/* $XdotOrg: options.c,v 1.4 2001/02/09 02:05:31 xorgcvs Exp $ */ /* $Xorg: options.c,v 1.4 2001/02/09 02:05:31 xorgcvs Exp $ */ /* Copyright 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* * Copyright 1994 Network Computing Devices, Inc. * * Permission to use, copy, modify, distribute, and sell this software and * its documentation for any purpose is hereby granted without fee, provided * that the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name Network Computing Devices, Inc. not be * used in advertising or publicity pertaining to distribution of this * software without specific, written prior permission. * * THIS SOFTWARE IS PROVIDED `AS-IS'. NETWORK COMPUTING DEVICES, INC., * DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING WITHOUT * LIMITATION ALL IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE, OR NONINFRINGEMENT. IN NO EVENT SHALL NETWORK * COMPUTING DEVICES, INC., BE LIABLE FOR ANY DAMAGES WHATSOEVER, INCLUDING * SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES, INCLUDING LOSS OF USE, DATA, * OR PROFITS, EVEN IF ADVISED OF THE POSSIBILITY THEREOF, AND REGARDLESS OF * WHETHER IN AN ACTION IN CONTRACT, TORT OR NEGLIGENCE, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ /* $XFree86: xc/programs/lbxproxy/di/options.c,v 1.8 2003/09/13 21:33:10 dawes Exp $ */ #include #include #include "misc.h" #include #include #include "proxyopts.h" #include #include "util.h" #include "colormap.h" #ifndef NO_ZLIB #include #endif /* NO_ZLIB */ #include "wire.h" static int LbxDeltaReply(); static int LbxProxyDeltaReq(); static int LbxServerDeltaReq(); static int LbxStreamCompReq(); static int LbxBitmapCompReq(); static int LbxPixmapCompReq(); static int LbxSquishReq(); static int LbxUseTagsReq(); static int LbxCmapAllReq(); static int LbxProxyDeltaReply(); static int LbxServerDeltaReply(); static int LbxStreamCompReply(); static int LbxBitmapCompReply(); static int LbxPixmapCompReply(); static int LbxSquishReply(); static int LbxUseTagsReply(); static int LbxCmapAllReply(); static int OptZlibReq(); static int OptZlibReply(); #define OPT_INDEX_STREAM_COMP 2 /* * Local variables that get set when the command line options * are parsed. */ static Bool called_LbxNoComp; static Bool called_LbxNoDelta; static void InitializeOptionsList (server, idx, optcode, negotiate, req, reply) XServerPtr server; int idx; CARD8 optcode; Bool negotiate; int (*req)(); int (*reply)(); { server->LbxOptions[idx].optcode = optcode; server->LbxOptions[idx].negotiate = negotiate; server->LbxOptions[idx].req = req; server->LbxOptions[idx].reply = reply; } static void InitializeDeltaOptions (server) XServerPtr server; { server->proxyDeltaOpt.minN = 0; server->proxyDeltaOpt.maxN = 0xff; server->proxyDeltaOpt.prefN = LBX_OPT_DELTA_NCACHE_DFLT; server->proxyDeltaOpt.minMaxMsgLen = LBX_OPT_DELTA_MSGLEN_MIN >> 2; server->proxyDeltaOpt.maxMaxMsgLen = 0xff; server->proxyDeltaOpt.prefMaxMsgLen = LBX_OPT_DELTA_MSGLEN_DFLT >> 2; server->serverDeltaOpt.minN = 0; server->serverDeltaOpt.maxN = 0xff; server->serverDeltaOpt.prefN = LBX_OPT_DELTA_NCACHE_DFLT; server->serverDeltaOpt.minMaxMsgLen = LBX_OPT_DELTA_MSGLEN_MIN >> 2; server->serverDeltaOpt.maxMaxMsgLen = 0xff; server->serverDeltaOpt.prefMaxMsgLen = LBX_OPT_DELTA_MSGLEN_DFLT >> 2; } static void InitializeStreamComp (server) XServerPtr server; { server->LbxStreamComp[0].typelen = ZLIB_STRCOMP_OPT_LEN; server->LbxStreamComp[0].type = ZLIB_STRCOMP_OPT; server->LbxStreamComp[0].req = OptZlibReq; server->LbxStreamComp[0].reply = OptZlibReply; } static void InitializeBitmapCompMethod (server) XServerPtr server; { /* compression method name */ server->LbxBitmapCompMethods[0].methodName = "XC-FaxG42D"; /* inited */ server->LbxBitmapCompMethods[0].inited = 0; /* method opcode - to be filled on reply */ server->LbxBitmapCompMethods[0].methodOpCode= -1; /* init function */ server->LbxBitmapCompMethods[0].compInit = NULL; /* encode function */ server->LbxBitmapCompMethods[0].compFunc = LbxImageEncodeFaxG42D; /* decode function */ server->LbxBitmapCompMethods[0].decompFunc = LbxImageDecodeFaxG42D; } /*ARGSUSED*/ static void InitializePixmapCompMethod (server) XServerPtr server; { /* * Currently, we don't support any pixmap compression algorithms * because regular stream compression does much better than PackBits. * If we want to plug in a better pixmap image compression algorithm, * it would go here. */ #define NUM_PIXMAP_METHODS 0 } static void InitializeCmpaAllMethods (server) XServerPtr server; { /* colormap allocation method name */ server->LbxCmapAllMethods[0].methodName = "XC-CMAP"; /* rgb resolver */ server->LbxCmapAllMethods[0].resolver = ResolveColor; /* allocator */ server->LbxCmapAllMethods[0].findfree = FindFreePixel; /* matcher */ server->LbxCmapAllMethods[0].findbest = FindBestPixel; } void LbxOptInit(server) XServerPtr server; { bzero((char *)&server->lbxNegOpt, sizeof(LbxNegOptsRec)); server->lbxNegOpt.proxyDeltaN = LBX_OPT_DELTA_NCACHE_DFLT; server->lbxNegOpt.proxyDeltaMaxLen = LBX_OPT_DELTA_MSGLEN_DFLT; server->lbxNegOpt.serverDeltaN = LBX_OPT_DELTA_NCACHE_DFLT; server->lbxNegOpt.serverDeltaMaxLen = LBX_OPT_DELTA_MSGLEN_DFLT; server->lbxNegOpt.numBitmapCompMethods = 0; server->lbxNegOpt.bitmapCompMethods = NULL; server->lbxNegOpt.numPixmapCompMethods = 0; server->lbxNegOpt.pixmapCompMethods = NULL; server->lbxNegOpt.squish = TRUE; server->lbxNegOpt.useTags = TRUE; /* * Fill in the server's LbxOptions array. */ InitializeOptionsList (server, 0, LBX_OPT_DELTA_PROXY, TRUE, LbxProxyDeltaReq, LbxProxyDeltaReply); InitializeOptionsList (server, 1, LBX_OPT_DELTA_SERVER, TRUE, LbxServerDeltaReq, LbxServerDeltaReply); InitializeOptionsList (server, 2, LBX_OPT_STREAM_COMP, TRUE, LbxStreamCompReq, LbxStreamCompReply); InitializeOptionsList (server, 3, LBX_OPT_BITMAP_COMP, TRUE, LbxBitmapCompReq, LbxBitmapCompReply); InitializeOptionsList (server, 4, LBX_OPT_PIXMAP_COMP, TRUE, LbxPixmapCompReq, LbxPixmapCompReply); InitializeOptionsList (server, 5, LBX_OPT_MSG_COMP, TRUE, LbxSquishReq, LbxSquishReply); InitializeOptionsList (server, 6, LBX_OPT_USE_TAGS, TRUE, LbxUseTagsReq, LbxUseTagsReply); InitializeOptionsList (server, 7, LBX_OPT_CMAP_ALL, TRUE, LbxCmapAllReq, LbxCmapAllReply); InitializeDeltaOptions (server); InitializeStreamComp (server); InitializeBitmapCompMethod (server); InitializePixmapCompMethod (server); InitializeCmpaAllMethods (server); /* * Now update this server's LbxOptions that were set when * command line was parsed. */ if (called_LbxNoComp) server->LbxOptions[OPT_INDEX_STREAM_COMP].negotiate = FALSE; if (called_LbxNoDelta) { server->proxyDeltaOpt.prefN = 0; server->serverDeltaOpt.prefN = 0; } } int LbxOptBuildReq(server, buf) XServerPtr server; register char *buf; { int i; char *bufstart = buf; char *pnopts = buf++; server->optcount = 0; for (i = 0; i < (sizeof(server->LbxOptions) / sizeof (LbxOptionsListRec)); i++) { int reqlen; if (server->LbxOptions[i].negotiate) { reqlen = (*server->LbxOptions[i].req) (server, buf + LBX_OPT_SMALLHDR_LEN); *buf++ = server->LbxOptions[i].optcode; *buf++ = LBX_OPT_SMALLHDR_LEN + reqlen; buf += reqlen; server->optlist[server->optcount++] = i; } } *pnopts = server->optcount; return (buf - bufstart); } int LbxOptParseReply(server, nopts, preply, replylen) XServerPtr server; int nopts; unsigned char *preply; int replylen; { int i; for (i = 0; i < nopts; i++) { int len; int hdrlen; int result; int optindex = *preply; if (optindex >= server->optcount) return -1; LBX_OPT_DECODE_LEN(preply + 1, len, hdrlen); if (len < ++hdrlen || len > replylen) { #ifdef OPTDEBUG fprintf(stderr, "bad length, len = %d, hdrlen = %d, optlen = %d\n", len, hdrlen, replylen); #endif return -1; } result = (*server->LbxOptions[server->optlist[optindex]].reply) (server, preply + hdrlen, len - hdrlen); if (result < 0) return -1; preply += len; replylen -= len; } return 0; } void LbxNoDelta() { /* * All we can do now is to flag that this was called * since the associated server structure may not be * initialized. */ called_LbxNoDelta = TRUE; } static int LbxProxyDeltaReq(server, buf) XServerPtr server; unsigned char *buf; { memcpy(buf, (char *)&server->proxyDeltaOpt, sizeof(LbxDeltaOptionsRec)); return LBX_OPT_DELTA_REQLEN; } static int LbxServerDeltaReq(server, buf) XServerPtr server; unsigned char *buf; { memcpy(buf, (char *)&server->serverDeltaOpt, sizeof(LbxDeltaOptionsRec)); return LBX_OPT_DELTA_REQLEN; } static int LbxProxyDeltaReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { return LbxDeltaReply(preply, replylen, &server->lbxNegOpt.proxyDeltaN, &server->lbxNegOpt.proxyDeltaMaxLen); } static int LbxServerDeltaReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { return LbxDeltaReply(preply, replylen, &server->lbxNegOpt.serverDeltaN, &server->lbxNegOpt.serverDeltaMaxLen); } static int LbxDeltaReply(preply, replylen, pn, pmaxlen) unsigned char *preply; int replylen; short *pn; short *pmaxlen; { if (replylen < 2) return -1; *pn = *preply++; *pmaxlen = *preply; if ((*pmaxlen <<= 2) == 0) *pn = 0; else if (*pmaxlen < 32) { #ifdef DEBUG printf("bad delta max msg length %d\n", *pmaxlen); #endif return -1; } return 0; } void LbxNoComp() { /* * All we can do now is to flag that this was called * since the associated server structure may not be * initialized. */ called_LbxNoComp = TRUE; } static int LbxStreamCompReq(server, buf) XServerPtr server; unsigned char *buf; { int i; int reqlen; int LBX_N_STRCOMP; LBX_N_STRCOMP = sizeof (server->LbxStreamComp) / sizeof (LbxStreamCompRec); *buf++ = LBX_N_STRCOMP; reqlen = 1; for (i = 0; i < LBX_N_STRCOMP; i++) { int optdatalen; int typelen = server->LbxStreamComp[i].typelen; *buf++ = typelen; memcpy(buf, server->LbxStreamComp[i].type, typelen); buf += typelen; reqlen += 1 + typelen; optdatalen = (*server->LbxStreamComp[i].req) (server, buf + 1); *buf = optdatalen + 1; buf += optdatalen + 1; reqlen += optdatalen + 1; } return reqlen; } static int LbxStreamCompReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { int optindex; int LBX_N_STRCOMP; LBX_N_STRCOMP = sizeof(server->LbxStreamComp) / sizeof (LbxStreamCompRec); if (replylen < 1 || (optindex = *preply) >= LBX_N_STRCOMP) return -1; return (*server->LbxStreamComp[optindex].reply) (server, preply + 1, replylen - 1); } extern int zlevel; /*ARGSUSED*/ static int OptZlibReq(server, buf) XServerPtr server; unsigned char *buf; { *buf++ = 1; /* len */ *buf = zlevel; return (2); } /*ARGSUSED*/ static int OptZlibReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { server->lbxNegOpt.streamOpts.streamCompInit = (LbxStreamCompHandle (*)(int, pointer))ZlibInit; server->lbxNegOpt.streamOpts.streamCompArg = (pointer)(long) zlevel; server->lbxNegOpt.streamOpts.streamCompStuffInput = ZlibStuffInput; server->lbxNegOpt.streamOpts.streamCompInputAvail = ZlibInputAvail; server->lbxNegOpt.streamOpts.streamCompFlush = ZlibFlush; server->lbxNegOpt.streamOpts.streamCompRead = ZlibRead; server->lbxNegOpt.streamOpts.streamCompWriteV = ZlibWriteV; server->lbxNegOpt.streamOpts.streamCompOn = ZlibCompressOn; server->lbxNegOpt.streamOpts.streamCompOff = ZlibCompressOff; server->lbxNegOpt.streamOpts.streamCompFreeHandle = (void (*)(LbxStreamCompHandle))ZlibFree; return 0; } Bool lbxDoSquishing = TRUE; /*ARGSUSED*/ static int LbxSquishReq(server, buf) XServerPtr server; unsigned char *buf; { *buf = lbxDoSquishing; return 1; } static int LbxSquishReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { if (replylen < 1) return -1; server->lbxNegOpt.squish = *preply; return 0; } Bool lbxUseTags = TRUE; /*ARGSUSED*/ static int LbxUseTagsReq(server, buf) XServerPtr server; unsigned char *buf; { *buf = lbxUseTags; return 1; } static int LbxUseTagsReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { if (replylen < 1) return -1; server->lbxNegOpt.useTags = *preply; return 0; } /* * Option negotiation for image compression */ static int LbxBitmapCompReq (server, buf) XServerPtr server; unsigned char *buf; { unsigned char *bufStart = buf; int i; int NUM_BITMAP_METHODS; NUM_BITMAP_METHODS = sizeof(server->LbxBitmapCompMethods) / sizeof (LbxBitmapCompMethod); *buf++ = NUM_BITMAP_METHODS; for (i = 0; i < NUM_BITMAP_METHODS; i++) { int len = strlen (server->LbxBitmapCompMethods[i].methodName); *buf++ = len; memcpy (buf, server->LbxBitmapCompMethods[i].methodName, len); buf += len; } return (buf - bufStart); } /*ARGSUSED*/ static int LbxBitmapCompReply (server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { int count = *preply++; int i; server->lbxNegOpt.numBitmapCompMethods = count; if (count > 0) { server->lbxNegOpt.bitmapCompMethods = (char *) xalloc (count); if (server->lbxNegOpt.bitmapCompMethods == NULL) { server->lbxNegOpt.numBitmapCompMethods = 0; return -1; } } for (i = 0; i < count; i++) { int index = *preply++; server->lbxNegOpt.bitmapCompMethods[i] = index; server->LbxBitmapCompMethods[index].methodOpCode = *preply++; } return 0; } static int LbxPixmapCompReq (server, buf) XServerPtr server; unsigned char *buf; { unsigned char *bufStart = buf; int i, j; *buf++ = NUM_PIXMAP_METHODS; for (i = 0; i < NUM_PIXMAP_METHODS; i++) { int len = strlen (server->LbxPixmapCompMethods[i].methodName); *buf++ = len; memcpy (buf, server->LbxPixmapCompMethods[i].methodName, len); buf += len; *buf++ = server->LbxPixmapCompMethods[i].formatMask; *buf++ = server->LbxPixmapCompMethods[i].depthCount; for (j = 0; j < server->LbxPixmapCompMethods[i].depthCount; j++) *buf++ = server->LbxPixmapCompMethods[i].depths[j]; } return (buf - bufStart); } /*ARGSUSED*/ static int LbxPixmapCompReply (server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { int count = *preply++; int i, j; server->lbxNegOpt.numPixmapCompMethods = count; if (count > 0) { server->lbxNegOpt.pixmapCompMethods = (char *) xalloc (count); if (server->lbxNegOpt.pixmapCompMethods == NULL) { server->lbxNegOpt.numPixmapCompMethods = 0; return -1; } } for (i = 0; i < count; i++) { int index = *preply++; server->lbxNegOpt.pixmapCompMethods[i] = index; server->LbxPixmapCompMethods[index].methodOpCode = *preply++; server->LbxPixmapCompMethods[index].formatMask = *preply++; server->LbxPixmapCompMethods[index].depthCount = *preply++; for (j = 0; j < server->LbxPixmapCompMethods[index].depthCount; j++) server->LbxPixmapCompMethods[index].depths[j] = *preply++; } return 0; } LbxBitmapCompMethod * LbxLookupBitmapCompMethod (server, methodOpCode) XServerPtr server; int methodOpCode; { int i; for (i = 0; i < server->lbxNegOpt.numBitmapCompMethods; i++) { LbxBitmapCompMethod *method; method = &server->LbxBitmapCompMethods[(int)(server->lbxNegOpt.bitmapCompMethods[i])]; if (method->methodOpCode == methodOpCode) return (method); } return (NULL); } LbxPixmapCompMethod * LbxLookupPixmapCompMethod (server, methodOpCode) XServerPtr server; int methodOpCode; { int i; for (i = 0; i < server->lbxNegOpt.numPixmapCompMethods; i++) { LbxPixmapCompMethod *method; method = &server->LbxPixmapCompMethods[(int)(server->lbxNegOpt.pixmapCompMethods[i])]; if (method->methodOpCode == methodOpCode) return (method); } return (NULL); } LbxBitmapCompMethod * LbxFindPreferredBitmapCompMethod (server) XServerPtr server; { if (server->lbxNegOpt.numBitmapCompMethods == 0) return NULL; else return (&server->LbxBitmapCompMethods[(int)(server->lbxNegOpt.bitmapCompMethods[0])]); } LbxPixmapCompMethod * LbxFindPreferredPixmapCompMethod (server, format, depth) XServerPtr server; int format; int depth; { if (server->lbxNegOpt.numPixmapCompMethods == 0) return NULL; else { LbxPixmapCompMethod *method; int i, j; for (i = 0; i < server->lbxNegOpt.numPixmapCompMethods; i++) { method = &server->LbxPixmapCompMethods[(int)(server->lbxNegOpt.pixmapCompMethods[i])]; if ((method->formatMask & (1 << format))) { for (j = 0; j < method->depthCount; j++) if (depth == method->depths[j]) return method; } } return NULL; } } /* * Colormap methods */ static int LbxCmapAllReq (server, buf) XServerPtr server; unsigned char *buf; { unsigned char *bufStart = buf; int i; int NUM_CMAP_METHODS; NUM_CMAP_METHODS = sizeof (server->LbxCmapAllMethods) / sizeof (LbxCmapAllMethod); *buf++ = NUM_CMAP_METHODS; for (i = 0; i < NUM_CMAP_METHODS; i++) { int len = strlen (server->LbxCmapAllMethods[i].methodName); *buf++ = len; memcpy (buf, server->LbxCmapAllMethods[i].methodName, len); buf += len; } return (buf - bufStart); } static int LbxCmapAllReply(server, preply, replylen) XServerPtr server; unsigned char *preply; int replylen; { int NUM_CMAP_METHODS; NUM_CMAP_METHODS = sizeof (server->LbxCmapAllMethods) / sizeof (LbxCmapAllMethod); if (replylen < 1) return -1; if (*preply < NUM_CMAP_METHODS) { LbxResolveColor = server->LbxCmapAllMethods[*preply].resolver; LbxFindFreePixel = server->LbxCmapAllMethods[*preply].findfree; LbxFindBestPixel = server->LbxCmapAllMethods[*preply].findbest; } return 0; }