/* $Xorg: lbxdix.c,v 1.4 2001/02/09 02:05:16 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 1993 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/Xserver/lbx/lbxdix.c,v 1.7 2001/08/23 14:46:57 alanh Exp $ */ /* various bits of DIX-level mangling */ #include #include #define NEED_REPLIES #define NEED_EVENTS #include "X.h" #include "Xproto.h" #include "misc.h" #include "os.h" #include "dixstruct.h" #include "resource.h" #include "inputstr.h" #include "servermd.h" #include "dixfontstr.h" #include "gcstruct.h" #include "scrnintstr.h" #include "windowstr.h" #include "propertyst.h" #define _XLBX_SERVER_ #include "lbxstr.h" #include "lbxserve.h" #include "lbxtags.h" #include "lbxdata.h" #include "Xfuncproto.h" #ifdef XAPPGROUP #include "Xagsrv.h" #endif #include "swaprep.h" int lbx_font_private = -1; void LbxDixInit(void) { TagInit(); lbx_font_private = AllocateFontPrivateIndex(); } /* ARGSUSED */ void LbxAllowMotion(ClientPtr client, int num) { LbxProxyPtr proxy = LbxProxy(client); proxy->motion_allowed_events += num; } extern xConnSetupPrefix connSetupPrefix; extern char *ConnectionInfo; extern int connBlockScreenStart; int LbxSendConnSetup(ClientPtr client, char *reason) { int dlength; int i, ndex, lim, wndex; CARD32 dataBuf[16]; xLbxConnSetupPrefix csp; NewClientInfoRec nci; LbxProxyPtr proxy = LbxProxy(client); if (reason) { SendConnSetup(client, reason); LbxForceOutput(proxy); /* expedient to avoid another state variable */ return (client->noClientException); } IncrementClientCount(); client->requestVector = client->swapped ? SwappedProcVector : ProcVector; client->sequence = 0; dataBuf[0] = client->clientAsMask; csp.success = TRUE; csp.majorVersion = connSetupPrefix.majorVersion; csp.minorVersion = connSetupPrefix.minorVersion; csp.tag = 0; #ifdef XAPPGROUP if (!client->appgroup) { #endif csp.changeType = 1; /* LbxNormalDeltas */ csp.length = 2 + /* tag + resource-id-base */ screenInfo.numScreens; /* input-mask per screen */ wndex = 0; ndex = 1; lim = screenInfo.numScreens; #ifdef XAPPGROUP } else { csp.changeType = 2; /* LbxAppGroupDeltas */ csp.length = 7 + /* tag, res-id-base, root, visual, colormap, b&w-pix */ 1 + screenInfo.numScreens - screenInfo.numVideoScreens; XagGetDeltaInfo (client, &dataBuf[1]); for (i = 0; i < MAXSCREENS; i++) { if ((CARD32) WindowTable[i]->drawable.id == dataBuf[1]) { dataBuf[6] = WindowTable[i]->eventMask | wOtherEventMasks(WindowTable[i]); break; } } wndex = screenInfo.numVideoScreens; ndex = 7; lim = screenInfo.numScreens - screenInfo.numVideoScreens; } #endif for (i = 0; i < lim; i++, ndex++, wndex++) { dataBuf[ndex] = WindowTable[wndex]->eventMask | wOtherEventMasks(WindowTable[wndex]); } dlength = (csp.length - 1) << 2; if (LbxProxyClient(proxy)->swapped) { swaps(&csp.length, i); } if (client->swapped) { LbxWriteSConnSetupPrefix(client, &csp); SwapLongs(dataBuf, (1 + screenInfo.numScreens)); WriteToClient(client, dlength, (pointer) dataBuf); } else { WriteToClient(client, sizeof(xLbxConnSetupPrefix), (char *) &csp); WriteToClient(client, dlength, (pointer) dataBuf); } LbxForceOutput(proxy); /* expedient to avoid another state variable */ client->clientState = ClientStateRunning; if (ClientStateCallback) { if (LbxProxyClient(proxy)->swapped != client->swapped) { swaps(&csp.length, i); } nci.client = client; nci.prefix = (xConnSetupPrefix*) &csp; nci.setup = (xConnSetup *) ConnectionInfo; CallCallbacks(&ClientStateCallback, (pointer) &nci); } return client->noClientException; } static XID modifier_map_tag; int LbxGetModifierMapping(ClientPtr client) { TagData td; pointer tagdata; xLbxGetModifierMappingReply rep; register KeyClassPtr keyc = inputInfo.keyboard->key; int dlength = keyc->maxKeysPerModifier << 3; Bool tag_known = FALSE, send_data; int n; if (!modifier_map_tag) { tagdata = (pointer) keyc->modifierKeyMap; TagSaveTag(LbxTagTypeModmap, dlength, tagdata, &modifier_map_tag); } else { td = TagGetTag(modifier_map_tag); tagdata = td->tdata; tag_known = TagProxyMarked(modifier_map_tag, LbxProxyID(client)); } if (modifier_map_tag) TagMarkProxy(modifier_map_tag, LbxProxyID(client)); send_data = (!modifier_map_tag || !tag_known); rep.type = X_Reply; rep.keyspermod = keyc->maxKeysPerModifier; rep.sequenceNumber = client->sequence; rep.tag = modifier_map_tag; rep.pad0 = rep.pad1 = rep.pad2 = rep.pad3 = rep.pad4 = 0; if (send_data) rep.length = dlength >> 2; else rep.length = 0; if (client->swapped) { swaps(&rep.sequenceNumber, n); swapl(&rep.length, n); swapl(&rep.tag, n); } WriteToClient(client, sizeof(xLbxGetModifierMappingReply), (char *)&rep); if (send_data) WriteToClient(client, dlength, (char *) tagdata); return client->noClientException; } void LbxFlushModifierMapTag(void) { if (modifier_map_tag) TagDeleteTag(modifier_map_tag); } static XID keyboard_map_tag; int LbxGetKeyboardMapping(ClientPtr client) { TagData td; pointer tagdata; xLbxGetKeyboardMappingReply rep; REQUEST(xLbxGetKeyboardMappingReq); KeySymsPtr curKeySyms = &inputInfo.keyboard->key->curKeySyms; int dlength; Bool tag_known = FALSE, send_data; int n; REQUEST_SIZE_MATCH(xLbxGetKeyboardMappingReq); if ((stuff->firstKeyCode < curKeySyms->minKeyCode) || (stuff->firstKeyCode > curKeySyms->maxKeyCode)) { client->errorValue = stuff->firstKeyCode; return BadValue; } if (stuff->firstKeyCode + stuff->count > curKeySyms->maxKeyCode + 1) { client->errorValue = stuff->count; return BadValue; } rep.type = X_Reply; rep.sequenceNumber = client->sequence; rep.keysperkeycode = curKeySyms->mapWidth; /* length is a count of 4 byte quantities and KeySyms are 4 bytes */ if (!keyboard_map_tag) { tagdata = (pointer) &curKeySyms->map[(stuff->firstKeyCode - curKeySyms->minKeyCode) * curKeySyms->mapWidth]; dlength = (curKeySyms->mapWidth * stuff->count); TagSaveTag(LbxTagTypeKeymap, dlength, tagdata, &keyboard_map_tag); } else { td = TagGetTag(keyboard_map_tag); tagdata = td->tdata; tag_known = TagProxyMarked(keyboard_map_tag, LbxProxyID(client)); } if (keyboard_map_tag) TagMarkProxy(keyboard_map_tag, LbxProxyID(client)); send_data = (!keyboard_map_tag || !tag_known); rep.type = X_Reply; rep.keysperkeycode = curKeySyms->mapWidth; rep.sequenceNumber = client->sequence; rep.tag = keyboard_map_tag; rep.pad0 = rep.pad1 = rep.pad2 = rep.pad3 = rep.pad4 = 0; if (send_data) rep.length = (curKeySyms->mapWidth * stuff->count); else rep.length = 0; if (client->swapped) { swaps(&rep.sequenceNumber, n); swapl(&rep.length, n); swapl(&rep.tag, n); } WriteToClient(client, sizeof(xLbxGetKeyboardMappingReply), (char *)&rep); if (send_data) { client->pSwapReplyFunc = (ReplySwapPtr)CopySwap32Write; WriteSwappedDataToClient(client, curKeySyms->mapWidth * stuff->count * sizeof(KeySym), &curKeySyms->map[(stuff->firstKeyCode - curKeySyms->minKeyCode) * curKeySyms->mapWidth]); } return client->noClientException; } void LbxFlushKeyboardMapTag(void) { if (keyboard_map_tag) TagDeleteTag(keyboard_map_tag); } /* counts number of bits needed to hold value */ static int _bitsize(int val) { int bits = 1; /* always need one for sign bit */ if (val == 0) return (bits); if (val < 0) { val = -val; } while (val) { bits++; val >>= 1; } return bits; } /* * squashes the font (if possible), returning the new length and * a pointer to the new data (which has been allocated). if it can't * squish, it just returns a 0 and the data is sent in raw form. */ int _lbx_fi_junklen = sizeof(BYTE) * 2 + sizeof(CARD16) + sizeof(CARD32); static int squish_font_info(xQueryFontReply *qfr, int rlen, xLbxFontInfo **sqrep) { int len, hlen; xLbxFontInfo *new; xCharInfo *minb, *maxb, *ci, bbox; int i; char *t; xLbxCharInfo *chars; int num_chars; num_chars = qfr->nCharInfos; if (num_chars == 0) return 0; minb = &qfr->minBounds; maxb = &qfr->maxBounds; /* * first do the quick check -- if the attribute fields aren't all the * same, punt */ if (minb->attributes != maxb->attributes) return 0; #define compute(field) \ bbox.field = max(_bitsize(minb->field), _bitsize(maxb->field)) compute(characterWidth); compute(leftSideBearing); compute(rightSideBearing); compute(ascent); compute(descent); #undef compute /* make sure it fits */ if (!((bbox.characterWidth <= LBX_WIDTH_BITS) && (bbox.leftSideBearing <= LBX_LEFT_BITS) && (bbox.rightSideBearing <= LBX_RIGHT_BITS) && (bbox.ascent <= LBX_ASCENT_BITS) && (bbox.descent <= LBX_DESCENT_BITS))) { return 0; } hlen = sizeof(xLbxFontInfo) + qfr->nFontProps * sizeof(xFontProp); len = hlen + (num_chars * sizeof(xLbxCharInfo)); new = (xLbxFontInfo *) xalloc(len); if (!new) return 0; /* gross hack to avoid copying all the fields */ t = (char *) qfr; t += _lbx_fi_junklen; /* copy all but the char infos */ memcpy((char *) new, (char *) t, hlen); t = (char *) new; t += hlen; chars = (xLbxCharInfo *) t; t = (char *) qfr; t += sizeof(xQueryFontReply) + qfr->nFontProps * sizeof(xFontProp); ci = (xCharInfo *) t; /* now copy & pack the charinfos */ for (i = 0; i < num_chars; i++, chars++, ci++) { chars->metrics = 0; chars->metrics |= (LBX_MASK_BITS(ci->characterWidth, LBX_WIDTH_BITS) << LBX_WIDTH_SHIFT); chars->metrics |= (LBX_MASK_BITS(ci->leftSideBearing, LBX_LEFT_BITS) << LBX_LEFT_SHIFT); chars->metrics |= (LBX_MASK_BITS(ci->rightSideBearing, LBX_RIGHT_BITS) << LBX_RIGHT_SHIFT); chars->metrics |= (LBX_MASK_BITS(ci->ascent, LBX_ASCENT_BITS) << LBX_ASCENT_SHIFT); chars->metrics |= (LBX_MASK_BITS(ci->descent, LBX_DESCENT_BITS) << LBX_DESCENT_SHIFT); } *sqrep = new; return len; } int LbxQueryFont(ClientPtr client) { xQueryFontReply *reply; xLbxQueryFontReply lbxrep; FontPtr pFont; register GC *pGC; Bool send_data = FALSE; Bool free_data = FALSE; int rlength = 0; FontTagInfoPtr ftip; int sqlen = 0; xLbxFontInfo *sqrep, *sreply = NULL; REQUEST(xLbxQueryFontReq); REQUEST_SIZE_MATCH(xLbxQueryFontReq); client->errorValue = stuff->fid; /* EITHER font or gc */ pFont = (FontPtr) SecurityLookupIDByType(client, stuff->fid, RT_FONT, SecurityReadAccess); if (!pFont) { /* can't use VERIFY_GC because it might return BadGC */ pGC = (GC *) SecurityLookupIDByType(client, stuff->fid, RT_GC, SecurityReadAccess); if (!pGC || !pGC->font) { /* catch a non-existent builtin font */ client->errorValue = stuff->fid; return (BadFont); /* procotol spec says only error is BadFont */ } pFont = pGC->font; } /* get tag (if any) */ ftip = (FontTagInfoPtr) FontGetPrivate(pFont, lbx_font_private); if (!ftip) { xCharInfo *pmax = FONTINKMAX(pFont); xCharInfo *pmin = FONTINKMIN(pFont); int nprotoxcistructs; nprotoxcistructs = ( pmax->rightSideBearing == pmin->rightSideBearing && pmax->leftSideBearing == pmin->leftSideBearing && pmax->descent == pmin->descent && pmax->ascent == pmin->ascent && pmax->characterWidth == pmin->characterWidth) ? 0 : N2dChars(pFont); rlength = sizeof(xQueryFontReply) + FONTINFONPROPS(FONTCHARSET(pFont)) * sizeof(xFontProp) + nprotoxcistructs * sizeof(xCharInfo); reply = (xQueryFontReply *) xalloc(rlength); if (!reply) { return (BadAlloc); } free_data = TRUE; send_data = TRUE; QueryFont(pFont, reply, nprotoxcistructs); sqlen = squish_font_info(reply, rlength, &sqrep); if (!sqlen) { /* if it failed to squish, send it raw */ char *t; lbxrep.compression = 0; sqlen = rlength - _lbx_fi_junklen; t = (char *) reply; sqrep = (xLbxFontInfo *) (t + _lbx_fi_junklen); } else { lbxrep.compression = 1; xfree(reply); /* no longer needed */ } } else { /* just get data from tag */ sqrep = ftip->fontinfo; sqlen = ftip->size; lbxrep.compression = ftip->compression; } if (!ftip) { /* data allocation is done when font is first queried */ ftip = (FontTagInfoPtr) xalloc(sizeof(FontTagInfoRec)); if (ftip && TagSaveTag(LbxTagTypeFont, sqlen, (pointer) ftip, &ftip->tid)) { FontSetPrivate(pFont, lbx_font_private, (pointer) ftip); ftip->pfont = pFont; ftip->size = sqlen; ftip->fontinfo = sqrep; ftip->compression = lbxrep.compression; free_data = FALSE; } else { xfree(ftip); } } if (ftip) { if (!TagProxyMarked(ftip->tid, LbxProxyID(client))) send_data = TRUE; TagMarkProxy(ftip->tid, LbxProxyID(client)); lbxrep.tag = ftip->tid; } else { lbxrep.tag = 0; send_data = TRUE; } lbxrep.type = X_Reply; lbxrep.sequenceNumber = client->sequence; lbxrep.pad0 = lbxrep.pad1 = lbxrep.pad2 = lbxrep.pad3 = lbxrep.pad4 = 0; if (send_data) lbxrep.length = sqlen >> 2; else lbxrep.length = 0; if (client->swapped) { int n; swaps(&lbxrep.sequenceNumber, n); swapl(&lbxrep.length, n); swapl(&lbxrep.tag, n); sreply = (xLbxFontInfo *) ALLOCATE_LOCAL(sqlen); if (!sreply) return BadAlloc; memcpy((char *) sreply, (char *) sqrep, sqlen); LbxSwapFontInfo(sreply, lbxrep.compression); sqrep = sreply; } WriteToClient(client, sizeof(xLbxQueryFontReply), (char *) &lbxrep); if (send_data) WriteToClient(client, sqlen, (char *)sqrep); if (free_data) xfree(sqrep); if (sreply) DEALLOCATE_LOCAL(sreply); return (client->noClientException); } void LbxFreeFontTag(FontPtr pfont) { FontTagInfoPtr ftip; ftip = (FontTagInfoPtr) FontGetPrivate(pfont, lbx_font_private); if (ftip) TagDeleteTag(ftip->tid); } int LbxInvalidateTag(ClientPtr client, XID tag) { TagClearProxy(tag, LbxProxyID(client)); return client->noClientException; } void LbxSendInvalidateTag(ClientPtr client, XID tag, int tagtype) { xLbxInvalidateTagEvent ev; int n; ev.type = LbxEventCode; ev.lbxType = LbxInvalidateTagEvent; ev.sequenceNumber = client->sequence; ev.tag = tag; ev.tagType = tagtype; ev.pad1 = ev.pad2 = ev.pad3 = ev.pad4 = ev.pad5 = 0; if (client->swapped) { swaps(&ev.sequenceNumber, n); swapl(&ev.tag, n); swapl(&ev.tagType, n); } DBG(DBG_CLIENT, (stderr, "Invalidating tag %d\n", tag)); WriteToClient(client, sizeof(xLbxInvalidateTagEvent), (char *) &ev); LbxForceOutput(LbxProxy(client)); } static void LbxSendSendTagData(int pid, XID tag, int tagtype) { xLbxSendTagDataEvent ev; int n; LbxProxyPtr proxy; ClientPtr client; LbxClientPtr lbxcp; proxy = LbxPidToProxy(pid); lbxcp = (proxy != NULL) ? proxy->lbxClients[0] : NULL; if (lbxcp && (client = lbxcp->client)) { ev.type = LbxEventCode; ev.lbxType = LbxSendTagDataEvent; ev.sequenceNumber = client->sequence; ev.tag = tag; ev.tagType = tagtype; ev.pad1 = ev.pad2 = ev.pad3 = ev.pad4 = ev.pad5 = 0; if (client->swapped) { swaps(&ev.sequenceNumber, n); swapl(&ev.tag, n); swapl(&ev.tagType, n); } DBG(DBG_CLIENT, (stderr, "Requesting tag %d\n", tag)); WriteToClient(client, sizeof(xLbxSendTagDataEvent), (char *) &ev); LbxForceOutput(proxy); } } /* * keep track of clients stalled waiting for tags to come back from * a proxy. since multiple clinets can be waiting for the same tag, * we have to keep a list of all of them. */ typedef struct _sendtagq { XID tag; int num_stalled; ClientPtr *stalled_clients; struct _sendtagq *next; } SendTagQRec, *SendTagQPtr; static SendTagQPtr queried_tags = NULL; #define LbxSendTagFailed -1 #define LbxSendTagSendIt 0 #define LbxSendTagAlreadySent 1 static Bool LbxQueueSendTag(ClientPtr client, XID tag) { SendTagQPtr stqp, *prev, new; ClientPtr *newlist; /* see if we're asking for one already in the pipeline */ for (prev = &queried_tags; (stqp = *prev); prev = &stqp->next) { if (stqp->tag == tag) { /* add new client to list */ newlist = (ClientPtr *) xrealloc(stqp->stalled_clients, (sizeof(ClientPtr) * (stqp->num_stalled + 1))); if (!newlist) return LbxSendTagFailed; newlist[stqp->num_stalled++] = client; stqp->stalled_clients = newlist; DBG(DBG_CLIENT, (stderr, "Additional client requesting tag %d\n", tag)); return LbxSendTagAlreadySent; } } /* make new one */ new = (SendTagQPtr) xalloc(sizeof(SendTagQRec)); newlist = (ClientPtr *) xalloc(sizeof(ClientPtr)); if (!new || !newlist) { xfree(new); xfree(newlist); return LbxSendTagFailed; } *newlist = client; new->stalled_clients = newlist; new->num_stalled = 1; new->tag = tag; new->next = NULL; /* stick on end of list */ *prev = new; return LbxSendTagSendIt; } static SendTagQPtr LbxFindQTag(XID tag) { SendTagQPtr stqp; for (stqp = queried_tags; stqp; stqp = stqp->next) { if (stqp->tag == tag) return stqp; } return NULL; } static void LbxFreeQTag(SendTagQPtr stqp) { xfree(stqp->stalled_clients); xfree(stqp); } static void LbxRemoveQTag(XID tag) { SendTagQPtr stqp, *prev; for (prev = &queried_tags; (stqp = *prev); prev = &stqp->next) { if (stqp->tag == tag) { *prev = stqp->next; LbxFreeQTag(stqp); return; } } } Bool LbxFlushQTag(XID tag) { SendTagQPtr stqp; ClientPtr *cp; stqp = LbxFindQTag(tag); if (!stqp) return FALSE; for (cp = stqp->stalled_clients; --stqp->num_stalled >= 0; cp++) AttendClient(*cp); LbxRemoveQTag(tag); return TRUE; } void ProcessQTagZombies(void) { SendTagQPtr stqp; ClientPtr *out, *in; int i; for (stqp = queried_tags; stqp; stqp = stqp->next) { out = stqp->stalled_clients; for (in = out, i = stqp->num_stalled; --i >= 0; in++) { if ((*in)->clientGone) --stqp->num_stalled; else *out++ = *in; } } } /* * server sends this */ void LbxQueryTagData(ClientPtr client, int owner_pid, XID tag, int tagtype) { /* save the info and the client being stalled */ if (LbxQueueSendTag(client, tag) == LbxSendTagSendIt) LbxSendSendTagData(owner_pid, tag, tagtype); } /* * server recieves this */ int LbxTagData(ClientPtr client, XID tag, unsigned long len, pointer data) { TagData td; PropertyPtr pProp; td = TagGetTag(tag); if (!td || td->data_type != LbxTagTypeProperty) return Success; if (!td->global) { /* somebody changed contents while we were querying */ TagDeleteTag(tag); return Success; } LbxFlushQTag(tag); pProp = (PropertyPtr) td->tdata; if (pProp->tag_id != tag || pProp->owner_pid != LbxProxyID(client)) return Success; pProp->owner_pid = 0; if (len != td->size) pProp->size = len / (pProp->format >> 3); pProp->data = xrealloc(pProp->data, len); if (!pProp->data) { pProp->size = 0; return Success; } if (client->swapped) { switch (pProp->format) { case 32: SwapLongs((CARD32 *) data, len >> 2); break; case 16: SwapShorts((short *) data, len >> 1); break; default: break; } } memmove((char *) pProp->data, (char *) data, len); return Success; } /* when server resets, need to reset global tags */ void LbxResetTags(void) { SendTagQPtr stqp; modifier_map_tag = 0; keyboard_map_tag = 0; /* clean out any pending tag requests */ while ((stqp = queried_tags)) { queried_tags = stqp->next; LbxFreeQTag(stqp); } }