/* $Xorg: gfx.c,v 1.3 2000/08/17 19:53:55 cpqbld Exp $ */ /* Copyright 1998 The Open Group All Rights Reserved. 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. * */ /* * graphics acceleration */ #include #include "assert.h" #include "misc.h" #include "lbx.h" #include "util.h" #include "resource.h" #include "wire.h" #include "lbximage.h" #include "proxyopts.h" #include "swap.h" static Bool GetLbxImageReply(); static int pad[4] = {0, 3, 2, 1}; /* * Routines for re-encoding line, rectangle and arc requests */ #define REENCODE_PSHORT(val, out) \ if ((val) >= 0 && (val) < 0xf0) \ *(out)++ = (val); \ else if ((val) >= 0xef0 || (val) < (short)0xfe00) \ return 0; \ else if ((val) < 0) { \ *(out)++ = 0xf0 | (((val) + 0x1000) >> 8); \ *(out)++ = (val) + 0x1000; \ } else { \ *(out)++ = 0xf0 | (((val) - 0xf0) >> 8); \ *(out)++ = (val) - 0xf0; \ } #define REENCODE_SHORT(val, out) \ if ((val) >= (short)0xff90 && (val) < 0x80) \ *(out)++ = (val); \ else if ((val) >= (short)0x0880 || (val) < (short)0xf790) \ return 0; \ else if ((val) < 0) { \ *(out)++ = 0x80 | ((((val) + 0x70) >> 8) & 0x0f); \ *(out)++ = (val) + 0x70; \ } else { \ *(out)++ = 0x80 | ((((val) - 0x80) >> 8) & 0x0f); \ *(out)++ = (val) - 0x80; \ } #define REENCODE_USHORT(val, out) \ if ((val) < 0xf0) \ *(out)++ = (val); \ else if ((unsigned short)(val) >= 0x10f0) \ return 0; \ else { \ *(out)++ = 0xf0 | (((val) - 0xf0) >> 8); \ *(out)++ = (val) - 0xf0; \ } #define REENCODE_ANGLE(val, out) \ if ((val) > (360 << 6) || (val) < -(360 << 6)) \ return 0; \ else if ((val) >= 0 && (val) <= (95 << 6) && !((val) % (5 << 6))) \ *(out)++ = 0x5a + ((val) / (5 << 6)); \ else if ((val) >= (105 << 6) && !((val) % (15 << 6))) \ *(out)++ = 0x67 + ((val) / (15 << 6)); \ else if ((val) >= -(100 << 6) && (val) <= -(5 << 6) && \ !((val) % (5 << 6))) \ *(out)++ = 0xa6 + ((val) / (5 << 6)); \ else if ((val) <= -(105 << 6) && !((val) % (15 << 6))) \ *(out)++ = 0x98 + ((val) / (15 << 6)); \ else { \ *(out)++ = (val) >> 8; \ *(out)++ = (val); \ } #define COPY_AND_SWAPS(oval, ival) \ { \ register int n; \ (oval) = (ival); \ if (client->swapped) \ swaps(&(oval), n); \ } #define SWAP_REENCODE_PSHORT(ival, out) { \ register int _n; \ short _val; \ _val = (ival); \ if (client->swapped) swaps (&_val, _n); \ REENCODE_PSHORT(_val, out); \ } #define SWAP_REENCODE_SHORT(ival, out) { \ register int _n; \ short _val; \ _val = (ival); \ if (client->swapped) swaps (&_val, _n); \ REENCODE_SHORT(_val, out); \ } #define SWAP_REENCODE_USHORT(ival, out) { \ register int _n; \ unsigned short _val; \ _val = (ival); \ if (client->swapped) swaps (&_val, _n); \ REENCODE_USHORT(_val, out); \ } int gfx_gc_hit; int gfx_gc_miss; int gfx_draw_hit; int gfx_draw_miss; int gfx_total; static void push(cache, xid) XID cache[GFX_CACHE_SIZE]; XID xid; { memmove(cache + 1, cache, (GFX_CACHE_SIZE - 1) * sizeof(cache[0])); cache[0] = xid; } static void use(cache, i) XID cache[GFX_CACHE_SIZE]; int i; { XID tmp; if (i == 0) return; tmp = cache[i]; memmove(cache + 1, cache, i * sizeof(cache[0])); cache[0] = tmp; } static int match(cache, xid) XID cache[GFX_CACHE_SIZE]; XID xid; { int j; for (j = 0; j < GFX_CACHE_SIZE; j++) if (cache[j] == xid) return j; return GFXCacheNone; } #define GFX_REQ_PAD 8 #define GFX_SRC_DST_REQ_PAD 12 #define GFX_CACHE_DECLARE int _dcache, _gcache; \ Drawable _drawable; \ GContext _gcontext #define GFX_SRC_DST_CACHE_DECLARE int _srcDcache, _dstDcache, _gcache; \ Drawable _srcDrawable, _dstDrawable; \ GContext _gcontext #define GFX_SETUP_DRAWABLE_AND_GC(after) {\ _drawable = stuff->drawable; \ _gcontext = stuff->gc; \ if (client->swapped) { \ register int _n; \ swapl(&_drawable, _n); \ swapl(&_gcontext, _n); \ } \ _dcache = match (LBXDrawableCache(client), _drawable); \ if (_dcache == GFXCacheNone) \ { \ memcpy (after, &stuff->drawable, 4); \ after += 4; \ } \ _gcache = match (LBXGContextCache(client), _gcontext); \ if (_gcache == GFXCacheNone) \ { \ memcpy (after, &stuff->gc, 4); \ after += 4; \ } \ } #define GFX_SETUP_SRC_DST_DRAWABLE_AND_GC(after) {\ Drawable tmpDrawableCache[GFX_CACHE_SIZE]; \ memcpy (tmpDrawableCache, LBXDrawableCache(client), sizeof (LBXDrawableCache(client))); \ _srcDrawable = stuff->srcDrawable; \ _dstDrawable = stuff->dstDrawable; \ _gcontext = stuff->gc; \ if (client->swapped) { \ register int _n; \ swapl (&_srcDrawable, _n); \ swapl (&_dstDrawable, _n); \ swapl (&_gcontext, _n); \ } \ _srcDcache = match (LBXDrawableCache(client), _srcDrawable); \ if (_srcDcache == GFXCacheNone) \ { \ memcpy (after, &stuff->srcDrawable, 4); \ after += 4; \ push (tmpDrawableCache, _srcDrawable); \ } else \ use (tmpDrawableCache, _srcDcache); \ _dstDcache = match (tmpDrawableCache, _dstDrawable); \ if (_dstDcache == GFXCacheNone) \ { \ memcpy (after, &stuff->dstDrawable, 4); \ after += 4; \ } \ _gcache = match (LBXGContextCache(client), _gcontext); \ if (_gcache == GFXCacheNone) \ { \ memcpy (after, &stuff->gc, 4); \ after += 4; \ } \ } #define GFX_SET_DRAWABLE_AND_GC {\ if (_dcache == GFXCacheNone) { \ gfx_draw_miss++; \ push (LBXDrawableCache(client), _drawable); \ } else { \ gfx_draw_hit++; \ use (LBXDrawableCache(client), _dcache); \ } \ if (_gcache == GFXCacheNone) { \ gfx_gc_miss++; \ push (LBXGContextCache(client), _gcontext);\ } else { \ gfx_gc_hit++; \ use (LBXGContextCache(client), _gcache); \ } \ newreq->cacheEnts = GFXCacheEnts (_dcache, _gcache); \ gfx_total++; \ } #define GFX_SET_SRC_DST_DRAWABLE_AND_GC {\ if (_srcDcache == GFXCacheNone) { \ gfx_draw_miss++; \ push (LBXDrawableCache(client), _srcDrawable); \ } else { \ gfx_draw_hit++; \ use (LBXDrawableCache(client), _srcDcache); \ } \ newreq->srcCache = GFXCacheEnts (_srcDcache, 0); \ if (_dstDcache == GFXCacheNone) { \ gfx_draw_miss++; \ push (LBXDrawableCache(client), _dstDrawable); \ } else { \ gfx_draw_hit++; \ use (LBXDrawableCache(client), _dstDcache); \ } \ if (_gcache == GFXCacheNone) { \ gfx_gc_miss++; \ push (LBXGContextCache(client), _gcontext);\ } else { \ gfx_gc_hit++; \ use (LBXGContextCache(client), _gcache); \ } \ newreq->cacheEnts = GFXCacheEnts (_dstDcache, _gcache); \ gfx_total++; \ } static int reencode_poly(client, lbxreq, reencode_rtn) ClientPtr client; CARD8 lbxreq; int (*reencode_rtn) (); { REQUEST(xPolyPointReq); XServerPtr server = client->server; int len = client->req_len << 2; int space; xLbxPolyPointReq *newreq = NULL; char *after; int bytes; GFX_CACHE_DECLARE; space = len - sz_xPolyPointReq + sz_xLbxPolyPointReq + GFX_REQ_PAD + 3; newreq = (xLbxPolyPointReq *) xalloc(space); if (newreq == NULL) goto bail; after = ((char *) newreq) + sz_xLbxPolyPointReq; GFX_SETUP_DRAWABLE_AND_GC(after); bytes = (*reencode_rtn) (client, (short *) &stuff[1], (char *) after, (len - sz_xPolyPointReq) >> 2); if (bytes == 0) goto bail; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->lbxReqType = lbxreq; GFX_SET_DRAWABLE_AND_GC; len = after - ((char *) newreq) + bytes; newreq->padBytes = pad[len & 3]; bzero(((char *) newreq) + len, newreq->padBytes); len += newreq->padBytes; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); xfree(newreq); return Success; bail: if (newreq) xfree(newreq); return ProcStandardRequest(client); } /* ARGSUSED */ static int reencode_points_origin(client, in, out, count) ClientPtr client; register short *in; register char *out; int count; { register short diff; int i; short inval; short last_x = 0; short last_y = 0; char *start_out = out; for (i = 0; i < count; i++, in += 2) { COPY_AND_SWAPS(inval, in[0]); diff = inval - last_x; last_x = inval; REENCODE_SHORT(diff, out); COPY_AND_SWAPS(inval, in[1]); diff = inval - last_y; last_y = inval; REENCODE_SHORT(diff, out); } return out - start_out; } /* ARGSUSED */ static int reencode_points_previous(client, in, out, count) ClientPtr client; register short *in; register char *out; int count; { int i; short inval; char *start_out = out; for (i = 0; i < count; i++, in += 2) { COPY_AND_SWAPS(inval, in[0]); REENCODE_SHORT(inval, out); COPY_AND_SWAPS(inval, in[1]); REENCODE_SHORT(inval, out); } return out - start_out; } /* ARGSUSED */ static int reencode_segment(client, in, out, count) ClientPtr client; register short *in; register char *out; int count; { register short diff; int i; short inval; short last_x = 0; short last_y = 0; char *start_out = out; count >>= 1; for (i = 0; i < count; i++, in += 4) { /* reencode (x1, y1) */ COPY_AND_SWAPS(inval, in[0]); diff = inval - last_x; last_x = inval; REENCODE_SHORT(diff, out); COPY_AND_SWAPS(inval, in[1]); diff = inval - last_y; last_y = inval; REENCODE_SHORT(diff, out); /* reencode (x2, y2) */ COPY_AND_SWAPS(inval, in[2]); diff = inval - last_x; REENCODE_SHORT(diff, out); COPY_AND_SWAPS(inval, in[3]); diff = inval - last_y; REENCODE_SHORT(diff, out); } return out - start_out; } /* ARGSUSED */ static int reencode_rectangle(client, in, out, count) ClientPtr client; register short *in; register char *out; int count; { register short diff; int i; short inval; short last_x = 0; short last_y = 0; char *start_out = out; count >>= 1; for (i = 0; i < count; i++, in += 4) { /* reencode (x, y) origin */ COPY_AND_SWAPS(inval, in[0]); diff = inval - last_x; last_x = inval; REENCODE_SHORT(diff, out); COPY_AND_SWAPS(inval, in[1]); diff = inval - last_y; last_y = inval; REENCODE_SHORT(diff, out); /* reencode (width, height) */ COPY_AND_SWAPS(inval, in[2]); REENCODE_USHORT(inval, out); COPY_AND_SWAPS(inval, in[3]); REENCODE_USHORT(inval, out); } return out - start_out; } /* ARGSUSED */ static int reencode_arc(client, in, out, count) ClientPtr client; register short *in; register char *out; int count; { register short diff; int i; short inval; short last_x = 0; short last_y = 0; char *start_out = out; count = count / 3; for (i = 0; i < count; i++, in += 6) { /* reencode (x, y) origin */ COPY_AND_SWAPS(inval, in[0]); diff = inval - last_x; last_x = inval; REENCODE_SHORT(diff, out); COPY_AND_SWAPS(inval, in[1]); diff = inval - last_y; last_y = inval; REENCODE_SHORT(diff, out); /* reencode (width, height) */ COPY_AND_SWAPS(inval, in[2]); REENCODE_USHORT(inval, out); COPY_AND_SWAPS(inval, in[3]); REENCODE_USHORT(inval, out); /* reencode (angle1, angle2) */ COPY_AND_SWAPS(inval, in[4]); REENCODE_ANGLE(inval, out); COPY_AND_SWAPS(inval, in[5]); REENCODE_ANGLE(inval, out); } return out - start_out; } int ProcLBXPolyPoint(client) ClientPtr client; { REQUEST(xPolyPointReq); int (*reencode_rtn) (); reencode_rtn = (stuff->coordMode) ? reencode_points_previous : reencode_points_origin; return reencode_poly(client, X_LbxPolyPoint, reencode_rtn); } int ProcLBXPolyLine(client) ClientPtr client; { REQUEST(xPolyLineReq); int (*reencode_rtn) (); reencode_rtn = (stuff->coordMode) ? reencode_points_previous : reencode_points_origin; return reencode_poly(client, X_LbxPolyLine, reencode_rtn); } int ProcLBXPolySegment(client) ClientPtr client; { return reencode_poly(client, X_LbxPolySegment, reencode_segment); } int ProcLBXPolyRectangle(client) ClientPtr client; { return reencode_poly(client, X_LbxPolyRectangle, reencode_rectangle); } int ProcLBXPolyArc(client) ClientPtr client; { return reencode_poly(client, X_LbxPolyArc, reencode_arc); } int ProcLBXFillPoly(client) ClientPtr client; { REQUEST(xFillPolyReq); XServerPtr server = client->server; int len = client->req_len << 2; xLbxFillPolyReq *newreq = NULL; char *after; int bytes; int space; int (*reencode_rtn) (); GFX_CACHE_DECLARE; reencode_rtn = (stuff->coordMode) ? reencode_points_previous : reencode_points_origin; space = len - sz_xFillPolyReq + sz_xLbxPolyPointReq + GFX_REQ_PAD + 3; newreq = (xLbxFillPolyReq *) xalloc(space); if (newreq == NULL) goto bail; after = ((char *) newreq) + sz_xLbxFillPolyReq; GFX_SETUP_DRAWABLE_AND_GC(after); bytes = (*reencode_rtn) (client, (short *) &stuff[1], after, (len - sz_xFillPolyReq) >> 2); if (bytes == 0) goto bail; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->lbxReqType = X_LbxFillPoly; newreq->shape = stuff->shape; GFX_SET_DRAWABLE_AND_GC; len = after - ((char *) newreq) + bytes; newreq->padBytes = pad[len & 3]; bzero(((char *) newreq) + len, newreq->padBytes); len += newreq->padBytes; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); xfree(newreq); return Success; bail: if (newreq) xfree(newreq); return ProcStandardRequest(client); } int ProcLBXPolyFillRectangle(client) ClientPtr client; { return reencode_poly(client, X_LbxPolyFillRectangle, reencode_rectangle); } int ProcLBXPolyFillArc(client) ClientPtr client; { return reencode_poly(client, X_LbxPolyFillArc, reencode_arc); } static int reencode_copy(client, in, out) ClientPtr client; register xCopyAreaReq *in; register char *out; { char *start_out = out; SWAP_REENCODE_PSHORT(in->srcX, out); SWAP_REENCODE_PSHORT(in->srcY, out); SWAP_REENCODE_PSHORT(in->dstX, out); SWAP_REENCODE_PSHORT(in->dstY, out); SWAP_REENCODE_USHORT(in->width, out); SWAP_REENCODE_USHORT(in->height, out); return out - start_out; } int ProcLBXCopyArea(client) ClientPtr client; { REQUEST(xCopyAreaReq); XServerPtr server = client->server; int len; xLbxCopyAreaReq *newreq = NULL; unsigned long space[(SIZEOF(xLbxCopyAreaReq) + GFX_SRC_DST_REQ_PAD + 7 * sizeof(unsigned long) - 1) / sizeof(unsigned long)]; char *after; int extra; int bytes; GFX_SRC_DST_CACHE_DECLARE; newreq = (xLbxCopyAreaReq *) space; after = ((char *) newreq) + sz_xLbxCopyAreaReq; GFX_SETUP_SRC_DST_DRAWABLE_AND_GC(after); bytes = reencode_copy(client, stuff, after); if (bytes == 0) goto bail; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->lbxReqType = X_LbxCopyArea; GFX_SET_SRC_DST_DRAWABLE_AND_GC; len = ((after + bytes) - ((char *) newreq)); extra = pad[len & 3]; bzero(((char *) newreq) + len, extra); len += extra; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); return Success; bail: return ProcStandardRequest(client); } int ProcLBXCopyPlane(client) ClientPtr client; { REQUEST(xCopyPlaneReq); XServerPtr server = client->server; int len; xLbxCopyPlaneReq *newreq = NULL; unsigned long space[(SIZEOF(xLbxCopyPlaneReq) + GFX_SRC_DST_REQ_PAD + 7 * sizeof(unsigned long) - 1) / sizeof(unsigned long)]; char *after; int bytes; int extra; GFX_SRC_DST_CACHE_DECLARE; newreq = (xLbxCopyPlaneReq *) space; after = ((char *) newreq) + sz_xLbxCopyPlaneReq; GFX_SETUP_SRC_DST_DRAWABLE_AND_GC(after); bytes = reencode_copy(client, (xCopyAreaReq *)stuff, after); if (bytes == 0) goto bail; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->bitPlane = stuff->bitPlane; newreq->lbxReqType = X_LbxCopyPlane; GFX_SET_SRC_DST_DRAWABLE_AND_GC; len = ((after + bytes) - ((char *) newreq)); extra = pad[len & 3]; bzero(((char *) newreq) + len, extra); len += extra; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); return Success; bail: return ProcStandardRequest(client); } static int reencode_text_pos(client, in, out) ClientPtr client; xPolyTextReq *in; char *out; { char *start_out; start_out = out; SWAP_REENCODE_PSHORT(in->x, out); SWAP_REENCODE_PSHORT(in->y, out); return out - start_out; } int ProcLBXPolyText(client) ClientPtr client; { REQUEST(xPolyTextReq); XServerPtr server = client->server; int len = client->req_len << 2; xLbxPolyTextReq *newreq = NULL; int space; char *after; int bytes; int extra; GFX_CACHE_DECLARE; space = len - sz_xPolyTextReq + sz_xLbxPolyTextReq + GFX_REQ_PAD + 4 + 3; newreq = (xLbxPolyTextReq *) xalloc(space); if (newreq == NULL) goto bail; after = ((char *) newreq) + sz_xLbxPolyTextReq; GFX_SETUP_DRAWABLE_AND_GC(after); /* Reencode the text position */ bytes = reencode_text_pos(client, stuff, after); if (bytes == 0) goto bail; /* copy the text elements */ memcpy(after + bytes, (char *) &stuff[1], len - sz_xPolyTextReq); bytes += len - sz_xPolyTextReq; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->lbxReqType = stuff->reqType == X_PolyText8 ? X_LbxPolyText8 : X_LbxPolyText16; GFX_SET_DRAWABLE_AND_GC; len = ((after + bytes) - ((char *) newreq)); extra = pad[len & 3]; bzero(((char *) newreq) + len, extra); len += extra; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); xfree(newreq); return Success; bail: if (newreq) xfree(newreq); return ProcStandardRequest(client); } int ProcLBXImageText(client) ClientPtr client; { REQUEST(xImageTextReq); XServerPtr server = client->server; int len = client->req_len << 2; xLbxImageTextReq *newreq = NULL; int space; char *after; int bytes; int extra; GFX_CACHE_DECLARE; space = len - sz_xImageTextReq + sz_xLbxImageTextReq + GFX_REQ_PAD + 4 + 3; newreq = (xLbxImageTextReq *) xalloc(space); if (newreq == NULL) goto bail; after = ((char *) newreq) + sz_xLbxImageTextReq; GFX_SETUP_DRAWABLE_AND_GC(after); /* Reencode the text position */ bytes = reencode_text_pos(client, (xPolyTextReq *) stuff, after); if (bytes == 0) goto bail; /* copy the text elements */ memcpy(after + bytes, (char *) &stuff[1], len - sz_xImageTextReq); bytes += len - sz_xImageTextReq; FinishLBXRequest(client, REQ_PASSTHROUGH); newreq->reqType = server->lbxReq; newreq->lbxReqType = stuff->reqType == X_ImageText8 ? X_LbxImageText8 : X_LbxImageText16; newreq->nChars = stuff->nChars; GFX_SET_DRAWABLE_AND_GC; len = ((after + bytes) - ((char *) newreq)); extra = pad[len & 3]; bzero(((char *) newreq) + len, extra); len += extra; newreq->length = len >> 2; WriteReqToServer(client, len, (char *) newreq, TRUE); xfree(newreq); return Success; bail: if (newreq) xfree(newreq); return ProcStandardRequest(client); } static void SwapXPutImage(req) xPutImageReq *req; { char n; swaps(&req->width, n); swaps(&req->height, n); swaps(&req->dstX, n); swaps(&req->dstY, n); } static char * reencode_putimage(stuff, newreq) xPutImageReq *stuff; xLbxPutImageReq *newreq; { char *out; if (stuff->format > ZPixmap || stuff->leftPad > 31 || !stuff->depth || stuff->depth > 32 || (stuff->format == ZPixmap && stuff->leftPad != 0)) return 0; out = (char *)newreq + sz_xLbxPutImageReq; if (!stuff->leftPad && stuff->depth <= 8) newreq->bitPacked = 0x80 | (stuff->format << 5) | ((stuff->depth - 1) << 2); else { newreq->bitPacked = ((stuff->depth - 1) << 2); *out++ = (stuff->format << 5) | stuff->leftPad; } REENCODE_USHORT(stuff->width, out); REENCODE_USHORT(stuff->height, out); REENCODE_PSHORT(stuff->dstX, out); REENCODE_PSHORT(stuff->dstY, out); return out; } #define MaxPutImageSz sz_xLbxPutImageReq + 1 + 2 + 2 + 2 + 2 + GFX_REQ_PAD int ProcLBXPutImage(client) ClientPtr client; { REQUEST(xPutImageReq); XServerPtr server = client->server; unsigned long space[(MaxPutImageSz + sizeof(unsigned long) - 1) / sizeof(unsigned long)]; xLbxPutImageReq *newreq; char *data = NULL; char *out; int len, reqlen, method, compBytes, status; #ifdef LBX_STATS float percentCompression; char *methodName; #endif LbxBitmapCompMethod *bcompMethod; LbxPixmapCompMethod *pcompMethod; GFX_CACHE_DECLARE; status = LBX_IMAGE_COMPRESS_SUCCESS; if (stuff->format != ZPixmap || (stuff->depth == 1 && LBXZBitsPerPixel1(client) == 1)) { bcompMethod = LbxFindPreferredBitmapCompMethod (client->server); if (!bcompMethod) status = LBX_IMAGE_COMPRESS_NO_SUPPORT; } else { pcompMethod = LbxFindPreferredPixmapCompMethod (client->server, (int) stuff->format, (int) stuff->depth); if (!pcompMethod) status = LBX_IMAGE_COMPRESS_NO_SUPPORT; } if (status == LBX_IMAGE_COMPRESS_NO_SUPPORT && client->req_len >= 64 + (sz_xPutImageReq >> 2)) return ProcStandardRequest(client); if (client->swapped) SwapXPutImage(stuff); newreq = (xLbxPutImageReq *)space; newreq->reqType = server->lbxReq; newreq->lbxReqType = X_LbxPutImage; out = reencode_putimage(stuff, newreq); if (!out) { SwapXPutImage(stuff); return ProcStandardRequest(client); } GFX_SETUP_DRAWABLE_AND_GC(out); reqlen = out - (char *)space; len = client->req_len << 2; data = (char *) xalloc(len); if (!data || status == LBX_IMAGE_COMPRESS_NO_SUPPORT) { if (!data) status = LBX_IMAGE_COMPRESS_BAD_MALLOC; } else if (stuff->format != ZPixmap || (stuff->depth == 1 && LBXZBitsPerPixel1(client) == 1)) { int ppl, bpl, nbytes; if (!bcompMethod->inited) { if (bcompMethod->compInit) (*bcompMethod->compInit)(); bcompMethod->inited = 1; } ppl = stuff->width + stuff->leftPad; if (LBXBitmapBitOrder(client) != LBXImageByteOrder(client)) ppl = ((ppl + LBXBitmapScanlineUnit(client) - 1) & ~LBXBitmapScanlineUnit(client)); bpl = (((ppl + LBXBitmapScanlinePad(client) - 1) / LBXBitmapScanlinePad(client)) * (LBXBitmapScanlinePad(client) >> 3)); nbytes = bpl * stuff->height; if (stuff->format == XYPixmap) nbytes *= stuff->depth; status = (*bcompMethod->compFunc) ( (unsigned char *) &stuff[1], (unsigned char *) data + reqlen, len - reqlen, nbytes, ppl, bpl, LBXBitmapBitOrder(client) == LSBFirst, &compBytes); method = bcompMethod->methodOpCode; #ifdef LBX_STATS methodName = bcompMethod->methodName; #endif } else { if (!pcompMethod->inited) { if (pcompMethod->compInit) (*pcompMethod->compInit)(); pcompMethod->inited = 1; } status = (*pcompMethod->compFunc) ( (char *) &stuff[1], (char *) data + reqlen, len - reqlen, (int) stuff->format, (int) stuff->depth, (int) stuff->height, (int) (len - sz_xPutImageReq) / stuff->height, &compBytes); method = pcompMethod->methodOpCode; #ifdef LBX_STATS methodName = pcompMethod->methodName; #endif } #ifdef LBX_STATS fprintf(stderr, "PutImage (xid=%x, w=%d, h=%d, x=%d, y=%d): ", stuff->drawable, stuff->width, stuff->height, stuff->dstX, stuff->dstY); #endif if (status != LBX_IMAGE_COMPRESS_SUCCESS) { #ifdef LBX_STATS fprintf(stderr, "image not compressed - "); if (status == LBX_IMAGE_COMPRESS_NO_SUPPORT) fprintf(stderr, "no support for compressing this image\n"); else if (status == LBX_IMAGE_COMPRESS_NOT_WORTH_IT) fprintf(stderr, "not worth it\n"); else if (status == LBX_IMAGE_COMPRESS_BAD_MALLOC) fprintf(stderr, "bad malloc\n"); #endif if (!data || len >= 256 || reqlen > sz_xPutImageReq) { if (data) xfree(data); if (client->swapped) /* Swap it back */ SwapXPutImage(stuff); return ProcStandardRequest(client); } method = 0; compBytes = len - sz_xPutImageReq; memcpy(data + reqlen, (char *) &stuff[1], compBytes); } GFX_SET_DRAWABLE_AND_GC; newreq->compressionMethod = method; len = reqlen + compBytes; newreq->bitPacked |= pad[len & 3]; len += pad[len & 3]; newreq->length = len >> 2; memcpy(data, (char *)newreq, reqlen); FinishLBXRequest(client, REQ_PASSTHROUGH); #ifdef LBX_STATS percentCompression = 100.0 * (1.0 - ((float) (compBytes + pad[compBytes & 3]) / (float) ((client->req_len << 2) - sz_xPutImageReq))); fprintf(stderr, "%f percent compression (%s)\n", percentCompression, methodName); #endif /* * If the compressed image is greater that 25% of the original * image, or is small enough to fit into the delta cache, then * run the PutImage request through the regular stream * compressor. Otherwise, just write the compressed image. */ if (newreq->length > (client->req_len >> 2) || DELTA_CACHEABLE(&server->outdeltas, len)) WriteReqToServer(client, len, data, TRUE); else WriteToServerUncompressed(client, len, data, TRUE); xfree(data); return Success; } int ProcLBXGetImage(client) ClientPtr client; { REQUEST(xGetImageReq); ReplyStuffPtr nr; nr = NewReply(client, client->server->lbxReq, X_LbxGetImage, GetLbxImageReply); if (!nr) return ProcStandardRequest(client); if (client->swapped) { char n; swapl(&stuff->drawable, n); swaps(&stuff->x, n); swaps(&stuff->y, n); swaps(&stuff->width, n); swaps(&stuff->height, n); swapl(&stuff->planeMask, n); } nr->request_info.lbxgetimage.width = stuff->width; nr->request_info.lbxgetimage.height = stuff->height; nr->request_info.lbxgetimage.format = stuff->format; #ifdef LBX_STATS nr->request_info.lbxgetimage.drawable = stuff->drawable; nr->request_info.lbxgetimage.x = stuff->x; nr->request_info.lbxgetimage.y = stuff->y; #endif FinishLBXRequest(client, REQ_PASSTHROUGH); SendGetImage(client, stuff->drawable, stuff->x, stuff->y, stuff->width, stuff->height, stuff->planeMask, stuff->format); return Success; } static Bool GetLbxImageReply(client, nr, data) ClientPtr client; ReplyStuffPtr nr; char *data; { xLbxGetImageReply *rep; xGetImageReply reply; pointer imageData; int freeIt = 1; #ifdef LBX_STATS char *methodName; #endif rep = (xLbxGetImageReply *) data; if (client->swapped) { char n; swapl(&rep->xLength, n); swapl(&rep->visual, n); } /* +1 is because fillspan in DecodeFaxG42D seems to go 1 byte too far, * and I don't want to mess with that code */ if ((imageData = (pointer) xalloc((rep->xLength << 2) + 1)) == NULL) return FALSE; if (rep->compressionMethod == LbxImageCompressNone) { xfree((char *) imageData); imageData = (pointer) &rep[1]; freeIt = 0; } else if (nr->request_info.lbxgetimage.format != ZPixmap || (rep->depth == 1 && LBXZBitsPerPixel1(client) == 1)) { LbxBitmapCompMethod *compMethod; compMethod = LbxLookupBitmapCompMethod (client->server, rep->compressionMethod); if (!compMethod) { xfree((char *) imageData); return FALSE; } else { int ppl, bpl, nbytes; if (!compMethod->inited) { if (compMethod->compInit) (*compMethod->compInit)(); compMethod->inited = 1; } ppl = nr->request_info.lbxgetimage.width; if (LBXBitmapBitOrder(client) != LBXImageByteOrder(client)) ppl = ((ppl + LBXBitmapScanlineUnit(client) - 1) & ~LBXBitmapScanlineUnit(client)); bpl = (((ppl + LBXBitmapScanlinePad(client) - 1) / LBXBitmapScanlinePad(client)) * (LBXBitmapScanlinePad(client) >> 3)); nbytes = bpl * nr->request_info.lbxgetimage.height; if (nr->request_info.lbxgetimage.format == XYPixmap) nbytes *= rep->depth; (*compMethod->decompFunc) ( (unsigned char *) &rep[1], (unsigned char *) imageData, nbytes, ppl, bpl, LBXBitmapBitOrder(client) == LSBFirst); #ifdef LBX_STATS methodName = compMethod->methodName; #endif } } else { LbxPixmapCompMethod *compMethod; compMethod = LbxLookupPixmapCompMethod (client->server, rep->compressionMethod); if (!compMethod) { xfree((char *) imageData); return FALSE; } else { if (!compMethod->inited) { if (compMethod->compInit) (*compMethod->compInit)(); compMethod->inited = 1; } (*compMethod->decompFunc) ( (char *) &rep[1], (char *) imageData, (int) nr->request_info.lbxgetimage.height, (rep->xLength << 2) / nr->request_info.lbxgetimage.height); #ifdef LBX_STATS methodName = compMethod->methodName; #endif } } reply.type = X_Reply; reply.depth = rep->depth; reply.sequenceNumber = rep->sequenceNumber; reply.length = rep->xLength; reply.visual = rep->visual; if (client->swapped) SwapGetImageReply(&reply); #ifdef LBX_STATS fprintf (stderr, "GetImage (xid=%x, w=%d, h=%d, x=%d, y=%d): ", nr->request_info.lbxgetimage.drawable, nr->request_info.lbxgetimage.width, nr->request_info.lbxgetimage.height, nr->request_info.lbxgetimage.x, nr->request_info.lbxgetimage.y); if (rep->compressionMethod == LbxImageCompressNone) { fprintf(stderr, "image not compressed\n"); } else { float percentCompression = 100.0 * (1.0 - ((float) rep->lbxLength / (float) rep->xLength)); fprintf(stderr, "%f percent compression (%s)\n", percentCompression, methodName); } #endif WriteToClient(client, sizeof(xGetImageReply), &reply); WriteToClient(client, rep->xLength << 2, imageData); if (freeIt) xfree((char *) imageData); return TRUE; }