/* * protocol dispatcher */ /* Copyright 1990, 1991, 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 1990, 1991 Network Computing Devices; * Portions Copyright 1987 by Digital Equipment Corporation * * 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 names of Network Computing Devices, or Digital * not be used in advertising or publicity pertaining to distribution * of the software without specific, written prior permission. * * NETWORK COMPUTING DEVICES, AND DIGITAL DISCLAIM ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL NETWORK COMPUTING DEVICES, * OR DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF * THIS SOFTWARE. */ #include "config.h" #include #include "dispatch.h" #include "swapreq.h" #include "swaprep.h" #include #include #include "clientstr.h" #include "authstr.h" #include "osstruct.h" #include "extentst.h" #include "globals.h" #include "fsresource.h" #include "difsfnst.h" #include #include "site.h" #include "fsevents.h" #include "globals.h" #include "difs.h" #include "access.h" static void kill_all_clients(void); volatile char dispatchException = 0; volatile char isItTimeToYield; ClientPtr currentClient; static int nClients = 0; static int nextFreeClientID; #define MAJOROP ((fsReq *)client->requestBuffer)->reqType #define ALL_FORMAT_BITS (BitmapFormatByteOrderMask | \ BitmapFormatBitOrderMask | \ BitmapFormatScanlineUnitMask | \ BitmapFormatScanlinePadMask | \ BitmapFormatImageRectMask) #define ALL_FORMAT_MASK_BITS (BitmapFormatMaskByte | \ BitmapFormatMaskBit | \ BitmapFormatMaskImageRectangle | \ BitmapFormatMaskScanLinePad | \ BitmapFormatMaskScanLineUnit) void Dispatch(void) { int nready, result; int *clientReady; ClientPtr client; int op; nextFreeClientID = MINCLIENT; nClients = 0; clientReady = (int *) ALLOCATE_LOCAL(sizeof(int) * MaxClients); if (!clientReady) return; while (1) { /* wait for something */ nready = WaitForSomething(clientReady); while (!dispatchException && (--nready >= 0)) { client = currentClient = clients[clientReady[nready]]; /* Client can be NULL if CloseDownClient() is called during this dispatchException loop. */ if (client == (ClientPtr)NULL) continue; isItTimeToYield = FALSE; while (!isItTimeToYield) { result = ReadRequest(client); if (result <= 0) { if (result < 0) CloseDownClient(client); break; } client->sequence++; if (result > (MAX_REQUEST_SIZE << 2)) result = FSBadLength; else { op = MAJOROP; if (op >= NUM_PROC_VECTORS) result = ProcBadRequest (client); else if (*client->requestVector[op] != NULL) result = (*client->requestVector[op]) (client); else result = FSBadRequest; } if (result != FSSuccess) { if (client->noClientException != FSSuccess) CloseDownClient(client); break; } } FlushAllOutput (); } /* reset if server is a drone and has run out of clients */ if (drone_server && nClients == 0) { dispatchException |= DE_RESET; } if (dispatchException) { /* re-read the config file */ if (dispatchException & DE_RECONFIG) { NoticeF("re-reading config file\n"); if (ReadConfigFile(configfilename) != FSSuccess) ErrorF("couldn't parse config file\n"); SetConfigValues(); dispatchException &= ~DE_RECONFIG; } /* flush all the caches */ if (dispatchException & DE_FLUSH) { NoticeF("flushing all caches\n"); dispatchException &= ~DE_FLUSH; } /* reset */ if (dispatchException & DE_RESET) { NoticeF("resetting\n"); break; } /* die *now* */ if (dispatchException & DE_TERMINATE) { NoticeF("terminating\n"); kill_all_clients(); CloseSockets(); CloseErrors(); exit(0); break; } } } kill_all_clients(); dispatchException = 0; } int ProcInitialConnection(ClientPtr client) { REQUEST(fsFakeReq); fsConnClientPrefix *prefix; int whichbyte = 1; prefix = (fsConnClientPrefix *) stuff+1; if ((prefix->byteOrder != 'l') && (prefix->byteOrder != 'B')) return (client->noClientException = -2); if (((*(char *) &whichbyte) && (prefix->byteOrder == 'B')) || (!(*(char *) &whichbyte) && (prefix->byteOrder == 'l'))) { int status; client->swapped = TRUE; status = SwapConnClientPrefix(client, prefix); if (status != FSSuccess) return (status); } client->major_version = prefix->major_version; client->minor_version = prefix->minor_version; stuff->reqType = 2; stuff->length += prefix->auth_len; if (client->swapped) { stuff->length = lswaps(stuff->length); } ResetCurrentRequest(client); return client->noClientException; } int ProcEstablishConnection(ClientPtr client) { fsConnClientPrefix *prefix; int ret; pointer auth_data; char *ad; char *server_auth_data; AuthPtr client_auth; int i, num_alts, altlen, auth_accept, auth_index, auth_len; AlternateServerPtr altservers; REQUEST(fsFakeReq); prefix = (fsConnClientPrefix *) stuff+1; auth_data = prefix + sz_fsConnClientPrefix; client_auth = (AuthPtr) ALLOCATE_LOCAL(prefix->num_auths * sizeof(AuthRec)); if (!client_auth) { SendErrToClient(client, FSBadAlloc, (pointer) 0); return FSBadAlloc; } /* XXXX -- this needs work for multiple auth replies */ /* build up a list of the stuff */ for (i = 0, ad = auth_data; i < (int)prefix->num_auths; i++) { if (ad - (char *)auth_data > (stuff->length << 2) - 4) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, (pointer)&lengthword); return (FSBadLength); } /* copy carefully in case wire data is not aligned */ client_auth[i].namelen = (((unsigned char *)ad)[0] << 8) + ((unsigned char *)ad)[1]; ad += 2; client_auth[i].datalen = (((unsigned char *)ad)[0] << 8) + ((unsigned char *)ad)[1]; ad += 2; client_auth[i].name = (char *) ad; ad += client_auth[i].namelen; client_auth[i].data = (char *) ad; ad += client_auth[i].datalen; } if (!(int)prefix->num_auths) ad += 4; if (ad - (char *)auth_data > (stuff->length << 2)) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, (pointer)&lengthword); return (FSBadLength); } num_alts = ListAlternateServers(&altservers); for (i = 0, altlen = 0; i < num_alts; i++) { /* subset + len + namelen + pad */ altlen += (2 + altservers[i].namelen + 3) >> 2; } auth_index = prefix->num_auths; client->auth_generation = 0; ret = CheckClientAuthorization(client, client_auth, &auth_accept, &auth_index, &auth_len, &server_auth_data); if (auth_index > 0) { AuthContextPtr authp; authp = (AuthContextPtr) fsalloc(sizeof(AuthContextRec)); if (!authp) { SendErrToClient(client, FSBadAlloc, (pointer) 0); return FSBadAlloc; } authp->authname = (char *) fsalloc(client_auth[auth_index - 1].namelen + 1); authp->authdata = (char *) fsalloc(client_auth[auth_index - 1].datalen + 1); if (!authp->authname || !authp->authdata) { fsfree((char *) authp->authname); fsfree((char *) authp->authdata); fsfree((char *) authp); SendErrToClient(client, FSBadAlloc, (pointer) 0); return FSBadAlloc; } memmove( authp->authname, client_auth[auth_index - 1].name, client_auth[auth_index - 1].namelen); memmove( authp->authdata, client_auth[auth_index - 1].data, client_auth[auth_index - 1].datalen); /* Save it with a zero resource id... subsequent SetAuthorizations of None will find it. And it will be freed by FreeClientResources when the connection closes. */ if (!AddResource(client->index, 0, RT_AUTHCONT,(pointer) authp)) { fsfree((char *) authp->authname); fsfree((char *) authp->authdata); fsfree((char *) authp); SendErrToClient(client, FSBadAlloc, (pointer) 0); return FSBadAlloc; } client->auth = client->default_auth = authp; } else client->auth = client->default_auth = (AuthContextPtr)0; DEALLOCATE_LOCAL(client_auth); if (ret != FSSuccess) { SendErrToClient(client, FSBadAlloc, (pointer) 0); return FSBadAlloc; } else { fsConnSetup csp = { .status = auth_accept, /* we implement backwards compatibility for version 1.0 */ .major_version = (client->major_version == 1) ? client->major_version : FS_PROTOCOL, .minor_version = FS_PROTOCOL_MINOR, .num_alternates = num_alts, .alternate_len = altlen, .auth_len = auth_len >> 2, .auth_index = auth_index }; if (client->swapped) { WriteSConnSetup(client, &csp); } else { (void) WriteToClient(client, SIZEOF(fsConnSetup), (char *) &csp); } } /* send the alternates info */ for (i = 0; i < num_alts; i++) { char tmp[258]; /* WriteToClient pads, so we have to fake some things */ tmp[0] = altservers[i].subset; tmp[1] = altservers[i].namelen; memmove( (char *) &tmp[2], altservers[i].name, altservers[i].namelen); (void) WriteToClient(client, altservers[i].namelen + 2, tmp); } if (auth_len) (void) WriteToClient(client, auth_len, (char *) server_auth_data); if (auth_accept != AuthSuccess) { nClients--; return (client->noClientException = -2); } client->requestVector = client->swapped ? SwappedProcVector : ProcVector; client->sequence = 0; if (client->swapped) (void) WriteSConnectionInfo(client, ConnInfoLen, ConnectionInfo); else (void) WriteToClient(client, ConnInfoLen, ConnectionInfo); #ifdef DEBUG fprintf(stderr, "Establishing new connection\n"); #endif return client->noClientException; } /* * NOTE -- the incoming data may be mangled */ void DoSendErrToClient( ClientPtr client, int error, pointer data) /* resource id, format, resolution, etc */ { fsError rep = { .type = FS_Error, .request = error, .sequenceNumber = client->sequence, .timestamp = GetTimeInMillis(), .major_opcode = ((fsReq *) client->requestBuffer)->reqType, .minor_opcode = MinorOpcodeOfRequest(client) }; int extralen = 0; switch (error) { case FSBadFormat: extralen = SIZEOF(fsBitmapFormat); break; case FSBadFont: case FSBadAccessContext: case FSBadIDChoice: case FSBadEventMask: if (data) { if (client->swapped) SwapLongs((long *) data, 1); extralen = 4; } break; case FSBadRange: extralen = SIZEOF(fsRange); break; case FSBadResolution: if (data) { if (client->swapped) SwapShorts((short *) data, 1); /* note sneaky hack */ rep.pad = *(CARD16 *) data; data = (char *)data + 2; extralen = 4; } break; case FSBadLength: if (data) { if (client->swapped) SwapLongs((long *) data, 1); extralen = 4; } break; default: /* nothing else to send */ break; } rep.length = (SIZEOF(fsError) + extralen) >> 2; WriteErrorToClient(client, &rep); if (extralen) WriteToClient(client, extralen, (char *) data); } /* ARGSUSED */ int ProcBadRequest(ClientPtr client) { SendErrToClient(client, FSBadRequest, NULL); return FSBadRequest; } int ProcNoop(ClientPtr client) { REQUEST(fsReq); REQUEST_AT_LEAST_SIZE(fsReq); return client->noClientException; } int ProcListCatalogues(ClientPtr client) { int len, num; char *catalogues; fsListCataloguesReply rep = { .type = FS_Reply, .sequenceNumber = client->sequence, .num_replies = 0 }; REQUEST(fsListCataloguesReq); REQUEST_AT_LEAST_SIZE(fsListCataloguesReq); num = ListCatalogues((char *)stuff + SIZEOF(fsListCataloguesReq), stuff->nbytes, stuff->maxNames, &catalogues, &len); rep.num_catalogues = num; rep.length = (SIZEOF(fsListCataloguesReply) + len + 3) >> 2; WriteReplyToClient(client, SIZEOF(fsListCataloguesReply), &rep); (void) WriteToClient(client, len, (char *) catalogues); fsfree((char *) catalogues); return client->noClientException; } int ProcSetCatalogues(ClientPtr client) { char *new_cat; int err, len; int num; REQUEST(fsSetCataloguesReq); REQUEST_AT_LEAST_SIZE(fsSetCataloguesReq); if (stuff->num_catalogues == 0) { /* use the default */ num = ListCatalogues("*", 1, 10000, &new_cat, &len); } else { num = stuff->num_catalogues; err = ValidateCatalogues(&num, (char *)stuff + SIZEOF(fsSetCataloguesReq)); if (err == FSSuccess) { len = (stuff->length << 2) - SIZEOF(fsSetCataloguesReq); new_cat = (char *) fsalloc(len); if (!new_cat) return FSBadAlloc; memmove( new_cat, (char *)stuff + SIZEOF(fsSetCataloguesReq), len); } else { SendErrToClient(client, err, (pointer) &num); return err; } } if (client->catalogues) fsfree((char *) client->catalogues); client->catalogues = new_cat; client->num_catalogues = num; return client->noClientException; } int ProcGetCatalogues(ClientPtr client) { int len, i, size; char *cp; REQUEST(fsGetCataloguesReq); REQUEST_AT_LEAST_SIZE(fsGetCataloguesReq); for (i = 0, len = 0, cp = client->catalogues; i < client->num_catalogues; i++) { size = *cp++; len += size + 1; /* str length + size byte */ cp += size; } { fsGetCataloguesReply rep = { .type = FS_Reply, .num_catalogues = client->num_catalogues, .sequenceNumber = client->sequence, .length = (SIZEOF(fsGetCataloguesReply) + len + 3) >> 2 }; WriteReplyToClient(client, SIZEOF(fsGetCataloguesReply), &rep); } (void) WriteToClient(client, len, client->catalogues); return client->noClientException; } int ProcCreateAC(ClientPtr client) { AuthPtr acp; AuthContextPtr authp; int accept, i, err, index, size; char *ad; char *auth_data; REQUEST(fsCreateACReq); REQUEST_AT_LEAST_SIZE(fsCreateACReq); authp = (AuthContextPtr) LookupIDByType(client->index, stuff->acid, RT_AUTHCONT); if (authp) { int aligned_acid = stuff->acid; SendErrToClient(client, FSBadIDChoice, (pointer) &aligned_acid); return FSBadIDChoice; } acp = NULL; if (stuff->num_auths) { acp = (AuthPtr) ALLOCATE_LOCAL(stuff->num_auths * sizeof(AuthRec)); if (!acp) { SendErrToClient(client, FSBadAlloc, (pointer) NULL); return FSBadAlloc; } } /* build up a list of the stuff */ for (i = 0, ad = (char *)stuff + SIZEOF(fsCreateACReq); i < (int)stuff->num_auths; i++) { if (ad - (char *)stuff + SIZEOF(fsCreateACReq) > (stuff->length << 2) - 4) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, (pointer)&lengthword); return (FSBadLength); } /* copy carefully in case data is not aligned */ acp[i].namelen = (((unsigned char *)ad)[0] << 8) + ((unsigned char *)ad)[1]; ad += 2; acp[i].datalen = (((unsigned char *)ad)[0] << 8) + ((unsigned char *)ad)[1]; ad += 2; acp[i].name = (char *) ad; ad += acp[i].namelen; acp[i].data = (char *) ad; ad += acp[i].datalen; } if (ad - (char *)stuff > (stuff->length << 2)) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, (pointer)&lengthword); return (FSBadLength); } /* XXX needs work for AuthContinue */ index = stuff->num_auths; err = CheckClientAuthorization(client, acp, &accept, &index, &size, &auth_data); if (err != FSSuccess) { SendErrToClient(client, err, (pointer) 0); if (acp) DEALLOCATE_LOCAL(acp); return err; } authp = (AuthContextPtr) fsalloc(sizeof(AuthContextRec)); if (!authp) { goto alloc_failure; } authp->authname = NULL; authp->authdata = NULL; if (index > 0) { authp->authname = (char *) fsalloc(acp[index - 1].namelen + 1); authp->authdata = (char *) fsalloc(acp[index - 1].datalen + 1); if (!authp->authname || !authp->authdata) { fsfree((char *) authp->authname); fsfree((char *) authp->authdata); fsfree((char *) authp); goto alloc_failure; } memmove( authp->authname, acp[index - 1].name, acp[index - 1].namelen); memmove( authp->authdata, acp[index - 1].data, acp[index - 1].datalen); } else size = 0; authp->acid = stuff->acid; if (!AddResource(client->index, stuff->acid, RT_AUTHCONT,(pointer) authp)) { alloc_failure: SendErrToClient(client, FSBadAlloc, (pointer) 0); if (acp) DEALLOCATE_LOCAL(acp); return FSBadAlloc; } DEALLOCATE_LOCAL(acp); { fsCreateACReply rep = { .type = FS_Reply, .auth_index = index, .sequenceNumber = client->sequence, .status = accept, .length = (SIZEOF(fsCreateACReply) + size) >> 2 }; WriteReplyToClient(client, SIZEOF(fsCreateACReply), &rep); } if (size) (void) WriteToClient(client, size, auth_data); return client->noClientException; } /* ARGSUSED */ int DeleteAuthCont (pointer value, FSID id) { AuthContextPtr authp = (AuthContextPtr) value; if (authp->authname) fsfree (authp->authname); if (authp->authdata) fsfree (authp->authdata); fsfree (authp); return 1; } int ProcFreeAC(ClientPtr client) { AuthContextPtr authp; REQUEST(fsFreeACReq); REQUEST_AT_LEAST_SIZE(fsFreeACReq); authp = (AuthContextPtr) LookupIDByType(client->index, stuff->id, RT_AUTHCONT); if (!authp) { int aligned_id = stuff->id; SendErrToClient(client, FSBadIDChoice, (pointer) &aligned_id); return FSBadIDChoice; } if (client->auth == authp) client->auth = client->default_auth; FreeResource(client->index, stuff->id, RT_NONE); return client->noClientException; } int ProcSetAuthorization(ClientPtr client) { AuthContextPtr acp; REQUEST(fsSetAuthorizationReq); REQUEST_AT_LEAST_SIZE(fsSetAuthorizationReq); acp = (AuthContextPtr) LookupIDByType(client->index, stuff->id, RT_AUTHCONT); if (!acp) { int aligned_id = stuff->id; SendErrToClient(client, FSBadIDChoice, (pointer) &aligned_id); return FSBadIDChoice; } client->auth = acp; /* XXX does this need a refcount? */ return client->noClientException; } int ProcSetResolution(ClientPtr client) { fsResolution *new_res; REQUEST(fsSetResolutionReq); REQUEST_AT_LEAST_SIZE(fsSetResolutionReq); if ((stuff->length << 2) - SIZEOF(fsSetResolutionReq) < stuff->num_resolutions * SIZEOF(fsResolution)) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, &lengthword); return FSBadLength; } new_res = (fsResolution *) fsalloc(SIZEOF(fsResolution) * stuff->num_resolutions); if (!new_res) { SendErrToClient(client, FSBadAlloc, NULL); return FSBadAlloc; } fsfree((char *) client->resolutions); memmove( (char *) new_res, (char *)stuff + SIZEOF(fsSetResolutionReq), (stuff->num_resolutions * SIZEOF(fsResolution))); client->resolutions = new_res; client->num_resolutions = stuff->num_resolutions; return client->noClientException; } int ProcGetResolution(ClientPtr client) { REQUEST(fsReq); REQUEST_AT_LEAST_SIZE(fsReq); if ((stuff->length << 2) - SIZEOF(fsResolution) < client->num_resolutions * sizeof(fsResolution)) { int lengthword = stuff->length; SendErrToClient(client, FSBadLength, &lengthword); return FSBadLength; } else { fsGetResolutionReply reply = { .type = FS_Reply, .num_resolutions = client->num_resolutions, .sequenceNumber = client->sequence, .length = (SIZEOF(fsGetResolutionReply) + client->num_resolutions * SIZEOF(fsResolution)) >> 2 }; WriteReplyToClient(client, SIZEOF(fsGetResolutionReply), &reply); } if (client->swapped) client->pSwapReplyFunc = CopySwap16Write; WriteSwappedDataToClient(client, (client->num_resolutions * SIZEOF(fsResolution)), (short *)client->resolutions); return client->noClientException; } int ProcListFonts(ClientPtr client) { REQUEST(fsListFontsReq); REQUEST_FIXED_SIZE(fsListFontsReq, stuff->nbytes); return ListFonts(client, stuff->nbytes, (unsigned char *)stuff + SIZEOF(fsListFontsReq), stuff->maxNames); } int ProcListFontsWithXInfo(ClientPtr client) { REQUEST(fsListFontsWithXInfoReq); REQUEST_FIXED_SIZE(fsListFontsWithXInfoReq, stuff->nbytes); return StartListFontsWithInfo(client, stuff->nbytes, (unsigned char *)stuff + SIZEOF(fsListFontsWithXInfoReq), stuff->maxNames); } int ProcOpenBitmapFont(ClientPtr client) { FontPtr pfont; int nbytes, err; unsigned char *fname; REQUEST(fsOpenBitmapFontReq); fname = (unsigned char *)stuff + SIZEOF(fsOpenBitmapFontReq); nbytes = *fname++; REQUEST_FIXED_SIZE(fsOpenBitmapFontReq, (nbytes + 1)); pfont = (FontPtr) LookupIDByType(client->index, stuff->fid, RT_FONT); if (pfont) { int aligned_fid = stuff->fid; SendErrToClient(client, FSBadIDChoice, (pointer) &aligned_fid); return FSBadIDChoice; } if (stuff->format_hint != 0 && stuff->format_hint & ~ALL_FORMAT_BITS) { int aligned_format_hint = stuff->format_hint; SendErrToClient(client, FSBadFormat, (pointer) &aligned_format_hint); return FSBadFormat; } if (stuff->format_mask & ~ALL_FORMAT_MASK_BITS) { int aligned_format_mask = stuff->format_mask; SendErrToClient(client, FSBadFormat, (pointer) &aligned_format_mask); return FSBadFormat; } err = OpenFont(client, stuff->fid, stuff->format_hint, stuff->format_mask, nbytes, (char *) fname); if (err == FSSuccess) { return client->noClientException; } else { return err; } } int ProcQueryXInfo(ClientPtr client) { ClientFontPtr cfp; int err, lendata; fsQueryXInfoReply reply = { .type = FS_Reply, .sequenceNumber = client->sequence }; fsPropInfo *prop_info; REQUEST(fsQueryXInfoReq); REQUEST_AT_LEAST_SIZE(fsQueryXInfoReq); cfp = (ClientFontPtr) LookupIDByType(client->index, stuff->id, RT_FONT); if (!cfp) { int aligned_id = stuff->id; SendErrToClient(client, FSBadFont, (pointer) &aligned_id); return FSBadFont; } /* get the header */ fsPack_XFontInfoHeader(&cfp->font->info, &reply, client->major_version); err = convert_props(&cfp->font->info, &prop_info); switch (err) { case Successful: break; case AllocError: SendErrToClient(client, FSBadAlloc, (pointer) 0); return err; default: ErrorF("ProcQueryXInfo: unexpected return val %d from convert_props\n", err); SendErrToClient(client, FSBadImplementation, (pointer) 0); return err; } lendata = SIZEOF(fsPropInfo) + prop_info->num_offsets * SIZEOF(fsPropOffset) + prop_info->data_len; reply.length = (SIZEOF(fsQueryXInfoReply) + lendata + 3) >> 2; WriteReplyToClient(client, SIZEOF(fsQueryXInfoReply), &reply); if (client->swapped) SwapPropInfo(prop_info); (void) WriteToClient(client, lendata, (char *) prop_info); fsfree((char *) prop_info); return client->noClientException; } int ProcQueryXExtents(ClientPtr client) { ClientFontPtr cfp; int err; int item_size; REQUEST(fsQueryXExtents8Req); REQUEST_AT_LEAST_SIZE(fsQueryXExtents8Req); cfp = (ClientFontPtr) LookupIDByType(client->index, stuff->fid, RT_FONT); if (!cfp) { int aligned_fid = stuff->fid; SendErrToClient(client, FSBadFont, (pointer) &aligned_fid); return FSBadFont; } item_size = (stuff->reqType == FS_QueryXExtents8) ? 1 : 2; if (stuff->num_ranges > ((stuff->length << 2) - SIZEOF(fsQueryXExtents8Req))/item_size) { int num_ranges = stuff->num_ranges; SendErrToClient(client, FSBadLength, (pointer)&num_ranges); return FSBadLength; } /* get the extents */ err = QueryExtents(client, cfp, item_size, stuff->num_ranges, stuff->range, (char *)stuff + SIZEOF(fsQueryXExtents8Req)); if (err != FSSuccess) { return err; } else return client->noClientException; } int ProcQueryXBitmaps(ClientPtr client) { ClientFontPtr cfp; int err; int item_size; REQUEST(fsQueryXBitmaps8Req); REQUEST_AT_LEAST_SIZE(fsQueryXBitmaps8Req); cfp = (ClientFontPtr) LookupIDByType(client->index, stuff->fid, RT_FONT); if (!cfp) { int aligned_fid = stuff->fid; SendErrToClient(client, FSBadFont, (pointer) &aligned_fid); return FSBadFont; } if (stuff->format & ~ALL_FORMAT_BITS) { int aligned_format = stuff->format; SendErrToClient(client, FSBadFormat, (pointer) &aligned_format); return FSBadFormat; } assert((stuff->reqType == FS_QueryXBitmaps8) || (stuff->reqType == FS_QueryXBitmaps16)); item_size = (stuff->reqType == FS_QueryXBitmaps8) ? 1 : 2; if (stuff->num_ranges > ((stuff->length << 2) - SIZEOF(fsQueryXBitmaps8Req))/item_size) { int num_ranges = stuff->num_ranges; SendErrToClient(client, FSBadLength, (pointer)&num_ranges); return FSBadLength; } /* get the glyphs */ err = QueryBitmaps(client, cfp, item_size, stuff->format, stuff->num_ranges, stuff->range, (char *)stuff + SIZEOF(fsQueryXBitmaps8Req)); if (err != FSSuccess) { return err; } else { return client->noClientException; } } int ProcCloseFont(ClientPtr client) { ClientFontPtr cfp; REQUEST(fsResourceReq); REQUEST_SIZE_MATCH(fsResourceReq); cfp = (ClientFontPtr) LookupIDByType(client->index, stuff->id, RT_FONT); if (cfp) { FreeResource(client->index, stuff->id, RT_NONE); return client->noClientException; } else { int aligned_id = stuff->id; SendErrToClient(client, FSBadFont, (pointer) &aligned_id); return FSBadFont; } } void DoCloseDownClient(ClientPtr client) { if (client->clientGone != CLIENT_GONE) { DeleteClientFontStuff(client); client->clientGone = CLIENT_GONE; CloseDownConnection(client); --nClients; } if (ClientIsAsleep(client)) ClientSignal((pointer)client); else { FreeClientResources(client); if (client->index < nextFreeClientID) nextFreeClientID = client->index; clients[client->index] = NullClient; #ifdef DebugConnectionTranslation CheckFileNumbers(); #endif /* DebugConnectionTranslation */ #ifdef NOTYET /* reset server when last client goes away */ if (client->requestVector != InitialVector && nClients == 0) dispatchException |= DE_RESET; #endif if (currentClient == client) currentClient = serverClient; fsfree(client); #ifdef DEBUG fprintf(stderr, "Shut down client\n"); #endif while (!clients[currentMaxClients - 1]) currentMaxClients--; } } static void kill_all_clients(void) { int i; for (i = MINCLIENT; i < currentMaxClients; i++) { if (clients[i]) CloseDownClient(clients[i]); } } void InitProcVectors(void) { int i; for (i = 0; i < NUM_PROC_VECTORS; i++) { if (!ProcVector[i]) { ProcVector[i] = SwappedProcVector[i] = ProcBadRequest; ReplySwapVector[i] = (ReplySwapFunc)NotImplemented; } } for (i = FSLASTEvent; i < NUM_EVENT_VECTORS; i++) { EventSwapVector[i] = (EventSwapFunc)NotImplemented; } } void InitClient( ClientPtr client, int i, pointer ospriv) { if (i != SERVER_CLIENT) { nClients++; } client->index = i; client->sequence = 0; client->last_request_time = GetTimeInMillis(); client->clientGone = CLIENT_ALIVE; client->noClientException = FSSuccess; client->requestVector = InitialVector; client->osPrivate = ospriv; client->swapped = FALSE; client->auth = (AuthContextPtr) 0; client->catalogues = NULL; client->num_catalogues = 0; client->num_resolutions = 0; client->resolutions = (fsResolution *) 0; client->eventmask = (Mask) 0; } ClientPtr NextAvailableClient(pointer ospriv) { int i; ClientPtr client; fsFakeReq data; i = nextFreeClientID; if (i == MaxClients) return NullClient; clients[i] = client = (ClientPtr) fsalloc(sizeof(ClientRec)); if (!client) return NullClient; InitClient(client, i, ospriv); if (!InitClientResources(client)) { fsfree(client); return NullClient; } data.reqType = 1; data.length = (sizeof(fsFakeReq) + SIZEOF(fsConnClientPrefix)) >> 2; if (!InsertFakeRequest(client, (char *) &data, sizeof(fsFakeReq))) { FreeClientResources(client); fsfree(client); return NullClient; } if (i == currentMaxClients) currentMaxClients++; while ((nextFreeClientID < MAXCLIENTS) && clients[nextFreeClientID]) nextFreeClientID++; /* if we've maxed out, try to clone */ if (nextFreeClientID == MaxClients) { CloneMyself(); } return client; } void MarkClientException(ClientPtr client) { client->noClientException = -2; }