rate/rate_test.go - time - Git at Google

 // Copyright 2015 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package rate

 import (
 	"math"
 	"runtime"
 	"sync"
 	"sync/atomic"
 	"testing"
 	"time"

 	"golang.org/x/net/context"
 )

 func TestLimit(t *testing.T) {
 	if Limit(10) == Inf {
 		t.Errorf("Limit(10) == Inf should be false")
 	}
 }

 func closeEnough(a, b Limit) bool {
 	return (math.Abs(float64(a)/float64(b)) - 1.0) < 1e-9
 }

 func TestEvery(t *testing.T) {
 	cases := []struct {
 		interval time.Duration
 		lim      Limit
 	}{
 		{0, Inf},
 		{-1, Inf},
 		{1 * time.Nanosecond, Limit(1e9)},
 		{1 * time.Microsecond, Limit(1e6)},
 		{1 * time.Millisecond, Limit(1e3)},
 		{10 * time.Millisecond, Limit(100)},
 		{100 * time.Millisecond, Limit(10)},
 		{1 * time.Second, Limit(1)},
 		{2 * time.Second, Limit(0.5)},
 		{time.Duration(2.5 * float64(time.Second)), Limit(0.4)},
 		{4 * time.Second, Limit(0.25)},
 		{10 * time.Second, Limit(0.1)},
 		{time.Duration(math.MaxInt64), Limit(1e9 / float64(math.MaxInt64))},
 	}
 	for _, tc := range cases {
 		lim := Every(tc.interval)
 		if !closeEnough(lim, tc.lim) {
 			t.Errorf("Every(%v) = %v want %v", tc.interval, lim, tc.lim)
 		}
 	}
 }

 const (
 	d = 100 * time.Millisecond
 )

 var (
 	t0 = time.Now()
 	t1 = t0.Add(time.Duration(1) * d)
 	t2 = t0.Add(time.Duration(2) * d)
 	t3 = t0.Add(time.Duration(3) * d)
 	t4 = t0.Add(time.Duration(4) * d)
 	t5 = t0.Add(time.Duration(5) * d)
 	t9 = t0.Add(time.Duration(9) * d)
 )

 type allow struct {
 	t  time.Time
 	n  int
 	ok bool
 }

 func run(t *testing.T, lim *Limiter, allows []allow) {
 	for i, allow := range allows {
 		ok := lim.AllowN(allow.t, allow.n)
 		if ok != allow.ok {
 			t.Errorf("step %d: lim.AllowN(%v, %v) = %v want %v",
 				i, allow.t, allow.n, ok, allow.ok)
 		}
 	}
 }

 func TestLimiterBurst1(t *testing.T) {
 	run(t, NewLimiter(10, 1), []allow{
 		{t0, 1, true},
 		{t0, 1, false},
 		{t0, 1, false},
 		{t1, 1, true},
 		{t1, 1, false},
 		{t1, 1, false},
 		{t2, 2, false}, // burst size is 1, so n=2 always fails
 		{t2, 1, true},
 		{t2, 1, false},
 	})
 }

 func TestLimiterBurst3(t *testing.T) {
 	run(t, NewLimiter(10, 3), []allow{
 		{t0, 2, true},
 		{t0, 2, false},
 		{t0, 1, true},
 		{t0, 1, false},
 		{t1, 4, false},
 		{t2, 1, true},
 		{t3, 1, true},
 		{t4, 1, true},
 		{t4, 1, true},
 		{t4, 1, false},
 		{t4, 1, false},
 		{t9, 3, true},
 		{t9, 0, true},
 	})
 }

 func TestLimiterJumpBackwards(t *testing.T) {
 	run(t, NewLimiter(10, 3), []allow{
 		{t1, 1, true}, // start at t1
 		{t0, 1, true}, // jump back to t0, two tokens remain
 		{t0, 1, true},
 		{t0, 1, false},
 		{t0, 1, false},
 		{t1, 1, true}, // got a token
 		{t1, 1, false},
 		{t1, 1, false},
 		{t2, 1, true}, // got another token
 		{t2, 1, false},
 		{t2, 1, false},
 	})
 }

 func TestSimultaneousRequests(t *testing.T) {
 	const (
 		limit       = 1
 		burst       = 5
 		numRequests = 15
 	)
 	var (
 		wg    sync.WaitGroup
 		numOK = uint32(0)
 	)

 	// Very slow replenishing bucket.
 	lim := NewLimiter(limit, burst)

 	// Tries to take a token, atomically updates the counter and decreases the wait
 	// group counter.
 	f := func() {
 		defer wg.Done()
 		if ok := lim.Allow(); ok {
 			atomic.AddUint32(&numOK, 1)
 		}
 	}

 	wg.Add(numRequests)
 	for i := 0; i < numRequests; i++ {
 		go f()
 	}
 	wg.Wait()
 	if numOK != burst {
 		t.Errorf("numOK = %d, want %d", numOK, burst)
 	}
 }

 func TestLongRunningQPS(t *testing.T) {
 	if runtime.GOOS == "openbsd" {
 		t.Skip("low resolution time.Sleep invalidates test (golang.org/issue/14183)")
 		return
 	}

 	// The test runs for a few seconds executing many requests and then checks
 	// that overall number of requests is reasonable.
 	const (
 		limit = 100
 		burst = 100
 	)
 	var numOK = int32(0)

 	lim := NewLimiter(limit, burst)

 	var wg sync.WaitGroup
 	f := func() {
 		if ok := lim.Allow(); ok {
 			atomic.AddInt32(&numOK, 1)
 		}
 		wg.Done()
 	}

 	start := time.Now()
 	end := start.Add(5 * time.Second)
 	for time.Now().Before(end) {
 		wg.Add(1)
 		go f()

 		// This will still offer ~500 requests per second, but won't consume
 		// outrageous amount of CPU.
 		time.Sleep(2 * time.Millisecond)
 	}
 	wg.Wait()
 	elapsed := time.Since(start)
 	ideal := burst + (limit * float64(elapsed) / float64(time.Second))

 	// We should never get more requests than allowed.
 	if want := int32(ideal + 1); numOK > want {
 		t.Errorf("numOK = %d, want %d (ideal %f)", numOK, want, ideal)
 	}
 	// We should get very close to the number of requests allowed.
 	if want := int32(0.999 * ideal); numOK < want {
 		t.Errorf("numOK = %d, want %d (ideal %f)", numOK, want, ideal)
 	}
 }

 type request struct {
 	t   time.Time
 	n   int
 	act time.Time
 	ok  bool
 }

 // dFromDuration converts a duration to a multiple of the global constant d
 func dFromDuration(dur time.Duration) int {
 	// Adding a millisecond to be swallowed by the integer division
 	// because we don't care about small inaccuracies
 	return int((dur + time.Millisecond) / d)
 }

 // dSince returns multiples of d since t0
 func dSince(t time.Time) int {
 	return dFromDuration(t.Sub(t0))
 }

 func runReserve(t *testing.T, lim *Limiter, req request) *Reservation {
 	return runReserveMax(t, lim, req, InfDuration)
 }

 func runReserveMax(t *testing.T, lim *Limiter, req request, maxReserve time.Duration) *Reservation {
 	r := lim.reserveN(req.t, req.n, maxReserve)
 	if r.ok && (dSince(r.timeToAct) != dSince(req.act)) || r.ok != req.ok {
 		t.Errorf("lim.reserveN(t%d, %v, %v) = (t%d, %v) want (t%d, %v)",
 			dSince(req.t), req.n, maxReserve, dSince(r.timeToAct), r.ok, dSince(req.act), req.ok)
 	}
 	return &r
 }

 func TestSimpleReserve(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	runReserve(t, lim, request{t0, 2, t2, true})
 	runReserve(t, lim, request{t3, 2, t4, true})
 }

 func TestMix(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 3, t1, false}) // should return false because n > Burst
 	runReserve(t, lim, request{t0, 2, t0, true})
 	run(t, lim, []allow{{t1, 2, false}}) // not enought tokens - don't allow
 	runReserve(t, lim, request{t1, 2, t2, true})
 	run(t, lim, []allow{{t1, 1, false}}) // negative tokens - don't allow
 	run(t, lim, []allow{{t3, 1, true}})
 }

 func TestCancelInvalid(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 3, t3, false})
 	r.CancelAt(t0)                               // should have no effect
 	runReserve(t, lim, request{t0, 2, t2, true}) // did not get extra tokens
 }

 func TestCancelLast(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 2, t2, true})
 	r.CancelAt(t1) // got 2 tokens back
 	runReserve(t, lim, request{t1, 2, t2, true})
 }

 func TestCancelTooLate(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 2, t2, true})
 	r.CancelAt(t3) // too late to cancel - should have no effect
 	runReserve(t, lim, request{t3, 2, t4, true})
 }

 func TestCancel0Tokens(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 1, t1, true})
 	runReserve(t, lim, request{t0, 1, t2, true})
 	r.CancelAt(t0) // got 0 tokens back
 	runReserve(t, lim, request{t0, 1, t3, true})
 }

 func TestCancel1Token(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 2, t2, true})
 	runReserve(t, lim, request{t0, 1, t3, true})
 	r.CancelAt(t2) // got 1 token back
 	runReserve(t, lim, request{t2, 2, t4, true})
 }

 func TestCancelMulti(t *testing.T) {
 	lim := NewLimiter(10, 4)

 	runReserve(t, lim, request{t0, 4, t0, true})
 	rA := runReserve(t, lim, request{t0, 3, t3, true})
 	runReserve(t, lim, request{t0, 1, t4, true})
 	rC := runReserve(t, lim, request{t0, 1, t5, true})
 	rC.CancelAt(t1) // get 1 token back
 	rA.CancelAt(t1) // get 2 tokens back, as if C was never reserved
 	runReserve(t, lim, request{t1, 3, t5, true})
 }

 func TestReserveJumpBack(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t1, 2, t1, true}) // start at t1
 	runReserve(t, lim, request{t0, 1, t1, true}) // should violate Limit,Burst
 	runReserve(t, lim, request{t2, 2, t3, true})
 }

 func TestReserveJumpBackCancel(t *testing.T) {
 	lim := NewLimiter(10, 2)

 	runReserve(t, lim, request{t1, 2, t1, true}) // start at t1
 	r := runReserve(t, lim, request{t1, 2, t3, true})
 	runReserve(t, lim, request{t1, 1, t4, true})
 	r.CancelAt(t0)                               // cancel at t0, get 1 token back
 	runReserve(t, lim, request{t1, 2, t4, true}) // should violate Limit,Burst
 }

 func TestReserveSetLimit(t *testing.T) {
 	lim := NewLimiter(5, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	runReserve(t, lim, request{t0, 2, t4, true})
 	lim.SetLimitAt(t2, 10)
 	runReserve(t, lim, request{t2, 1, t4, true}) // violates Limit and Burst
 }

 func TestReserveSetLimitCancel(t *testing.T) {
 	lim := NewLimiter(5, 2)

 	runReserve(t, lim, request{t0, 2, t0, true})
 	r := runReserve(t, lim, request{t0, 2, t4, true})
 	lim.SetLimitAt(t2, 10)
 	r.CancelAt(t2) // 2 tokens back
 	runReserve(t, lim, request{t2, 2, t3, true})
 }

 func TestReserveMax(t *testing.T) {
 	lim := NewLimiter(10, 2)
 	maxT := d

 	runReserveMax(t, lim, request{t0, 2, t0, true}, maxT)
 	runReserveMax(t, lim, request{t0, 1, t1, true}, maxT)  // reserve for close future
 	runReserveMax(t, lim, request{t0, 1, t2, false}, maxT) // time to act too far in the future
 }

 type wait struct {
 	name   string
 	ctx    context.Context
 	n      int
 	delay  int // in multiples of d
 	nilErr bool
 }

 func runWait(t *testing.T, lim *Limiter, w wait) {
 	start := time.Now()
 	err := lim.WaitN(w.ctx, w.n)
 	delay := time.Now().Sub(start)
 	if (w.nilErr && err != nil) || (!w.nilErr && err == nil) || w.delay != dFromDuration(delay) {
 		errString := "<nil>"
 		if !w.nilErr {
 			errString = "<non-nil error>"
 		}
 		t.Errorf("lim.WaitN(%v, lim, %v) = %v with delay %v ; want %v with delay %v",
 			w.name, w.n, err, delay, errString, d*time.Duration(w.delay))
 	}
 }

 func TestWaitSimple(t *testing.T) {
 	lim := NewLimiter(10, 3)

 	ctx, cancel := context.WithCancel(context.Background())
 	cancel()
 	runWait(t, lim, wait{"already-cancelled", ctx, 1, 0, false})

 	runWait(t, lim, wait{"n-gt-burst", context.Background(), 4, 0, false})

 	runWait(t, lim, wait{"act-now", context.Background(), 2, 0, true})
 	runWait(t, lim, wait{"act-later", context.Background(), 3, 2, true})
 }

 func TestWaitCancel(t *testing.T) {
 	lim := NewLimiter(10, 3)

 	ctx, cancel := context.WithCancel(context.Background())
 	runWait(t, lim, wait{"act-now", ctx, 2, 0, true}) // after this lim.tokens = 1
 	go func() {
 		time.Sleep(d)
 		cancel()
 	}()
 	runWait(t, lim, wait{"will-cancel", ctx, 3, 1, false})
 	// should get 3 tokens back, and have lim.tokens = 2
 	t.Logf("tokens:%v last:%v lastEvent:%v", lim.tokens, lim.last, lim.lastEvent)
 	runWait(t, lim, wait{"act-now-after-cancel", context.Background(), 2, 0, true})
 }

 func TestWaitTimeout(t *testing.T) {
 	lim := NewLimiter(10, 3)

 	ctx, cancel := context.WithTimeout(context.Background(), d)
 	defer cancel()
 	runWait(t, lim, wait{"act-now", ctx, 2, 0, true})
 	runWait(t, lim, wait{"w-timeout-err", ctx, 3, 0, false})
 }
	// Copyright 2015 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package rate

	import (
	"math"
	"runtime"
	"sync"
	"sync/atomic"
	"testing"
	"time"

	"golang.org/x/net/context"
	)

	func TestLimit(t *testing.T) {
	if Limit(10) == Inf {
	t.Errorf("Limit(10) == Inf should be false")
	}
	}

	func closeEnough(a, b Limit) bool {
	return (math.Abs(float64(a)/float64(b)) - 1.0) < 1e-9
	}

	func TestEvery(t *testing.T) {
	cases := []struct {
	interval time.Duration
	lim Limit
	}{
	{0, Inf},
	{-1, Inf},
	{1 * time.Nanosecond, Limit(1e9)},
	{1 * time.Microsecond, Limit(1e6)},
	{1 * time.Millisecond, Limit(1e3)},
	{10 * time.Millisecond, Limit(100)},
	{100 * time.Millisecond, Limit(10)},
	{1 * time.Second, Limit(1)},
	{2 * time.Second, Limit(0.5)},
	{time.Duration(2.5 * float64(time.Second)), Limit(0.4)},
	{4 * time.Second, Limit(0.25)},
	{10 * time.Second, Limit(0.1)},
	{time.Duration(math.MaxInt64), Limit(1e9 / float64(math.MaxInt64))},
	}
	for _, tc := range cases {
	lim := Every(tc.interval)
	if !closeEnough(lim, tc.lim) {
	t.Errorf("Every(%v) = %v want %v", tc.interval, lim, tc.lim)
	}
	}
	}

	const (
	d = 100 * time.Millisecond
	)

	var (
	t0 = time.Now()
	t1 = t0.Add(time.Duration(1) * d)
	t2 = t0.Add(time.Duration(2) * d)
	t3 = t0.Add(time.Duration(3) * d)
	t4 = t0.Add(time.Duration(4) * d)
	t5 = t0.Add(time.Duration(5) * d)
	t9 = t0.Add(time.Duration(9) * d)
	)

	type allow struct {
	t time.Time
	n int
	ok bool
	}

	func run(t testing.T, lim Limiter, allows []allow) {
	for i, allow := range allows {
	ok := lim.AllowN(allow.t, allow.n)
	if ok != allow.ok {
	t.Errorf("step %d: lim.AllowN(%v, %v) = %v want %v",
	i, allow.t, allow.n, ok, allow.ok)
	}
	}
	}

	func TestLimiterBurst1(t *testing.T) {
	run(t, NewLimiter(10, 1), []allow{
	{t0, 1, true},
	{t0, 1, false},
	{t0, 1, false},
	{t1, 1, true},
	{t1, 1, false},
	{t1, 1, false},
	{t2, 2, false}, // burst size is 1, so n=2 always fails
	{t2, 1, true},
	{t2, 1, false},
	})
	}

	func TestLimiterBurst3(t *testing.T) {
	run(t, NewLimiter(10, 3), []allow{
	{t0, 2, true},
	{t0, 2, false},
	{t0, 1, true},
	{t0, 1, false},
	{t1, 4, false},
	{t2, 1, true},
	{t3, 1, true},
	{t4, 1, true},
	{t4, 1, true},
	{t4, 1, false},
	{t4, 1, false},
	{t9, 3, true},
	{t9, 0, true},
	})
	}

	func TestLimiterJumpBackwards(t *testing.T) {
	run(t, NewLimiter(10, 3), []allow{
	{t1, 1, true}, // start at t1
	{t0, 1, true}, // jump back to t0, two tokens remain
	{t0, 1, true},
	{t0, 1, false},
	{t0, 1, false},
	{t1, 1, true}, // got a token
	{t1, 1, false},
	{t1, 1, false},
	{t2, 1, true}, // got another token
	{t2, 1, false},
	{t2, 1, false},
	})
	}

	func TestSimultaneousRequests(t *testing.T) {
	const (
	limit = 1
	burst = 5
	numRequests = 15
	)
	var (
	wg sync.WaitGroup
	numOK = uint32(0)
	)

	// Very slow replenishing bucket.
	lim := NewLimiter(limit, burst)

	// Tries to take a token, atomically updates the counter and decreases the wait
	// group counter.
	f := func() {
	defer wg.Done()
	if ok := lim.Allow(); ok {
	atomic.AddUint32(&numOK, 1)
	}
	}

	wg.Add(numRequests)
	for i := 0; i < numRequests; i++ {
	go f()
	}
	wg.Wait()
	if numOK != burst {
	t.Errorf("numOK = %d, want %d", numOK, burst)
	}
	}

	func TestLongRunningQPS(t *testing.T) {
	if runtime.GOOS == "openbsd" {
	t.Skip("low resolution time.Sleep invalidates test (golang.org/issue/14183)")
	return
	}

	// The test runs for a few seconds executing many requests and then checks
	// that overall number of requests is reasonable.
	const (
	limit = 100
	burst = 100
	)
	var numOK = int32(0)

	lim := NewLimiter(limit, burst)

	var wg sync.WaitGroup
	f := func() {
	if ok := lim.Allow(); ok {
	atomic.AddInt32(&numOK, 1)
	}
	wg.Done()
	}

	start := time.Now()
	end := start.Add(5 * time.Second)
	for time.Now().Before(end) {
	wg.Add(1)
	go f()

	// This will still offer ~500 requests per second, but won't consume
	// outrageous amount of CPU.
	time.Sleep(2 * time.Millisecond)
	}
	wg.Wait()
	elapsed := time.Since(start)
	ideal := burst + (limit * float64(elapsed) / float64(time.Second))

	// We should never get more requests than allowed.
	if want := int32(ideal + 1); numOK > want {
	t.Errorf("numOK = %d, want %d (ideal %f)", numOK, want, ideal)
	}
	// We should get very close to the number of requests allowed.
	if want := int32(0.999 * ideal); numOK < want {
	t.Errorf("numOK = %d, want %d (ideal %f)", numOK, want, ideal)
	}
	}

	type request struct {
	t time.Time
	n int
	act time.Time
	ok bool
	}

	// dFromDuration converts a duration to a multiple of the global constant d
	func dFromDuration(dur time.Duration) int {
	// Adding a millisecond to be swallowed by the integer division
	// because we don't care about small inaccuracies
	return int((dur + time.Millisecond) / d)
	}

	// dSince returns multiples of d since t0
	func dSince(t time.Time) int {
	return dFromDuration(t.Sub(t0))
	}

	func runReserve(t testing.T, lim Limiter, req request) *Reservation {
	return runReserveMax(t, lim, req, InfDuration)
	}

	func runReserveMax(t testing.T, lim Limiter, req request, maxReserve time.Duration) *Reservation {
	r := lim.reserveN(req.t, req.n, maxReserve)
	if r.ok && (dSince(r.timeToAct) != dSince(req.act)) \|\| r.ok != req.ok {
	t.Errorf("lim.reserveN(t%d, %v, %v) = (t%d, %v) want (t%d, %v)",
	dSince(req.t), req.n, maxReserve, dSince(r.timeToAct), r.ok, dSince(req.act), req.ok)
	}
	return &r
	}

	func TestSimpleReserve(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	runReserve(t, lim, request{t0, 2, t2, true})
	runReserve(t, lim, request{t3, 2, t4, true})
	}

	func TestMix(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 3, t1, false}) // should return false because n > Burst
	runReserve(t, lim, request{t0, 2, t0, true})
	run(t, lim, []allow{{t1, 2, false}}) // not enought tokens - don't allow
	runReserve(t, lim, request{t1, 2, t2, true})
	run(t, lim, []allow{{t1, 1, false}}) // negative tokens - don't allow
	run(t, lim, []allow{{t3, 1, true}})
	}

	func TestCancelInvalid(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 3, t3, false})
	r.CancelAt(t0) // should have no effect
	runReserve(t, lim, request{t0, 2, t2, true}) // did not get extra tokens
	}

	func TestCancelLast(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 2, t2, true})
	r.CancelAt(t1) // got 2 tokens back
	runReserve(t, lim, request{t1, 2, t2, true})
	}

	func TestCancelTooLate(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 2, t2, true})
	r.CancelAt(t3) // too late to cancel - should have no effect
	runReserve(t, lim, request{t3, 2, t4, true})
	}

	func TestCancel0Tokens(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 1, t1, true})
	runReserve(t, lim, request{t0, 1, t2, true})
	r.CancelAt(t0) // got 0 tokens back
	runReserve(t, lim, request{t0, 1, t3, true})
	}

	func TestCancel1Token(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 2, t2, true})
	runReserve(t, lim, request{t0, 1, t3, true})
	r.CancelAt(t2) // got 1 token back
	runReserve(t, lim, request{t2, 2, t4, true})
	}

	func TestCancelMulti(t *testing.T) {
	lim := NewLimiter(10, 4)

	runReserve(t, lim, request{t0, 4, t0, true})
	rA := runReserve(t, lim, request{t0, 3, t3, true})
	runReserve(t, lim, request{t0, 1, t4, true})
	rC := runReserve(t, lim, request{t0, 1, t5, true})
	rC.CancelAt(t1) // get 1 token back
	rA.CancelAt(t1) // get 2 tokens back, as if C was never reserved
	runReserve(t, lim, request{t1, 3, t5, true})
	}

	func TestReserveJumpBack(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t1, 2, t1, true}) // start at t1
	runReserve(t, lim, request{t0, 1, t1, true}) // should violate Limit,Burst
	runReserve(t, lim, request{t2, 2, t3, true})
	}

	func TestReserveJumpBackCancel(t *testing.T) {
	lim := NewLimiter(10, 2)

	runReserve(t, lim, request{t1, 2, t1, true}) // start at t1
	r := runReserve(t, lim, request{t1, 2, t3, true})
	runReserve(t, lim, request{t1, 1, t4, true})
	r.CancelAt(t0) // cancel at t0, get 1 token back
	runReserve(t, lim, request{t1, 2, t4, true}) // should violate Limit,Burst
	}

	func TestReserveSetLimit(t *testing.T) {
	lim := NewLimiter(5, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	runReserve(t, lim, request{t0, 2, t4, true})
	lim.SetLimitAt(t2, 10)
	runReserve(t, lim, request{t2, 1, t4, true}) // violates Limit and Burst
	}

	func TestReserveSetLimitCancel(t *testing.T) {
	lim := NewLimiter(5, 2)

	runReserve(t, lim, request{t0, 2, t0, true})
	r := runReserve(t, lim, request{t0, 2, t4, true})
	lim.SetLimitAt(t2, 10)
	r.CancelAt(t2) // 2 tokens back
	runReserve(t, lim, request{t2, 2, t3, true})
	}

	func TestReserveMax(t *testing.T) {
	lim := NewLimiter(10, 2)
	maxT := d

	runReserveMax(t, lim, request{t0, 2, t0, true}, maxT)
	runReserveMax(t, lim, request{t0, 1, t1, true}, maxT) // reserve for close future
	runReserveMax(t, lim, request{t0, 1, t2, false}, maxT) // time to act too far in the future
	}

	type wait struct {
	name string
	ctx context.Context
	n int
	delay int // in multiples of d
	nilErr bool
	}

	func runWait(t testing.T, lim Limiter, w wait) {
	start := time.Now()
	err := lim.WaitN(w.ctx, w.n)
	delay := time.Now().Sub(start)
	if (w.nilErr && err != nil) \|\| (!w.nilErr && err == nil) \|\| w.delay != dFromDuration(delay) {
	errString := "<nil>"
	if !w.nilErr {
	errString = "<non-nil error>"
	}
	t.Errorf("lim.WaitN(%v, lim, %v) = %v with delay %v ; want %v with delay %v",
	w.name, w.n, err, delay, errString, d*time.Duration(w.delay))
	}
	}

	func TestWaitSimple(t *testing.T) {
	lim := NewLimiter(10, 3)

	ctx, cancel := context.WithCancel(context.Background())
	cancel()
	runWait(t, lim, wait{"already-cancelled", ctx, 1, 0, false})

	runWait(t, lim, wait{"n-gt-burst", context.Background(), 4, 0, false})

	runWait(t, lim, wait{"act-now", context.Background(), 2, 0, true})
	runWait(t, lim, wait{"act-later", context.Background(), 3, 2, true})
	}

	func TestWaitCancel(t *testing.T) {
	lim := NewLimiter(10, 3)

	ctx, cancel := context.WithCancel(context.Background())
	runWait(t, lim, wait{"act-now", ctx, 2, 0, true}) // after this lim.tokens = 1
	go func() {
	time.Sleep(d)
	cancel()
	}()
	runWait(t, lim, wait{"will-cancel", ctx, 3, 1, false})
	// should get 3 tokens back, and have lim.tokens = 2
	t.Logf("tokens:%v last:%v lastEvent:%v", lim.tokens, lim.last, lim.lastEvent)
	runWait(t, lim, wait{"act-now-after-cancel", context.Background(), 2, 0, true})
	}

	func TestWaitTimeout(t *testing.T) {
	lim := NewLimiter(10, 3)

	ctx, cancel := context.WithTimeout(context.Background(), d)
	defer cancel()
	runWait(t, lim, wait{"act-now", ctx, 2, 0, true})
	runWait(t, lim, wait{"w-timeout-err", ctx, 3, 0, false})
	}