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fpc/compiler/win_targ.pas
peter 674e0cc879 * write .size also
1999-07-29 20:53:55 +00:00

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31 KiB
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{
$Id$
Copyright (c) 1998 by Florian Klaempfl
This unit implements some support routines for the win32 target like
import/export handling
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 win_targ;
interface
uses import,export;
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;
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;
{ sets some flags of the executable }
procedure postprocessexecutable(n : string);
implementation
uses
aasm,files,strings,globtype,globals,cobjects,systems,verbose
{$ifdef GDB}
,gdb
{$endif}
{$ifdef i386}
,i386base,i386asm
{$endif}
;
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[0..(IMAGE_NUMBEROF_DIRECTORY_ENTRIES)-1] of IMAGE_DATA_DIRECTORY; }
end;
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;
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
{ that IS wrong for DRV files
hs:=SplitName(module); }
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
importssection^.concat(new(pai_cut,init));
codesegment^.concat(new(pai_cut,init));
{ create header for this importmodule }
{ Get labels for the sections }
getdatalabel(lhead);
getdatalabel(lname);
getlabel(lidata4);
getlabel(lidata5);
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)));
{ 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^+{target_os.sharedlibext+}#0)));
{ 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_align,init_op(4,$90)));
importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0)));
importssection^.concat(new(pai386,op_ref(A_JMP,S_NO,r)));
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($80000000 or hp2^.ordnr)));
{ finally the import information }
importssection^.concat(new(pai_section,init(sec_idata6)));
importssection^.concat(new(pai_label,init(hp2^.lab)));
importssection^.concat(new(pai_const,init_16bit(hp2^.ordnr)));
importssection^.concat(new(pai_string,init(hp2^.name^+#0)));
importssection^.concat(new(pai_align,init_op(2,0)));
hp2:=pimported_item(hp2^.next);
end;
hp1:=pimportlist(hp1^.next);
end;
end;
procedure timportlibwin32.generatelib;
var
hp1 : pimportlist;
hp2 : pimported_item;
l1,l2,l3,l4 : pasmlabel;
r : preference;
begin
if (cs_smartlink in aktmoduleswitches) then
begin
generatesmartlib;
exit;
end;
hp1:=pimportlist(current_module^.imports^.first);
while assigned(hp1) do
begin
{ Insert cuts for smartlinking }
if (cs_smartlink in aktmoduleswitches) then
begin
importssection^.concat(new(pai_cut,init));
codesegment^.concat(new(pai_cut,init));
end;
{$IfDef GDB}
if (cs_debuginfo in aktmoduleswitches) then
codesegment^.concat(new(pai_stab_function_name,init(nil)));
{$EndIf GDB}
{ 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
getdatalabel(l4);
{ create indirect jump }
new(r);
reset_reference(r^);
r^.symbol:=l4;
{ place jump in codesegment }
codesegment^.concat(new(pai_align,init_op(4,$90)));
codesegment^.concat(new(pai_symbol,initname_global(hp2^.func^,0)));
codesegment^.concat(new(pai386,op_ref(A_JMP,S_NO,r)));
{ add jump field to importsection }
importssection^.concat(new(pai_label,init(l4)));
end
else
begin
importssection^.concat(new(pai_symbol,initname_global(hp2^.func^,0)));
end;
importssection^.concat(new(pai_const_symbol,init_rva(hp2^.lab)));
hp2:=pimported_item(hp2^.next);
end;
{ finalize the addresses }
importssection^.concat(new(pai_const,init_32bit(0)));
{ finally the import information }
importssection^.concat(new(pai_section,init(sec_idata6)));
hp2:=pimported_item(hp1^.imported_items^.first);
while assigned(hp2) do
begin
importssection^.concat(new(pai_label,init(hp2^.lab)));
{ the ordinal number }
importssection^.concat(new(pai_const,init_16bit(hp2^.ordnr)));
importssection^.concat(new(pai_string,init(hp2^.name^+#0)));
importssection^.concat(new(pai_align,init_op(2,0)));
hp2:=pimported_item(hp2^.next);
end;
{ create import dll name }
importssection^.concat(new(pai_section,init(sec_idata7)));
importssection^.concat(new(pai_label,init(l1)));
importssection^.concat(new(pai_string,init(hp1^.dllname^+{target_os.sharedlibext+}#0)));
hp1:=pimportlist(hp1^.next);
end;
end;
procedure texportlibwin32.preparelib(const s:string);
begin
if not(assigned(exportssection)) then
exportssection:=new(paasmoutput,init);
last_index:=0;
end;
procedure texportlibwin32.exportvar(hp : pexported_item);
begin
{ same code used !! PM }
exportprocedure(hp);
end;
procedure texportlibwin32.exportprocedure(hp : pexported_item);
{ must be ordered at least for win32 !! }
var hp2 : pexported_item;
begin
hp2:=pexported_item(current_module^._exports^.first);
{ first test the index value }
if (hp^.options and eo_index)<>0 then
begin
if (hp^.index<=0) or (hp^.index>$ffff) then
message1(parser_e_export_invalid_index,tostr(hp^.index))
else while assigned(hp2) do
begin
if (hp^.index=hp2^.index) then
if ((hp2^.options and eo_index)<>0) then
message1(parser_e_export_ordinal_double,tostr(hp^.index))
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^);
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^.index<ordinal_min) then
ordinal_min:=hp^.index;
if assigned(hp^.name) then
inc(named_entries);
hp:=pexported_item(hp^.next);
end;
{ no support for higher ordinal base yet !! }
ordinal_base:=1;
current_index:=ordinal_base;
{ we must also count the holes !! }
entries:=ordinal_max-ordinal_base+1;
exportssection^.concat(new(pai_section,init(sec_edata)));
{ export flags }
exportssection^.concat(new(pai_const,init_32bit(0)));
{ date/time stamp }
exportssection^.concat(new(pai_const,init_32bit(0)));
{ major version }
exportssection^.concat(new(pai_const,init_16bit(0)));
{ minor version }
exportssection^.concat(new(pai_const,init_16bit(0)));
{ pointer to dll name }
exportssection^.concat(new(pai_const_symbol,init_rva(dll_name_label)));
{ ordinal base normally set to 1 }
exportssection^.concat(new(pai_const,init_32bit(ordinal_base)));
{ number of entries }
exportssection^.concat(new(pai_const,init_32bit(entries)));
{ number of named entries }
exportssection^.concat(new(pai_const,init_32bit(named_entries)));
{ address of export address table }
exportssection^.concat(new(pai_const_symbol,init_rva(export_address_table)));
{ address of name pointer pointers }
exportssection^.concat(new(pai_const_symbol,init_rva(export_name_table_pointers)));
{ address of ordinal number pointers }
exportssection^.concat(new(pai_const_symbol,init_rva(export_ordinal_table)));
{ the name }
exportssection^.concat(new(pai_label,init(dll_name_label)));
if st='' then
exportssection^.concat(new(pai_string,init(current_module^.modulename^+target_os.sharedlibext+#0)))
else
exportssection^.concat(new(pai_string,init(st+target_os.sharedlibext+#0)));
{ export address table }
address_table:=new(paasmoutput,init);
address_table^.concat(new(pai_align,init_op(4,0)));
address_table^.concat(new(pai_label,init(export_address_table)));
name_table_pointers:=new(paasmoutput,init);
name_table_pointers^.concat(new(pai_align,init_op(4,0)));
name_table_pointers^.concat(new(pai_label,init(export_name_table_pointers)));
ordinal_table:=new(paasmoutput,init);
ordinal_table^.concat(new(pai_align,init_op(4,0)));
ordinal_table^.concat(new(pai_label,init(export_ordinal_table)));
name_table:=new(paasmoutput,init);
name_table^.concat(new(pai_align,init_op(4,0)));
{ write each address }
hp:=pexported_item(current_module^._exports^.first);
while assigned(hp) do
begin
if (hp^.options and eo_name)<>0 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<hp^.index do
begin
address_table^.concat(new(pai_const,init_32bit(0)));
inc(current_index);
end;
address_table^.concat(new(pai_const_symbol,initname_rva(hp^.sym^.mangledname)));
inc(current_index);
hp:=pexported_item(hp^.next);
end;
exportssection^.concatlist(address_table);
exportssection^.concatlist(name_table_pointers);
exportssection^.concatlist(ordinal_table);
exportssection^.concatlist(name_table);
dispose(address_table,done);
dispose(name_table_pointers,done);
dispose(ordinal_table,done);
dispose(name_table,done);
dispose(tempexport,done);
end;
procedure postprocessexecutable(n : string);
var
f : file;
dosheader : tdosheader;
peheader : tpeheader;
peheaderpos : longint;
begin
{ when -s is used quit, because there is no .exe }
if cs_link_extern in aktglobalswitches then
exit;
{ open file }
assign(f,n);
{$I-}
reset(f,1);
if ioresult<>0 then
Message1(execinfo_f_cant_open_executable,n);
{ 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,n);
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));
close(f);
{$I+}
end;
end.
{
$Log$
Revision 1.30 1999-07-29 20:54:11 peter
* write .size also
Revision 1.29 1999/07/22 16:12:28 peter
* merged
Revision 1.28 1999/07/18 10:20:03 florian
* made it compilable with Dlephi 4 again
+ fixed problem with large stack allocations on win32
Revision 1.27.2.1 1999/07/22 16:09:30 peter
* reuse old import entries
Revision 1.27 1999/05/27 19:45:30 peter
* removed oldasm
* plabel -> pasmlabel
* -a switches to source writing automaticly
* assembler readers OOPed
* asmsymbol automaticly external
* jumptables and other label fixes for asm readers
Revision 1.26 1999/05/21 13:55:24 peter
* NEWLAB for label as symbol
Revision 1.25 1999/05/17 13:02:13 pierre
* -Csmmm works for win32 but default is set to 32Mb
Revision 1.24 1999/05/01 13:25:04 peter
* merged nasm compiler
* old asm moved to oldasm/
Revision 1.23 1999/04/07 14:18:32 pierre
* typo correction
Revision 1.22 1999/04/07 14:04:40 pierre
* adds .dll as library suffix only if
the name does not end with .dll .drv or .exe !
Revision 1.21 1999/02/25 21:02:59 peter
* ag386bin updates
+ coff writer
Revision 1.20 1999/02/22 02:44:14 peter
* ag386bin doesn't use i386.pas anymore
Revision 1.19 1998/12/11 00:04:06 peter
+ globtype,tokens,version unit splitted from globals
Revision 1.18 1998/12/02 10:26:13 pierre
* writing of .edata was wrong for indexes above number of exported items
* importing by index only did not work !
Revision 1.17 1998/12/01 23:35:43 pierre
* alignment fixes
Revision 1.16 1998/11/30 13:26:26 pierre
* the code for ordering the exported procs/vars was buggy
+ added -WB to force binding (Ozerski way of creating DLL)
this is off by default as direct writing of .edata section seems
OK
Revision 1.15 1998/11/30 09:43:25 pierre
* some range check bugs fixed (still not working !)
+ added DLL writing support for win32 (also accepts variables)
+ TempAnsi for code that could be used for Temporary ansi strings
handling
Revision 1.14 1998/11/28 16:21:00 peter
+ support for dll variables
Revision 1.13 1998/10/29 11:35:54 florian
* some dll support for win32
* fixed assembler writing for PalmOS
Revision 1.12 1998/10/27 10:22:35 florian
+ First things for win32 export sections
Revision 1.11 1998/10/22 17:54:09 florian
+ switch $APPTYPE for win32 added
Revision 1.10 1998/10/22 15:18:51 florian
+ switch -vx for win32 added
Revision 1.9 1998/10/19 15:41:03 peter
* better splitname to support glib-1.1.dll alike names
Revision 1.8 1998/09/07 18:33:35 peter
+ smartlinking for win95 imports
Revision 1.7 1998/09/03 17:39:06 florian
+ better code for type conversation longint/dword to real type
Revision 1.6 1998/08/10 14:50:38 peter
+ localswitches, moduleswitches, globalswitches splitting
Revision 1.5 1998/06/10 10:43:18 peter
* write also the .dll extension (needed for NT)
Revision 1.4 1998/06/08 22:59:56 peter
* smartlinking works for win32
* some defines to exclude some compiler parts
Revision 1.3 1998/06/04 23:52:06 peter
* m68k compiles
+ .def file creation moved to gendef.pas so it could also be used
for win32
Revision 1.2 1998/05/06 18:36:55 peter
* tai_section extended with code,data,bss sections and enumerated type
* ident 'compiled by FPC' moved to pmodules
* small fix for smartlink
}
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