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ratelimit_test.go
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ratelimit_test.go
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package ratelimit
import (
"sync"
"testing"
"time"
"go.uber.org/atomic"
"github.com/benbjohnson/clock"
"github.com/stretchr/testify/assert"
)
type testRunner interface {
// createLimiter builds a limiter with given options.
createLimiter(int, ...Option) Limiter
// takeOnceAfter attempts to Take at a specific time.
takeOnceAfter(time.Duration, Limiter)
// startTaking tries to Take() on passed in limiters in a loop/goroutine.
startTaking(rls ...Limiter)
// assertCountAt asserts the limiters have Taken() a number of times at the given time.
// It's a thin wrapper around afterFunc to reduce boilerplate code.
assertCountAt(d time.Duration, count int)
// afterFunc executes a func at a given time.
// not using clock.AfterFunc because andres-erbsen/clock misses a nap there.
afterFunc(d time.Duration, fn func())
// some tests want raw access to the clock.
getClock() *clock.Mock
}
type runnerImpl struct {
t *testing.T
clock *clock.Mock
constructor func(int, ...Option) Limiter
count atomic.Int32
// maxDuration is the time we need to move into the future for a test.
// It's populated automatically based on assertCountAt/afterFunc.
maxDuration time.Duration
doneCh chan struct{}
wg sync.WaitGroup
}
func runTest(t *testing.T, fn func(testRunner)) {
impls := []struct {
name string
constructor func(int, ...Option) Limiter
}{
{
name: "mutex",
constructor: func(rate int, opts ...Option) Limiter {
return newMutexBased(rate, opts...)
},
},
{
name: "atomic",
constructor: func(rate int, opts ...Option) Limiter {
return newAtomicBased(rate, opts...)
},
},
{
name: "atomic_int64",
constructor: func(rate int, opts ...Option) Limiter {
return newAtomicInt64Based(rate, opts...)
},
},
}
for _, tt := range impls {
t.Run(tt.name, func(t *testing.T) {
// Set a non-default time.Time since some limiters (int64 in particular) use
// the default value as "non-initialized" state.
clockMock := clock.NewMock()
clockMock.Set(time.Now())
r := runnerImpl{
t: t,
clock: clockMock,
constructor: tt.constructor,
doneCh: make(chan struct{}),
}
defer close(r.doneCh)
defer r.wg.Wait()
fn(&r)
r.clock.Add(r.maxDuration)
})
}
}
// createLimiter builds a limiter with given options.
func (r *runnerImpl) createLimiter(rate int, opts ...Option) Limiter {
opts = append(opts, WithClock(r.clock))
return r.constructor(rate, opts...)
}
func (r *runnerImpl) getClock() *clock.Mock {
return r.clock
}
// startTaking tries to Take() on passed in limiters in a loop/goroutine.
func (r *runnerImpl) startTaking(rls ...Limiter) {
r.goWait(func() {
for {
for _, rl := range rls {
rl.Take()
}
r.count.Inc()
select {
case <-r.doneCh:
return
default:
}
}
})
}
// takeOnceAfter attempts to Take at a specific time.
func (r *runnerImpl) takeOnceAfter(d time.Duration, rl Limiter) {
r.wg.Add(1)
r.afterFunc(d, func() {
rl.Take()
r.count.Inc()
r.wg.Done()
})
}
// assertCountAt asserts the limiters have Taken() a number of times at a given time.
func (r *runnerImpl) assertCountAt(d time.Duration, count int) {
r.wg.Add(1)
r.afterFunc(d, func() {
assert.Equal(r.t, int32(count), r.count.Load(), "count not as expected")
r.wg.Done()
})
}
// afterFunc executes a func at a given time.
func (r *runnerImpl) afterFunc(d time.Duration, fn func()) {
if d > r.maxDuration {
r.maxDuration = d
}
r.goWait(func() {
select {
case <-r.doneCh:
return
case <-r.clock.After(d):
}
fn()
})
}
// goWait runs a function in a goroutine and makes sure the goroutine was scheduled.
func (r *runnerImpl) goWait(fn func()) {
wg := sync.WaitGroup{}
wg.Add(1)
go func() {
wg.Done()
fn()
}()
wg.Wait()
}
func TestUnlimited(t *testing.T) {
t.Parallel()
now := time.Now()
rl := NewUnlimited()
for i := 0; i < 1000; i++ {
rl.Take()
}
assert.Condition(t, func() bool { return time.Since(now) < 1*time.Millisecond }, "no artificial delay")
}
func TestRateLimiter(t *testing.T) {
t.Parallel()
runTest(t, func(r testRunner) {
rl := r.createLimiter(100, WithoutSlack)
// Create copious counts concurrently.
r.startTaking(rl)
r.startTaking(rl)
r.startTaking(rl)
r.startTaking(rl)
r.assertCountAt(1*time.Second, 100)
r.assertCountAt(2*time.Second, 200)
r.assertCountAt(3*time.Second, 300)
})
}
func TestDelayedRateLimiter(t *testing.T) {
t.Parallel()
runTest(t, func(r testRunner) {
slow := r.createLimiter(10, WithoutSlack)
fast := r.createLimiter(100, WithoutSlack)
r.startTaking(slow, fast)
r.afterFunc(20*time.Second, func() {
r.startTaking(fast)
r.startTaking(fast)
r.startTaking(fast)
r.startTaking(fast)
})
r.assertCountAt(30*time.Second, 1200)
})
}
func TestPer(t *testing.T) {
t.Parallel()
runTest(t, func(r testRunner) {
rl := r.createLimiter(7, WithoutSlack, Per(time.Minute))
r.startTaking(rl)
r.startTaking(rl)
r.assertCountAt(1*time.Second, 1)
r.assertCountAt(1*time.Minute, 8)
r.assertCountAt(2*time.Minute, 15)
})
}
// TestInitial verifies that the initial sequence is scheduled as expected.
func TestInitial(t *testing.T) {
t.Parallel()
tests := []struct {
msg string
opts []Option
}{
{
msg: "With Slack",
},
{
msg: "Without Slack",
opts: []Option{WithoutSlack},
},
}
for _, tt := range tests {
t.Run(tt.msg, func(t *testing.T) {
runTest(t, func(r testRunner) {
rl := r.createLimiter(10, tt.opts...)
var (
clk = r.getClock()
prev = clk.Now()
results = make(chan time.Time)
have []time.Duration
startWg sync.WaitGroup
)
startWg.Add(3)
for i := 0; i < 3; i++ {
go func() {
startWg.Done()
results <- rl.Take()
}()
}
startWg.Wait()
clk.Add(time.Second)
for i := 0; i < 3; i++ {
ts := <-results
have = append(have, ts.Sub(prev))
prev = ts
}
assert.Equal(t,
[]time.Duration{
0,
time.Millisecond * 100,
time.Millisecond * 100,
},
have,
"bad timestamps for inital takes",
)
})
})
}
}
func TestMaxSlack(t *testing.T) {
t.Parallel()
runTest(t, func(r testRunner) {
rl := r.createLimiter(1, WithSlack(1))
r.takeOnceAfter(time.Nanosecond, rl)
r.takeOnceAfter(2*time.Second+1*time.Nanosecond, rl)
r.takeOnceAfter(2*time.Second+2*time.Nanosecond, rl)
r.takeOnceAfter(2*time.Second+3*time.Nanosecond, rl)
r.takeOnceAfter(2*time.Second+4*time.Nanosecond, rl)
r.assertCountAt(3*time.Second, 3)
r.assertCountAt(10*time.Second, 5)
})
}
func TestSlack(t *testing.T) {
t.Parallel()
// To simulate slack, we combine two limiters.
// - First, we start a single goroutine with both of them,
// during this time the slow limiter will dominate,
// and allow the fast limiter to accumulate slack.
// - After 2 seconds, we start another goroutine with
// only the faster limiter. This will allow it to max out,
// and consume all the slack.
// - After 3 seconds, we look at the final result, and we expect,
// a sum of:
// - slower limiter running for 3 seconds
// - faster limiter running for 1 second
// - slack accumulated by the faster limiter during the two seconds.
// it was blocked by slower limiter.
tests := []struct {
msg string
opt []Option
want int
}{
{
msg: "no option, defaults to 10",
// 2*10 + 1*100 + 1*10 (slack)
want: 130,
},
{
msg: "slack of 10, like default",
opt: []Option{WithSlack(10)},
// 2*10 + 1*100 + 1*10 (slack)
want: 130,
},
{
msg: "slack of 20",
opt: []Option{WithSlack(20)},
// 2*10 + 1*100 + 1*20 (slack)
want: 140,
},
{
// Note this is bigger then the rate of the limiter.
msg: "slack of 150",
opt: []Option{WithSlack(150)},
// 2*10 + 1*100 + 1*150 (slack)
want: 270,
},
{
msg: "no option, defaults to 10, with per",
// 2*(10*2) + 1*(100*2) + 1*10 (slack)
opt: []Option{Per(500 * time.Millisecond)},
want: 230,
},
{
msg: "slack of 10, like default, with per",
opt: []Option{WithSlack(10), Per(500 * time.Millisecond)},
// 2*(10*2) + 1*(100*2) + 1*10 (slack)
want: 230,
},
{
msg: "slack of 20, with per",
opt: []Option{WithSlack(20), Per(500 * time.Millisecond)},
// 2*(10*2) + 1*(100*2) + 1*20 (slack)
want: 240,
},
{
// Note this is bigger then the rate of the limiter.
msg: "slack of 150, with per",
opt: []Option{WithSlack(150), Per(500 * time.Millisecond)},
// 2*(10*2) + 1*(100*2) + 1*150 (slack)
want: 370,
},
}
for _, tt := range tests {
t.Run(tt.msg, func(t *testing.T) {
runTest(t, func(r testRunner) {
slow := r.createLimiter(10, WithoutSlack)
fast := r.createLimiter(100, tt.opt...)
r.startTaking(slow, fast)
r.afterFunc(2*time.Second, func() {
r.startTaking(fast)
r.startTaking(fast)
})
// limiter with 10hz dominates here - we're always at 10.
r.assertCountAt(1*time.Second, 10)
r.assertCountAt(3*time.Second, tt.want)
})
})
}
}