1 files changed, 0 insertions, 848 deletions

diff --git a/krfb/libvncserver/rfbproto.h b/krfb/libvncserver/rfbproto.h
deleted file mode 100644
index cd619dff..00000000
--- a/krfb/libvncserver/rfbproto.h
+++ /dev/null
@@ -1,848 +0,0 @@
-#ifndef RFBPROTO_H
-#define RFBPROTO_H
-
-/*
- *  Copyright (C) 2000, 2001 Const Kaplinsky.  All Rights Reserved.
- *  Copyright (C) 2000 Tridia Corporation.  All Rights Reserved.
- *  Copyright (C) 1999 AT&T Laboratories Cambridge.  All Rights Reserved.
- *
- *  This is free software; you can redistribute it and/or modify
- *  it under the terms of the GNU General Public License as published by
- *  the Free Software Foundation; either version 2 of the License, or
- *  (at your option) any later version.
- *
- *  This software is distributed in the hope that it will be useful,
- *  but WITHOUT ANY WARRANTY; without even the implied warranty of
- *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- *  GNU General Public License for more details.
- *
- *  You should have received a copy of the GNU General Public License
- *  along with this software; if not, write to the Free Software
- *  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301,
- *  USA.
- */
-
-/*
- * rfbproto.h - header file for the RFB protocol version 3.3
- *
- * Uses types CARD<n> for an n-bit unsigned integer, INT<n> for an n-bit signed
- * integer (for n = 8, 16 and 32).
- *
- * All multiple byte integers are in big endian (network) order (most
- * significant byte first).  Unless noted otherwise there is no special
- * alignment of protocol structures.
- *
- *
- * Once the initial handshaking is done, all messages start with a type byte,
- * (usually) followed by message-specific data.  The order of definitions in
- * this file is as follows:
- *
- *  (1) Structures used in several types of message.
- *  (2) Structures used in the initial handshaking.
- *  (3) Message types.
- *  (4) Encoding types.
- *  (5) For each message type, the form of the data following the type byte.
- *      Sometimes this is defined by a single structure but the more complex
- *      messages have to be explained by comments.
- */
-
-
-/*****************************************************************************
- *
- * Structures used in several messages
- *
- *****************************************************************************/
-
-/*-----------------------------------------------------------------------------
- * Structure used to specify a rectangle.  This structure is a multiple of 4
- * bytes so that it can be interspersed with 32-bit pixel data without
- * affecting alignment.
- */
-
-typedef struct {
-    CARD16 x;
-    CARD16 y;
-    CARD16 w;
-    CARD16 h;
-} rfbRectangle;
-
-#define sz_rfbRectangle 8
-
-
-/*-----------------------------------------------------------------------------
- * Structure used to specify pixel format.
- */
-
-typedef struct {
-
-    CARD8 bitsPerPixel;		/* 8,16,32 only */
-
-    CARD8 depth;		/* 8 to 32 */
-
-    CARD8 bigEndian;		/* True if multi-byte pixels are interpreted
-				   as big endian, or if single-bit-per-pixel
-				   has most significant bit of the byte
-				   corresponding to first (leftmost) pixel. Of
-				   course this is meaningless for 8 bits/pix */
-
-    CARD8 trueColour;		/* If false then we need a "colour map" to
-				   convert pixels to RGB.  If true, xxxMax and
-				   xxxShift specify bits used for red, green
-				   and blue */
-
-    /* the following fields are only meaningful if trueColour is true */
-
-    CARD16 redMax;		/* maximum red value (= 2^n - 1 where n is the
-				   number of bits used for red). Note this
-				   value is always in big endian order. */
-
-    CARD16 greenMax;		/* similar for green */
-
-    CARD16 blueMax;		/* and blue */
-
-    CARD8 redShift;		/* number of shifts needed to get the red
-				   value in a pixel to the least significant
-				   bit. To find the red value from a given
-				   pixel, do the following:
-				   1) Swap pixel value according to bigEndian
-				      (e.g. if bigEndian is false and host byte
-				      order is big endian, then swap).
-				   2) Shift right by redShift.
-				   3) AND with redMax (in host byte order).
-				   4) You now have the red value between 0 and
-				      redMax. */
-
-    CARD8 greenShift;		/* similar for green */
-
-    CARD8 blueShift;		/* and blue */
-
-    CARD8 pad1;
-    CARD16 pad2;
-
-} rfbPixelFormat;
-
-#define sz_rfbPixelFormat 16
-
-
-
-/*****************************************************************************
- *
- * Initial handshaking messages
- *
- *****************************************************************************/
-
-/*-----------------------------------------------------------------------------
- * Protocol Version
- *
- * The server always sends 12 bytes to start which identifies the latest RFB
- * protocol version number which it supports.  These bytes are interpreted
- * as a string of 12 ASCII characters in the format "RFB xxx.yyy\n" where
- * xxx and yyy are the major and minor version numbers (for version 3.3
- * this is "RFB 003.003\n").
- *
- * The client then replies with a similar 12-byte message giving the version
- * number of the protocol which should actually be used (which may be different
- * to that quoted by the server).
- *
- * It is intended that both clients and servers may provide some level of
- * backwards compatibility by this mechanism.  Servers in particular should
- * attempt to provide backwards compatibility, and even forwards compatibility
- * to some extent.  For example if a client demands version 3.1 of the
- * protocol, a 3.0 server can probably assume that by ignoring requests for
- * encoding types it doesn't understand, everything will still work OK.  This
- * will probably not be the case for changes in the major version number.
- *
- * The format string below can be used in sprintf or sscanf to generate or
- * decode the version string respectively.
- */
-
-#define rfbProtocolVersionFormat "RFB %03d.%03d\n"
-#define rfbProtocolMajorVersion 3
-#define rfbProtocolMinorVersion 3
-
-typedef char rfbProtocolVersionMsg[13];	/* allow extra byte for null */
-
-#define sz_rfbProtocolVersionMsg 12
-
-
-/*-----------------------------------------------------------------------------
- * Authentication
- *
- * Once the protocol version has been decided, the server then sends a 32-bit
- * word indicating whether any authentication is needed on the connection.
- * The value of this word determines the authentication scheme in use.  For
- * version 3.0 of the protocol this may have one of the following values:
- */
-
-#define rfbConnFailed 0
-#define rfbNoAuth 1
-#define rfbVncAuth 2
-
-/*
- * rfbConnFailed:	For some reason the connection failed (e.g. the server
- *			cannot support the desired protocol version).  This is
- *			followed by a string describing the reason (where a
- *			string is specified as a 32-bit length followed by that
- *			many ASCII characters).
- *
- * rfbNoAuth:		No authentication is needed.
- *
- * rfbVncAuth:		The VNC authentication scheme is to be used.  A 16-byte
- *			challenge follows, which the client encrypts as
- *			appropriate using the password and sends the resulting
- *			16-byte response.  If the response is correct, the
- *			server sends the 32-bit word rfbVncAuthOK.  If a simple
- *			failure happens, the server sends rfbVncAuthFailed and
- *			closes the connection. If the server decides that too
- *			many failures have occurred, it sends rfbVncAuthTooMany
- *			and closes the connection.  In the latter case, the
- *			server should not allow an immediate reconnection by
- *			the client.
- */
-
-#define rfbVncAuthOK 0
-#define rfbVncAuthFailed 1
-#define rfbVncAuthTooMany 2
-
-
-/*-----------------------------------------------------------------------------
- * Client Initialisation Message
- *
- * Once the client and server are sure that they're happy to talk to one
- * another, the client sends an initialisation message.  At present this
- * message only consists of a boolean indicating whether the server should try
- * to share the desktop by leaving other clients connected, or give exclusive
- * access to this client by disconnecting all other clients.
- */
-
-typedef struct {
-    CARD8 shared;
-} rfbClientInitMsg;
-
-#define sz_rfbClientInitMsg 1
-
-
-/*-----------------------------------------------------------------------------
- * Server Initialisation Message
- *
- * After the client initialisation message, the server sends one of its own.
- * This tells the client the width and height of the server's framebuffer,
- * its pixel format and the name associated with the desktop.
- */
-
-typedef struct {
-    CARD16 framebufferWidth;
-    CARD16 framebufferHeight;
-    rfbPixelFormat format;	/* the server's preferred pixel format */
-    CARD32 nameLength;
-    /* followed by char name[nameLength] */
-} rfbServerInitMsg;
-
-#define sz_rfbServerInitMsg (8 + sz_rfbPixelFormat)
-
-
-/*
- * Following the server initialisation message it's up to the client to send
- * whichever protocol messages it wants.  Typically it will send a
- * SetPixelFormat message and a SetEncodings message, followed by a
- * FramebufferUpdateRequest.  From then on the server will send
- * FramebufferUpdate messages in response to the client's
- * FramebufferUpdateRequest messages.  The client should send
- * FramebufferUpdateRequest messages with incremental set to true when it has
- * finished processing one FramebufferUpdate and is ready to process another.
- * With a fast client, the rate at which FramebufferUpdateRequests are sent
- * should be regulated to avoid hogging the network.
- */
-
-
-
-/*****************************************************************************
- *
- * Message types
- *
- *****************************************************************************/
-
-/* server -> client */
-
-#define rfbFramebufferUpdate 0
-#define rfbSetColourMapEntries 1
-#define rfbBell 2
-#define rfbServerCutText 3
-#ifdef BACKCHANNEL
-#define rfbBackChannel 15
-#endif
-
-/* client -> server */
-
-#define rfbSetPixelFormat 0
-#define rfbFixColourMapEntries 1	/* not currently supported */
-#define rfbSetEncodings 2
-#define rfbFramebufferUpdateRequest 3
-#define rfbKeyEvent 4
-#define rfbPointerEvent 5
-#define rfbClientCutText 6
-
-
-
-
-/*****************************************************************************
- *
- * Encoding types
- *
- *****************************************************************************/
-
-#define rfbEncodingRaw 0
-#define rfbEncodingCopyRect 1
-#define rfbEncodingRRE 2
-#define rfbEncodingCoRRE 4
-#define rfbEncodingHextile 5
-#define rfbEncodingZlib 6
-#define rfbEncodingTight 7
-#define rfbEncodingZlibHex 8
-#ifdef BACKCHANNEL
-#define rfbEncodingBackChannel 15
-#endif
-
-/*
- * Special encoding numbers:
- *   0xFFFFFF00 .. 0xFFFFFF0F -- encoding-specific compression levels;
- *   0xFFFFFF10 .. 0xFFFFFF1F -- mouse cursor shape data;
- *   0xFFFFFF20 .. 0xFFFFFF2F -- various protocol extensions;
- *   0xFFFFFF30 .. 0xFFFFFFDF -- not allocated yet;
- *   0xFFFFFFE0 .. 0xFFFFFFEF -- quality level for JPEG compressor;
- *   0xFFFFFFF0 .. 0xFFFFFFFF -- cross-encoding compression levels.
- */
-
-#define rfbEncodingCompressLevel0  0xFFFFFF00
-#define rfbEncodingCompressLevel1  0xFFFFFF01
-#define rfbEncodingCompressLevel2  0xFFFFFF02
-#define rfbEncodingCompressLevel3  0xFFFFFF03
-#define rfbEncodingCompressLevel4  0xFFFFFF04
-#define rfbEncodingCompressLevel5  0xFFFFFF05
-#define rfbEncodingCompressLevel6  0xFFFFFF06
-#define rfbEncodingCompressLevel7  0xFFFFFF07
-#define rfbEncodingCompressLevel8  0xFFFFFF08
-#define rfbEncodingCompressLevel9  0xFFFFFF09
-
-#define rfbEncodingXCursor         0xFFFFFF10
-#define rfbEncodingRichCursor      0xFFFFFF11
-#define rfbEncodingSoftCursor      0xFFFFFF12
-
-#define rfbEncodingLastRect        0xFFFFFF20
-#define rfbEncodingBackground      0xFFFFFF25
-
-#define rfbEncodingQualityLevel0   0xFFFFFFE0
-#define rfbEncodingQualityLevel1   0xFFFFFFE1
-#define rfbEncodingQualityLevel2   0xFFFFFFE2
-#define rfbEncodingQualityLevel3   0xFFFFFFE3
-#define rfbEncodingQualityLevel4   0xFFFFFFE4
-#define rfbEncodingQualityLevel5   0xFFFFFFE5
-#define rfbEncodingQualityLevel6   0xFFFFFFE6
-#define rfbEncodingQualityLevel7   0xFFFFFFE7
-#define rfbEncodingQualityLevel8   0xFFFFFFE8
-#define rfbEncodingQualityLevel9   0xFFFFFFE9
-
-
-/*****************************************************************************
- *
- * Server -> client message definitions
- *
- *****************************************************************************/
-
-
-/*-----------------------------------------------------------------------------
- * FramebufferUpdate - a block of rectangles to be copied to the framebuffer.
- *
- * This message consists of a header giving the number of rectangles of pixel
- * data followed by the rectangles themselves.  The header is padded so that
- * together with the type byte it is an exact multiple of 4 bytes (to help
- * with alignment of 32-bit pixels):
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbFramebufferUpdate */
-    CARD8 pad;
-    CARD16 nRects;
-    /* followed by nRects rectangles */
-} rfbFramebufferUpdateMsg;
-
-#define sz_rfbFramebufferUpdateMsg 4
-
-/*
- * Each rectangle of pixel data consists of a header describing the position
- * and size of the rectangle and a type word describing the encoding of the
- * pixel data, followed finally by the pixel data.  Note that if the client has
- * not sent a SetEncodings message then it will only receive raw pixel data.
- * Also note again that this structure is a multiple of 4 bytes.
- */
-
-typedef struct {
-    rfbRectangle r;
-    CARD32 encoding;	/* one of the encoding types rfbEncoding... */
-} rfbFramebufferUpdateRectHeader;
-
-#define sz_rfbFramebufferUpdateRectHeader (sz_rfbRectangle + 4)
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * Raw Encoding.  Pixels are sent in top-to-bottom scanline order,
- * left-to-right within a scanline with no padding in between.
- */
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * CopyRect Encoding.  The pixels are specified simply by the x and y position
- * of the source rectangle.
- */
-
-typedef struct {
-    CARD16 srcX;
-    CARD16 srcY;
-} rfbCopyRect;
-
-#define sz_rfbCopyRect 4
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * RRE - Rise-and-Run-length Encoding.  We have an rfbRREHeader structure
- * giving the number of subrectangles following.  Finally the data follows in
- * the form [<bgpixel><subrect><subrect>...] where each <subrect> is
- * [<pixel><rfbRectangle>].
- */
-
-typedef struct {
-    CARD32 nSubrects;
-} rfbRREHeader;
-
-#define sz_rfbRREHeader 4
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * CoRRE - Compact RRE Encoding.  We have an rfbRREHeader structure giving
- * the number of subrectangles following.  Finally the data follows in the form
- * [<bgpixel><subrect><subrect>...] where each <subrect> is
- * [<pixel><rfbCoRRERectangle>].  This means that
- * the whole rectangle must be at most 255x255 pixels.
- */
-
-typedef struct {
-    CARD8 x;
-    CARD8 y;
-    CARD8 w;
-    CARD8 h;
-} rfbCoRRERectangle;
-
-#define sz_rfbCoRRERectangle 4
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * Hextile Encoding.  The rectangle is divided up into "tiles" of 16x16 pixels,
- * starting at the top left going in left-to-right, top-to-bottom order.  If
- * the width of the rectangle is not an exact multiple of 16 then the width of
- * the last tile in each row will be correspondingly smaller.  Similarly if the
- * height is not an exact multiple of 16 then the height of each tile in the
- * final row will also be smaller.  Each tile begins with a "subencoding" type
- * byte, which is a mask made up of a number of bits.  If the Raw bit is set
- * then the other bits are irrelevant; w*h pixel values follow (where w and h
- * are the width and height of the tile).  Otherwise the tile is encoded in a
- * similar way to RRE, except that the position and size of each subrectangle
- * can be specified in just two bytes.  The other bits in the mask are as
- * follows:
- *
- * BackgroundSpecified - if set, a pixel value follows which specifies
- *    the background colour for this tile.  The first non-raw tile in a
- *    rectangle must have this bit set.  If this bit isn't set then the
- *    background is the same as the last tile.
- *
- * ForegroundSpecified - if set, a pixel value follows which specifies
- *    the foreground colour to be used for all subrectangles in this tile.
- *    If this bit is set then the SubrectsColoured bit must be zero.
- *
- * AnySubrects - if set, a single byte follows giving the number of
- *    subrectangles following.  If not set, there are no subrectangles (i.e.
- *    the whole tile is just solid background colour).
- *
- * SubrectsColoured - if set then each subrectangle is preceded by a pixel
- *    value giving the colour of that subrectangle.  If not set, all
- *    subrectangles are the same colour, the foreground colour;  if the
- *    ForegroundSpecified bit wasn't set then the foreground is the same as
- *    the last tile.
- *
- * The position and size of each subrectangle is specified in two bytes.  The
- * Pack macros below can be used to generate the two bytes from x, y, w, h,
- * and the Extract macros can be used to extract the x, y, w, h values from
- * the two bytes.
- */
-
-#define rfbHextileRaw			(1 << 0)
-#define rfbHextileBackgroundSpecified	(1 << 1)
-#define rfbHextileForegroundSpecified	(1 << 2)
-#define rfbHextileAnySubrects		(1 << 3)
-#define rfbHextileSubrectsColoured	(1 << 4)
-
-#define rfbHextilePackXY(x,y) (((x) << 4) | (y))
-#define rfbHextilePackWH(w,h) ((((w)-1) << 4) | ((h)-1))
-#define rfbHextileExtractX(byte) ((byte) >> 4)
-#define rfbHextileExtractY(byte) ((byte) & 0xf)
-#define rfbHextileExtractW(byte) (((byte) >> 4) + 1)
-#define rfbHextileExtractH(byte) (((byte) & 0xf) + 1)
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * zlib - zlib compressed Encoding.  We have an rfbZlibHeader structure
- * giving the number of bytes following.  Finally the data follows is
- * zlib compressed version of the raw pixel data as negotiated.
- */
-
-typedef struct {
-    CARD32 nBytes;
-} rfbZlibHeader;
-
-#define sz_rfbZlibHeader 4
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * Tight Encoding.  FIXME: Add more documentation.
- */
-
-#define rfbTightExplicitFilter         0x04
-#define rfbTightFill                   0x08
-#define rfbTightJpeg                   0x09
-#define rfbTightMaxSubencoding         0x09
-
-/* Filters to improve compression efficiency */
-#define rfbTightFilterCopy             0x00
-#define rfbTightFilterPalette          0x01
-#define rfbTightFilterGradient         0x02
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * XCursor encoding. This is a special encoding used to transmit X-style
- * cursor shapes from server to clients. Note that for this encoding,
- * coordinates in rfbFramebufferUpdateRectHeader structure hold hotspot
- * position (r.x, r.y) and cursor size (r.w, r.h). If (w * h != 0), two RGB
- * samples are sent after header in the rfbXCursorColors structure. They
- * denote foreground and background colors of the cursor. If a client
- * supports only black-and-white cursors, it should ignore these colors and
- * assume that foreground is black and background is white. Next, two bitmaps
- * (1 bits per pixel) follow: first one with actual data (value 0 denotes
- * background color, value 1 denotes foreground color), second one with
- * transparency data (bits with zero value mean that these pixels are
- * transparent). Both bitmaps represent cursor data in a byte stream, from
- * left to right, from top to bottom, and each row is byte-aligned. Most
- * significant bits correspond to leftmost pixels. The number of bytes in
- * each row can be calculated as ((w + 7) / 8). If (w * h == 0), cursor
- * should be hidden (or default local cursor should be set by the client).
- */
-
-typedef struct {
-    CARD8 foreRed;
-    CARD8 foreGreen;
-    CARD8 foreBlue;
-    CARD8 backRed;
-    CARD8 backGreen;
-    CARD8 backBlue;
-} rfbXCursorColors;
-
-#define sz_rfbXCursorColors 6
-
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * RichCursor encoding. This is a special encoding used to transmit cursor
- * shapes from server to clients. It is similar to the XCursor encoding but
- * uses client pixel format instead of two RGB colors to represent cursor
- * image. For this encoding, coordinates in rfbFramebufferUpdateRectHeader
- * structure hold hotspot position (r.x, r.y) and cursor size (r.w, r.h).
- * After header, two pixmaps follow: first one with cursor image in current
- * client pixel format (like in raw encoding), second with transparency data
- * (1 bit per pixel, exactly the same format as used for transparency bitmap
- * in the XCursor encoding). If (w * h == 0), cursor should be hidden (or
- * default local cursor should be set by the client).
- */
-
-/*- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- * SoftCursor encoding. This encoding is used to transmit image and position
- * of the remote cursor. It has two sub-messages: SetImage is used to upload
- * one of 16 images, and Move selects the image and sets the position of the
- * cursor.
- * Each SoftCursor message starts with a CARD8. If it is in the 0-15 range
- * it specifies the number of the cursor image and is followed by the
- * rfbSoftCursorMove message. If the given cursor has not been set yet the
- * message will be ignored. If the first CARD8 is in the 128-143 range it
- * specifies the cursor that will be set in the following
- * rfbSoftCursorSetImage message. To hide the cursor send a SetImage
- * message with width and height 0 and imageLength 0.
- * SetImage transmits the hotspot coordinates in the x/y fields of the
- * rfbFramebufferUpdateRectHeader, width and height of the image are in the
- * header's width and height fields.
- * Move transmits the pointer coordinates in the w/h fields of the
- * header, x/y are always 0.
- */
-
-typedef struct {
-  CARD8 imageIndex;
-  CARD8 buttonMask;		/* bits 0-7 are buttons 1-8, 0=up, 1=down */
-} rfbSoftCursorMove;
-
-typedef struct {
-  CARD8 imageIndex;
-  CARD8 padding;
-  CARD16 imageLength;
-  /*
-   * Followed by an image of the cursor in the client's image format
-   * with the following RLE mask compression. It begins with CARD8 that
-   * specifies the number of mask'ed pixels that will be NOT transmitted.
-   * Then follows a CARD8 that specified by the number of unmask'd pixels
-   * that will be transmitted next. Then a CARD8 with the number of mask'd 
-   * pixels and so on.
-   */
-} rfbSoftCursorSetImage;
-
-typedef union {
-  CARD8 type;
-  rfbSoftCursorMove move;
-  rfbSoftCursorSetImage setImage;
-} rfbSoftCursorMsg;
-
-#define rfbSoftCursorMaxImages    16
-#define rfbSoftCursorSetIconOffset    128
-
-
-/*-----------------------------------------------------------------------------
- * SetColourMapEntries - these messages are only sent if the pixel
- * format uses a "colour map" (i.e. trueColour false) and the client has not
- * fixed the entire colour map using FixColourMapEntries.  In addition they
- * will only start being sent after the client has sent its first
- * FramebufferUpdateRequest.  So if the client always tells the server to use
- * trueColour then it never needs to process this type of message.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbSetColourMapEntries */
-    CARD8 pad;
-    CARD16 firstColour;
-    CARD16 nColours;
-
-    /* Followed by nColours * 3 * CARD16
-       r1, g1, b1, r2, g2, b2, r3, g3, b3, ..., rn, bn, gn */
-
-} rfbSetColourMapEntriesMsg;
-
-#define sz_rfbSetColourMapEntriesMsg 6
-
-
-
-/*-----------------------------------------------------------------------------
- * Bell - ring a bell on the client if it has one.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbBell */
-} rfbBellMsg;
-
-#define sz_rfbBellMsg 1
-
-
-
-/*-----------------------------------------------------------------------------
- * ServerCutText - the server has new text in its cut buffer.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbServerCutText */
-    CARD8 pad1;
-    CARD16 pad2;
-    CARD32 length;
-    /* followed by char text[length] */
-} rfbServerCutTextMsg;
-
-#define sz_rfbServerCutTextMsg 8
-
-#ifdef BACKCHANNEL
-typedef rfbServerCutTextMsg rfbBackChannelMsg;
-#define sz_rfbBackChannelMsg 8
-#endif
-
-
-/*-----------------------------------------------------------------------------
- * Union of all server->client messages.
- */
-
-typedef union {
-    CARD8 type;
-    rfbFramebufferUpdateMsg fu;
-    rfbSetColourMapEntriesMsg scme;
-    rfbBellMsg b;
-    rfbServerCutTextMsg sct;
-} rfbServerToClientMsg;
-
-
-
-/*****************************************************************************
- *
- * Message definitions (client -> server)
- *
- *****************************************************************************/
-
-
-/*-----------------------------------------------------------------------------
- * SetPixelFormat - tell the RFB server the format in which the client wants
- * pixels sent.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbSetPixelFormat */
-    CARD8 pad1;
-    CARD16 pad2;
-    rfbPixelFormat format;
-} rfbSetPixelFormatMsg;
-
-#define sz_rfbSetPixelFormatMsg (sz_rfbPixelFormat + 4)
-
-
-/*-----------------------------------------------------------------------------
- * FixColourMapEntries - when the pixel format uses a "colour map", fix
- * read-only colour map entries.
- *
- *    ***************** NOT CURRENTLY SUPPORTED *****************
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbFixColourMapEntries */
-    CARD8 pad;
-    CARD16 firstColour;
-    CARD16 nColours;
-
-    /* Followed by nColours * 3 * CARD16
-       r1, g1, b1, r2, g2, b2, r3, g3, b3, ..., rn, bn, gn */
-
-} rfbFixColourMapEntriesMsg;
-
-#define sz_rfbFixColourMapEntriesMsg 6
-
-
-/*-----------------------------------------------------------------------------
- * SetEncodings - tell the RFB server which encoding types we accept.  Put them
- * in order of preference, if we have any.  We may always receive raw
- * encoding, even if we don't specify it here.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbSetEncodings */
-    CARD8 pad;
-    CARD16 nEncodings;
-    /* followed by nEncodings * CARD32 encoding types */
-} rfbSetEncodingsMsg;
-
-#define sz_rfbSetEncodingsMsg 4
-
-
-/*-----------------------------------------------------------------------------
- * FramebufferUpdateRequest - request for a framebuffer update.  If incremental
- * is true then the client just wants the changes since the last update.  If
- * false then it wants the whole of the specified rectangle.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbFramebufferUpdateRequest */
-    CARD8 incremental;
-    CARD16 x;
-    CARD16 y;
-    CARD16 w;
-    CARD16 h;
-} rfbFramebufferUpdateRequestMsg;
-
-#define sz_rfbFramebufferUpdateRequestMsg 10
-
-
-/*-----------------------------------------------------------------------------
- * KeyEvent - key press or release
- *
- * Keys are specified using the "keysym" values defined by the X Window System.
- * For most ordinary keys, the keysym is the same as the corresponding ASCII
- * value.  Other common keys are:
- *
- * BackSpace		0xff08
- * Tab			0xff09
- * Return or Enter	0xff0d
- * Escape		0xff1b
- * Insert		0xff63
- * Delete		0xffff
- * Home			0xff50
- * End			0xff57
- * Page Up		0xff55
- * Page Down		0xff56
- * Left			0xff51
- * Up			0xff52
- * Right		0xff53
- * Down			0xff54
- * F1			0xffbe
- * F2			0xffbf
- * ...			...
- * F12			0xffc9
- * Shift		0xffe1
- * Control		0xffe3
- * Meta			0xffe7
- * Alt			0xffe9
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbKeyEvent */
-    CARD8 down;			/* true if down (press), false if up */
-    CARD16 pad;
-    CARD32 key;			/* key is specified as an X keysym */
-} rfbKeyEventMsg;
-
-#define sz_rfbKeyEventMsg 8
-
-
-/*-----------------------------------------------------------------------------
- * PointerEvent - mouse/pen move and/or button press.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbPointerEvent */
-    CARD8 buttonMask;		/* bits 0-7 are buttons 1-8, 0=up, 1=down */
-    CARD16 x;
-    CARD16 y;
-} rfbPointerEventMsg;
-
-#define rfbButton1Mask 1
-#define rfbButton2Mask 2
-#define rfbButton3Mask 4
-
-#define sz_rfbPointerEventMsg 6
-
-
-
-/*-----------------------------------------------------------------------------
- * ClientCutText - the client has new text in its cut buffer.
- */
-
-typedef struct {
-    CARD8 type;			/* always rfbClientCutText */
-    CARD8 pad1;
-    CARD16 pad2;
-    CARD32 length;
-    /* followed by char text[length] */
-} rfbClientCutTextMsg;
-
-#define sz_rfbClientCutTextMsg 8
-
-
-
-/*-----------------------------------------------------------------------------
- * Union of all client->server messages.
- */
-
-typedef union {
-    CARD8 type;
-    rfbSetPixelFormatMsg spf;
-    rfbFixColourMapEntriesMsg fcme;
-    rfbSetEncodingsMsg se;
-    rfbFramebufferUpdateRequestMsg fur;
-    rfbKeyEventMsg ke;
-    rfbPointerEventMsg pe;
-    rfbClientCutTextMsg cct;
-} rfbClientToServerMsg;
-
-#endif