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asynq/internal/asynqtest/asynqtest.go
2020-09-12 12:59:03 -07:00

356 lines
12 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 asynqtest defines test helpers for asynq and its internal packages.
package asynqtest
import (
"encoding/json"
"math"
"sort"
"testing"
"github.com/go-redis/redis/v7"
"github.com/google/go-cmp/cmp"
"github.com/google/go-cmp/cmp/cmpopts"
"github.com/google/uuid"
"github.com/hibiken/asynq/internal/base"
)
// EquateInt64Approx returns a Comparer option that treats int64 values
// to be equal if they are within the given margin.
func EquateInt64Approx(margin int64) cmp.Option {
return cmp.Comparer(func(a, b int64) bool {
return math.Abs(float64(a-b)) <= float64(margin)
})
}
// SortMsgOpt is a cmp.Option to sort base.TaskMessage for comparing slice of task messages.
var SortMsgOpt = cmp.Transformer("SortTaskMessages", func(in []*base.TaskMessage) []*base.TaskMessage {
out := append([]*base.TaskMessage(nil), in...) // Copy input to avoid mutating it
sort.Slice(out, func(i, j int) bool {
return out[i].ID.String() < out[j].ID.String()
})
return out
})
// SortZSetEntryOpt is an cmp.Option to sort ZSetEntry for comparing slice of zset entries.
var SortZSetEntryOpt = cmp.Transformer("SortZSetEntries", func(in []base.Z) []base.Z {
out := append([]base.Z(nil), in...) // Copy input to avoid mutating it
sort.Slice(out, func(i, j int) bool {
return out[i].Message.ID.String() < out[j].Message.ID.String()
})
return out
})
// SortServerInfoOpt is a cmp.Option to sort base.ServerInfo for comparing slice of process info.
var SortServerInfoOpt = cmp.Transformer("SortServerInfo", func(in []*base.ServerInfo) []*base.ServerInfo {
out := append([]*base.ServerInfo(nil), in...) // Copy input to avoid mutating it
sort.Slice(out, func(i, j int) bool {
if out[i].Host != out[j].Host {
return out[i].Host < out[j].Host
}
return out[i].PID < out[j].PID
})
return out
})
// SortWorkerInfoOpt is a cmp.Option to sort base.WorkerInfo for comparing slice of worker info.
var SortWorkerInfoOpt = cmp.Transformer("SortWorkerInfo", func(in []*base.WorkerInfo) []*base.WorkerInfo {
out := append([]*base.WorkerInfo(nil), in...) // Copy input to avoid mutating it
sort.Slice(out, func(i, j int) bool {
return out[i].ID < out[j].ID
})
return out
})
// SortStringSliceOpt is a cmp.Option to sort string slice.
var SortStringSliceOpt = cmp.Transformer("SortStringSlice", func(in []string) []string {
out := append([]string(nil), in...)
sort.Strings(out)
return out
})
// IgnoreIDOpt is an cmp.Option to ignore ID field in task messages when comparing.
var IgnoreIDOpt = cmpopts.IgnoreFields(base.TaskMessage{}, "ID")
// NewTaskMessage returns a new instance of TaskMessage given a task type and payload.
func NewTaskMessage(taskType string, payload map[string]interface{}) *base.TaskMessage {
return NewTaskMessageWithQueue(taskType, payload, base.DefaultQueueName)
}
// NewTaskMessageWithQueue returns a new instance of TaskMessage given a
// task type, payload and queue name.
func NewTaskMessageWithQueue(taskType string, payload map[string]interface{}, qname string) *base.TaskMessage {
return &base.TaskMessage{
ID: uuid.New(),
Type: taskType,
Queue: qname,
Retry: 25,
Payload: payload,
Timeout: 1800, // default timeout of 30 mins
Deadline: 0, // no deadline
}
}
// TaskMessageAfterRetry returns an updated copy of t after retry.
// It increments retry count and sets the error message.
func TaskMessageAfterRetry(t base.TaskMessage, errMsg string) *base.TaskMessage {
t.Retried = t.Retried + 1
t.ErrorMsg = errMsg
return &t
}
// TaskMessageWithError returns an updated copy of t with the given error message.
func TaskMessageWithError(t base.TaskMessage, errMsg string) *base.TaskMessage {
t.ErrorMsg = errMsg
return &t
}
// MustMarshal marshals given task message and returns a json string.
// Calling test will fail if marshaling errors out.
func MustMarshal(tb testing.TB, msg *base.TaskMessage) string {
tb.Helper()
data, err := json.Marshal(msg)
if err != nil {
tb.Fatal(err)
}
return string(data)
}
// MustUnmarshal unmarshals given string into task message struct.
// Calling test will fail if unmarshaling errors out.
func MustUnmarshal(tb testing.TB, data string) *base.TaskMessage {
tb.Helper()
var msg base.TaskMessage
err := json.Unmarshal([]byte(data), &msg)
if err != nil {
tb.Fatal(err)
}
return &msg
}
// MustMarshalSlice marshals a slice of task messages and return a slice of
// json strings. Calling test will fail if marshaling errors out.
func MustMarshalSlice(tb testing.TB, msgs []*base.TaskMessage) []string {
tb.Helper()
var data []string
for _, m := range msgs {
data = append(data, MustMarshal(tb, m))
}
return data
}
// MustUnmarshalSlice unmarshals a slice of strings into a slice of task message structs.
// Calling test will fail if marshaling errors out.
func MustUnmarshalSlice(tb testing.TB, data []string) []*base.TaskMessage {
tb.Helper()
var msgs []*base.TaskMessage
for _, s := range data {
msgs = append(msgs, MustUnmarshal(tb, s))
}
return msgs
}
// FlushDB deletes all the keys of the currently selected DB.
func FlushDB(tb testing.TB, r redis.UniversalClient) {
tb.Helper()
switch r := r.(type) {
case *redis.Client:
if err := r.FlushDB().Err(); err != nil {
tb.Fatal(err)
}
case *redis.ClusterClient:
err := r.ForEachMaster(func(c *redis.Client) error {
if err := c.FlushAll().Err(); err != nil {
return err
}
return nil
})
if err != nil {
tb.Fatal(err)
}
}
}
// SeedPendingQueue initializes the specified queue with the given messages.
func SeedPendingQueue(tb testing.TB, r redis.UniversalClient, msgs []*base.TaskMessage, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisList(tb, r, base.QueueKey(qname), msgs)
}
// SeedActiveQueue initializes the active queue with the given messages.
func SeedActiveQueue(tb testing.TB, r redis.UniversalClient, msgs []*base.TaskMessage, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisList(tb, r, base.ActiveKey(qname), msgs)
}
// SeedScheduledQueue initializes the scheduled queue with the given messages.
func SeedScheduledQueue(tb testing.TB, r redis.UniversalClient, entries []base.Z, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisZSet(tb, r, base.ScheduledKey(qname), entries)
}
// SeedRetryQueue initializes the retry queue with the given messages.
func SeedRetryQueue(tb testing.TB, r redis.UniversalClient, entries []base.Z, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisZSet(tb, r, base.RetryKey(qname), entries)
}
// SeedDeadQueue initializes the dead queue with the given messages.
func SeedDeadQueue(tb testing.TB, r redis.UniversalClient, entries []base.Z, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisZSet(tb, r, base.DeadKey(qname), entries)
}
// SeedDeadlines initializes the deadlines set with the given entries.
func SeedDeadlines(tb testing.TB, r redis.UniversalClient, entries []base.Z, qname string) {
tb.Helper()
r.SAdd(base.AllQueues, qname)
seedRedisZSet(tb, r, base.DeadlinesKey(qname), entries)
}
// SeedAllPendingQueues initializes all of the specified queues with the given messages.
//
// pending maps a queue name to a list of messages.
func SeedAllPendingQueues(tb testing.TB, r redis.UniversalClient, pending map[string][]*base.TaskMessage) {
for q, msgs := range pending {
SeedPendingQueue(tb, r, msgs, q)
}
}
// SeedAllActiveQueues initializes all of the specified active queues with the given messages.
func SeedAllActiveQueues(tb testing.TB, r redis.UniversalClient, active map[string][]*base.TaskMessage) {
for q, msgs := range active {
SeedActiveQueue(tb, r, msgs, q)
}
}
// SeedAllScheduledQueues initializes all of the specified scheduled queues with the given entries.
func SeedAllScheduledQueues(tb testing.TB, r redis.UniversalClient, scheduled map[string][]base.Z) {
for q, entries := range scheduled {
SeedScheduledQueue(tb, r, entries, q)
}
}
// SeedAllRetryQueues initializes all of the specified retry queues with the given entries.
func SeedAllRetryQueues(tb testing.TB, r redis.UniversalClient, retry map[string][]base.Z) {
for q, entries := range retry {
SeedRetryQueue(tb, r, entries, q)
}
}
// SeedAllDeadQueues initializes all of the specified dead queues with the given entries.
func SeedAllDeadQueues(tb testing.TB, r redis.UniversalClient, dead map[string][]base.Z) {
for q, entries := range dead {
SeedDeadQueue(tb, r, entries, q)
}
}
// SeedAllDeadlines initializes all of the deadlines with the given entries.
func SeedAllDeadlines(tb testing.TB, r redis.UniversalClient, deadlines map[string][]base.Z) {
for q, entries := range deadlines {
SeedDeadlines(tb, r, entries, q)
}
}
func seedRedisList(tb testing.TB, c redis.UniversalClient, key string, msgs []*base.TaskMessage) {
data := MustMarshalSlice(tb, msgs)
for _, s := range data {
if err := c.LPush(key, s).Err(); err != nil {
tb.Fatal(err)
}
}
}
func seedRedisZSet(tb testing.TB, c redis.UniversalClient, key string, items []base.Z) {
for _, item := range items {
z := &redis.Z{Member: MustMarshal(tb, item.Message), Score: float64(item.Score)}
if err := c.ZAdd(key, z).Err(); err != nil {
tb.Fatal(err)
}
}
}
// GetPendingMessages returns all pending messages in the given queue.
func GetPendingMessages(tb testing.TB, r redis.UniversalClient, qname string) []*base.TaskMessage {
tb.Helper()
return getListMessages(tb, r, base.QueueKey(qname))
}
// GetActiveMessages returns all active messages in the given queue.
func GetActiveMessages(tb testing.TB, r redis.UniversalClient, qname string) []*base.TaskMessage {
tb.Helper()
return getListMessages(tb, r, base.ActiveKey(qname))
}
// GetScheduledMessages returns all scheduled task messages in the given queue.
func GetScheduledMessages(tb testing.TB, r redis.UniversalClient, qname string) []*base.TaskMessage {
tb.Helper()
return getZSetMessages(tb, r, base.ScheduledKey(qname))
}
// GetRetryMessages returns all retry messages in the given queue.
func GetRetryMessages(tb testing.TB, r redis.UniversalClient, qname string) []*base.TaskMessage {
tb.Helper()
return getZSetMessages(tb, r, base.RetryKey(qname))
}
// GetDeadMessages returns all dead messages in the given queue.
func GetDeadMessages(tb testing.TB, r redis.UniversalClient, qname string) []*base.TaskMessage {
tb.Helper()
return getZSetMessages(tb, r, base.DeadKey(qname))
}
// GetScheduledEntries returns all scheduled messages and its score in the given queue.
func GetScheduledEntries(tb testing.TB, r redis.UniversalClient, qname string) []base.Z {
tb.Helper()
return getZSetEntries(tb, r, base.ScheduledKey(qname))
}
// GetRetryEntries returns all retry messages and its score in the given queue.
func GetRetryEntries(tb testing.TB, r redis.UniversalClient, qname string) []base.Z {
tb.Helper()
return getZSetEntries(tb, r, base.RetryKey(qname))
}
// GetDeadEntries returns all dead messages and its score in the given queue.
func GetDeadEntries(tb testing.TB, r redis.UniversalClient, qname string) []base.Z {
tb.Helper()
return getZSetEntries(tb, r, base.DeadKey(qname))
}
// GetDeadlinesEntries returns all task messages and its score in the deadlines set for the given queue.
func GetDeadlinesEntries(tb testing.TB, r redis.UniversalClient, qname string) []base.Z {
tb.Helper()
return getZSetEntries(tb, r, base.DeadlinesKey(qname))
}
func getListMessages(tb testing.TB, r redis.UniversalClient, list string) []*base.TaskMessage {
data := r.LRange(list, 0, -1).Val()
return MustUnmarshalSlice(tb, data)
}
func getZSetMessages(tb testing.TB, r redis.UniversalClient, zset string) []*base.TaskMessage {
data := r.ZRange(zset, 0, -1).Val()
return MustUnmarshalSlice(tb, data)
}
func getZSetEntries(tb testing.TB, r redis.UniversalClient, zset string) []base.Z {
data := r.ZRangeWithScores(zset, 0, -1).Val()
var entries []base.Z
for _, z := range data {
entries = append(entries, base.Z{
Message: MustUnmarshal(tb, z.Member.(string)),
Score: int64(z.Score),
})
}
return entries
}