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mirror of https://github.com/hibiken/asynq.git synced 2024-12-27 00:02:19 +08:00
asynq/internal/rdb/inspect_test.go

5584 lines
150 KiB
Go

// 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.
package rdb
import (
"context"
"encoding/json"
"fmt"
"sort"
"testing"
"time"
"github.com/go-redis/redis/v8"
"github.com/google/go-cmp/cmp"
"github.com/google/go-cmp/cmp/cmpopts"
"github.com/google/uuid"
"github.com/hibiken/asynq/internal/base"
"github.com/hibiken/asynq/internal/errors"
h "github.com/hibiken/asynq/internal/testutil"
"github.com/hibiken/asynq/internal/timeutil"
)
func TestAllQueues(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
queues []string
}{
{queues: []string{"default"}},
{queues: []string{"custom1", "custom2"}},
{queues: []string{"default", "custom1", "custom2"}},
{queues: []string{}},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, qname := range tc.queues {
if err := r.client.SAdd(context.Background(), base.AllQueues, qname).Err(); err != nil {
t.Fatalf("could not initialize all queue set: %v", err)
}
}
got, err := r.AllQueues()
if err != nil {
t.Errorf("AllQueues() returned an error: %v", err)
continue
}
if diff := cmp.Diff(tc.queues, got, h.SortStringSliceOpt); diff != "" {
t.Errorf("AllQueues() = %v, want %v; (-want, +got)\n%s", got, tc.queues, diff)
}
}
}
func TestCurrentStats(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessageBuilder().SetType("send_email").Build()
m2 := h.NewTaskMessageBuilder().SetType("reindex").Build()
m3 := h.NewTaskMessageBuilder().SetType("gen_thumbnail").Build()
m4 := h.NewTaskMessageBuilder().SetType("sync").Build()
m5 := h.NewTaskMessageBuilder().SetType("important_notification").SetQueue("critical").Build()
m6 := h.NewTaskMessageBuilder().SetType("minor_notification").SetQueue("low").Build()
m7 := h.NewTaskMessageBuilder().SetType("send_sms").Build()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
tests := []struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
pending map[string][]string
active map[string][]string
scheduled map[string][]*redis.Z
retry map[string][]*redis.Z
archived map[string][]*redis.Z
completed map[string][]*redis.Z
groups map[string][]*redis.Z
processed map[string]int
failed map[string]int
processedTotal map[string]int
failedTotal map[string]int
paused []string
oldestPendingMessageEnqueueTime map[string]time.Time
qname string
want *Stats
}{
{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStatePending},
{Msg: m2, State: base.TaskStateActive},
{Msg: m3, State: base.TaskStateScheduled},
{Msg: m4, State: base.TaskStateScheduled},
{Msg: m5, State: base.TaskStatePending},
{Msg: m6, State: base.TaskStatePending},
{Msg: m7, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "critical", "low"},
allGroups: map[string][]string{
base.AllGroups("default"): {"sms:user1"},
},
pending: map[string][]string{
base.PendingKey("default"): {m1.ID},
base.PendingKey("critical"): {m5.ID},
base.PendingKey("low"): {m6.ID},
},
active: map[string][]string{
base.ActiveKey("default"): {m2.ID},
base.ActiveKey("critical"): {},
base.ActiveKey("low"): {},
},
scheduled: map[string][]*redis.Z{
base.ScheduledKey("default"): {
{Member: m3.ID, Score: float64(now.Add(time.Hour).Unix())},
{Member: m4.ID, Score: float64(now.Unix())},
},
base.ScheduledKey("critical"): {},
base.ScheduledKey("low"): {},
},
retry: map[string][]*redis.Z{
base.RetryKey("default"): {},
base.RetryKey("critical"): {},
base.RetryKey("low"): {},
},
archived: map[string][]*redis.Z{
base.ArchivedKey("default"): {},
base.ArchivedKey("critical"): {},
base.ArchivedKey("low"): {},
},
completed: map[string][]*redis.Z{
base.CompletedKey("default"): {},
base.CompletedKey("critical"): {},
base.CompletedKey("low"): {},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "sms:user1"): {
{Member: m7.ID, Score: float64(now.Add(-3 * time.Second).Unix())},
},
},
processed: map[string]int{
"default": 120,
"critical": 100,
"low": 50,
},
failed: map[string]int{
"default": 2,
"critical": 0,
"low": 1,
},
processedTotal: map[string]int{
"default": 11111,
"critical": 22222,
"low": 33333,
},
failedTotal: map[string]int{
"default": 111,
"critical": 222,
"low": 333,
},
oldestPendingMessageEnqueueTime: map[string]time.Time{
"default": now.Add(-15 * time.Second),
"critical": now.Add(-200 * time.Millisecond),
"low": now.Add(-30 * time.Second),
},
paused: []string{},
qname: "default",
want: &Stats{
Queue: "default",
Paused: false,
Size: 5,
Groups: 1,
Pending: 1,
Active: 1,
Scheduled: 2,
Retry: 0,
Archived: 0,
Completed: 0,
Aggregating: 1,
Processed: 120,
Failed: 2,
ProcessedTotal: 11111,
FailedTotal: 111,
Latency: 15 * time.Second,
Timestamp: now,
},
},
{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStatePending},
{Msg: m2, State: base.TaskStateActive},
{Msg: m3, State: base.TaskStateScheduled},
{Msg: m4, State: base.TaskStateScheduled},
{Msg: m6, State: base.TaskStatePending},
},
allQueues: []string{"default", "critical", "low"},
pending: map[string][]string{
base.PendingKey("default"): {m1.ID},
base.PendingKey("critical"): {},
base.PendingKey("low"): {m6.ID},
},
active: map[string][]string{
base.ActiveKey("default"): {m2.ID},
base.ActiveKey("critical"): {},
base.ActiveKey("low"): {},
},
scheduled: map[string][]*redis.Z{
base.ScheduledKey("default"): {
{Member: m3.ID, Score: float64(now.Add(time.Hour).Unix())},
{Member: m4.ID, Score: float64(now.Unix())},
},
base.ScheduledKey("critical"): {},
base.ScheduledKey("low"): {},
},
retry: map[string][]*redis.Z{
base.RetryKey("default"): {},
base.RetryKey("critical"): {},
base.RetryKey("low"): {},
},
archived: map[string][]*redis.Z{
base.ArchivedKey("default"): {},
base.ArchivedKey("critical"): {},
base.ArchivedKey("low"): {},
},
completed: map[string][]*redis.Z{
base.CompletedKey("default"): {},
base.CompletedKey("critical"): {},
base.CompletedKey("low"): {},
},
processed: map[string]int{
"default": 120,
"critical": 100,
"low": 50,
},
failed: map[string]int{
"default": 2,
"critical": 0,
"low": 1,
},
processedTotal: map[string]int{
"default": 11111,
"critical": 22222,
"low": 33333,
},
failedTotal: map[string]int{
"default": 111,
"critical": 222,
"low": 333,
},
oldestPendingMessageEnqueueTime: map[string]time.Time{
"default": now.Add(-15 * time.Second),
"critical": time.Time{}, // zero value since there's no pending task in this queue
"low": now.Add(-30 * time.Second),
},
paused: []string{"critical", "low"},
qname: "critical",
want: &Stats{
Queue: "critical",
Paused: true,
Size: 0,
Groups: 0,
Pending: 0,
Active: 0,
Scheduled: 0,
Retry: 0,
Archived: 0,
Completed: 0,
Aggregating: 0,
Processed: 100,
Failed: 0,
ProcessedTotal: 22222,
FailedTotal: 222,
Latency: 0,
Timestamp: now,
},
},
}
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)
}
}
h.SeedRedisSet(t, r.client, base.AllQueues, tc.allQueues)
h.SeedRedisSets(t, r.client, tc.allGroups)
h.SeedTasks(t, r.client, tc.tasks)
h.SeedRedisLists(t, r.client, tc.pending)
h.SeedRedisLists(t, r.client, tc.active)
h.SeedRedisZSets(t, r.client, tc.scheduled)
h.SeedRedisZSets(t, r.client, tc.retry)
h.SeedRedisZSets(t, r.client, tc.archived)
h.SeedRedisZSets(t, r.client, tc.completed)
h.SeedRedisZSets(t, r.client, tc.groups)
ctx := context.Background()
for qname, n := range tc.processed {
r.client.Set(ctx, base.ProcessedKey(qname, now), n, 0)
}
for qname, n := range tc.failed {
r.client.Set(ctx, base.FailedKey(qname, now), n, 0)
}
for qname, n := range tc.processedTotal {
r.client.Set(ctx, base.ProcessedTotalKey(qname), n, 0)
}
for qname, n := range tc.failedTotal {
r.client.Set(ctx, base.FailedTotalKey(qname), n, 0)
}
for qname, enqueueTime := range tc.oldestPendingMessageEnqueueTime {
if enqueueTime.IsZero() {
continue
}
oldestPendingMessageID := r.client.LRange(ctx, base.PendingKey(qname), -1, -1).Val()[0] // get the right most msg in the list
r.client.HSet(ctx, base.TaskKey(qname, oldestPendingMessageID), "pending_since", enqueueTime.UnixNano())
}
got, err := r.CurrentStats(tc.qname)
if err != nil {
t.Errorf("r.CurrentStats(%q) = %v, %v, want %v, nil", tc.qname, got, err, tc.want)
continue
}
ignoreMemUsg := cmpopts.IgnoreFields(Stats{}, "MemoryUsage")
if diff := cmp.Diff(tc.want, got, timeCmpOpt, ignoreMemUsg); diff != "" {
t.Errorf("r.CurrentStats(%q) = %v, %v, want %v, nil; (-want, +got)\n%s", tc.qname, got, err, tc.want, diff)
continue
}
}
}
func TestCurrentStatsWithNonExistentQueue(t *testing.T) {
r := setup(t)
defer r.Close()
qname := "non-existent"
got, err := r.CurrentStats(qname)
if !errors.IsQueueNotFound(err) {
t.Fatalf("r.CurrentStats(%q) = %v, %v, want nil, %v", qname, got, err, &errors.QueueNotFoundError{Queue: qname})
}
}
func TestHistoricalStats(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now().UTC()
tests := []struct {
qname string // queue of interest
n int // number of days
}{
{"default", 90},
{"custom", 7},
{"default", 1},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
r.client.SAdd(context.Background(), base.AllQueues, tc.qname)
// populate last n days data
for i := 0; i < tc.n; i++ {
ts := now.Add(-time.Duration(i) * 24 * time.Hour)
processedKey := base.ProcessedKey(tc.qname, ts)
failedKey := base.FailedKey(tc.qname, ts)
r.client.Set(context.Background(), processedKey, (i+1)*1000, 0)
r.client.Set(context.Background(), failedKey, (i+1)*10, 0)
}
got, err := r.HistoricalStats(tc.qname, tc.n)
if err != nil {
t.Errorf("RDB.HistoricalStats(%q, %d) returned error: %v", tc.qname, tc.n, err)
continue
}
if len(got) != tc.n {
t.Errorf("RDB.HistorycalStats(%q, %d) returned %d daily stats, want %d", tc.qname, tc.n, len(got), tc.n)
continue
}
for i := 0; i < tc.n; i++ {
want := &DailyStats{
Queue: tc.qname,
Processed: (i + 1) * 1000,
Failed: (i + 1) * 10,
Time: now.Add(-time.Duration(i) * 24 * time.Hour),
}
// Allow 2 seconds difference in timestamp.
cmpOpt := cmpopts.EquateApproxTime(2 * time.Second)
if diff := cmp.Diff(want, got[i], cmpOpt); diff != "" {
t.Errorf("RDB.HistoricalStats for the last %d days; got %+v, want %+v; (-want,+got):\n%s", i, got[i], want, diff)
}
}
}
}
func TestRedisInfo(t *testing.T) {
r := setup(t)
defer r.Close()
info, err := r.RedisInfo()
if err != nil {
t.Fatalf("RDB.RedisInfo() returned error: %v", err)
}
wantKeys := []string{
"redis_version",
"uptime_in_days",
"connected_clients",
"used_memory_human",
"used_memory_peak_human",
"used_memory_peak_perc",
}
for _, key := range wantKeys {
if _, ok := info[key]; !ok {
t.Errorf("RDB.RedisInfo() = %v is missing entry for %q", info, key)
}
}
}
func TestGroupStats(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessageBuilder().SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetGroup("group1").Build()
m4 := h.NewTaskMessageBuilder().SetGroup("group2").Build()
m5 := h.NewTaskMessageBuilder().SetQueue("custom").SetGroup("group1").Build()
m6 := h.NewTaskMessageBuilder().SetQueue("custom").SetGroup("group1").Build()
now := time.Now()
fixtures := struct {
tasks []*h.TaskSeedData
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
{Msg: m4, State: base.TaskStateAggregating},
{Msg: m5, State: base.TaskStateAggregating},
},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1", "group2"},
base.AllGroups("custom"): {"group1"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m3.ID, Score: float64(now.Add(-30 * time.Second).Unix())},
},
base.GroupKey("default", "group2"): {
{Member: m4.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m5.ID, Score: float64(now.Add(-10 * time.Second).Unix())},
{Member: m6.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
want []*GroupStat
}{
{
desc: "default queue groups",
qname: "default",
want: []*GroupStat{
{Group: "group1", Size: 3},
{Group: "group2", Size: 1},
},
},
{
desc: "custom queue groups",
qname: "custom",
want: []*GroupStat{
{Group: "group1", Size: 2},
},
},
}
var sortGroupStatsOpt = cmp.Transformer(
"SortGroupStats",
func(in []*GroupStat) []*GroupStat {
out := append([]*GroupStat(nil), in...)
sort.Slice(out, func(i, j int) bool {
return out[i].Group < out[j].Group
})
return out
})
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fixtures.tasks)
h.SeedRedisSets(t, r.client, fixtures.allGroups)
h.SeedRedisZSets(t, r.client, fixtures.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.GroupStats(tc.qname)
if err != nil {
t.Fatalf("GroupStats returned error: %v", err)
}
if diff := cmp.Diff(tc.want, got, sortGroupStatsOpt); diff != "" {
t.Errorf("GroupStats = %v, want %v; (-want,+got)\n%s", got, tc.want, diff)
}
})
}
}
func TestGetTaskInfo(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
fiveMinsFromNow := now.Add(5 * time.Minute)
oneHourFromNow := now.Add(1 * time.Hour)
twoHoursAgo := now.Add(-2 * time.Hour)
m1 := h.NewTaskMessageWithQueue("task1", nil, "default")
m2 := h.NewTaskMessageWithQueue("task2", nil, "default")
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
m5 := h.NewTaskMessageWithQueue("task5", nil, "custom")
m6 := h.NewTaskMessageWithQueue("task5", nil, "custom")
m6.CompletedAt = twoHoursAgo.Unix()
m6.Retention = int64((24 * time.Hour).Seconds())
fixtures := struct {
active map[string][]*base.TaskMessage
pending map[string][]*base.TaskMessage
scheduled map[string][]base.Z
retry map[string][]base.Z
archived map[string][]base.Z
completed map[string][]base.Z
}{
active: map[string][]*base.TaskMessage{
"default": {m1},
"custom": {},
},
pending: map[string][]*base.TaskMessage{
"default": {},
"custom": {m5},
},
scheduled: map[string][]base.Z{
"default": {{Message: m2, Score: fiveMinsFromNow.Unix()}},
"custom": {},
},
retry: map[string][]base.Z{
"default": {},
"custom": {{Message: m3, Score: oneHourFromNow.Unix()}},
},
archived: map[string][]base.Z{
"default": {},
"custom": {{Message: m4, Score: twoHoursAgo.Unix()}},
},
completed: map[string][]base.Z{
"default": {},
"custom": {{Message: m6, Score: m6.CompletedAt + m6.Retention}},
},
}
h.SeedAllActiveQueues(t, r.client, fixtures.active)
h.SeedAllPendingQueues(t, r.client, fixtures.pending)
h.SeedAllScheduledQueues(t, r.client, fixtures.scheduled)
h.SeedAllRetryQueues(t, r.client, fixtures.retry)
h.SeedAllArchivedQueues(t, r.client, fixtures.archived)
h.SeedAllCompletedQueues(t, r.client, fixtures.completed)
// Write result data for the completed task.
if err := r.client.HSet(context.Background(), base.TaskKey(m6.Queue, m6.ID), "result", "foobar").Err(); err != nil {
t.Fatalf("Failed to write result data under task key: %v", err)
}
tests := []struct {
qname string
id string
want *base.TaskInfo
}{
{
qname: "default",
id: m1.ID,
want: &base.TaskInfo{
Message: m1,
State: base.TaskStateActive,
NextProcessAt: time.Time{}, // zero value for N/A
Result: nil,
},
},
{
qname: "default",
id: m2.ID,
want: &base.TaskInfo{
Message: m2,
State: base.TaskStateScheduled,
NextProcessAt: fiveMinsFromNow,
Result: nil,
},
},
{
qname: "custom",
id: m3.ID,
want: &base.TaskInfo{
Message: m3,
State: base.TaskStateRetry,
NextProcessAt: oneHourFromNow,
Result: nil,
},
},
{
qname: "custom",
id: m4.ID,
want: &base.TaskInfo{
Message: m4,
State: base.TaskStateArchived,
NextProcessAt: time.Time{}, // zero value for N/A
Result: nil,
},
},
{
qname: "custom",
id: m5.ID,
want: &base.TaskInfo{
Message: m5,
State: base.TaskStatePending,
NextProcessAt: now,
Result: nil,
},
},
{
qname: "custom",
id: m6.ID,
want: &base.TaskInfo{
Message: m6,
State: base.TaskStateCompleted,
NextProcessAt: time.Time{}, // zero value for N/A
Result: []byte("foobar"),
},
},
}
for _, tc := range tests {
got, err := r.GetTaskInfo(tc.qname, tc.id)
if err != nil {
t.Errorf("GetTaskInfo(%q, %v) returned error: %v", tc.qname, tc.id, err)
continue
}
if diff := cmp.Diff(tc.want, got, cmpopts.EquateApproxTime(2*time.Second)); diff != "" {
t.Errorf("GetTaskInfo(%q, %v) = %v, want %v; (-want,+got)\n%s",
tc.qname, tc.id, got, tc.want, diff)
}
}
}
func TestGetTaskInfoError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessageWithQueue("task1", nil, "default")
m2 := h.NewTaskMessageWithQueue("task2", nil, "default")
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
m5 := h.NewTaskMessageWithQueue("task5", nil, "custom")
now := time.Now()
fiveMinsFromNow := now.Add(5 * time.Minute)
oneHourFromNow := now.Add(1 * time.Hour)
twoHoursAgo := now.Add(-2 * time.Hour)
fixtures := struct {
active map[string][]*base.TaskMessage
pending map[string][]*base.TaskMessage
scheduled map[string][]base.Z
retry map[string][]base.Z
archived map[string][]base.Z
}{
active: map[string][]*base.TaskMessage{
"default": {m1},
"custom": {},
},
pending: map[string][]*base.TaskMessage{
"default": {},
"custom": {m5},
},
scheduled: map[string][]base.Z{
"default": {{Message: m2, Score: fiveMinsFromNow.Unix()}},
"custom": {},
},
retry: map[string][]base.Z{
"default": {},
"custom": {{Message: m3, Score: oneHourFromNow.Unix()}},
},
archived: map[string][]base.Z{
"default": {},
"custom": {{Message: m4, Score: twoHoursAgo.Unix()}},
},
}
h.SeedAllActiveQueues(t, r.client, fixtures.active)
h.SeedAllPendingQueues(t, r.client, fixtures.pending)
h.SeedAllScheduledQueues(t, r.client, fixtures.scheduled)
h.SeedAllRetryQueues(t, r.client, fixtures.retry)
h.SeedAllArchivedQueues(t, r.client, fixtures.archived)
tests := []struct {
qname string
id string
match func(err error) bool
}{
{
qname: "nonexistent",
id: m1.ID,
match: errors.IsQueueNotFound,
},
{
qname: "default",
id: uuid.NewString(),
match: errors.IsTaskNotFound,
},
}
for _, tc := range tests {
info, err := r.GetTaskInfo(tc.qname, tc.id)
if info != nil {
t.Errorf("GetTaskInfo(%q, %v) returned info: %v", tc.qname, tc.id, info)
}
if !tc.match(err) {
t.Errorf("GetTaskInfo(%q, %v) returned unexpected error: %v", tc.qname, tc.id, err)
}
}
}
func TestListPending(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"subject": "hello"}))
m2 := h.NewTaskMessage("reindex", nil)
m3 := h.NewTaskMessageWithQueue("important_notification", nil, "critical")
m4 := h.NewTaskMessageWithQueue("minor_notification", nil, "low")
tests := []struct {
pending map[string][]*base.TaskMessage
qname string
want []*base.TaskInfo
}{
{
pending: map[string][]*base.TaskMessage{
base.DefaultQueueName: {m1, m2},
},
qname: base.DefaultQueueName,
want: []*base.TaskInfo{
{Message: m1, State: base.TaskStatePending, NextProcessAt: time.Now(), Result: nil},
{Message: m2, State: base.TaskStatePending, NextProcessAt: time.Now(), Result: nil},
},
},
{
pending: map[string][]*base.TaskMessage{
base.DefaultQueueName: nil,
},
qname: base.DefaultQueueName,
want: []*base.TaskInfo(nil),
},
{
pending: map[string][]*base.TaskMessage{
base.DefaultQueueName: {m1, m2},
"critical": {m3},
"low": {m4},
},
qname: base.DefaultQueueName,
want: []*base.TaskInfo{
{Message: m1, State: base.TaskStatePending, NextProcessAt: time.Now(), Result: nil},
{Message: m2, State: base.TaskStatePending, NextProcessAt: time.Now(), Result: nil},
},
},
{
pending: map[string][]*base.TaskMessage{
base.DefaultQueueName: {m1, m2},
"critical": {m3},
"low": {m4},
},
qname: "critical",
want: []*base.TaskInfo{
{Message: m3, State: base.TaskStatePending, NextProcessAt: time.Now(), Result: nil},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllPendingQueues(t, r.client, tc.pending)
got, err := r.ListPending(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListPending(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.want)
continue
}
if diff := cmp.Diff(tc.want, got, cmpopts.EquateApproxTime(2*time.Second)); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s", op, got, err, tc.want, diff)
continue
}
}
}
func TestListPendingPagination(t *testing.T) {
r := setup(t)
defer r.Close()
var msgs []*base.TaskMessage
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
msgs = append(msgs, msg)
}
// create 100 tasks in default queue
h.SeedPendingQueue(t, r.client, msgs, "default")
msgs = []*base.TaskMessage(nil) // empty list
for i := 0; i < 100; i++ {
msg := h.NewTaskMessageWithQueue(fmt.Sprintf("custom %d", i), nil, "custom")
msgs = append(msgs, msg)
}
// create 100 tasks in custom queue
h.SeedPendingQueue(t, r.client, msgs, "custom")
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
{"second page with custom queue", "custom", 1, 20, 20, "custom 20", "custom 39"},
}
for _, tc := range tests {
got, err := r.ListPending(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListPending(%q, Pagination{Size: %d, Page: %d})", tc.qname, tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned a list of size %d, want %d", tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListActive(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task2", nil, "critical")
m4 := h.NewTaskMessageWithQueue("task2", nil, "low")
tests := []struct {
inProgress map[string][]*base.TaskMessage
qname string
want []*base.TaskInfo
}{
{
inProgress: map[string][]*base.TaskMessage{
"default": {m1, m2},
"critical": {m3},
"low": {m4},
},
qname: "default",
want: []*base.TaskInfo{
{Message: m1, State: base.TaskStateActive, NextProcessAt: time.Time{}, Result: nil},
{Message: m2, State: base.TaskStateActive, NextProcessAt: time.Time{}, Result: nil},
},
},
{
inProgress: map[string][]*base.TaskMessage{
"default": {},
},
qname: "default",
want: []*base.TaskInfo(nil),
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllActiveQueues(t, r.client, tc.inProgress)
got, err := r.ListActive(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListActive(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.inProgress)
continue
}
if diff := cmp.Diff(tc.want, got, cmpopts.EquateApproxTime(1*time.Second)); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s", op, got, err, tc.want, diff)
continue
}
}
}
func TestListActivePagination(t *testing.T) {
r := setup(t)
defer r.Close()
var msgs []*base.TaskMessage
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
msgs = append(msgs, msg)
}
h.SeedActiveQueue(t, r.client, msgs, "default")
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
}
for _, tc := range tests {
got, err := r.ListActive(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListActive(%q, Pagination{Size: %d, Page: %d})", tc.qname, tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned list of size %d, want %d", tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListScheduled(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessage("task3", nil)
m4 := h.NewTaskMessageWithQueue("task3", nil, "custom")
p1 := time.Now().Add(30 * time.Minute)
p2 := time.Now().Add(24 * time.Hour)
p3 := time.Now().Add(5 * time.Minute)
p4 := time.Now().Add(2 * time.Minute)
tests := []struct {
scheduled map[string][]base.Z
qname string
want []*base.TaskInfo
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: p1.Unix()},
{Message: m2, Score: p2.Unix()},
{Message: m3, Score: p3.Unix()},
},
"custom": {
{Message: m4, Score: p4.Unix()},
},
},
qname: "default",
// should be sorted by score in ascending order
want: []*base.TaskInfo{
{Message: m3, NextProcessAt: p3, State: base.TaskStateScheduled, Result: nil},
{Message: m1, NextProcessAt: p1, State: base.TaskStateScheduled, Result: nil},
{Message: m2, NextProcessAt: p2, State: base.TaskStateScheduled, Result: nil},
},
},
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: p1.Unix()},
{Message: m2, Score: p2.Unix()},
{Message: m3, Score: p3.Unix()},
},
"custom": {
{Message: m4, Score: p4.Unix()},
},
},
qname: "custom",
want: []*base.TaskInfo{
{Message: m4, NextProcessAt: p4, State: base.TaskStateScheduled, Result: nil},
},
},
{
scheduled: map[string][]base.Z{
"default": {},
},
qname: "default",
want: []*base.TaskInfo(nil),
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
got, err := r.ListScheduled(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListScheduled(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.want)
continue
}
if diff := cmp.Diff(tc.want, got, cmpopts.EquateApproxTime(1*time.Second)); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s", op, got, err, tc.want, diff)
continue
}
}
}
func TestListScheduledPagination(t *testing.T) {
r := setup(t)
defer r.Close()
// create 100 tasks with an increasing number of wait time.
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
if err := r.Schedule(context.Background(), msg, time.Now().Add(time.Duration(i)*time.Second)); err != nil {
t.Fatal(err)
}
}
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
}
for _, tc := range tests {
got, err := r.ListScheduled(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListScheduled(%q, Pagination{Size: %d, Page: %d})", tc.qname, tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned list of size %d, want %d", tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListRetry(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task1",
Queue: "default",
Payload: nil,
ErrorMsg: "some error occurred",
Retry: 25,
Retried: 10,
}
m2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task2",
Queue: "default",
Payload: nil,
ErrorMsg: "some error occurred",
Retry: 25,
Retried: 2,
}
m3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task3",
Queue: "custom",
Payload: nil,
ErrorMsg: "some error occurred",
Retry: 25,
Retried: 3,
}
p1 := time.Now().Add(5 * time.Minute)
p2 := time.Now().Add(24 * time.Hour)
p3 := time.Now().Add(24 * time.Hour)
tests := []struct {
retry map[string][]base.Z
qname string
want []*base.TaskInfo
}{
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: p1.Unix()},
{Message: m2, Score: p2.Unix()},
},
"custom": {
{Message: m3, Score: p3.Unix()},
},
},
qname: "default",
want: []*base.TaskInfo{
{Message: m1, NextProcessAt: p1, State: base.TaskStateRetry, Result: nil},
{Message: m2, NextProcessAt: p2, State: base.TaskStateRetry, Result: nil},
},
},
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: p1.Unix()},
{Message: m2, Score: p2.Unix()},
},
"custom": {
{Message: m3, Score: p3.Unix()},
},
},
qname: "custom",
want: []*base.TaskInfo{
{Message: m3, NextProcessAt: p3, State: base.TaskStateRetry, Result: nil},
},
},
{
retry: map[string][]base.Z{
"default": {},
},
qname: "default",
want: []*base.TaskInfo(nil),
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllRetryQueues(t, r.client, tc.retry)
got, err := r.ListRetry(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListRetry(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.want)
continue
}
if diff := cmp.Diff(tc.want, got, cmpopts.EquateApproxTime(1*time.Second)); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s",
op, got, err, tc.want, diff)
continue
}
}
}
func TestListRetryPagination(t *testing.T) {
r := setup(t)
defer r.Close()
// create 100 tasks with an increasing number of wait time.
now := time.Now()
var seed []base.Z
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
processAt := now.Add(time.Duration(i) * time.Second)
seed = append(seed, base.Z{Message: msg, Score: processAt.Unix()})
}
h.SeedRetryQueue(t, r.client, seed, "default")
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
}
for _, tc := range tests {
got, err := r.ListRetry(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListRetry(%q, Pagination{Size: %d, Page: %d})",
tc.qname, tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned list of size %d, want %d",
tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListArchived(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task1",
Queue: "default",
Payload: nil,
ErrorMsg: "some error occurred",
}
m2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task2",
Queue: "default",
Payload: nil,
ErrorMsg: "some error occurred",
}
m3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task3",
Queue: "custom",
Payload: nil,
ErrorMsg: "some error occurred",
}
f1 := time.Now().Add(-5 * time.Minute)
f2 := time.Now().Add(-24 * time.Hour)
f3 := time.Now().Add(-4 * time.Hour)
tests := []struct {
archived map[string][]base.Z
qname string
want []*base.TaskInfo
}{
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: f1.Unix()},
{Message: m2, Score: f2.Unix()},
},
"custom": {
{Message: m3, Score: f3.Unix()},
},
},
qname: "default",
want: []*base.TaskInfo{
{Message: m2, NextProcessAt: time.Time{}, State: base.TaskStateArchived, Result: nil}, // FIXME: shouldn't be sorted in the other order?
{Message: m1, NextProcessAt: time.Time{}, State: base.TaskStateArchived, Result: nil},
},
},
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: f1.Unix()},
{Message: m2, Score: f2.Unix()},
},
"custom": {
{Message: m3, Score: f3.Unix()},
},
},
qname: "custom",
want: []*base.TaskInfo{
{Message: m3, NextProcessAt: time.Time{}, State: base.TaskStateArchived, Result: nil},
},
},
{
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: []*base.TaskInfo(nil),
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.ListArchived(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListArchived(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.want)
continue
}
if diff := cmp.Diff(tc.want, got); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s",
op, got, err, tc.want, diff)
continue
}
}
}
func TestListArchivedPagination(t *testing.T) {
r := setup(t)
defer r.Close()
var entries []base.Z
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
entries = append(entries, base.Z{Message: msg, Score: int64(i)})
}
h.SeedArchivedQueue(t, r.client, entries, "default")
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
}
for _, tc := range tests {
got, err := r.ListArchived(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListArchived(Pagination{Size: %d, Page: %d})",
tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned list of size %d, want %d",
tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListCompleted(t *testing.T) {
r := setup(t)
defer r.Close()
msg1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "foo",
Queue: "default",
CompletedAt: time.Now().Add(-2 * time.Hour).Unix(),
}
msg2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "foo",
Queue: "default",
CompletedAt: time.Now().Add(-5 * time.Hour).Unix(),
}
msg3 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "foo",
Queue: "custom",
CompletedAt: time.Now().Add(-5 * time.Hour).Unix(),
}
expireAt1 := time.Now().Add(3 * time.Hour)
expireAt2 := time.Now().Add(4 * time.Hour)
expireAt3 := time.Now().Add(5 * time.Hour)
tests := []struct {
completed map[string][]base.Z
qname string
want []*base.TaskInfo
}{
{
completed: map[string][]base.Z{
"default": {
{Message: msg1, Score: expireAt1.Unix()},
{Message: msg2, Score: expireAt2.Unix()},
},
"custom": {
{Message: msg3, Score: expireAt3.Unix()},
},
},
qname: "default",
want: []*base.TaskInfo{
{Message: msg1, NextProcessAt: time.Time{}, State: base.TaskStateCompleted, Result: nil},
{Message: msg2, NextProcessAt: time.Time{}, State: base.TaskStateCompleted, Result: nil},
},
},
{
completed: map[string][]base.Z{
"default": {
{Message: msg1, Score: expireAt1.Unix()},
{Message: msg2, Score: expireAt2.Unix()},
},
"custom": {
{Message: msg3, Score: expireAt3.Unix()},
},
},
qname: "custom",
want: []*base.TaskInfo{
{Message: msg3, NextProcessAt: time.Time{}, State: base.TaskStateCompleted, Result: nil},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllCompletedQueues(t, r.client, tc.completed)
got, err := r.ListCompleted(tc.qname, Pagination{Size: 20, Page: 0})
op := fmt.Sprintf("r.ListCompleted(%q, Pagination{Size: 20, Page: 0})", tc.qname)
if err != nil {
t.Errorf("%s = %v, %v, want %v, nil", op, got, err, tc.want)
continue
}
if diff := cmp.Diff(tc.want, got); diff != "" {
t.Errorf("%s = %v, %v, want %v, nil; (-want, +got)\n%s",
op, got, err, tc.want, diff)
continue
}
}
}
func TestListCompletedPagination(t *testing.T) {
r := setup(t)
defer r.Close()
var entries []base.Z
for i := 0; i < 100; i++ {
msg := h.NewTaskMessage(fmt.Sprintf("task %d", i), nil)
entries = append(entries, base.Z{Message: msg, Score: int64(i)})
}
h.SeedCompletedQueue(t, r.client, entries, "default")
tests := []struct {
desc string
qname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{"first page", "default", 0, 20, 20, "task 0", "task 19"},
{"second page", "default", 1, 20, 20, "task 20", "task 39"},
{"different page size", "default", 2, 30, 30, "task 60", "task 89"},
{"last page", "default", 3, 30, 10, "task 90", "task 99"},
{"out of range", "default", 4, 30, 0, "", ""},
}
for _, tc := range tests {
got, err := r.ListCompleted(tc.qname, Pagination{Size: tc.size, Page: tc.page})
op := fmt.Sprintf("r.ListCompleted(Pagination{Size: %d, Page: %d})",
tc.size, tc.page)
if err != nil {
t.Errorf("%s; %s returned error %v", tc.desc, op, err)
continue
}
if len(got) != tc.wantSize {
t.Errorf("%s; %s returned list of size %d, want %d",
tc.desc, op, len(got), tc.wantSize)
continue
}
if tc.wantSize == 0 {
continue
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("%s; %s returned a list with first message %q, want %q",
tc.desc, op, first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("%s; %s returned a list with the last message %q, want %q",
tc.desc, op, last.Type, tc.wantLast)
}
}
}
func TestListAggregating(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
m1 := h.NewTaskMessageBuilder().SetType("task1").SetQueue("default").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetType("task2").SetQueue("default").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetType("task3").SetQueue("default").SetGroup("group2").Build()
m4 := h.NewTaskMessageBuilder().SetType("task4").SetQueue("custom").SetGroup("group3").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
{Msg: m4, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1", "group2"},
base.AllGroups("custom"): {"group3"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-30 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
base.GroupKey("default", "group2"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
base.GroupKey("custom", "group3"): {
{Member: m4.ID, Score: float64(now.Add(-40 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
gname string
want []*base.TaskInfo
}{
{
desc: "with group1 in default queue",
qname: "default",
gname: "group1",
want: []*base.TaskInfo{
{Message: m1, State: base.TaskStateAggregating, NextProcessAt: time.Time{}, Result: nil},
{Message: m2, State: base.TaskStateAggregating, NextProcessAt: time.Time{}, Result: nil},
},
},
{
desc: "with group3 in custom queue",
qname: "custom",
gname: "group3",
want: []*base.TaskInfo{
{Message: m4, State: base.TaskStateAggregating, NextProcessAt: time.Time{}, Result: nil},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.ListAggregating(tc.qname, tc.gname, Pagination{})
if err != nil {
t.Fatalf("ListAggregating returned error: %v", err)
}
if diff := cmp.Diff(tc.want, got); diff != "" {
t.Errorf("ListAggregating = %v, want %v; (-want,+got)\n%s", got, tc.want, diff)
}
})
}
}
func TestListAggregatingPagination(t *testing.T) {
r := setup(t)
defer r.Close()
groupkey := base.GroupKey("default", "mygroup")
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{}, // will be populated below
allQueues: []string{"default"},
allGroups: map[string][]string{
base.AllGroups("default"): {"mygroup"},
},
groups: map[string][]*redis.Z{
groupkey: {}, // will be populated below
},
}
now := time.Now()
for i := 0; i < 100; i++ {
msg := h.NewTaskMessageBuilder().SetType(fmt.Sprintf("task%d", i)).SetGroup("mygroup").Build()
fxt.tasks = append(fxt.tasks, &h.TaskSeedData{
Msg: msg, State: base.TaskStateAggregating,
})
fxt.groups[groupkey] = append(fxt.groups[groupkey], &redis.Z{
Member: msg.ID,
Score: float64(now.Add(-time.Duration(100-i) * time.Second).Unix()),
})
}
tests := []struct {
desc string
qname string
gname string
page int
size int
wantSize int
wantFirst string
wantLast string
}{
{
desc: "first page",
qname: "default",
gname: "mygroup",
page: 0,
size: 20,
wantSize: 20,
wantFirst: "task0",
wantLast: "task19",
},
{
desc: "second page",
qname: "default",
gname: "mygroup",
page: 1,
size: 20,
wantSize: 20,
wantFirst: "task20",
wantLast: "task39",
},
{
desc: "with different page size",
qname: "default",
gname: "mygroup",
page: 2,
size: 30,
wantSize: 30,
wantFirst: "task60",
wantLast: "task89",
},
{
desc: "last page",
qname: "default",
gname: "mygroup",
page: 3,
size: 30,
wantSize: 10,
wantFirst: "task90",
wantLast: "task99",
},
{
desc: "out of range",
qname: "default",
gname: "mygroup",
page: 4,
size: 30,
wantSize: 0,
wantFirst: "",
wantLast: "",
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.ListAggregating(tc.qname, tc.gname, Pagination{Page: tc.page, Size: tc.size})
if err != nil {
t.Fatalf("ListAggregating returned error: %v", err)
}
if len(got) != tc.wantSize {
t.Errorf("got %d results, want %d", len(got), tc.wantSize)
}
if len(got) == 0 {
return
}
first := got[0].Message
if first.Type != tc.wantFirst {
t.Errorf("First message %q, want %q", first.Type, tc.wantFirst)
}
last := got[len(got)-1].Message
if last.Type != tc.wantLast {
t.Errorf("Last message %q, want %q", last.Type, tc.wantLast)
}
})
}
}
func TestListTasksError(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
desc string
qname string
match func(err error) bool
}{
{
desc: "It returns QueueNotFoundError if queue doesn't exist",
qname: "nonexistent",
match: errors.IsQueueNotFound,
},
}
for _, tc := range tests {
pgn := Pagination{Page: 0, Size: 20}
if _, got := r.ListActive(tc.qname, pgn); !tc.match(got) {
t.Errorf("%s: ListActive returned %v", tc.desc, got)
}
if _, got := r.ListPending(tc.qname, pgn); !tc.match(got) {
t.Errorf("%s: ListPending returned %v", tc.desc, got)
}
if _, got := r.ListScheduled(tc.qname, pgn); !tc.match(got) {
t.Errorf("%s: ListScheduled returned %v", tc.desc, got)
}
if _, got := r.ListRetry(tc.qname, pgn); !tc.match(got) {
t.Errorf("%s: ListRetry returned %v", tc.desc, got)
}
if _, got := r.ListArchived(tc.qname, pgn); !tc.match(got) {
t.Errorf("%s: ListArchived returned %v", tc.desc, got)
}
}
}
var (
timeCmpOpt = cmpopts.EquateApproxTime(2 * time.Second) // allow for 2 seconds margin in time.Time
zScoreCmpOpt = h.EquateInt64Approx(2) // allow for 2 seconds margin in Z.Score
)
func TestRunArchivedTask(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessageWithQueue("send_notification", nil, "critical")
s1 := time.Now().Add(-5 * time.Minute).Unix()
s2 := time.Now().Add(-time.Hour).Unix()
tests := []struct {
archived map[string][]base.Z
qname string
id string
wantArchived map[string][]*base.TaskMessage
wantPending map[string][]*base.TaskMessage
}{
{
archived: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
},
qname: "default",
id: t2.ID,
wantArchived: map[string][]*base.TaskMessage{
"default": {t1},
},
wantPending: map[string][]*base.TaskMessage{
"default": {t2},
},
},
{
archived: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
"critical": {
{Message: t3, Score: s1},
},
},
qname: "critical",
id: t3.ID,
wantArchived: map[string][]*base.TaskMessage{
"default": {t1, t2},
"critical": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
"critical": {t3},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
if got := r.RunTask(tc.qname, tc.id); got != nil {
t.Errorf("r.RunTask(%q, %s) returned error: %v", tc.qname, tc.id, got)
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)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q, (-want, +got)\n%s", base.ArchivedKey(qname), diff)
}
}
}
}
func TestRunRetryTask(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessageWithQueue("send_notification", nil, "low")
s1 := time.Now().Add(-5 * time.Minute).Unix()
s2 := time.Now().Add(-time.Hour).Unix()
tests := []struct {
retry map[string][]base.Z
qname string
id string
wantRetry map[string][]*base.TaskMessage
wantPending map[string][]*base.TaskMessage
}{
{
retry: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
},
qname: "default",
id: t2.ID,
wantRetry: map[string][]*base.TaskMessage{
"default": {t1},
},
wantPending: map[string][]*base.TaskMessage{
"default": {t2},
},
},
{
retry: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
"low": {
{Message: t3, Score: s2},
},
},
qname: "low",
id: t3.ID,
wantRetry: map[string][]*base.TaskMessage{
"default": {t1, t2},
"low": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
"low": {t3},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllRetryQueues(t, r.client, tc.retry) // initialize retry queue
if got := r.RunTask(tc.qname, tc.id); got != nil {
t.Errorf("r.RunTask(%q, %s) returned error: %v", tc.qname, tc.id, got)
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)
}
}
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)
}
}
}
}
func TestRunAggregatingTask(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group1").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
id string
wantPending map[string][]string
wantAllGroups map[string][]string
wantGroups map[string][]redis.Z
}{
{
desc: "schedules task from a group with multiple tasks",
qname: "default",
id: m1.ID,
wantPending: map[string][]string{
base.PendingKey("default"): {m1.ID},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
},
{
desc: "schedules task from a group with a single task",
qname: "custom",
id: m3.ID,
wantPending: map[string][]string{
base.PendingKey("custom"): {m3.ID},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
err := r.RunTask(tc.qname, tc.id)
if err != nil {
t.Fatalf("RunTask returned error: %v", err)
}
h.AssertRedisLists(t, r.client, tc.wantPending)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
})
}
}
func TestRunScheduledTask(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessageWithQueue("send_notification", nil, "notifications")
s1 := time.Now().Add(-5 * time.Minute).Unix()
s2 := time.Now().Add(-time.Hour).Unix()
tests := []struct {
scheduled map[string][]base.Z
qname string
id string
wantScheduled map[string][]*base.TaskMessage
wantPending map[string][]*base.TaskMessage
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
},
qname: "default",
id: t2.ID,
wantScheduled: map[string][]*base.TaskMessage{
"default": {t1},
},
wantPending: map[string][]*base.TaskMessage{
"default": {t2},
},
},
{
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
{Message: t2, Score: s2},
},
"notifications": {
{Message: t3, Score: s1},
},
},
qname: "notifications",
id: t3.ID,
wantScheduled: map[string][]*base.TaskMessage{
"default": {t1, t2},
"notifications": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
"notifications": {t3},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
if got := r.RunTask(tc.qname, tc.id); got != nil {
t.Errorf("r.RunTask(%q, %s) returned error: %v", tc.qname, tc.id, got)
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)
}
}
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)
}
}
}
}
func TestRunTaskError(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
s1 := time.Now().Add(-5 * time.Minute).Unix()
tests := []struct {
desc string
active map[string][]*base.TaskMessage
pending map[string][]*base.TaskMessage
scheduled map[string][]base.Z
qname string
id string
match func(err error) bool
wantActive map[string][]*base.TaskMessage
wantPending map[string][]*base.TaskMessage
wantScheduled map[string][]*base.TaskMessage
}{
{
desc: "It should return QueueNotFoundError if the queue doesn't exist",
active: map[string][]*base.TaskMessage{
"default": {},
},
pending: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
},
},
qname: "nonexistent",
id: t1.ID,
match: errors.IsQueueNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {t1},
},
},
{
desc: "It should return TaskNotFound if the task is not found in the queue",
active: map[string][]*base.TaskMessage{
"default": {},
},
pending: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: s1},
},
},
qname: "default",
id: uuid.NewString(),
match: errors.IsTaskNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {t1},
},
},
{
desc: "It should return FailedPrecondition error if task is already active",
active: map[string][]*base.TaskMessage{
"default": {t1},
},
pending: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {},
},
qname: "default",
id: t1.ID,
match: func(err error) bool { return errors.CanonicalCode(err) == errors.FailedPrecondition },
wantActive: map[string][]*base.TaskMessage{
"default": {t1},
},
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "It should return FailedPrecondition error if task is already pending",
active: map[string][]*base.TaskMessage{
"default": {},
},
pending: map[string][]*base.TaskMessage{
"default": {t1},
},
scheduled: map[string][]base.Z{
"default": {},
},
qname: "default",
id: t1.ID,
match: func(err error) bool { return errors.CanonicalCode(err) == errors.FailedPrecondition },
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantPending: map[string][]*base.TaskMessage{
"default": {t1},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
got := r.RunTask(tc.qname, tc.id)
if !tc.match(got) {
t.Errorf("%s: unexpected return value %v", tc.desc, got)
continue
}
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)
}
}
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)
}
}
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)
}
}
}
}
func TestRunAllScheduledTasks(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessage("reindex", nil)
t4 := h.NewTaskMessageWithQueue("important_notification", nil, "custom")
t5 := h.NewTaskMessageWithQueue("minor_notification", nil, "custom")
tests := []struct {
desc string
scheduled map[string][]base.Z
qname string
want int64
wantPending map[string][]*base.TaskMessage
wantScheduled map[string][]*base.TaskMessage
}{
{
desc: "with tasks in scheduled queue",
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(time.Hour).Unix()},
{Message: t2, Score: time.Now().Add(time.Hour).Unix()},
{Message: t3, Score: time.Now().Add(time.Hour).Unix()},
},
},
qname: "default",
want: 3,
wantPending: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with empty scheduled queue",
scheduled: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with custom queues",
scheduled: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(time.Hour).Unix()},
{Message: t2, Score: time.Now().Add(time.Hour).Unix()},
{Message: t3, Score: time.Now().Add(time.Hour).Unix()},
},
"custom": {
{Message: t4, Score: time.Now().Add(time.Hour).Unix()},
{Message: t5, Score: time.Now().Add(time.Hour).Unix()},
},
},
qname: "custom",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {},
"custom": {t4, t5},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
got, err := r.RunAllScheduledTasks(tc.qname)
if err != nil {
t.Errorf("%s; r.RunAllScheduledTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
continue
}
if got != tc.want {
t.Errorf("%s; r.RunAllScheduledTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
}
for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.PendingKey(qname), diff)
}
}
for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.ScheduledKey(qname), diff)
}
}
}
}
func TestRunAllRetryTasks(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessage("reindex", nil)
t4 := h.NewTaskMessageWithQueue("important_notification", nil, "custom")
t5 := h.NewTaskMessageWithQueue("minor_notification", nil, "custom")
tests := []struct {
desc string
retry map[string][]base.Z
qname string
want int64
wantPending map[string][]*base.TaskMessage
wantRetry map[string][]*base.TaskMessage
}{
{
desc: "with tasks in retry queue",
retry: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(time.Hour).Unix()},
{Message: t2, Score: time.Now().Add(time.Hour).Unix()},
{Message: t3, Score: time.Now().Add(time.Hour).Unix()},
},
},
qname: "default",
want: 3,
wantPending: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with empty retry queue",
retry: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with custom queues",
retry: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(time.Hour).Unix()},
{Message: t2, Score: time.Now().Add(time.Hour).Unix()},
{Message: t3, Score: time.Now().Add(time.Hour).Unix()},
},
"custom": {
{Message: t4, Score: time.Now().Add(time.Hour).Unix()},
{Message: t5, Score: time.Now().Add(time.Hour).Unix()},
},
},
qname: "custom",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {},
"custom": {t4, t5},
},
wantRetry: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllRetryQueues(t, r.client, tc.retry)
got, err := r.RunAllRetryTasks(tc.qname)
if err != nil {
t.Errorf("%s; r.RunAllRetryTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
continue
}
if got != tc.want {
t.Errorf("%s; r.RunAllRetryTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
}
for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.PendingKey(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("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.RetryKey(qname), diff)
}
}
}
}
func TestRunAllArchivedTasks(t *testing.T) {
r := setup(t)
defer r.Close()
t1 := h.NewTaskMessage("send_email", nil)
t2 := h.NewTaskMessage("gen_thumbnail", nil)
t3 := h.NewTaskMessage("reindex", nil)
t4 := h.NewTaskMessageWithQueue("important_notification", nil, "custom")
t5 := h.NewTaskMessageWithQueue("minor_notification", nil, "custom")
tests := []struct {
desc string
archived map[string][]base.Z
qname string
want int64
wantPending map[string][]*base.TaskMessage
wantArchived map[string][]*base.TaskMessage
}{
{
desc: "with tasks in archived queue",
archived: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(-time.Minute).Unix()},
{Message: t2, Score: time.Now().Add(-time.Minute).Unix()},
{Message: t3, Score: time.Now().Add(-time.Minute).Unix()},
},
},
qname: "default",
want: 3,
wantPending: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
},
wantArchived: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with empty archived queue",
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantArchived: map[string][]*base.TaskMessage{
"default": {},
},
},
{
desc: "with custom queues",
archived: map[string][]base.Z{
"default": {
{Message: t1, Score: time.Now().Add(-time.Minute).Unix()},
{Message: t2, Score: time.Now().Add(-time.Minute).Unix()},
{Message: t3, Score: time.Now().Add(-time.Minute).Unix()},
},
"custom": {
{Message: t4, Score: time.Now().Add(-time.Minute).Unix()},
{Message: t5, Score: time.Now().Add(-time.Minute).Unix()},
},
},
qname: "custom",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {},
"custom": {t4, t5},
},
wantArchived: map[string][]*base.TaskMessage{
"default": {t1, t2, t3},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.RunAllArchivedTasks(tc.qname)
if err != nil {
t.Errorf("%s; r.RunAllArchivedTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
continue
}
if got != tc.want {
t.Errorf("%s; r.RunAllArchivedTasks(%q) = %v, %v; want %v, nil",
tc.desc, tc.qname, got, err, tc.want)
}
for qname, want := range tc.wantPending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.PendingKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortMsgOpt); diff != "" {
t.Errorf("%s; mismatch found in %q; (-want, +got)\n%s", tc.desc, base.ArchivedKey(qname), diff)
}
}
}
}
func TestRunAllTasksError(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
desc string
qname string
match func(err error) bool
}{
{
desc: "It returns QueueNotFoundError if queue doesn't exist",
qname: "nonexistent",
match: errors.IsQueueNotFound,
},
}
for _, tc := range tests {
if _, got := r.RunAllScheduledTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: RunAllScheduledTasks returned %v", tc.desc, got)
}
if _, got := r.RunAllRetryTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: RunAllRetryTasks returned %v", tc.desc, got)
}
if _, got := r.RunAllArchivedTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: RunAllArchivedTasks returned %v", tc.desc, got)
}
if _, got := r.RunAllAggregatingTasks(tc.qname, "mygroup"); !tc.match(got) {
t.Errorf("%s: RunAllAggregatingTasks returned %v", tc.desc, got)
}
}
}
func TestRunAllAggregatingTasks(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group2").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group2"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group2"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
gname string
want int64
wantPending map[string][]string
wantGroups map[string][]redis.Z
wantAllGroups map[string][]string
}{
{
desc: "schedules tasks in a group with multiple tasks",
qname: "default",
gname: "group1",
want: 2,
wantPending: map[string][]string{
base.PendingKey("default"): {m1.ID, m2.ID},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {},
base.GroupKey("custom", "group2"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {},
base.AllGroups("custom"): {"group2"},
},
},
{
desc: "schedules tasks in a group with a single task",
qname: "custom",
gname: "group2",
want: 1,
wantPending: map[string][]string{
base.PendingKey("custom"): {m3.ID},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group2"): {},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.RunAllAggregatingTasks(tc.qname, tc.gname)
if err != nil {
t.Fatalf("RunAllAggregatingTasks returned error: %v", err)
}
if got != tc.want {
t.Errorf("RunAllAggregatingTasks = %d, want %d", got, tc.want)
}
h.AssertRedisLists(t, r.client, tc.wantPending)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
})
}
}
func TestArchiveRetryTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
t1 := time.Now().Add(1 * time.Minute)
t2 := time.Now().Add(1 * time.Hour)
t3 := time.Now().Add(2 * time.Hour)
t4 := time.Now().Add(3 * time.Hour)
tests := []struct {
retry map[string][]base.Z
archived map[string][]base.Z
qname string
id string
wantRetry map[string][]base.Z
wantArchived map[string][]base.Z
}{
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
id: m1.ID,
wantRetry: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m1, Score: time.Now().Unix()}},
},
},
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
{Message: m4, Score: t4.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
id: m3.ID,
wantRetry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m4, Score: t4.Unix()},
},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {{Message: m3, Score: time.Now().Unix()}},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllRetryQueues(t, r.client, tc.retry)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
if got := r.ArchiveTask(tc.qname, tc.id); got != nil {
t.Errorf("(*RDB).ArchiveTask(%q, %v) returned error: %v",
tc.qname, tc.id, got)
continue
}
for qname, want := range tc.wantRetry {
gotRetry := h.GetRetryEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotRetry, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.RetryKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveScheduledTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
t1 := time.Now().Add(1 * time.Minute)
t2 := time.Now().Add(1 * time.Hour)
t3 := time.Now().Add(2 * time.Hour)
t4 := time.Now().Add(3 * time.Hour)
tests := []struct {
scheduled map[string][]base.Z
archived map[string][]base.Z
qname string
id string
wantScheduled map[string][]base.Z
wantArchived map[string][]base.Z
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
id: m1.ID,
wantScheduled: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m1, Score: time.Now().Unix()}},
},
},
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
{Message: m4, Score: t4.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
id: m3.ID,
wantScheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m4, Score: t4.Unix()},
},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {{Message: m3, Score: time.Now().Unix()}},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
if got := r.ArchiveTask(tc.qname, tc.id); got != nil {
t.Errorf("(*RDB).ArchiveTask(%q, %v) returned error: %v",
tc.qname, tc.id, got)
continue
}
for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ScheduledKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveAggregatingTask(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group1").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
id string
wantArchived map[string][]redis.Z
wantAllGroups map[string][]string
wantGroups map[string][]redis.Z
}{
{
desc: "archive task from a group with multiple tasks",
qname: "default",
id: m1.ID,
wantArchived: map[string][]redis.Z{
base.ArchivedKey("default"): {
{Member: m1.ID, Score: float64(now.Unix())},
},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
},
{
desc: "archive task from a group with a single task",
qname: "custom",
id: m3.ID,
wantArchived: map[string][]redis.Z{
base.ArchivedKey("custom"): {
{Member: m3.ID, Score: float64(now.Unix())},
},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
err := r.ArchiveTask(tc.qname, tc.id)
if err != nil {
t.Fatalf("ArchiveTask returned error: %v", err)
}
h.AssertRedisZSets(t, r.client, tc.wantArchived)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
})
}
}
func TestArchivePendingTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
tests := []struct {
pending map[string][]*base.TaskMessage
archived map[string][]base.Z
qname string
id string
wantPending map[string][]*base.TaskMessage
wantArchived map[string][]base.Z
}{
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
id: m1.ID,
wantPending: map[string][]*base.TaskMessage{
"default": {m2},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m1, Score: time.Now().Unix()}},
},
},
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3, m4},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
id: m3.ID,
wantPending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m4},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {{Message: m3, Score: time.Now().Unix()}},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
if got := r.ArchiveTask(tc.qname, tc.id); got != nil {
t.Errorf("(*RDB).ArchiveTask(%q, %v) returned error: %v",
tc.qname, tc.id, got)
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)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveTaskError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
t1 := time.Now().Add(1 * time.Minute)
t2 := time.Now().Add(1 * time.Hour)
tests := []struct {
desc string
active map[string][]*base.TaskMessage
scheduled map[string][]base.Z
archived map[string][]base.Z
qname string
id string
match func(err error) bool
wantActive map[string][]*base.TaskMessage
wantScheduled map[string][]base.Z
wantArchived map[string][]base.Z
}{
{
desc: "It should return QueueNotFoundError if provided queue name doesn't exist",
active: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "nonexistent",
id: m2.ID,
match: errors.IsQueueNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
},
{
desc: "It should return TaskNotFoundError if provided task ID doesn't exist in the queue",
active: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "default",
id: uuid.NewString(),
match: errors.IsTaskNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
},
{
desc: "It should return TaskAlreadyArchivedError if task is already in archived state",
active: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "default",
id: m2.ID,
match: errors.IsTaskAlreadyArchived,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
wantArchived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
},
{
desc: "It should return FailedPrecondition error if task is active",
active: map[string][]*base.TaskMessage{
"default": {m1},
},
scheduled: map[string][]base.Z{
"default": {},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
id: m1.ID,
match: func(err error) bool { return errors.CanonicalCode(err) == errors.FailedPrecondition },
wantActive: map[string][]*base.TaskMessage{
"default": {m1},
},
wantScheduled: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got := r.ArchiveTask(tc.qname, tc.id)
if !tc.match(got) {
t.Errorf("%s: returned error didn't match: got=%v", tc.desc, got)
continue
}
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)
}
}
for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ScheduledKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt, zScoreCmpOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveAllPendingTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
now := time.Now()
t1 := now.Add(1 * time.Minute)
t2 := now.Add(1 * time.Hour)
r.SetClock(timeutil.NewSimulatedClock(now))
tests := []struct {
pending map[string][]*base.TaskMessage
archived map[string][]base.Z
qname string
want int64
wantPending map[string][]*base.TaskMessage
wantArchived map[string][]base.Z
}{
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: now.Unix()},
},
},
},
{
pending: map[string][]*base.TaskMessage{
"default": {m1},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "default",
want: 1,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
pending: map[string][]*base.TaskMessage{
"default": {},
},
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
want: 0,
wantPending: map[string][]*base.TaskMessage{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3, m4},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {
{Message: m3, Score: now.Unix()},
{Message: m4, Score: now.Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.ArchiveAllPendingTasks(tc.qname)
if got != tc.want || err != nil {
t.Errorf("(*RDB).KillAllRetryTasks(%q) = %v, %v; want %v, nil",
tc.qname, got, err, tc.want)
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)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveAllAggregatingTasks(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
r.SetClock(timeutil.NewSimulatedClock(now))
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group2").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group2"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group2"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
gname string
want int64
wantArchived map[string][]redis.Z
wantGroups map[string][]redis.Z
wantAllGroups map[string][]string
}{
{
desc: "archive tasks in a group with multiple tasks",
qname: "default",
gname: "group1",
want: 2,
wantArchived: map[string][]redis.Z{
base.ArchivedKey("default"): {
{Member: m1.ID, Score: float64(now.Unix())},
{Member: m2.ID, Score: float64(now.Unix())},
},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {},
base.GroupKey("custom", "group2"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {},
base.AllGroups("custom"): {"group2"},
},
},
{
desc: "archive tasks in a group with a single task",
qname: "custom",
gname: "group2",
want: 1,
wantArchived: map[string][]redis.Z{
base.ArchivedKey("custom"): {
{Member: m3.ID, Score: float64(now.Unix())},
},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group2"): {},
},
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.ArchiveAllAggregatingTasks(tc.qname, tc.gname)
if err != nil {
t.Fatalf("ArchiveAllAggregatingTasks returned error: %v", err)
}
if got != tc.want {
t.Errorf("ArchiveAllAggregatingTasks = %d, want %d", got, tc.want)
}
h.AssertRedisZSets(t, r.client, tc.wantArchived)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
})
}
}
func TestArchiveAllRetryTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
now := time.Now()
t1 := now.Add(1 * time.Minute)
t2 := now.Add(1 * time.Hour)
t3 := now.Add(2 * time.Hour)
t4 := now.Add(3 * time.Hour)
r.SetClock(timeutil.NewSimulatedClock(now))
tests := []struct {
retry map[string][]base.Z
archived map[string][]base.Z
qname string
want int64
wantRetry map[string][]base.Z
wantArchived map[string][]base.Z
}{
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 2,
wantRetry: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: now.Unix()},
},
},
},
{
retry: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "default",
want: 1,
wantRetry: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
retry: map[string][]base.Z{
"default": {},
},
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
want: 0,
wantRetry: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
{Message: m4, Score: t4.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
want: 2,
wantRetry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {
{Message: m3, Score: now.Unix()},
{Message: m4, Score: now.Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllRetryQueues(t, r.client, tc.retry)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.ArchiveAllRetryTasks(tc.qname)
if got != tc.want || err != nil {
t.Errorf("(*RDB).KillAllRetryTasks(%q) = %v, %v; want %v, nil",
tc.qname, got, err, tc.want)
continue
}
for qname, want := range tc.wantRetry {
gotRetry := h.GetRetryEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotRetry, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.RetryKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveAllScheduledTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
now := time.Now()
t1 := now.Add(time.Minute)
t2 := now.Add(time.Hour)
t3 := now.Add(time.Hour)
t4 := now.Add(time.Hour)
r.SetClock(timeutil.NewSimulatedClock(now))
tests := []struct {
scheduled map[string][]base.Z
archived map[string][]base.Z
qname string
want int64
wantScheduled map[string][]base.Z
wantArchived map[string][]base.Z
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 2,
wantScheduled: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: now.Unix()},
},
},
},
{
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
archived: map[string][]base.Z{
"default": {{Message: m2, Score: t2.Unix()}},
},
qname: "default",
want: 1,
wantScheduled: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: now.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
scheduled: map[string][]base.Z{
"default": {},
},
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
want: 0,
wantScheduled: map[string][]base.Z{
"default": {},
},
wantArchived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
},
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
{Message: m4, Score: t4.Unix()},
},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
want: 2,
wantScheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {},
},
wantArchived: map[string][]base.Z{
"default": {},
"custom": {
{Message: m3, Score: now.Unix()},
{Message: m4, Score: now.Unix()},
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.ArchiveAllScheduledTasks(tc.qname)
if got != tc.want || err != nil {
t.Errorf("(*RDB).KillAllScheduledTasks(%q) = %v, %v; want %v, nil",
tc.qname, got, err, tc.want)
continue
}
for qname, want := range tc.wantScheduled {
gotScheduled := h.GetScheduledEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ScheduledKey(qname), diff)
}
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want,+got)\n%s",
base.ArchivedKey(qname), diff)
}
}
}
}
func TestArchiveAllTasksError(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
desc string
qname string
match func(err error) bool
}{
{
desc: "It returns QueueNotFoundError if queue doesn't exist",
qname: "nonexistent",
match: errors.IsQueueNotFound,
},
}
for _, tc := range tests {
if _, got := r.ArchiveAllPendingTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: ArchiveAllPendingTasks returned %v", tc.desc, got)
}
if _, got := r.ArchiveAllScheduledTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: ArchiveAllScheduledTasks returned %v", tc.desc, got)
}
if _, got := r.ArchiveAllRetryTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: ArchiveAllRetryTasks returned %v", tc.desc, got)
}
}
}
func TestDeleteArchivedTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
t1 := time.Now().Add(-5 * time.Minute)
t2 := time.Now().Add(-time.Hour)
t3 := time.Now().Add(-time.Hour)
tests := []struct {
archived map[string][]base.Z
qname string
id string
wantArchived map[string][]*base.TaskMessage
}{
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
id: m1.ID,
wantArchived: map[string][]*base.TaskMessage{
"default": {m2},
},
},
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
},
},
qname: "custom",
id: m3.ID,
wantArchived: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
if got := r.DeleteTask(tc.qname, tc.id); got != nil {
t.Errorf("r.DeleteTask(%q, %v) returned error: %v", tc.qname, tc.id, got)
continue
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ArchivedKey(qname), diff)
}
}
}
}
func TestDeleteRetryTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
t1 := time.Now().Add(5 * time.Minute)
t2 := time.Now().Add(time.Hour)
t3 := time.Now().Add(time.Hour)
tests := []struct {
retry map[string][]base.Z
qname string
id string
wantRetry map[string][]*base.TaskMessage
}{
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
id: m1.ID,
wantRetry: map[string][]*base.TaskMessage{
"default": {m2},
},
},
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
},
},
qname: "custom",
id: m3.ID,
wantRetry: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllRetryQueues(t, r.client, tc.retry)
if got := r.DeleteTask(tc.qname, tc.id); got != nil {
t.Errorf("r.DeleteTask(%q, %v) returned error: %v", tc.qname, tc.id, got)
continue
}
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)
}
}
}
}
func TestDeleteScheduledTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
t1 := time.Now().Add(5 * time.Minute)
t2 := time.Now().Add(time.Hour)
t3 := time.Now().Add(time.Hour)
tests := []struct {
scheduled map[string][]base.Z
qname string
id string
wantScheduled map[string][]*base.TaskMessage
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
},
qname: "default",
id: m1.ID,
wantScheduled: map[string][]*base.TaskMessage{
"default": {m2},
},
},
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
{Message: m2, Score: t2.Unix()},
},
"custom": {
{Message: m3, Score: t3.Unix()},
},
},
qname: "custom",
id: m3.ID,
wantScheduled: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
if got := r.DeleteTask(tc.qname, tc.id); got != nil {
t.Errorf("r.DeleteTask(%q, %v) returned error: %v", tc.qname, tc.id, got)
continue
}
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)
}
}
}
}
func TestDeleteAggregatingTask(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group1").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
id string
wantAllGroups map[string][]string
wantGroups map[string][]redis.Z
}{
{
desc: "deletes a task from group with multiple tasks",
qname: "default",
id: m1.ID,
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
},
{
desc: "deletes a task from group with single task",
qname: "custom",
id: m3.ID,
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {}, // should be clear out group from all-groups set
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
err := r.DeleteTask(tc.qname, tc.id)
if err != nil {
t.Fatalf("DeleteTask returned error: %v", err)
}
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
})
}
}
func TestDeletePendingTask(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
tests := []struct {
pending map[string][]*base.TaskMessage
qname string
id string
wantPending map[string][]*base.TaskMessage
}{
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
},
qname: "default",
id: m1.ID,
wantPending: map[string][]*base.TaskMessage{
"default": {m2},
},
},
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
qname: "custom",
id: m3.ID,
wantPending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllPendingQueues(t, r.client, tc.pending)
if got := r.DeleteTask(tc.qname, tc.id); got != nil {
t.Errorf("r.DeleteTask(%q, %v) returned error: %v", tc.qname, tc.id, got)
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)
}
}
}
}
func TestDeleteTaskWithUniqueLock(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "email",
Payload: h.JSON(map[string]interface{}{"user_id": json.Number("123")}),
Queue: base.DefaultQueueName,
UniqueKey: base.UniqueKey(base.DefaultQueueName, "email", h.JSON(map[string]interface{}{"user_id": 123})),
}
t1 := time.Now().Add(3 * time.Hour)
tests := []struct {
scheduled map[string][]base.Z
qname string
id string
uniqueKey string
wantScheduled map[string][]*base.TaskMessage
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: t1.Unix()},
},
},
qname: "default",
id: m1.ID,
uniqueKey: m1.UniqueKey,
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
if got := r.DeleteTask(tc.qname, tc.id); got != nil {
t.Errorf("r.DeleteTask(%q, %v) returned error: %v", tc.qname, tc.id, got)
continue
}
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)
}
}
if r.client.Exists(context.Background(), tc.uniqueKey).Val() != 0 {
t.Errorf("Uniqueness lock %q still exists", tc.uniqueKey)
}
}
}
func TestDeleteTaskError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
t1 := time.Now().Add(5 * time.Minute)
tests := []struct {
desc string
active map[string][]*base.TaskMessage
scheduled map[string][]base.Z
qname string
id string
match func(err error) bool
wantActive map[string][]*base.TaskMessage
wantScheduled map[string][]*base.TaskMessage
}{
{
desc: "It should return TaskNotFoundError if task doesn't exist the queue",
active: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
qname: "default",
id: uuid.NewString(),
match: errors.IsTaskNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {m1},
},
},
{
desc: "It should return QueueNotFoundError if the queue doesn't exist",
active: map[string][]*base.TaskMessage{
"default": {},
},
scheduled: map[string][]base.Z{
"default": {{Message: m1, Score: t1.Unix()}},
},
qname: "nonexistent",
id: uuid.NewString(),
match: errors.IsQueueNotFound,
wantActive: map[string][]*base.TaskMessage{
"default": {},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {m1},
},
},
{
desc: "It should return FailedPrecondition error if task is active",
active: map[string][]*base.TaskMessage{
"default": {m1},
},
scheduled: map[string][]base.Z{
"default": {},
},
qname: "default",
id: m1.ID,
match: func(err error) bool { return errors.CanonicalCode(err) == errors.FailedPrecondition },
wantActive: map[string][]*base.TaskMessage{
"default": {m1},
},
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllActiveQueues(t, r.client, tc.active)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
got := r.DeleteTask(tc.qname, tc.id)
if !tc.match(got) {
t.Errorf("%s: r.DeleteTask(qname, id) returned %v", tc.desc, got)
continue
}
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)
}
}
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)
}
}
}
}
func TestDeleteAllArchivedTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
tests := []struct {
archived map[string][]base.Z
qname string
want int64
wantArchived map[string][]*base.TaskMessage
}{
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: time.Now().Unix()},
{Message: m2, Score: time.Now().Unix()},
},
"custom": {
{Message: m3, Score: time.Now().Unix()},
},
},
qname: "default",
want: 2,
wantArchived: map[string][]*base.TaskMessage{
"default": {},
"custom": {m3},
},
},
{
archived: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantArchived: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.DeleteAllArchivedTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllArchivedTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllArchivedTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ArchivedKey(qname), diff)
}
}
}
}
func newCompletedTaskMessage(qname, typename string, retention time.Duration, completedAt time.Time) *base.TaskMessage {
msg := h.NewTaskMessageWithQueue(typename, nil, qname)
msg.Retention = int64(retention.Seconds())
msg.CompletedAt = completedAt.Unix()
return msg
}
func TestDeleteAllCompletedTasks(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
m1 := newCompletedTaskMessage("default", "task1", 30*time.Minute, now.Add(-2*time.Minute))
m2 := newCompletedTaskMessage("default", "task2", 30*time.Minute, now.Add(-5*time.Minute))
m3 := newCompletedTaskMessage("custom", "task3", 30*time.Minute, now.Add(-5*time.Minute))
tests := []struct {
completed map[string][]base.Z
qname string
want int64
wantCompleted map[string][]*base.TaskMessage
}{
{
completed: map[string][]base.Z{
"default": {
{Message: m1, Score: m1.CompletedAt + m1.Retention},
{Message: m2, Score: m2.CompletedAt + m2.Retention},
},
"custom": {
{Message: m3, Score: m2.CompletedAt + m3.Retention},
},
},
qname: "default",
want: 2,
wantCompleted: map[string][]*base.TaskMessage{
"default": {},
"custom": {m3},
},
},
{
completed: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantCompleted: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllCompletedQueues(t, r.client, tc.completed)
got, err := r.DeleteAllCompletedTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllCompletedTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllCompletedTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
for qname, want := range tc.wantCompleted {
gotCompleted := h.GetCompletedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotCompleted, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.CompletedKey(qname), diff)
}
}
}
}
func TestDeleteAllArchivedTasksWithUniqueKey(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task1",
Payload: nil,
Timeout: 1800,
Deadline: 0,
UniqueKey: "asynq:{default}:unique:task1:nil",
Queue: "default",
}
m2 := &base.TaskMessage{
ID: uuid.NewString(),
Type: "task2",
Payload: nil,
Timeout: 1800,
Deadline: 0,
UniqueKey: "asynq:{default}:unique:task2:nil",
Queue: "default",
}
m3 := h.NewTaskMessage("task3", nil)
tests := []struct {
archived map[string][]base.Z
qname string
want int64
uniqueKeys []string // list of unique keys that should be cleared
wantArchived map[string][]*base.TaskMessage
}{
{
archived: map[string][]base.Z{
"default": {
{Message: m1, Score: time.Now().Unix()},
{Message: m2, Score: time.Now().Unix()},
{Message: m3, Score: time.Now().Unix()},
},
},
qname: "default",
want: 3,
uniqueKeys: []string{m1.UniqueKey, m2.UniqueKey},
wantArchived: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got, err := r.DeleteAllArchivedTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllArchivedTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllArchivedTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
for qname, want := range tc.wantArchived {
gotArchived := h.GetArchivedMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortMsgOpt); diff != "" {
t.Errorf("mismatch found in %q; (-want, +got)\n%s", base.ArchivedKey(qname), diff)
}
}
for _, uniqueKey := range tc.uniqueKeys {
if r.client.Exists(context.Background(), uniqueKey).Val() != 0 {
t.Errorf("Uniqueness lock %q still exists", uniqueKey)
}
}
}
}
func TestDeleteAllRetryTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
tests := []struct {
retry map[string][]base.Z
qname string
want int64
wantRetry map[string][]*base.TaskMessage
}{
{
retry: map[string][]base.Z{
"default": {
{Message: m1, Score: time.Now().Unix()},
{Message: m2, Score: time.Now().Unix()},
},
"custom": {
{Message: m3, Score: time.Now().Unix()},
},
},
qname: "custom",
want: 1,
wantRetry: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
},
{
retry: map[string][]base.Z{
"default": {},
},
qname: "default",
want: 0,
wantRetry: map[string][]*base.TaskMessage{
"default": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllRetryQueues(t, r.client, tc.retry)
got, err := r.DeleteAllRetryTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllRetryTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllRetryTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
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)
}
}
}
}
func TestDeleteAllScheduledTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
tests := []struct {
scheduled map[string][]base.Z
qname string
want int64
wantScheduled map[string][]*base.TaskMessage
}{
{
scheduled: map[string][]base.Z{
"default": {
{Message: m1, Score: time.Now().Add(time.Minute).Unix()},
{Message: m2, Score: time.Now().Add(time.Minute).Unix()},
},
"custom": {
{Message: m3, Score: time.Now().Add(time.Minute).Unix()},
},
},
qname: "default",
want: 2,
wantScheduled: map[string][]*base.TaskMessage{
"default": {},
"custom": {m3},
},
},
{
scheduled: map[string][]base.Z{
"custom": {},
},
qname: "custom",
want: 0,
wantScheduled: map[string][]*base.TaskMessage{
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
got, err := r.DeleteAllScheduledTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllScheduledTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllScheduledTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
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)
}
}
}
}
func TestDeleteAllAggregatingTasks(t *testing.T) {
r := setup(t)
defer r.Close()
now := time.Now()
m1 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task1").SetGroup("group1").Build()
m2 := h.NewTaskMessageBuilder().SetQueue("default").SetType("task2").SetGroup("group1").Build()
m3 := h.NewTaskMessageBuilder().SetQueue("custom").SetType("task3").SetGroup("group1").Build()
fxt := struct {
tasks []*h.TaskSeedData
allQueues []string
allGroups map[string][]string
groups map[string][]*redis.Z
}{
tasks: []*h.TaskSeedData{
{Msg: m1, State: base.TaskStateAggregating},
{Msg: m2, State: base.TaskStateAggregating},
{Msg: m3, State: base.TaskStateAggregating},
},
allQueues: []string{"default", "custom"},
allGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {"group1"},
},
groups: map[string][]*redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
}
tests := []struct {
desc string
qname string
gname string
want int64
wantAllGroups map[string][]string
wantGroups map[string][]redis.Z
}{
{
desc: "default queue group1",
qname: "default",
gname: "group1",
want: 2,
wantAllGroups: map[string][]string{
base.AllGroups("default"): {},
base.AllGroups("custom"): {"group1"},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): nil,
base.GroupKey("custom", "group1"): {
{Member: m3.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
},
},
},
{
desc: "custom queue group1",
qname: "custom",
gname: "group1",
want: 1,
wantAllGroups: map[string][]string{
base.AllGroups("default"): {"group1"},
base.AllGroups("custom"): {},
},
wantGroups: map[string][]redis.Z{
base.GroupKey("default", "group1"): {
{Member: m1.ID, Score: float64(now.Add(-20 * time.Second).Unix())},
{Member: m2.ID, Score: float64(now.Add(-25 * time.Second).Unix())},
},
base.GroupKey("custom", "group1"): nil,
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedTasks(t, r.client, fxt.tasks)
h.SeedRedisSet(t, r.client, base.AllQueues, fxt.allQueues)
h.SeedRedisSets(t, r.client, fxt.allGroups)
h.SeedRedisZSets(t, r.client, fxt.groups)
t.Run(tc.desc, func(t *testing.T) {
got, err := r.DeleteAllAggregatingTasks(tc.qname, tc.gname)
if err != nil {
t.Fatalf("DeleteAllAggregatingTasks returned error: %v", err)
}
if got != tc.want {
t.Errorf("DeleteAllAggregatingTasks = %d, want %d", got, tc.want)
}
h.AssertRedisSets(t, r.client, tc.wantAllGroups)
h.AssertRedisZSets(t, r.client, tc.wantGroups)
})
}
}
func TestDeleteAllPendingTasks(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
tests := []struct {
pending map[string][]*base.TaskMessage
qname string
want int64
wantPending map[string][]*base.TaskMessage
}{
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
qname: "default",
want: 2,
wantPending: map[string][]*base.TaskMessage{
"default": {},
"custom": {m3},
},
},
{
pending: map[string][]*base.TaskMessage{
"custom": {},
},
qname: "custom",
want: 0,
wantPending: map[string][]*base.TaskMessage{
"custom": {},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client) // clean up db before each test case
h.SeedAllPendingQueues(t, r.client, tc.pending)
got, err := r.DeleteAllPendingTasks(tc.qname)
if err != nil {
t.Errorf("r.DeleteAllPendingTasks(%q) returned error: %v", tc.qname, err)
}
if got != tc.want {
t.Errorf("r.DeleteAllPendingTasks(%q) = %d, nil, want %d, nil", tc.qname, got, tc.want)
}
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)
}
}
}
}
func TestDeleteAllTasksError(t *testing.T) {
r := setup(t)
defer r.Close()
tests := []struct {
desc string
qname string
match func(err error) bool
}{
{
desc: "It returns QueueNotFoundError if queue doesn't exist",
qname: "nonexistent",
match: errors.IsQueueNotFound,
},
}
for _, tc := range tests {
if _, got := r.DeleteAllPendingTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: DeleteAllPendingTasks returned %v", tc.desc, got)
}
if _, got := r.DeleteAllScheduledTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: DeleteAllScheduledTasks returned %v", tc.desc, got)
}
if _, got := r.DeleteAllRetryTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: DeleteAllRetryTasks returned %v", tc.desc, got)
}
if _, got := r.DeleteAllArchivedTasks(tc.qname); !tc.match(got) {
t.Errorf("%s: DeleteAllArchivedTasks returned %v", tc.desc, got)
}
}
}
func TestRemoveQueue(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
tests := []struct {
pending map[string][]*base.TaskMessage
inProgress map[string][]*base.TaskMessage
scheduled map[string][]base.Z
retry map[string][]base.Z
archived map[string][]base.Z
qname string // queue to remove
force bool
}{
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {},
},
inProgress: map[string][]*base.TaskMessage{
"default": {},
"custom": {},
},
scheduled: map[string][]base.Z{
"default": {},
"custom": {},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
force: false,
},
{
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
inProgress: map[string][]*base.TaskMessage{
"default": {},
"custom": {},
},
scheduled: map[string][]base.Z{
"default": {},
"custom": {{Message: m4, Score: time.Now().Unix()}},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
force: true, // allow removing non-empty queue
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllActiveQueues(t, r.client, tc.inProgress)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllRetryQueues(t, r.client, tc.retry)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
err := r.RemoveQueue(tc.qname, tc.force)
if err != nil {
t.Errorf("(*RDB).RemoveQueue(%q, %t) = %v, want nil",
tc.qname, tc.force, err)
continue
}
if r.client.SIsMember(context.Background(), base.AllQueues, tc.qname).Val() {
t.Errorf("%q is a member of %q", tc.qname, base.AllQueues)
}
keys := []string{
base.PendingKey(tc.qname),
base.ActiveKey(tc.qname),
base.LeaseKey(tc.qname),
base.ScheduledKey(tc.qname),
base.RetryKey(tc.qname),
base.ArchivedKey(tc.qname),
}
for _, key := range keys {
if r.client.Exists(context.Background(), key).Val() != 0 {
t.Errorf("key %q still exists", key)
}
}
if n := len(r.client.Keys(context.Background(), base.TaskKeyPrefix(tc.qname)+"*").Val()); n != 0 {
t.Errorf("%d keys still exists for tasks", n)
}
}
}
func TestRemoveQueueError(t *testing.T) {
r := setup(t)
defer r.Close()
m1 := h.NewTaskMessage("task1", nil)
m2 := h.NewTaskMessage("task2", nil)
m3 := h.NewTaskMessageWithQueue("task3", nil, "custom")
m4 := h.NewTaskMessageWithQueue("task4", nil, "custom")
tests := []struct {
desc string
pending map[string][]*base.TaskMessage
inProgress map[string][]*base.TaskMessage
scheduled map[string][]base.Z
retry map[string][]base.Z
archived map[string][]base.Z
qname string // queue to remove
force bool
match func(err error) bool
}{
{
desc: "removing non-existent queue",
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
inProgress: map[string][]*base.TaskMessage{
"default": {},
"custom": {},
},
scheduled: map[string][]base.Z{
"default": {},
"custom": {},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "nonexistent",
force: false,
match: errors.IsQueueNotFound,
},
{
desc: "removing non-empty queue",
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
inProgress: map[string][]*base.TaskMessage{
"default": {},
"custom": {},
},
scheduled: map[string][]base.Z{
"default": {},
"custom": {{Message: m4, Score: time.Now().Unix()}},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
force: false,
match: errors.IsQueueNotEmpty,
},
{
desc: "force removing queue with active tasks",
pending: map[string][]*base.TaskMessage{
"default": {m1, m2},
"custom": {m3},
},
inProgress: map[string][]*base.TaskMessage{
"default": {},
"custom": {m4},
},
scheduled: map[string][]base.Z{
"default": {},
"custom": {},
},
retry: map[string][]base.Z{
"default": {},
"custom": {},
},
archived: map[string][]base.Z{
"default": {},
"custom": {},
},
qname: "custom",
// Even with force=true, it should error if there are active tasks.
force: true,
match: func(err error) bool { return errors.CanonicalCode(err) == errors.FailedPrecondition },
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
h.SeedAllPendingQueues(t, r.client, tc.pending)
h.SeedAllActiveQueues(t, r.client, tc.inProgress)
h.SeedAllScheduledQueues(t, r.client, tc.scheduled)
h.SeedAllRetryQueues(t, r.client, tc.retry)
h.SeedAllArchivedQueues(t, r.client, tc.archived)
got := r.RemoveQueue(tc.qname, tc.force)
if !tc.match(got) {
t.Errorf("%s; returned error didn't match expected value; got=%v", tc.desc, got)
continue
}
// Make sure that nothing changed
for qname, want := range tc.pending {
gotPending := h.GetPendingMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotPending, h.SortMsgOpt); diff != "" {
t.Errorf("%s;mismatch found in %q; (-want,+got):\n%s", tc.desc, base.PendingKey(qname), diff)
}
}
for qname, want := range tc.inProgress {
gotActive := h.GetActiveMessages(t, r.client, qname)
if diff := cmp.Diff(want, gotActive, h.SortMsgOpt); diff != "" {
t.Errorf("%s;mismatch found in %q; (-want,+got):\n%s", tc.desc, base.ActiveKey(qname), diff)
}
}
for qname, want := range tc.scheduled {
gotScheduled := h.GetScheduledEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotScheduled, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s;mismatch found in %q; (-want,+got):\n%s", tc.desc, base.ScheduledKey(qname), diff)
}
}
for qname, want := range tc.retry {
gotRetry := h.GetRetryEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotRetry, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s;mismatch found in %q; (-want,+got):\n%s", tc.desc, base.RetryKey(qname), diff)
}
}
for qname, want := range tc.archived {
gotArchived := h.GetArchivedEntries(t, r.client, qname)
if diff := cmp.Diff(want, gotArchived, h.SortZSetEntryOpt); diff != "" {
t.Errorf("%s;mismatch found in %q; (-want,+got):\n%s", tc.desc, base.ArchivedKey(qname), diff)
}
}
}
}
func TestListServers(t *testing.T) {
r := setup(t)
defer r.Close()
started1 := time.Now().Add(-time.Hour)
info1 := &base.ServerInfo{
Host: "do.droplet1",
PID: 1234,
ServerID: "server123",
Concurrency: 10,
Queues: map[string]int{"default": 1},
Status: "active",
Started: started1,
ActiveWorkerCount: 0,
}
started2 := time.Now().Add(-2 * time.Hour)
info2 := &base.ServerInfo{
Host: "do.droplet2",
PID: 9876,
ServerID: "server456",
Concurrency: 20,
Queues: map[string]int{"email": 1},
Status: "stopped",
Started: started2,
ActiveWorkerCount: 1,
}
tests := []struct {
data []*base.ServerInfo
}{
{
data: []*base.ServerInfo{},
},
{
data: []*base.ServerInfo{info1},
},
{
data: []*base.ServerInfo{info1, info2},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, info := range tc.data {
if err := r.WriteServerState(info, []*base.WorkerInfo{}, 5*time.Second); err != nil {
t.Fatal(err)
}
}
got, err := r.ListServers()
if err != nil {
t.Errorf("r.ListServers returned an error: %v", err)
}
if diff := cmp.Diff(tc.data, got, h.SortServerInfoOpt); diff != "" {
t.Errorf("r.ListServers returned %v, want %v; (-want,+got)\n%s",
got, tc.data, diff)
}
}
}
func TestListWorkers(t *testing.T) {
r := setup(t)
defer r.Close()
var (
host = "127.0.0.1"
pid = 4567
serverID = "server123"
m1 = h.NewTaskMessage("send_email", h.JSON(map[string]interface{}{"user_id": "abc123"}))
m2 = h.NewTaskMessage("gen_thumbnail", h.JSON(map[string]interface{}{"path": "some/path/to/image/file"}))
m3 = h.NewTaskMessage("reindex", h.JSON(map[string]interface{}{}))
)
tests := []struct {
data []*base.WorkerInfo
}{
{
data: []*base.WorkerInfo{
{
Host: host,
PID: pid,
ServerID: serverID,
ID: m1.ID,
Type: m1.Type,
Queue: m1.Queue,
Payload: m1.Payload,
Started: time.Now().Add(-1 * time.Second),
Deadline: time.Now().Add(30 * time.Second),
},
{
Host: host,
PID: pid,
ServerID: serverID,
ID: m2.ID,
Type: m2.Type,
Queue: m2.Queue,
Payload: m2.Payload,
Started: time.Now().Add(-5 * time.Second),
Deadline: time.Now().Add(10 * time.Minute),
},
{
Host: host,
PID: pid,
ServerID: serverID,
ID: m3.ID,
Type: m3.Type,
Queue: m3.Queue,
Payload: m3.Payload,
Started: time.Now().Add(-30 * time.Second),
Deadline: time.Now().Add(30 * time.Minute),
},
},
},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
err := r.WriteServerState(&base.ServerInfo{}, tc.data, time.Minute)
if err != nil {
t.Errorf("could not write server state to redis: %v", err)
continue
}
got, err := r.ListWorkers()
if err != nil {
t.Errorf("(*RDB).ListWorkers() returned an error: %v", err)
continue
}
if diff := cmp.Diff(tc.data, got, h.SortWorkerInfoOpt); diff != "" {
t.Errorf("(*RDB).ListWorkers() = %v, want = %v; (-want,+got)\n%s", got, tc.data, diff)
}
}
}
func TestWriteListClearSchedulerEntries(t *testing.T) {
r := setup(t)
now := time.Now().UTC()
schedulerID := "127.0.0.1:9876:abc123"
data := []*base.SchedulerEntry{
{
Spec: "* * * * *",
Type: "foo",
Payload: nil,
Opts: nil,
Next: now.Add(5 * time.Hour),
Prev: now.Add(-2 * time.Hour),
},
{
Spec: "@every 20m",
Type: "bar",
Payload: h.JSON(map[string]interface{}{"fiz": "baz"}),
Opts: nil,
Next: now.Add(1 * time.Minute),
Prev: now.Add(-19 * time.Minute),
},
}
if err := r.WriteSchedulerEntries(schedulerID, data, 30*time.Second); err != nil {
t.Fatalf("WriteSchedulerEnties failed: %v", err)
}
entries, err := r.ListSchedulerEntries()
if err != nil {
t.Fatalf("ListSchedulerEntries failed: %v", err)
}
if diff := cmp.Diff(data, entries, h.SortSchedulerEntryOpt); diff != "" {
t.Errorf("ListSchedulerEntries() = %v, want %v; (-want,+got)\n%s", entries, data, diff)
}
if err := r.ClearSchedulerEntries(schedulerID); err != nil {
t.Fatalf("ClearSchedulerEntries failed: %v", err)
}
entries, err = r.ListSchedulerEntries()
if err != nil {
t.Fatalf("ListSchedulerEntries() after clear failed: %v", err)
}
if len(entries) != 0 {
t.Errorf("found %d entries, want 0 after clearing", len(entries))
}
}
func TestSchedulerEnqueueEvents(t *testing.T) {
r := setup(t)
var (
now = time.Now()
oneDayAgo = now.Add(-24 * time.Hour)
fiveHoursAgo = now.Add(-5 * time.Hour)
oneHourAgo = now.Add(-1 * time.Hour)
)
tests := []struct {
entryID string
events []*base.SchedulerEnqueueEvent
want []*base.SchedulerEnqueueEvent
}{
{
entryID: "entry123",
events: []*base.SchedulerEnqueueEvent{
{TaskID: "task123", EnqueuedAt: oneDayAgo},
{TaskID: "task789", EnqueuedAt: oneHourAgo},
{TaskID: "task456", EnqueuedAt: fiveHoursAgo},
},
// Recent events first
want: []*base.SchedulerEnqueueEvent{
{TaskID: "task789", EnqueuedAt: oneHourAgo},
{TaskID: "task456", EnqueuedAt: fiveHoursAgo},
{TaskID: "task123", EnqueuedAt: oneDayAgo},
},
},
{
entryID: "entry456",
events: nil,
want: nil,
},
}
loop:
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, e := range tc.events {
if err := r.RecordSchedulerEnqueueEvent(tc.entryID, e); err != nil {
t.Errorf("RecordSchedulerEnqueueEvent(%q, %v) failed: %v", tc.entryID, e, err)
continue loop
}
}
got, err := r.ListSchedulerEnqueueEvents(tc.entryID, Pagination{Size: 20, Page: 0})
if err != nil {
t.Errorf("ListSchedulerEnqueueEvents(%q) failed: %v", tc.entryID, err)
continue
}
if diff := cmp.Diff(tc.want, got, timeCmpOpt); diff != "" {
t.Errorf("ListSchedulerEnqueueEvent(%q) = %v, want %v; (-want,+got)\n%s",
tc.entryID, got, tc.want, diff)
}
}
}
func TestRecordSchedulerEnqueueEventTrimsDataSet(t *testing.T) {
r := setup(t)
var (
entryID = "entry123"
now = time.Now()
key = base.SchedulerHistoryKey(entryID)
)
// Record maximum number of events.
for i := 1; i <= maxEvents; i++ {
event := base.SchedulerEnqueueEvent{
TaskID: fmt.Sprintf("task%d", i),
EnqueuedAt: now.Add(-time.Duration(i) * time.Second),
}
if err := r.RecordSchedulerEnqueueEvent(entryID, &event); err != nil {
t.Fatalf("RecordSchedulerEnqueueEvent failed: %v", err)
}
}
// Make sure the set is full.
if n := r.client.ZCard(context.Background(), key).Val(); n != maxEvents {
t.Fatalf("unexpected number of events; got %d, want %d", n, maxEvents)
}
// Record one more event, should evict the oldest event.
event := base.SchedulerEnqueueEvent{
TaskID: "latest",
EnqueuedAt: now,
}
if err := r.RecordSchedulerEnqueueEvent(entryID, &event); err != nil {
t.Fatalf("RecordSchedulerEnqueueEvent failed: %v", err)
}
if n := r.client.ZCard(context.Background(), key).Val(); n != maxEvents {
t.Fatalf("unexpected number of events; got %d, want %d", n, maxEvents)
}
events, err := r.ListSchedulerEnqueueEvents(entryID, Pagination{Size: maxEvents})
if err != nil {
t.Fatalf("ListSchedulerEnqueueEvents failed: %v", err)
}
if first := events[0]; first.TaskID != "latest" {
t.Errorf("unexpected first event; got %q, want %q", first.TaskID, "latest")
}
if last := events[maxEvents-1]; last.TaskID != fmt.Sprintf("task%d", maxEvents-1) {
t.Errorf("unexpected last event; got %q, want %q", last.TaskID, fmt.Sprintf("task%d", maxEvents-1))
}
}
func TestPause(t *testing.T) {
r := setup(t)
tests := []struct {
qname string // name of the queue to pause
}{
{qname: "default"},
{qname: "custom"},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
err := r.Pause(tc.qname)
if err != nil {
t.Errorf("Pause(%q) returned error: %v", tc.qname, err)
}
key := base.PausedKey(tc.qname)
if r.client.Exists(context.Background(), key).Val() == 0 {
t.Errorf("key %q does not exist", key)
}
}
}
func TestPauseError(t *testing.T) {
r := setup(t)
tests := []struct {
desc string // test case description
paused []string // already paused queues
qname string // name of the queue to pause
}{
{"queue already paused", []string{"default", "custom"}, "default"},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, qname := range tc.paused {
if err := r.Pause(qname); err != nil {
t.Fatalf("could not pause %q: %v", qname, err)
}
}
err := r.Pause(tc.qname)
if err == nil {
t.Errorf("%s; Pause(%q) returned nil: want error", tc.desc, tc.qname)
}
}
}
func TestUnpause(t *testing.T) {
r := setup(t)
tests := []struct {
paused []string // already paused queues
qname string // name of the queue to unpause
}{
{[]string{"default", "custom"}, "default"},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, qname := range tc.paused {
if err := r.Pause(qname); err != nil {
t.Fatalf("could not pause %q: %v", qname, err)
}
}
err := r.Unpause(tc.qname)
if err != nil {
t.Errorf("Unpause(%q) returned error: %v", tc.qname, err)
}
key := base.PausedKey(tc.qname)
if r.client.Exists(context.Background(), key).Val() == 1 {
t.Errorf("key %q exists", key)
}
}
}
func TestUnpauseError(t *testing.T) {
r := setup(t)
tests := []struct {
desc string // test case description
paused []string // already paused queues
qname string // name of the queue to unpause
}{
{"queue is not paused", []string{"default"}, "custom"},
}
for _, tc := range tests {
h.FlushDB(t, r.client)
for _, qname := range tc.paused {
if err := r.Pause(qname); err != nil {
t.Fatalf("could not pause %q: %v", qname, err)
}
}
err := r.Unpause(tc.qname)
if err == nil {
t.Errorf("%s; Unpause(%q) returned nil: want error", tc.desc, tc.qname)
}
}
}