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client.go
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client.go
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// Package vnc implements a VNC client.
//
// References:
// [PROTOCOL]: http://tools.ietf.org/html/rfc6143
package vnc
import (
"bytes"
"encoding/binary"
"fmt"
"io"
"net"
"unicode"
)
type ClientConn struct {
c net.Conn
config *ClientConfig
// 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.
ColorMap [256]Color
// Encodings supported by the client. This should not be modified
// directly. Instead, SetEncodings should be used.
Encs []Encoding
// Width of the frame buffer in pixels, sent from the server.
FrameBufferWidth uint16
// Height of the frame buffer in pixels, sent from the server.
FrameBufferHeight uint16
// Name associated with the desktop, sent from the server.
DesktopName string
// 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
}
// A ClientConfig structure is used to configure a ClientConn. After
// one has been passed to initialize a connection, it must not be modified.
type ClientConfig struct {
// A slice of ClientAuth methods. Only the first instance that is
// suitable by the server will be used to authenticate.
Auth []ClientAuth
// Exclusive determines whether the connection is shared with other
// clients. If true, then all other clients connected will be
// disconnected when a connection is established to the VNC server.
Exclusive bool
// The channel that all messages received from the server will be
// sent on. If the channel blocks, then the goroutine reading data
// from the VNC server may block indefinitely. It is up to the user
// of the library to ensure that this channel is properly read.
// If this is not set, then all messages will be discarded.
ServerMessageCh chan<- ServerMessage
// A slice of supported messages that can be read from the server.
// This only needs to contain NEW server messages, and doesn't
// need to explicitly contain the RFC-required messages.
ServerMessages []ServerMessage
}
func Client(c net.Conn, cfg *ClientConfig) (*ClientConn, error) {
conn := &ClientConn{
c: c,
config: cfg,
}
if err := conn.handshake(); err != nil {
conn.Close()
return nil, err
}
go conn.mainLoop()
return conn, nil
}
func (c *ClientConn) Close() error {
return c.c.Close()
}
// CutText tells the server that the client has new text in its cut buffer.
// The text string MUST only contain Latin-1 characters. This encoding
// is compatible with Go's native string format, but can only use up to
// unicode.MaxLatin values.
//
// See RFC 6143 Section 7.5.6
func (c *ClientConn) CutText(text string) error {
var buf bytes.Buffer
// This is the fixed size data we'll send
fixedData := []interface{}{
uint8(6),
uint8(0),
uint8(0),
uint8(0),
uint32(len(text)),
}
for _, val := range fixedData {
if err := binary.Write(&buf, binary.BigEndian, val); err != nil {
return err
}
}
for _, char := range text {
if char > unicode.MaxLatin1 {
return fmt.Errorf("Character '%s' is not valid Latin-1", char)
}
if err := binary.Write(&buf, binary.BigEndian, uint8(char)); err != nil {
return err
}
}
dataLength := 8 + len(text)
if _, err := c.c.Write(buf.Bytes()[0:dataLength]); err != nil {
return err
}
return nil
}
// Requests a framebuffer update from the server. There may be an indefinite
// time between the request and the actual framebuffer update being
// received.
//
// See RFC 6143 Section 7.5.3
func (c *ClientConn) FramebufferUpdateRequest(incremental bool, x, y, width, height uint16) error {
var buf bytes.Buffer
var incrementalByte uint8 = 0
if incremental {
incrementalByte = 1
}
data := []interface{}{
uint8(3),
incrementalByte,
x, y, width, height,
}
for _, val := range data {
if err := binary.Write(&buf, binary.BigEndian, val); err != nil {
return err
}
}
if _, err := c.c.Write(buf.Bytes()[0:10]); err != nil {
return err
}
return nil
}
// KeyEvent indiciates a key press or release and sends it to the server.
// The key is indicated using the X Window System "keysym" value. Use
// Google to find a reference of these values. To simulate a key press,
// you must send a key with both a down event, and a non-down event.
//
// See 7.5.4.
func (c *ClientConn) KeyEvent(keysym uint32, down bool) error {
var downFlag uint8 = 0
if down {
downFlag = 1
}
data := []interface{}{
uint8(4),
downFlag,
uint8(0),
uint8(0),
keysym,
}
for _, val := range data {
if err := binary.Write(c.c, binary.BigEndian, val); err != nil {
return err
}
}
return nil
}
// PointerEvent indicates that pointer movement or a pointer button
// press or release.
//
// The mask is a bitwise mask of various ButtonMask values. When a button
// is set, it is pressed, when it is unset, it is released.
//
// See RFC 6143 Section 7.5.5
func (c *ClientConn) PointerEvent(mask ButtonMask, x, y uint16) error {
var buf bytes.Buffer
data := []interface{}{
uint8(5),
uint8(mask),
x,
y,
}
for _, val := range data {
if err := binary.Write(&buf, binary.BigEndian, val); err != nil {
return err
}
}
if _, err := c.c.Write(buf.Bytes()[0:6]); err != nil {
return err
}
return nil
}
// SetEncodings sets the encoding types in which the pixel data can
// be sent from the server. After calling this method, the encs slice
// given should not be modified.
//
// See RFC 6143 Section 7.5.2
func (c *ClientConn) SetEncodings(encs []Encoding) error {
data := make([]interface{}, 3+len(encs))
data[0] = uint8(2)
data[1] = uint8(0)
data[2] = uint16(len(encs))
for i, enc := range encs {
data[3+i] = int32(enc.Type())
}
var buf bytes.Buffer
for _, val := range data {
if err := binary.Write(&buf, binary.BigEndian, val); err != nil {
return err
}
}
dataLength := 4 + (4 * len(encs))
if _, err := c.c.Write(buf.Bytes()[0:dataLength]); err != nil {
return err
}
c.Encs = encs
return nil
}
// SetPixelFormat sets the format in which pixel values should be sent
// in FramebufferUpdate messages from the server.
//
// See RFC 6143 Section 7.5.1
func (c *ClientConn) SetPixelFormat(format *PixelFormat) error {
var keyEvent [20]byte
keyEvent[0] = 0
pfBytes, err := writePixelFormat(format)
if err != nil {
return err
}
// Copy the pixel format bytes into the proper slice location
copy(keyEvent[4:], pfBytes)
// Send the data down the connection
if _, err := c.c.Write(keyEvent[:]); err != nil {
return err
}
// Reset the color map as according to RFC.
var newColorMap [256]Color
c.ColorMap = newColorMap
return nil
}
const pvLen = 12 // ProtocolVersion message length.
func parseProtocolVersion(pv []byte) (uint, uint, error) {
var major, minor uint
if len(pv) < pvLen {
return 0, 0, fmt.Errorf("ProtocolVersion message too short (%v < %v)", len(pv), pvLen)
}
l, err := fmt.Sscanf(string(pv), "RFB %d.%d\n", &major, &minor)
if l != 2 {
return 0, 0, fmt.Errorf("error parsing ProtocolVersion.")
}
if err != nil {
return 0, 0, err
}
return major, minor, nil
}
func (c *ClientConn) handshake() error {
var protocolVersion [pvLen]byte
// 7.1.1, read the ProtocolVersion message sent by the server.
if _, err := io.ReadFull(c.c, protocolVersion[:]); err != nil {
return err
}
maxMajor, maxMinor, err := parseProtocolVersion(protocolVersion[:])
if err != nil {
return err
}
if maxMajor < 3 {
return fmt.Errorf("unsupported major version, less than 3: %d", maxMajor)
}
if maxMinor < 8 {
return fmt.Errorf("unsupported minor version, less than 8: %d", maxMinor)
}
// Respond with the version we will support
if _, err = c.c.Write([]byte("RFB 003.008\n")); err != nil {
return err
}
// 7.1.2 Security Handshake from server
var numSecurityTypes uint8
if err = binary.Read(c.c, binary.BigEndian, &numSecurityTypes); err != nil {
return err
}
if numSecurityTypes == 0 {
return fmt.Errorf("no security types: %s", c.readErrorReason())
}
securityTypes := make([]uint8, numSecurityTypes)
if err = binary.Read(c.c, binary.BigEndian, &securityTypes); err != nil {
return err
}
clientSecurityTypes := c.config.Auth
if clientSecurityTypes == nil {
clientSecurityTypes = []ClientAuth{new(ClientAuthNone)}
}
var auth ClientAuth
FindAuth:
for _, curAuth := range clientSecurityTypes {
for _, securityType := range securityTypes {
if curAuth.SecurityType() == securityType {
// We use the first matching supported authentication
auth = curAuth
break FindAuth
}
}
}
if auth == nil {
return fmt.Errorf("no suitable auth schemes found. server supported: %#v", securityTypes)
}
// Respond back with the security type we'll use
if err = binary.Write(c.c, binary.BigEndian, auth.SecurityType()); err != nil {
return err
}
if err = auth.Handshake(c.c); err != nil {
return err
}
// 7.1.3 SecurityResult Handshake
var securityResult uint32
if err = binary.Read(c.c, binary.BigEndian, &securityResult); err != nil {
return err
}
if securityResult == 1 {
return fmt.Errorf("security handshake failed: %s", c.readErrorReason())
}
// 7.3.1 ClientInit
var sharedFlag uint8 = 1
if c.config.Exclusive {
sharedFlag = 0
}
if err = binary.Write(c.c, binary.BigEndian, sharedFlag); err != nil {
return err
}
// 7.3.2 ServerInit
if err = binary.Read(c.c, binary.BigEndian, &c.FrameBufferWidth); err != nil {
return err
}
if err = binary.Read(c.c, binary.BigEndian, &c.FrameBufferHeight); err != nil {
return err
}
// Read the pixel format
if err = readPixelFormat(c.c, &c.PixelFormat); err != nil {
return err
}
var nameLength uint32
if err = binary.Read(c.c, binary.BigEndian, &nameLength); err != nil {
return err
}
nameBytes := make([]uint8, nameLength)
if err = binary.Read(c.c, binary.BigEndian, &nameBytes); err != nil {
return err
}
c.DesktopName = string(nameBytes)
return nil
}
// mainLoop reads messages sent from the server and routes them to the
// proper channels for users of the client to read.
func (c *ClientConn) mainLoop() {
defer c.Close()
// Build the map of available server messages
typeMap := make(map[uint8]ServerMessage)
defaultMessages := []ServerMessage{
new(FramebufferUpdateMessage),
new(SetColorMapEntriesMessage),
new(BellMessage),
new(ServerCutTextMessage),
}
for _, msg := range defaultMessages {
typeMap[msg.Type()] = msg
}
if c.config.ServerMessages != nil {
for _, msg := range c.config.ServerMessages {
typeMap[msg.Type()] = msg
}
}
for {
var messageType uint8
if err := binary.Read(c.c, binary.BigEndian, &messageType); err != nil {
break
}
msg, ok := typeMap[messageType]
if !ok {
// Unsupported message type! Bad!
break
}
parsedMsg, err := msg.Read(c, c.c)
if err != nil {
break
}
if c.config.ServerMessageCh == nil {
continue
}
c.config.ServerMessageCh <- parsedMsg
}
}
func (c *ClientConn) readErrorReason() string {
var reasonLen uint32
if err := binary.Read(c.c, binary.BigEndian, &reasonLen); err != nil {
return "<error>"
}
reason := make([]uint8, reasonLen)
if err := binary.Read(c.c, binary.BigEndian, &reason); err != nil {
return "<error>"
}
return string(reason)
}