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fpc/rtl/beos/system.pp
Jonas Maebe f6d452c2c0 * remove the RTL's installed signal handlers at the end of the system 
unit's initialization code in case we're in a library
  + implemented InquireSignal(), AbandonSignalHandler(), HookSignal() and
    UnhookSignal() in the sysutils unit
  * for Kylix compatibility, these routines support operating on
    SIGINT and SIGQUIT as well, although they are not hooked by default
    by FPC. The run time errors/exception codes for these signals are
    resp. 217 and 233 (same as in Kylix; I changed ENoWideStringSupport
    to 234).
  * changed the BSD syscall version of fpsigaction to use pointer
    rather than "var" arguments (compatible with other targets, and
    required to be able to pass nil arguments inside the system unit)
  -> together fixes mantis #12704

git-svn-id: trunk@13077 -
2009-05-02 09:40:44 +00:00

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Unit system;
interface
// Was needed to bootstrap with our old 2.1 fpc for BeOS
// to define real
{ $define VER2_0}
{$define FPC_IS_SYSTEM}
{$I sysunixh.inc}
type
THeapPointer = ^pointer;
var
heapstartpointer : THeapPointer;
heapstart : pointer;//external;//external name 'HEAP';
myheapsize : longint; //external;//external name 'HEAPSIZE';
myheaprealsize : longint;
heap_handle : longint;
implementation
procedure debugger(s : PChar); cdecl; external 'root' name 'debugger';
function disable_debugger(state : integer): integer; external 'root' name 'disable_debugger';
//begin
//end;
{ OS independant parts}
{$I system.inc}
{*****************************************************************************
System Dependent Exit code
*****************************************************************************}
procedure prthaltproc;external name '_haltproc';
procedure system_exit;
begin
asm
jmp prthaltproc
end;
End;
{ OS dependant parts }
{*****************************************************************************
Heap Management
*****************************************************************************}
(*var myheapstart:pointer;
myheapsize:longint;
myheaprealsize:longint;
heap_handle:longint;
zero:longint;
{ first address of heap }
function getheapstart:pointer;
begin
getheapstart:=myheapstart;
end;
{ current length of heap }
function getheapsize:longint;
begin
getheapsize:=myheapsize;
end;
*)
(*function getheapstart:pointer;
assembler;
asm
leal HEAP,%eax
end ['EAX'];
function getheapsize:longint;
assembler;
asm
movl intern_HEAPSIZE,%eax
end ['EAX'];*)
{ function to allocate size bytes more for the program }
{ must return the first address of new data space or nil if fail }
(*function Sbrk(size : longint):pointer;
var newsize,newrealsize:longint;
s : string;
begin
WriteLn('SBRK');
Str(size, s);
WriteLn('size : ' + s);
if (myheapsize+size)<=myheaprealsize then
begin
Sbrk:=pointer(heapstart+myheapsize);
myheapsize:=myheapsize+size;
exit;
end;
newsize:=myheapsize+size;
newrealsize:=(newsize and $FFFFF000)+$1000;
case resize_area(heap_handle,newrealsize) of
B_OK :
begin
WriteLn('B_OK');
Sbrk:=pointer(heapstart+myheapsize);
myheapsize:=newsize;
myheaprealsize:=newrealsize;
exit;
end;
B_BAD_VALUE : WriteLn('B_BAD_VALUE');
B_NO_MEMORY : WriteLn('B_NO_MEMORY');
B_ERROR : WriteLn('B_ERROR');
else
begin
Sbrk:=pointer(heapstart+myheapsize);
myheapsize:=newsize;
myheaprealsize:=newrealsize;
exit;
end;
end;
// Sbrk:=nil;
end;*)
function sys_resize_area (handle:cardinal; size:longint):longint; cdecl; external name 'sys_resize_area';
//function sbrk2 (size : longint):pointer; cdecl; external name 'sbrk';
{ function to allocate size bytes more for the program }
{ must return the first address of new data space or nil if fail }
//function Sbrk(size : longint):pointer;
//var newsize,newrealsize:longint;
// s : string;
//begin
// sbrk := sbrk2(size);
(* sbrk := nil;
WriteLn('sbrk');
Str(size, s);
WriteLn('size : ' + s);
if (myheapsize+size)<=myheaprealsize then
begin
Sbrk:=heapstart+myheapsize;
myheapsize:=myheapsize+size;
exit;
end;
newsize:=myheapsize+size;
newrealsize:=(newsize and $FFFFF000)+$1000;
if sys_resize_area(heap_handle,newrealsize+$1000)=0 then
begin
WriteLn('sys_resize_area OK');
Str(longint(newrealsize), s);
WriteLn('newrealsize : $' + Hexstr(longint(newrealsize), 8));
Str(longint(heapstartpointer), s);
WriteLn('heapstart : $' + Hexstr(longint(heapstart), 8));
Str(myheapsize, s);
WriteLn('myheapsize : ' + s);
Str(myheapsize, s);
WriteLn('Total : ' + s);
WriteLn('Before fillchar');
WriteLn('sbrk : $' + Hexstr(longint(heapstart+myheapsize), 8));
Sbrk:=heapstart+myheapsize;
FillChar(sbrk^, size, #0);
WriteLn('EndFillChar');
WriteLn('sbrk : $' + Hexstr(longint(sbrk), 8));
// ReadLn(s);
myheapsize:=newsize;
Str({longint(heapstartpointer) +} myheapsize, s);
WriteLn('Total : ' + s);
myheaprealsize:=newrealsize;
exit;
end
else
begin
debugger('Bad resize_area');
WriteLn('Bad resize_area');
end;
Sbrk:=nil;
*)
//end;
{ $I text.inc}
{*****************************************************************************
UnTyped File Handling
*****************************************************************************}
{ $i file.inc}
{*****************************************************************************
Typed File Handling
*****************************************************************************}
{ $i typefile.inc}
{*****************************************************************************
Misc. System Dependent Functions
*****************************************************************************}
Function ParamCount: Longint;
var
s : string;
Begin
ParamCount := 0;
Paramcount:=argc - 1;
End;
{ variable where full path and filename and executable is stored }
{ is setup by the startup of the system unit. }
var
execpathstr : shortstring;
{$ifdef FPC_USE_LIBC}
// private; use the macros, below
function _get_image_info(image : image_id; var info : image_info; size : size_t)
: status_t; cdecl; external 'root' name '_get_image_info';
function _get_next_image_info(team : team_id; var cookie : Longint; var info : image_info; size : size_t)
: status_t; cdecl; external 'root' name '_get_next_image_info';
function get_image_info(image : image_id; var info : image_info) : status_t;
begin
Result := _get_image_info(image, info, SizeOf(info));
end;
function get_next_image_info(team : team_id; var cookie : Longint; var info : image_info) : status_t;
begin
Result := _get_next_image_info(team, cookie, info, SizeOf(info));
end;
{$endif}
{ this routine sets up the paramstr(0) string at startup }
procedure setupexecname;
var
cookie: longint;
image : image_info;
index : byte;
s : string;
begin
cookie:=0;
fillchar(image, sizeof(image_info), 0);
if get_next_image_info(0, cookie, image) = B_OK then
begin
execpathstr := strpas(@image.name);
end
else
execpathstr := '';
{ problem with Be 4.5 noted... path contains . character }
{ if file is directly executed in CWD }
index:=pos('/./',execpathstr);
if index <> 0 then
begin
{ remove the /. characters }
Delete(execpathstr,index, 2);
end;
end;
function paramstr(l: longint) : string;
var
s: string;
s1: string;
begin
{ stricly conforming POSIX applications }
{ have the executing filename as argv[0] }
if l = 0 then
begin
paramstr := execpathstr;
end
else if (l < argc) then
begin
paramstr:=strpas(argv[l]);
end
else
paramstr := '';
end;
Procedure Randomize;
Begin
randseed:=longint(Fptime(nil));
End;
function GetProcessID: SizeUInt;
begin
GetProcessID := SizeUInt (fpGetPID);
end;
{*****************************************************************************
SystemUnit Initialization
*****************************************************************************}
function reenable_signal(sig : longint) : boolean;
var
e : TSigSet;
i,j : byte;
olderrno: cint;
begin
fillchar(e,sizeof(e),#0);
{ set is 1 based PM }
dec(sig);
i:=sig mod (sizeof(cuLong) * 8);
j:=sig div (sizeof(cuLong) * 8);
e[j]:=1 shl i;
{ this routine is called from a signal handler, so must not change errno }
olderrno:=geterrno;
fpsigprocmask(SIG_UNBLOCK,@e,nil);
reenable_signal:=geterrno=0;
seterrno(olderrno);
end;
// signal handler is arch dependant due to processorexception to language
// exception translation
{$i sighnd.inc}
procedure InstallDefaultSignalHandler(signum: longint; out oldact: SigActionRec); public name '_FPC_INSTALLDEFAULTSIGHANDLER';
var
act: SigActionRec;
begin
{ Initialize the sigaction structure }
{ all flags and information set to zero }
FillChar(act, sizeof(SigActionRec),0);
{ initialize handler }
act.sa_handler := SigActionHandler(@SignalToRunError);
act.sa_flags:=SA_SIGINFO;
FpSigAction(signum,@act,@oldact);
end;
var
oldsigfpe: SigActionRec; public name '_FPC_OLDSIGFPE';
oldsigsegv: SigActionRec; public name '_FPC_OLDSIGSEGV';
oldsigbus: SigActionRec; public name '_FPC_OLDSIGBUS';
oldsigill: SigActionRec; public name '_FPC_OLDSIGILL';
Procedure InstallSignals;
begin
InstallDefaultSignalHandler(SIGFPE,oldsigfpe);
InstallDefaultSignalHandler(SIGSEGV,oldsigsegv);
InstallDefaultSignalHandler(SIGBUS,oldsigbus);
InstallDefaultSignalHandler(SIGILL,oldsigill);
end;
Procedure RestoreOldSignalHandlers;
begin
FpSigAction(SIGFPE,@oldsigfpe,nil);
FpSigAction(SIGSEGV,@oldsigsegv,nil);
FpSigAction(SIGBUS,@oldsigbus,nil);
FpSigAction(SIGILL,@oldsigill,nil);
end;
procedure SysInitStdIO;
begin
{ Setup stdin, stdout and stderr, for GUI apps redirect stderr,stdout to be
displayed in and messagebox }
OpenStdIO(Input,fmInput,StdInputHandle);
OpenStdIO(Output,fmOutput,StdOutputHandle);
OpenStdIO(StdOut,fmOutput,StdOutputHandle);
OpenStdIO(StdErr,fmOutput,StdErrorHandle);
end;
function CheckInitialStkLen(stklen : SizeUInt) : SizeUInt;
begin
result := stklen;
end;
var
s : string;
begin
IsConsole := TRUE;
StackLength := CheckInitialStkLen(InitialStkLen);
StackBottom := Sptr - StackLength;
SysResetFPU;
if not(IsLibrary) then
SysInitFPU;
{ Set up signals handlers (may be needed by init code to test cpu features) }
InstallSignals;
SysInitStdIO;
{ Setup heap }
myheapsize:=4096*1;// $ 20000;
myheaprealsize:=4096*1;// $ 20000;
heapstart:=nil;
heapstartpointer := nil;
heapstartpointer := Sbrk2(4096*1);
{$IFDEF FPC_USE_LIBC}
// heap_handle := create_area('fpcheap',heapstart,0,myheaprealsize,0,3);//!!
{$ELSE}
// debugger('tata'#0);
// heap_handle := create_area('fpcheap',longint(heapstartpointer),0,myheaprealsize,0,3);//!!
// case heap_handle of
// B_BAD_VALUE : WriteLn('B_BAD_VALUE');
// B_PAGE_SIZE : WriteLn('B_PAGE_SIZE');
// B_NO_MEMORY : WriteLn('B_NO_MEMORY');
// B_ERROR : WriteLn('B_ERROR');
// end;
FillChar(heapstartpointer^, myheaprealsize, #0);
// WriteLn('EndFillChar');
// WriteLn('P : $' + Hexstr(longint(heapstartpointer), 8));
// WriteLn('heapstart : $' + Hexstr(longint(heapstartpointer^), 8));
heapstart := heapstartpointer;
{$ENDIF}
// WriteLn('before InitHeap');
// case heap_handle of
// B_BAD_VALUE : WriteLn('B_BAD_VALUE');
// B_PAGE_SIZE : WriteLn('B_PAGE_SIZE');
// B_NO_MEMORY : WriteLn('B_NO_MEMORY');
// B_ERROR : WriteLn('B_ERROR');
// else
// begin
// WriteLn('ok');
// WriteLn('P : $' + Hexstr(longint(heapstartpointer), 8));
// WriteLn('heapstart : $' + Hexstr(longint(heapstartpointer^), 8));
// if heap_handle>0 then
// begin
InitHeap;
// end;
// end;
// end;
// WriteLn('after InitHeap');
// end else system_exit;
SysInitExceptions;
// WriteLn('after SysInitException');
{ Setup IO }
SysInitStdIO;
{ Reset IO Error }
InOutRes:=0;
InitSystemThreads;
{$ifdef HASVARIANT}
initvariantmanager;
{$endif HASVARIANT}
{$ifdef VER2_2}
initwidestringmanager;
{$else VER2_2}
initunicodestringmanager;
{$endif VER2_2}
setupexecname;
{ restore original signal handlers in case this is a library }
if IsLibrary then
RestoreOldSignalHandlers;
end.
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