package middlewares import ( "math" "math/big" "sync" "time" ) // TimingAttackDelayFunc describes a function for preventing timing attacks via a delay. type TimingAttackDelayFunc func(ctx *AutheliaCtx, requestTime time.Time, successful *bool) // TimingAttackDelay creates a new standard timing delay func. func TimingAttackDelay(history int, minDelayMs float64, maxRandomMs int64, initialDelay time.Duration, record bool) TimingAttackDelayFunc { var ( mutex = &sync.Mutex{} cursor = 0 ) execDurationMovingAverage := make([]time.Duration, history) for i := range execDurationMovingAverage { execDurationMovingAverage[i] = initialDelay } return func(ctx *AutheliaCtx, requestTime time.Time, successful *bool) { successfulValue := false if successful != nil { successfulValue = *successful } execDuration := time.Since(requestTime) if record && ctx.Providers.Metrics != nil { ctx.Providers.Metrics.RecordAuthenticationDuration(successfulValue, execDuration) } execDurationAvgMs := movingAverageIteration(execDuration, history, successfulValue, &cursor, &execDurationMovingAverage, mutex) actualDelayMs := calculateActualDelay(ctx, execDuration, execDurationAvgMs, minDelayMs, maxRandomMs, successfulValue) time.Sleep(time.Duration(actualDelayMs) * time.Millisecond) } } func movingAverageIteration(value time.Duration, history int, successful bool, cursor *int, movingAvg *[]time.Duration, mutex sync.Locker) float64 { mutex.Lock() var sum int64 for _, v := range *movingAvg { sum += v.Milliseconds() } if successful { (*movingAvg)[*cursor] = value *cursor = (*cursor + 1) % history } mutex.Unlock() return float64(sum / int64(history)) } func calculateActualDelay(ctx *AutheliaCtx, execDuration time.Duration, execDurationAvgMs, minDelayMs float64, maxRandomMs int64, successful bool) (actualDelayMs float64) { randomDelayMs, err := ctx.Providers.Random.IntErr(big.NewInt(maxRandomMs)) if err != nil { return float64(maxRandomMs) } totalDelayMs := math.Max(execDurationAvgMs, minDelayMs) + float64(randomDelayMs.Int64()) actualDelayMs = math.Max(totalDelayMs-float64(execDuration.Milliseconds()), 1.0) ctx.Logger.Tracef("Timing Attack Delay successful: %t, exec duration: %d, avg execution duration: %d, random delay ms: %d, total delay ms: %d, actual delay ms: %d", successful, execDuration.Milliseconds(), int64(execDurationAvgMs), randomDelayMs.Int64(), int64(totalDelayMs), int64(actualDelayMs)) return actualDelayMs }