asynq/benchmark_test.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 asynq

import (
	"context"
	"fmt"
	"sync"
	"testing"
	"time"
)

// Simple E2E Benchmark testing with no scheduled tasks and retries.
func BenchmarkEndToEndSimple(b *testing.B) {
	const count = 100000
	for n := 0; n < b.N; n++ {
		b.StopTimer() // begin setup
		setup(b)
		redis := &RedisClientOpt{
			Addr: redisAddr,
			DB:   redisDB,
		}
		client := NewClient(redis)
		srv := NewServer(redis, Config{
			Concurrency: 10,
			RetryDelayFunc: func(n int, err error, t *Task) time.Duration {
				return time.Second
			},
			LogLevel: testLogLevel,
		})
		// Create a bunch of tasks
		for i := 0; i < count; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}

		var wg sync.WaitGroup
		wg.Add(count)
		handler := func(ctx context.Context, t *Task) error {
			wg.Done()
			return nil
		}
		b.StartTimer() // end setup

		srv.Start(HandlerFunc(handler))
		wg.Wait()

		b.StopTimer() // begin teardown
		srv.Stop()
		b.StartTimer() // end teardown
	}
}

// E2E benchmark with scheduled tasks and retries.
func BenchmarkEndToEnd(b *testing.B) {
	const count = 100000
	for n := 0; n < b.N; n++ {
		b.StopTimer() // begin setup
		setup(b)
		redis := &RedisClientOpt{
			Addr: redisAddr,
			DB:   redisDB,
		}
		client := NewClient(redis)
		srv := NewServer(redis, Config{
			Concurrency: 10,
			RetryDelayFunc: func(n int, err error, t *Task) time.Duration {
				return time.Second
			},
			LogLevel: testLogLevel,
		})
		// Create a bunch of tasks
		for i := 0; i < count; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}
		for i := 0; i < count; i++ {
			t := NewTask(fmt.Sprintf("scheduled%d", i), map[string]interface{}{"data": i})
			if err := client.EnqueueAt(time.Now().Add(time.Second), t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}

		var wg sync.WaitGroup
		wg.Add(count * 2)
		handler := func(ctx context.Context, t *Task) error {
			n, err := t.Payload.GetInt("data")
			if err != nil {
				b.Logf("internal error: %v", err)
			}
			retried, ok := GetRetryCount(ctx)
			if !ok {
				b.Logf("internal error: %v", err)
			}
			// Fail 1% of tasks for the first attempt.
			if retried == 0 && n%100 == 0 {
				return fmt.Errorf(":(")
			}
			wg.Done()
			return nil
		}
		b.StartTimer() // end setup

		srv.Start(HandlerFunc(handler))
		wg.Wait()

		b.StopTimer() // begin teardown
		srv.Stop()
		b.StartTimer() // end teardown
	}
}

// Simple E2E Benchmark testing with no scheduled tasks and retries with multiple queues.
func BenchmarkEndToEndMultipleQueues(b *testing.B) {
	// number of tasks to create for each queue
	const (
		highCount    = 20000
		defaultCount = 20000
		lowCount     = 20000
	)
	for n := 0; n < b.N; n++ {
		b.StopTimer() // begin setup
		setup(b)
		redis := &RedisClientOpt{
			Addr: redisAddr,
			DB:   redisDB,
		}
		client := NewClient(redis)
		srv := NewServer(redis, Config{
			Concurrency: 10,
			Queues: map[string]int{
				"high":    6,
				"default": 3,
				"low":     1,
			},
			LogLevel: testLogLevel,
		})
		// Create a bunch of tasks
		for i := 0; i < highCount; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t, Queue("high")); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}
		for i := 0; i < defaultCount; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}
		for i := 0; i < lowCount; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t, Queue("low")); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}

		var wg sync.WaitGroup
		wg.Add(highCount + defaultCount + lowCount)
		handler := func(ctx context.Context, t *Task) error {
			wg.Done()
			return nil
		}
		b.StartTimer() // end setup

		srv.Start(HandlerFunc(handler))
		wg.Wait()

		b.StopTimer() // begin teardown
		srv.Stop()
		b.StartTimer() // end teardown
	}
}

// E2E benchmark to check client enqueue operation performs correctly,
// while server is busy processing tasks.
func BenchmarkClientWhileServerRunning(b *testing.B) {
	const count = 10000
	for n := 0; n < b.N; n++ {
		b.StopTimer() // begin setup
		setup(b)
		redis := &RedisClientOpt{
			Addr: redisAddr,
			DB:   redisDB,
		}
		client := NewClient(redis)
		srv := NewServer(redis, Config{
			Concurrency: 10,
			RetryDelayFunc: func(n int, err error, t *Task) time.Duration {
				return time.Second
			},
			LogLevel: testLogLevel,
		})
		// Enqueue 10,000 tasks.
		for i := 0; i < count; i++ {
			t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})
			if err := client.Enqueue(t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}
		// Schedule 10,000 tasks.
		for i := 0; i < count; i++ {
			t := NewTask(fmt.Sprintf("scheduled%d", i), map[string]interface{}{"data": i})
			if err := client.EnqueueAt(time.Now().Add(time.Second), t); err != nil {
				b.Fatalf("could not enqueue a task: %v", err)
			}
		}

		handler := func(ctx context.Context, t *Task) error {
			return nil
		}
		srv.Start(HandlerFunc(handler))

		b.StartTimer() // end setup

		b.Log("Starting enqueueing")
		enqueued := 0
		for enqueued < 100000 {
			t := NewTask(fmt.Sprintf("enqueued%d", enqueued), map[string]interface{}{"data": enqueued})
			if err := client.Enqueue(t); err != nil {
				b.Logf("could not enqueue task %d: %v", enqueued, err)
				continue
			}
			enqueued++
		}
		b.Logf("Finished enqueueing %d tasks", enqueued)

		b.StopTimer() // begin teardown
		srv.Stop()
		b.StartTimer() // end teardown
	}
}
Add license comment to all src files 2020-01-03 10:13:16 +08:00			`// 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.`

Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`package asynq`

			`import (`
Change Handler interface to take context.Context 2020-02-11 23:06:52 +08:00			`"context"`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`"fmt"`
			`"sync"`
			`"testing"`
			`"time"`
			`)`

Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`// Simple E2E Benchmark testing with no scheduled tasks and retries.`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`func BenchmarkEndToEndSimple(b *testing.B) {`
			`const count = 100000`
			`for n := 0; n < b.N; n++ {`
			`b.StopTimer() // begin setup`
Fix benchmark tests 2020-01-19 02:17:39 +08:00			`setup(b)`
			`redis := &RedisClientOpt{`
			`Addr: redisAddr,`
			`DB: redisDB,`
			`}`
			`client := NewClient(redis)`
Rename Background to Server 2020-04-12 23:16:42 +08:00			`srv := NewServer(redis, Config{`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`Concurrency: 10,`
			`RetryDelayFunc: func(n int, err error, t *Task) time.Duration {`
			`return time.Second`
			`},`
Limit the number of tasks moved by CheckAndEnqueue to prevent a long running script 2020-06-08 04:04:27 +08:00			`LogLevel: testLogLevel,`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`})`
			`// Create a bunch of tasks`
			`for i := 0; i < count; i++ {`
Make Task type immutable This change makes it impossible to mutate payload within Handler or RetryDelayFunc. 2020-01-05 05:13:46 +08:00			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.Enqueue(t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`}`

			`var wg sync.WaitGroup`
			`wg.Add(count)`
Change Handler interface to take context.Context 2020-02-11 23:06:52 +08:00			`handler := func(ctx context.Context, t *Task) error {`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`wg.Done()`
			`return nil`
			`}`
			`b.StartTimer() // end setup`

Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Start(HandlerFunc(handler))`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`wg.Wait()`

			`b.StopTimer() // begin teardown`
Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Stop()`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`b.StartTimer() // end teardown`
			`}`
			`}`

			`// E2E benchmark with scheduled tasks and retries.`
			`func BenchmarkEndToEnd(b *testing.B) {`
			`const count = 100000`
			`for n := 0; n < b.N; n++ {`
			`b.StopTimer() // begin setup`
Fix benchmark tests 2020-01-19 02:17:39 +08:00			`setup(b)`
			`redis := &RedisClientOpt{`
			`Addr: redisAddr,`
			`DB: redisDB,`
			`}`
			`client := NewClient(redis)`
Rename Background to Server 2020-04-12 23:16:42 +08:00			`srv := NewServer(redis, Config{`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`Concurrency: 10,`
			`RetryDelayFunc: func(n int, err error, t *Task) time.Duration {`
			`return time.Second`
			`},`
Limit the number of tasks moved by CheckAndEnqueue to prevent a long running script 2020-06-08 04:04:27 +08:00			`LogLevel: testLogLevel,`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`})`
			`// Create a bunch of tasks`
			`for i := 0; i < count; i++ {`
Make Task type immutable This change makes it impossible to mutate payload within Handler or RetryDelayFunc. 2020-01-05 05:13:46 +08:00			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.Enqueue(t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`}`
			`for i := 0; i < count; i++ {`
Make Task type immutable This change makes it impossible to mutate payload within Handler or RetryDelayFunc. 2020-01-05 05:13:46 +08:00			`t := NewTask(fmt.Sprintf("scheduled%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.EnqueueAt(time.Now().Add(time.Second), t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`}`

			`var wg sync.WaitGroup`
			`wg.Add(count * 2)`
Change Handler interface to take context.Context 2020-02-11 23:06:52 +08:00			`handler := func(ctx context.Context, t *Task) error {`
Limit the number of tasks moved by CheckAndEnqueue to prevent a long running script 2020-06-08 04:04:27 +08:00			`n, err := t.Payload.GetInt("data")`
			`if err != nil {`
			`b.Logf("internal error: %v", err)`
			`}`
			`retried, ok := GetRetryCount(ctx)`
			`if !ok {`
			`b.Logf("internal error: %v", err)`
			`}`
			`// Fail 1% of tasks for the first attempt.`
			`if retried == 0 && n%100 == 0 {`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`return fmt.Errorf(":(")`
			`}`
			`wg.Done()`
			`return nil`
			`}`
			`b.StartTimer() // end setup`

Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Start(HandlerFunc(handler))`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`wg.Wait()`

			`b.StopTimer() // begin teardown`
Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Stop()`
Add end-to-end benchmark tests 2020-01-01 04:36:46 +08:00			`b.StartTimer() // end teardown`
			`}`
			`}`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00
			`// Simple E2E Benchmark testing with no scheduled tasks and retries with multiple queues.`
			`func BenchmarkEndToEndMultipleQueues(b *testing.B) {`
			`// number of tasks to create for each queue`
			`const (`
			`highCount = 20000`
			`defaultCount = 20000`
			`lowCount = 20000`
			`)`
			`for n := 0; n < b.N; n++ {`
			`b.StopTimer() // begin setup`
			`setup(b)`
			`redis := &RedisClientOpt{`
			`Addr: redisAddr,`
			`DB: redisDB,`
			`}`
			`client := NewClient(redis)`
Rename Background to Server 2020-04-12 23:16:42 +08:00			`srv := NewServer(redis, Config{`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`Concurrency: 10,`
Use int as priority value type. Do not use unsigned int for merely non-negative quantities as it complicates simple arithmetic. 2020-02-13 14:23:25 +08:00			`Queues: map[string]int{`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`"high": 6,`
			`"default": 3,`
			`"low": 1,`
			`},`
Limit the number of tasks moved by CheckAndEnqueue to prevent a long running script 2020-06-08 04:04:27 +08:00			`LogLevel: testLogLevel,`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`})`
			`// Create a bunch of tasks`
			`for i := 0; i < highCount; i++ {`
			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.Enqueue(t, Queue("high")); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`}`
			`for i := 0; i < defaultCount; i++ {`
			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.Enqueue(t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`}`
			`for i := 0; i < lowCount; i++ {`
			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
Change Client APIs Use `Enqueue`, `EnqueueAt`, and `EnqueueIn` to enqueue and schedule tasks. `Schedule` method was removed. 2020-02-24 07:40:04 +08:00			`if err := client.Enqueue(t, Queue("low")); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`}`

			`var wg sync.WaitGroup`
			`wg.Add(highCount + defaultCount + lowCount)`
Change Handler interface to take context.Context 2020-02-11 23:06:52 +08:00			`handler := func(ctx context.Context, t *Task) error {`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`wg.Done()`
			`return nil`
			`}`
			`b.StartTimer() // end setup`

Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Start(HandlerFunc(handler))`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`wg.Wait()`

			`b.StopTimer() // begin teardown`
Export Start, Stop and Quiet method on Server type 2020-04-13 02:00:45 +08:00			`srv.Stop()`
Avoid creating script struct on every rdb method invocation 2020-02-09 03:06:14 +08:00			`b.StartTimer() // end teardown`
			`}`
			`}`
Add benchmark test to verify client enqueue performance while server is running 2020-06-08 20:51:36 +08:00
			`// E2E benchmark to check client enqueue operation performs correctly,`
			`// while server is busy processing tasks.`
			`func BenchmarkClientWhileServerRunning(b *testing.B) {`
			`const count = 10000`
			`for n := 0; n < b.N; n++ {`
			`b.StopTimer() // begin setup`
			`setup(b)`
			`redis := &RedisClientOpt{`
			`Addr: redisAddr,`
			`DB: redisDB,`
			`}`
			`client := NewClient(redis)`
			`srv := NewServer(redis, Config{`
			`Concurrency: 10,`
			`RetryDelayFunc: func(n int, err error, t *Task) time.Duration {`
			`return time.Second`
			`},`
			`LogLevel: testLogLevel,`
			`})`
			`// Enqueue 10,000 tasks.`
			`for i := 0; i < count; i++ {`
			`t := NewTask(fmt.Sprintf("task%d", i), map[string]interface{}{"data": i})`
			`if err := client.Enqueue(t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
			`}`
			`// Schedule 10,000 tasks.`
			`for i := 0; i < count; i++ {`
			`t := NewTask(fmt.Sprintf("scheduled%d", i), map[string]interface{}{"data": i})`
			`if err := client.EnqueueAt(time.Now().Add(time.Second), t); err != nil {`
			`b.Fatalf("could not enqueue a task: %v", err)`
			`}`
			`}`

			`handler := func(ctx context.Context, t *Task) error {`
			`return nil`
			`}`
			`srv.Start(HandlerFunc(handler))`

			`b.StartTimer() // end setup`

			`b.Log("Starting enqueueing")`
			`enqueued := 0`
			`for enqueued < 100000 {`
			`t := NewTask(fmt.Sprintf("enqueued%d", enqueued), map[string]interface{}{"data": enqueued})`
			`if err := client.Enqueue(t); err != nil {`
			`b.Logf("could not enqueue task %d: %v", enqueued, err)`
			`continue`
			`}`
			`enqueued++`
			`}`
			`b.Logf("Finished enqueueing %d tasks", enqueued)`

			`b.StopTimer() // begin teardown`
			`srv.Stop()`
			`b.StartTimer() // end teardown`
			`}`
			`}`