{ $Id$ Copyright (c) 1998-2000 by Peter Vreman Contains the binary elf writer * This code was inspired by the NASM sources The Netwide Assembler is copyright (C) 1996 Simon Tatham and Julian Hall. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } unit og386elf; interface uses cobjects, systems,cpubase,aasm,og386; type preloc = ^treloc; treloc = packed record next : preloc; address : longint; symbol : pasmsymbol; section : tsection; { only used if symbol=nil } typ : relative_type; end; psymbol = ^tsymbol; tsymbol = packed record name : longint; section : tsection; value : longint; bind : TAsmsymbind; typ : TAsmsymtype; size : longint; end; pelf32section = ^telf32section; telf32section = object name : string[16]; secshidx, secsymidx : longint; { index for the section in symtab } shstridx, shtype, shflags, shlink, shinfo, addralign, entsize : longint; { size of the data and in the file } data : PDynamicArray; datalen, datapos : longint; { settings after setsectionsize } size : longint; fillsize : longint; { relocation } nrelocs : longint; relochead : PReloc; reloctail : ^PReloc; relocsect : PElf32Section; constructor init(sec:TSection); constructor initname(const Aname:string;Atype,Aflags,Alink,Ainfo,Aalign,Aentsize:longint); destructor done; function write(var d;l:longint):longint; function writestr(const s:string):longint; procedure align(l:longint); procedure alloc(l:longint); procedure addsymreloc(ofs:longint;p:pasmsymbol;relative:relative_type); procedure addsectionreloc(ofs:longint;sec:tsection;relative:relative_type); end; pelf32output = ^telf32output; telf32output = object(tobjectoutput) sects : array[TSection] of pelf32Section; symtabsect, strtabsect, shstrtabsect, gotpcsect, gotoffsect, gotsect, pltsect, symsect : pelf32Section; strs, syms : Pdynamicarray; initsym : longint; constructor init(smart:boolean); destructor done;virtual; procedure initwriting(Aplace:tcutplace);virtual; procedure donewriting;virtual; function sectionsize(s:tsection):longint;virtual; procedure setsectionsizes(var s:tsecsize);virtual; procedure writebytes(var data;len:longint);virtual; procedure writealloc(len:longint);virtual; procedure writealign(len:longint);virtual; procedure writereloc(data,len:longint;p:pasmsymbol;relative:relative_type);virtual; procedure writesymbol(p:pasmsymbol);virtual; procedure writestabs(section:tsection;offset:longint;p:pchar;nidx,nother,line:longint;reloc:boolean);virtual; procedure writesymstabs(section:tsection;offset:longint;p:pchar;ps:pasmsymbol; nidx,nother,line:longint;reloc:boolean);virtual; private procedure createsection(sec:tsection); procedure createrelocsection(s:pelf32section); procedure createshstrtab; procedure createsymtab; procedure writesectionheader(s:pelf32section); procedure writetodisk; end; implementation uses strings,verbose, globtype,globals,files; const R_386_32 = 1; { ordinary absolute relocation } R_386_PC32 = 2; { PC-relative relocation } R_386_GOT32 = 3; { an offset into GOT } R_386_PLT32 = 4; { a PC-relative offset into PLT } R_386_GOTOFF = 9; { an offset from GOT base } R_386_GOTPC = 10; { a PC-relative offset _to_ GOT } SHN_UNDEF = 0; SHN_ABS = $fff1; SHN_COMMON = $fff2; SHT_NULL = 0; SHT_PROGBITS = 1; SHT_SYMTAB = 2; SHT_STRTAB = 3; SHT_RELA = 4; SHT_HASH = 5; SHT_DYNAMIC = 6; SHT_NOTE = 7; SHT_NOBITS = 8; SHT_REL = 9; SHT_SHLIB = 10; SHT_DYNSYM = 11; SHF_WRITE = 1; SHF_ALLOC = 2; SHF_EXECINSTR = 4; STB_LOCAL = 0; STB_GLOBAL = 1; STB_WEAK = 2; STT_NOTYPE = 0; STT_OBJECT = 1; STT_FUNC = 2; STT_SECTION = 3; STT_FILE = 4; type { Structures which are written directly to the output file } telf32header=packed record magic0123 : longint; file_class : byte; data_encoding : byte; file_version : byte; padding : array[$07..$0f] of byte; e_type : word; e_machine : word; e_version : longint; e_entry : longint; { entrypoint } e_phoff : longint; { program header offset } e_shoff : longint; { sections header offset } e_flags : longint; e_ehsize : word; { elf header size in bytes } e_phentsize : word; { size of an entry in the program header array } e_phnum : word; { 0..e_phnum-1 of entrys } e_shentsize : word; { size of an entry in sections header array } e_shnum : word; { 0..e_shnum-1 of entrys } e_shstrndx : word; { index of string section header } end; telf32sechdr=packed record sh_name : longint; sh_type : longint; sh_flags : longint; sh_addr : longint; sh_offset : longint; sh_size : longint; sh_link : longint; sh_info : longint; sh_addralign : longint; sh_entsize : longint; end; pelf32reloc=^telf32reloc; telf32reloc=packed record address : longint; info : longint; { bit 0-7: type, 8-31: symbol } end; pelf32symbol=^telf32symbol; telf32symbol=packed record st_name : longint; st_value : longint; st_size : longint; st_info : byte; { bit 0-3: type, 4-7: bind } st_other : byte; st_shndx : word; end; pelf32stab=^telf32stab; telf32stab=packed record strpos : longint; ntype : byte; nother : byte; ndesc : word; nvalue : longint; end; {**************************************************************************** TSection ****************************************************************************} constructor telf32section.init(sec:TSection); var Aflags,Atype,Aalign,Aentsize : longint; begin Aflags:=0; Atype:=0; Aalign:=0; Aentsize:=0; case sec of sec_code : begin Aflags:=SHF_ALLOC or SHF_EXECINSTR; AType:=SHT_PROGBITS; AAlign:=16; end; sec_data : begin Aflags:=SHF_ALLOC or SHF_WRITE; AType:=SHT_PROGBITS; AAlign:=4; end; sec_bss : begin Aflags:=SHF_ALLOC or SHF_WRITE; AType:=SHT_NOBITS; AAlign:=4; end; end; initname(target_asm.secnames[sec],Atype,Aflags,0,0,Aalign,Aentsize); end; constructor telf32section.initname(const Aname:string;Atype,Aflags,Alink,Ainfo,Aalign,Aentsize:longint); begin name:=Aname; secshidx:=0; secsymidx:=0; shstridx:=0; shtype:=AType; shflags:=AFlags; shlink:=Alink; shinfo:=Ainfo; addralign:=Aalign; entsize:=Aentsize; { setsectionsize data } fillsize:=0; size:=0; { data } dataLen:=0; dataPos:=0; if shtype=SHT_NOBITS then data:=nil else new(Data,Init(1,8192)); { relocation } NRelocs:=0; relocHead:=nil; relocTail:=@relocHead; relocsect:=nil; end; destructor telf32section.done; begin if assigned(Data) then dispose(Data,done); end; function telf32section.write(var d;l:longint):longint; begin write:=datalen; if not assigned(Data) then Internalerror(3334441); Data^.write(d,l); inc(datalen,l); end; function telf32section.writestr(const s:string):longint; begin writestr:=datalen; if not assigned(Data) then Internalerror(3334441); Data^.write(s[1],length(s)); inc(datalen,length(s)); end; procedure telf32section.align(l:longint); var i : longint; empty : array[0..63] of char; begin i:=datalen mod l; if i>0 then begin if assigned(data) then begin fillchar(empty,sizeof(empty),0); data^.write(empty,l-i); end; inc(datalen,l-i); end; end; procedure telf32section.alloc(l:longint); begin if assigned(Data) then Internalerror(3334442); inc(datalen,l); end; procedure telf32section.addsymreloc(ofs:longint;p:pasmsymbol;relative:relative_type); var r : PReloc; begin new(r); reloctail^:=r; reloctail:=@r^.next; r^.next:=nil; r^.address:=ofs; r^.symbol:=p; r^.section:=sec_none; r^.typ:=relative; inc(nrelocs); end; procedure telf32section.addsectionreloc(ofs:longint;sec:tsection;relative:relative_type); var r : PReloc; begin new(r); reloctail^:=r; reloctail:=@r^.next; r^.next:=nil; r^.address:=ofs; r^.symbol:=nil; r^.section:=sec; r^.typ:=relative; inc(nrelocs); end; {**************************************************************************** TElf32Output ****************************************************************************} const {$ifdef TP} symbolresize = 50; strsresize = 200; {$else} symbolresize = 200; strsresize = 8192; {$endif} constructor telf32output.init(smart:boolean); begin inherited init(smart); end; destructor telf32output.done; begin inherited done; end; procedure telf32output.initwriting(Aplace:tcutplace); var s : string; begin inherited initwriting(Aplace); { reset } initsym:=0; new(syms,init(sizeof(TSymbol),symbolresize)); FillChar(Sects,sizeof(Sects),0); { default sections } new(symtabsect,initname('.symtab',2,0,0,0,4,16)); new(strtabsect,initname('.strtab',3,0,0,0,1,0)); new(shstrtabsect,initname('.shstrtab',3,0,0,0,1,0)); { insert the empty and filename as first in strtab } strtabsect^.writestr(#0); strtabsect^.writestr(SplitFileName(current_module^.mainsource^)+#0); { we need at least the following sections } createsection(sec_code); createsection(sec_data); createsection(sec_bss); { create stabs sections if debugging } if (cs_debuginfo in aktmoduleswitches) then begin createsection(sec_stab); createsection(sec_stabstr); writestabs(sec_none,0,nil,0,0,0,false); { write zero pchar and name together (PM) } s:=#0+SplitFileName(current_module^.mainsource^)+#0; sects[sec_stabstr]^.write(s[1],length(s)); end; end; procedure telf32output.donewriting; var sec : tsection; begin writetodisk; dispose(syms,done); for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then dispose(sects[sec],done); inherited donewriting; end; function telf32output.sectionsize(s:tsection):longint; begin if assigned(sects[s]) then sectionsize:=sects[s]^.datalen else sectionsize:=0; end; procedure telf32output.createsection(sec:tsection); begin sects[sec]:=new(pelf32Section,init(Sec)); end; procedure telf32output.writesymbol(p:pasmsymbol); var sym : tsymbol; begin { already written ? } if p^.idx<>-1 then exit; { be sure that the section will exists } if (p^.section<>sec_none) and not(assigned(sects[p^.section])) then createsection(p^.section); FillChar(sym,sizeof(sym),0); { symbolname, write the #0 separate to overcome 255+1 char not possible } sym.name:=strtabsect^.writestr(p^.name); strtabsect^.writestr(#0); sym.size:=p^.size; sym.bind:=p^.bind; sym.typ:=p^.typ; { if local of global then set the section value to the address of the symbol } case sym.bind of AB_LOCAL, AB_GLOBAL : begin sym.section:=p^.section; sym.value:=p^.address; end; AB_COMMON : begin sym.value:=$10; end; end; { update the asmsymbol index } p^.idx:=syms^.count; { store the symbol, but not the local ones (PM) } if (sym.bind<>AB_LOCAL) {or (copy(p^.name,1,2)<>'.L')} then syms^.write(sym,1); { make the exported syms known to the objectwriter (needed for .a generation) } if (sym.bind in [AB_GLOBAL,AB_COMMON]) then writer^.writesym(p^.name); end; procedure telf32output.writebytes(var data;len:longint); begin if not assigned(sects[currsec]) then createsection(currsec); sects[currsec]^.write(data,len); end; procedure telf32output.writealloc(len:longint); begin if not assigned(sects[currsec]) then createsection(currsec); sects[currsec]^.alloc(len); end; procedure telf32output.writealign(len:longint); var modulo : longint; begin if not assigned(sects[currsec]) then createsection(currsec); modulo:=sects[currsec]^.datalen mod len; if modulo > 0 then sects[currsec]^.alloc(len-modulo); end; procedure telf32output.writereloc(data,len:longint;p:pasmsymbol;relative:relative_type); var symaddr : longint; begin if not assigned(sects[currsec]) then createsection(currsec); if assigned(p) then begin { real address of the symbol } symaddr:=p^.address; { no symbol relocation need inside a section } if p^.section=currsec then begin case relative of relative_false : begin sects[currsec]^.addsectionreloc(sects[currsec]^.datalen,currsec,relative_false); inc(data,symaddr); end; relative_true : begin inc(data,symaddr-len-sects[currsec]^.datalen); end; relative_rva : internalerror(3219583); end; end else begin writesymbol(p); if (p^.section<>sec_none) and (relative<>relative_true) then begin sects[currsec]^.addsectionreloc(sects[currsec]^.datalen,p^.section,relative); inc(data,symaddr); end else sects[currsec]^.addsymreloc(sects[currsec]^.datalen,p,relative); if relative=relative_true then begin if p^.bind=AB_EXTERNAL then dec(data,len) else dec(data,len+sects[currsec]^.datalen); end; end; end; sects[currsec]^.write(data,len); end; procedure telf32output.writestabs(section:tsection;offset:longint;p:pchar;nidx,nother,line:longint;reloc : boolean); var stab : telf32stab; s : tsection; begin s:=section; if reloc then begin if (offset=-1) then begin if s=sec_none then offset:=0 else offset:=sects[s]^.datalen; end; end; fillchar(stab,sizeof(telf32stab),0); if assigned(p) and (p[0]<>#0) then begin stab.strpos:=sects[sec_stabstr]^.datalen; sects[sec_stabstr]^.write(p^,strlen(p)+1); end; stab.ntype:=nidx; stab.ndesc:=line; stab.nother:=nother; stab.nvalue:=offset; sects[sec_stab]^.write(stab,sizeof(stab)); { when the offset is not 0 then write a relocation, take also the hdrstab into account with the offset } if reloc then sects[sec_stab]^.addsectionreloc(sects[sec_stab]^.datalen-4,s,relative_false); end; procedure telf32output.writesymstabs(section:tsection;offset:longint;p:pchar;ps:pasmsymbol; nidx,nother,line:longint;reloc:boolean); var stab : telf32stab; s : tsection; begin s:=section; if reloc then begin if (offset=-1) then begin if s=sec_none then offset:=0 else offset:=sects[s]^.datalen; end; end; fillchar(stab,sizeof(telf32stab),0); if assigned(p) and (p[0]<>#0) then begin stab.strpos:=sects[sec_stabstr]^.datalen; sects[sec_stabstr]^.write(p^,strlen(p)+1); end; stab.ntype:=nidx; stab.ndesc:=line; stab.nother:=nother; stab.nvalue:=offset; sects[sec_stab]^.write(stab,sizeof(stab)); { when the offset is not 0 then write a relocation, take also the hdrstab into account with the offset } if reloc then sects[sec_stab]^.addsymreloc(sects[sec_stab]^.datalen-4,ps,relative_false); end; procedure telf32output.setsectionsizes(var s:tsecsize); var align : longint; sec : tsection; begin { multiply stab with real size } s[sec_stab]:=s[sec_stab]*sizeof(telf32stab); { if debug then also count header stab } if (cs_debuginfo in aktmoduleswitches) then begin inc(s[sec_stab],sizeof(telf32stab)); inc(s[sec_stabstr],length(SplitFileName(current_module^.mainsource^))+2); end; { fix all section } for sec:=low(tsection) to high(tsection) do begin if (s[sec]>0) and (not assigned(sects[sec])) then createsection(sec); if assigned(sects[sec]) then begin sects[sec]^.size:=s[sec]; { calculate the alignment } align:=sects[sec]^.addralign; sects[sec]^.fillsize:=align-(sects[sec]^.size and (align-1)); if sects[sec]^.fillsize=align then sects[sec]^.fillsize:=0; end; end; end; {*********************************************** Writing to disk ***********************************************} procedure telf32output.createrelocsection(s:pelf32section); var rel : telf32reloc; hr,r : preloc; relsym,reltyp : longint; begin { create the reloc section } new(s^.relocsect,initname('.rel'+s^.name,9,0,symtabsect^.secshidx,s^.secshidx,4,8)); { add the relocations } r:=s^.relochead; while assigned(r) do begin rel.address:=r^.address; if assigned(r^.symbol) then begin if (r^.symbol^.bind=AB_LOCAL) then relsym:=sects[r^.symbol^.section]^.secsymidx else begin if r^.symbol^.idx=-1 then internalerror(4321); relsym:=(r^.symbol^.idx+initsym); end; end else if r^.section<>sec_none then relsym:=sects[r^.section]^.secsymidx else relsym:=SHN_UNDEF; case r^.typ of relative_true : reltyp:=R_386_PC32; relative_false : reltyp:=R_386_32; end; rel.info:=(relsym shl 8) or reltyp; { write reloc } s^.relocsect^.write(rel,sizeof(rel)); { goto next and dispose this reloc } hr:=r; r:=r^.next; dispose(hr); end; end; procedure telf32output.createsymtab; var elfsym : telf32symbol; sym : tsymbol; sec : tsection; locals, i : longint; begin locals:=2; { empty entry } fillchar(elfsym,sizeof(elfsym),0); symtabsect^.write(elfsym,sizeof(elfsym)); { filename entry } elfsym.st_name:=1; elfsym.st_info:=STT_FILE; elfsym.st_shndx:=SHN_ABS; symtabsect^.write(elfsym,sizeof(elfsym)); { section } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin fillchar(elfsym,sizeof(elfsym),0); elfsym.st_name:=sects[sec]^.shstridx; elfsym.st_info:=STT_SECTION; elfsym.st_shndx:=sects[sec]^.secshidx; symtabsect^.write(elfsym,sizeof(elfsym)); inc(locals); end; { symbols } syms^.seek(0); for i:=1 to syms^.count do begin syms^.read(sym,1); fillchar(elfsym,sizeof(elfsym),0); elfsym.st_name:=sym.name; elfsym.st_value:=sym.value; elfsym.st_size:=sym.size; case sym.bind of AB_LOCAL : begin elfsym.st_info:=STB_LOCAL shl 4; inc(locals); end; AB_COMMON, AB_EXTERNAL, AB_GLOBAL : elfsym.st_info:=STB_GLOBAL shl 4; end; if sym.bind<>AB_EXTERNAL then begin case sym.typ of AT_FUNCTION : elfsym.st_info:=elfsym.st_info or STT_FUNC; AT_DATA : elfsym.st_info:=elfsym.st_info or STT_OBJECT; end; end; if sym.bind=AB_COMMON then elfsym.st_shndx:=SHN_COMMON else if assigned(sects[sym.section]) then elfsym.st_shndx:=sects[sym.section]^.secshidx else elfsym.st_shndx:=SHN_UNDEF; symtabsect^.write(elfsym,sizeof(elfsym)); end; { update the .symtab section header } symtabsect^.shlink:=strtabsect^.secshidx; symtabsect^.shinfo:=locals; end; procedure telf32output.createshstrtab; var sec : tsection; begin with shstrtabsect^ do begin writestr(#0); symtabsect^.shstridx:=writestr('.symtab'#0); strtabsect^.shstridx:=writestr('.strtab'#0); shstrtabsect^.shstridx:=writestr('.shstrtab'#0); for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin sects[sec]^.shstridx:=writestr(sects[sec]^.name+#0); if assigned(sects[sec]^.relocsect) then sects[sec]^.relocsect^.shstridx:=writestr(sects[sec]^.relocsect^.name+#0); end; end; end; procedure telf32output.writesectionheader(s:pelf32section); var sechdr : telf32sechdr; begin fillchar(sechdr,sizeof(sechdr),0); sechdr.sh_name:=s^.shstridx; sechdr.sh_type:=s^.shtype; sechdr.sh_flags:=s^.shflags; sechdr.sh_offset:=s^.datapos; sechdr.sh_size:=s^.datalen; sechdr.sh_link:=s^.shlink; sechdr.sh_info:=s^.shinfo; sechdr.sh_addralign:=s^.addralign; sechdr.sh_entsize:=s^.entsize; writer^.write(sechdr,sizeof(sechdr)); end; procedure telf32output.writetodisk; var header : telf32header; datapos, shoffset, nsects : longint; sec : tsection; empty : array[0..63] of byte; begin { calc amount of sections we have and align sections at 4 bytes } fillchar(empty,sizeof(empty),0); nsects:=1; initsym:=2; for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin { each section requires a symbol for relocation } sects[sec]^.secsymidx:=initsym; inc(initsym); { also create the index in the section header table } sects[sec]^.secshidx:=nsects; inc(nsects); if assigned(sects[sec]^.relochead) then inc(nsects); end; { add default sections follows } shstrtabsect^.secshidx:=nsects; inc(nsects); symtabsect^.secshidx:=nsects; inc(nsects); strtabsect^.secshidx:=nsects; inc(nsects); { Create the relocation sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and (sects[sec]^.nrelocs>0) then createrelocsection(sects[sec]); { create .symtab } createsymtab; { create .shstrtab } createshstrtab; { Calculate the filepositions } datapos:=$40; { elfheader + alignment } { sections first } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin sects[sec]^.datapos:=datapos; if assigned(sects[sec]^.data) then inc(datapos,align(sects[sec]^.datalen,4)); end; { shstrtab } shstrtabsect^.datapos:=datapos; inc(datapos,align(shstrtabsect^.datalen,4)); { section headers } shoffset:=datapos; inc(datapos,nsects*sizeof(telf32sechdr)); { symtab } symtabsect^.datapos:=datapos; inc(datapos,align(symtabsect^.datalen,4)); { strtab } strtabsect^.datapos:=datapos; inc(datapos,align(strtabsect^.datalen,4)); { .rel sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and assigned(sects[sec]^.relocsect) then begin sects[sec]^.relocsect^.datapos:=datapos; inc(datapos,align(sects[sec]^.relocsect^.datalen,4)); end; { Write ELF Header } fillchar(header,sizeof(header),0); header.magic0123:=$464c457f; { = #127'ELF' } header.file_class:=1; header.data_encoding:=1; header.file_version:=1; header.e_type:=1; header.e_machine:=3; header.e_version:=1; header.e_shoff:=shoffset; header.e_shstrndx:=shstrtabsect^.secshidx; header.e_shnum:=nsects; header.e_ehsize:=sizeof(telf32header); header.e_shentsize:=sizeof(telf32sechdr); writer^.write(header,sizeof(header)); writer^.write(empty,$40-sizeof(header)); { align } { Sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and assigned(sects[sec]^.data) then begin { For the stab section we need an HdrSym which can now be calculated more easily } if sec=sec_stab then begin pelf32stab(sects[sec_stab]^.data^.data)^.nvalue:=sects[sec_stabstr]^.datalen; pelf32stab(sects[sec_stab]^.data^.data)^.strpos:=1; pelf32stab(sects[sec_stab]^.data^.data)^.ndesc:= (sects[sec_stab]^.datalen div sizeof(telf32stab))-1{+1 according to gas output PM}; end; { save the original section length } sects[sec]^.align(4); writer^.write(sects[sec]^.data^.data^,sects[sec]^.data^.usedsize); end; { .shstrtab } shstrtabsect^.align(4); writer^.write(shstrtabsect^.data^.data^,shstrtabsect^.data^.usedsize); { section headers, start with an empty header for sh_undef } writer^.write(empty,sizeof(telf32sechdr)); for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin writesectionheader(sects[sec]); if assigned(sects[sec]^.relocsect) then writesectionheader(sects[sec]^.relocsect); end; writesectionheader(shstrtabsect); writesectionheader(symtabsect); writesectionheader(strtabsect); { .symtab } symtabsect^.align(4); writer^.write(symtabsect^.data^.data^,symtabsect^.data^.usedsize); { .strtab } strtabsect^.align(4); writer^.write(strtabsect^.data^.data^,strtabsect^.data^.usedsize); { .rel sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and assigned(sects[sec]^.relocsect) then begin sects[sec]^.relocsect^.align(4); writer^.write(sects[sec]^.relocsect^.data^.data^,sects[sec]^.relocsect^.data^.usedsize); end; end; end. { $Log$ Revision 1.3 2000-07-13 12:08:26 michael + patched to 1.1.0 with former 1.09patch from peter Revision 1.2 2000/07/13 11:32:43 michael + removed logs }