{ $Id$ Copyright (c) 1999 by Peter Vreman This unit implements support import,export,link routines for the (i386) Win32 target 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 t_win32; interface uses import,export,link; const winstackpagesize = 4096; type pimportlibwin32=^timportlibwin32; timportlibwin32=object(timportlib) procedure preparelib(const s:string);virtual; procedure importprocedure(const func,module:string;index:longint;const name:string);virtual; procedure importvariable(const varname,module:string;const name:string);virtual; procedure generatelib;virtual; procedure generatesmartlib;virtual; end; pexportlibwin32=^texportlibwin32; texportlibwin32=object(texportlib) st : string; last_index : longint; procedure preparelib(const s:string);virtual; procedure exportprocedure(hp : pexported_item);virtual; procedure exportvar(hp : pexported_item);virtual; procedure generatelib;virtual; end; plinkerwin32=^tlinkerwin32; tlinkerwin32=object(tlinker) private Function WriteResponseFile(isdll:boolean) : Boolean; Function PostProcessExecutable(const fn:string;isdll:boolean) : Boolean; public Constructor Init; Procedure SetDefaultInfo;virtual; function MakeExecutable:boolean;virtual; function MakeSharedLibrary:boolean;virtual; end; implementation uses aasm,files,globtype,globals,cobjects,systems,verbose, script,gendef, cpubase,cpuasm {$ifdef GDB} ,gdb {$endif} ; function DllName(Const Name : string) : string; var n : string; begin n:=Upper(SplitExtension(Name)); if (n='.DLL') or (n='.DRV') or (n='.EXE') then DllName:=Name else DllName:=Name+target_os.sharedlibext; end; {***************************************************************************** TIMPORTLIBWIN32 *****************************************************************************} procedure timportlibwin32.preparelib(const s : string); begin if not(assigned(importssection)) then importssection:=new(paasmoutput,init); end; procedure timportlibwin32.importprocedure(const func,module : string;index : longint;const name : string); var hp1 : pimportlist; hp2 : pimported_item; hs : string; begin hs:=DllName(module); { search for the module } hp1:=pimportlist(current_module^.imports^.first); while assigned(hp1) do begin if hs=hp1^.dllname^ then break; hp1:=pimportlist(hp1^.next); end; { generate a new item ? } if not(assigned(hp1)) then begin hp1:=new(pimportlist,init(hs)); current_module^.imports^.concat(hp1); end; { search for reuse of old import item } hp2:=pimported_item(hp1^.imported_items^.first); while assigned(hp2) do begin if hp2^.func^=func then break; hp2:=pimported_item(hp2^.next); end; if not assigned(hp2) then begin hp2:=new(pimported_item,init(func,name,index)); hp1^.imported_items^.concat(hp2); end; end; procedure timportlibwin32.importvariable(const varname,module:string;const name:string); var hp1 : pimportlist; hp2 : pimported_item; hs : string; begin hs:=DllName(module); { search for the module } hp1:=pimportlist(current_module^.imports^.first); while assigned(hp1) do begin if hs=hp1^.dllname^ then break; hp1:=pimportlist(hp1^.next); end; { generate a new item ? } if not(assigned(hp1)) then begin hp1:=new(pimportlist,init(hs)); current_module^.imports^.concat(hp1); end; hp2:=new(pimported_item,init_var(varname,name)); hp1^.imported_items^.concat(hp2); end; procedure timportlibwin32.generatesmartlib; var hp1 : pimportlist; hp2 : pimported_item; lhead,lname,lcode, lidata4,lidata5 : pasmlabel; r : preference; begin hp1:=pimportlist(current_module^.imports^.first); while assigned(hp1) do begin { Get labels for the sections } getdatalabel(lhead); getdatalabel(lname); getlabel(lidata4); getlabel(lidata5); { create header for this importmodule } importssection^.concat(new(pai_cut,init_begin)); importssection^.concat(new(pai_section,init(sec_idata2))); importssection^.concat(new(pai_label,init(lhead))); { pointer to procedure names } importssection^.concat(new(pai_const_symbol,init_rva(lidata4))); { two empty entries follow } importssection^.concat(new(pai_const,init_32bit(0))); importssection^.concat(new(pai_const,init_32bit(0))); { pointer to dll name } importssection^.concat(new(pai_const_symbol,init_rva(lname))); { pointer to fixups } importssection^.concat(new(pai_const_symbol,init_rva(lidata5))); { first write the name references } importssection^.concat(new(pai_section,init(sec_idata4))); importssection^.concat(new(pai_const,init_32bit(0))); importssection^.concat(new(pai_label,init(lidata4))); { then the addresses and create also the indirect jump } importssection^.concat(new(pai_section,init(sec_idata5))); importssection^.concat(new(pai_const,init_32bit(0))); importssection^.concat(new(pai_label,init(lidata5))); { create procedures } hp2:=pimported_item(hp1^.imported_items^.first); while assigned(hp2) do begin { insert cuts } importssection^.concat(new(pai_cut,init)); { create indirect jump } if not hp2^.is_var then begin getlabel(lcode); new(r); reset_reference(r^); r^.symbol:=lcode; { place jump in codesegment, insert a code section in the importsection to reduce the amount of .s files (PFV) } importssection^.concat(new(pai_section,init(sec_code))); {$IfDef GDB} if (cs_debuginfo in aktmoduleswitches) then importssection^.concat(new(pai_stab_function_name,init(nil))); {$EndIf GDB} importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0))); importssection^.concat(new(paicpu,op_ref(A_JMP,S_NO,r))); importssection^.concat(new(pai_align,init_op(4,$90))); end; { create head link } importssection^.concat(new(pai_section,init(sec_idata7))); importssection^.concat(new(pai_const_symbol,init_rva(lhead))); { fixup } getlabel(pasmlabel(hp2^.lab)); importssection^.concat(new(pai_section,init(sec_idata4))); importssection^.concat(new(pai_const_symbol,init_rva(hp2^.lab))); { add jump field to importsection } importssection^.concat(new(pai_section,init(sec_idata5))); if hp2^.is_var then importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0))) else importssection^.concat(new(pai_label,init(lcode))); if hp2^.name^<>'' then importssection^.concat(new(pai_const_symbol,init_rva(hp2^.lab))) else importssection^.concat(new(pai_const,init_32bit($80000000 or hp2^.ordnr))); { finally the import information } importssection^.concat(new(pai_section,init(sec_idata6))); importssection^.concat(new(pai_label,init(hp2^.lab))); importssection^.concat(new(pai_const,init_16bit(hp2^.ordnr))); importssection^.concat(new(pai_string,init(hp2^.name^+#0))); importssection^.concat(new(pai_align,init_op(2,0))); hp2:=pimported_item(hp2^.next); end; { write final section } importssection^.concat(new(pai_cut,init_end)); { end of name references } importssection^.concat(new(pai_section,init(sec_idata4))); importssection^.concat(new(pai_const,init_32bit(0))); { end if addresses } importssection^.concat(new(pai_section,init(sec_idata5))); importssection^.concat(new(pai_const,init_32bit(0))); { dllname } importssection^.concat(new(pai_section,init(sec_idata7))); importssection^.concat(new(pai_label,init(lname))); importssection^.concat(new(pai_string,init(hp1^.dllname^+#0))); hp1:=pimportlist(hp1^.next); end; end; procedure timportlibwin32.generatelib; var hp1 : pimportlist; hp2 : pimported_item; l1,l2,l3,l4 : pasmlabel; r : preference; begin hp1:=pimportlist(current_module^.imports^.first); while assigned(hp1) do begin { align codesegment for the jumps } importssection^.concat(new(pai_section,init(sec_code))); importssection^.concat(new(pai_align,init_op(4,$90))); { Get labels for the sections } getlabel(l1); getlabel(l2); getlabel(l3); importssection^.concat(new(pai_section,init(sec_idata2))); { pointer to procedure names } importssection^.concat(new(pai_const_symbol,init_rva(l2))); { two empty entries follow } importssection^.concat(new(pai_const,init_32bit(0))); importssection^.concat(new(pai_const,init_32bit(0))); { pointer to dll name } importssection^.concat(new(pai_const_symbol,init_rva(l1))); { pointer to fixups } importssection^.concat(new(pai_const_symbol,init_rva(l3))); { only create one section for each else it will create a lot of idata* } { first write the name references } importssection^.concat(new(pai_section,init(sec_idata4))); importssection^.concat(new(pai_label,init(l2))); hp2:=pimported_item(hp1^.imported_items^.first); while assigned(hp2) do begin getlabel(pasmlabel(hp2^.lab)); if hp2^.name^<>'' then importssection^.concat(new(pai_const_symbol,init_rva(hp2^.lab))) else importssection^.concat(new(pai_const,init_32bit($80000000 or hp2^.ordnr))); hp2:=pimported_item(hp2^.next); end; { finalize the names ... } importssection^.concat(new(pai_const,init_32bit(0))); { then the addresses and create also the indirect jump } importssection^.concat(new(pai_section,init(sec_idata5))); importssection^.concat(new(pai_label,init(l3))); hp2:=pimported_item(hp1^.imported_items^.first); while assigned(hp2) do begin if not hp2^.is_var then begin getlabel(l4); { create indirect jump } new(r); reset_reference(r^); r^.symbol:=l4; { place jump in codesegment } importssection^.concat(new(pai_section,init(sec_code))); importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0))); importssection^.concat(new(paicpu,op_ref(A_JMP,S_NO,r))); importssection^.concat(new(pai_align,init_op(4,$90))); { add jump field to importsection } importssection^.concat(new(pai_section,init(sec_idata5))); importssection^.concat(new(pai_label,init(l4))); end else begin importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0))); end; importssection^.concat(new(pai_const_symbol,init_rva(hp2^.lab))); hp2:=pimported_item(hp2^.next); end; { finalize the addresses } importssection^.concat(new(pai_const,init_32bit(0))); { finally the import information } importssection^.concat(new(pai_section,init(sec_idata6))); hp2:=pimported_item(hp1^.imported_items^.first); while assigned(hp2) do begin importssection^.concat(new(pai_label,init(hp2^.lab))); { the ordinal number } importssection^.concat(new(pai_const,init_16bit(hp2^.ordnr))); importssection^.concat(new(pai_string,init(hp2^.name^+#0))); importssection^.concat(new(pai_align,init_op(2,0))); hp2:=pimported_item(hp2^.next); end; { create import dll name } importssection^.concat(new(pai_section,init(sec_idata7))); importssection^.concat(new(pai_label,init(l1))); importssection^.concat(new(pai_string,init(hp1^.dllname^+#0))); hp1:=pimportlist(hp1^.next); end; end; {***************************************************************************** TEXPORTLIBWIN32 *****************************************************************************} procedure texportlibwin32.preparelib(const s:string); begin if not(assigned(exportssection)) then exportssection:=new(paasmoutput,init); last_index:=0; end; procedure texportlibwin32.exportvar(hp : pexported_item); begin { same code used !! PM } exportprocedure(hp); end; procedure texportlibwin32.exportprocedure(hp : pexported_item); { must be ordered at least for win32 !! } var hp2 : pexported_item; begin { first test the index value } if (hp^.options and eo_index)<>0 then begin if (hp^.index<=0) or (hp^.index>$ffff) then begin message1(parser_e_export_invalid_index,tostr(hp^.index)); exit; end; hp2:=pexported_item(current_module^._exports^.first); while assigned(hp2) do begin if (hp^.index=hp2^.index) then if ((hp2^.options and eo_index)<>0) then begin message1(parser_e_export_ordinal_double,tostr(hp^.index)); exit; end else begin inc(last_index); hp2^.index:=last_index; end; hp2:=pexported_item(hp2^.next); end; if hp^.index=last_index+1 then inc(last_index); end else begin inc(last_index); hp^.index:=last_index; end; { use pascal name is none specified } if (hp^.options and eo_name)=0 then begin hp^.name:=stringdup(hp^.sym^.name); hp^.options:=hp^.options or eo_name; end; { now place in correct order } hp2:=pexported_item(current_module^._exports^.first); while assigned(hp2) and (hp^.name^>hp2^.name^) do hp2:=pexported_item(hp2^.next); { insert hp there !! } if assigned(hp2) and (hp2^.name^=hp^.name^) then begin { this is not allowed !! } message1(parser_e_export_name_double,hp^.name^); exit; end; if hp2=pexported_item(current_module^._exports^.first) then current_module^._exports^.insert(hp) else if assigned(hp2) then begin hp^.next:=hp2; hp^.previous:=hp2^.previous; if assigned(hp2^.previous) then hp2^.previous^.next:=hp; hp2^.previous:=hp; end else current_module^._exports^.concat(hp); end; procedure texportlibwin32.generatelib; var ordinal_base,ordinal_max,ordinal_min : longint; current_index : longint; entries,named_entries : longint; name_label,dll_name_label,export_address_table : pasmlabel; export_name_table_pointers,export_ordinal_table : pasmlabel; hp,hp2 : pexported_item; tempexport : plinkedlist; address_table,name_table_pointers, name_table,ordinal_table : paasmoutput; begin ordinal_max:=0; ordinal_min:=$7FFFFFFF; entries:=0; named_entries:=0; getlabel(dll_name_label); getlabel(export_address_table); getlabel(export_name_table_pointers); getlabel(export_ordinal_table); hp:=pexported_item(current_module^._exports^.first); { count entries } while assigned(hp) do begin inc(entries); if (hp^.index>ordinal_max) then ordinal_max:=hp^.index; if (hp^.index>0) and (hp^.index0 then begin getlabel(name_label); name_table_pointers^.concat(new(pai_const_symbol,init_rva(name_label))); ordinal_table^.concat(new(pai_const,init_16bit(hp^.index-ordinal_base))); name_table^.concat(new(pai_align,init_op(2,0))); name_table^.concat(new(pai_label,init(name_label))); name_table^.concat(new(pai_string,init(hp^.name^+#0))); end; hp:=pexported_item(hp^.next); end; { order in increasing ordinal values } { into tempexport list } tempexport:=new(plinkedlist,init); hp:=pexported_item(current_module^._exports^.first); while assigned(hp) do begin current_module^._exports^.remove(hp); hp2:=pexported_item(tempexport^.first); while assigned(hp2) and (hp^.index>hp2^.index) do begin hp2:=pexported_item(hp2^.next); end; if hp2=pexported_item(tempexport^.first) then tempexport^.insert(hp) else begin if assigned(hp2) then begin hp^.next:=hp2; hp^.previous:=hp2^.previous; hp2^.previous:=hp; if assigned(hp^.previous) then hp^.previous^.next:=hp; end else tempexport^.concat(hp); end; hp:=pexported_item(current_module^._exports^.first);; end; { write the export adress table } current_index:=ordinal_base; hp:=pexported_item(tempexport^.first); while assigned(hp) do begin { fill missing values } while current_index'' then LinkRes.AddFileName(s); end; { Write sharedlibraries like -l, also add the needed dynamic linker here to be sure that it gets linked this is needed for glibc2 systems (PFV) } linklibc:=false; While not SharedLibFiles.Empty do begin S:=SharedLibFiles.Get; if s<>'c' then begin i:=Pos(target_os.sharedlibext,S); if i>0 then Delete(S,i,255); LinkRes.Add('-l'+s); end else begin LinkRes.Add('-l'+s); linklibc:=true; end; end; { be sure that libc is the last lib } if linklibc then LinkRes.Add('-lc'); LinkRes.Add(')'); { Write staticlibraries } if not StaticLibFiles.Empty then begin LinkRes.Add('GROUP('); While not StaticLibFiles.Empty do begin S:=StaticLibFiles.Get; LinkRes.AddFileName(s) end; LinkRes.Add(')'); end; { Write and Close response } linkres.writetodisk; linkres.done; WriteResponseFile:=True; end; function TLinkerWin32.MakeExecutable:boolean; var binstr, cmdstr : string; success : boolean; i : longint; StripStr, RelocStr, AppTypeStr, ImageBaseStr : string[40]; begin if not(cs_link_extern in aktglobalswitches) then Message1(exec_i_linking,current_module^.exefilename^); { Create some replacements } RelocStr:=''; AppTypeStr:=''; ImageBaseStr:=''; StripStr:=''; if RelocSection then RelocStr:='--base-file base.$$$'; if apptype=at_gui then AppTypeStr:='--subsystem windows'; if assigned(DLLImageBase) then ImageBaseStr:='--image-base=0x'+DLLImageBase^; if (cs_link_strip in aktglobalswitches) then StripStr:='-s'; { Write used files and libraries } WriteResponseFile(false); { Call linker } success:=false; for i:=1 to 3 do begin SplitBinCmd(Info.ExeCmd[i],binstr,cmdstr); if binstr<>'' then begin Replace(cmdstr,'$EXE',current_module^.exefilename^); Replace(cmdstr,'$OPT',Info.ExtraOptions); Replace(cmdstr,'$RES',current_module^.outpath^+Info.ResName); Replace(cmdstr,'$APPTYPE',AppTypeStr); Replace(cmdstr,'$RELOC',RelocStr); Replace(cmdstr,'$IMAGEBASE',ImageBaseStr); Replace(cmdstr,'$STRIP',StripStr); if not DefFile.Empty then Replace(cmdstr,'$DEF','-d '+deffile.fname) else Replace(cmdstr,'$DEF',''); success:=DoExec(FindUtil(binstr),cmdstr,(i=1),false); if not success then break; end; end; { Post process } if success then success:=PostProcessExecutable(current_module^.exefilename^,false); { Remove ReponseFile } if (success) and not(cs_link_extern in aktglobalswitches) then begin RemoveFile(current_module^.outpath^+Info.ResName); RemoveFile('base.$$$'); RemoveFile('exp.$$$'); end; MakeExecutable:=success; { otherwise a recursive call to link method } end; Function TLinkerWin32.MakeSharedLibrary:boolean; var binstr, cmdstr : string; success : boolean; i : longint; StripStr, RelocStr, AppTypeStr, ImageBaseStr : string[40]; begin MakeSharedLibrary:=false; if not(cs_link_extern in aktglobalswitches) then Message1(exec_i_linking,current_module^.sharedlibfilename^); { Create some replacements } RelocStr:=''; AppTypeStr:=''; ImageBaseStr:=''; StripStr:=''; if RelocSection then RelocStr:='--base-file base.$$$'; if apptype=at_gui then AppTypeStr:='--subsystem windows'; if assigned(DLLImageBase) then ImageBaseStr:='--image-base=0x'+DLLImageBase^; if (cs_link_strip in aktglobalswitches) then StripStr:='-s'; { Write used files and libraries } WriteResponseFile(true); { Call linker } success:=false; for i:=1to 3 do begin SplitBinCmd(Info.DllCmd[i],binstr,cmdstr); if binstr<>'' then begin Replace(cmdstr,'$EXE',current_module^.sharedlibfilename^); Replace(cmdstr,'$OPT',Info.ExtraOptions); Replace(cmdstr,'$RES',current_module^.outpath^+Info.ResName); Replace(cmdstr,'$APPTYPE',AppTypeStr); Replace(cmdstr,'$RELOC',RelocStr); Replace(cmdstr,'$IMAGEBASE',ImageBaseStr); Replace(cmdstr,'$STRIP',StripStr); if not DefFile.Empty then Replace(cmdstr,'$DEF','-d '+deffile.fname) else Replace(cmdstr,'$DEF',''); success:=DoExec(FindUtil(binstr),cmdstr,(i=1),false); if not success then break; end; end; { Post process } if success then success:=PostProcessExecutable(current_module^.sharedlibfilename^,true); { Remove ReponseFile } if (success) and not(cs_link_extern in aktglobalswitches) then begin RemoveFile(current_module^.outpath^+Info.ResName); RemoveFile('base.$$$'); RemoveFile('exp.$$$'); end; MakeSharedLibrary:=success; { otherwise a recursive call to link method } end; function tlinkerwin32.postprocessexecutable(const fn : string;isdll:boolean):boolean; type tdosheader = packed record e_magic : word; e_cblp : word; e_cp : word; e_crlc : word; e_cparhdr : word; e_minalloc : word; e_maxalloc : word; e_ss : word; e_sp : word; e_csum : word; e_ip : word; e_cs : word; e_lfarlc : word; e_ovno : word; e_res : array[0..3] of word; e_oemid : word; e_oeminfo : word; e_res2 : array[0..9] of word; e_lfanew : longint; end; tpeheader = packed record PEMagic : array[0..3] of char; Machine : word; NumberOfSections : word; TimeDateStamp : longint; PointerToSymbolTable : longint; NumberOfSymbols : longint; SizeOfOptionalHeader : word; Characteristics : word; Magic : word; MajorLinkerVersion : byte; MinorLinkerVersion : byte; SizeOfCode : longint; SizeOfInitializedData : longint; SizeOfUninitializedData : longint; AddressOfEntryPoint : longint; BaseOfCode : longint; BaseOfData : longint; ImageBase : longint; SectionAlignment : longint; FileAlignment : longint; MajorOperatingSystemVersion : word; MinorOperatingSystemVersion : word; MajorImageVersion : word; MinorImageVersion : word; MajorSubsystemVersion : word; MinorSubsystemVersion : word; Reserved1 : longint; SizeOfImage : longint; SizeOfHeaders : longint; CheckSum : longint; Subsystem : word; DllCharacteristics : word; SizeOfStackReserve : longint; SizeOfStackCommit : longint; SizeOfHeapReserve : longint; SizeOfHeapCommit : longint; LoaderFlags : longint; NumberOfRvaAndSizes : longint; DataDirectory : array[1..$80] of byte; end; tcoffsechdr=packed record name : array[0..7] of char; vsize : longint; rvaofs : longint; datalen : longint; datapos : longint; relocpos : longint; lineno1 : longint; nrelocs : word; lineno2 : word; flags : longint; end; psecfill=^tsecfill; tsecfill=record fillpos, fillsize : longint; next : psecfill; end; var f : file; dosheader : tdosheader; peheader : tpeheader; firstsecpos, maxfillsize, i,l,peheaderpos : longint; coffsec : tcoffsechdr; secroot,hsecroot : psecfill; zerobuf : pointer; begin postprocessexecutable:=false; { when -s is used or it's a dll then quit } if (cs_link_extern in aktglobalswitches) then begin postprocessexecutable:=true; exit; end; { open file } assign(f,fn); {$I-} reset(f,1); if ioresult<>0 then Message1(execinfo_f_cant_open_executable,fn); { read headers } blockread(f,dosheader,sizeof(tdosheader)); peheaderpos:=dosheader.e_lfanew; seek(f,peheaderpos); blockread(f,peheader,sizeof(tpeheader)); { write info } Message1(execinfo_x_codesize,tostr(peheader.SizeOfCode)); Message1(execinfo_x_initdatasize,tostr(peheader.SizeOfInitializedData)); Message1(execinfo_x_uninitdatasize,tostr(peheader.SizeOfUninitializedData)); { change stack size (PM) } { I am not sure that the default value is adequate !! } peheader.SizeOfStackReserve:=stacksize; { change the header } { sub system } { gui=2 } { cui=3 } if apptype=at_gui then peheader.Subsystem:=2 else if apptype=at_cui then peheader.Subsystem:=3; seek(f,peheaderpos); blockwrite(f,peheader,sizeof(tpeheader)); if ioresult<>0 then Message1(execinfo_f_cant_process_executable,fn); seek(f,peheaderpos); blockread(f,peheader,sizeof(tpeheader)); { write the value after the change } Message1(execinfo_x_stackreserve,tostr(peheader.SizeOfStackReserve)); Message1(execinfo_x_stackcommit,tostr(peheader.SizeOfStackCommit)); { read section info } maxfillsize:=0; firstsecpos:=0; secroot:=nil; for l:=1to peheader.NumberOfSections do begin blockread(f,coffsec,sizeof(tcoffsechdr)); if coffsec.datapos>0 then begin if secroot=nil then firstsecpos:=coffsec.datapos; new(hsecroot); hsecroot^.fillpos:=coffsec.datapos+coffsec.vsize; hsecroot^.fillsize:=coffsec.datalen-coffsec.vsize; hsecroot^.next:=secroot; secroot:=hsecroot; if secroot^.fillsize>maxfillsize then maxfillsize:=secroot^.fillsize; end; end; if firstsecpos>0 then begin l:=firstsecpos-filepos(f); if l>maxfillsize then maxfillsize:=l; end else l:=0; { get zero buffer } getmem(zerobuf,maxfillsize); fillchar(zerobuf^,maxfillsize,0); { zero from sectioninfo until first section } blockwrite(f,zerobuf^,l); { zero section alignments } while assigned(secroot) do begin seek(f,secroot^.fillpos); blockwrite(f,zerobuf^,secroot^.fillsize); hsecroot:=secroot; secroot:=secroot^.next; dispose(hsecroot); end; freemem(zerobuf,maxfillsize); close(f); {$I+} i:=ioresult; postprocessexecutable:=true; end; end. { $Log$ Revision 1.7 1999-11-15 15:01:56 pierre + Pavel's changes to support reloc section in exes Revision 1.6 1999/11/12 11:03:50 peter * searchpaths changed to stringqueue object Revision 1.5 1999/11/04 10:55:31 peter * TSearchPathString for the string type of the searchpaths, which is ansistring under FPC/Delphi Revision 1.4 1999/11/02 15:06:58 peter * import library fixes for win32 * alignment works again Revision 1.3 1999/10/28 10:33:06 pierre * Libs can be link serveral times Revision 1.2 1999/10/22 14:42:40 peter * reset linklibc Revision 1.1 1999/10/21 14:29:38 peter * redesigned linker object + library support for linux (only procedures can be exported) }