// Copyright (c) 2013-2014 Conformal Systems LLC. // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package btcchain_test import ( "strconv" "testing" "time" "github.com/btcsuite/btcchain" ) // TestMedianTime tests the medianTime implementation. func TestMedianTime(t *testing.T) { tests := []struct { in []int64 wantOffset int64 useDupID bool }{ // Not enough samples must result in an offset of 0. {in: []int64{1}, wantOffset: 0}, {in: []int64{1, 2}, wantOffset: 0}, {in: []int64{1, 2, 3}, wantOffset: 0}, {in: []int64{1, 2, 3, 4}, wantOffset: 0}, // Various number of entries. The expected offset is only // updated on odd number of elements. {in: []int64{-13, 57, -4, -23, -12}, wantOffset: -12}, {in: []int64{55, -13, 61, -52, 39, 55}, wantOffset: 39}, {in: []int64{-62, -58, -30, -62, 51, -30, 15}, wantOffset: -30}, {in: []int64{29, -47, 39, 54, 42, 41, 8, -33}, wantOffset: 39}, {in: []int64{37, 54, 9, -21, -56, -36, 5, -11, -39}, wantOffset: -11}, {in: []int64{57, -28, 25, -39, 9, 63, -16, 19, -60, 25}, wantOffset: 9}, {in: []int64{-5, -4, -3, -2, -1}, wantOffset: -3, useDupID: true}, // The offset stops being updated once the max number of entries // has been reached. This is actually a bug from Bitcoin Core, // but since the time is ultimately used as a part of the // consensus rules, it must be mirrored. {in: []int64{-67, 67, -50, 24, 63, 17, 58, -14, 5, -32, -52}, wantOffset: 17}, {in: []int64{-67, 67, -50, 24, 63, 17, 58, -14, 5, -32, -52, 45}, wantOffset: 17}, {in: []int64{-67, 67, -50, 24, 63, 17, 58, -14, 5, -32, -52, 45, 4}, wantOffset: 17}, // Offsets that are too far away from the local time should // be ignored. {in: []int64{-4201, 4202, -4203, 4204, -4205}, wantOffset: 0}, // Excerise the condition where the median offset is greater // than the max allowed adjustment, but there is at least one // sample that is close enough to the current time to avoid // triggering a warning about an invalid local clock. {in: []int64{4201, 4202, 4203, 4204, -299}, wantOffset: 0}, } // Modify the max number of allowed median time entries for these tests. btcchain.TstSetMaxMedianTimeEntries(10) defer btcchain.TstSetMaxMedianTimeEntries(200) for i, test := range tests { filter := btcchain.NewMedianTime() for j, offset := range test.in { id := strconv.Itoa(j) now := time.Unix(time.Now().Unix(), 0) tOffset := now.Add(time.Duration(offset) * time.Second) filter.AddTimeSample(id, tOffset) // Ensure the duplicate IDs are ignored. if test.useDupID { // Modify the offsets to ensure the final median // would be different if the duplicate is added. tOffset = tOffset.Add(time.Duration(offset) * time.Second) filter.AddTimeSample(id, tOffset) } } // Since it is possible that the time.Now call in AddTimeSample // and the time.Now calls here in the tests will be off by one // second, allow a fudge factor to compensate. gotOffset := filter.Offset() wantOffset := time.Duration(test.wantOffset) * time.Second wantOffset2 := time.Duration(test.wantOffset-1) * time.Second if gotOffset != wantOffset && gotOffset != wantOffset2 { t.Errorf("Offset #%d: unexpected offset -- got %v, "+ "want %v or %v", i, gotOffset, wantOffset, wantOffset2) continue } // Since it is possible that the time.Now call in AdjustedTime // and the time.Now call here in the tests will be off by one // second, allow a fudge factor to compensate. adjustedTime := filter.AdjustedTime() now := time.Unix(time.Now().Unix(), 0) wantTime := now.Add(filter.Offset()) wantTime2 := now.Add(filter.Offset() - time.Second) if !adjustedTime.Equal(wantTime) && !adjustedTime.Equal(wantTime2) { t.Errorf("AdjustedTime #%d: unexpected result -- got %v, "+ "want %v or %v", i, adjustedTime, wantTime, wantTime2) continue } } }