/* Copyright (C) 2002-2005 RealVNC Ltd. All Rights Reserved. * Copyright 2009-2022 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. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include using namespace rfb; static inline uint32_t readOpaque24A(rdr::InStream* is) { uint32_t r=0; ((uint8_t*)&r)[0] = is->readU8(); ((uint8_t*)&r)[1] = is->readU8(); ((uint8_t*)&r)[2] = is->readU8(); return r; } static inline uint32_t readOpaque24B(rdr::InStream* is) { uint32_t r=0; ((uint8_t*)&r)[1] = is->readU8(); ((uint8_t*)&r)[2] = is->readU8(); ((uint8_t*)&r)[3] = is->readU8(); return r; } template static inline T readPixel(rdr::ZlibInStream* zis) { if (sizeof(T) == 1) return zis->readOpaque8(); if (sizeof(T) == 2) return zis->readOpaque16(); if (sizeof(T) == 4) return zis->readOpaque32(); } static inline void zlibHasData(rdr::ZlibInStream* zis, size_t length) { if (!zis->hasData(length)) throw Exception("ZRLE decode error"); } ZRLEDecoder::ZRLEDecoder() : Decoder(DecoderOrdered) { } ZRLEDecoder::~ZRLEDecoder() { } bool ZRLEDecoder::readRect(const Rect& /*r*/, rdr::InStream* is, const ServerParams& /*server*/, rdr::OutStream* os) { uint32_t len; if (!is->hasData(4)) return false; is->setRestorePoint(); len = is->readU32(); os->writeU32(len); if (!is->hasDataOrRestore(len)) return false; is->clearRestorePoint(); os->copyBytes(is, len); return true; } void ZRLEDecoder::decodeRect(const Rect& r, const uint8_t* buffer, size_t buflen, const ServerParams& server, ModifiablePixelBuffer* pb) { rdr::MemInStream is(buffer, buflen); const rfb::PixelFormat& pf = server.pf(); switch (pf.bpp) { case 8: zrleDecode(r, &is, &zis, pf, pb); break; case 16: zrleDecode(r, &is, &zis, pf, pb); break; case 32: zrleDecode(r, &is, &zis, pf, pb); break; } } template void ZRLEDecoder::zrleDecode(const Rect& r, rdr::InStream* is, rdr::ZlibInStream* zis, const PixelFormat& pf, ModifiablePixelBuffer* pb) { int length = is->readU32(); zis->setUnderlying(is, length); Rect t; T buf[64 * 64]; Pixel maxPixel = pf.pixelFromRGB((uint16_t)-1, (uint16_t)-1, (uint16_t)-1); bool fitsInLS3Bytes = maxPixel < (1<<24); bool fitsInMS3Bytes = (maxPixel & 0xff) == 0; bool isLowCPixel = (sizeof(T) == 4) && ((fitsInLS3Bytes && pf.isLittleEndian()) || (fitsInMS3Bytes && pf.isBigEndian())); bool isHighCPixel = (sizeof(T) == 4) && ((fitsInLS3Bytes && pf.isBigEndian()) || (fitsInMS3Bytes && pf.isLittleEndian())); for (t.tl.y = r.tl.y; t.tl.y < r.br.y; t.tl.y += 64) { t.br.y = __rfbmin(r.br.y, t.tl.y + 64); for (t.tl.x = r.tl.x; t.tl.x < r.br.x; t.tl.x += 64) { t.br.x = __rfbmin(r.br.x, t.tl.x + 64); zlibHasData(zis, 1); int mode = zis->readU8(); bool rle = mode & 128; int palSize = mode & 127; T palette[128]; if (isLowCPixel || isHighCPixel) zlibHasData(zis, 3 * palSize); else zlibHasData(zis, sizeof(T) * palSize); for (int i = 0; i < palSize; i++) { if (isLowCPixel) palette[i] = readOpaque24A(zis); else if (isHighCPixel) palette[i] = readOpaque24B(zis); else palette[i] = readPixel(zis); } if (palSize == 1) { T pix = palette[0]; pb->fillRect(pf, t, &pix); continue; } if (!rle) { if (palSize == 0) { // raw if (isLowCPixel || isHighCPixel) zlibHasData(zis, 3 * t.area()); else zlibHasData(zis, sizeof(T) * t.area()); if (isLowCPixel || isHighCPixel) { for (T* ptr = buf; ptr < buf+t.area(); ptr++) { if (isLowCPixel) *ptr = readOpaque24A(zis); else *ptr = readOpaque24B(zis); } } else { zis->readBytes((uint8_t*)buf, t.area() * sizeof(T)); } } else { // packed pixels int bppp = ((palSize > 16) ? 8 : ((palSize > 4) ? 4 : ((palSize > 2) ? 2 : 1))); T* ptr = buf; for (int i = 0; i < t.height(); i++) { T* eol = ptr + t.width(); uint8_t byte = 0; uint8_t nbits = 0; while (ptr < eol) { if (nbits == 0) { zlibHasData(zis, 1); byte = zis->readU8(); nbits = 8; } nbits -= bppp; uint8_t index = (byte >> nbits) & ((1 << bppp) - 1) & 127; *ptr++ = palette[index]; } } } } else { if (palSize == 0) { // plain RLE T* ptr = buf; T* end = ptr + t.area(); while (ptr < end) { T pix; if (isLowCPixel || isHighCPixel) zlibHasData(zis, 3); else zlibHasData(zis, sizeof(T)); if (isLowCPixel) pix = readOpaque24A(zis); else if (isHighCPixel) pix = readOpaque24B(zis); else pix = readPixel(zis); int len = 1; int b; do { zlibHasData(zis, 1); b = zis->readU8(); len += b; } while (b == 255); if (end - ptr < len) { throw Exception ("ZRLE decode error"); } while (len-- > 0) *ptr++ = pix; } } else { // palette RLE T* ptr = buf; T* end = ptr + t.area(); while (ptr < end) { zlibHasData(zis, 1); int index = zis->readU8(); int len = 1; if (index & 128) { int b; do { zlibHasData(zis, 1); b = zis->readU8(); len += b; } while (b == 255); if (end - ptr < len) { throw Exception ("ZRLE decode error"); } } index &= 127; T pix = palette[index]; while (len-- > 0) *ptr++ = pix; } } } pb->imageRect(pf, t, buf); } } zis->flushUnderlying(); zis->setUnderlying(NULL, 0); }