KasmVNC/common/rfb/SMsgWriter.cxx

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/* Copyright (C) 2002-2005 RealVNC Ltd. All Rights Reserved.
* Copyright (C) 2011 D. R. Commander. All Rights Reserved.
* Copyright 2009-2017 Pierre Ossman for Cendio AB
*
* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
* USA.
*/
#include <stdio.h>
#include <rdr/OutStream.h>
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#include <rdr/MemOutStream.h>
#include <rdr/ZlibOutStream.h>
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#include <rfb/msgTypes.h>
#include <rfb/fenceTypes.h>
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#include <rfb/clipboardTypes.h>
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#include <rfb/Exception.h>
#include <rfb/ConnParams.h>
#include <rfb/UpdateTracker.h>
#include <rfb/Encoder.h>
#include <rfb/SMsgWriter.h>
#include <rfb/LogWriter.h>
#include <rfb/ledStates.h>
using namespace rfb;
static LogWriter vlog("SMsgWriter");
SMsgWriter::SMsgWriter(ConnParams* cp_, rdr::OutStream* os_)
: cp(cp_), os(os_),
nRectsInUpdate(0), nRectsInHeader(0),
needSetDesktopSize(false), needExtendedDesktopSize(false),
needSetDesktopName(false), needSetCursor(false),
needSetXCursor(false), needSetCursorWithAlpha(false),
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needSetVMWareCursor(false),
needCursorPos(false),
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needLEDState(false), needQEMUKeyEvent(false)
{
}
SMsgWriter::~SMsgWriter()
{
}
void SMsgWriter::writeServerInit()
{
os->writeU16(cp->width);
os->writeU16(cp->height);
cp->pf().write(os);
os->writeString(cp->name());
endMsg();
}
void SMsgWriter::writeSetColourMapEntries(int firstColour, int nColours,
const rdr::U16 red[],
const rdr::U16 green[],
const rdr::U16 blue[])
{
startMsg(msgTypeSetColourMapEntries);
os->pad(1);
os->writeU16(firstColour);
os->writeU16(nColours);
for (int i = firstColour; i < firstColour+nColours; i++) {
os->writeU16(red[i]);
os->writeU16(green[i]);
os->writeU16(blue[i]);
}
endMsg();
}
void SMsgWriter::writeBell()
{
startMsg(msgTypeBell);
endMsg();
}
void SMsgWriter::writeBinaryClipboard(const std::vector<SConnection::binaryClipboard_t> &b)
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{
startMsg(msgTypeBinaryClipboard);
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os->writeU8(b.size());
rdr::U8 i;
for (i = 0; i < b.size(); i++) {
const rdr::U8 mimelen = strlen(b[i].mime);
os->writeU8(mimelen);
os->writeBytes(b[i].mime, mimelen);
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os->writeU32(b[i].data.size());
os->writeBytes(&b[i].data[0], b[i].data.size());
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}
endMsg();
}
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void SMsgWriter::writeStats(const char* str, int len)
{
startMsg(msgTypeStats);
os->pad(3);
os->writeU32(len);
os->writeBytes(str, len);
endMsg();
}
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void SMsgWriter::writeRequestFrameStats()
{
startMsg(msgTypeRequestFrameStats);
endMsg();
}
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void SMsgWriter::writeFence(rdr::U32 flags, unsigned len, const char data[])
{
if (!cp->supportsFence)
throw Exception("Client does not support fences");
if (len > 64)
throw Exception("Too large fence payload");
if ((flags & ~fenceFlagsSupported) != 0)
throw Exception("Unknown fence flags");
startMsg(msgTypeServerFence);
os->pad(3);
os->writeU32(flags);
os->writeU8(len);
if (len > 0)
os->writeBytes(data, len);
endMsg();
}
void SMsgWriter::writeEndOfContinuousUpdates()
{
if (!cp->supportsContinuousUpdates)
throw Exception("Client does not support continuous updates");
startMsg(msgTypeEndOfContinuousUpdates);
endMsg();
}
bool SMsgWriter::writeSetDesktopSize() {
if (!cp->supportsDesktopResize)
return false;
needSetDesktopSize = true;
return true;
}
bool SMsgWriter::writeExtendedDesktopSize() {
if (!cp->supportsExtendedDesktopSize)
return false;
needExtendedDesktopSize = true;
return true;
}
bool SMsgWriter::writeExtendedDesktopSize(rdr::U16 reason, rdr::U16 result,
int fb_width, int fb_height,
const ScreenSet& layout) {
ExtendedDesktopSizeMsg msg;
if (!cp->supportsExtendedDesktopSize)
return false;
msg.reason = reason;
msg.result = result;
msg.fb_width = fb_width;
msg.fb_height = fb_height;
msg.layout = layout;
extendedDesktopSizeMsgs.push_back(msg);
return true;
}
bool SMsgWriter::writeSetDesktopName() {
if (!cp->supportsDesktopRename)
return false;
needSetDesktopName = true;
return true;
}
bool SMsgWriter::writeSetCursor()
{
if (!cp->supportsLocalCursor)
return false;
needSetCursor = true;
return true;
}
bool SMsgWriter::writeSetXCursor()
{
if (!cp->supportsLocalXCursor)
return false;
needSetXCursor = true;
return true;
}
bool SMsgWriter::writeSetCursorWithAlpha()
{
if (!cp->supportsLocalCursorWithAlpha)
return false;
needSetCursorWithAlpha = true;
return true;
}
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bool SMsgWriter::writeSetVMwareCursor()
{
if (!cp->supportsVMWareCursor)
return false;
needSetVMWareCursor = true;
return true;
}
void SMsgWriter::writeCursorPos()
{
if (!cp->supportsEncoding(pseudoEncodingVMwareCursorPosition))
throw Exception("Client does not support cursor position");
needCursorPos = true;
}
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bool SMsgWriter::writeLEDState()
{
if (!cp->supportsLEDState)
return false;
if (cp->ledState() == ledUnknown)
return false;
needLEDState = true;
return true;
}
bool SMsgWriter::writeQEMUKeyEvent()
{
if (!cp->supportsQEMUKeyEvent)
return false;
needQEMUKeyEvent = true;
return true;
}
bool SMsgWriter::needFakeUpdate()
{
if (needSetDesktopName)
return true;
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if (needSetCursor || needSetXCursor || needSetCursorWithAlpha || needSetVMWareCursor)
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return true;
if (needCursorPos)
return true;
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if (needLEDState)
return true;
if (needQEMUKeyEvent)
return true;
if (needNoDataUpdate())
return true;
return false;
}
bool SMsgWriter::needNoDataUpdate()
{
if (needSetDesktopSize)
return true;
if (needExtendedDesktopSize || !extendedDesktopSizeMsgs.empty())
return true;
return false;
}
void SMsgWriter::writeNoDataUpdate()
{
int nRects;
nRects = 0;
if (needSetDesktopSize)
nRects++;
if (needExtendedDesktopSize)
nRects++;
if (!extendedDesktopSizeMsgs.empty())
nRects += extendedDesktopSizeMsgs.size();
writeFramebufferUpdateStart(nRects);
writeNoDataRects();
writeFramebufferUpdateEnd();
}
void SMsgWriter::writeFramebufferUpdateStart(int nRects)
{
startMsg(msgTypeFramebufferUpdate);
os->pad(1);
if (nRects != 0xFFFF) {
if (needSetDesktopName)
nRects++;
if (needSetCursor)
nRects++;
if (needSetXCursor)
nRects++;
if (needSetCursorWithAlpha)
nRects++;
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if (needSetVMWareCursor)
nRects++;
if (needCursorPos)
nRects++;
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if (needLEDState)
nRects++;
if (needQEMUKeyEvent)
nRects++;
}
os->writeU16(nRects);
nRectsInUpdate = 0;
if (nRects == 0xFFFF)
nRectsInHeader = 0;
else
nRectsInHeader = nRects;
writePseudoRects();
}
void SMsgWriter::writeFramebufferUpdateEnd()
{
if (nRectsInUpdate != nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeFramebufferUpdateEnd: "
"nRects out of sync");
if (nRectsInHeader == 0) {
// Send last rect. marker
os->writeS16(0);
os->writeS16(0);
os->writeU16(0);
os->writeU16(0);
os->writeU32(pseudoEncodingLastRect);
}
endMsg();
}
void SMsgWriter::writeCopyRect(const Rect& r, int srcX, int srcY)
{
startRect(r,encodingCopyRect);
os->writeU16(srcX);
os->writeU16(srcY);
endRect();
}
void SMsgWriter::startRect(const Rect& r, int encoding)
{
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::startRect: nRects out of sync");
os->writeS16(r.tl.x);
os->writeS16(r.tl.y);
os->writeU16(r.width());
os->writeU16(r.height());
os->writeU32(encoding);
}
void SMsgWriter::endRect()
{
os->flush();
}
void SMsgWriter::startMsg(int type)
{
os->writeU8(type);
}
void SMsgWriter::endMsg()
{
os->flush();
}
void SMsgWriter::writePseudoRects()
{
if (needSetCursor) {
const Cursor& cursor = cp->cursor();
rdr::U8Array data(cursor.width()*cursor.height() * (cp->pf().bpp/8));
rdr::U8Array mask(cursor.getMask());
const rdr::U8* in;
rdr::U8* out;
in = cursor.getBuffer();
out = data.buf;
for (int i = 0;i < cursor.width()*cursor.height();i++) {
cp->pf().bufferFromRGB(out, in, 1);
in += 4;
out += cp->pf().bpp/8;
}
writeSetCursorRect(cursor.width(), cursor.height(),
cursor.hotspot().x, cursor.hotspot().y,
data.buf, mask.buf);
needSetCursor = false;
}
if (needSetXCursor) {
const Cursor& cursor = cp->cursor();
rdr::U8Array bitmap(cursor.getBitmap());
rdr::U8Array mask(cursor.getMask());
writeSetXCursorRect(cursor.width(), cursor.height(),
cursor.hotspot().x, cursor.hotspot().y,
bitmap.buf, mask.buf);
needSetXCursor = false;
}
if (needSetCursorWithAlpha) {
const Cursor& cursor = cp->cursor();
writeSetCursorWithAlphaRect(cursor.width(), cursor.height(),
cursor.hotspot().x, cursor.hotspot().y,
cursor.getBuffer());
needSetCursorWithAlpha = false;
}
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if (needSetVMWareCursor) {
const Cursor& cursor = cp->cursor();
writeSetVMwareCursorRect(cursor.width(), cursor.height(),
cursor.hotspot().x, cursor.hotspot().y,
cursor.getBuffer());
needSetVMWareCursor = false;
}
if (needCursorPos) {
const Point& cursorPos = cp->cursorPos();
if (cp->supportsEncoding(pseudoEncodingVMwareCursorPosition)) {
writeSetVMwareCursorPositionRect(cursorPos.x, cursorPos.y);
} else {
throw Exception("Client does not support cursor position");
}
needCursorPos = false;
}
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if (needSetDesktopName) {
writeSetDesktopNameRect(cp->name());
needSetDesktopName = false;
}
if (needLEDState) {
writeLEDStateRect(cp->ledState());
needLEDState = false;
}
if (needQEMUKeyEvent) {
writeQEMUKeyEventRect();
needQEMUKeyEvent = false;
}
}
void SMsgWriter::writeNoDataRects()
{
// Start with specific ExtendedDesktopSize messages
if (!extendedDesktopSizeMsgs.empty()) {
std::list<ExtendedDesktopSizeMsg>::const_iterator ri;
for (ri = extendedDesktopSizeMsgs.begin();ri != extendedDesktopSizeMsgs.end();++ri) {
writeExtendedDesktopSizeRect(ri->reason, ri->result,
ri->fb_width, ri->fb_height, ri->layout);
}
extendedDesktopSizeMsgs.clear();
}
// Send this before SetDesktopSize to make life easier on the clients
if (needExtendedDesktopSize) {
writeExtendedDesktopSizeRect(0, 0, cp->width, cp->height,
cp->screenLayout);
needExtendedDesktopSize = false;
}
// Some clients assume this is the last rectangle so don't send anything
// more after this
if (needSetDesktopSize) {
writeSetDesktopSizeRect(cp->width, cp->height);
needSetDesktopSize = false;
}
}
void SMsgWriter::writeSetDesktopSizeRect(int width, int height)
{
if (!cp->supportsDesktopResize)
throw Exception("Client does not support desktop resize");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetDesktopSizeRect: nRects out of sync");
os->writeS16(0);
os->writeS16(0);
os->writeU16(width);
os->writeU16(height);
os->writeU32(pseudoEncodingDesktopSize);
}
void SMsgWriter::writeExtendedDesktopSizeRect(rdr::U16 reason,
rdr::U16 result,
int fb_width,
int fb_height,
const ScreenSet& layout)
{
ScreenSet::const_iterator si;
if (!cp->supportsExtendedDesktopSize)
throw Exception("Client does not support extended desktop resize");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeExtendedDesktopSizeRect: nRects out of sync");
os->writeU16(reason);
os->writeU16(result);
os->writeU16(fb_width);
os->writeU16(fb_height);
os->writeU32(pseudoEncodingExtendedDesktopSize);
os->writeU8(layout.num_screens());
os->pad(3);
for (si = layout.begin();si != layout.end();++si) {
os->writeU32(si->id);
os->writeU16(si->dimensions.tl.x);
os->writeU16(si->dimensions.tl.y);
os->writeU16(si->dimensions.width());
os->writeU16(si->dimensions.height());
os->writeU32(si->flags);
}
}
void SMsgWriter::writeSetDesktopNameRect(const char *name)
{
if (!cp->supportsDesktopRename)
throw Exception("Client does not support desktop rename");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetDesktopNameRect: nRects out of sync");
os->writeS16(0);
os->writeS16(0);
os->writeU16(0);
os->writeU16(0);
os->writeU32(pseudoEncodingDesktopName);
os->writeString(name);
}
void SMsgWriter::writeSetCursorRect(int width, int height,
int hotspotX, int hotspotY,
const void* data, const void* mask)
{
if (!cp->supportsLocalCursor)
throw Exception("Client does not support local cursors");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetCursorRect: nRects out of sync");
os->writeS16(hotspotX);
os->writeS16(hotspotY);
os->writeU16(width);
os->writeU16(height);
os->writeU32(pseudoEncodingCursor);
os->writeBytes(data, width * height * (cp->pf().bpp/8));
os->writeBytes(mask, (width+7)/8 * height);
}
void SMsgWriter::writeSetXCursorRect(int width, int height,
int hotspotX, int hotspotY,
const void* data, const void* mask)
{
if (!cp->supportsLocalXCursor)
throw Exception("Client does not support local cursors");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetXCursorRect: nRects out of sync");
os->writeS16(hotspotX);
os->writeS16(hotspotY);
os->writeU16(width);
os->writeU16(height);
os->writeU32(pseudoEncodingXCursor);
if (width * height > 0) {
os->writeU8(255);
os->writeU8(255);
os->writeU8(255);
os->writeU8(0);
os->writeU8(0);
os->writeU8(0);
os->writeBytes(data, (width+7)/8 * height);
os->writeBytes(mask, (width+7)/8 * height);
}
}
void SMsgWriter::writeSetCursorWithAlphaRect(int width, int height,
int hotspotX, int hotspotY,
const rdr::U8* data)
{
if (!cp->supportsLocalCursorWithAlpha)
throw Exception("Client does not support local cursors");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetCursorWithAlphaRect: nRects out of sync");
os->writeS16(hotspotX);
os->writeS16(hotspotY);
os->writeU16(width);
os->writeU16(height);
os->writeU32(pseudoEncodingCursorWithAlpha);
// FIXME: Use an encoder with compression?
os->writeU32(encodingRaw);
// Alpha needs to be pre-multiplied
for (int i = 0;i < width*height;i++) {
os->writeU8((unsigned)data[0] * data[3] / 255);
os->writeU8((unsigned)data[1] * data[3] / 255);
os->writeU8((unsigned)data[2] * data[3] / 255);
os->writeU8(data[3]);
data += 4;
}
}
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void SMsgWriter::writeSetVMwareCursorRect(int width, int height,
int hotspotX, int hotspotY,
const rdr::U8* data)
{
if (!cp->supportsVMWareCursor)
throw Exception("Client does not support local cursors");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetVMwareCursorRect: nRects out of sync");
os->writeS16(hotspotX);
os->writeS16(hotspotY);
os->writeU16(width);
os->writeU16(height);
os->writeU32(pseudoEncodingVMwareCursor);
os->writeU8(1); // Alpha cursor
os->pad(1);
// FIXME: Should alpha be premultiplied?
os->writeBytes(data, width*height*4);
}
void SMsgWriter::writeSetVMwareCursorPositionRect(int hotspotX, int hotspotY)
{
if (!cp->supportsEncoding(pseudoEncodingVMwareCursorPosition))
throw Exception("Client does not support cursor position");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeSetVMwareCursorRect: nRects out of sync");
os->writeS16(hotspotX);
os->writeS16(hotspotY);
os->writeU16(0);
os->writeU16(0);
os->writeU32(pseudoEncodingVMwareCursorPosition);
}
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void SMsgWriter::writeLEDStateRect(rdr::U8 state)
{
if (!cp->supportsLEDState)
throw Exception("Client does not support LED state updates");
if (cp->ledState() == ledUnknown)
throw Exception("Server does not support LED state updates");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeLEDStateRect: nRects out of sync");
os->writeS16(0);
os->writeS16(0);
os->writeU16(0);
os->writeU16(0);
os->writeU32(pseudoEncodingLEDState);
os->writeU8(state);
}
void SMsgWriter::writeQEMUKeyEventRect()
{
if (!cp->supportsQEMUKeyEvent)
throw Exception("Client does not support QEMU extended key events");
if (++nRectsInUpdate > nRectsInHeader && nRectsInHeader)
throw Exception("SMsgWriter::writeQEMUKeyEventRect: nRects out of sync");
os->writeS16(0);
os->writeS16(0);
os->writeU16(0);
os->writeU16(0);
os->writeU32(pseudoEncodingQEMUKeyEvent);
}