rclone/fs/accounting/stats_test.go
2019-09-12 10:29:40 +01:00

219 lines
6.5 KiB
Go

package accounting
import (
"fmt"
"io"
"testing"
"time"
"github.com/pkg/errors"
"github.com/rclone/rclone/fs/fserrors"
"github.com/stretchr/testify/assert"
)
func TestETA(t *testing.T) {
for _, test := range []struct {
size, total int64
rate float64
wantETA time.Duration
wantOK bool
wantString string
}{
// Custom String Cases
{size: 0, total: 365 * 86400, rate: 1.0, wantETA: 365 * 86400 * time.Second, wantOK: true, wantString: "1y"},
{size: 0, total: 7 * 86400, rate: 1.0, wantETA: 7 * 86400 * time.Second, wantOK: true, wantString: "1w"},
{size: 0, total: 1 * 86400, rate: 1.0, wantETA: 1 * 86400 * time.Second, wantOK: true, wantString: "1d"},
{size: 0, total: 1110 * 86400, rate: 1.0, wantETA: 1110 * 86400 * time.Second, wantOK: true, wantString: "3y2w1d"},
{size: 0, total: 15 * 86400, rate: 1.0, wantETA: 15 * 86400 * time.Second, wantOK: true, wantString: "2w1d"},
// Composite Custom String Cases
{size: 0, total: 1.5 * 86400, rate: 1.0, wantETA: 1.5 * 86400 * time.Second, wantOK: true, wantString: "1d12h"},
{size: 0, total: 95000, rate: 1.0, wantETA: 95000 * time.Second, wantOK: true, wantString: "1d2h23m20s"},
// Standard Duration String Cases
{size: 0, total: 100, rate: 1.0, wantETA: 100 * time.Second, wantOK: true, wantString: "1m40s"},
{size: 50, total: 100, rate: 1.0, wantETA: 50 * time.Second, wantOK: true, wantString: "50s"},
{size: 100, total: 100, rate: 1.0, wantETA: 0 * time.Second, wantOK: true, wantString: "0s"},
// No String Cases
{size: -1, total: 100, rate: 1.0, wantETA: 0, wantOK: false, wantString: "-"},
{size: 200, total: 100, rate: 1.0, wantETA: 0, wantOK: false, wantString: "-"},
{size: 10, total: -1, rate: 1.0, wantETA: 0, wantOK: false, wantString: "-"},
{size: 10, total: 20, rate: 0.0, wantETA: 0, wantOK: false, wantString: "-"},
{size: 10, total: 20, rate: -1.0, wantETA: 0, wantOK: false, wantString: "-"},
{size: 0, total: 0, rate: 1.0, wantETA: 0, wantOK: false, wantString: "-"},
} {
t.Run(fmt.Sprintf("size=%d/total=%d/rate=%f", test.size, test.total, test.rate), func(t *testing.T) {
gotETA, gotOK := eta(test.size, test.total, test.rate)
assert.Equal(t, test.wantETA, gotETA)
assert.Equal(t, test.wantOK, gotOK)
gotString := etaString(test.size, test.total, test.rate)
assert.Equal(t, test.wantString, gotString)
})
}
}
func TestPercentage(t *testing.T) {
assert.Equal(t, percent(0, 1000), "0%")
assert.Equal(t, percent(1, 1000), "0%")
assert.Equal(t, percent(9, 1000), "1%")
assert.Equal(t, percent(500, 1000), "50%")
assert.Equal(t, percent(1000, 1000), "100%")
assert.Equal(t, percent(1e8, 1e9), "10%")
assert.Equal(t, percent(1e8, 1e9), "10%")
assert.Equal(t, percent(0, 0), "-")
assert.Equal(t, percent(100, -100), "-")
assert.Equal(t, percent(-100, 100), "-")
assert.Equal(t, percent(-100, -100), "-")
}
func TestStatsError(t *testing.T) {
s := NewStats()
assert.Equal(t, int64(0), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.False(t, s.HadRetryError())
assert.Equal(t, time.Time{}, s.RetryAfter())
assert.Equal(t, nil, s.GetLastError())
assert.False(t, s.Errored())
t0 := time.Now()
t1 := t0.Add(time.Second)
s.Error(nil)
assert.Equal(t, int64(0), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.False(t, s.HadRetryError())
assert.Equal(t, time.Time{}, s.RetryAfter())
assert.Equal(t, nil, s.GetLastError())
assert.False(t, s.Errored())
s.Error(io.EOF)
assert.Equal(t, int64(1), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.True(t, s.HadRetryError())
assert.Equal(t, time.Time{}, s.RetryAfter())
assert.Equal(t, io.EOF, s.GetLastError())
assert.True(t, s.Errored())
e := fserrors.ErrorRetryAfter(t0)
s.Error(e)
assert.Equal(t, int64(2), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.True(t, s.HadRetryError())
assert.Equal(t, t0, s.RetryAfter())
assert.Equal(t, e, s.GetLastError())
err := errors.Wrap(fserrors.ErrorRetryAfter(t1), "potato")
s.Error(err)
assert.Equal(t, int64(3), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.True(t, s.HadRetryError())
assert.Equal(t, t1, s.RetryAfter())
assert.Equal(t, t1, fserrors.RetryAfterErrorTime(err))
s.Error(fserrors.FatalError(io.EOF))
assert.Equal(t, int64(4), s.GetErrors())
assert.True(t, s.HadFatalError())
assert.True(t, s.HadRetryError())
assert.Equal(t, t1, s.RetryAfter())
s.ResetErrors()
assert.Equal(t, int64(0), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.False(t, s.HadRetryError())
assert.Equal(t, time.Time{}, s.RetryAfter())
assert.Equal(t, nil, s.GetLastError())
assert.False(t, s.Errored())
s.Error(fserrors.NoRetryError(io.EOF))
assert.Equal(t, int64(1), s.GetErrors())
assert.False(t, s.HadFatalError())
assert.False(t, s.HadRetryError())
assert.Equal(t, time.Time{}, s.RetryAfter())
}
func TestStatsTotalDuration(t *testing.T) {
startTime := time.Now()
time1 := startTime.Add(-40 * time.Second)
time2 := time1.Add(10 * time.Second)
time3 := time2.Add(10 * time.Second)
time4 := time3.Add(10 * time.Second)
t.Run("Single completed transfer", func(t *testing.T) {
s := NewStats()
s.AddTransfer(&Transfer{
startedAt: time1,
completedAt: time2,
})
s.mu.Lock()
total := s.totalDuration()
s.mu.Unlock()
assert.Equal(t, 10*time.Second, total)
})
t.Run("Single uncompleted transfer", func(t *testing.T) {
s := NewStats()
s.AddTransfer(&Transfer{
startedAt: time1,
})
s.mu.Lock()
total := s.totalDuration()
s.mu.Unlock()
assert.Equal(t, time.Since(time1)/time.Second, total/time.Second)
})
t.Run("Overlapping without ending", func(t *testing.T) {
s := NewStats()
s.AddTransfer(&Transfer{
startedAt: time2,
completedAt: time3,
})
s.AddTransfer(&Transfer{
startedAt: time2,
completedAt: time2.Add(time.Second),
})
s.AddTransfer(&Transfer{
startedAt: time1,
completedAt: time3,
})
s.AddTransfer(&Transfer{
startedAt: time3,
completedAt: time4,
})
s.AddTransfer(&Transfer{
startedAt: time.Now(),
})
time.Sleep(time.Millisecond)
s.mu.Lock()
total := s.totalDuration()
s.mu.Unlock()
assert.Equal(t, time.Duration(30), total/time.Second)
})
t.Run("Mixed completed and uncompleted transfers", func(t *testing.T) {
s := NewStats()
s.AddTransfer(&Transfer{
startedAt: time1,
completedAt: time2,
})
s.AddTransfer(&Transfer{
startedAt: time2,
})
s.AddTransfer(&Transfer{
startedAt: time3,
})
s.AddTransfer(&Transfer{
startedAt: time3,
})
s.mu.Lock()
total := s.totalDuration()
s.mu.Unlock()
assert.Equal(t, startTime.Sub(time1)/time.Second, total/time.Second)
})
}