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boomer_test.go
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boomer_test.go
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package boomer
import (
"context"
"flag"
"fmt"
"log"
"math"
"math/rand"
"os"
"runtime"
"sync/atomic"
"testing"
"time"
)
func TestNewBoomer(t *testing.T) {
b := NewBoomer("0.0.0.0", 1234)
if b.masterHost != "0.0.0.0" {
t.Error("masterHost should be 0.0.0.0")
}
if b.masterPort != 1234 {
t.Error("masterPort should be 1234")
}
if b.mode != DistributedMode {
t.Error("mode should be DistributedMode")
}
}
func TestNewStandaloneBoomer(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
if b.spawnCount != 100 {
t.Error("spawnCount should be 100")
}
if b.spawnRate != 10 {
t.Error("spawnRate should be 10")
}
if b.mode != StandaloneMode {
t.Error("mode should be StandaloneMode")
}
}
func TestSetRateLimiter(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
limiter, _ := NewRampUpRateLimiter(10, "10/1s", time.Second)
b.SetRateLimiter(limiter)
if b.rateLimiter == nil {
t.Error("b.rateLimiter should not be nil")
}
}
func TestSetMode(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
b.SetMode(DistributedMode)
if b.mode != DistributedMode {
t.Error("mode should be DistributedMode")
}
b.SetMode(StandaloneMode)
if b.mode != StandaloneMode {
t.Error("mode should be StandaloneMode")
}
b.SetMode(3)
if b.mode != StandaloneMode {
t.Error("mode should be StandaloneMode")
}
}
func TestAddOutput(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
b.AddOutput(NewConsoleOutput())
b.AddOutput(NewConsoleOutput())
if len(b.outputs) != 2 {
t.Error("length of outputs should be 2")
}
}
func TestEnableCPUProfile(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
b.EnableCPUProfile("cpu.prof", time.Second)
if b.cpuProfileFile != "cpu.prof" {
t.Error("cpuProfile should be cpu.prof")
}
if b.cpuProfileDuration != time.Second {
t.Error("cpuProfileDuration should be 1 second")
}
}
func TestEnableMemoryProfile(t *testing.T) {
b := NewStandaloneBoomer(100, 10)
b.EnableMemoryProfile("mem.prof", time.Second)
if b.memoryProfileFile != "mem.prof" {
t.Error("memoryProfile should be mem.prof")
}
if b.memoryProfileDuration != time.Second {
t.Error("memoryProfileDuration should be 1 second")
}
}
func TestStandaloneRun(t *testing.T) {
b := NewStandaloneBoomer(10, 10)
b.EnableCPUProfile("cpu.pprof", 2*time.Second)
b.EnableMemoryProfile("mem.pprof", 2*time.Second)
count := int64(0)
taskA := &Task{
Name: "increaseCount",
Fn: func(ctx context.Context) {
atomic.AddInt64(&count, 1)
runtime.Goexit()
},
}
go b.Run(taskA)
time.Sleep(5 * time.Second)
b.Quit()
if count != 10 {
t.Error("count is", count, "expected: 10")
}
if _, err := os.Stat("cpu.pprof"); os.IsNotExist(err) {
t.Error("File cpu.pprof is not generated")
} else {
os.Remove("cpu.pprof")
}
if _, err := os.Stat("mem.pprof"); os.IsNotExist(err) {
t.Error("File mem.pprof is not generated")
} else {
os.Remove("mem.pprof")
}
}
func TestDistributedRun(t *testing.T) {
masterHost := "0.0.0.0"
rand.Seed(Now())
masterPort := rand.Intn(1000) + 10240
server := newTestServer(masterHost, masterPort)
defer server.close()
log.Println(fmt.Sprintf("Starting to serve on %s:%d", masterHost, masterPort))
server.start()
time.Sleep(20 * time.Millisecond)
b := NewBoomer(masterHost, masterPort)
count := int64(0)
taskA := &Task{
Name: "increaseCount",
Fn: func(ctx context.Context) {
atomic.AddInt64(&count, 1)
runtime.Goexit()
},
}
b.Run(taskA)
server.toClient <- newGenericMessage("spawn", map[string]interface{}{
"user_classes_count": map[interface{}]interface{}{
"Dummy": int64(5),
"Dummy2": int64(5),
},
}, b.slaveRunner.nodeID)
time.Sleep(4 * time.Second)
b.Quit()
if count != 10 {
t.Error("count is", count, "expected: 10")
}
}
func TestRunTasksForTest(t *testing.T) {
count := 0
taskA := &Task{
Name: "increaseCount",
Fn: func(ctx context.Context) {
count++
},
}
taskWithoutName := &Task{
Name: "",
Fn: func(ctx context.Context) {
count++
},
}
runTasks = "increaseCount,foobar"
runTasksForTest(taskA, taskWithoutName)
if count != 1 {
t.Error("count is", count, "expected: 1")
}
runTasks = ""
}
func TestRunTasksWithBoomerReport(t *testing.T) {
taskA := &Task{
Name: "report",
Fn: func(ctx context.Context) {
// it should not panic.
RecordSuccess("http", "foo", int64(1), int64(10))
RecordFailure("udp", "bar", int64(1), "udp error")
},
}
runTasks = "report"
runTasksForTest(taskA)
runTasks = ""
}
func TestCreateRatelimiter(t *testing.T) {
rateLimiter, _ := createRateLimiter(100, "-1")
if stableRateLimiter, ok := rateLimiter.(*StableRateLimiter); !ok {
t.Error("Expected stableRateLimiter")
} else {
if stableRateLimiter.threshold != 100 {
t.Error("threshold should be equals to math.MaxInt64, was", stableRateLimiter.threshold)
}
}
rateLimiter, _ = createRateLimiter(0, "1")
if rampUpRateLimiter, ok := rateLimiter.(*RampUpRateLimiter); !ok {
t.Error("Expected rampUpRateLimiter")
} else {
if rampUpRateLimiter.maxThreshold != math.MaxInt64 {
t.Error("maxThreshold should be equals to math.MaxInt64, was", rampUpRateLimiter.maxThreshold)
}
if rampUpRateLimiter.rampUpRate != "1" {
t.Error("rampUpRate should be equals to \"1\", was", rampUpRateLimiter.rampUpRate)
}
}
rateLimiter, _ = createRateLimiter(10, "2/2s")
if rampUpRateLimiter, ok := rateLimiter.(*RampUpRateLimiter); !ok {
t.Error("Expected rampUpRateLimiter")
} else {
if rampUpRateLimiter.maxThreshold != 10 {
t.Error("maxThreshold should be equals to 10, was", rampUpRateLimiter.maxThreshold)
}
if rampUpRateLimiter.rampUpRate != "2/2s" {
t.Error("rampUpRate should be equals to \"2/2s\", was", rampUpRateLimiter.rampUpRate)
}
if rampUpRateLimiter.rampUpStep != 2 {
t.Error("rampUpStep should be equals to 2, was", rampUpRateLimiter.rampUpStep)
}
if rampUpRateLimiter.rampUpPeroid != 2*time.Second {
t.Error("rampUpPeroid should be equals to 2 seconds, was", rampUpRateLimiter.rampUpPeroid)
}
}
}
func TestRun(t *testing.T) {
flag.Parse()
masterHost = "0.0.0.0"
rand.Seed(Now())
masterPort = rand.Intn(1000) + 10240
server := newTestServer(masterHost, masterPort)
defer server.close()
log.Println(fmt.Sprintf("Starting to serve on %s:%d", masterHost, masterPort))
server.start()
time.Sleep(20 * time.Millisecond)
count := int64(0)
taskA := &Task{
Name: "increaseCount",
Fn: func(ctx context.Context) {
atomic.AddInt64(&count, 1)
runtime.Goexit()
},
}
go Run(taskA)
time.Sleep(20 * time.Millisecond)
server.toClient <- newGenericMessage("spawn", map[string]interface{}{
"user_classes_count": map[interface{}]interface{}{
"Dummy": int64(5),
"Dummy2": int64(5),
},
}, defaultBoomer.slaveRunner.nodeID)
time.Sleep(4 * time.Second)
defaultBoomer.Quit()
if count != 10 {
t.Error("count is", count, "expected: 10")
}
}
func TestRecordSuccess(t *testing.T) {
masterHost := "127.0.0.1"
masterPort := 5557
defaultBoomer = NewBoomer(masterHost, masterPort)
defaultBoomer.slaveRunner = newSlaveRunner(masterHost, masterPort, nil, nil)
RecordSuccess("http", "foo", int64(1), int64(10))
requestSuccessMsg := <-defaultBoomer.slaveRunner.stats.requestSuccessChan
if requestSuccessMsg.requestType != "http" {
t.Error("Expected: http, got:", requestSuccessMsg.requestType)
}
if requestSuccessMsg.responseTime != int64(1) {
t.Error("Expected: 1, got:", requestSuccessMsg.responseTime)
}
defaultBoomer = nil
}
func TestRecordFailure(t *testing.T) {
masterHost := "127.0.0.1"
masterPort := 5557
defaultBoomer = NewBoomer(masterHost, masterPort)
defaultBoomer.slaveRunner = newSlaveRunner(masterHost, masterPort, nil, nil)
RecordFailure("udp", "bar", int64(2), "udp error")
requestFailureMsg := <-defaultBoomer.slaveRunner.stats.requestFailureChan
if requestFailureMsg.requestType != "udp" {
t.Error("Expected: udp, got:", requestFailureMsg.requestType)
}
if requestFailureMsg.responseTime != int64(2) {
t.Error("Expected: 2, got:", requestFailureMsg.responseTime)
}
if requestFailureMsg.error != "udp error" {
t.Error("Expected: udp error, got:", requestFailureMsg.error)
}
defaultBoomer = nil
}