package plugin import ( "crypto/tls" "encoding/base64" "errors" "fmt" "io/ioutil" "log" "net" "os" "os/signal" "runtime" "strconv" "sync/atomic" "github.com/hashicorp/go-hclog" "google.golang.org/grpc" ) // CoreProtocolVersion is the ProtocolVersion of the plugin system itself. // We will increment this whenever we change any protocol behavior. This // will invalidate any prior plugins but will at least allow us to iterate // on the core in a safe way. We will do our best to do this very // infrequently. const CoreProtocolVersion = 1 // HandshakeConfig is the configuration used by client and servers to // handshake before starting a plugin connection. This is embedded by // both ServeConfig and ClientConfig. // // In practice, the plugin host creates a HandshakeConfig that is exported // and plugins then can easily consume it. type HandshakeConfig struct { // ProtocolVersion is the version that clients must match on to // agree they can communicate. This should match the ProtocolVersion // set on ClientConfig when using a plugin. ProtocolVersion uint // MagicCookieKey and value are used as a very basic verification // that a plugin is intended to be launched. This is not a security // measure, just a UX feature. If the magic cookie doesn't match, // we show human-friendly output. MagicCookieKey string MagicCookieValue string } // ServeConfig configures what sorts of plugins are served. type ServeConfig struct { // HandshakeConfig is the configuration that must match clients. HandshakeConfig // TLSProvider is a function that returns a configured tls.Config. TLSProvider func() (*tls.Config, error) // Plugins are the plugins that are served. Plugins map[string]Plugin // GRPCServer should be non-nil to enable serving the plugins over // gRPC. This is a function to create the server when needed with the // given server options. The server options populated by go-plugin will // be for TLS if set. You may modify the input slice. // // Note that the grpc.Server will automatically be registered with // the gRPC health checking service. This is not optional since go-plugin // relies on this to implement Ping(). GRPCServer func([]grpc.ServerOption) *grpc.Server // Logger is used to pass a logger into the server. If none is provided the // server will create a default logger. Logger hclog.Logger } // Protocol returns the protocol that this server should speak. func (c *ServeConfig) Protocol() Protocol { result := ProtocolNetRPC if c.GRPCServer != nil { result = ProtocolGRPC } return result } // Serve serves the plugins given by ServeConfig. // // Serve doesn't return until the plugin is done being executed. Any // errors will be outputted to os.Stderr. // // This is the method that plugins should call in their main() functions. func Serve(opts *ServeConfig) { // Validate the handshake config if opts.MagicCookieKey == "" || opts.MagicCookieValue == "" { fmt.Fprintf(os.Stderr, "Misconfigured ServeConfig given to serve this plugin: no magic cookie\n"+ "key or value was set. Please notify the plugin author and report\n"+ "this as a bug.\n") os.Exit(1) } // First check the cookie if os.Getenv(opts.MagicCookieKey) != opts.MagicCookieValue { fmt.Fprintf(os.Stderr, "This binary is a plugin. These are not meant to be executed directly.\n"+ "Please execute the program that consumes these plugins, which will\n"+ "load any plugins automatically\n") os.Exit(1) } // Logging goes to the original stderr log.SetOutput(os.Stderr) logger := opts.Logger if logger == nil { // internal logger to os.Stderr logger = hclog.New(&hclog.LoggerOptions{ Level: hclog.Trace, Output: os.Stderr, JSONFormat: true, }) } // Create our new stdout, stderr files. These will override our built-in // stdout/stderr so that it works across the stream boundary. stdout_r, stdout_w, err := os.Pipe() if err != nil { fmt.Fprintf(os.Stderr, "Error preparing plugin: %s\n", err) os.Exit(1) } stderr_r, stderr_w, err := os.Pipe() if err != nil { fmt.Fprintf(os.Stderr, "Error preparing plugin: %s\n", err) os.Exit(1) } // Register a listener so we can accept a connection listener, err := serverListener() if err != nil { logger.Error("plugin init error", "error", err) return } // Close the listener on return. We wrap this in a func() on purpose // because the "listener" reference may change to TLS. defer func() { listener.Close() }() var tlsConfig *tls.Config if opts.TLSProvider != nil { tlsConfig, err = opts.TLSProvider() if err != nil { logger.Error("plugin tls init", "error", err) return } } // Create the channel to tell us when we're done doneCh := make(chan struct{}) // Build the server type var server ServerProtocol switch opts.Protocol() { case ProtocolNetRPC: // If we have a TLS configuration then we wrap the listener // ourselves and do it at that level. if tlsConfig != nil { listener = tls.NewListener(listener, tlsConfig) } // Create the RPC server to dispense server = &RPCServer{ Plugins: opts.Plugins, Stdout: stdout_r, Stderr: stderr_r, DoneCh: doneCh, } case ProtocolGRPC: // Create the gRPC server server = &GRPCServer{ Plugins: opts.Plugins, Server: opts.GRPCServer, TLS: tlsConfig, Stdout: stdout_r, Stderr: stderr_r, DoneCh: doneCh, } default: panic("unknown server protocol: " + opts.Protocol()) } // Initialize the servers if err := server.Init(); err != nil { logger.Error("protocol init", "error", err) return } // Build the extra configuration extra := "" if v := server.Config(); v != "" { extra = base64.StdEncoding.EncodeToString([]byte(v)) } if extra != "" { extra = "|" + extra } logger.Debug("plugin address", "network", listener.Addr().Network(), "address", listener.Addr().String()) // Output the address and service name to stdout so that core can bring it up. fmt.Printf("%d|%d|%s|%s|%s%s\n", CoreProtocolVersion, opts.ProtocolVersion, listener.Addr().Network(), listener.Addr().String(), opts.Protocol(), extra) os.Stdout.Sync() // Eat the interrupts ch := make(chan os.Signal, 1) signal.Notify(ch, os.Interrupt) go func() { var count int32 = 0 for { <-ch newCount := atomic.AddInt32(&count, 1) logger.Debug("plugin received interrupt signal, ignoring", "count", newCount) } }() // Set our new out, err os.Stdout = stdout_w os.Stderr = stderr_w // Accept connections and wait for completion go server.Serve(listener) <-doneCh } func serverListener() (net.Listener, error) { if runtime.GOOS == "windows" { return serverListener_tcp() } return serverListener_unix() } func serverListener_tcp() (net.Listener, error) { minPort, err := strconv.ParseInt(os.Getenv("PLUGIN_MIN_PORT"), 10, 32) if err != nil { return nil, err } maxPort, err := strconv.ParseInt(os.Getenv("PLUGIN_MAX_PORT"), 10, 32) if err != nil { return nil, err } for port := minPort; port <= maxPort; port++ { address := fmt.Sprintf("127.0.0.1:%d", port) listener, err := net.Listen("tcp", address) if err == nil { return listener, nil } } return nil, errors.New("Couldn't bind plugin TCP listener") } func serverListener_unix() (net.Listener, error) { tf, err := ioutil.TempFile("", "plugin") if err != nil { return nil, err } path := tf.Name() // Close the file and remove it because it has to not exist for // the domain socket. if err := tf.Close(); err != nil { return nil, err } if err := os.Remove(path); err != nil { return nil, err } l, err := net.Listen("unix", path) if err != nil { return nil, err } // Wrap the listener in rmListener so that the Unix domain socket file // is removed on close. return &rmListener{ Listener: l, Path: path, }, nil } // rmListener is an implementation of net.Listener that forwards most // calls to the listener but also removes a file as part of the close. We // use this to cleanup the unix domain socket on close. type rmListener struct { net.Listener Path string } func (l *rmListener) Close() error { // Close the listener itself if err := l.Listener.Close(); err != nil { return err } // Remove the file return os.Remove(l.Path) }