selectOverlappingDirs selects wrong dirs where there are 2 disjoint sets of overlapping dirs

Signed-off-by: naivewong <867245430@qq.com>
This commit is contained in:
naivewong 2019-04-08 20:27:06 +08:00 committed by Krasi Georgiev
parent 8b33ee9e2b
commit 7ab060c864
4 changed files with 122 additions and 47 deletions

View File

@ -3,6 +3,7 @@
- [REMOVED] `chunks.NewReader` is removed as it wasn't used anywhere.
- [REMOVED] `FromData` is considered unused so was removed.
- [FEATURE] Added option WALSegmentSize -1 to disable the WAL.
- [BUGFIX] Bugfix in selectOverlappingDirs. Only return the first overlapping blocks.
- [BUGFIX] Fsync the meta file to persist it on disk to avoid data loss in case of a host crash.
- [BUGFIX] Fix fd and vm_area leak on error path in chunks.NewDirReader.
- [BUGFIX] Fix fd and vm_area leak on error path in index.NewFileReader.

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@ -267,8 +267,8 @@ func (c *LeveledCompactor) selectDirs(ds []dirMeta) []dirMeta {
return nil
}
// selectOverlappingDirs returns all dirs with overlaping time ranges.
// It expects sorted input by mint.
// selectOverlappingDirs returns all dirs with overlapping time ranges.
// It expects sorted input by mint and returns the overlapping dirs in the same order as received.
func (c *LeveledCompactor) selectOverlappingDirs(ds []dirMeta) []string {
if len(ds) < 2 {
return nil
@ -281,6 +281,8 @@ func (c *LeveledCompactor) selectOverlappingDirs(ds []dirMeta) []string {
overlappingDirs = append(overlappingDirs, ds[i].dir)
}
overlappingDirs = append(overlappingDirs, d.dir)
} else if len(overlappingDirs) > 0 {
break
}
if d.meta.MaxTime > globalMaxt {
globalMaxt = d.meta.MaxTime

View File

@ -173,27 +173,25 @@ func TestLeveledCompactor_plan(t *testing.T) {
}, nil)
testutil.Ok(t, err)
cases := []struct {
cases := map[string]struct {
metas []dirMeta
expected []string
}{
{
"Outside Range": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
},
expected: nil,
},
// We should wait for four blocks of size 20 to appear before compacting.
{
"We should wait for four blocks of size 20 to appear before compacting.": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
},
expected: nil,
},
// We should wait for a next block of size 20 to appear before compacting
// the existing ones. We have three, but we ignore the fresh one from WAl.
{
`We should wait for a next block of size 20 to appear before compacting
the existing ones. We have three, but we ignore the fresh one from WAl`: {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -201,8 +199,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: nil,
},
// Block to fill the entire parent range appeared should be compacted.
{
"Block to fill the entire parent range appeared should be compacted": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -211,9 +208,8 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1", "2", "3"},
},
// Block for the next parent range appeared with gap with size 20. Nothing will happen in the first one
// anymore but we ignore fresh one still, so no compaction.
{
`Block for the next parent range appeared with gap with size 20. Nothing will happen in the first one
anymore but we ignore fresh one still, so no compaction`: {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -221,9 +217,8 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: nil,
},
// Block for the next parent range appeared, and we have a gap with size 20 between second and third block.
// We will not get this missed gap anymore and we should compact just these two.
{
`Block for the next parent range appeared, and we have a gap with size 20 between second and third block.
We will not get this missed gap anymore and we should compact just these two.`: {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -232,8 +227,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1", "2"},
},
{
// We have 20, 20, 20, 60, 60 range blocks. "5" is marked as fresh one.
"We have 20, 20, 20, 60, 60 range blocks. '5' is marked as fresh one": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -243,8 +237,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1", "2", "3"},
},
{
// We have 20, 60, 20, 60, 240 range blocks. We can compact 20 + 60 + 60.
"We have 20, 60, 20, 60, 240 range blocks. We can compact 20 + 60 + 60": {
metas: []dirMeta{
metaRange("2", 20, 40, nil),
metaRange("4", 60, 120, nil),
@ -254,8 +247,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"2", "4", "6"},
},
// Do not select large blocks that have many tombstones when there is no fresh block.
{
"Do not select large blocks that have many tombstones when there is no fresh block": {
metas: []dirMeta{
metaRange("1", 0, 540, &BlockStats{
NumSeries: 10,
@ -264,8 +256,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: nil,
},
// Select large blocks that have many tombstones when fresh appears.
{
"Select large blocks that have many tombstones when fresh appears": {
metas: []dirMeta{
metaRange("1", 0, 540, &BlockStats{
NumSeries: 10,
@ -275,8 +266,7 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1"},
},
// For small blocks, do not compact tombstones, even when fresh appears.
{
"For small blocks, do not compact tombstones, even when fresh appears.": {
metas: []dirMeta{
metaRange("1", 0, 60, &BlockStats{
NumSeries: 10,
@ -286,9 +276,8 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: nil,
},
// Regression test: we were stuck in a compact loop where we always recompacted
// the same block when tombstones and series counts were zero.
{
`Regression test: we were stuck in a compact loop where we always recompacted
the same block when tombstones and series counts were zero`: {
metas: []dirMeta{
metaRange("1", 0, 540, &BlockStats{
NumSeries: 0,
@ -298,12 +287,11 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: nil,
},
// Regression test: we were wrongly assuming that new block is fresh from WAL when its ULID is newest.
// We need to actually look on max time instead.
//
// With previous, wrong approach "8" block was ignored, so we were wrongly compacting 5 and 7 and introducing
// block overlaps.
{
`Regression test: we were wrongly assuming that new block is fresh from WAL when its ULID is newest.
We need to actually look on max time instead.
With previous, wrong approach "8" block was ignored, so we were wrongly compacting 5 and 7 and introducing
block overlaps`: {
metas: []dirMeta{
metaRange("5", 0, 360, nil),
metaRange("6", 540, 560, nil), // Fresh one.
@ -312,8 +300,10 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"7", "8"},
},
// For overlapping blocks.
{
// |--------------|
// |----------------|
// |--------------|
"Overlapping blocks 1": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 19, 40, nil),
@ -321,7 +311,10 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1", "2"},
},
{
// |--------------|
// |--------------|
// |--------------|
"Overlapping blocks 2": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 20, 40, nil),
@ -329,7 +322,10 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"2", "3"},
},
{
// |--------------|
// |---------------------|
// |--------------|
"Overlapping blocks 3": {
metas: []dirMeta{
metaRange("1", 0, 20, nil),
metaRange("2", 10, 40, nil),
@ -337,7 +333,11 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"1", "2", "3"},
},
{
// |--------------|
// |--------------------------------|
// |--------------|
// |--------------|
"Overlapping blocks 4": {
metas: []dirMeta{
metaRange("5", 0, 360, nil),
metaRange("6", 340, 560, nil),
@ -346,10 +346,23 @@ func TestLeveledCompactor_plan(t *testing.T) {
},
expected: []string{"5", "6", "7", "8"},
},
// |--------------|
// |--------------|
// |--------------|
// |--------------|
"Overlapping blocks 5": {
metas: []dirMeta{
metaRange("1", 0, 10, nil),
metaRange("2", 9, 20, nil),
metaRange("3", 30, 40, nil),
metaRange("4", 39, 50, nil),
},
expected: []string{"1", "2"},
},
}
for _, c := range cases {
if !t.Run("", func(t *testing.T) {
for title, c := range cases {
if !t.Run(title, func(t *testing.T) {
res, err := compactor.plan(c.metas)
testutil.Ok(t, err)
testutil.Equals(t, c.expected, res)

View File

@ -1706,8 +1706,10 @@ func TestCorrectNumTombstones(t *testing.T) {
func TestVerticalCompaction(t *testing.T) {
cases := []struct {
blockSeries [][]Series
expSeries map[string][]tsdbutil.Sample
blockSeries [][]Series
expSeries map[string][]tsdbutil.Sample
expBlockNum int
expOverlappingBlocks int
}{
// Case 0
// |--------------|
@ -1734,6 +1736,8 @@ func TestVerticalCompaction(t *testing.T) {
sample{8, 99}, sample{9, 99}, sample{10, 99}, sample{11, 99},
sample{12, 99}, sample{13, 99}, sample{14, 99},
}},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 1
// |-------------------------------|
@ -1760,6 +1764,8 @@ func TestVerticalCompaction(t *testing.T) {
sample{8, 99}, sample{9, 99}, sample{10, 99}, sample{11, 0},
sample{13, 0}, sample{17, 0},
}},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 2
// |-------------------------------|
@ -1794,6 +1800,8 @@ func TestVerticalCompaction(t *testing.T) {
sample{14, 59}, sample{15, 59}, sample{17, 59}, sample{20, 59},
sample{21, 59}, sample{22, 59},
}},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 3
// |-------------------|
@ -1828,6 +1836,8 @@ func TestVerticalCompaction(t *testing.T) {
sample{15, 59}, sample{16, 99}, sample{17, 59}, sample{20, 59},
sample{21, 59}, sample{22, 59},
}},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 4
// |-------------------------------------|
@ -1864,6 +1874,8 @@ func TestVerticalCompaction(t *testing.T) {
sample{13, 99}, sample{15, 99}, sample{16, 99}, sample{17, 99},
sample{20, 0}, sample{22, 0},
}},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 5: series are merged properly when there are multiple series.
// |-------------------------------------|
@ -1958,6 +1970,53 @@ func TestVerticalCompaction(t *testing.T) {
sample{20, 0}, sample{22, 0},
},
},
expBlockNum: 1,
expOverlappingBlocks: 1,
},
// Case 6
// |--------------|
// |----------------|
// |--------------|
// |----------------|
{
blockSeries: [][]Series{
[]Series{
newSeries(map[string]string{"a": "b"}, []tsdbutil.Sample{
sample{0, 0}, sample{1, 0}, sample{2, 0}, sample{4, 0},
sample{5, 0}, sample{7, 0}, sample{8, 0}, sample{9, 0},
}),
},
[]Series{
newSeries(map[string]string{"a": "b"}, []tsdbutil.Sample{
sample{3, 99}, sample{5, 99}, sample{6, 99}, sample{7, 99},
sample{8, 99}, sample{9, 99}, sample{10, 99}, sample{11, 99},
sample{12, 99}, sample{13, 99}, sample{14, 99},
}),
},
[]Series{
newSeries(map[string]string{"a": "b"}, []tsdbutil.Sample{
sample{20, 0}, sample{21, 0}, sample{22, 0}, sample{24, 0},
sample{25, 0}, sample{27, 0}, sample{28, 0}, sample{29, 0},
}),
},
[]Series{
newSeries(map[string]string{"a": "b"}, []tsdbutil.Sample{
sample{23, 99}, sample{25, 99}, sample{26, 99}, sample{27, 99},
sample{28, 99}, sample{29, 99}, sample{30, 99}, sample{31, 99},
}),
},
},
expSeries: map[string][]tsdbutil.Sample{`{a="b"}`: {
sample{0, 0}, sample{1, 0}, sample{2, 0}, sample{3, 99},
sample{4, 0}, sample{5, 99}, sample{6, 99}, sample{7, 99},
sample{8, 99}, sample{9, 99}, sample{10, 99}, sample{11, 99},
sample{12, 99}, sample{13, 99}, sample{14, 99},
sample{20, 0}, sample{21, 0}, sample{22, 0}, sample{23, 99},
sample{24, 0}, sample{25, 99}, sample{26, 99}, sample{27, 99},
sample{28, 99}, sample{29, 99}, sample{30, 99}, sample{31, 99},
}},
expBlockNum: 2,
expOverlappingBlocks: 2,
},
}
@ -1995,9 +2054,9 @@ func TestVerticalCompaction(t *testing.T) {
testutil.Equals(t, 0, int(prom_testutil.ToFloat64(lc.metrics.overlappingBlocks)), "overlapping blocks count should be still 0 here")
err = db.compact()
testutil.Ok(t, err)
testutil.Equals(t, 1, len(db.Blocks()), "Wrong number of blocks [after compact]")
testutil.Equals(t, c.expBlockNum, len(db.Blocks()), "Wrong number of blocks [after compact]")
testutil.Equals(t, 1, int(prom_testutil.ToFloat64(lc.metrics.overlappingBlocks)), "overlapping blocks count mismatch")
testutil.Equals(t, c.expOverlappingBlocks, int(prom_testutil.ToFloat64(lc.metrics.overlappingBlocks)), "overlapping blocks count mismatch")
// Query test after merging the overlapping blocks.
querier, err = db.Querier(0, 100)