package main import ( "bufio" "flag" "fmt" "io" "log" "os" "omnisocketgo/cmd/internal/latencylog" peerpkg "omnisocketgo/cmd/internal/peer" "omnisocketgo/cmd/internal/protocol" "omnisocketgo/cmd/internal/transport" ) func main() { peerID := flag.String("id", "peer-a", "peer identity") // peer 的标识 serverAddr := flag.String("server", "127.0.0.1:9000", "server address") // server 的地址 targetPeer := flag.String("to", "", "optional target peer for one outgoing message") // 可选的目标 peer 标识 text := flag.String("text", "", "optional text to send after connecting") // 可选的文本消息内容 filePath := flag.String("file", "", "optional file path to send after connecting") bindIP := flag.String("bind-ip", "", "optional local source IP used when dialing the server") bindDevice := flag.String("bind-device", "", "optional Linux network device used when dialing the server") inboxDir := flag.String("inbox-dir", "inbox", "directory used to persist received text and file messages") logPath := flag.String("latency-log", "", "optional JSONL file path for latency timestamp logs") txTimestampDebugLogPath := flag.String("tx-ts-debug-log", "", "optional JSONL file path for TX errqueue debug records") interactive := flag.Bool("interactive", true, "enable interactive REPL for repeated text/file sends on the same connection") flag.Parse() clientOptions := make([]peerpkg.Option, 0, 4) if *logPath != "" { logger, err := latencylog.NewJSONLLogger(*logPath) if err != nil { log.Fatalf("create latency logger %s: %v", *logPath, err) } defer logger.Close() clientOptions = append(clientOptions, peerpkg.WithLogger(logger)) } if *txTimestampDebugLogPath != "" { logger, err := transport.NewJSONLTXTimestampDebugLogger(*txTimestampDebugLogPath) if err != nil { log.Fatalf("create tx timestamp debug logger %s: %v", *txTimestampDebugLogPath, err) } defer logger.Close() clientOptions = append(clientOptions, peerpkg.WithTXTimestampDebugLogger(logger)) } if *bindIP != "" { clientOptions = append(clientOptions, peerpkg.WithBindIP(*bindIP)) } if *bindDevice != "" { clientOptions = append(clientOptions, peerpkg.WithBindDevice(*bindDevice)) } client, err := peerpkg.Dial(*serverAddr, *peerID, clientOptions...) if err != nil { log.Fatalf("dial server %s: %v", *serverAddr, err) } defer client.Close() log.Printf("connected to %s as %s", *serverAddr, client.ID()) receiveErr := make(chan error, 1) go func() { receiveErr <- client.ReceiveLoop(func(msg protocol.Message) error { switch msg.Type { case protocol.MessageTypeText: path, err := client.PersistMessage(msg, *inboxDir) if err != nil { return err } log.Printf("received text from %s to %s and persisted to %s", msg.From, msg.To, path) case protocol.MessageTypeFile: path, err := client.PersistMessage(msg, *inboxDir) if err != nil { return err } log.Printf("received file from %s to %s: %s (%d bytes) -> %s", msg.From, msg.To, msg.FileName, len(msg.Body), path) case protocol.MessageTypeError: log.Printf("received %s from %s to %s: %s", msg.Type, msg.From, msg.To, string(msg.Body)) default: log.Printf("received unexpected message type %s from %s", msg.Type, msg.From) } return nil }) }() if *text != "" && *filePath != "" { log.Fatal("only one of -text or -file may be specified") } if (*text != "" || *filePath != "") && *targetPeer == "" { log.Fatal("flag -to is required when sending text or file") } //如果指定了目标 peer 和文本消息内容,则向目标 peer 发送一条文本消息,如果发送失败,打印错误日志并退出。 if *targetPeer != "" && *text != "" { if err := client.SendText(*targetPeer, *text); err != nil { log.Fatalf("send text to %s: %v", *targetPeer, err) } log.Printf("sent text to %s", *targetPeer) } if *targetPeer != "" && *filePath != "" { if err := client.SendFilePath(*targetPeer, *filePath); err != nil { log.Fatalf("send file %s to %s: %v", *filePath, *targetPeer, err) } log.Printf("sent file %s to %s", *filePath, *targetPeer) } //交互式模式:如果启用了交互式模式,则启动一个 REPL 循环,允许用户在命令行输入多条发送文本或文件的命令,直到用户输入退出命令或接收循环发生错误。如果没有启用交互式模式,则等待接收循环结束,如果接收循环发生错误,则打印错误日志。 if *interactive { if err := runInteractiveShell(client, os.Stdin, os.Stdout, receiveErr); err != nil { log.Printf("interactive shell ended: %v", err) } return } if err := <-receiveErr; err != nil { log.Printf("receive loop ended: %v", err) } } // 在终端面板中打印报错和交互消息 func runInteractiveShell(client *peerpkg.Client, in io.Reader, out io.Writer, receiveErr <-chan error) error { printInteractiveHelp(out) lines, inputErr := readInteractiveLines(in, out, fmt.Sprintf("%s> ", client.ID())) for { select { case err := <-receiveErr: return err case line, ok := <-lines: if !ok { return <-inputErr } command, err := parseInteractiveCommand(line) if err != nil { if err == errEmptyInteractiveCommand { continue } log.Printf("interactive command error: %v", err) continue } switch command.name { case interactiveCommandHelp: printInteractiveHelp(out) case interactiveCommandQuit: return nil case interactiveCommandText: if err := client.SendText(command.to, command.value); err != nil { log.Printf("send text to %s: %v", command.to, err) continue } log.Printf("sent text to %s", command.to) case interactiveCommandFile: if err := client.SendFilePath(command.to, command.value); err != nil { log.Printf("send file %s to %s: %v", command.value, command.to, err) continue } log.Printf("sent file %s to %s", command.value, command.to) } } } } func readInteractiveLines(in io.Reader, out io.Writer, prompt string) (<-chan string, <-chan error) { lines := make(chan string) errs := make(chan error, 1) go func() { defer close(lines) scanner := bufio.NewScanner(in) scanner.Buffer(make([]byte, 0, 1024), 1024*1024) for { if _, err := fmt.Fprint(out, prompt); err != nil { errs <- err return } if !scanner.Scan() { errs <- scanner.Err() return } lines <- scanner.Text() } }() return lines, errs }