package server import ( "bytes" "fmt" "github.com/siddontang/go/sync2" "os" "runtime" "runtime/debug" "strings" "sync" "sync/atomic" "time" ) type info struct { sync.Mutex app *App Server struct { OS string ProceessId int } Clients struct { ConnectedClients int64 } Replication struct { PubLogNum sync2.AtomicInt64 PubLogAckNum sync2.AtomicInt64 PubLogTotalAckTime sync2.AtomicDuration MasterLastLogID sync2.AtomicUint64 } } func newInfo(app *App) (i *info, err error) { i = new(info) i.app = app i.Server.OS = runtime.GOOS i.Server.ProceessId = os.Getpid() return i, nil } func (i *info) addClients(delta int64) { atomic.AddInt64(&i.Clients.ConnectedClients, delta) } func (i *info) Close() { } func getMemoryHuman(m uint64) string { if m > GB { return fmt.Sprintf("%0.3fG", float64(m)/float64(GB)) } else if m > MB { return fmt.Sprintf("%0.3fM", float64(m)/float64(MB)) } else if m > KB { return fmt.Sprintf("%0.3fK", float64(m)/float64(KB)) } else { return fmt.Sprintf("%d", m) } } func (i *info) Dump(section string) []byte { buf := &bytes.Buffer{} switch strings.ToLower(section) { case "": i.dumpAll(buf) case "server": i.dumpServer(buf) case "mem": i.dumpMem(buf) case "gc": i.dumpGC(buf) case "store": i.dumpStore(buf) case "replication": i.dumpReplication(buf) default: buf.WriteString(fmt.Sprintf("# %s\r\n", section)) } return buf.Bytes() } type infoPair struct { Key string Value interface{} } func (i *info) dumpAll(buf *bytes.Buffer) { i.dumpServer(buf) buf.Write(Delims) i.dumpStore(buf) buf.Write(Delims) i.dumpMem(buf) buf.Write(Delims) i.dumpGC(buf) buf.Write(Delims) i.dumpReplication(buf) } func (i *info) dumpServer(buf *bytes.Buffer) { buf.WriteString("# Server\r\n") i.dumpPairs(buf, infoPair{"os", i.Server.OS}, infoPair{"process_id", i.Server.ProceessId}, infoPair{"addr", i.app.cfg.Addr}, infoPair{"http_addr", i.app.cfg.HttpAddr}, infoPair{"readonly", i.app.cfg.Readonly}, infoPair{"goroutine_num", runtime.NumGoroutine()}, infoPair{"cgo_call_num", runtime.NumCgoCall()}, infoPair{"client_num", i.Clients.ConnectedClients}, ) } func (i *info) dumpMem(buf *bytes.Buffer) { buf.WriteString("# Mem\r\n") var mem runtime.MemStats runtime.ReadMemStats(&mem) i.dumpPairs(buf, infoPair{"mem_alloc", getMemoryHuman(mem.Alloc)}, infoPair{"mem_sys", getMemoryHuman(mem.Sys)}, infoPair{"mem_looksups", getMemoryHuman(mem.Lookups)}, infoPair{"mem_mallocs", getMemoryHuman(mem.Mallocs)}, infoPair{"mem_frees", getMemoryHuman(mem.Frees)}, infoPair{"mem_total", getMemoryHuman(mem.TotalAlloc)}, infoPair{"mem_heap_alloc", getMemoryHuman(mem.HeapAlloc)}, infoPair{"mem_heap_sys", getMemoryHuman(mem.HeapSys)}, infoPair{"mem_head_idle", getMemoryHuman(mem.HeapIdle)}, infoPair{"mem_head_inuse", getMemoryHuman(mem.HeapInuse)}, infoPair{"mem_head_released", getMemoryHuman(mem.HeapReleased)}, infoPair{"mem_head_objects", mem.HeapObjects}, ) } const ( gcTimeFormat = "2006/01/02 15:04:05.000" ) func (i *info) dumpGC(buf *bytes.Buffer) { buf.WriteString("# GC\r\n") count := 5 var st debug.GCStats st.Pause = make([]time.Duration, count) // st.PauseQuantiles = make([]time.Duration, count) debug.ReadGCStats(&st) h := make([]string, 0, count) for i := 0; i < count && i < len(st.Pause); i++ { h = append(h, st.Pause[i].String()) } i.dumpPairs(buf, infoPair{"gc_last_time", st.LastGC.Format(gcTimeFormat)}, infoPair{"gc_num", st.NumGC}, infoPair{"gc_pause_total", st.PauseTotal.String()}, infoPair{"gc_pause_history", strings.Join(h, ",")}, ) } func (i *info) dumpStore(buf *bytes.Buffer) { buf.WriteString("# Store\r\n") s := i.app.ldb.StoreStat() getNum := s.GetNum.Get() getTotalTime := s.GetTotalTime.Get() gt := int64(0) if getNum > 0 { gt = getTotalTime.Nanoseconds() / (getNum * 1e3) } commitNum := s.BatchCommitNum.Get() commitTotalTime := s.BatchCommitTotalTime.Get() ct := int64(0) if commitNum > 0 { ct = commitTotalTime.Nanoseconds() / (commitNum * 1e3) } i.dumpPairs(buf, infoPair{"name", i.app.cfg.DBName}, infoPair{"get", s.GetNum}, infoPair{"get_missing", s.GetMissingNum}, infoPair{"get_per_time", fmt.Sprintf("%0.002fms", float64(gt)/1000.0)}, infoPair{"iter", s.IterNum}, infoPair{"iter_seek", s.IterSeekNum}, infoPair{"iter_close", s.IterCloseNum}, infoPair{"batch_commit", s.BatchCommitNum}, infoPair{"batch_commit_per_time", fmt.Sprintf("%0.002fms", float64(ct)/1000.0)}, ) } func (i *info) dumpReplication(buf *bytes.Buffer) { buf.WriteString("# Replication\r\n") p := []infoPair{} i.app.slock.Lock() slaves := make([]string, 0, len(i.app.slaves)) for _, s := range i.app.slaves { slaves = append(slaves, s.slaveListeningAddr) } i.app.slock.Unlock() num := i.Replication.PubLogNum.Get() p = append(p, infoPair{"pub_log_num", num}) ackNum := i.Replication.PubLogAckNum.Get() totalTime := i.Replication.PubLogTotalAckTime.Get().Nanoseconds() / 1e6 if ackNum != 0 { p = append(p, infoPair{"pub_log_ack_per_time", totalTime / ackNum}) } else { p = append(p, infoPair{"pub_log_ack_per_time", 0}) } p = append(p, infoPair{"slaveof", i.app.cfg.SlaveOf}) if len(slaves) > 0 { p = append(p, infoPair{"slaves", strings.Join(slaves, ",")}) } if s, _ := i.app.ldb.ReplicationStat(); s != nil { p = append(p, infoPair{"last_log_id", s.LastID}) p = append(p, infoPair{"first_log_id", s.FirstID}) p = append(p, infoPair{"commit_log_id", s.CommitID}) } else { p = append(p, infoPair{"last_log_id", 0}) p = append(p, infoPair{"first_log_id", 0}) p = append(p, infoPair{"commit_log_id", 0}) } p = append(p, infoPair{"master_last_log_id", i.Replication.MasterLastLogID.Get()}) i.dumpPairs(buf, p...) } func (i *info) dumpPairs(buf *bytes.Buffer, pairs ...infoPair) { for _, v := range pairs { buf.WriteString(fmt.Sprintf("%s:%v\r\n", v.Key, v.Value)) } }