
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}{
{
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scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: secondAgo.Unix()},
{Message: t2, Score: secondAgo.Unix()},
},
},
retry: map[string][]base.Z{
"default": {{Message: t3, Score: secondAgo.Unix()}},
},
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qnames: []string{"default"},
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wantPending: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
},
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wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
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},
{
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scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: hourFromNow.Unix()},
{Message: t2, Score: secondAgo.Unix()},
},
},
retry: map[string][]base.Z{
"default": {{Message: t3, Score: secondAgo.Unix()}},
},
qnames: []string{"default"},
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wantPending: map[string][]*base.TaskMessage{
"default": {t2, t3},
},
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wantScheduled: map[string][]*base.TaskMessage{
"default": {t1},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
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},
{
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scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: hourFromNow.Unix()},
{Message: t2, Score: hourFromNow.Unix()},
},
},
retry: map[string][]base.Z{
"default": {{Message: t3, Score: hourFromNow.Unix()}},
},
qnames: []string{"default"},
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wantPending: map[string][]*base.TaskMessage{
"default": {},
},
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wantScheduled: map[string][]*base.TaskMessage{
"default": {t1, t2},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {t3},
},
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},
{
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scheduled: map[string][]base.Z{
"default": {{Message: t1, Score: secondAgo.Unix()}},
"critical": {{Message: t4, Score: secondAgo.Unix()}},
"low": {},
},
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retry: map[string][]base.Z{
"default": {},
"critical": {},
"low": {{Message: t5, Score: secondAgo.Unix()}},
},
qnames: []string{"default", "critical", "low"},
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wantPending: map[string][]*base.TaskMessage{
"default": {t1},
"critical": {t4},
"low": {t5},
},
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wantScheduled: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
"critical": {},
"low": {},
},
},
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}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
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h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllRetryQueues(t, r.client, tc.retry)
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now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
err := r.ForwardIfReady(tc.qnames...)
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if err != nil {
t.Errorf("(*RDB).ForwardIfReady(%v) = %v, want nil", tc.qnames, err)
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continue
}
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for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.PendingKey(qname), diff)
}
// Make sure "pending_since" field is set
for _, msg := range gotPending {
pendingSince := r.client.HGet(context.Background(), base.TaskKey(msg.Queue, msg.ID), "pending_since").Val()
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if want := strconv.Itoa(int(now.UnixNano())); pendingSince != want {
t.Error("pending_since field is not set for newly pending message")
}
}
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}
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for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ScheduledKey(qname), diff)
}
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}
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for qname, want := range tc.wantRetry {
gotRetry := h.GetRetryMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotRetry, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.RetryKey(qname), diff)
}
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}
}
}
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func newCompletedTask(qname, typename string, payload []byte, completedAt time.Time) *base.TaskMessage {
msg := h.NewTaskMessageWithQueue(typename, payload, qname)
msg.CompletedAt = completedAt.Unix()
return msg
}
func TestDeleteExpiredCompletedTasks(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
secondAgo := now.Add(-time.Second)
hourFromNow := now.Add(time.Hour)
hourAgo := now.Add(-time.Hour)
minuteAgo := now.Add(-time.Minute)
t1 := newCompletedTask("default", "task1", nil, hourAgo)
t2 := newCompletedTask("default", "task2", nil, minuteAgo)
t3 := newCompletedTask("default", "task3", nil, secondAgo)
t4 := newCompletedTask("critical", "critical_task", nil, hourAgo)
t5 := newCompletedTask("low", "low_priority_task", nil, hourAgo)
tests := []struct {
desc string
completed map[string][]base.Z
qname string
wantCompleted map[string][]base.Z
}{
{
desc: "deletes expired task from default queue",
completed: map[string][]base.Z{
"default": {
{Message: t1, Score: secondAgo.Unix()},
{Message: t2, Score: hourFromNow.Unix()},
{Message: t3, Score: now.Unix()},
},
},
qname: "default",
wantCompleted: map[string][]base.Z{
"default": {
{Message: t2, Score: hourFromNow.Unix()},
},
},
},
{
desc: "deletes expired task from specified queue",
completed: map[string][]base.Z{
"default": {
{Message: t2, Score: secondAgo.Unix()},
},
"critical": {
{Message: t4, Score: secondAgo.Unix()},
},
"low": {
{Message: t5, Score: now.Unix()},
},
},
qname: "critical",
wantCompleted: map[string][]base.Z{
"default": {
{Message: t2, Score: secondAgo.Unix()},
},
"critical": {},
"low": {
{Message: t5, Score: now.Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllCompletedQueues(t, r.client, tc.completed)
if err := r.DeleteExpiredCompletedTasks(tc.qname); err != nil {
t.Errorf("DeleteExpiredCompletedTasks(%q) failed: %v", tc.qname, err)
continue
}
for qname, want := range tc.wantCompleted {
got := h.GetCompletedEntries(t, r.client, qname)
if diff := cmp.Diff(want, got, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s: diff found in %q completed set: want=%v, got=%v\n%s", tc.desc, qname, want, got, diff)
}
}
}
}
func TestListLeaseExpired(t *testing.T) {
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t1 := h.NewTaskMessageWithQueue("task1", nil, "default")
t2 := h.NewTaskMessageWithQueue("task2", nil, "default")
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t3 := h.NewTaskMessageWithQueue("task3", nil, "critical")
now := time.Now()
tests := []struct {
desc string
lease map[string][]base.Z
qnames []string
cutoff time.Time
want []*base.TaskMessage
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}{
{
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desc: "with a single active task",
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(-10 * time.Second).Unix()}},
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},
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qnames: []string{"default"},
cutoff: now,
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want: []*base.TaskMessage{t1},
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},
{
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desc: "with multiple active tasks, and one expired",
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(-5 * time.Minute).Unix()},
{Message: t2, Score: now.Add(20 * time.Second).Unix()},
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},
"critical": {
{Message: t3, Score: now.Add(10 * time.Second).Unix()},
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},
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},
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qnames: []string{"default", "critical"},
cutoff: now,
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want: []*base.TaskMessage{t1},
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},
{
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desc: "with multiple expired active tasks",
lease: map[string][]base.Z{
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"default": {
{Message: t1, Score: now.Add(-2 * time.Minute).Unix()},
{Message: t2, Score: now.Add(20 * time.Second).Unix()},
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},
"critical": {
{Message: t3, Score: now.Add(-30 * time.Second).Unix()},
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},
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},
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qnames: []string{"default", "critical"},
cutoff: now,
want: []*base.TaskMessage{t1, t3},
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},
{
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desc: "with empty active queue",
lease: map[string][]base.Z{
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"default": {},
"critical": {},
},
qnames: []string{"default", "critical"},
cutoff: now,
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want: []*base.TaskMessage{},
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},
}
r := setup(t)
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defer r.Close()
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for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllLease(t, r.client, tc.lease)
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got, err := r.ListLeaseExpired(tc.cutoff, tc.qnames...)
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if err != nil {
t.Errorf("%s; ListLeaseExpired(%v) returned error: %v", tc.desc, tc.cutoff, err)
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continue
}
if diff := cmp.Diff(tc.want, got, h.SortMsgOpt); diff != "" {
t.Errorf("%s; ListLeaseExpired(%v) returned %v, want %v;(-want,+got)\n%s",
tc.desc, tc.cutoff, got, tc.want, diff)
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}
}
}
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func TestExtendLease(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
t1 := h.NewTaskMessageWithQueue("task1", nil, "default")
t2 := h.NewTaskMessageWithQueue("task2", nil, "default")
t3 := h.NewTaskMessageWithQueue("task3", nil, "critical")
t4 := h.NewTaskMessageWithQueue("task4", nil, "default")
tests := []struct {
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desc string
lease map[string][]base.Z
qname string
ids []string
wantExpirationTime time.Time
wantLease map[string][]base.Z
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}{
{
desc: "Should extends lease for a single message in a queue",
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
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qname: "default",
ids: []string{t1.ID},
wantExpirationTime: now.Add(LeaseDuration),
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wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(LeaseDuration).Unix()}},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
},
{
desc: "Should extends lease for multiple message in a queue",
lease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(10 * time.Second).Unix()}, {Message: t2, Score: now.Add(10 * time.Second).Unix()}},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
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qname: "default",
ids: []string{t1.ID, t2.ID},
wantExpirationTime: now.Add(LeaseDuration),
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wantLease: map[string][]base.Z{
"default": {{Message: t1, Score: now.Add(LeaseDuration).Unix()}, {Message: t2, Score: now.Add(LeaseDuration).Unix()}},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
},
{
desc: "Should selectively extends lease for messages in a queue",
lease: map[string][]base.Z{
"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
{Message: t2, Score: now.Add(10 * time.Second).Unix()},
{Message: t4, Score: now.Add(10 * time.Second).Unix()},
},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
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qname: "default",
ids: []string{t2.ID, t4.ID},
wantExpirationTime: now.Add(LeaseDuration),
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wantLease: map[string][]base.Z{
"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
{Message: t2, Score: now.Add(LeaseDuration).Unix()},
{Message: t4, Score: now.Add(LeaseDuration).Unix()},
},
"critical": {{Message: t3, Score: now.Add(10 * time.Second).Unix()}},
},
},
{
desc: "Should not add a new entry in the lease set",
lease: map[string][]base.Z{
"default": {
{Message: t1, Score: now.Add(10 * time.Second).Unix()},
},
},
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qname: "default",
ids: []string{t1.ID, t2.ID},
wantExpirationTime: now.Add(LeaseDuration),
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wantLease: map[string][]base.Z{
"default": {
{Message: t1, Score: now.Add(LeaseDuration).Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllLease(t, r.client, tc.lease)
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gotExpirationTime, err := r.ExtendLease(tc.qname, tc.ids...)
if err != nil {
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t.Fatalf("%s: ExtendLease(%q, %v) returned error: %v", tc.desc, tc.qname, tc.ids, err)
}
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if gotExpirationTime != tc.wantExpirationTime {
t.Errorf("%s: ExtendLease(%q, %v) returned expirationTime %v, want %v", tc.desc, tc.qname, tc.ids, gotExpirationTime, tc.wantExpirationTime)
}
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for qname, want := range tc.wantLease {
gotLease := h.GetLeaseEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotLease, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s: mismatch found in %q: (-want,+got):\n%s", tc.desc, base.LeaseKey(qname), diff)
}
}
}
}
func TestWriteServerState(t *testing.T) {
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r := setup(t)
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defer r.Close()
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var (
host = "localhost"
pid = 4242
serverID = "server123"
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ttl = 5 * time.Second
)
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info := base.ServerInfo{
Host: host,
PID: pid,
ServerID: serverID,
Concurrency: 10,
Queues: map[string]int{"default": 2, "email": 5, "low": 1},
StrictPriority: false,
Started: time.Now().UTC(),
Status: "active",
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ActiveWorkerCount: 0,
}
err := r.WriteServerState(&info, nil /* workers */, ttl)
if err != nil {
t.Errorf("r.WriteServerState returned an error: %v", err)
}
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// Check ServerInfo was written correctly.
skey := base.ServerInfoKey(host, pid, serverID)
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data := r.client.Get(context.Background(), skey).Val()
got, err := base.DecodeServerInfo([]byte(data))
if err != nil {
t.Fatalf("could not decode server info: %v", err)
}
if diff := cmp.Diff(info, *got); diff != "" {
t.Errorf("persisted ServerInfo was %v, want %v; (-want,+got)\n%s",
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got, info, diff)
}
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// Check ServerInfo TTL was set correctly.
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gotTTL := r.client.TTL(context.Background(), skey).Val()
if !cmp.Equal(ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 1)) {
t.Errorf("TTL of %q was %v, want %v", skey, gotTTL, ttl)
}
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// Check ServerInfo key was added to the set all server keys correctly.
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gotServerKeys := r.client.ZRange(context.Background(), base.AllServers, 0, -1).Val()
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wantServerKeys := []string{skey}
if diff := cmp.Diff(wantServerKeys, gotServerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllServers, gotServerKeys, wantServerKeys)
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}
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// Check WorkersInfo was written correctly.
wkey := base.WorkersKey(host, pid, serverID)
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workerExist := r.client.Exists(context.Background(), wkey).Val()
if workerExist != 0 {
t.Errorf("%q key exists", wkey)
}
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// Check WorkersInfo key was added to the set correctly.
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gotWorkerKeys := r.client.ZRange(context.Background(), base.AllWorkers, 0, -1).Val()
wantWorkerKeys := []string{wkey}
if diff := cmp.Diff(wantWorkerKeys, gotWorkerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllWorkers, gotWorkerKeys, wantWorkerKeys)
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}
}
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func TestWriteServerStateWithWorkers(t *testing.T) {
r := setup(t)
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defer r.Close()
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var (
host = "127.0.0.1"
pid = 4242
serverID = "server123"
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msg1 = h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"user_id": "123"}))
msg2 = h.NewTaskMessage("gen_thumbnail", h.JSON(map[string]interface{}{"path": "some/path/to/imgfile"}))
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ttl = 5 * time.Second
)
workers := []*base.WorkerInfo{
{
Host: host,
PID: pid,
ID: msg1.ID,
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Type: msg1.Type,
Queue: msg1.Queue,
Payload: msg1.Payload,
Started: time.Now().Add(-10 * time.Second),
},
{
Host: host,
PID: pid,
ID: msg2.ID,
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Type: msg2.Type,
Queue: msg2.Queue,
Payload: msg2.Payload,
Started: time.Now().Add(-2 * time.Minute),
},
}
serverInfo := base.ServerInfo{
Host: host,
PID: pid,
ServerID: serverID,
Concurrency: 10,
Queues: map[string]int{"default": 2, "email": 5, "low": 1},
StrictPriority: false,
Started: time.Now().Add(-10 * time.Minute).UTC(),
Status: "active",
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ActiveWorkerCount: len(workers),
}
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err := r.WriteServerState(&serverInfo, workers, ttl)
if err != nil {
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t.Fatalf("r.WriteServerState returned an error: %v", err)
}
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// Check ServerInfo was written correctly.
skey := base.ServerInfoKey(host, pid, serverID)
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data := r.client.Get(context.Background(), skey).Val()
got, err := base.DecodeServerInfo([]byte(data))
if err != nil {
t.Fatalf("could not decode server info: %v", err)
}
if diff := cmp.Diff(serverInfo, *got); diff != "" {
t.Errorf("persisted ServerInfo was %v, want %v; (-want,+got)\n%s",
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got, serverInfo, diff)
}
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// Check ServerInfo TTL was set correctly.
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gotTTL := r.client.TTL(context.Background(), skey).Val()
if !cmp.Equal(ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 1)) {
t.Errorf("TTL of %q was %v, want %v", skey, gotTTL, ttl)
}
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// Check ServerInfo key was added to the set correctly.
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gotServerKeys := r.client.ZRange(context.Background(), base.AllServers, 0, -1).Val()
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wantServerKeys := []string{skey}
if diff := cmp.Diff(wantServerKeys, gotServerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllServers, gotServerKeys, wantServerKeys)
}
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// Check WorkersInfo was written correctly.
wkey := base.WorkersKey(host, pid, serverID)
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wdata := r.client.HGetAll(context.Background(), wkey).Val()
if len(wdata) != 2 {
t.Fatalf("HGETALL %q returned a hash of size %d, want 2", wkey, len(wdata))
}
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var gotWorkers []*base.WorkerInfo
for _, val := range wdata {
w, err := base.DecodeWorkerInfo([]byte(val))
if err != nil {
t.Fatalf("could not unmarshal worker's data: %v", err)
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}
gotWorkers = append(gotWorkers, w)
}
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if diff := cmp.Diff(workers, gotWorkers, h.SortWorkerInfoOpt); diff != "" {
t.Errorf("persisted workers info was %v, want %v; (-want,+got)\n%s",
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gotWorkers, workers, diff)
}
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// Check WorkersInfo TTL was set correctly.
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gotTTL = r.client.TTL(context.Background(), wkey).Val()
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if !cmp.Equal(ttl.Seconds(), gotTTL.Seconds(), cmpopts.EquateApprox(0, 1)) {
t.Errorf("TTL of %q was %v, want %v", wkey, gotTTL, ttl)
}
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// Check WorkersInfo key was added to the set correctly.
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gotWorkerKeys := r.client.ZRange(context.Background(), base.AllWorkers, 0, -1).Val()
wantWorkerKeys := []string{wkey}
if diff := cmp.Diff(wantWorkerKeys, gotWorkerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllWorkers, gotWorkerKeys, wantWorkerKeys)
}
}
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func TestClearServerState(t *testing.T) {
r := setup(t)
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defer r.Close()
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var (
host = "127.0.0.1"
pid = 1234
serverID = "server123"
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otherHost = "127.0.0.2"
otherPID = 9876
otherServerID = "server987"
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msg1 = h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"user_id": "123"}))
msg2 = h.NewTaskMessage("gen_thumbnail", h.JSON(map[string]interface{}{"path": "some/path/to/imgfile"}))
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ttl = 5 * time.Second
)
workers1 := []*base.WorkerInfo{
{
Host: host,
PID: pid,
ID: msg1.ID,
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Type: msg1.Type,
Queue: msg1.Queue,
Payload: msg1.Payload,
Started: time.Now().Add(-10 * time.Second),
},
}
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serverInfo1 := base.ServerInfo{
Host: host,
PID: pid,
ServerID: serverID,
Concurrency: 10,
Queues: map[string]int{"default": 2, "email": 5, "low": 1},
StrictPriority: false,
Started: time.Now().Add(-10 * time.Minute),
Status: "active",
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ActiveWorkerCount: len(workers1),
}
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workers2 := []*base.WorkerInfo{
{
Host: otherHost,
PID: otherPID,
ID: msg2.ID,
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Type: msg2.Type,
Queue: msg2.Queue,
Payload: msg2.Payload,
Started: time.Now().Add(-30 * time.Second),
},
}
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serverInfo2 := base.ServerInfo{
Host: otherHost,
PID: otherPID,
ServerID: otherServerID,
Concurrency: 10,
Queues: map[string]int{"default": 2, "email": 5, "low": 1},
StrictPriority: false,
Started: time.Now().Add(-15 * time.Minute),
Status: "active",
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ActiveWorkerCount: len(workers2),
}
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// Write server and workers data.
if err := r.WriteServerState(&serverInfo1, workers1, ttl); err != nil {
t.Fatalf("could not write server state: %v", err)
}
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if err := r.WriteServerState(&serverInfo2, workers2, ttl); err != nil {
t.Fatalf("could not write server state: %v", err)
}
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err := r.ClearServerState(host, pid, serverID)
if err != nil {
t.Fatalf("(*RDB).ClearServerState failed: %v", err)
}
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skey := base.ServerInfoKey(host, pid, serverID)
wkey := base.WorkersKey(host, pid, serverID)
otherSKey := base.ServerInfoKey(otherHost, otherPID, otherServerID)
otherWKey := base.WorkersKey(otherHost, otherPID, otherServerID)
// Check all keys are cleared.
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if r.client.Exists(context.Background(), skey).Val() != 0 {
t.Errorf("Redis key %q exists", skey)
}
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if r.client.Exists(context.Background(), wkey).Val() != 0 {
t.Errorf("Redis key %q exists", wkey)
}
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gotServerKeys := r.client.ZRange(context.Background(), base.AllServers, 0, -1).Val()
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wantServerKeys := []string{otherSKey}
if diff := cmp.Diff(wantServerKeys, gotServerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllServers, gotServerKeys, wantServerKeys)
}
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gotWorkerKeys := r.client.ZRange(context.Background(), base.AllWorkers, 0, -1).Val()
wantWorkerKeys := []string{otherWKey}
if diff := cmp.Diff(wantWorkerKeys, gotWorkerKeys); diff != "" {
t.Errorf("%q contained %v, want %v", base.AllWorkers, gotWorkerKeys, wantWorkerKeys)
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}
}
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func TestCancelationPubSub(t *testing.T) {
r := setup(t)
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defer r.Close()
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pubsub, err := r.CancelationPubSub()
if err != nil {
t.Fatalf("(*RDB).CancelationPubSub() returned an error: %v", err)
}
cancelCh := pubsub.Channel()
var (
mu sync.Mutex
received []string
)
go func() {
for msg := range cancelCh {
mu.Lock()
received = append(received, msg.Payload)
mu.Unlock()
}
}()
publish := []string{"one", "two", "three"}
for _, msg := range publish {
r.PublishCancelation(msg)
}
// allow for message to reach subscribers.
time.Sleep(time.Second)
pubsub.Close()
mu.Lock()
if diff := cmp.Diff(publish, received, h.SortStringSliceOpt); diff != "" {
t.Errorf("subscriber received %v, want %v; (-want,+got)\n%s", received, publish, diff)
}
mu.Unlock()
}
func TestWriteResult(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
qname string
taskID string
data []byte
}{
{
qname: "default",
taskID: uuid.NewString(),
data: []byte("hello"),
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
n, err := r.WriteResult(tc.qname, tc.taskID, tc.data)
if err != nil {
t.Errorf("WriteResult failed: %v", err)
continue
}
if n != len(tc.data) {
t.Errorf("WriteResult returned %d, want %d", n, len(tc.data))
}
taskKey := base.TaskKey(tc.qname, tc.taskID)
got := r.client.HGet(context.Background(), taskKey, "result").Val()
if got != string(tc.data) {
t.Errorf("`result` field under %q key is set to %q, want %q", taskKey, got, string(tc.data))
}
}
}
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func TestAggregationCheck(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
ctx := context.Background()
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msg1 := h.NewTaskMessageBuilder().SetType("task1").SetGroup("mygroup").Build()
msg2 := h.NewTaskMessageBuilder().SetType("task2").SetGroup("mygroup").Build()
msg3 := h.NewTaskMessageBuilder().SetType("task3").SetGroup("mygroup").Build()
msg4 := h.NewTaskMessageBuilder().SetType("task4").SetGroup("mygroup").Build()
msg5 := h.NewTaskMessageBuilder().SetType("task5").SetGroup("mygroup").Build()
tests := []struct {
desc string
// initial data
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tasks []*h.TaskSeedData
groups map[string][]*redis.Z
allGroups map[string][]string
// args
qname string
gname string
gracePeriod time.Duration
maxDelay time.Duration
maxSize int
// expectaions
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shouldCreateSet bool // whether the check should create a new aggregation set
wantAggregationSet []*base.TaskMessage
wantGroups map[string][]redis.Z
shouldClearGroup bool // whether the check should clear the group from redis
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}{
{
desc: "with an empty group",
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tasks: []*h.TaskSeedData{},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {},
},
allGroups: map[string][]string{
base.AllGroups("default"): {},
},
qname: "default",
gname: "mygroup",
gracePeriod: 1 * time.Minute,
maxDelay: 10 * time.Minute,
maxSize: 5,
shouldCreateSet: false,
wantAggregationSet: nil,
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {},
},
shouldClearGroup: true,
},
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{
desc: "with a group size reaching the max size",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
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},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
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qname: "default",
gname: "mygroup",
gracePeriod: 1 * time.Minute,
maxDelay: 10 * time.Minute,
maxSize: 5,
shouldCreateSet: true,
wantAggregationSet: []*base.TaskMessage{msg1, msg2, msg3, msg4, msg5},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {},
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},
shouldClearGroup: true,
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},
{
desc: "with group size greater than max size",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
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},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
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qname: "default",
gname: "mygroup",
gracePeriod: 2 * time.Minute,
maxDelay: 10 * time.Minute,
maxSize: 3,
shouldCreateSet: true,
wantAggregationSet: []*base.TaskMessage{msg1, msg2, msg3},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
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},
},
shouldClearGroup: false,
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},
{
desc: "with the most recent task older than grace period",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
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},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
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qname: "default",
gname: "mygroup",
gracePeriod: 1 * time.Minute,
maxDelay: 10 * time.Minute,
maxSize: 5,
shouldCreateSet: true,
wantAggregationSet: []*base.TaskMessage{msg1, msg2, msg3},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {},
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},
shouldClearGroup: true,
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},
{
desc: "with the oldest task older than max delay",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
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},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
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qname: "default",
gname: "mygroup",
gracePeriod: 2 * time.Minute,
maxDelay: 10 * time.Minute,
maxSize: 30,
shouldCreateSet: true,
wantAggregationSet: []*base.TaskMessage{msg1, msg2, msg3, msg4, msg5},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {},
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},
shouldClearGroup: true,
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},
{
desc: "with unlimited size",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
qname: "default",
gname: "mygroup",
gracePeriod: 1 * time.Minute,
maxDelay: 30 * time.Minute,
maxSize: 0, // maxSize=0 indicates no size limit
shouldCreateSet: false,
wantAggregationSet: nil,
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
shouldClearGroup: false,
},
{
desc: "with unlimited size and passed grace period",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
qname: "default",
gname: "mygroup",
gracePeriod: 30 * time.Second,
maxDelay: 30 * time.Minute,
maxSize: 0, // maxSize=0 indicates no size limit
shouldCreateSet: true,
wantAggregationSet: []*base.TaskMessage{msg1, msg2, msg3, msg4, msg5},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {},
},
shouldClearGroup: true,
},
{
desc: "with unlimited delay",
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tasks: []*h.TaskSeedData{
{Msg: msg1, State: base.TaskStateAggregating},
{Msg: msg2, State: base.TaskStateAggregating},
{Msg: msg3, State: base.TaskStateAggregating},
{Msg: msg4, State: base.TaskStateAggregating},
{Msg: msg5, State: base.TaskStateAggregating},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
qname: "default",
gname: "mygroup",
gracePeriod: 1 * time.Minute,
maxDelay: 0, // maxDelay=0 indicates no limit
maxSize: 10,
shouldCreateSet: false,
wantAggregationSet: nil,
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "mygroup"): {
{Member: msg1.ID, Score: float64(now.Add(-15 * time.Minute).Unix())},
{Member: msg2.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: msg3.ID, Score: float64(now.Add(-2 * time.Minute).Unix())},
{Member: msg4.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
{Member: msg5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
shouldClearGroup: false,
},
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}
for _, tc := range tests {
h.FlushDB(t, r.client)
t.Run(tc.desc, func(t *testing.T) {
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h.SeedTasks(t, r.client, tc.tasks)
h.SeedRedisZSets(t, r.client, tc.groups)
h.SeedRedisSets(t, r.client, tc.allGroups)
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aggregationSetID, err := r.AggregationCheck(tc.qname, tc.gname, now, tc.gracePeriod, tc.maxDelay, tc.maxSize)
if err != nil {
t.Fatalf("AggregationCheck returned error: %v", err)
}
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if !tc.shouldCreateSet && aggregationSetID != "" {
t.Fatal("AggregationCheck returned non empty set ID. want empty ID")
}
if tc.shouldCreateSet && aggregationSetID == "" {
t.Fatal("AggregationCheck returned empty set ID. want non empty ID")
}
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if tc.shouldCreateSet {
msgs, deadline, err := r.ReadAggregationSet(tc.qname, tc.gname, aggregationSetID)
if err != nil {
t.Fatalf("Failed to read aggregation set %q: %v", aggregationSetID, err)
}
if diff := cmp.Diff(tc.wantAggregationSet, msgs, h.SortMsgOpt); diff != "" {
t.Errorf("Mismatch found in aggregation set: (-want,+got)\n%s", diff)
}
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if wantDeadline := now.Add(aggregationTimeout); deadline.Unix() != wantDeadline.Unix() {
t.Errorf("ReadAggregationSet returned deadline=%v, want=%v", deadline, wantDeadline)
}
}
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h.AssertRedisZSets(t, r.client, tc.wantGroups)
if tc.shouldClearGroup {
if key := base.GroupKey(tc.qname, tc.gname); r.client.Exists(ctx, key).Val() != 0 {
t.Errorf("group key %q still exists", key)
}
if r.client.SIsMember(ctx, base.AllGroups(tc.qname), tc.gname).Val() {
t.Errorf("all-group set %q still contains the group name %q", base.AllGroups(tc.qname), tc.gname)
}
} else {
if key := base.GroupKey(tc.qname, tc.gname); r.client.Exists(ctx, key).Val() == 0 {
t.Errorf("group key %q does not exists", key)
}
if !r.client.SIsMember(ctx, base.AllGroups(tc.qname), tc.gname).Val() {
t.Errorf("all-group set %q doesn't contains the group name %q", base.AllGroups(tc.qname), tc.gname)
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}
}
})
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}
}
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func TestDeleteAggregationSet(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
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setID := uuid.NewString()
otherSetID := uuid.NewString()
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
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tests := []struct {
desc string
// initial data
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tasks []*h.TaskSeedData
aggregationSets map[string][]*redis.Z
allAggregationSets map[string][]*redis.Z
// args
ctx context.Context
qname string
gname string
setID string
// expectations
wantDeletedKeys []string // redis key to check for non existence
wantAggregationSets map[string][]redis.Z
wantAllAggregationSets map[string][]redis.Z
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}{
{
desc: "with a sigle active aggregation set",
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tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
aggregationSets: map[string][]*redis.Z{
base.AggregationSetKey("default", "mygroup", setID): {
{Member: m1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
{Member: m3.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
},
},
allAggregationSets: map[string][]*redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "mygroup", setID), Score: float64(now.Add(aggregationTimeout).Unix())},
},
},
ctx: context.Background(),
qname: "default",
gname: "mygroup",
setID: setID,
wantDeletedKeys: []string{
base.AggregationSetKey("default", "mygroup", setID),
base.TaskKey(m1.Queue, m1.ID),
base.TaskKey(m2.Queue, m2.ID),
base.TaskKey(m3.Queue, m3.ID),
},
wantAggregationSets: map[string][]redis.Z{},
wantAllAggregationSets: map[string][]redis.Z{
base.AllAggregationSets("default"): {},
},
},
{
desc: "with multiple active aggregation sets",
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tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
aggregationSets: map[string][]*redis.Z{
base.AggregationSetKey("default", "mygroup", setID): {
{Member: m1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
},
base.AggregationSetKey("default", "mygroup", otherSetID): {
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
{Member: m3.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
},
},
allAggregationSets: map[string][]*redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "mygroup", setID), Score: float64(now.Add(aggregationTimeout).Unix())},
{Member: base.AggregationSetKey("default", "mygroup", otherSetID), Score: float64(now.Add(aggregationTimeout).Unix())},
},
},
ctx: context.Background(),
qname: "default",
gname: "mygroup",
setID: setID,
wantDeletedKeys: []string{
base.AggregationSetKey("default", "mygroup", setID),
base.TaskKey(m1.Queue, m1.ID),
},
wantAggregationSets: map[string][]redis.Z{
base.AggregationSetKey("default", "mygroup", otherSetID): {
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
{Member: m3.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
},
},
wantAllAggregationSets: map[string][]redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "mygroup", otherSetID), Score: float64(now.Add(aggregationTimeout).Unix())},
},
},
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},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
t.Run(tc.desc, func(t *testing.T) {
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h.SeedTasks(t, r.client, tc.tasks)
h.SeedRedisZSets(t, r.client, tc.aggregationSets)
h.SeedRedisZSets(t, r.client, tc.allAggregationSets)
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if err := r.DeleteAggregationSet(tc.ctx, tc.qname, tc.gname, tc.setID); err != nil {
t.Fatalf("DeleteAggregationSet returned error: %v", err)
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}
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for _, key := range tc.wantDeletedKeys {
if r.client.Exists(context.Background(), key).Val() != 0 {
t.Errorf("key=%q still exists, want deleted", key)
}
}
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h.AssertRedisZSets(t, r.client, tc.wantAllAggregationSets)
})
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}
}
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func TestDeleteAggregationSetError(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
setID := uuid.NewString()
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("mygroup").Build()
deadlineExceededCtx, cancel := context.WithDeadline(context.Background(), now.Add(-10*time.Second))
defer cancel()
tests := []struct {
desc string
// initial data
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tasks []*h.TaskSeedData
aggregationSets map[string][]*redis.Z
allAggregationSets map[string][]*redis.Z
// args
ctx context.Context
qname string
gname string
setID string
// expectations
wantAggregationSets map[string][]redis.Z
wantAllAggregationSets map[string][]redis.Z
}{
{
desc: "with deadline exceeded context",
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tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
aggregationSets: map[string][]*redis.Z{
base.AggregationSetKey("default", "mygroup", setID): {
{Member: m1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
{Member: m3.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
},
},
allAggregationSets: map[string][]*redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "mygroup", setID), Score: float64(now.Add(aggregationTimeout).Unix())},
},
},
ctx: deadlineExceededCtx,
qname: "default",
gname: "mygroup",
setID: setID,
// want data unchanged.
wantAggregationSets: map[string][]redis.Z{
base.AggregationSetKey("default", "mygroup", setID): {
{Member: m1.ID, Score: float64(now.Add(-5 * time.Minute).Unix())},
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
{Member: m3.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
},
},
// want data unchanged.
wantAllAggregationSets: map[string][]redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "mygroup", setID), Score: float64(now.Add(aggregationTimeout).Unix())},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
t.Run(tc.desc, func(t *testing.T) {
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h.SeedTasks(t, r.client, tc.tasks)
h.SeedRedisZSets(t, r.client, tc.aggregationSets)
h.SeedRedisZSets(t, r.client, tc.allAggregationSets)
if err := r.DeleteAggregationSet(tc.ctx, tc.qname, tc.gname, tc.setID); err == nil {
t.Fatal("DeleteAggregationSet returned nil, want non-nil error")
}
// Make sure zsets are unchanged.
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h.AssertRedisZSets(t, r.client, tc.wantAggregationSets)
h.AssertRedisZSets(t, r.client, tc.wantAllAggregationSets)
})
}
}
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func TestReclaimStaleAggregationSets(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("foo").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("foo").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("bar").Build()
m4 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("qux").Build()
// Note: In this test, we're trying out a new way to test RDB by exactly describing how
// keys and values are represented in Redis.
tests := []struct {
groups map[string][]*redis.Z // map redis-key to redis-zset
aggregationSets map[string][]*redis.Z
allAggregationSets map[string][]*redis.Z
qname string
wantGroups map[string][]redis.Z
wantAggregationSets map[string][]redis.Z
wantAllAggregationSets map[string][]redis.Z
}{
{
groups: map[string][]*redis.Z{
base.GroupKey("default", "foo"): {},
base.GroupKey("default", "bar"): {},
base.GroupKey("default", "qux"): {
{Member: m4.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
aggregationSets: map[string][]*redis.Z{
base.AggregationSetKey("default", "foo", "set1"): {
{Member: m1.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
},
base.AggregationSetKey("default", "bar", "set2"): {
{Member: m3.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
},
},
allAggregationSets: map[string][]*redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "foo", "set1"), Score: float64(now.Add(-10 * time.Second).Unix())}, // set1 is expired
{Member: base.AggregationSetKey("default", "bar", "set2"), Score: float64(now.Add(40 * time.Second).Unix())}, // set2 is not expired
},
},
qname: "default",
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "foo"): {
{Member: m1.ID, Score: float64(now.Add(-3 * time.Minute).Unix())},
{Member: m2.ID, Score: float64(now.Add(-4 * time.Minute).Unix())},
},
base.GroupKey("default", "bar"): {},
base.GroupKey("default", "qux"): {
{Member: m4.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
},
},
wantAggregationSets: map[string][]redis.Z{
base.AggregationSetKey("default", "bar", "set2"): {
{Member: m3.ID, Score: float64(now.Add(-1 * time.Minute).Unix())},
},
},
wantAllAggregationSets: map[string][]redis.Z{
base.AllAggregationSets("default"): {
{Member: base.AggregationSetKey("default", "bar", "set2"), Score: float64(now.Add(40 * time.Second).Unix())},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
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h.SeedRedisZSets(t, r.client, tc.groups)
h.SeedRedisZSets(t, r.client, tc.aggregationSets)
h.SeedRedisZSets(t, r.client, tc.allAggregationSets)
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if err := r.ReclaimStaleAggregationSets(tc.qname); err != nil {
t.Errorf("ReclaimStaleAggregationSets returned error: %v", err)
continue
}
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h.AssertRedisZSets(t, r.client, tc.wantGroups)
h.AssertRedisZSets(t, r.client, tc.wantAggregationSets)
h.AssertRedisZSets(t, r.client, tc.wantAllAggregationSets)
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}
}
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func TestListGroups(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("foo").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetGroup("bar").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetGroup("baz").Build()
m4 := h.NewTaskMessageBuilder().SetQueue("custom").SetGroup("qux").Build()
tests := []struct {
groups map[string]map[string][]base.Z
qname string
want []string
}{
{
groups: map[string]map[string][]base.Z{
"default": {
"foo": {{Message: m1, Score: now.Add(-10 * time.Second).Unix()}},
"bar": {{Message: m2, Score: now.Add(-10 * time.Second).Unix()}},
},
"custom": {
"baz": {{Message: m3, Score: now.Add(-10 * time.Second).Unix()}},
"qux": {{Message: m4, Score: now.Add(-10 * time.Second).Unix()}},
},
},
qname: "default",
want: []string{"foo", "bar"},
},
{
groups: map[string]map[string][]base.Z{
"default": {
"foo": {{Message: m1, Score: now.Add(-10 * time.Second).Unix()}},
"bar": {{Message: m2, Score: now.Add(-10 * time.Second).Unix()}},
},
"custom": {
"baz": {{Message: m3, Score: now.Add(-10 * time.Second).Unix()}},
"qux": {{Message: m4, Score: now.Add(-10 * time.Second).Unix()}},
},
},
qname: "custom",
want: []string{"baz", "qux"},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllGroups(t, r.client, tc.groups)
got, err := r.ListGroups(tc.qname)
if err != nil {
t.Errorf("ListGroups returned error: %v", err)
continue
}
if diff := cmp.Diff(tc.want, got, h.SortStringSliceOpt); diff != "" {
t.Errorf("ListGroups=%v, want=%v; (-want,+got)\n%s", got, tc.want, diff)
}
}
}