Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

topsql: use new cache policy for top-n SQL #25744

Merged
merged 21 commits into from
Jun 29, 2021
Merged
Show file tree
Hide file tree
Changes from 19 commits
Commits
File filter

Filter by extension

Filter by extension

Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
2 changes: 1 addition & 1 deletion sessionctx/variable/tidb_vars.go
Original file line number Diff line number Diff line change
Expand Up @@ -712,7 +712,7 @@ const (
DefTiDBTopSQLEnable = false
DefTiDBTopSQLAgentAddress = ""
DefTiDBTopSQLPrecisionSeconds = 1
DefTiDBTopSQLMaxStatementCount = 2000
DefTiDBTopSQLMaxStatementCount = 200
DefTiDBTopSQLMaxCollect = 10000
DefTiDBTopSQLReportIntervalSeconds = 60
DefTiDBEnableGlobalTemporaryTable = false
Expand Down
2 changes: 1 addition & 1 deletion util/topsql/reporter/client.go
Original file line number Diff line number Diff line change
Expand Up @@ -99,7 +99,7 @@ func (r *GRPCReportClient) Close() {
}

// sendBatchCPUTimeRecord sends a batch of TopSQL records by stream.
func (r *GRPCReportClient) sendBatchCPUTimeRecord(ctx context.Context, records map[string]*dataPoints) error {
func (r *GRPCReportClient) sendBatchCPUTimeRecord(ctx context.Context, records []*dataPoints) error {
if len(records) == 0 {
return nil
}
Expand Down
121 changes: 75 additions & 46 deletions util/topsql/reporter/reporter.go
Original file line number Diff line number Diff line change
Expand Up @@ -61,25 +61,31 @@ type dataPoints struct {
CPUTimeMsTotal uint64
}

// cpuTimeSort is used to sort TopSQL records by total CPU time
type cpuTimeSort struct {
Key string
SQLDigest []byte
PlanDigest []byte
CPUTimeMsTotal uint64 // The sorting field
type dataPointsOrderByCPUTime []*dataPoints

func (t dataPointsOrderByCPUTime) Len() int {
return len(t)
}

type cpuTimeSortSlice []cpuTimeSort
func (t dataPointsOrderByCPUTime) Less(i, j int) bool {
// We need find the kth largest value, so here should use >
return t[i].CPUTimeMsTotal > t[j].CPUTimeMsTotal
}
func (t dataPointsOrderByCPUTime) Swap(i, j int) {
t[i], t[j] = t[j], t[i]
}

func (t cpuTimeSortSlice) Len() int {
type sqlCPUTimeRecordSlice []tracecpu.SQLCPUTimeRecord

func (t sqlCPUTimeRecordSlice) Len() int {
return len(t)
}

func (t cpuTimeSortSlice) Less(i, j int) bool {
func (t sqlCPUTimeRecordSlice) Less(i, j int) bool {
// We need find the kth largest value, so here should use >
return t[i].CPUTimeMsTotal > t[j].CPUTimeMsTotal
return t[i].CPUTimeMs > t[j].CPUTimeMs
}
func (t cpuTimeSortSlice) Swap(i, j int) {
func (t sqlCPUTimeRecordSlice) Swap(i, j int) {
t[i], t[j] = t[j], t[i]
}

Expand Down Expand Up @@ -215,16 +221,45 @@ func encodeKey(buf *bytes.Buffer, sqlDigest, planDigest []byte) string {
return buf.String()
}

// doCollect uses a hashmap to store records in every second, and evict when necessary.
func getTopNRecords(records []tracecpu.SQLCPUTimeRecord) (topN, shouldEvict []tracecpu.SQLCPUTimeRecord) {
maxStmt := int(variable.TopSQLVariable.MaxStatementCount.Load())
if len(records) <= maxStmt {
return records, nil
}
if err := quickselect.QuickSelect(sqlCPUTimeRecordSlice(records), maxStmt); err != nil {
// skip eviction
return records, nil
}
return records[:maxStmt], records[maxStmt:]
}

func getTopNDataPoints(records []*dataPoints) (topN, shouldEvict []*dataPoints) {
maxStmt := int(variable.TopSQLVariable.MaxStatementCount.Load())
if len(records) <= maxStmt {
return records, nil
}
if err := quickselect.QuickSelect(dataPointsOrderByCPUTime(records), maxStmt); err != nil {
// skip eviction
return records, nil
}
return records[:maxStmt], records[maxStmt:]
}

// doCollect collects top N records of each round into collectTarget, and evict the data that is not in top N.
func (tsr *RemoteTopSQLReporter) doCollect(
collectTarget map[string]*dataPoints, timestamp uint64, records []tracecpu.SQLCPUTimeRecord) {
defer util.Recover("top-sql", "doCollect", nil, false)

// Get top N records of each round records.
var evicted []tracecpu.SQLCPUTimeRecord
records, evicted = getTopNRecords(records)

keyBuf := bytes.NewBuffer(make([]byte, 0, 64))
listCapacity := int(variable.TopSQLVariable.ReportIntervalSeconds.Load()/variable.TopSQLVariable.PrecisionSeconds.Load() + 1)
if listCapacity < 1 {
listCapacity = 1
}
// Collect the top N records to collectTarget for each round.
for _, record := range records {
key := encodeKey(keyBuf, record.SQLDigest, record.PlanDigest)
entry, exist := collectTarget[key]
Expand All @@ -245,37 +280,15 @@ func (tsr *RemoteTopSQLReporter) doCollect(
entry.CPUTimeMsTotal += uint64(record.CPUTimeMs)
}

// evict records according to `MaxStatementCount` variable.
// TODO: Better to pass in the variable in the constructor, instead of referencing directly.
maxStmt := int(variable.TopSQLVariable.MaxStatementCount.Load())
if len(collectTarget) <= maxStmt {
return
}

// find the max CPUTimeMsTotal that should be evicted
digestCPUTimeList := make([]cpuTimeSort, len(collectTarget))
idx := 0
for key, value := range collectTarget {
digestCPUTimeList[idx] = cpuTimeSort{
Key: key,
SQLDigest: value.SQLDigest,
PlanDigest: value.PlanDigest,
CPUTimeMsTotal: value.CPUTimeMsTotal,
}
idx++
}

// QuickSelect will only return error when the second parameter is out of range
if err := quickselect.QuickSelect(cpuTimeSortSlice(digestCPUTimeList), maxStmt); err != nil {
// skip eviction
return
}

itemsToEvict := digestCPUTimeList[maxStmt:]
// Evict redundant data.
normalizedSQLMap := tsr.normalizedSQLMap.Load().(*sync.Map)
normalizedPlanMap := tsr.normalizedPlanMap.Load().(*sync.Map)
for _, evict := range itemsToEvict {
delete(collectTarget, evict.Key)
for _, evict := range evicted {
key := encodeKey(keyBuf, evict.SQLDigest, evict.PlanDigest)
_, ok := collectTarget[key]
if ok {
continue
}
_, loaded := normalizedSQLMap.LoadAndDelete(string(evict.SQLDigest))
if loaded {
tsr.sqlMapLength.Add(-1)
Expand All @@ -290,11 +303,13 @@ func (tsr *RemoteTopSQLReporter) doCollect(
// takeDataAndSendToReportChan takes out (resets) collected data. These data will be send to a report channel
// for reporting later.
func (tsr *RemoteTopSQLReporter) takeDataAndSendToReportChan(collectedDataPtr *map[string]*dataPoints) {
data := reportData{
collectedData: *collectedDataPtr,
normalizedSQLMap: tsr.normalizedSQLMap.Load().(*sync.Map),
normalizedPlanMap: tsr.normalizedPlanMap.Load().(*sync.Map),
// Fetch TopN dataPoints.
records := make([]*dataPoints, 0, len(*collectedDataPtr))
for _, v := range *collectedDataPtr {
records = append(records, v)
}
normalizedSQLMap := tsr.normalizedSQLMap.Load().(*sync.Map)
normalizedPlanMap := tsr.normalizedPlanMap.Load().(*sync.Map)

// Reset data for next report.
*collectedDataPtr = make(map[string]*dataPoints)
Expand All @@ -303,6 +318,20 @@ func (tsr *RemoteTopSQLReporter) takeDataAndSendToReportChan(collectedDataPtr *m
tsr.sqlMapLength.Store(0)
tsr.planMapLength.Store(0)

// Evict redundant data.
var evicted []*dataPoints
records, evicted = getTopNDataPoints(records)
for _, evict := range evicted {
normalizedSQLMap.LoadAndDelete(string(evict.SQLDigest))
normalizedPlanMap.LoadAndDelete(string(evict.PlanDigest))
}

data := reportData{
collectedData: records,
normalizedSQLMap: normalizedSQLMap,
normalizedPlanMap: normalizedPlanMap,
}

// Send to report channel. When channel is full, data will be dropped.
select {
case tsr.reportDataChan <- data:
Expand All @@ -312,7 +341,7 @@ func (tsr *RemoteTopSQLReporter) takeDataAndSendToReportChan(collectedDataPtr *m

// reportData contains data that reporter sends to the agent
type reportData struct {
collectedData map[string]*dataPoints
collectedData []*dataPoints
normalizedSQLMap *sync.Map
normalizedPlanMap *sync.Map
}
Expand Down
72 changes: 72 additions & 0 deletions util/topsql/reporter/reporter_test.go
Original file line number Diff line number Diff line change
Expand Up @@ -169,6 +169,78 @@ func (s *testTopSQLReporter) TestCollectAndEvicted(c *C) {
}
}

func (s *testTopSQLReporter) newSQLCPUTimeRecord(tsr *RemoteTopSQLReporter, sqlID int, cpuTimeMs uint32) tracecpu.SQLCPUTimeRecord {
key := []byte("sqlDigest" + strconv.Itoa(sqlID))
value := "sqlNormalized" + strconv.Itoa(sqlID)
tsr.RegisterSQL(key, value)

key = []byte("planDigest" + strconv.Itoa(sqlID))
value = "planNormalized" + strconv.Itoa(sqlID)
tsr.RegisterPlan(key, value)

return tracecpu.SQLCPUTimeRecord{
SQLDigest: []byte("sqlDigest" + strconv.Itoa(sqlID)),
PlanDigest: []byte("planDigest" + strconv.Itoa(sqlID)),
CPUTimeMs: cpuTimeMs,
}
}

func (s *testTopSQLReporter) collectAndWait(tsr *RemoteTopSQLReporter, timestamp uint64, records []tracecpu.SQLCPUTimeRecord) {
tsr.Collect(timestamp, records)
time.Sleep(time.Millisecond * 100)
}

func (s *testTopSQLReporter) TestCollectAndTopN(c *C) {
agentServer, err := mock.StartMockAgentServer()
c.Assert(err, IsNil)
defer agentServer.Stop()

tsr := setupRemoteTopSQLReporter(2, 1, agentServer.Address())
defer tsr.Close()

records := []tracecpu.SQLCPUTimeRecord{
s.newSQLCPUTimeRecord(tsr, 1, 1),
s.newSQLCPUTimeRecord(tsr, 2, 2),
}
s.collectAndWait(tsr, 1, records)

records = []tracecpu.SQLCPUTimeRecord{
s.newSQLCPUTimeRecord(tsr, 3, 3),
s.newSQLCPUTimeRecord(tsr, 1, 1),
}
s.collectAndWait(tsr, 2, records)

records = []tracecpu.SQLCPUTimeRecord{
s.newSQLCPUTimeRecord(tsr, 4, 1),
s.newSQLCPUTimeRecord(tsr, 1, 1),
}
s.collectAndWait(tsr, 3, records)

// Wait agent server collect finish.
agentServer.WaitCollectCnt(1, time.Second*10)

// check for equality of server received batch and the original data
results := agentServer.GetLatestRecords()
c.Assert(results, HasLen, 2)
for _, req := range results {
id := 0
prefix := "sqlDigest"
if strings.HasPrefix(string(req.SqlDigest), prefix) {
n, err := strconv.Atoi(string(req.SqlDigest)[len(prefix):])
c.Assert(err, IsNil)
id = n
}
if id != 1 && id != 3 {
c.Fatalf("the id should be 1 or 3, got: %v", id)
}
total := uint32(0)
for _, v := range req.CpuTimeMsList {
total += v
}
c.Assert(total, Equals, uint32(3))
}
}

func (s *testTopSQLReporter) TestCollectCapacity(c *C) {
tsr := setupRemoteTopSQLReporter(maxSQLNum, 60, "")
defer tsr.Close()
Expand Down