package server import ( "bytes" "crypto/sha1" "encoding/hex" "encoding/json" "errors" "fmt" "math" "strconv" "strings" "sync" "time" "github.com/tidwall/geojson/geo" "github.com/tidwall/resp" "github.com/tidwall/tile38/internal/log" "github.com/yuin/gopher-lua" luajson "layeh.com/gopher-json" ) const ( iniLuaPoolSize = 5 maxLuaPoolSize = 1000 ) var errShaNotFound = errors.New("sha not found") var errCmdNotSupported = errors.New("command not supported in scripts") var errNotLeader = errors.New("not the leader") var errReadOnly = errors.New("read only") var errCatchingUp = errors.New("catching up to leader") var errNoLuasAvailable = errors.New("no interpreters available") // Go-routine-safe pool of read-to-go lua states type lStatePool struct { m sync.Mutex c *Server saved []*lua.LState total int } // newPool returns a new pool of lua states func (c *Server) newPool() *lStatePool { pl := &lStatePool{ saved: make([]*lua.LState, iniLuaPoolSize), c: c, } // Fill the pool with some ready handlers for i := 0; i < iniLuaPoolSize; i++ { pl.saved[i] = pl.New() pl.total++ } return pl } func (pl *lStatePool) Get() (*lua.LState, error) { pl.m.Lock() defer pl.m.Unlock() n := len(pl.saved) if n == 0 { if pl.total >= maxLuaPoolSize { return nil, errNoLuasAvailable } pl.total++ return pl.New(), nil } x := pl.saved[n-1] pl.saved = pl.saved[0 : n-1] return x, nil } // Prune removes some of the idle lua states from the pool func (pl *lStatePool) Prune() { pl.m.Lock() n := len(pl.saved) if n > iniLuaPoolSize { // drop half of the idle states that is above the minimum dropNum := (n - iniLuaPoolSize) / 2 if dropNum < 1 { dropNum = 1 } newSaved := make([]*lua.LState, n-dropNum) copy(newSaved, pl.saved[dropNum:]) pl.saved = newSaved } pl.m.Unlock() } func (pl *lStatePool) New() *lua.LState { L := lua.NewState() getArgs := func(ls *lua.LState) (evalCmd string, args []string) { evalCmd = ls.GetGlobal("EVAL_CMD").String() // Trying to work with unknown number of args. // When we see empty arg we call it enough. for i := 1; ; i++ { if arg := ls.ToString(i); arg == "" { break } else { args = append(args, arg) } } return } call := func(ls *lua.LState) int { evalCmd, args := getArgs(ls) var numRet int if res, err := pl.c.luaTile38Call(evalCmd, args[0], args[1:]...); err != nil { ls.RaiseError("ERR %s", err.Error()) numRet = 0 } else { ls.Push(ConvertToLua(ls, res)) numRet = 1 } return numRet } pcall := func(ls *lua.LState) int { evalCmd, args := getArgs(ls) if res, err := pl.c.luaTile38Call(evalCmd, args[0], args[1:]...); err != nil { ls.Push(ConvertToLua(ls, resp.ErrorValue(err))) } else { ls.Push(ConvertToLua(ls, res)) } return 1 } errorReply := func(ls *lua.LState) int { tbl := L.CreateTable(0, 1) tbl.RawSetString("err", lua.LString(ls.ToString(1))) ls.Push(tbl) return 1 } statusReply := func(ls *lua.LState) int { tbl := L.CreateTable(0, 1) tbl.RawSetString("ok", lua.LString(ls.ToString(1))) ls.Push(tbl) return 1 } sha1hex := func(ls *lua.LState) int { shaSum := Sha1Sum(ls.ToString(1)) ls.Push(lua.LString(shaSum)) return 1 } distanceTo := func(ls *lua.LState) int { dt := geo.DistanceTo( float64(ls.ToNumber(1)), float64(ls.ToNumber(2)), float64(ls.ToNumber(3)), float64(ls.ToNumber(4))) ls.Push(lua.LNumber(dt)) return 1 } var exports = map[string]lua.LGFunction{ "call": call, "pcall": pcall, "error_reply": errorReply, "status_reply": statusReply, "sha1hex": sha1hex, "distance_to": distanceTo, } L.SetGlobal("tile38", L.SetFuncs(L.NewTable(), exports)) // Load json L.SetGlobal("json", L.Get(luajson.Loader(L))) // Prohibit creating new globals in this state lockNewGlobals := func(ls *lua.LState) int { ls.RaiseError("attempt to create global variable '%s'", ls.ToString(2)) return 0 } mt := L.CreateTable(0, 1) mt.RawSetString("__newindex", L.NewFunction(lockNewGlobals)) L.SetMetatable(L.Get(lua.GlobalsIndex), mt) return L } func (pl *lStatePool) Put(L *lua.LState) { pl.m.Lock() pl.saved = append(pl.saved, L) pl.m.Unlock() } func (pl *lStatePool) Shutdown() { pl.m.Lock() for _, L := range pl.saved { L.Close() } pl.m.Unlock() } // Go-routine-safe map of compiled scripts type lScriptMap struct { m sync.Mutex scripts map[string]*lua.FunctionProto } func (sm *lScriptMap) Get(key string) (script *lua.FunctionProto, ok bool) { sm.m.Lock() script, ok = sm.scripts[key] sm.m.Unlock() return } func (sm *lScriptMap) Put(key string, script *lua.FunctionProto) { sm.m.Lock() sm.scripts[key] = script sm.m.Unlock() } func (sm *lScriptMap) Flush() { sm.m.Lock() sm.scripts = make(map[string]*lua.FunctionProto) sm.m.Unlock() } // NewScriptMap returns a new map with lua scripts func (c *Server) newScriptMap() *lScriptMap { return &lScriptMap{ scripts: make(map[string]*lua.FunctionProto), } } // ConvertToLua converts RESP value to lua LValue func ConvertToLua(L *lua.LState, val resp.Value) lua.LValue { if val.IsNull() { return lua.LFalse } switch val.Type() { case resp.Integer: return lua.LNumber(val.Integer()) case resp.BulkString: return lua.LString(val.String()) case resp.Error: tbl := L.CreateTable(0, 1) tbl.RawSetString("err", lua.LString(val.String())) return tbl case resp.SimpleString: tbl := L.CreateTable(0, 1) tbl.RawSetString("ok", lua.LString(val.String())) return tbl case resp.Array: tbl := L.CreateTable(len(val.Array()), 0) for _, item := range val.Array() { tbl.Append(ConvertToLua(L, item)) } return tbl } return lua.LString("ERR: unknown RESP type: " + val.Type().String()) } // ConvertToRESP convert lua LValue to RESP value func ConvertToRESP(val lua.LValue) resp.Value { switch val.Type() { case lua.LTNil: return resp.NullValue() case lua.LTBool: if val == lua.LTrue { return resp.IntegerValue(1) } return resp.NullValue() case lua.LTNumber: float := float64(val.(lua.LNumber)) if math.IsNaN(float) || math.IsInf(float, 0) { return resp.FloatValue(float) } return resp.IntegerValue(int(math.Floor(float))) case lua.LTString: return resp.StringValue(val.String()) case lua.LTTable: var values []resp.Value var specialValues []resp.Value var cb func(lk lua.LValue, lv lua.LValue) tbl := val.(*lua.LTable) if tbl.Len() != 0 { // list cb = func(lk lua.LValue, lv lua.LValue) { values = append(values, ConvertToRESP(lv)) } } else { // map cb = func(lk lua.LValue, lv lua.LValue) { if lk.Type() == lua.LTString { lks := lk.String() switch lks { case "ok": specialValues = append(specialValues, resp.SimpleStringValue(lv.String())) case "err": specialValues = append(specialValues, resp.ErrorValue(errors.New(lv.String()))) } } values = append(values, resp.ArrayValue( []resp.Value{ConvertToRESP(lk), ConvertToRESP(lv)})) } } tbl.ForEach(cb) if len(values) == 1 && len(specialValues) == 1 { return specialValues[0] } return resp.ArrayValue(values) } return resp.ErrorValue(errors.New("Unsupported lua type: " + val.Type().String())) } // ConvertToJSON converts lua LValue to JSON string func ConvertToJSON(val lua.LValue) string { switch val.Type() { case lua.LTNil: return "null" case lua.LTBool: if val == lua.LTrue { return "true" } return "false" case lua.LTNumber: return val.String() case lua.LTString: if b, err := json.Marshal(val.String()); err != nil { panic(err) } else { return string(b) } case lua.LTTable: var values []string var cb func(lk lua.LValue, lv lua.LValue) var start, end string tbl := val.(*lua.LTable) if tbl.Len() != 0 { // list start = `[` end = `]` cb = func(lk lua.LValue, lv lua.LValue) { values = append(values, ConvertToJSON(lv)) } } else { // map start = `{` end = `}` cb = func(lk lua.LValue, lv lua.LValue) { values = append( values, ConvertToJSON(lk)+`:`+ConvertToJSON(lv)) } } tbl.ForEach(cb) return start + strings.Join(values, `,`) + end } return "Unsupported lua type: " + val.Type().String() } func luaSetRawGlobals(ls *lua.LState, tbl map[string]lua.LValue) { gt := ls.Get(lua.GlobalsIndex).(*lua.LTable) for key, val := range tbl { gt.RawSetString(key, val) } } // Sha1Sum returns a string with hex representation of sha1 sum of a given string func Sha1Sum(s string) string { h := sha1.New() h.Write([]byte(s)) return hex.EncodeToString(h.Sum(nil)) } // Replace newlines with literal \n since RESP errors cannot have newlines func makeSafeErr(err error) error { return errors.New(strings.Replace(err.Error(), "\n", `\n`, -1)) } // Run eval/evalro/evalna command or it's -sha variant func (c *Server) cmdEvalUnified(scriptIsSha bool, msg *Message) (res resp.Value, err error) { start := time.Now() vs := msg.Args[1:] var ok bool var script, numkeysStr, key, arg string if vs, script, ok = tokenval(vs); !ok || script == "" { return NOMessage, errInvalidNumberOfArguments } if vs, numkeysStr, ok = tokenval(vs); !ok || numkeysStr == "" { return NOMessage, errInvalidNumberOfArguments } var i, numkeys uint64 if numkeys, err = strconv.ParseUint(numkeysStr, 10, 64); err != nil { err = errInvalidArgument(numkeysStr) return } luaState, err := c.luapool.Get() if err != nil { return } defer c.luapool.Put(luaState) keysTbl := luaState.CreateTable(int(numkeys), 0) for i = 0; i < numkeys; i++ { if vs, key, ok = tokenval(vs); !ok || key == "" { err = errInvalidNumberOfArguments return } keysTbl.Append(lua.LString(key)) } argsTbl := luaState.CreateTable(len(vs), 0) for len(vs) > 0 { if vs, arg, ok = tokenval(vs); !ok || arg == "" { err = errInvalidNumberOfArguments return } argsTbl.Append(lua.LString(arg)) } var shaSum string if scriptIsSha { shaSum = script } else { shaSum = Sha1Sum(script) } luaSetRawGlobals( luaState, map[string]lua.LValue{ "KEYS": keysTbl, "ARGV": argsTbl, "EVAL_CMD": lua.LString(msg.Command()), }) compiled, ok := c.luascripts.Get(shaSum) var fn *lua.LFunction if ok { fn = &lua.LFunction{ IsG: false, Env: luaState.Env, Proto: compiled, GFunction: nil, Upvalues: make([]*lua.Upvalue, 0), } } else if scriptIsSha { err = errShaNotFound return } else { fn, err = luaState.Load(strings.NewReader(script), "f_"+shaSum) if err != nil { return NOMessage, makeSafeErr(err) } c.luascripts.Put(shaSum, fn.Proto) } luaState.Push(fn) defer luaSetRawGlobals( luaState, map[string]lua.LValue{ "KEYS": lua.LNil, "ARGV": lua.LNil, "EVAL_CMD": lua.LNil, }) if err := luaState.PCall(0, 1, nil); err != nil { log.Debugf("%v", err.Error()) return NOMessage, makeSafeErr(err) } ret := luaState.Get(-1) // returned value luaState.Pop(1) switch msg.OutputType { case JSON: var buf bytes.Buffer buf.WriteString(`{"ok":true`) buf.WriteString(`,"result":` + ConvertToJSON(ret)) buf.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}") return resp.StringValue(buf.String()), nil case RESP: return ConvertToRESP(ret), nil } return NOMessage, nil } func (c *Server) cmdScriptLoad(msg *Message) (resp.Value, error) { start := time.Now() vs := msg.Args[1:] var ok bool var script string if vs, script, ok = tokenval(vs); !ok || script == "" { return NOMessage, errInvalidNumberOfArguments } shaSum := Sha1Sum(script) luaState, err := c.luapool.Get() if err != nil { return NOMessage, err } defer c.luapool.Put(luaState) fn, err := luaState.Load(strings.NewReader(script), "f_"+shaSum) if err != nil { return NOMessage, makeSafeErr(err) } c.luascripts.Put(shaSum, fn.Proto) switch msg.OutputType { case JSON: var buf bytes.Buffer buf.WriteString(`{"ok":true`) buf.WriteString(`,"result":"` + shaSum + `"`) buf.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}") return resp.StringValue(buf.String()), nil case RESP: return resp.StringValue(shaSum), nil } return NOMessage, nil } func (c *Server) cmdScriptExists(msg *Message) (resp.Value, error) { start := time.Now() vs := msg.Args[1:] var ok bool var shaSum string var results []int var ires int for len(vs) > 0 { if vs, shaSum, ok = tokenval(vs); !ok || shaSum == "" { return NOMessage, errInvalidNumberOfArguments } _, ok = c.luascripts.Get(shaSum) if ok { ires = 1 } else { ires = 0 } results = append(results, ires) } switch msg.OutputType { case JSON: var buf bytes.Buffer buf.WriteString(`{"ok":true`) var resArray []string for _, ires := range results { resArray = append(resArray, fmt.Sprintf("%d", ires)) } buf.WriteString(`,"result":[` + strings.Join(resArray, ",") + `]`) buf.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}") return resp.StringValue(buf.String()), nil case RESP: var resArray []resp.Value for _, ires := range results { resArray = append(resArray, resp.IntegerValue(ires)) } return resp.ArrayValue(resArray), nil } return resp.SimpleStringValue(""), nil } func (c *Server) cmdScriptFlush(msg *Message) (resp.Value, error) { start := time.Now() c.luascripts.Flush() switch msg.OutputType { case JSON: var buf bytes.Buffer buf.WriteString(`{"ok":true`) buf.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}") return resp.StringValue(buf.String()), nil case RESP: return resp.StringValue("OK"), nil } return resp.SimpleStringValue(""), nil } func (c *Server) commandInScript(msg *Message) ( res resp.Value, d commandDetails, err error, ) { switch msg.Command() { default: err = fmt.Errorf("unknown command '%s'", msg.Args[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 "expire": res, d, err = c.cmdExpire(msg) case "rename": res, d, err = c.cmdRename(msg, false) case "renamenx": res, d, err = c.cmdRename(msg, true) case "persist": res, d, err = c.cmdPersist(msg) case "ttl": res, err = c.cmdTTL(msg) case "stats": res, err = c.cmdStats(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) } return } func (c *Server) luaTile38Call(evalcmd string, cmd string, args ...string) (resp.Value, error) { msg := &Message{} msg.OutputType = RESP msg.Args = append([]string{cmd}, args...) switch msg.Command() { case "ping", "echo", "auth", "massinsert", "shutdown", "gc", "sethook", "pdelhook", "delhook", "follow", "readonly", "config", "output", "client", "aofshrink", "script load", "script exists", "script flush", "eval", "evalsha", "evalro", "evalrosha", "evalna", "evalnasha": return resp.NullValue(), errCmdNotSupported } switch evalcmd { case "eval", "evalsha": return c.luaTile38AtomicRW(msg) case "evalro", "evalrosha": return c.luaTile38AtomicRO(msg) case "evalna", "evalnasha": return c.luaTile38NonAtomic(msg) } return resp.NullValue(), errCmdNotSupported } // The eval command has already got the lock. No locking on the call from within the script. func (c *Server) luaTile38AtomicRW(msg *Message) (resp.Value, error) { var write bool switch msg.Command() { default: return resp.NullValue(), errCmdNotSupported case "set", "del", "drop", "fset", "flushdb", "expire", "persist", "jset", "pdel", "rename", "renamenx": // write operations write = true if c.config.followHost() != "" { return resp.NullValue(), errNotLeader } if c.config.readOnly() { return resp.NullValue(), errReadOnly } case "get", "keys", "scan", "nearby", "within", "intersects", "hooks", "search", "ttl", "bounds", "server", "info", "type", "jget": // read operations if c.config.followHost() != "" && !c.fcuponce { return resp.NullValue(), errCatchingUp } } res, d, err := c.commandInScript(msg) if err != nil { return resp.NullValue(), err } if write { if err := c.writeAOF(msg.Args, &d); err != nil { return resp.NullValue(), err } } return res, nil } func (c *Server) luaTile38AtomicRO(msg *Message) (resp.Value, error) { switch msg.Command() { default: return resp.NullValue(), errCmdNotSupported case "set", "del", "drop", "fset", "flushdb", "expire", "persist", "jset", "pdel", "rename", "renamenx": // write operations return resp.NullValue(), errReadOnly case "get", "keys", "scan", "nearby", "within", "intersects", "hooks", "search", "ttl", "bounds", "server", "info", "type", "jget": // read operations if c.config.followHost() != "" && !c.fcuponce { return resp.NullValue(), errCatchingUp } } res, _, err := c.commandInScript(msg) if err != nil { return resp.NullValue(), err } return res, nil } func (c *Server) luaTile38NonAtomic(msg *Message) (resp.Value, error) { var write bool // choose the locking strategy switch msg.Command() { default: return resp.NullValue(), errCmdNotSupported case "set", "del", "drop", "fset", "flushdb", "expire", "persist", "jset", "pdel", "rename", "renamenx": // write operations write = true c.mu.Lock() defer c.mu.Unlock() if c.config.followHost() != "" { return resp.NullValue(), errNotLeader } if c.config.readOnly() { return resp.NullValue(), errReadOnly } case "get", "keys", "scan", "nearby", "within", "intersects", "hooks", "search", "ttl", "bounds", "server", "info", "type", "jget": // read operations c.mu.RLock() defer c.mu.RUnlock() if c.config.followHost() != "" && !c.fcuponce { return resp.NullValue(), errCatchingUp } } res, d, err := c.commandInScript(msg) if err != nil { return resp.NullValue(), err } if write { if err := c.writeAOF(msg.Args, &d); err != nil { return resp.NullValue(), err } } return res, nil }