package vnc import ( "bufio" "context" "encoding/binary" "fmt" "net" "sync" ) var _ Conn = (*ServerConn)(nil) // Config returns config for server conn func (c *ServerConn) Config() interface{} { return c.cfg } // Conn returns underlining server net.Conn func (c *ServerConn) Conn() net.Conn { return c.c } // Wait waits connection to close func (c *ServerConn) Wait() { <-c.quit } // SetEncodings ??? sets server connection encodings func (c *ServerConn) SetEncodings(encs []EncodingType) error { encodings := make(map[EncodingType]Encoding) for _, enc := range c.cfg.Encodings { encodings[enc.Type()] = enc } for _, encType := range encs { if enc, ok := encodings[encType]; ok { c.encodings = append(c.encodings, enc) } } return nil } // SetProtoVersion ??? sets proto version func (c *ServerConn) SetProtoVersion(pv string) { c.protocol = pv } // Flush buffered data to server conn func (c *ServerConn) Flush() error { return c.bw.Flush() } // Close closing server conn func (c *ServerConn) Close() error { if c.quit != nil { close(c.quit) c.quit = nil } return c.c.Close() } // Read reads data from net.Conn func (c *ServerConn) Read(buf []byte) (int, error) { return c.br.Read(buf) } // Write writes data to net.Conn, must be Flashed func (c *ServerConn) Write(buf []byte) (int, error) { return c.bw.Write(buf) } // ColorMap returns server connection color map func (c *ServerConn) ColorMap() ColorMap { return c.colorMap } // SetColorMap sets connection color map func (c *ServerConn) SetColorMap(cm ColorMap) { c.colorMap = cm } // DesktopName returns connection desktop name func (c *ServerConn) DesktopName() []byte { return c.desktopName } // PixelFormat return connection pixel format func (c *ServerConn) PixelFormat() PixelFormat { return c.pixelFormat } // SetDesktopName sets connection desktop name func (c *ServerConn) SetDesktopName(name []byte) { c.desktopName = name } // SetPixelFormat sets pixel format for server conn func (c *ServerConn) SetPixelFormat(pf PixelFormat) error { c.pixelFormat = pf return nil } // Encodings returns connection encodings func (c *ServerConn) Encodings() []Encoding { return c.encodings } // Width returns framebuffer width func (c *ServerConn) Width() uint16 { return c.fbWidth } // Height returns framebuffer height func (c *ServerConn) Height() uint16 { return c.fbHeight } // Protocol returns protocol func (c *ServerConn) Protocol() string { return c.protocol } // SecurityHandler returns security handler func (c *ServerConn) SecurityHandler() SecurityHandler { return c.securityHandler } // SetSecurityHandler sets security handler func (c *ServerConn) SetSecurityHandler(sechandler SecurityHandler) error { c.securityHandler = sechandler return nil } // SetWidth sets framebuffer width func (c *ServerConn) SetWidth(w uint16) { // TODO send desktopsize pseudo encoding c.fbWidth = w } // SetHeight sets framebuffer height func (c *ServerConn) SetHeight(h uint16) { // TODO send desktopsize pseudo encoding c.fbHeight = h } // ServerConn underlining server conn type ServerConn struct { c net.Conn cfg *ServerConfig br *bufio.Reader bw *bufio.Writer protocol string // If the pixel format uses a color map, then this is the color // map that is used. This should not be modified directly, since // the data comes from the server. // Definition in ยง5 - Representation of Pixel Data. colorMap ColorMap // Name associated with the desktop, sent from the server. desktopName []byte // Encodings supported by the client. This should not be modified // directly. Instead, SetEncodings() should be used. encodings []Encoding securityHandler SecurityHandler // Height of the frame buffer in pixels, sent to the client. fbHeight uint16 // Width of the frame buffer in pixels, sent to the client. fbWidth uint16 // The pixel format associated with the connection. This shouldn't // be modified. If you wish to set a new pixel format, use the // SetPixelFormat method. pixelFormat PixelFormat quit chan struct{} } var ( // DefaultServerHandlers uses default handlers for hanshake DefaultServerHandlers = []Handler{ &DefaultServerVersionHandler{}, &DefaultServerSecurityHandler{}, &DefaultServerClientInitHandler{}, &DefaultServerServerInitHandler{}, &DefaultServerMessageHandler{}, } ) // ServerConfig config struct type ServerConfig struct { Handlers []Handler SecurityHandlers []SecurityHandler Encodings []Encoding PixelFormat PixelFormat ColorMap ColorMap ClientMessageCh chan ClientMessage ServerMessageCh chan ServerMessage Messages []ClientMessage DesktopName []byte Height uint16 Width uint16 ErrorCh chan error } // NewServerConn returns new Server connection fron net.Conn func NewServerConn(c net.Conn, cfg *ServerConfig) (*ServerConn, error) { return &ServerConn{ c: c, br: bufio.NewReader(c), bw: bufio.NewWriter(c), cfg: cfg, desktopName: cfg.DesktopName, encodings: cfg.Encodings, pixelFormat: cfg.PixelFormat, fbWidth: cfg.Width, fbHeight: cfg.Height, quit: make(chan struct{}), }, nil } // Serve serves requests from net.Listener using ServerConfig func Serve(ctx context.Context, ln net.Listener, cfg *ServerConfig) error { for { c, err := ln.Accept() if err != nil { continue } conn, err := NewServerConn(c, cfg) if err != nil { cfg.ErrorCh <- err continue } if len(cfg.Handlers) == 0 { cfg.Handlers = DefaultServerHandlers } handlerLoop: for _, h := range cfg.Handlers { if err := h.Handle(conn); err != nil { cfg.ErrorCh <- err conn.Close() break handlerLoop } } } } // DefaultServerMessageHandler default package handler type DefaultServerMessageHandler struct{} // Handle handles messages from clients func (*DefaultServerMessageHandler) Handle(c Conn) error { cfg := c.Config().(*ServerConfig) var err error var wg sync.WaitGroup defer c.Close() clientMessages := make(map[ClientMessageType]ClientMessage) for _, m := range cfg.Messages { clientMessages[m.Type()] = m } wg.Add(2) quit := make(chan struct{}) // server go func() { defer wg.Done() for { select { case <-quit: return case msg := <-cfg.ServerMessageCh: if err = msg.Write(c); err != nil { cfg.ErrorCh <- err if quit != nil { close(quit) quit = nil } return } } } }() // client go func() { defer wg.Done() for { select { case <-quit: return default: var messageType ClientMessageType if err := binary.Read(c, binary.BigEndian, &messageType); err != nil { cfg.ErrorCh <- err if quit != nil { close(quit) quit = nil } return } msg, ok := clientMessages[messageType] if !ok { cfg.ErrorCh <- fmt.Errorf("unsupported message-type: %v", messageType) close(quit) return } parsedMsg, err := msg.Read(c) if err != nil { cfg.ErrorCh <- err if quit != nil { close(quit) quit = nil } return } cfg.ClientMessageCh <- parsedMsg } } }() wg.Wait() return nil }