/* Copyright (C) 2002-2005 RealVNC Ltd. 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 #include #include #include #include #include #include #include using namespace rfb; CMsgReader::CMsgReader(CMsgHandler* handler_, rdr::InStream* is_) : imageBufIdealSize(0), handler(handler_), is(is_), nUpdateRectsLeft(0) { } CMsgReader::~CMsgReader() { } void CMsgReader::readServerInit() { int width = is->readU16(); int height = is->readU16(); PixelFormat pf; pf.read(is); CharArray name(is->readString()); handler->serverInit(width, height, pf, name.buf); } void CMsgReader::readMsg() { if (nUpdateRectsLeft == 0) { int type = is->readU8(); switch (type) { case msgTypeSetColourMapEntries: readSetColourMapEntries(); break; case msgTypeBell: readBell(); break; case msgTypeServerCutText: readServerCutText(); break; case msgTypeFramebufferUpdate: readFramebufferUpdate(); break; case msgTypeServerFence: readFence(); break; case msgTypeEndOfContinuousUpdates: readEndOfContinuousUpdates(); break; default: fprintf(stderr, "unknown message type %d\n", type); throw Exception("unknown message type"); } } else { int x = is->readU16(); int y = is->readU16(); int w = is->readU16(); int h = is->readU16(); int encoding = is->readS32(); switch (encoding) { case pseudoEncodingLastRect: nUpdateRectsLeft = 1; // this rectangle is the last one break; case pseudoEncodingXCursor: readSetXCursor(w, h, Point(x,y)); break; case pseudoEncodingCursor: readSetCursor(w, h, Point(x,y)); break; case pseudoEncodingCursorWithAlpha: readSetCursorWithAlpha(w, h, Point(x,y)); break; case pseudoEncodingDesktopName: readSetDesktopName(x, y, w, h); break; case pseudoEncodingDesktopSize: handler->setDesktopSize(w, h); break; case pseudoEncodingExtendedDesktopSize: readExtendedDesktopSize(x, y, w, h); break; case pseudoEncodingLEDState: readLEDState(); case pseudoEncodingQEMUKeyEvent: handler->supportsQEMUKeyEvent(); break; default: readRect(Rect(x, y, x+w, y+h), encoding); break; }; nUpdateRectsLeft--; if (nUpdateRectsLeft == 0) handler->framebufferUpdateEnd(); } } void CMsgReader::readSetColourMapEntries() { is->skip(1); int firstColour = is->readU16(); int nColours = is->readU16(); rdr::U16Array rgbs(nColours * 3); for (int i = 0; i < nColours * 3; i++) rgbs.buf[i] = is->readU16(); handler->setColourMapEntries(firstColour, nColours, rgbs.buf); } void CMsgReader::readBell() { handler->bell(); } void CMsgReader::readServerCutText() { is->skip(3); rdr::U32 len = is->readU32(); if (len > 256*1024) { is->skip(len); fprintf(stderr,"cut text too long (%d bytes) - ignoring\n",len); return; } CharArray ca(len+1); ca.buf[len] = 0; is->readBytes(ca.buf, len); handler->serverCutText(ca.buf, len); } void CMsgReader::readFence() { rdr::U32 flags; rdr::U8 len; char data[64]; is->skip(3); flags = is->readU32(); len = is->readU8(); if (len > sizeof(data)) { fprintf(stderr, "Ignoring fence with too large payload\n"); is->skip(len); return; } is->readBytes(data, len); handler->fence(flags, len, data); } void CMsgReader::readEndOfContinuousUpdates() { handler->endOfContinuousUpdates(); } void CMsgReader::readFramebufferUpdate() { is->skip(1); nUpdateRectsLeft = is->readU16(); handler->framebufferUpdateStart(); } void CMsgReader::readRect(const Rect& r, int encoding) { if ((r.br.x > handler->server.width()) || (r.br.y > handler->server.height())) { fprintf(stderr, "Rect too big: %dx%d at %d,%d exceeds %dx%d\n", r.width(), r.height(), r.tl.x, r.tl.y, handler->server.width(), handler->server.height()); throw Exception("Rect too big"); } if (r.is_empty()) fprintf(stderr, "Warning: zero size rect\n"); handler->dataRect(r, encoding); } void CMsgReader::readSetXCursor(int width, int height, const Point& hotspot) { if (width > maxCursorSize || height > maxCursorSize) throw Exception("Too big cursor"); rdr::U8Array rgba(width*height*4); if (width * height > 0) { rdr::U8 pr, pg, pb; rdr::U8 sr, sg, sb; int data_len = ((width+7)/8) * height; int mask_len = ((width+7)/8) * height; rdr::U8Array data(data_len); rdr::U8Array mask(mask_len); int x, y; rdr::U8* out; pr = is->readU8(); pg = is->readU8(); pb = is->readU8(); sr = is->readU8(); sg = is->readU8(); sb = is->readU8(); is->readBytes(data.buf, data_len); is->readBytes(mask.buf, mask_len); int maskBytesPerRow = (width+7)/8; out = rgba.buf; for (y = 0;y < height;y++) { for (x = 0;x < width;x++) { int byte = y * maskBytesPerRow + x / 8; int bit = 7 - x % 8; if (data.buf[byte] & (1 << bit)) { out[0] = pr; out[1] = pg; out[2] = pb; } else { out[0] = sr; out[1] = sg; out[2] = sb; } if (mask.buf[byte] & (1 << bit)) out[3] = 255; else out[3] = 0; out += 4; } } } handler->setCursor(width, height, hotspot, rgba.buf); } void CMsgReader::readSetCursor(int width, int height, const Point& hotspot) { if (width > maxCursorSize || height > maxCursorSize) throw Exception("Too big cursor"); int data_len = width * height * (handler->server.pf().bpp/8); int mask_len = ((width+7)/8) * height; rdr::U8Array data(data_len); rdr::U8Array mask(mask_len); int x, y; rdr::U8Array rgba(width*height*4); rdr::U8* in; rdr::U8* out; is->readBytes(data.buf, data_len); is->readBytes(mask.buf, mask_len); int maskBytesPerRow = (width+7)/8; in = data.buf; out = rgba.buf; for (y = 0;y < height;y++) { for (x = 0;x < width;x++) { int byte = y * maskBytesPerRow + x / 8; int bit = 7 - x % 8; handler->server.pf().rgbFromBuffer(out, in, 1); if (mask.buf[byte] & (1 << bit)) out[3] = 255; else out[3] = 0; in += handler->server.pf().bpp/8; out += 4; } } handler->setCursor(width, height, hotspot, rgba.buf); } void CMsgReader::readSetCursorWithAlpha(int width, int height, const Point& hotspot) { if (width > maxCursorSize || height > maxCursorSize) throw Exception("Too big cursor"); int encoding; const PixelFormat rgbaPF(32, 32, false, true, 255, 255, 255, 16, 8, 0); ManagedPixelBuffer pb(rgbaPF, width, height); PixelFormat origPF; rdr::U8* buf; int stride; encoding = is->readS32(); origPF = handler->server.pf(); handler->server.setPF(rgbaPF); handler->readAndDecodeRect(pb.getRect(), encoding, &pb); handler->server.setPF(origPF); // On-wire data has pre-multiplied alpha, but we store it // non-pre-multiplied buf = pb.getBufferRW(pb.getRect(), &stride); assert(stride == width); for (int i = 0;i < pb.area();i++) { rdr::U8 alpha; alpha = buf[3]; if (alpha == 0) alpha = 1; // Avoid division by zero buf[0] = (unsigned)buf[0] * 255/alpha; buf[1] = (unsigned)buf[1] * 255/alpha; buf[2] = (unsigned)buf[2] * 255/alpha; buf += 4; } pb.commitBufferRW(pb.getRect()); handler->setCursor(width, height, hotspot, pb.getBuffer(pb.getRect(), &stride)); } void CMsgReader::readSetDesktopName(int x, int y, int w, int h) { char* name = is->readString(); if (x || y || w || h) { fprintf(stderr, "Ignoring DesktopName rect with non-zero position/size\n"); } else { handler->setName(name); } delete [] name; } void CMsgReader::readExtendedDesktopSize(int x, int y, int w, int h) { unsigned int screens, i; rdr::U32 id, flags; int sx, sy, sw, sh; ScreenSet layout; screens = is->readU8(); is->skip(3); for (i = 0;i < screens;i++) { id = is->readU32(); sx = is->readU16(); sy = is->readU16(); sw = is->readU16(); sh = is->readU16(); flags = is->readU32(); layout.add_screen(Screen(id, sx, sy, sw, sh, flags)); } handler->setExtendedDesktopSize(x, y, w, h, layout); } void CMsgReader::readLEDState() { rdr::U8 state; state = is->readU8(); handler->setLEDState(state); }