/* * Create dynamic new structures of various types * and some utils in that trend. * * Copyright 1998 Bertho A. Stultiens * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include #include #include #include #include #include "wrc.h" #include "newstruc.h" #include "utils.h" #include "parser.h" #include "wingdi.h" /* for BITMAPINFOHEADER */ #include typedef struct { DWORD biSize; WORD biWidth; WORD biHeight; WORD biPlanes; WORD biBitCount; } BITMAPOS2HEADER; #include /* New instances for all types of structures */ /* Very inefficient (in size), but very functional :-] * Especially for type-checking. */ dialog_t *new_dialog(void) { dialog_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } name_id_t *new_name_id(void) { name_id_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } menu_t *new_menu(void) { menu_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } menu_item_t *new_menu_item(void) { menu_item_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } control_t *new_control(void) { control_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } icon_t *new_icon(void) { icon_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } cursor_t *new_cursor(void) { cursor_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } versioninfo_t *new_versioninfo(void) { versioninfo_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } ver_value_t *new_ver_value(void) { ver_value_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } ver_block_t *new_ver_block(void) { ver_block_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } stt_entry_t *new_stt_entry(void) { stt_entry_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } accelerator_t *new_accelerator(void) { accelerator_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } event_t *new_event(void) { event_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } raw_data_t *new_raw_data(void) { raw_data_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } lvc_t *new_lvc(void) { lvc_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } res_count_t *new_res_count(void) { res_count_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } string_t *new_string(void) { string_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } toolbar_item_t *new_toolbar_item(void) { toolbar_item_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } ani_any_t *new_ani_any(void) { ani_any_t *ret = xmalloc( sizeof(*ret) ); memset( ret, 0, sizeof(*ret) ); return ret; } resource_t *new_resource(enum res_e t, void *res, int memopt, language_t *lan) { resource_t *r = xmalloc(sizeof(resource_t)); memset( r, 0, sizeof(*r) ); r->type = t; r->res.overlay = res; r->memopt = memopt; r->lan = lan; return r; } version_t *new_version(DWORD v) { version_t *vp = xmalloc(sizeof(version_t)); *vp = v; return vp; } characts_t *new_characts(DWORD c) { characts_t *cp = xmalloc(sizeof(characts_t)); *cp = c; return cp; } language_t *new_language(int id, int sub) { language_t *lan = xmalloc(sizeof(language_t)); lan->id = id; lan->sub = sub; return lan; } language_t *dup_language(language_t *l) { if(!l) return NULL; return new_language(l->id, l->sub); } version_t *dup_version(version_t *v) { if(!v) return NULL; return new_version(*v); } characts_t *dup_characts(characts_t *c) { if(!c) return NULL; return new_characts(*c); } html_t *new_html(raw_data_t *rd, int *memopt) { html_t *html = xmalloc(sizeof(html_t)); html->data = rd; if(memopt) { html->memopt = *memopt; free(memopt); } else html->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE; return html; } rcdata_t *new_rcdata(raw_data_t *rd, int *memopt) { rcdata_t *rc = xmalloc(sizeof(rcdata_t)); rc->data = rd; if(memopt) { rc->memopt = *memopt; free(memopt); } else rc->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE; return rc; } font_id_t *new_font_id(int size, string_t *face, int weight, int italic) { font_id_t *fid = xmalloc(sizeof(font_id_t)); fid->name = face; fid->size = size; fid->weight = weight; fid->italic = italic; return fid; } user_t *new_user(name_id_t *type, raw_data_t *rd, int *memopt) { user_t *usr = xmalloc(sizeof(user_t)); usr->data = rd; if(memopt) { usr->memopt = *memopt; free(memopt); } else usr->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE; usr->type = type; return usr; } font_t *new_font(raw_data_t *rd, int *memopt) { font_t *fnt = xmalloc(sizeof(font_t)); fnt->data = rd; if(memopt) { fnt->memopt = *memopt; free(memopt); } else fnt->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE; return fnt; } fontdir_t *new_fontdir(raw_data_t *rd, int *memopt) { fontdir_t *fnd = xmalloc(sizeof(fontdir_t)); fnd->data = rd; if(memopt) { fnd->memopt = *memopt; free(memopt); } else fnd->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE; return fnd; } /* * Convert bitmaps to proper endian */ static void convert_bitmap_swap(BITMAPV5HEADER *bh, DWORD size) { bh->bV5Size = BYTESWAP_DWORD(bh->bV5Size); bh->bV5Width = BYTESWAP_DWORD(bh->bV5Width); bh->bV5Height = BYTESWAP_DWORD(bh->bV5Height); bh->bV5Planes = BYTESWAP_WORD(bh->bV5Planes); bh->bV5BitCount = BYTESWAP_WORD(bh->bV5BitCount); bh->bV5Compression = BYTESWAP_DWORD(bh->bV5Compression); bh->bV5SizeImage = BYTESWAP_DWORD(bh->bV5SizeImage); bh->bV5XPelsPerMeter = BYTESWAP_DWORD(bh->bV5XPelsPerMeter); bh->bV5YPelsPerMeter = BYTESWAP_DWORD(bh->bV5YPelsPerMeter); bh->bV5ClrUsed = BYTESWAP_DWORD(bh->bV5ClrUsed); bh->bV5ClrImportant = BYTESWAP_DWORD(bh->bV5ClrImportant); if (size == sizeof(BITMAPINFOHEADER)) return; bh->bV5RedMask = BYTESWAP_DWORD(bh->bV5RedMask); bh->bV5GreenMask = BYTESWAP_DWORD(bh->bV5GreenMask); bh->bV5BlueMask = BYTESWAP_DWORD(bh->bV5BlueMask); bh->bV5AlphaMask = BYTESWAP_DWORD(bh->bV5AlphaMask); bh->bV5CSType = BYTESWAP_DWORD(bh->bV5CSType); bh->bV5Endpoints.ciexyzRed.ciexyzX = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzRed.ciexyzX); bh->bV5Endpoints.ciexyzRed.ciexyzY = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzRed.ciexyzY); bh->bV5Endpoints.ciexyzRed.ciexyzZ = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzRed.ciexyzZ); bh->bV5Endpoints.ciexyzGreen.ciexyzX = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzGreen.ciexyzX); bh->bV5Endpoints.ciexyzGreen.ciexyzY = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzGreen.ciexyzY); bh->bV5Endpoints.ciexyzGreen.ciexyzZ = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzGreen.ciexyzZ); bh->bV5Endpoints.ciexyzBlue.ciexyzX = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzBlue.ciexyzX); bh->bV5Endpoints.ciexyzBlue.ciexyzY = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzBlue.ciexyzY); bh->bV5Endpoints.ciexyzBlue.ciexyzZ = BYTESWAP_DWORD(bh->bV5Endpoints.ciexyzBlue.ciexyzZ); bh->bV5GammaRed = BYTESWAP_DWORD(bh->bV5GammaRed); bh->bV5GammaGreen = BYTESWAP_DWORD(bh->bV5GammaGreen); bh->bV5GammaBlue = BYTESWAP_DWORD(bh->bV5GammaBlue); if (size == sizeof(BITMAPV4HEADER)) return; bh->bV5Intent = BYTESWAP_DWORD(bh->bV5Intent); bh->bV5ProfileData = BYTESWAP_DWORD(bh->bV5ProfileData); bh->bV5ProfileSize = BYTESWAP_DWORD(bh->bV5ProfileSize); bh->bV5Reserved = BYTESWAP_DWORD(bh->bV5Reserved); } static void convert_bitmap_swap_os2(BITMAPOS2HEADER *boh) { boh->biSize = BYTESWAP_DWORD(boh->biSize); boh->biWidth = BYTESWAP_WORD(boh->biWidth); boh->biHeight = BYTESWAP_WORD(boh->biHeight); boh->biPlanes = BYTESWAP_WORD(boh->biPlanes); boh->biBitCount = BYTESWAP_WORD(boh->biBitCount); } #define FL_SIGBE 0x01 #define FL_SIZEBE 0x02 static int convert_bitmap(char *data, int size) { BITMAPV5HEADER *bih = (BITMAPV5HEADER *)data; BITMAPOS2HEADER *boh = (BITMAPOS2HEADER *)data; DWORD bmsize; int type = 0; int returnSize = 0; /* size to be returned */ /* * Originally the bih and b4h pointers were simply incremented here, * and memmoved at the end of the function. This causes alignment * issues on solaris, so we do the memmove here rather than at the end. */ if(data[0] == 'B' && data[1] == 'M') { /* Little endian signature */ memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER)); returnSize = sizeof(BITMAPFILEHEADER); } else if(data[0] == 'M' && data[1] == 'B') { type |= FL_SIGBE; /* Big endian signature */ memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER)); returnSize = sizeof(BITMAPFILEHEADER); } bmsize = bih->bV5Size; if (bmsize >> 16) /* assume swapped */ { #ifndef WORDS_BIGENDIAN type |= FL_SIZEBE; #endif bmsize = BYTESWAP_DWORD( bmsize ); } else { #ifdef WORDS_BIGENDIAN type |= FL_SIZEBE; #endif } switch (bmsize) { case sizeof(BITMAPOS2HEADER): case sizeof(BITMAPINFOHEADER): case sizeof(BITMAPV4HEADER): case sizeof(BITMAPV5HEADER): break; default: parser_error("Invalid bitmap format, bih->biSize = %d", bih->bV5Size); } switch(type) { case FL_SIZEBE: parser_warning("Bitmap signature little-endian, but size big-endian\n"); break; case FL_SIGBE: parser_warning("Bitmap signature big-endian, but size little-endian\n"); break; } switch(byteorder) { #ifdef WORDS_BIGENDIAN default: #endif case WRC_BO_BIG: if(!(type & FL_SIZEBE)) { if (bmsize == sizeof(BITMAPOS2HEADER)) convert_bitmap_swap_os2(boh); else convert_bitmap_swap(bih, bmsize); } break; #ifndef WORDS_BIGENDIAN default: #endif case WRC_BO_LITTLE: if(type & FL_SIZEBE) { if (bmsize == sizeof(BITMAPOS2HEADER)) convert_bitmap_swap_os2(boh); else convert_bitmap_swap(bih, bmsize); } break; } if(size && (void *)data != (void *)bih) { /* We have the fileheader still attached, remove it */ memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER)); return sizeof(BITMAPFILEHEADER); } return returnSize; } #undef FL_SIGBE #undef FL_SIZEBE /* * Cursor and icon splitter functions used when allocating * cursor- and icon-groups. */ typedef struct { language_t lan; int id; } id_alloc_t; static int get_new_id(id_alloc_t **list, int *n, language_t *lan) { int i; assert(lan != NULL); assert(list != NULL); assert(n != NULL); if(!*list) { *list = xmalloc(sizeof(id_alloc_t)); *n = 1; (*list)[0].lan = *lan; (*list)[0].id = 1; return 1; } for(i = 0; i < *n; i++) { if((*list)[i].lan.id == lan->id && (*list)[i].lan.sub == lan->sub) return ++((*list)[i].id); } *list = xrealloc(*list, sizeof(id_alloc_t) * (*n+1)); (*list)[*n].lan = *lan; (*list)[*n].id = 1; *n += 1; return 1; } static int alloc_icon_id(language_t *lan) { static id_alloc_t *idlist = NULL; static int nid = 0; return get_new_id(&idlist, &nid, lan); } static int alloc_cursor_id(language_t *lan) { static id_alloc_t *idlist = NULL; static int nid = 0; return get_new_id(&idlist, &nid, lan); } static void split_icons(raw_data_t *rd, icon_group_t *icog, int *nico) { int cnt; int i; icon_t *ico; icon_t *list = NULL; icon_header_t *ih = (icon_header_t *)rd->data; int swap = 0; if(ih->type == 1) swap = 0; else if(BYTESWAP_WORD(ih->type) == 1) swap = 1; else parser_error("Icon resource data has invalid type id %d", ih->type); cnt = swap ? BYTESWAP_WORD(ih->count) : ih->count; for(i = 0; i < cnt; i++) { icon_dir_entry_t ide; BITMAPINFOHEADER info; memcpy(&ide, rd->data + sizeof(icon_header_t) + i*sizeof(icon_dir_entry_t), sizeof(ide)); ico = new_icon(); ico->id = alloc_icon_id(icog->lvc.language); ico->lvc = icog->lvc; if(swap) { ide.offset = BYTESWAP_DWORD(ide.offset); ide.ressize= BYTESWAP_DWORD(ide.ressize); } if(ide.offset > rd->size || ide.offset + ide.ressize > rd->size) parser_error("Icon resource data corrupt"); ico->width = ide.width; ico->height = ide.height; ico->nclr = ide.nclr; ico->planes = swap ? BYTESWAP_WORD(ide.planes) : ide.planes; ico->bits = swap ? BYTESWAP_WORD(ide.bits) : ide.bits; memcpy(&info, rd->data + ide.offset, sizeof(info)); convert_bitmap((char *) &info, 0); memcpy(rd->data + ide.offset, &info, sizeof(info)); if(!ico->planes) { /* Argh! They did not fill out the resdir structure */ /* The bitmap is in destination byteorder. We want native for our structures */ switch(byteorder) { #ifdef WORDS_BIGENDIAN case WRC_BO_LITTLE: #else case WRC_BO_BIG: #endif ico->planes = BYTESWAP_WORD(info.biPlanes); break; default: ico->planes = info.biPlanes; } } if(!ico->bits) { /* Argh! They did not fill out the resdir structure */ /* The bitmap is in destination byteorder. We want native for our structures */ switch(byteorder) { #ifdef WORDS_BIGENDIAN case WRC_BO_LITTLE: #else case WRC_BO_BIG: #endif ico->bits = BYTESWAP_WORD(info.biBitCount); break; default: ico->bits = info.biBitCount; } } ico->data = new_raw_data(); copy_raw_data(ico->data, rd, ide.offset, ide.ressize); if(!list) { list = ico; } else { ico->next = list; list->prev = ico; list = ico; } } icog->iconlist = list; *nico = cnt; } static void split_cursors(raw_data_t *rd, cursor_group_t *curg, int *ncur) { int cnt; int i; cursor_t *cur; cursor_t *list = NULL; cursor_header_t *ch = (cursor_header_t *)rd->data; int swap = 0; if(ch->type == 2) swap = 0; else if(BYTESWAP_WORD(ch->type) == 2) swap = 1; else parser_error("Cursor resource data has invalid type id %d", ch->type); cnt = swap ? BYTESWAP_WORD(ch->count) : ch->count; for(i = 0; i < cnt; i++) { cursor_dir_entry_t cde; BITMAPINFOHEADER info; memcpy(&cde, rd->data + sizeof(cursor_header_t) + i*sizeof(cursor_dir_entry_t), sizeof(cde)); cur = new_cursor(); cur->id = alloc_cursor_id(curg->lvc.language); cur->lvc = curg->lvc; if(swap) { cde.offset = BYTESWAP_DWORD(cde.offset); cde.ressize= BYTESWAP_DWORD(cde.ressize); } if(cde.offset > rd->size || cde.offset + cde.ressize > rd->size) parser_error("Cursor resource data corrupt"); cur->width = cde.width; cur->height = cde.height; cur->nclr = cde.nclr; memcpy(&info, rd->data + cde.offset, sizeof(info)); convert_bitmap((char *)&info, 0); memcpy(rd->data + cde.offset, &info, sizeof(info)); /* The bitmap is in destination byteorder. We want native for our structures */ switch(byteorder) { #ifdef WORDS_BIGENDIAN case WRC_BO_LITTLE: #else case WRC_BO_BIG: #endif cur->planes = BYTESWAP_WORD(info.biPlanes); cur->bits = BYTESWAP_WORD(info.biBitCount); break; default: cur->planes = info.biPlanes; cur->bits = info.biBitCount; } if(!win32 && (cur->planes != 1 || cur->bits != 1)) parser_warning("Win16 cursor contains colors\n"); cur->xhot = swap ? BYTESWAP_WORD(cde.xhot) : cde.xhot; cur->yhot = swap ? BYTESWAP_WORD(cde.yhot) : cde.yhot; cur->data = new_raw_data(); copy_raw_data(cur->data, rd, cde.offset, cde.ressize); if(!list) { list = cur; } else { cur->next = list; list->prev = cur; list = cur; } } curg->cursorlist = list; *ncur = cnt; } icon_group_t *new_icon_group(raw_data_t *rd, int *memopt) { icon_group_t *icog = xmalloc(sizeof(icon_group_t)); if(memopt) { icog->memopt = *memopt; free(memopt); } else icog->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE; icog->lvc = rd->lvc; split_icons(rd, icog, &(icog->nicon)); free(rd->data); free(rd); return icog; } cursor_group_t *new_cursor_group(raw_data_t *rd, int *memopt) { cursor_group_t *curg = xmalloc(sizeof(cursor_group_t)); if(memopt) { curg->memopt = *memopt; free(memopt); } else curg->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE; curg->lvc = rd->lvc; split_cursors(rd, curg, &(curg->ncursor)); free(rd->data); free(rd); return curg; } /* * Animated cursors and icons * * The format of animated cursors and icons is yet another example * of bad design by "The Company". The entire RIFF structure is * flawed by design because it is inconsistent and single minded: * - some tags have lengths attached, others don't. The use of these * non-length tags is absolutely unclear; * - the content of "icon" tags can be both icons and cursors; * - tags lack proper alignment constraints. It seems that everything * is 16bit aligned, but I could not find that in any docu. Just be * prepared to eat anything; * - there are no strict constraints on tag-nesting and the organization * is highly illogical; * * Anyhow, here is the basic structure: * "RIFF" { dword taglength } * "ACON" // What does it do? * "LIST" { dword taglength } * "INFO" // And what does this do? * "INAM" { dword taglength } // Icon/cursor name * {inam data} * "IART" { dword taglength } // The artist * {iart data} * "fram" // Is followed by "icon"s * "icon" { dword taglength } // First frame * { icon/cursor data } * "icon" { dword taglength } // Second frame * { icon/cursor data } * ... // ... * "anih" { dword taglength } // Header structure * { aniheader_t structure } * "rate" { dword taglength } // The rate for each frame * { `steps' dwords } * "seq " { dword taglength } // The frame blit-order * { `steps' dwords } * * Tag length are bytelength without the header and length field (i.e. -8). * The "LIST" tag may occur several times and may encapsulate different * tags. The `steps' is the number of "icon" tags found (actually the * number of steps specified in the aniheader_t structure). The "seq "uence * tag can be omitted, in which case the sequence is equal to the sequence * of "icon"s found in the file. Also "rate" may be omitted, in which case * the default from the aniheader_t structure is used. * * An animated cursor puts `.cur' formatted files into each "icon" tag, * whereas animated icons contain `.ico' formatted files. * * Note about the code: Yes, it can be shorter/compressed. Some tags can be * dealt with in the same code. However, this version shows what is going on * and is better debug-able. */ static const char riff[4] = "RIFF"; static const char acon[4] = "ACON"; static const char list[4] = "LIST"; static const char info[4] = "INFO"; static const char inam[4] = "INAM"; static const char iart[4] = "IART"; static const char fram[4] = "fram"; static const char icon[4] = "icon"; static const char anih[4] = "anih"; static const char rate[4] = "rate"; static const char seq[4] = "seq "; #define SKIP_TAG(p,size) ((riff_tag_t *)(((char *)p) + (size))) #define NEXT_TAG(p) SKIP_TAG(p,(isswapped ? BYTESWAP_DWORD(p->size) : p->size) + sizeof(*p)) static void handle_ani_icon(riff_tag_t *rtp, enum res_e type, int isswapped) { cursor_dir_entry_t *cdp; cursor_header_t *chp; int count; int ctype; int i; static int once = 0; /* This will trigger only once per file! */ const char *anistr = type == res_aniico ? "icon" : "cursor"; /* Notes: * Both cursor and icon directories are similar * Both cursor and icon headers are similar */ chp = (cursor_header_t *)(rtp+1); cdp = (cursor_dir_entry_t *)(chp+1); count = isswapped ? BYTESWAP_WORD(chp->count) : chp->count; ctype = isswapped ? BYTESWAP_WORD(chp->type) : chp->type; chp->reserved = BYTESWAP_WORD(chp->reserved); chp->type = BYTESWAP_WORD(chp->type); chp->count = BYTESWAP_WORD(chp->count); if(type == res_anicur && ctype != 2 && !once) { parser_warning("Animated cursor contains invalid \"icon\" tag cursor-file (%d->%s)\n", ctype, ctype == 1 ? "icontype" : "?"); once++; } else if(type == res_aniico && ctype != 1 && !once) { parser_warning("Animated icon contains invalid \"icon\" tag icon-file (%d->%s)\n", ctype, ctype == 2 ? "cursortype" : "?"); once++; } else if(ctype != 1 && ctype != 2 && !once) { parser_warning("Animated %s contains invalid \"icon\" tag file-type (%d; neither icon nor cursor)\n", anistr, ctype); once++; } for(i = 0; i < count; i++) { DWORD ofs = isswapped ? BYTESWAP_DWORD(cdp[i].offset) : cdp[i].offset; DWORD sze = isswapped ? BYTESWAP_DWORD(cdp[i].ressize) : cdp[i].ressize; if(ofs > rtp->size || ofs+sze > rtp->size) parser_error("Animated %s's data corrupt", anistr); convert_bitmap((char *)chp + ofs, 0); cdp[i].xhot = BYTESWAP_WORD(cdp->xhot); cdp[i].yhot = BYTESWAP_WORD(cdp->yhot); cdp[i].ressize = BYTESWAP_DWORD(cdp->ressize); cdp[i].offset = BYTESWAP_DWORD(cdp->offset); } } static void handle_ani_list(riff_tag_t *lst, enum res_e type, int isswapped) { riff_tag_t *rtp = lst+1; /* Skip the "LIST" tag */ while((char *)rtp < (char *)lst + lst->size + sizeof(*lst)) { if(!memcmp(rtp->tag, info, sizeof(info))) { rtp = SKIP_TAG(rtp,4); } else if(!memcmp(rtp->tag, inam, sizeof(inam))) { /* Ignore the icon/cursor name; its a string */ rtp = NEXT_TAG(rtp); } else if(!memcmp(rtp->tag, iart, sizeof(iart))) { /* Ignore the author's name; it's a string */ rtp = NEXT_TAG(rtp); } else if(!memcmp(rtp->tag, fram, sizeof(fram))) { /* This should be followed by "icon"s, but we * simply ignore this because it is pure * non-information. */ rtp = SKIP_TAG(rtp,4); } else if(!memcmp(rtp->tag, icon, sizeof(icon))) { handle_ani_icon(rtp, type, isswapped); rtp = NEXT_TAG(rtp); } else internal_error(__FILE__, __LINE__, "Unknown tag \"%c%c%c%c\" in RIFF file\n", isprint(rtp->tag[0]) ? rtp->tag[0] : '.', isprint(rtp->tag[1]) ? rtp->tag[1] : '.', isprint(rtp->tag[2]) ? rtp->tag[2] : '.', isprint(rtp->tag[3]) ? rtp->tag[3] : '.'); if((UINT_PTR)rtp & 1) rtp = SKIP_TAG(rtp,1); } } ani_curico_t *new_ani_curico(enum res_e type, raw_data_t *rd, int *memopt) { ani_curico_t *ani = xmalloc(sizeof(ani_curico_t)); riff_tag_t *rtp; int isswapped = 0; int doswap; const char *anistr = type == res_aniico ? "icon" : "cursor"; assert(!memcmp(rd->data, riff, sizeof(riff))); assert(type == res_anicur || type == res_aniico); rtp = (riff_tag_t *)rd->data; if(BYTESWAP_DWORD(rtp->size) + 2*sizeof(DWORD) == rd->size) isswapped = 1; else if(rtp->size + 2*sizeof(DWORD) == rd->size) isswapped = 0; else parser_error("Animated %s has an invalid RIFF length", anistr); switch(byteorder) { #ifdef WORDS_BIGENDIAN case WRC_BO_LITTLE: #else case WRC_BO_BIG: #endif doswap = !isswapped; break; default: doswap = isswapped; } /* * When to swap what: * isswapped | doswap | * ----------+--------+--------------------------------- * 0 | 0 | read native; don't convert * 1 | 0 | read swapped size; don't convert * 0 | 1 | read native; convert * 1 | 1 | read swapped size; convert * Reading swapped size if necessary to calculate in native * format. E.g. a little-endian source on a big-endian * processor. */ if(doswap) { /* We only go through the RIFF file if we need to swap * bytes in words/dwords. Else we couldn't care less * what the file contains. This is consistent with * MS' rc.exe, which doesn't complain at all, even though * the file format might not be entirely correct. */ rtp++; /* Skip the "RIFF" tag */ while((char *)rtp < (char *)rd->data + rd->size) { if(!memcmp(rtp->tag, acon, sizeof(acon))) { rtp = SKIP_TAG(rtp,4); } else if(!memcmp(rtp->tag, list, sizeof(list))) { handle_ani_list(rtp, type, isswapped); rtp = NEXT_TAG(rtp); } else if(!memcmp(rtp->tag, anih, sizeof(anih))) { aniheader_t *ahp = (aniheader_t *)((char *)(rtp+1)); ahp->structsize = BYTESWAP_DWORD(ahp->structsize); ahp->frames = BYTESWAP_DWORD(ahp->frames); ahp->steps = BYTESWAP_DWORD(ahp->steps); ahp->cx = BYTESWAP_DWORD(ahp->cx); ahp->cy = BYTESWAP_DWORD(ahp->cy); ahp->bitcount = BYTESWAP_DWORD(ahp->bitcount); ahp->planes = BYTESWAP_DWORD(ahp->planes); ahp->rate = BYTESWAP_DWORD(ahp->rate); ahp->flags = BYTESWAP_DWORD(ahp->flags); rtp = NEXT_TAG(rtp); } else if(!memcmp(rtp->tag, rate, sizeof(rate))) { int cnt = rtp->size / sizeof(DWORD); DWORD *dwp = (DWORD *)(rtp+1); int i; for(i = 0; i < cnt; i++) dwp[i] = BYTESWAP_DWORD(dwp[i]); rtp = NEXT_TAG(rtp); } else if(!memcmp(rtp->tag, seq, sizeof(seq))) { int cnt = rtp->size / sizeof(DWORD); DWORD *dwp = (DWORD *)(rtp+1); int i; for(i = 0; i < cnt; i++) dwp[i] = BYTESWAP_DWORD(dwp[i]); rtp = NEXT_TAG(rtp); } else internal_error(__FILE__, __LINE__, "Unknown tag \"%c%c%c%c\" in RIFF file\n", isprint(rtp->tag[0]) ? rtp->tag[0] : '.', isprint(rtp->tag[1]) ? rtp->tag[1] : '.', isprint(rtp->tag[2]) ? rtp->tag[2] : '.', isprint(rtp->tag[3]) ? rtp->tag[3] : '.'); if((UINT_PTR)rtp & 1) rtp = SKIP_TAG(rtp,1); } /* We must end correctly here */ if((char *)rtp != (char *)rd->data + rd->size) parser_error("Animated %s contains invalid field size(s)", anistr); } ani->data = rd; if(memopt) { ani->memopt = *memopt; free(memopt); } else ani->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE; return ani; } #undef NEXT_TAG /* Bitmaps */ bitmap_t *new_bitmap(raw_data_t *rd, int *memopt) { bitmap_t *bmp = xmalloc(sizeof(bitmap_t)); bmp->data = rd; if(memopt) { bmp->memopt = *memopt; free(memopt); } else bmp->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE; rd->size -= convert_bitmap(rd->data, rd->size); return bmp; } ver_words_t *new_ver_words(int i) { ver_words_t *w = xmalloc(sizeof(ver_words_t)); w->words = xmalloc(sizeof(WORD)); w->words[0] = (WORD)i; w->nwords = 1; return w; } ver_words_t *add_ver_words(ver_words_t *w, int i) { w->words = xrealloc(w->words, (w->nwords+1) * sizeof(WORD)); w->words[w->nwords] = (WORD)i; w->nwords++; return w; } #define MSGTAB_BAD_PTR(p, b, l, r) (((l) - ((char *)(p) - (char *)(b))) > (r)) messagetable_t *new_messagetable(raw_data_t *rd, int *memopt) { messagetable_t *msg = xmalloc(sizeof(messagetable_t)); msgtab_block_t *mbp; DWORD nblk; DWORD i; WORD lo; WORD hi; msg->data = rd; if(memopt) { msg->memopt = *memopt; free(memopt); } else msg->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE; if(rd->size < sizeof(DWORD)) parser_error("Invalid messagetable, size too small"); nblk = *(DWORD *)rd->data; lo = WRC_LOWORD(nblk); hi = WRC_HIWORD(nblk); /* FIXME: * This test will fail for all n*2^16 blocks in the messagetable. * However, no sane person would want to have so many blocks * and have a table of megabytes attached. * So, I will assume that we have less than 2^16 blocks in the table * and all will just work out fine. Otherwise, we would need to test * the ID, offset and length (and flag) fields to be very sure. */ if(hi && lo) internal_error(__FILE__, __LINE__, "Messagetable contains more than 65535 blocks; cannot determine endian\n"); if(!hi && !lo) parser_error("Invalid messagetable block count 0"); if(!hi && lo) /* Messagetable byteorder == native byteorder */ { #ifdef WORDS_BIGENDIAN if(byteorder != WRC_BO_LITTLE) goto out; #else if(byteorder != WRC_BO_BIG) goto out; #endif /* Resource byteorder != native byteorder */ mbp = (msgtab_block_t *)&(((DWORD *)rd->data)[1]); if(MSGTAB_BAD_PTR(mbp, rd->data, rd->size, nblk * sizeof(*mbp))) parser_error("Messagetable's blocks are outside of defined data"); for(i = 0; i < nblk; i++) { msgtab_entry_t *mep, *next_mep; DWORD id; mep = (msgtab_entry_t *)(((char *)rd->data) + mbp[i].offset); for(id = mbp[i].idlo; id <= mbp[i].idhi; id++) { if(MSGTAB_BAD_PTR(mep, rd->data, rd->size, mep->length)) parser_error("Messagetable's data for block %d, ID 0x%08x is outside of defined data", i, id); if(mep->flags == 1) /* Docu says 'flags == 0x0001' for unicode */ { WORD *wp = (WORD *)&mep[1]; int l = mep->length/2 - 2; /* Length included header */ int n; if(mep->length & 1) parser_error("Message 0x%08x is unicode (block %d), but has odd length (%d)", id, i, mep->length); for(n = 0; n < l; n++) wp[n] = BYTESWAP_WORD(wp[n]); } next_mep = (msgtab_entry_t *)(((char *)mep) + mep->length); mep->length = BYTESWAP_WORD(mep->length); mep->flags = BYTESWAP_WORD(mep->flags); mep = next_mep; } mbp[i].idlo = BYTESWAP_DWORD(mbp[i].idlo); mbp[i].idhi = BYTESWAP_DWORD(mbp[i].idhi); mbp[i].offset = BYTESWAP_DWORD(mbp[i].offset); } } if(hi && !lo) /* Messagetable byteorder != native byteorder */ { #ifdef WORDS_BIGENDIAN if(byteorder == WRC_BO_LITTLE) goto out; #else if(byteorder == WRC_BO_BIG) goto out; #endif /* Resource byteorder == native byteorder */ mbp = (msgtab_block_t *)&(((DWORD *)rd->data)[1]); nblk = BYTESWAP_DWORD(nblk); if(MSGTAB_BAD_PTR(mbp, rd->data, rd->size, nblk * sizeof(*mbp))) parser_error("Messagetable's blocks are outside of defined data"); for(i = 0; i < nblk; i++) { msgtab_entry_t *mep; DWORD id; mbp[i].idlo = BYTESWAP_DWORD(mbp[i].idlo); mbp[i].idhi = BYTESWAP_DWORD(mbp[i].idhi); mbp[i].offset = BYTESWAP_DWORD(mbp[i].offset); mep = (msgtab_entry_t *)(((char *)rd->data) + mbp[i].offset); for(id = mbp[i].idlo; id <= mbp[i].idhi; id++) { mep->length = BYTESWAP_WORD(mep->length); mep->flags = BYTESWAP_WORD(mep->flags); if(MSGTAB_BAD_PTR(mep, rd->data, rd->size, mep->length)) parser_error("Messagetable's data for block %d, ID 0x%08x is outside of defined data", i, id); if(mep->flags == 1) /* Docu says 'flags == 0x0001' for unicode */ { WORD *wp = (WORD *)&mep[1]; int l = mep->length/2 - 2; /* Length included header */ int n; if(mep->length & 1) parser_error("Message 0x%08x is unicode (block %d), but has odd length (%d)", id, i, mep->length); for(n = 0; n < l; n++) wp[n] = BYTESWAP_WORD(wp[n]); } mep = (msgtab_entry_t *)(((char *)mep) + mep->length); } } } out: return msg; } #undef MSGTAB_BAD_PTR void copy_raw_data(raw_data_t *dst, raw_data_t *src, unsigned int offs, int len) { assert(offs <= src->size); assert(offs + len <= src->size); if(!dst->data) { dst->data = xmalloc(len); dst->size = 0; } else dst->data = xrealloc(dst->data, dst->size + len); /* dst->size holds the offset to copy to */ memcpy(dst->data + dst->size, src->data + offs, len); dst->size += len; } int *new_int(int i) { int *ip = xmalloc(sizeof(int)); *ip = i; return ip; } stringtable_t *new_stringtable(lvc_t *lvc) { stringtable_t *stt = xmalloc(sizeof(stringtable_t)); memset( stt, 0, sizeof(*stt) ); if(lvc) stt->lvc = *lvc; return stt; } toolbar_t *new_toolbar(int button_width, int button_height, toolbar_item_t *items, int nitems) { toolbar_t *tb = xmalloc(sizeof(toolbar_t)); memset( tb, 0, sizeof(*tb) ); tb->button_width = button_width; tb->button_height = button_height; tb->nitems = nitems; tb->items = items; return tb; } dlginit_t *new_dlginit(raw_data_t *rd, int *memopt) { dlginit_t *di = xmalloc(sizeof(dlginit_t)); di->data = rd; if(memopt) { di->memopt = *memopt; free(memopt); } else di->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE; return di; } style_pair_t *new_style_pair(style_t *style, style_t *exstyle) { style_pair_t *sp = xmalloc(sizeof(style_pair_t)); sp->style = style; sp->exstyle = exstyle; return sp; } style_t *new_style(DWORD or_mask, DWORD and_mask) { style_t *st = xmalloc(sizeof(style_t)); st->or_mask = or_mask; st->and_mask = and_mask; return st; }