package steward import ( "bytes" "encoding/json" "fmt" "io" "io/ioutil" "log" "net" "net/http" "os" "path/filepath" ) // readStartupFolder will check the /startup folder when Steward // starts for messages to process. // The purpose of the startup folder is that we can define messages on a // node that will be run when Steward starts up. // Messages defined in the startup folder should have the toNode set to // self, and the from node set to where we want the answer sent. The reason // for this is that all replies normally pick up the host from the original // first message, but here we inject it on an end node so we need to specify // the fromNode to get the reply back to the node we want. func (s *server) readStartupFolder() { // Get the names of all the files in the startup folder. const startupFolder = "startup" filePaths, err := s.getFilePaths(startupFolder) if err != nil { er := fmt.Errorf("error: readStartupFolder: unable to get filenames: %v", err) s.errorKernel.errSend(s.processInitial, Message{}, er) return } for _, filePath := range filePaths { // Read the content of each file. readBytes, err := func(filePath string) ([]byte, error) { fh, err := os.Open(filePath) if err != nil { er := fmt.Errorf("error: failed to open file in startup folder: %v", err) return nil, er } defer fh.Close() b, err := io.ReadAll(fh) if err != nil { er := fmt.Errorf("error: failed to read file in startup folder: %v", err) return nil, er } return b, nil }(filePath) if err != nil { s.errorKernel.errSend(s.processInitial, Message{}, err) continue } readBytes = bytes.Trim(readBytes, "\x00") // unmarshal the JSON into a struct sams, err := s.convertBytesToSAMs(readBytes) if err != nil { er := fmt.Errorf("error: startup folder: malformed json read: %v", err) s.errorKernel.errSend(s.processInitial, Message{}, er) continue } // Check if fromNode field is specified, and remove the message if blank. for i := range sams { if sams[i].Message.FromNode == "" { sams = append(sams[:i], sams[i+1:]...) er := fmt.Errorf(" error: missing from field in startup message") s.errorKernel.errSend(s.processInitial, Message{}, er) } // Bounds check. if i == len(sams)-1 { break } } // Send the SAM struct to be picked up by the ring buffer. s.ringBufferBulkInCh <- sams } } // getFilePaths will get the names of all the messages in // the folder specified from current working directory. func (s *server) getFilePaths(dirName string) ([]string, error) { dirPath, err := os.Getwd() if err != nil { return nil, fmt.Errorf("error: startup folder: unable to get the working directory %v: %v", dirPath, err) } dirPath = filepath.Join(dirPath, dirName) // Check if the startup folder exist. if _, err := os.Stat(dirPath); os.IsNotExist(err) { err := os.MkdirAll(dirPath, 0700) if err != nil { er := fmt.Errorf("error: failed to create startup folder: %v", err) return nil, er } } fInfo, err := ioutil.ReadDir(dirPath) if err != nil { er := fmt.Errorf("error: failed to get filenames in startup folder: %v", err) return nil, er } filePaths := []string{} for _, v := range fInfo { realpath := filepath.Join(dirPath, v.Name()) filePaths = append(filePaths, realpath) } return filePaths, nil } // readSocket will read the .sock file specified. // It will take a channel of []byte as input, and it is in this // channel the content of a file that has changed is returned. func (s *server) readSocket() { // Loop, and wait for new connections. for { conn, err := s.StewardSocket.Accept() if err != nil { er := fmt.Errorf("error: failed to accept conn on socket: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) } go func(conn net.Conn) { defer conn.Close() var readBytes []byte for { b := make([]byte, 1500) _, err = conn.Read(b) if err != nil && err != io.EOF { er := fmt.Errorf("error: failed to read data from tcp listener: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } readBytes = append(readBytes, b...) if err == io.EOF { break } } readBytes = bytes.Trim(readBytes, "\x00") // unmarshal the JSON into a struct sams, err := s.convertBytesToSAMs(readBytes) if err != nil { er := fmt.Errorf("error: malformed json received on socket: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } for i := range sams { // Fill in the value for the FromNode field, so the receiver // can check this field to know where it came from. sams[i].Message.FromNode = Node(s.nodeName) } // Send the SAM struct to be picked up by the ring buffer. s.ringBufferBulkInCh <- sams }(conn) } } // readTCPListener wait and read messages delivered on the TCP // port if started. // It will take a channel of []byte as input, and it is in this // channel the content of a file that has changed is returned. func (s *server) readTCPListener() { ln, err := net.Listen("tcp", s.configuration.TCPListener) if err != nil { log.Printf("error: readTCPListener: failed to start tcp listener: %v\n", err) os.Exit(1) } // Loop, and wait for new connections. for { conn, err := ln.Accept() if err != nil { er := fmt.Errorf("error: failed to accept conn on socket: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) continue } go func(conn net.Conn) { defer conn.Close() var readBytes []byte for { b := make([]byte, 1500) _, err = conn.Read(b) if err != nil && err != io.EOF { er := fmt.Errorf("error: failed to read data from tcp listener: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } readBytes = append(readBytes, b...) if err == io.EOF { break } } readBytes = bytes.Trim(readBytes, "\x00") // unmarshal the JSON into a struct sam, err := s.convertBytesToSAMs(readBytes) if err != nil { er := fmt.Errorf("error: malformed json received on tcp listener: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } for i := range sam { // Fill in the value for the FromNode field, so the receiver // can check this field to know where it came from. sam[i].Message.FromNode = Node(s.nodeName) } // Send the SAM struct to be picked up by the ring buffer. s.ringBufferBulkInCh <- sam }(conn) } } func (s *server) readHTTPlistenerHandler(w http.ResponseWriter, r *http.Request) { var readBytes []byte for { b := make([]byte, 1500) _, err := r.Body.Read(b) if err != nil && err != io.EOF { er := fmt.Errorf("error: failed to read data from tcp listener: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } readBytes = append(readBytes, b...) if err == io.EOF { break } } readBytes = bytes.Trim(readBytes, "\x00") // unmarshal the JSON into a struct sam, err := s.convertBytesToSAMs(readBytes) if err != nil { er := fmt.Errorf("error: malformed json received on HTTPListener: %v", err) s.processes.errorKernel.errSend(s.processInitial, Message{}, er) return } for i := range sam { // Fill in the value for the FromNode field, so the receiver // can check this field to know where it came from. sam[i].Message.FromNode = Node(s.nodeName) } // Send the SAM struct to be picked up by the ring buffer. s.ringBufferBulkInCh <- sam } func (s *server) readHttpListener() { go func() { n, err := net.Listen("tcp", s.configuration.HTTPListener) if err != nil { log.Printf("error: startMetrics: failed to open prometheus listen port: %v\n", err) os.Exit(1) } mux := http.NewServeMux() mux.HandleFunc("/", s.readHTTPlistenerHandler) err = http.Serve(n, mux) if err != nil { log.Printf("error: startMetrics: failed to start http.Serve: %v\n", err) os.Exit(1) } }() } // The subject are made up of different parts of the message field. // To make things easier and to avoid figuring out what the subject // is in all places we've created the concept of subjectAndMessage // (sam) where we get the subject for the message once, and use the // sam structure with subject alongside the message instead. type subjectAndMessage struct { Subject `json:"subject" yaml:"subject"` Message `json:"message" yaml:"message"` } // convertBytesToSAMs will range over the byte representing a message given in // json format. For each element found the Message type will be converted into // a SubjectAndMessage type value and appended to a slice, and the slice is // returned to the caller. func (s *server) convertBytesToSAMs(b []byte) ([]subjectAndMessage, error) { MsgSlice := []Message{} err := json.Unmarshal(b, &MsgSlice) if err != nil { return nil, fmt.Errorf("error: unmarshal of file failed: %#v", err) } // Check for toNode and toNodes field. MsgSlice = s.checkMessageToNodes(MsgSlice) s.metrics.promUserMessagesTotal.Add(float64(len(MsgSlice))) sam := []subjectAndMessage{} // Range over all the messages parsed from json, and create a subject for // each message. for _, m := range MsgSlice { sm, err := newSubjectAndMessage(m) if err != nil { er := fmt.Errorf("error: newSubjectAndMessage: %v", err) s.processes.errorKernel.errSend(s.processInitial, m, er) continue } sam = append(sam, sm) } return sam, nil } // checkMessageToNodes will check that either toHost or toHosts are // specified in the message. If not specified it will drop the message // and send an error. // if toNodes is specified, the original message will be used, and // and an individual message will be created with a toNode field for // each if the toNodes specified. func (s *server) checkMessageToNodes(MsgSlice []Message) []Message { msgs := []Message{} for _, v := range MsgSlice { switch { // if toNode specified, we don't care about the toHosts. case v.ToNode != "": msgs = append(msgs, v) continue // if toNodes specified, we use the original message, and // create new node messages for each of the nodes specified. case len(v.ToNodes) != 0: for _, n := range v.ToNodes { m := v // Set the toNodes field to nil since we're creating // an individual toNode message for each of the toNodes // found, and hence we no longer need that field. m.ToNodes = nil m.ToNode = n msgs = append(msgs, m) } continue // No toNode or toNodes specified. Drop the message by not appending it to // the slice since it is not valid. default: er := fmt.Errorf("error: no toNode or toNodes where specified in the message, dropping message: %v", v) s.processes.errorKernel.errSend(s.processInitial, v, er) continue } } return msgs } // newSubjectAndMessage will look up the correct values and value types to // be used in a subject for a Message (sam), and return the a combined structure // of type subjectAndMessage. func newSubjectAndMessage(m Message) (subjectAndMessage, error) { // We need to create a tempory method type to look up the kind for the // real method for the message. var mt Method tmpH := mt.getHandler(m.Method) if tmpH == nil { return subjectAndMessage{}, fmt.Errorf("error: newSubjectAndMessage: no such request type defined: %v", m.Method) } switch { case m.ToNode == "": return subjectAndMessage{}, fmt.Errorf("error: newSubjectAndMessage: ToNode empty: %+v", m) case m.Method == "": return subjectAndMessage{}, fmt.Errorf("error: newSubjectAndMessage: Method empty: %v", m) } sub := Subject{ ToNode: string(m.ToNode), Event: tmpH.getKind(), Method: m.Method, } sam := subjectAndMessage{ Subject: sub, Message: m, } return sam, nil }