/* * Dump a typelib (tlb) file * * Copyright 2006 Jacek Caban * * 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 "wine/port.h" #include #include #include #include "windef.h" #include "winedump.h" #define MSFT_MAGIC 0x5446534d #define HELPDLLFLAG 0x0100 enum TYPEKIND { TKIND_ENUM = 0, TKIND_RECORD, TKIND_MODULE, TKIND_INTERFACE, TKIND_DISPATCH, TKIND_COCLASS, TKIND_ALIAS, TKIND_UNION, TKIND_MAX }; struct seg_t; typedef int (*dump_seg_t)(struct seg_t*); typedef struct seg_t { const char *name; dump_seg_t func; int offset; int length; } seg_t; extern seg_t segdir[]; static int offset=0; static int indent; static int typeinfo_cnt; static int header_flags = 0; static int msft_eof = 0; static int msft_typeinfo_offs[1000]; static int msft_typeinfo_kind[1000]; static int msft_typeinfo_impltypes[1000]; static int msft_typeinfo_elemcnt[1000]; static int msft_typeinfo_cnt = 0; static const void *tlb_read(int size) { const void *ret = PRD(offset, size); if(ret) offset += size; else msft_eof = -1; return ret; } static int tlb_read_int(void) { const int *ret = (const int*)tlb_read(sizeof(int)); return ret ? *ret : -1; } static int tlb_read_short(void) { const short *ret = (const short*)tlb_read(sizeof(short)); return ret ? *ret : -1; } static int tlb_read_byte(void) { const unsigned char *ret = (const unsigned char*)tlb_read(sizeof(char)); return ret ? *ret : -1; } static void print_offset(void) { int i; printf("%04x: ", offset); for(i=0; i>= 2; buf = tlb_read(len); fwrite(buf, len, 1, stdout); printf("\""); len += 2; while(len++ & 3) printf("\\%02x", tlb_read_byte()); printf("\n"); } static void dump_binary(int n) { int i; for(i = 1; i <= n; i++) { switch(i & 0x0f) { case 0: printf("%02x\n", tlb_read_byte()); break; case 1: print_offset(); /* fall through */ default: printf("%02x ", tlb_read_byte()); } } if(n&0x0f) printf("\n"); } static void dump_msft_header(void) { print_begin_block("Header"); print_hex("magic1"); print_hex("magic2"); print_hex("posguid"); print_hex("lcid"); print_hex("lsid2"); header_flags = print_hex("varflags"); print_hex("version"); print_hex("flags"); typeinfo_cnt = print_dec("ntypeinfos"); print_hex("helpstring"); print_hex("helpstringcontext"); print_hex("helpcontext"); print_dec("nametablecont"); print_dec("nametablechars"); print_hex("NameOffset"); print_hex("helpfile"); print_hex("CustomDataOffset"); print_hex("res44"); print_hex("res48"); print_hex("dispatchpos"); print_hex("res50"); print_end_block(); } static void dump_msft_typeinfobase(void) { print_begin_block_id("TypeInfoBase", msft_typeinfo_cnt); msft_typeinfo_kind[msft_typeinfo_cnt] = print_hex("typekind"); msft_typeinfo_offs[msft_typeinfo_cnt] = print_hex("memoffset"); print_hex("res2"); print_hex("res3"); print_hex("res4"); print_hex("res5"); msft_typeinfo_elemcnt[msft_typeinfo_cnt] = print_hex("cElement"); print_hex("res7"); print_hex("res8"); print_hex("res9"); print_hex("resA"); print_hex("posguid"); print_hex("flags"); print_hex("NameOffset"); print_hex("version"); print_hex("docstringoffs"); print_hex("docstringcontext"); print_hex("helpcontext"); print_hex("oCustData"); msft_typeinfo_impltypes[msft_typeinfo_cnt++] = print_short_hex("cImplTypes"); print_short_hex("bSizeVftt"); print_dec("size"); print_hex("datatype1"); print_hex("datatype2"); print_hex("res18"); print_hex("res19"); print_end_block(); } static int dump_msft_typeinfobases(seg_t *seg) { int i; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_typeinfobase(); assert(offset == seg->offset+seg->length); return -1; } static void dump_msft_impinfo(int n) { print_begin_block_id("ImpInfo", n); print_hex("flags"); print_hex("oImpInfo"); print_hex("oGuid"); print_end_block(); } static int dump_msft_impinfos(seg_t *seg) { int i; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_impinfo(i); assert(offset == seg->offset+seg->length); return -1; } static void dump_msft_impfile(int n) { print_begin_block_id("ImpFile", n); print_hex("guid"); print_hex("lcid"); print_hex("version"); print_ctl2("impfile"); print_end_block(); } static int dump_msft_impfiles(seg_t *seg) { int i; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_impfile(i); assert(offset == seg->offset+seg->length); return -1; } static int dump_msft_reftabs(seg_t *seg) { print_begin_block("RefTab"); dump_binary(seg->length); /* FIXME */ print_end_block(); return -1; } static int dump_msft_libtab(seg_t *seg) { print_begin_block("LibTab"); dump_binary(seg->length); /* FIXME */ print_end_block(); assert(offset == seg->offset+seg->length); return -1; } static void dump_msft_guidentry(int n) { print_begin_block_id("GuidEntry", n); print_guid("guid"); print_hex("hreftype"); print_hex("next_hash"); print_end_block(); } static int dump_msft_guidtab(seg_t *seg) { int i; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_guidentry(i); assert(offset == seg->offset+seg->length); return -1; } static int dump_msft_res07(seg_t *seg) { print_begin_block("res07"); dump_binary(seg->length); /* FIXME */ print_end_block(); return -1; } static void dump_msft_name(int base, int n) { int len; print_begin_block_id("Name", n); print_hex("hreftype"); print_hex("next_hash"); len = print_hex("namelen")&0xff; print_offset(); printf("name = \""); fwrite(tlb_read(len), len, 1, stdout); printf("\" "); while(len++ & 3) printf("\\%2.2x", tlb_read_byte()); printf("\n"); print_end_block(); } static int dump_msft_nametab(seg_t *seg) { int i, base = offset; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_name(base, i); assert(offset == seg->offset+seg->length); return -1; } static int dump_msft_stringtab(seg_t *seg) { print_begin_block("StringTab"); dump_binary(seg->length); /* FIXME */ print_end_block(); return -1; } static void dump_msft_typedesc(int n) { print_begin_block_id("TYPEDESC", n); print_hex("hreftype"); print_hex("vt"); print_end_block(); } static int dump_msft_typedesctab(seg_t *seg) { int i; print_begin_block("TypedescTab"); for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_typedesc(i); print_end_block(); assert(offset == seg->offset+seg->length); return -1; } static int dump_msft_arraydescs(seg_t *seg) { print_begin_block("ArrayDescriptions"); dump_binary(seg->length); /* FIXME */ print_end_block(); return -1; } static int dump_msft_custdata(seg_t *seg) { print_begin_block("CustData"); dump_binary(seg->length); /* FIXME */ print_end_block(); return -1; } static void dump_msft_cdguid(int n) { print_begin_block_id("CGUid", n); print_hex("GuidOffset"); print_hex("DataOffset"); print_hex("next"); print_end_block(); } static int dump_msft_cdguids(seg_t *seg) { int i; for(i = 0; offset < seg->offset+seg->length; i++) dump_msft_cdguid(i); assert(offset == seg->offset+seg->length); return -1; } static int dump_msft_res0e(seg_t *seg) { print_begin_block("res0e"); dump_binary(seg->length); print_end_block(); return -1; } static int dump_msft_res0f(seg_t *seg) { print_begin_block("res0f"); dump_binary(seg->length); print_end_block(); return -1; } static void dump_msft_func(int n) { int size, args_cnt, i, extra_attr, fkccic; print_begin_block_id("FuncRecord", n); size = print_short_hex("size"); print_short_hex("index"); print_hex("DataType"); print_hex("flags"); print_short_hex("VtableOffset"); print_short_hex("funcdescsize"); fkccic = print_hex("FKCCIC"); args_cnt = print_short_hex("nrargs"); print_short_hex("noptargs"); extra_attr = size/sizeof(INT) - 6 - args_cnt*(fkccic&0x1000 ? 4 : 3); if(extra_attr) print_hex("helpcontext"); if(extra_attr >= 2) print_hex("oHelpString"); if(extra_attr >= 3) print_hex("toEntry"); if(extra_attr >= 4) print_hex("res9"); if(extra_attr >= 5) print_hex("resA"); if(extra_attr >= 6) print_hex("HelpStringContext"); if(extra_attr >= 7) print_hex("oCustData"); if(fkccic & 0x1000) { for(i=0; i < args_cnt; i++) print_hex_id("default value[%d]", i); } for(i=0; i < args_cnt; i++) { print_begin_block_id("param", i); /* FIXME: Handle default values */ print_hex("data[0]"); print_hex("paramflags"); print_hex("data[2]"); print_end_block(); } print_end_block(); } static void dump_msft_var(int n) { INT size; print_begin_block_id("VarRecord", n); size = print_hex("recsize")&0x1ff; print_hex("DataType"); print_hex("flags"); print_short_hex("VarKind"); print_short_hex("vardescsize"); print_hex("OffsValue"); if(size > 5*sizeof(INT)) dump_binary(size - 5*sizeof(INT)); print_end_block(); } static void dump_msft_ref(int n) { print_begin_block_id("RefRecord", n); print_hex("reftype"); print_hex("flags"); print_hex("oCustData"); print_hex("onext"); print_end_block(); } static void dump_msft_coclass(int n) { int i; print_dec("size"); for(i=0; i < msft_typeinfo_impltypes[n]; i++) dump_msft_ref(i); } static int dump_msft_typeinfo(int n) { int i; print_begin_block_id("TypeInfo", n); if((msft_typeinfo_kind[n] & 0xf) == TKIND_COCLASS) { dump_msft_coclass(n); print_end_block(); return -1; } print_dec("size"); for(i = 0; i < LOWORD(msft_typeinfo_elemcnt[n]); i++) dump_msft_func(i); for(i = 0; i < HIWORD(msft_typeinfo_elemcnt[n]); i++) dump_msft_var(i); for(i = 0; i < LOWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("func %d id", i); for(i = 0; i < HIWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("var %d id", i); for(i = 0; i < LOWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("func %d name", i); for(i = 0; i < HIWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("var %d name", i); for(i = 0; i < LOWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("func %d offset", i); for(i = 0; i < HIWORD(msft_typeinfo_elemcnt[n]); i++) print_hex_id("var %d offset", i); print_end_block(); return -1; } seg_t segdir[] = { {"TypeInfoTab", dump_msft_typeinfobases, -1, -1}, {"ImpInfo", dump_msft_impinfos, -1, -1}, {"ImpFiles", dump_msft_impfiles, -1, -1}, {"RefTab", dump_msft_reftabs, -1, -1}, {"LibTab", dump_msft_libtab, -1, -1}, {"GuidTab", dump_msft_guidtab, -1, -1}, {"res07", dump_msft_res07, -1, -1}, {"pNameTab", dump_msft_nametab, -1, -1}, {"pStringTab", dump_msft_stringtab, -1, -1}, {"TypedescTab", dump_msft_typedesctab, -1, -1}, {"ArrayDescriptions", dump_msft_arraydescs, -1, -1}, {"CustData", dump_msft_custdata, -1, -1}, {"CDGuid", dump_msft_cdguids, -1, -1}, {"res0e", dump_msft_res0e, -1, -1}, {"res0f", dump_msft_res0f, -1, -1} }; static void dump_msft_seg(seg_t *seg) { print_begin_block(seg->name); seg->offset = print_hex("offset"); seg->length = print_dec("length"); print_hex("res08"); print_hex("res0c"); print_end_block(); } static void dump_msft_segdir(void) { int i; print_begin_block("SegDir"); for(i=0; i < sizeof(segdir)/sizeof(segdir[0]); i++) dump_msft_seg(segdir+i); print_end_block(); } static int dump_offset(void) { int i; for(i=0; i < sizeof(segdir)/sizeof(segdir[0]); i++) if(segdir[i].offset == offset) return segdir[i].func(segdir+i); for(i=0; i < msft_typeinfo_cnt; i++) if(msft_typeinfo_offs[i] == offset) return dump_msft_typeinfo(i); return 0; } enum FileSig get_kind_msft(void) { const DWORD *sig = PRD(0, sizeof(DWORD)); return sig && *sig == MSFT_MAGIC ? SIG_MSFT : SIG_UNKNOWN; } void msft_dump(void) { int i; dump_msft_header(); for(i=0; i < typeinfo_cnt; i++) print_hex_id("typeinfo %d offset", i); if(header_flags & HELPDLLFLAG) print_hex("help dll offset"); print_offset(); printf("\n"); dump_msft_segdir(); while(!msft_eof) { if(!dump_offset()) print_hex("unknown"); } }