package counters import ( "database/sql" "math" "time" c "github.com/Azareal/Gosora/common" qgen "github.com/Azareal/Gosora/query_gen" "github.com/pkg/errors" ) var PerfCounter *DefaultPerfCounter type PerfCounterBucket struct { low *MutexCounter64Bucket high *MutexCounter64Bucket avg *MutexCounter64Bucket } // TODO: Track perf on a per route basis type DefaultPerfCounter struct { buckets []*PerfCounterBucket insert *sql.Stmt } func NewDefaultPerfCounter(acc *qgen.Accumulator) (*DefaultPerfCounter, error) { co := &DefaultPerfCounter{ buckets: []*PerfCounterBucket{ { low: &MutexCounter64Bucket{counter: math.MaxInt64}, high: &MutexCounter64Bucket{counter: 0}, avg: &MutexCounter64Bucket{counter: 0}, }, }, insert: acc.Insert("perfchunks").Columns("low,high,avg,createdAt").Fields("?,?,?,UTC_TIMESTAMP()").Prepare(), } c.AddScheduledFifteenMinuteTask(co.Tick) //c.AddScheduledSecondTask(co.Tick) c.AddShutdownTask(co.Tick) return co, acc.FirstError() } func (co *DefaultPerfCounter) Tick() error { getCounter := func(b *MutexCounter64Bucket) (c int64) { b.Lock() c = b.counter b.counter = 0 b.Unlock() return c } var low int64 hTbl := c.GetHookTable() for _, b := range co.buckets { b.low.Lock() low, b.low.counter = b.low.counter, math.MaxInt64 b.low.Unlock() if low == math.MaxInt64 { low = 0 } high := getCounter(b.high) avg := getCounter(b.avg) c.H_counters_perf_tick_row_hook(hTbl, low, high, avg) e := co.insertChunk(low, high, avg) // TODO: Bulk insert for speed? if e != nil { return errors.Wrap(errors.WithStack(e), "perf counter") } } return nil } func (co *DefaultPerfCounter) insertChunk(low, high, avg int64) error { if low == 0 && high == 0 && avg == 0 { return nil } c.DebugLogf("Inserting a pchunk with low %d, high %d, avg %d", low, high, avg) _, e := co.insert.Exec(low, high, avg) return e } func (co *DefaultPerfCounter) Push(dur time.Duration /*,_ bool*/) { id := 0 b := co.buckets[id] //c.DebugDetail("buckets[", id, "]: ", b) micro := dur.Microseconds() if micro >= math.MaxInt32 { c.LogWarning(errors.New("dur should not be int32 max or higher")) } low := b.low low.Lock() if micro < low.counter { low.counter = micro } low.Unlock() high := b.high high.Lock() if micro > high.counter { high.counter = micro } high.Unlock() avg := b.avg avg.Lock() if micro != avg.counter { if avg.counter == 0 { avg.counter = micro } else { avg.counter = (micro + avg.counter) / 2 } } avg.Unlock() }