/* * MinIO Cloud Storage, (C) 2017 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package cmd import ( "math/rand" "testing" "time" ) func TestDynamicTimeoutSingleIncrease(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) initial := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogFailure() } adjusted := timeout.Timeout() if initial >= adjusted { t.Errorf("Failure to increase timeout, expected %v to be more than %v", adjusted, initial) } } func TestDynamicTimeoutDualIncrease(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) initial := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogFailure() } adjusted := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogFailure() } adjustedAgain := timeout.Timeout() if initial >= adjusted || adjusted >= adjustedAgain { t.Errorf("Failure to increase timeout multiple times") } } func TestDynamicTimeoutSingleDecrease(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) initial := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogSuccess(20 * time.Second) } adjusted := timeout.Timeout() if initial <= adjusted { t.Errorf("Failure to decrease timeout, expected %v to be less than %v", adjusted, initial) } } func TestDynamicTimeoutDualDecrease(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) initial := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogSuccess(20 * time.Second) } adjusted := timeout.Timeout() for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogSuccess(20 * time.Second) } adjustedAgain := timeout.Timeout() if initial <= adjusted || adjusted <= adjustedAgain { t.Errorf("Failure to decrease timeout multiple times") } } func TestDynamicTimeoutManyDecreases(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) initial := timeout.Timeout() const successTimeout = 20 * time.Second for l := 0; l < 100; l++ { for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogSuccess(successTimeout) } } adjusted := timeout.Timeout() // Check whether eventual timeout is between initial value and success timeout if initial <= adjusted || adjusted <= successTimeout { t.Errorf("Failure to decrease timeout appropriately") } } func TestDynamicTimeoutHitMinimum(t *testing.T) { const minimum = 30 * time.Second timeout := newDynamicTimeout(time.Minute, minimum) initial := timeout.Timeout() const successTimeout = 20 * time.Second for l := 0; l < 100; l++ { for i := 0; i < dynamicTimeoutLogSize; i++ { timeout.LogSuccess(successTimeout) } } adjusted := timeout.Timeout() // Check whether eventual timeout has hit the minimum value if initial <= adjusted || adjusted != minimum { t.Errorf("Failure to decrease timeout appropriately") } } func testDynamicTimeoutAdjust(t *testing.T, timeout *dynamicTimeout, f func() float64) { const successTimeout = 20 * time.Second for i := 0; i < dynamicTimeoutLogSize; i++ { rnd := f() duration := time.Duration(float64(successTimeout) * rnd) if duration < 100*time.Millisecond { duration = 100 * time.Millisecond } if duration >= time.Minute { timeout.LogFailure() } else { timeout.LogSuccess(duration) } } } func TestDynamicTimeoutAdjustExponential(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) rand.Seed(time.Now().UTC().UnixNano()) initial := timeout.Timeout() for try := 0; try < 10; try++ { testDynamicTimeoutAdjust(t, timeout, rand.ExpFloat64) } adjusted := timeout.Timeout() if initial <= adjusted { t.Errorf("Failure to decrease timeout, expected %v to be less than %v", adjusted, initial) } } func TestDynamicTimeoutAdjustNormalized(t *testing.T) { timeout := newDynamicTimeout(time.Minute, time.Second) rand.Seed(time.Now().UTC().UnixNano()) initial := timeout.Timeout() for try := 0; try < 10; try++ { testDynamicTimeoutAdjust(t, timeout, func() float64 { return 1.0 + rand.NormFloat64() }) } adjusted := timeout.Timeout() if initial <= adjusted { t.Errorf("Failure to decrease timeout, expected %v to be less than %v", adjusted, initial) } }