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//
// Written by Maxim Khitrov (November 2012)
//
package flowrate
import (
"bytes"
"testing"
"time"
)
const (
_50ms = 50 * time.Millisecond
_100ms = 100 * time.Millisecond
_200ms = 200 * time.Millisecond
_300ms = 300 * time.Millisecond
_400ms = 400 * time.Millisecond
_500ms = 500 * time.Millisecond
)
func nextStatus(m *Monitor) Status {
samples := m.samples
for i := 0; i < 30; i++ {
if s := m.Status(); s.Samples != samples {
return s
}
time.Sleep(5 * time.Millisecond)
}
return m.Status()
}
func TestReader(t *testing.T) {
in := make([]byte, 100)
for i := range in {
in[i] = byte(i)
}
b := make([]byte, 100)
r := NewReader(bytes.NewReader(in), 100)
start := time.Now()
// Make sure r implements Limiter
_ = Limiter(r)
// 1st read of 10 bytes is performed immediately
if n, err := r.Read(b); n != 10 || err != nil {
t.Fatalf("r.Read(b) expected 10 (<nil>); got %v (%v)", n, err)
} else if rt := time.Since(start); rt > _50ms {
t.Fatalf("r.Read(b) took too long (%v)", rt)
}
// No new Reads allowed in the current sample
r.SetBlocking(false)
if n, err := r.Read(b); n != 0 || err != nil {
t.Fatalf("r.Read(b) expected 0 (<nil>); got %v (%v)", n, err)
} else if rt := time.Since(start); rt > _50ms {
t.Fatalf("r.Read(b) took too long (%v)", rt)
}
status := [6]Status{0: r.Status()} // No samples in the first status
// 2nd read of 10 bytes blocks until the next sample
r.SetBlocking(true)
if n, err := r.Read(b[10:]); n != 10 || err != nil {
t.Fatalf("r.Read(b[10:]) expected 10 (<nil>); got %v (%v)", n, err)
} else if rt := time.Since(start); rt < _100ms {
t.Fatalf("r.Read(b[10:]) returned ahead of time (%v)", rt)
}
status[1] = r.Status() // 1st sample
status[2] = nextStatus(r.Monitor) // 2nd sample
status[3] = nextStatus(r.Monitor) // No activity for the 3rd sample
if n := r.Done(); n != 20 {
t.Fatalf("r.Done() expected 20; got %v", n)
}
status[4] = r.Status()
status[5] = nextStatus(r.Monitor) // Timeout
start = status[0].Start
// Active, Start, Duration, Idle, Bytes, Samples, InstRate, CurRate, AvgRate, PeakRate, BytesRem, TimeRem, Progress
want := []Status{
Status{true, start, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0},
Status{true, start, _100ms, 0, 10, 1, 100, 100, 100, 100, 0, 0, 0},
Status{true, start, _200ms, _100ms, 20, 2, 100, 100, 100, 100, 0, 0, 0},
Status{true, start, _300ms, _200ms, 20, 3, 0, 90, 67, 100, 0, 0, 0},
Status{false, start, _300ms, 0, 20, 3, 0, 0, 67, 100, 0, 0, 0},
Status{false, start, _300ms, 0, 20, 3, 0, 0, 67, 100, 0, 0, 0},
}
for i, s := range status {
if !statusesAreEqual(&s, &want[i]) {
t.Errorf("r.Status(%v)\nexpected: %v\ngot : %v", i, want[i], s)
}
}
if !bytes.Equal(b[:20], in[:20]) {
t.Errorf("r.Read() input doesn't match output")
}
}
func TestWriter(t *testing.T) {
b := make([]byte, 100)
for i := range b {
b[i] = byte(i)
}
w := NewWriter(&bytes.Buffer{}, 200)
start := time.Now()
// Make sure w implements Limiter
_ = Limiter(w)
// Non-blocking 20-byte write for the first sample returns ErrLimit
w.SetBlocking(false)
if n, err := w.Write(b); n != 20 || err != ErrLimit {
t.Fatalf("w.Write(b) expected 20 (ErrLimit); got %v (%v)", n, err)
} else if rt := time.Since(start); rt > _50ms {
t.Fatalf("w.Write(b) took too long (%v)", rt)
}
// Blocking 80-byte write
w.SetBlocking(true)
if n, err := w.Write(b[20:]); n != 80 || err != nil {
t.Fatalf("w.Write(b[20:]) expected 80 (<nil>); got %v (%v)", n, err)
} else if rt := time.Since(start); rt < _300ms {
// Explanation for `rt < _300ms` (as opposed to `< _400ms`)
//
// |<-- start | |
// epochs: -----0ms|---100ms|---200ms|---300ms|---400ms
// sends: 20|20 |20 |20 |20#
//
// NOTE: The '#' symbol can thus happen before 400ms is up.
// Thus, we can only panic if rt < _300ms.
t.Fatalf("w.Write(b[20:]) returned ahead of time (%v)", rt)
}
w.SetTransferSize(100)
status := []Status{w.Status(), nextStatus(w.Monitor)}
start = status[0].Start
// Active, Start, Duration, Idle, Bytes, Samples, InstRate, CurRate, AvgRate, PeakRate, BytesRem, TimeRem, Progress
want := []Status{
Status{true, start, _400ms, 0, 80, 4, 200, 200, 200, 200, 20, _100ms, 80000},
Status{true, start, _500ms, _100ms, 100, 5, 200, 200, 200, 200, 0, 0, 100000},
}
for i, s := range status {
if !statusesAreEqual(&s, &want[i]) {
t.Errorf("w.Status(%v)\nexpected: %v\ngot : %v\n", i, want[i], s)
}
}
if !bytes.Equal(b, w.Writer.(*bytes.Buffer).Bytes()) {
t.Errorf("w.Write() input doesn't match output")
}
}
const maxDeviationForDuration = 50 * time.Millisecond
const maxDeviationForRate int64 = 50
// statusesAreEqual returns true if s1 is equal to s2. Equality here means
// general equality of fields except for the duration and rates, which can
// drift due to unpredictable delays (e.g. thread wakes up 25ms after
// `time.Sleep` has ended).
func statusesAreEqual(s1 *Status, s2 *Status) bool {
if s1.Active == s2.Active &&
s1.Start == s2.Start &&
durationsAreEqual(s1.Duration, s2.Duration, maxDeviationForDuration) &&
s1.Idle == s2.Idle &&
s1.Bytes == s2.Bytes &&
s1.Samples == s2.Samples &&
ratesAreEqual(s1.InstRate, s2.InstRate, maxDeviationForRate) &&
ratesAreEqual(s1.CurRate, s2.CurRate, maxDeviationForRate) &&
ratesAreEqual(s1.AvgRate, s2.AvgRate, maxDeviationForRate) &&
ratesAreEqual(s1.PeakRate, s2.PeakRate, maxDeviationForRate) &&
s1.BytesRem == s2.BytesRem &&
durationsAreEqual(s1.TimeRem, s2.TimeRem, maxDeviationForDuration) &&
s1.Progress == s2.Progress {
return true
}
return false
}
func durationsAreEqual(d1 time.Duration, d2 time.Duration, maxDeviation time.Duration) bool {
return d2-d1 <= maxDeviation
}
func ratesAreEqual(r1 int64, r2 int64, maxDeviation int64) bool {
sub := r1 - r2
if sub < 0 {
sub = -sub
}
if sub <= maxDeviation {
return true
}
return false
}