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426 lines
10 KiB
426 lines
10 KiB
/*
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* Copyright (C) 2005 Johannes E. Schindelin. All Rights Reserved.
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*
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* This is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This software is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this software; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
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* USA.
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*/
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#ifdef LIBVNCSERVER_HAVE_LIBZ
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/*
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* zrle.c - handle zrle encoding.
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*
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* This file shouldn't be compiled directly. It is included multiple times by
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* rfbproto.c, each time with a different definition of the macro BPP. For
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* each value of BPP, this file defines a function which handles an zrle
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* encoded rectangle with BPP bits per pixel.
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*/
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#ifndef REALBPP
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#define REALBPP BPP
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#endif
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#if !defined(UNCOMP) || UNCOMP==0
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#define HandleZRLE CONCAT2E(HandleZRLE,REALBPP)
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#define HandleZRLETile CONCAT2E(HandleZRLETile,REALBPP)
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#elif UNCOMP>0
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#define HandleZRLE CONCAT3E(HandleZRLE,REALBPP,Down)
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#define HandleZRLETile CONCAT3E(HandleZRLETile,REALBPP,Down)
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#else
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#define HandleZRLE CONCAT3E(HandleZRLE,REALBPP,Up)
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#define HandleZRLETile CONCAT3E(HandleZRLETile,REALBPP,Up)
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#endif
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#define CARDBPP CONCAT3E(uint,BPP,_t)
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#define CARDREALBPP CONCAT3E(uint,REALBPP,_t)
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#define ENDIAN_LITTLE 0
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#define ENDIAN_BIG 1
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#define ENDIAN_NO 2
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#define ZYWRLE_ENDIAN ENDIAN_LITTLE
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#undef END_FIX
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#if ZYWRLE_ENDIAN == ENDIAN_LITTLE
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# define END_FIX LE
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#elif ZYWRLE_ENDIAN == ENDIAN_BIG
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# define END_FIX BE
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#else
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# define END_FIX NE
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#endif
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#define __RFB_CONCAT3E(a,b,c) CONCAT3E(a,b,c)
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#define __RFB_CONCAT2E(a,b) CONCAT2E(a,b)
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#undef CPIXEL
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#if REALBPP != BPP
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#if UNCOMP == 0
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#define CPIXEL REALBPP
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#elif UNCOMP>0
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#define CPIXEL CONCAT2E(REALBPP,Down)
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#else
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#define CPIXEL CONCAT2E(REALBPP,Up)
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#endif
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#endif
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#define PIXEL_T __RFB_CONCAT3E(uint,BPP,_t)
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#if BPP!=8
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#define ZYWRLE_DECODE 1
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#include "../libvncserver/zywrletemplate.c"
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#endif
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#undef CPIXEL
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static int HandleZRLETile(rfbClient* client,
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uint8_t* buffer,size_t buffer_length,
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int x,int y,int w,int h);
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static rfbBool
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HandleZRLE (rfbClient* client, int rx, int ry, int rw, int rh)
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{
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rfbZRLEHeader header;
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int remaining;
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int inflateResult;
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int toRead;
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int min_buffer_size = rw * rh * (REALBPP / 8) * 2;
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/* First make sure we have a large enough raw buffer to hold the
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* decompressed data. In practice, with a fixed REALBPP, fixed frame
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* buffer size and the first update containing the entire frame
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* buffer, this buffer allocation should only happen once, on the
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* first update.
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*/
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if ( client->raw_buffer_size < min_buffer_size) {
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if ( client->raw_buffer != NULL ) {
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free( client->raw_buffer );
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}
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client->raw_buffer_size = min_buffer_size;
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client->raw_buffer = (char*) malloc( client->raw_buffer_size );
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}
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if (!ReadFromRFBServer(client, (char *)&header, sz_rfbZRLEHeader))
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return FALSE;
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remaining = rfbClientSwap32IfLE(header.length);
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/* Need to initialize the decompressor state. */
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client->decompStream.next_in = ( Bytef * )client->buffer;
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client->decompStream.avail_in = 0;
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client->decompStream.next_out = ( Bytef * )client->raw_buffer;
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client->decompStream.avail_out = client->raw_buffer_size;
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client->decompStream.data_type = Z_BINARY;
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/* Initialize the decompression stream structures on the first invocation. */
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if ( client->decompStreamInited == FALSE ) {
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inflateResult = inflateInit( &client->decompStream );
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if ( inflateResult != Z_OK ) {
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rfbClientLog(
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"inflateInit returned error: %d, msg: %s\n",
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inflateResult,
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client->decompStream.msg);
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return FALSE;
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}
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client->decompStreamInited = TRUE;
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}
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inflateResult = Z_OK;
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/* Process buffer full of data until no more to process, or
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* some type of inflater error, or Z_STREAM_END.
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*/
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while (( remaining > 0 ) &&
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( inflateResult == Z_OK )) {
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if ( remaining > RFB_BUFFER_SIZE ) {
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toRead = RFB_BUFFER_SIZE;
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}
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else {
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toRead = remaining;
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}
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/* Fill the buffer, obtaining data from the server. */
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if (!ReadFromRFBServer(client, client->buffer,toRead))
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return FALSE;
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client->decompStream.next_in = ( Bytef * )client->buffer;
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client->decompStream.avail_in = toRead;
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/* Need to uncompress buffer full. */
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inflateResult = inflate( &client->decompStream, Z_SYNC_FLUSH );
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/* We never supply a dictionary for compression. */
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if ( inflateResult == Z_NEED_DICT ) {
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rfbClientLog("zlib inflate needs a dictionary!\n");
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return FALSE;
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}
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if ( inflateResult < 0 ) {
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rfbClientLog(
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"zlib inflate returned error: %d, msg: %s\n",
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inflateResult,
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client->decompStream.msg);
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return FALSE;
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}
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/* Result buffer allocated to be at least large enough. We should
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* never run out of space!
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*/
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if (( client->decompStream.avail_in > 0 ) &&
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( client->decompStream.avail_out <= 0 )) {
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rfbClientLog("zlib inflate ran out of space!\n");
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return FALSE;
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}
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remaining -= toRead;
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} /* while ( remaining > 0 ) */
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if ( inflateResult == Z_OK ) {
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void* buf=client->raw_buffer;
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int i,j;
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remaining = client->raw_buffer_size-client->decompStream.avail_out;
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for(j=0; j<rh; j+=rfbZRLETileHeight)
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for(i=0; i<rw; i+=rfbZRLETileWidth) {
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int subWidth=(i+rfbZRLETileWidth>rw)?rw-i:rfbZRLETileWidth;
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int subHeight=(j+rfbZRLETileHeight>rh)?rh-j:rfbZRLETileHeight;
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int result=HandleZRLETile(client,buf,remaining,rx+i,ry+j,subWidth,subHeight);
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if(result<0) {
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rfbClientLog("ZRLE decoding failed (%d)\n",result);
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return TRUE;
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return FALSE;
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}
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buf+=result;
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remaining-=result;
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}
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}
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else {
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rfbClientLog(
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"zlib inflate returned error: %d, msg: %s\n",
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inflateResult,
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client->decompStream.msg);
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return FALSE;
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}
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return TRUE;
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}
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#if REALBPP!=BPP && defined(UNCOMP) && UNCOMP!=0
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#if UNCOMP>0
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#define UncompressCPixel(pointer) ((*(CARDBPP*)pointer)>>UNCOMP)
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#else
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#define UncompressCPixel(pointer) ((*(CARDBPP*)pointer)<<(-(UNCOMP)))
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#endif
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#else
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#define UncompressCPixel(pointer) (*(CARDBPP*)pointer)
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#endif
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static int HandleZRLETile(rfbClient* client,
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uint8_t* buffer,size_t buffer_length,
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int x,int y,int w,int h) {
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uint8_t* buffer_copy = buffer;
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uint8_t* buffer_end = buffer+buffer_length;
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uint8_t type;
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uint8_t zywrle_level = (client->appData.qualityLevel & 0x80) ?
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0 : (3 - client->appData.qualityLevel / 3);
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if(buffer_length<1)
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return -2;
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type = *buffer;
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buffer++;
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{
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if( type == 0 ) /* raw */
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#if BPP!=8
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if( zywrle_level > 0 ){
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CARDBPP* pFrame = (CARDBPP*)client->frameBuffer + y*client->width+x;
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int ret;
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client->appData.qualityLevel |= 0x80;
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ret = HandleZRLETile(client, buffer, buffer_end-buffer, x, y, w, h);
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client->appData.qualityLevel &= 0x7F;
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if( ret < 0 ){
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return ret;
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}
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ZYWRLE_SYNTHESIZE( pFrame, pFrame, w, h, client->width, zywrle_level, (int*)client->zlib_buffer );
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buffer += ret;
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}else
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#endif
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{
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#if REALBPP!=BPP
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int i,j;
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if(1+w*h*REALBPP/8>buffer_length) {
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rfbClientLog("expected %d bytes, got only %d (%dx%d)\n",1+w*h*REALBPP/8,buffer_length,w,h);
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return -3;
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}
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for(j=y*client->width; j<(y+h)*client->width; j+=client->width)
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for(i=x; i<x+w; i++,buffer+=REALBPP/8)
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((CARDBPP*)client->frameBuffer)[j+i] = UncompressCPixel(buffer);
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#else
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CopyRectangle(client, buffer, x, y, w, h);
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buffer+=w*h*REALBPP/8;
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#endif
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}
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else if( type == 1 ) /* solid */
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{
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CARDBPP color = UncompressCPixel(buffer);
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if(1+REALBPP/8>buffer_length)
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return -4;
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FillRectangle(client, x, y, w, h, color);
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buffer+=REALBPP/8;
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}
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else if( (type >= 2)&&(type <= 127) ) /* packed Palette */
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{
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CARDBPP palette[16];
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int i,j,shift,
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bpp=(type>4?(type>16?8:4):(type>2?2:1)),
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mask=(1<<bpp)-1,
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divider=(8/bpp);
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if(1+type*REALBPP/8+((w+divider-1)/divider)*h>buffer_length)
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return -5;
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/* read palette */
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for(i=0; i<type; i++,buffer+=REALBPP/8)
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palette[i] = UncompressCPixel(buffer);
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/* read palettized pixels */
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for(j=y*client->width; j<(y+h)*client->width; j+=client->width) {
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for(i=x,shift=8-bpp; i<x+w; i++) {
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((CARDBPP*)client->frameBuffer)[j+i] = palette[((*buffer)>>shift)&mask];
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shift-=bpp;
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if(shift<0) {
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shift=8-bpp;
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buffer++;
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}
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}
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if(shift<8-bpp)
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buffer++;
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}
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}
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/* case 17 ... 127: not used, but valid */
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else if( type == 128 ) /* plain RLE */
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{
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int i=0,j=0;
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while(j<h) {
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int color,length;
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/* read color */
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if(buffer+REALBPP/8+1>buffer_end)
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return -7;
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color = UncompressCPixel(buffer);
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buffer+=REALBPP/8;
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/* read run length */
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length=1;
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while(*buffer==0xff) {
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if(buffer+1>=buffer_end)
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return -8;
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length+=*buffer;
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buffer++;
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}
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length+=*buffer;
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buffer++;
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while(j<h && length>0) {
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((CARDBPP*)client->frameBuffer)[(y+j)*client->width+x+i] = color;
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length--;
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i++;
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if(i>=w) {
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i=0;
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j++;
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}
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}
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if(length>0)
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rfbClientLog("Warning: possible ZRLE corruption\n");
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}
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}
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else if( type == 129 ) /* unused */
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{
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return -8;
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}
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else if( (type >= 130)&&(type <= 255) ) /* palette RLE */
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{
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CARDBPP palette[128];
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int i,j;
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if(2+(type-128)*REALBPP/8>buffer_length)
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return -9;
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/* read palette */
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for(i=0; i<type-128; i++,buffer+=REALBPP/8)
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palette[i] = UncompressCPixel(buffer);
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/* read palettized pixels */
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i=j=0;
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while(j<h) {
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int color,length;
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/* read color */
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if(buffer>=buffer_end)
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return -10;
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color = palette[(*buffer)&0x7f];
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length=1;
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if(*buffer&0x80) {
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if(buffer+1>=buffer_end)
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return -11;
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buffer++;
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/* read run length */
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while(*buffer==0xff) {
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if(buffer+1>=buffer_end)
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return -8;
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length+=*buffer;
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buffer++;
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}
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length+=*buffer;
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}
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buffer++;
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while(j<h && length>0) {
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((CARDBPP*)client->frameBuffer)[(y+j)*client->width+x+i] = color;
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length--;
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i++;
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if(i>=w) {
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i=0;
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j++;
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}
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}
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if(length>0)
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rfbClientLog("Warning: possible ZRLE corruption\n");
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}
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}
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}
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return buffer-buffer_copy;
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}
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#undef CARDBPP
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#undef CARDREALBPP
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#undef HandleZRLE
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#undef HandleZRLETile
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#undef UncompressCPixel
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#undef REALBPP
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#endif
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#undef UNCOMP
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