{ $Id$ Copyright (c) 1998-2000 by Peter Vreman and Pierre Muller Contains the binary coff reader and 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 ogcoff; {$i defines.inc} interface uses { common } cclasses, { target } systems, { assembler } cpubase,aasm,assemble, { output } ogbase; type tcoffsection = class(tobjectsection) public flags : cardinal; coffrelocs, coffrelocpos : longint; constructor createsec(sec:TSection;AAlign,AFlags:cardinal); end; tcoffdata = class(tobjectdata) private Fstrs, Fsyms : Tdynamicarray; win32 : boolean; procedure reset; public constructor createdjgpp; constructor createwin32; destructor destroy;override; procedure setsectionsizes(var s:tsecsize);override; procedure createsection(sec:tsection);override; procedure writereloc(data,len:longint;p:tasmsymbol;relative:relative_type);override; procedure writesymbol(p:tasmsymbol);override; procedure writestabs(section:tsection;offset:longint;p:pchar;nidx,nother,line:longint;reloc:boolean);override; procedure writesymstabs(section:tsection;offset:longint;p:pchar;ps:tasmsymbol;nidx,nother,line:longint;reloc:boolean);override; end; tcoffobjectoutput = class(tobjectoutput) private win32 : boolean; initsym : longint; procedure write_relocs(s:tobjectsection); procedure write_symbol(const name:string;strpos,value,section,typ,aux:longint); procedure write_symbols; protected procedure writetodisk;override; public constructor createdjgpp(smart:boolean); constructor createwin32(smart:boolean); function initwriting(const fn:string):boolean;override; end; ttasmsymbolarray = array[0..high(word)] of tasmsymbol; tcoffobjectinput = class(tobjectinput) private Fidx2sec : array[0..255] of tsection; FCoffsyms : tdynamicarray; FSymTbl : ^ttasmsymbolarray; win32 : boolean; procedure read_relocs(s:tcoffsection); procedure handle_symbols; public constructor createdjgpp(const fn:string); constructor createwin32(const fn:string); function initreading:boolean;override; procedure donereading;override; procedure readfromdisk;override; end; tcoffassembler = class(tinternalassembler) constructor create(smart:boolean);override; end; tpecoffassembler = class(tinternalassembler) constructor create(smart:boolean);override; end; implementation uses {$ifdef delphi} sysutils, {$else} strings, {$endif} cutils,verbose, globtype,globals,fmodule; const symbolresize = 200*sizeof(toutputsymbol); coffsymbolresize = 200*18; strsresize = 8192; DataResize = 8192; const COFF_SYM_EXTERNAL = 2; COFF_SYM_STATIC = 3; COFF_SYM_LABEL = 6; COFF_SYM_FUNCTION = 101; COFF_SYM_FILE = 103; COFF_SYM_SECTION = 104; type { Structures which are written directly to the output file } coffheader=packed record mach : word; nsects : word; time : longint; sympos : longint; syms : longint; opthdr : word; flag : word; end; coffsechdr=packed record name : array[0..7] of char; vsize : longint; rvaofs : longint; datasize : longint; datapos : longint; relocpos : longint; lineno1 : longint; nrelocs : word; lineno2 : word; flags : cardinal; end; coffsectionrec=packed record len : longint; nrelocs : word; empty : array[0..11] of char; end; coffreloc=packed record address : longint; sym : longint; relative : word; end; coffsymbol=packed record name : array[0..3] of char; { real is [0..7], which overlaps the strpos ! } strpos : longint; value : longint; section : smallint; empty : smallint; typ : byte; aux : byte; end; pcoffstab=^coffstab; coffstab=packed record strpos : longint; ntype : byte; nother : byte; ndesc : word; nvalue : longint; end; {**************************************************************************** TCoffSection ****************************************************************************} constructor tcoffsection.createsec(sec:TSection;AAlign,AFlags:cardinal); begin inherited create(target_asm.secnames[sec],AAlign,(sec=sec_bss)); Flags:=AFlags; end; {**************************************************************************** TCoffData ****************************************************************************} constructor tcoffdata.createdjgpp; begin inherited create; win32:=false; reset; end; constructor tcoffdata.createwin32; begin inherited create; win32:=true; reset; end; destructor tcoffdata.destroy; begin FSyms.Free; FStrs.Free; inherited destroy; end; procedure tcoffdata.reset; var s : string; begin FSyms:=TDynamicArray.Create(symbolresize); FStrs:=TDynamicArray.Create(strsresize); { we need at least the following 3 sections } createsection(sec_code); createsection(sec_data); createsection(sec_bss); if (cs_gdb_lineinfo in aktglobalswitches) or (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 tcoffdata.createsection(sec:TSection); var Flags, AAlign : cardinal; begin { defaults } Flags:=0; Aalign:=1; { alignment after section } case sec of sec_code : begin if win32 then Flags:=$60000020 else Flags:=$20; Aalign:=4; end; sec_data : begin if win32 then Flags:=$c0300040 else Flags:=$40; Aalign:=4; end; sec_bss : begin if win32 then Flags:=$c0300080 else Flags:=$80; Aalign:=4; end; sec_idata2, sec_idata4, sec_idata5, sec_idata6, sec_idata7 : begin if win32 then Flags:=$40000000; end; sec_edata : begin if win32 then Flags:=$c0300040; end; end; sects[sec]:=tcoffSection.createsec(Sec,AAlign,Flags); end; procedure tcoffdata.writesymbol(p:tasmsymbol); var sym : toutputsymbol; s : string; 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); sym.value:=p.size; sym.bind:=p.bind; sym.typ:=AT_NONE; { if local of global then set the section value to the address of the symbol } if sym.bind in [AB_LOCAL,AB_GLOBAL] then begin sym.section:=p.section; sym.value:=p.address+sects[sym.section].mempos; end; { store the symbol, but not the local ones } if (sym.bind<>AB_LOCAL) then begin { symbolname } s:=p.name; if length(s)>8 then begin sym.nameidx:=FStrs.size+4; FStrs.writestr(s); FStrs.writestr(#0); end else begin sym.nameidx:=-1; sym.namestr:=s; end; { update the asmsymbol index } p.idx:=FSyms.size div sizeof(TOutputSymbol); { write the symbol } FSyms.write(sym,sizeof(toutputsymbol)); end else begin p.idx:=-2; { local } end; end; procedure tcoffdata.writereloc(data,len:longint;p:tasmsymbol;relative:relative_type); var curraddr, symaddr : longint; begin if not assigned(sects[currsec]) then createsection(currsec); if assigned(p) then begin { current address } curraddr:=sects[currsec].mempos+sects[currsec].datasize; { real address of the symbol } symaddr:=p.address; if p.section<>sec_none then inc(symaddr,sects[p.section].mempos); { no symbol relocation need inside a section } if p.section=currsec then begin case relative of relative_false : begin sects[currsec].addsectionreloc(curraddr,currsec,relative_false); inc(data,symaddr); end; relative_true : begin inc(data,symaddr-len-sects[currsec].datasize); end; relative_rva : begin sects[currsec].addsectionreloc(curraddr,currsec,relative_rva); inc(data,symaddr); end; end; end else begin writesymbol(p); if (p.section<>sec_none) and (relative<>relative_true) then sects[currsec].addsectionreloc(curraddr,p.section,relative) else sects[currsec].addsymreloc(curraddr,p,relative); if not win32 then {seems wrong to me (PM) } inc(data,symaddr) else if (relative<>relative_true) and (p.section<>sec_none) then inc(data,symaddr); if relative=relative_true then begin if win32 then dec(data,len-4) else dec(data,len+sects[currsec].datasize); end; end; end; sects[currsec].write(data,len); end; procedure tcoffdata.writestabs(section:tsection;offset:longint;p:pchar;nidx,nother,line:longint;reloc : boolean); var stab : coffstab; s : tsection; curraddr : longint; begin s:=section; { local var can be at offset -1 !! PM } if reloc then begin if (offset=-1) then begin if s=sec_none then offset:=0 else offset:=sects[s].datasize; end; if (s<>sec_none) then inc(offset,sects[s].datapos); end; if assigned(p) and (p[0]<>#0) then begin stab.strpos:=sects[sec_stabstr].datasize; sects[sec_stabstr].write(p^,strlen(p)+1); end else stab.strpos:=0; 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 begin { current address } curraddr:=sects[sec_stab].mempos+sects[sec_stab].datasize; if DLLSource and RelocSection then { avoid relocation in the .stab section because it ends up in the .reloc section instead } sects[sec_stab].addsectionreloc(curraddr-4,s,relative_rva) else sects[sec_stab].addsectionreloc(curraddr-4,s,relative_false); end; end; procedure tcoffdata.writesymstabs(section:tsection;offset:longint;p:pchar;ps:tasmsymbol; nidx,nother,line:longint;reloc:boolean); var stab : coffstab; curraddr : longint; begin { do not use the size stored in offset field this is DJGPP specific ! PM } if win32 then offset:=0; { local var can be at offset -1 !! PM } if reloc then begin if (offset=-1) then begin if section=sec_none then offset:=0 else offset:=sects[section].datasize; end; if (section<>sec_none) then inc(offset,sects[section].mempos); end; if assigned(p) and (p[0]<>#0) then begin stab.strpos:=sects[sec_stabstr].datasize; sects[sec_stabstr].write(p^,strlen(p)+1); end else stab.strpos:=0; 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 begin { current address } curraddr:=sects[sec_stab].mempos+sects[sec_stab].datasize; if DLLSource and RelocSection then { avoid relocation in the .stab section because it ends up in the .reloc section instead } sects[sec_stab].addsymreloc(curraddr-4,ps,relative_rva) else sects[sec_stab].addsymreloc(curraddr-4,ps,relative_false); end; end; procedure tcoffdata.setsectionsizes(var s:tsecsize); var mempos : longint; sec : tsection; begin { multiply stab with real size } s[sec_stab]:=s[sec_stab]*sizeof(coffstab); { if debug then also count header stab } if (cs_debuginfo in aktmoduleswitches) then begin inc(s[sec_stab],sizeof(coffstab)); inc(s[sec_stabstr],length(SplitFileName(current_module.mainsource^))+2); end; { calc mempos } mempos:=0; 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].memsize:=s[sec]; { memory position } if not win32 then begin sects[sec].mempos:=mempos; inc(mempos,align(sects[sec].memsize,sects[sec].addralign)); end; end; end; end; {**************************************************************************** tcoffobjectoutput ****************************************************************************} constructor tcoffobjectoutput.createdjgpp(smart:boolean); begin inherited create(smart); win32:=false; end; constructor tcoffobjectoutput.createwin32(smart:boolean); begin inherited create(smart); win32:=true; end; function tcoffobjectoutput.initwriting(const fn:string):boolean; begin result:=inherited initwriting(fn); if result then begin initsym:=0; if win32 then FData:=tcoffdata.createwin32 else FData:=tcoffdata.createdjgpp; end; end; procedure tcoffobjectoutput.write_relocs(s:tobjectsection); var rel : coffreloc; hr,r : poutputreloc; begin 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 rel.sym:=2*data.sects[r^.symbol.section].secsymidx else begin if r^.symbol.idx=-1 then internalerror(4321); rel.sym:=r^.symbol.idx+initsym; end; end else begin if r^.section<>sec_none then rel.sym:=2*data.sects[r^.section].secsymidx else rel.sym:=0; end; case r^.typ of relative_true : rel.relative:=$14; relative_false : rel.relative:=$6; relative_rva : rel.relative:=$7; end; FWriter.write(rel,sizeof(rel)); { goto next and dispose this reloc } hr:=r; r:=r^.next; dispose(hr); end; end; procedure tcoffobjectoutput.write_symbol(const name:string;strpos,value,section,typ,aux:longint); var sym : coffsymbol; begin FillChar(sym,sizeof(sym),0); if strpos=-1 then move(name[1],sym.name,length(name)) else sym.strpos:=strpos; sym.value:=value; sym.section:=section; sym.typ:=typ; sym.aux:=aux; FWriter.write(sym,sizeof(sym)); end; procedure tcoffobjectoutput.write_symbols; var filename : string[18]; sec : tsection; sectionval, i : longint; globalval : byte; secrec : coffsectionrec; sym : toutputsymbol; begin with tcoffdata(data) do begin { The `.file' record, and the file name auxiliary record } write_symbol ('.file', -1, 0, -2, $67, 1); fillchar(filename,sizeof(filename),0); filename:=SplitFileName(current_module.mainsource^); FWriter.write(filename[1],sizeof(filename)-1); { The section records, with their auxiliaries, also store the symbol index } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin write_symbol(target_asm.secnames[sec],-1,sects[sec].mempos,sects[sec].secsymidx,3,1); fillchar(secrec,sizeof(secrec),0); secrec.len:=sects[sec].aligneddatasize; secrec.nrelocs:=sects[sec].nrelocs; FWriter.write(secrec,sizeof(secrec)); end; { The real symbols } FSyms.seek(0); for i:=1 to FSyms.size div sizeof(TOutputSymbol) do begin FSyms.read(sym,sizeof(TOutputSymbol)); if sym.bind=AB_LOCAL then globalval:=3 else globalval:=2; if assigned(sects[sym.section]) then sectionval:=sects[sym.section].secsymidx else sectionval:=0; write_symbol(sym.namestr,sym.nameidx,sym.value,sectionval,globalval,0); end; end; end; procedure tcoffobjectoutput.writetodisk; var datapos, secsymidx, nsects, sympos,i : longint; hstab : coffstab; gotreloc : boolean; sec : tsection; header : coffheader; sechdr : coffsechdr; empty : array[0..15] of byte; hp : pdynamicblock; begin with tcoffdata(data) do begin { calc amount of sections we have } fillchar(empty,sizeof(empty),0); nsects:=0; initsym:=2; { 2 for the file } secsymidx:=0; for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin inc(nsects); inc(secsymidx); sects[sec].secsymidx:=secsymidx; inc(initsym,2); { 2 for each section } end; { For the stab section we need an HdrSym which can now be calculated more easily } if assigned(sects[sec_stab]) then begin hstab.strpos:=1; hstab.ntype:=0; hstab.nother:=0; hstab.ndesc:=(sects[sec_stab].datasize div sizeof(coffstab))-1{+1 according to gas output PM}; hstab.nvalue:=sects[sec_stabstr].datasize; sects[sec_stab].data.seek(0); sects[sec_stab].data.write(hstab,sizeof(hstab)); end; { Calculate the filepositions } datapos:=sizeof(coffheader)+sizeof(coffsechdr)*nsects; { 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,sects[sec].aligneddatasize); end; { relocs } gotreloc:=false; for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin tcoffsection(sects[sec]).coffrelocpos:=datapos; inc(datapos,10*sects[sec].nrelocs); if (not gotreloc) and (sects[sec].nrelocs>0) then gotreloc:=true; end; { symbols } sympos:=datapos; { COFF header } fillchar(header,sizeof(coffheader),0); header.mach:=$14c; header.nsects:=nsects; header.sympos:=sympos; header.syms:=(FSyms.size div sizeof(TOutputSymbol))+initsym; if gotreloc then header.flag:=$104 else header.flag:=$105; FWriter.write(header,sizeof(header)); { Section headers } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then begin fillchar(sechdr,sizeof(sechdr),0); move(target_asm.secnames[sec][1],sechdr.name,length(target_asm.secnames[sec])); if not win32 then begin sechdr.rvaofs:=sects[sec].mempos; sechdr.vsize:=sects[sec].mempos; end else begin if sec=sec_bss then sechdr.vsize:=sects[sec].aligneddatasize; end; sechdr.datasize:=sects[sec].aligneddatasize; if (sects[sec].datasize>0) and assigned(sects[sec].data) then sechdr.datapos:=sects[sec].datapos; sechdr.nrelocs:=sects[sec].nrelocs; sechdr.relocpos:=TCoffSection(sects[sec]).coffrelocpos; sechdr.flags:=TCoffSection(sects[sec]).flags; FWriter.write(sechdr,sizeof(sechdr)); end; { Sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and assigned(sects[sec].data) then begin sects[sec].alignsection; hp:=sects[sec].data.firstblock; while assigned(hp) do begin FWriter.write(hp^.data,hp^.used); hp:=hp^.next; end; end; { Relocs } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) then write_relocs(sects[sec]); { Symbols } write_symbols; { Strings } i:=FStrs.size+4; FWriter.write(i,4); hp:=FStrs.firstblock; while assigned(hp) do begin FWriter.write(hp^.data,hp^.used); hp:=hp^.next; end; end; end; {**************************************************************************** tcoffobjectinput ****************************************************************************} constructor tcoffobjectinput.createdjgpp(const fn:string); begin inherited create(fn); win32:=false; end; constructor tcoffobjectinput.createwin32(const fn:string); begin inherited create(fn); win32:=true; end; function tcoffobjectinput.initreading:boolean; begin result:=inherited initreading; if result then begin if win32 then FData:=tcoffdata.createwin32 else FData:=tcoffdata.createdjgpp; FCoffSyms:=TDynamicArray.Create(symbolresize); end; end; procedure tcoffobjectinput.donereading; begin FCoffSyms.Free; end; procedure tcoffobjectinput.read_relocs(s:tcoffsection); var rel : coffreloc; rel_type : relative_type; i : longint; p : tasmsymbol; begin for i:=1 to s.coffrelocs do begin FReader.read(rel,sizeof(rel)); case rel.relative of $14 : rel_type:=relative_true; $06 : rel_type:=relative_false; $07 : rel_type:=relative_rva; else begin Comment(V_Error,'Error reading coff file'); exit; end; end; p:=FSymTbl^[rel.sym]; if assigned(p) then begin s.addsymreloc(rel.address,p,rel_type); end else begin Comment(V_Error,'Error reading coff file'); exit; end; end; end; procedure tcoffobjectinput.handle_symbols; var sec : tsection; i,nsyms, symidx : longint; sym : coffsymbol; strname : string; p : tasmsymbol; auxrec : array[0..17] of byte; begin with tcoffdata(data) do begin nsyms:=FCoffSyms.Size div sizeof(CoffSymbol); { Allocate memory for symidx -> tasmsymbol table } GetMem(FSymTbl,nsyms*sizeof(pointer)); FillChar(FSymTbl^,nsyms*sizeof(pointer),0); { Loop all symbols } FCoffSyms.Seek(0); symidx:=0; while (symidx0 then begin move(sym.name,strname[1],8); strname[9]:=#0; end else begin FStrs.Seek(sym.strpos-4); FStrs.Read(strname[1],255); strname[255]:=#0; end; strname[0]:=chr(strlen(@strname[1])); if strname='' then Internalerror(341324310); case sym.typ of COFF_SYM_EXTERNAL : begin if sym.section=0 then begin p:=tasmsymbol.create(strname,AB_EXTERNAL,AT_FUNCTION); end else begin p:=tasmsymbol.create(strname,AB_GLOBAL,AT_FUNCTION); sec:=Fidx2sec[sym.section]; if assigned(sects[sec]) then begin p.section:=sec; if sym.value>=sects[sec].mempos then p.address:=sym.value-sects[sec].mempos else internalerror(432432432); end else internalerror(34243214); end; AddSymbol(p); FSymTbl^[symidx]:=p end; COFF_SYM_STATIC : begin p:=tasmsymbol.create(strname,AB_LOCAL,AT_FUNCTION); sec:=Fidx2sec[sym.section]; if assigned(sects[sec]) then begin p.section:=sec; if sym.value>=sects[sec].mempos then p.address:=sym.value-sects[sec].mempos else begin if Str2Sec(strname)<>sec then internalerror(432432432); end; end else internalerror(34243214); AddSymbol(p); FSymTbl^[symidx]:=p; end; COFF_SYM_SECTION, COFF_SYM_LABEL, COFF_SYM_FUNCTION, COFF_SYM_FILE : ; else internalerror(4342343); end; { read aux records } for i:=1 to sym.aux do begin FCoffSyms.Read(auxrec,sizeof(auxrec)); inc(symidx); end; inc(symidx); end; end; end; procedure tcoffobjectinput.readfromdisk; var strsize, i : longint; sec : tsection; header : coffheader; sechdr : coffsechdr; begin with tcoffdata(data) do begin FillChar(Fidx2sec,sizeof(Fidx2sec),0); { COFF header } if not reader.read(header,sizeof(coffheader)) then begin Comment(V_Error,'Error reading coff file'); exit; end; if header.mach<>$14c then begin Comment(V_Error,'Not a coff file'); exit; end; if header.nsects>255 then begin Comment(V_Error,'To many sections'); exit; end; { header.mach:=$14c; header.nsects:=nsects; header.sympos:=sympos; header.syms:=(Syms.size div sizeof(TOutputSymbol))+initsym; if gotreloc then header.flag:=$104 else header.flag:=$105 } { Section headers } for i:=1 to header.nsects do begin if not reader.read(sechdr,sizeof(sechdr)) then begin Comment(V_Error,'Error reading coff file'); exit; end; sec:=str2sec(strpas(sechdr.name)); if sec<>sec_none then begin Fidx2sec[i]:=sec; createsection(sec); if not win32 then sects[sec].mempos:=sechdr.rvaofs; tcoffsection(sects[sec]).coffrelocs:=sechdr.nrelocs; tcoffsection(sects[sec]).coffrelocpos:=sechdr.relocpos; sects[sec].datapos:=sechdr.datapos; sects[sec].datasize:=sechdr.datasize; tcoffsection(sects[sec]).flags:=sechdr.flags; end else Comment(V_Warning,'skipping unsupported section '+strpas(sechdr.name)); end; { Symbols } Reader.Seek(header.sympos); if not Reader.ReadArray(FCoffSyms,header.syms*sizeof(CoffSymbol)) then begin Comment(V_Error,'Error reading coff file'); exit; end; { Strings } if not Reader.Read(strsize,4) then begin Comment(V_Error,'Error reading coff file'); exit; end; if strsize<4 then begin Comment(V_Error,'Error reading coff file'); exit; end; if not Reader.ReadArray(FStrs,Strsize-4) then begin Comment(V_Error,'Error reading coff file'); exit; end; { Insert all symbols } handle_symbols; { Sections } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and (sec<>sec_bss) then begin Reader.Seek(sects[sec].datapos); if not Reader.ReadArray(sects[sec].data,sects[sec].datasize) then begin Comment(V_Error,'Error reading coff file'); exit; end; end; { Relocs } for sec:=low(tsection) to high(tsection) do if assigned(sects[sec]) and (tcoffsection(sects[sec]).coffrelocs>0) then begin Reader.Seek(tcoffsection(sects[sec]).coffrelocpos); read_relocs(tcoffsection(sects[sec])); end; end; end; {**************************************************************************** TCoffAssembler ****************************************************************************} constructor TCoffAssembler.Create(smart:boolean); begin inherited Create(smart); objectoutput:=tcoffobjectoutput.createdjgpp(smart); end; {**************************************************************************** TPECoffAssembler ****************************************************************************} constructor TPECoffAssembler.Create(smart:boolean); begin inherited Create(smart); objectoutput:=tcoffobjectoutput.createwin32(smart); end; {***************************************************************************** Initialize *****************************************************************************} const as_i386_coff_info : tasminfo = ( id : as_i386_coff; idtxt : 'COFF'; asmbin : ''; asmcmd : ''; supported_target : target_i386_go32v2; outputbinary : true; allowdirect : false; externals : true; needar : false; labelprefix_only_inside_procedure: false; labelprefix : '.L'; comment : ''; secnames : ('', '.text','.data','.bss', '.idata$2','.idata$4','.idata$5','.idata$6','.idata$7','.edata', '.stab','.stabstr') ); const as_i386_pecoff_info : tasminfo = ( id : as_i386_pecoff; idtxt : 'PECOFF'; asmbin : ''; asmcmd : ''; supported_target : target_i386_win32; outputbinary : true; allowdirect : false; externals : true; needar : false; labelprefix_only_inside_procedure: false; labelprefix : '.L'; comment : ''; secnames : ('', '.text','.data','.bss', '.idata$2','.idata$4','.idata$5','.idata$6','.idata$7','.edata', '.stab','.stabstr') ); initialization RegisterAssembler(as_i386_coff_info,TCoffAssembler); RegisterAssembler(as_i386_pecoff_info,TPECoffAssembler); end. { $Log$ Revision 1.15 2001-05-06 17:13:23 jonas * completed incomplete typed constant records Revision 1.14 2001/05/04 19:50:58 peter * finally added the missing outputbinary field that was missing Revision 1.13 2001/04/18 22:01:54 peter * registration of targets and assemblers Revision 1.12 2001/04/13 01:22:10 peter * symtable change to classes * range check generation and errors fixed, make cycle DEBUG=1 works * memory leaks fixed Revision 1.11 2001/04/02 21:20:31 peter * resulttype rewrite Revision 1.10 2001/03/13 18:45:07 peter * fixed some memory leaks Revision 1.9 2001/03/05 21:40:38 peter * more things for tcoffobjectinput Revision 1.8 2000/12/25 00:07:26 peter + new tlinkedlist class (merge of old tstringqueue,tcontainer and tlinkedlist objects) Revision 1.7 2000/12/24 12:25:31 peter + cstreams unit * dynamicarray object to class Revision 1.6 2000/12/23 19:59:35 peter * object to class for ow/og objects * split objectdata from objectoutput Revision 1.5 2000/12/21 12:06:38 jonas * changed type of all "flags" variables/parameters/fields to cardinal and removed longint typecasts around constants Revision 1.4 2000/12/20 15:59:04 jonas * fixed range check errors Revision 1.3 2000/12/18 21:56:35 peter * fixed stab reloc writing Revision 1.2 2000/12/07 17:19:42 jonas * new constant handling: from now on, hex constants >$7fffffff are parsed as unsigned constants (otherwise, $80000000 got sign extended and became $ffffffff80000000), all constants in the longint range become longints, all constants >$7fffffff and <=cardinal($ffffffff) are cardinals and the rest are int64's. * added lots of longint typecast to prevent range check errors in the compiler and rtl * type casts of symbolic ordinal constants are now preserved * fixed bug where the original resulttype wasn't restored correctly after doing a 64bit rangecheck Revision 1.1 2000/11/12 22:20:37 peter * create generic toutputsection for binary writers }