package processors import ( "bytes" "encoding/json" "github.com/emqx/kuiper/common" "github.com/emqx/kuiper/common/plugin_manager" "github.com/emqx/kuiper/xsql" "github.com/emqx/kuiper/xsql/plans" "github.com/emqx/kuiper/xstream" "github.com/emqx/kuiper/xstream/api" "github.com/emqx/kuiper/xstream/extensions" "github.com/emqx/kuiper/xstream/nodes" "github.com/emqx/kuiper/xstream/operators" "github.com/emqx/kuiper/xstream/sinks" "fmt" "path" "strings" ) var log = common.Log type StreamProcessor struct { statement string dbDir string } //@params s : the sql string of create stream statement //@params d : the directory of the DB to save the stream info func NewStreamProcessor(s, d string) *StreamProcessor { processor := &StreamProcessor{ statement: s, dbDir: d, } return processor } func (p *StreamProcessor) Exec() (result []string, err error) { parser := xsql.NewParser(strings.NewReader(p.statement)) stmt, err := xsql.Language.Parse(parser) if err != nil { return } store := common.GetSimpleKVStore(p.dbDir) err = store.Open() if err != nil { return } defer store.Close() switch s := stmt.(type) { case *xsql.StreamStmt: var r string r, err = p.execCreateStream(s, store) result = append(result, r) case *xsql.ShowStreamsStatement: result, err = p.execShowStream(s, store) case *xsql.DescribeStreamStatement: var r string r, err = p.execDescribeStream(s, store) result = append(result, r) case *xsql.ExplainStreamStatement: var r string r, err = p.execExplainStream(s, store) result = append(result, r) case *xsql.DropStreamStatement: var r string r, err = p.execDropStream(s, store) result = append(result, r) } return } func (p *StreamProcessor) execCreateStream(stmt *xsql.StreamStmt, db common.KeyValue) (string, error) { err := db.Set(string(stmt.Name), p.statement) if err != nil { return "", fmt.Errorf("Create stream fails: %v.", err) }else{ return fmt.Sprintf("Stream %s is created.", stmt.Name), nil } } func (p *StreamProcessor) execShowStream(stmt *xsql.ShowStreamsStatement, db common.KeyValue) ([]string,error) { keys, err := db.Keys() if len(keys) == 0 { keys = append(keys, "No stream definitions are found.") } return keys, err } func (p *StreamProcessor) execDescribeStream(stmt *xsql.DescribeStreamStatement, db common.KeyValue) (string,error) { s, f := db.Get(stmt.Name) s1, _ := s.(string) if !f { return "", fmt.Errorf("Stream %s is not found.", stmt.Name) } parser := xsql.NewParser(strings.NewReader(s1)) stream, err := xsql.Language.Parse(parser) streamStmt, ok := stream.(*xsql.StreamStmt) if !ok{ return "", fmt.Errorf("Error resolving the stream %s, the data in db may be corrupted.", stmt.Name) } var buff bytes.Buffer buff.WriteString("Fields\n--------------------------------------------------------------------------------\n") for _, f := range streamStmt.StreamFields { buff.WriteString(f.Name + "\t") xsql.PrintFieldType(f.FieldType, &buff) buff.WriteString("\n") } buff.WriteString("\n") common.PrintMap(streamStmt.Options, &buff) return buff.String(), err } func (p *StreamProcessor) execExplainStream(stmt *xsql.ExplainStreamStatement, db common.KeyValue) (string,error) { _, f := db.Get(stmt.Name) if !f { return "", fmt.Errorf("Stream %s is not found.", stmt.Name) } return "TO BE SUPPORTED", nil } func (p *StreamProcessor) execDropStream(stmt *xsql.DropStreamStatement, db common.KeyValue) (string, error) { err := db.Delete(stmt.Name) if err != nil { return "", fmt.Errorf("Drop stream fails: %v.", err) }else{ return fmt.Sprintf("Stream %s is dropped.", stmt.Name), nil } } func GetStream(m *common.SimpleKVStore, name string) (stmt *xsql.StreamStmt, err error){ s, f := m.Get(name) if !f { return nil, fmt.Errorf("Cannot find key %s. ", name) } s1, _ := s.(string) parser := xsql.NewParser(strings.NewReader(s1)) stream, err := xsql.Language.Parse(parser) stmt, ok := stream.(*xsql.StreamStmt) if !ok{ err = fmt.Errorf("Error resolving the stream %s, the data in db may be corrupted.", name) } return } type RuleProcessor struct { dbDir string } func NewRuleProcessor(d string) *RuleProcessor { processor := &RuleProcessor{ dbDir: d, } return processor } func (p *RuleProcessor) ExecCreate(name, ruleJson string) (*api.Rule, error) { rule, err := p.getRuleByJson(name, ruleJson) if err != nil { return nil, err } store := common.GetSimpleKVStore(path.Join(p.dbDir, "rule")) err = store.Open() if err != nil { return nil, err } err = store.Set(string(name), ruleJson) defer store.Close() if err != nil { return nil, err }else{ log.Infof("Rule %s is created.", name) } return rule, nil } func (p *RuleProcessor) GetRuleByName(name string) (*api.Rule, error) { store := common.GetSimpleKVStore(path.Join(p.dbDir, "rule")) err := store.Open() if err != nil { return nil, err } defer store.Close() s, f := store.Get(string(name)) if !f { return nil, fmt.Errorf("Rule %s is not found.", name) } s1, _ := s.(string) return p.getRuleByJson(name, s1) } func (p *RuleProcessor) getRuleByJson(name, ruleJson string) (*api.Rule, error) { var rule api.Rule if err := json.Unmarshal([]byte(ruleJson), &rule); err != nil { return nil, fmt.Errorf("Parse rule %s error : %s.", ruleJson, err) } rule.Id = name //validation if name == ""{ return nil, fmt.Errorf("Missing rule id.") } if rule.Sql == ""{ return nil, fmt.Errorf("Missing rule SQL.") } if rule.Actions == nil || len(rule.Actions) == 0{ return nil, fmt.Errorf("Missing rule actions.") } return &rule, nil } func (p *RuleProcessor) ExecInitRule(rule *api.Rule) (*xstream.TopologyNew, error) { if tp, inputs, err := p.createTopo(rule); err != nil { return nil, err }else{ for _, m := range rule.Actions { for name, action := range m { props, ok := action.(map[string]interface{}) if !ok { return nil, fmt.Errorf("expect map[string]interface{} type for the action properties, but found %v", action) } if s, err := getSink(name, props); err != nil{ return nil, err }else{ tp.AddSink(inputs, nodes.NewSinkNode("sink_" + name, s)) } } } return tp, nil } } func (p *RuleProcessor) ExecQuery(ruleid, sql string) (*xstream.TopologyNew, error) { if tp, inputs, err := p.createTopo(&api.Rule{Id: ruleid, Sql: sql}); err != nil { return nil, err } else { tp.AddSink(inputs, nodes.NewSinkNode("sink_memory_log", sinks.NewLogSinkToMemory())) go func() { select { case err := <-tp.Open(): log.Infof("closing query for error: %v", err) tp.Cancel() } }() return tp, nil } } func (p *RuleProcessor) ExecDesc(name string) (string, error) { store := common.GetSimpleKVStore(path.Join(p.dbDir, "rule")) err := store.Open() if err != nil { return "", err } defer store.Close() s, f := store.Get(string(name)) if !f { return "", fmt.Errorf("Rule %s is not found.", name) } s1, _ := s.(string) dst := &bytes.Buffer{} if err := json.Indent(dst, []byte(s1), "", " "); err != nil { return "", err } return fmt.Sprintln(dst.String()), nil } func (p *RuleProcessor) ExecShow() (string, error) { keys, err := p.GetAllRules() if err != nil{ return "", err } if len(keys) == 0 { keys = append(keys, "No rule definitions are found.") } var result string for _, c := range keys{ result = result + fmt.Sprintln(c) } return result, nil } func (p *RuleProcessor) GetAllRules() ([]string, error) { store := common.GetSimpleKVStore(path.Join(p.dbDir, "rule")) err := store.Open() if err != nil { return nil, err } defer store.Close() return store.Keys() } func (p *RuleProcessor) ExecDrop(name string) (string, error) { store := common.GetSimpleKVStore(path.Join(p.dbDir, "rule")) err := store.Open() if err != nil { return "", err } defer store.Close() err = store.Delete(string(name)) if err != nil { return "", err }else{ return fmt.Sprintf("Rule %s is dropped.", name), nil } } func (p *RuleProcessor) createTopo(rule *api.Rule) (*xstream.TopologyNew, []api.Emitter, error) { return p.createTopoWithSources(rule, nil) } //For test to mock source func (p *RuleProcessor) createTopoWithSources(rule *api.Rule, sources []*nodes.SourceNode) (*xstream.TopologyNew, []api.Emitter, error){ name := rule.Id sql := rule.Sql var isEventTime bool var lateTol int64 if iet, ok := rule.Options["isEventTime"]; ok{ isEventTime, ok = iet.(bool) if !ok{ return nil, nil, fmt.Errorf("Invalid rule option isEventTime %v, bool type is required.", iet) } } if isEventTime { if l, ok := rule.Options["lateTolerance"]; ok{ if fl, ok := l.(float64); ok{ lateTol = int64(fl) }else{ return nil, nil, fmt.Errorf("Invalid rule option lateTolerance %v, int type is required.", l) } } } shouldCreateSource := sources == nil parser := xsql.NewParser(strings.NewReader(sql)) if stmt, err := xsql.Language.Parse(parser); err != nil{ return nil, nil, fmt.Errorf("Parse SQL %s error: %s.", sql , err) }else { if selectStmt, ok := stmt.(*xsql.SelectStatement); !ok { return nil, nil, fmt.Errorf("SQL %s is not a select statement.", sql) } else { tp := xstream.NewWithName(name) var inputs []api.Emitter streamsFromStmt := xsql.GetStreams(selectStmt) if !shouldCreateSource && len(streamsFromStmt) != len(sources){ return nil, nil, fmt.Errorf("Invalid parameter sources or streams, the length cannot match the statement, expect %d sources.", len(streamsFromStmt)) } store := common.GetSimpleKVStore(path.Join(p.dbDir, "stream")) err := store.Open() if err != nil { return nil, nil, err } defer store.Close() for i, s := range streamsFromStmt { streamStmt, err := GetStream(store, s) if err != nil { return nil, nil, fmt.Errorf("fail to get stream %s, please check if stream is created", s) } pp, err := plans.NewPreprocessor(streamStmt, selectStmt.Fields, isEventTime) if err != nil{ return nil, nil, err } if shouldCreateSource{ src, err := getSource(streamStmt) if err != nil { return nil, nil, fmt.Errorf("fail to get source: %v", err) } node := nodes.NewSourceNode(s, src, streamStmt.Options) tp.AddSrc(node) preprocessorOp := xstream.Transform(pp, "preprocessor_"+s) tp.AddOperator([]api.Emitter{node}, preprocessorOp) inputs = append(inputs, preprocessorOp) } else { tp.AddSrc(sources[i]) preprocessorOp := xstream.Transform(pp, "preprocessor_"+s) tp.AddOperator([]api.Emitter{sources[i]}, preprocessorOp) inputs = append(inputs, preprocessorOp) } } dimensions := selectStmt.Dimensions var w *xsql.Window if dimensions != nil { w = dimensions.GetWindow() if w != nil { wop, err := operators.NewWindowOp("window", w, isEventTime, lateTol, streamsFromStmt) if err != nil { return nil, nil, err } tp.AddOperator(inputs, wop) inputs = []api.Emitter{wop} } } if w != nil && selectStmt.Joins != nil { joinOp := xstream.Transform(&plans.JoinPlan{Joins: selectStmt.Joins, From: selectStmt.Sources[0].(*xsql.Table)}, "join") //TODO concurrency setting by command //joinOp.SetConcurrency(3) tp.AddOperator(inputs, joinOp) inputs = []api.Emitter{joinOp} } if selectStmt.Condition != nil { filterOp := xstream.Transform(&plans.FilterPlan{Condition: selectStmt.Condition}, "filter") //TODO concurrency setting by command // filterOp.SetConcurrency(3) tp.AddOperator(inputs, filterOp) inputs = []api.Emitter{filterOp} } var ds xsql.Dimensions if dimensions != nil { ds = dimensions.GetGroups() if ds != nil && len(ds) > 0 { aggregateOp := xstream.Transform(&plans.AggregatePlan{Dimensions: ds}, "aggregate") tp.AddOperator(inputs, aggregateOp) inputs = []api.Emitter{aggregateOp} } } if selectStmt.Having != nil { havingOp := xstream.Transform(&plans.HavingPlan{selectStmt.Having}, "having") tp.AddOperator(inputs, havingOp) inputs = []api.Emitter{havingOp} } if selectStmt.SortFields != nil { orderOp := xstream.Transform(&plans.OrderPlan{SortFields: selectStmt.SortFields}, "order") tp.AddOperator(inputs, orderOp) inputs = []api.Emitter{orderOp} } if selectStmt.Fields != nil { projectOp := xstream.Transform(&plans.ProjectPlan{Fields: selectStmt.Fields, IsAggregate: xsql.IsAggStatement(selectStmt)}, "project") tp.AddOperator(inputs, projectOp) inputs = []api.Emitter{projectOp} } return tp, inputs, nil } } } func getSource(streamStmt *xsql.StreamStmt) (api.Source, error) { t, ok := streamStmt.Options["TYPE"] if !ok{ t = "mqtt" } var s api.Source switch t { case "mqtt": s = &extensions.MQTTSource{} default: nf, err := plugin_manager.GetPlugin(t, "sources") if err != nil { return nil, err } s, ok = nf.(api.Source) if !ok { return nil, fmt.Errorf("exported symbol %s is not type of api.Source", t) } } log.Debugf("Source %s created", t) return s, nil } func getSink(name string, action map[string]interface{}) (api.Sink, error) { log.Tracef("trying to get sink %s with action %v", name, action) var s api.Sink switch name { case "log": s = sinks.NewLogSink() case "mqtt": s = &sinks.MQTTSink{} case "rest": s = &sinks.RestSink{} default: nf, err := plugin_manager.GetPlugin(name, "sinks") if err != nil { return nil, err } var ok bool s, ok = nf.(api.Sink) if !ok { return nil, fmt.Errorf("exported symbol %s is not type of api.Sink", name) } } err := s.Configure(action) if err != nil{ return nil, err } log.Debugf("Sink %s created", name) return s, nil }