package controller import ( "bytes" "crypto/rand" "errors" "fmt" "io" "net" "os" "path" "path/filepath" "runtime" "runtime/debug" "strings" "sync" "time" "github.com/tidwall/btree" "github.com/tidwall/buntdb" "github.com/tidwall/resp" "github.com/tidwall/tile38/pkg/collection" "github.com/tidwall/tile38/pkg/core" "github.com/tidwall/tile38/pkg/endpoint" "github.com/tidwall/tile38/pkg/expire" "github.com/tidwall/tile38/pkg/geojson" "github.com/tidwall/tile38/pkg/log" "github.com/tidwall/tile38/pkg/server" ) var errOOM = errors.New("OOM command not allowed when used memory > 'maxmemory'") const goingLive = "going live" const hookLogPrefix = "hook:log:" type collectionT struct { Key string Collection *collection.Collection } type commandDetailsT struct { command string key, id string field string value float64 obj geojson.Object fields []float64 fmap map[string]int oldObj geojson.Object oldFields []float64 updated bool timestamp time.Time parent bool // when true, only children are forwarded pattern string // PDEL key pattern children []*commandDetailsT // for multi actions such as "PDEL" } func (col *collectionT) Less(item btree.Item, ctx interface{}) bool { return col.Key < item.(*collectionT).Key } // Controller is a tile38 controller type Controller struct { // static values host string port int http bool dir string started time.Time config *Config epc *endpoint.Manager // atomics followc aint // counter increases when follow property changes statsTotalConns aint // counter for total connections statsTotalCommands aint // counter for total commands statsExpired aint // item expiration counter lastShrinkDuration aint currentShrinkStart atime stopBackgroundExpiring abool stopWatchingMemory abool stopWatchingAutoGC abool outOfMemory abool connsmu sync.RWMutex conns map[*server.Conn]*clientConn exlistmu sync.RWMutex exlist []exitem mu sync.RWMutex aof *os.File // active aof file aofsz int // active size of the aof file qdb *buntdb.DB // hook queue log qidx uint64 // hook queue log last idx cols *btree.BTree // data collections expires map[string]map[string]time.Time // synced with cols follows map[*bytes.Buffer]bool fcond *sync.Cond lstack []*commandDetailsT lives map[*liveBuffer]bool lcond *sync.Cond fcup bool // follow caught up fcuponce bool // follow caught up once shrinking bool // aof shrinking flag shrinklog [][]string // aof shrinking log hooks map[string]*Hook // hook name hookcols map[string]map[string]*Hook // col key aofconnM map[net.Conn]bool luascripts *lScriptMap luapool *lStatePool pubsub *pubsub hookex expire.List } // ListenAndServe starts a new tile38 server func ListenAndServe(host string, port int, dir string, http bool) error { return ListenAndServeEx(host, port, dir, nil, http) } func ListenAndServeEx(host string, port int, dir string, ln *net.Listener, http bool) error { if core.AppendFileName == "" { core.AppendFileName = path.Join(dir, "appendonly.aof") } log.Infof("Server started, Tile38 version %s, git %s", core.Version, core.GitSHA) c := &Controller{ host: host, port: port, dir: dir, cols: btree.New(16, 0), follows: make(map[*bytes.Buffer]bool), fcond: sync.NewCond(&sync.Mutex{}), lives: make(map[*liveBuffer]bool), lcond: sync.NewCond(&sync.Mutex{}), hooks: make(map[string]*Hook), hookcols: make(map[string]map[string]*Hook), aofconnM: make(map[net.Conn]bool), expires: make(map[string]map[string]time.Time), started: time.Now(), conns: make(map[*server.Conn]*clientConn), http: http, pubsub: newPubsub(), } c.hookex.Expired = func(item expire.Item) { switch v := item.(type) { case *Hook: c.possiblyExpireHook(v) } } c.epc = endpoint.NewManager(c) c.luascripts = c.NewScriptMap() c.luapool = c.NewPool() defer c.luapool.Shutdown() if err := os.MkdirAll(dir, 0700); err != nil { return err } var err error c.config, err = loadConfig(filepath.Join(dir, "config")) if err != nil { return err } // load the queue before the aof qdb, err := buntdb.Open(path.Join(dir, "queue.db")) if err != nil { return err } var qidx uint64 if err := qdb.View(func(tx *buntdb.Tx) error { val, err := tx.Get("hook:idx") if err != nil { if err == buntdb.ErrNotFound { return nil } return err } qidx = stringToUint64(val) return nil }); err != nil { return err } err = qdb.CreateIndex("hooks", hookLogPrefix+"*", buntdb.IndexJSONCaseSensitive("hook")) if err != nil { return err } c.qdb = qdb c.qidx = qidx if err := c.migrateAOF(); err != nil { return err } if core.AppendOnly == "yes" { f, err := os.OpenFile(core.AppendFileName, os.O_CREATE|os.O_RDWR, 0600) if err != nil { return err } c.aof = f if err := c.loadAOF(); err != nil { return err } } c.fillExpiresList() if c.config.followHost() != "" { go c.follow(c.config.followHost(), c.config.followPort(), c.followc.get()) } defer func() { c.followc.add(1) // this will force any follow communication to die }() go c.processLives() go c.watchOutOfMemory() go c.watchLuaStatePool() go c.watchAutoGC() go c.backgroundExpiring() defer func() { c.stopBackgroundExpiring.set(true) c.stopWatchingMemory.set(true) c.stopWatchingAutoGC.set(true) }() handler := func(conn *server.Conn, msg *server.Message, rd *server.PipelineReader, w io.Writer, websocket bool) error { c.connsmu.RLock() if cc, ok := c.conns[conn]; ok { cc.last.set(time.Now()) } c.connsmu.RUnlock() c.statsTotalCommands.add(1) err := c.handleInputCommand(conn, msg, w) if err != nil { if err.Error() == goingLive { return c.goLive(err, conn, rd, msg, websocket) } return err } return nil } protected := func() bool { if core.ProtectedMode == "no" { // --protected-mode no return false } if host != "" && host != "127.0.0.1" && host != "::1" && host != "localhost" { // -h address return false } is := c.config.protectedMode() != "no" && c.config.requirePass() == "" return is } var clientID aint opened := func(conn *server.Conn) { if c.config.keepAlive() > 0 { err := conn.SetKeepAlive( time.Duration(c.config.keepAlive()) * time.Second) if err != nil { log.Warnf("could not set keepalive for connection: %v", conn.RemoteAddr().String()) } } cc := &clientConn{} cc.id = clientID.add(1) cc.opened.set(time.Now()) cc.conn = conn c.connsmu.Lock() c.conns[conn] = cc c.connsmu.Unlock() c.statsTotalConns.add(1) } closed := func(conn *server.Conn) { c.connsmu.Lock() delete(c.conns, conn) c.connsmu.Unlock() } return server.ListenAndServe(host, port, protected, handler, opened, closed, ln, http) } func (c *Controller) watchAutoGC() { t := time.NewTicker(time.Second) defer t.Stop() s := time.Now() for range t.C { if c.stopWatchingAutoGC.on() { return } autoGC := c.config.autoGC() if autoGC == 0 { continue } if time.Now().Sub(s) < time.Second*time.Duration(autoGC) { continue } var mem1, mem2 runtime.MemStats runtime.ReadMemStats(&mem1) log.Debugf("autogc(before): "+ "alloc: %v, heap_alloc: %v, heap_released: %v", mem1.Alloc, mem1.HeapAlloc, mem1.HeapReleased) runtime.GC() debug.FreeOSMemory() runtime.ReadMemStats(&mem2) log.Debugf("autogc(after): "+ "alloc: %v, heap_alloc: %v, heap_released: %v", mem2.Alloc, mem2.HeapAlloc, mem2.HeapReleased) s = time.Now() } } func (c *Controller) watchOutOfMemory() { t := time.NewTicker(time.Second * 2) defer t.Stop() var mem runtime.MemStats for range t.C { func() { if c.stopWatchingMemory.on() { return } oom := c.outOfMemory.on() if c.config.maxMemory() == 0 { if oom { c.outOfMemory.set(false) } return } if oom { runtime.GC() } runtime.ReadMemStats(&mem) c.outOfMemory.set(int(mem.HeapAlloc) > c.config.maxMemory()) }() } } func (c *Controller) watchLuaStatePool() { t := time.NewTicker(time.Second * 10) defer t.Stop() for range t.C { func() { c.luapool.Prune() }() } } func (c *Controller) setCol(key string, col *collection.Collection) { c.cols.ReplaceOrInsert(&collectionT{Key: key, Collection: col}) } func (c *Controller) getCol(key string) *collection.Collection { item := c.cols.Get(&collectionT{Key: key}) if item == nil { return nil } return item.(*collectionT).Collection } func (c *Controller) scanGreaterOrEqual(key string, iterator func(key string, col *collection.Collection) bool) { c.cols.AscendGreaterOrEqual(&collectionT{Key: key}, func(item btree.Item) bool { col := item.(*collectionT) return iterator(col.Key, col.Collection) }) } func (c *Controller) deleteCol(key string) *collection.Collection { i := c.cols.Delete(&collectionT{Key: key}) if i == nil { return nil } return i.(*collectionT).Collection } func isReservedFieldName(field string) bool { switch field { case "z", "lat", "lon": return true } return false } func (c *Controller) handleInputCommand(conn *server.Conn, msg *server.Message, w io.Writer) error { var words []string for _, v := range msg.Values { words = append(words, v.String()) } start := time.Now() serializeOutput := func(res resp.Value) (string, error) { var resStr string var err error switch msg.OutputType { case server.JSON: resStr = res.String() case server.RESP: var resBytes []byte resBytes, err = res.MarshalRESP() resStr = string(resBytes) } return resStr, err } writeOutput := func(res string) error { switch msg.ConnType { default: err := fmt.Errorf("unsupported conn type: %v", msg.ConnType) log.Error(err) return err case server.WebSocket: return server.WriteWebSocketMessage(w, []byte(res)) case server.HTTP: _, err := fmt.Fprintf(w, "HTTP/1.1 200 OK\r\n"+ "Connection: close\r\n"+ "Content-Length: %d\r\n"+ "Content-Type: application/json; charset=utf-8\r\n"+ "\r\n", len(res)+2) if err != nil { return err } _, err = io.WriteString(w, res) if err != nil { return err } _, err = io.WriteString(w, "\r\n") return err case server.RESP: var err error if msg.OutputType == server.JSON { _, err = fmt.Fprintf(w, "$%d\r\n%s\r\n", len(res), res) } else { _, err = io.WriteString(w, res) } return err case server.Native: _, err := fmt.Fprintf(w, "$%d %s\r\n", len(res), res) return err } } // Ping. Just send back the response. No need to put through the pipeline. if msg.Command == "ping" || msg.Command == "echo" { switch msg.OutputType { case server.JSON: if len(msg.Values) > 1 { return writeOutput(`{"ok":true,"` + msg.Command + `":` + jsonString(msg.Values[1].String()) + `,"elapsed":"` + time.Now().Sub(start).String() + `"}`) } return writeOutput(`{"ok":true,"` + msg.Command + `":"pong","elapsed":"` + time.Now().Sub(start).String() + `"}`) case server.RESP: if len(msg.Values) > 1 { data, _ := msg.Values[1].MarshalRESP() return writeOutput(string(data)) } return writeOutput("+PONG\r\n") } return nil } writeErr := func(errMsg string) error { switch msg.OutputType { case server.JSON: return writeOutput(`{"ok":false,"err":` + jsonString(errMsg) + `,"elapsed":"` + time.Now().Sub(start).String() + "\"}") case server.RESP: if errMsg == errInvalidNumberOfArguments.Error() { return writeOutput("-ERR wrong number of arguments for '" + msg.Command + "' command\r\n") } v, _ := resp.ErrorValue(errors.New("ERR " + errMsg)).MarshalRESP() return writeOutput(string(v)) } return nil } var write bool if !conn.Authenticated || msg.Command == "auth" { if c.config.requirePass() != "" { password := "" // This better be an AUTH command or the Message should contain an Auth if msg.Command != "auth" && msg.Auth == "" { // Just shut down the pipeline now. The less the client connection knows the better. return writeErr("authentication required") } if msg.Auth != "" { password = msg.Auth } else { if len(msg.Values) > 1 { password = msg.Values[1].String() } } if c.config.requirePass() != strings.TrimSpace(password) { return writeErr("invalid password") } conn.Authenticated = true if msg.ConnType != server.HTTP { resStr, _ := serializeOutput(server.OKMessage(msg, start)) return writeOutput(resStr) } } else if msg.Command == "auth" { return writeErr("invalid password") } } // choose the locking strategy switch msg.Command { default: c.mu.RLock() defer c.mu.RUnlock() case "set", "del", "drop", "fset", "flushdb", "setchan", "pdelchan", "delchan", "sethook", "pdelhook", "delhook", "expire", "persist", "jset", "pdel": // write operations write = true c.mu.Lock() defer c.mu.Unlock() if c.config.followHost() != "" { return writeErr("not the leader") } if c.config.readOnly() { return writeErr("read only") } case "eval", "evalsha": // write operations (potentially) but no AOF for the script command itself c.mu.Lock() defer c.mu.Unlock() if c.config.followHost() != "" { return writeErr("not the leader") } if c.config.readOnly() { return writeErr("read only") } case "get", "keys", "scan", "nearby", "within", "intersects", "hooks", "chans", "search", "ttl", "bounds", "server", "info", "type", "jget", "evalro", "evalrosha": // read operations c.mu.RLock() defer c.mu.RUnlock() if c.config.followHost() != "" && !c.fcuponce { return writeErr("catching up to leader") } case "follow", "readonly", "config": // system operations // does not write to aof, but requires a write lock. c.mu.Lock() defer c.mu.Unlock() case "output": // this is local connection operation. Locks not needed. case "echo": case "massinsert": // dev operation c.mu.Lock() defer c.mu.Unlock() case "sleep": // dev operation c.mu.RLock() defer c.mu.RUnlock() case "shutdown": // dev operation c.mu.Lock() defer c.mu.Unlock() case "aofshrink": c.mu.RLock() defer c.mu.RUnlock() case "client": c.mu.Lock() defer c.mu.Unlock() case "evalna", "evalnasha": // No locking for scripts, otherwise writes cannot happen within scripts case "subscribe", "psubscribe", "publish": // No locking for pubsub } res, d, err := c.command(msg, w, conn) if res.Type() == resp.Error { return writeErr(res.String()) } if err != nil { if err.Error() == goingLive { return err } return writeErr(err.Error()) } if write { if err := c.writeAOF(resp.ArrayValue(msg.Values), &d); err != nil { if _, ok := err.(errAOFHook); ok { return writeErr(err.Error()) } log.Fatal(err) return err } } if !isRespValueEmptyString(res) { var resStr string resStr, err := serializeOutput(res) if err != nil { return err } if err := writeOutput(resStr); err != nil { return err } } return nil } func isRespValueEmptyString(val resp.Value) bool { return !val.IsNull() && (val.Type() == resp.SimpleString || val.Type() == resp.BulkString) && len(val.Bytes()) == 0 } func randomKey(n int) string { b := make([]byte, n) nn, err := rand.Read(b) if err != nil { panic(err) } if nn != n { panic("random failed") } return fmt.Sprintf("%x", b) } func (c *Controller) reset() { c.aofsz = 0 c.cols = btree.New(16, 0) c.exlistmu.Lock() c.exlist = nil c.exlistmu.Unlock() c.expires = make(map[string]map[string]time.Time) } func (c *Controller) command( msg *server.Message, w io.Writer, conn *server.Conn, ) ( res resp.Value, d commandDetailsT, err error, ) { switch msg.Command { default: err = fmt.Errorf("unknown command '%s'", msg.Values[0]) case "set": res, d, err = c.cmdSet(msg) case "fset": res, d, err = c.cmdFset(msg) case "del": res, d, err = c.cmdDel(msg) case "pdel": res, d, err = c.cmdPdel(msg) case "drop": res, d, err = c.cmdDrop(msg) case "flushdb": res, d, err = c.cmdFlushDB(msg) case "sethook": res, d, err = c.cmdSetHook(msg, false) case "delhook": res, d, err = c.cmdDelHook(msg, false) case "pdelhook": res, d, err = c.cmdPDelHook(msg, false) case "hooks": res, err = c.cmdHooks(msg, false) case "setchan": res, d, err = c.cmdSetHook(msg, true) case "delchan": res, d, err = c.cmdDelHook(msg, true) case "pdelchan": res, d, err = c.cmdPDelHook(msg, true) case "chans": res, err = c.cmdHooks(msg, true) case "expire": res, d, err = c.cmdExpire(msg) case "persist": res, d, err = c.cmdPersist(msg) case "ttl": res, err = c.cmdTTL(msg) case "shutdown": if !core.DevMode { err = fmt.Errorf("unknown command '%s'", msg.Values[0]) return } log.Fatal("shutdown requested by developer") case "massinsert": if !core.DevMode { err = fmt.Errorf("unknown command '%s'", msg.Values[0]) return } res, err = c.cmdMassInsert(msg) case "sleep": if !core.DevMode { err = fmt.Errorf("unknown command '%s'", msg.Values[0]) return } res, err = c.cmdSleep(msg) case "follow": res, err = c.cmdFollow(msg) case "readonly": res, err = c.cmdReadOnly(msg) case "stats": res, err = c.cmdStats(msg) case "server": res, err = c.cmdServer(msg) case "info": res, err = c.cmdInfo(msg) case "scan": res, err = c.cmdScan(msg) case "nearby": res, err = c.cmdNearby(msg) case "within": res, err = c.cmdWithin(msg) case "intersects": res, err = c.cmdIntersects(msg) case "search": res, err = c.cmdSearch(msg) case "bounds": res, err = c.cmdBounds(msg) case "get": res, err = c.cmdGet(msg) case "jget": res, err = c.cmdJget(msg) case "jset": res, d, err = c.cmdJset(msg) case "jdel": res, d, err = c.cmdJdel(msg) case "type": res, err = c.cmdType(msg) case "keys": res, err = c.cmdKeys(msg) case "output": res, err = c.cmdOutput(msg) case "aof": res, err = c.cmdAOF(msg) case "aofmd5": res, err = c.cmdAOFMD5(msg) case "gc": runtime.GC() debug.FreeOSMemory() res = server.OKMessage(msg, time.Now()) case "aofshrink": go c.aofshrink() res = server.OKMessage(msg, time.Now()) case "config get": res, err = c.cmdConfigGet(msg) case "config set": res, err = c.cmdConfigSet(msg) case "config rewrite": res, err = c.cmdConfigRewrite(msg) case "config", "script": // These get rewritten into "config foo" and "script bar" err = fmt.Errorf("unknown command '%s'", msg.Values[0]) if len(msg.Values) > 1 { command := msg.Values[0].String() + " " + msg.Values[1].String() msg.Values[1] = resp.StringValue(command) msg.Values = msg.Values[1:] msg.Command = strings.ToLower(command) return c.command(msg, w, conn) } case "client": res, err = c.cmdClient(msg, conn) case "eval", "evalro", "evalna": res, err = c.cmdEvalUnified(false, msg) case "evalsha", "evalrosha", "evalnasha": res, err = c.cmdEvalUnified(true, msg) case "script load": res, err = c.cmdScriptLoad(msg) case "script exists": res, err = c.cmdScriptExists(msg) case "script flush": res, err = c.cmdScriptFlush(msg) case "subscribe": res, err = c.cmdSubscribe(msg) case "psubscribe": res, err = c.cmdPsubscribe(msg) case "publish": res, err = c.cmdPublish(msg) } return }