{ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by Michael Van Canneyt, member of the Free Pascal development team. Signal handler is arch dependant due to processor to language exception conversion. See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} { use a trampoline which pushes the return address for proper unwinding } Procedure SignalToHandleErrorAddrFrame (Errno : longint;addr : CodePointer; frame : Pointer); nostackframe; assembler; asm pushl addr jmp HandleErrorAddrFrame end; procedure SignalToRunerror(sig : longint; SigInfo: PSigInfo; UContext: Pucontext);public name '_FPC_DEFAULTSIGHANDLER';cdecl; var res,fpustate,MMState : word; begin res:=0; case sig of SIGFPE : begin { this is not allways necessary but I don't know yet how to tell if it is or not PM } res:=200; {$ifdef SYSTEM_DEBUG} if assigned(ucontext^.uc_mcontext.fpstate) then begin writeln('magic: $',hexstr(ucontext^.uc_mcontext.fpstate^.magic,4)); writeln('magic1: $',hexstr(ucontext^.uc_mcontext.fpstate^.sw_reserved.magic1,8)); end else writeln('fpstate=nil'); {$endif SYSTEM_DEBUG} if SigInfo^.si_code<>FPE_INTDIV then begin if assigned(ucontext^.uc_mcontext.fpstate) then begin FpuState:=ucontext^.uc_mcontext.fpstate^.sw; if (FpuState and FPU_ExceptionMask) <> 0 then begin { first check the more precise options } if (FpuState and FPU_DivisionByZero)<>0 then res:=208 else if (FpuState and (FPU_StackOverflow or FPU_StackUnderflow or FPU_Invalid))<>0 Then res:=207 else if (FpuState and FPU_Overflow)<>0 then res:=205 else if (FpuState and FPU_Underflow)<>0 then res:=206 else if (FpuState and FPU_Denormal)<>0 then res:=206 else res:=207; {'Coprocessor Error'} end else begin { SSE data? } if ucontext^.uc_mcontext.fpstate^.magic=0 then begin MMState:=ucontext^.uc_mcontext.fpstate^.mxcsr; if (MMState and MM_ExceptionMask)<>0 then begin { first check the more precise options } if (MMState and MM_DivisionByZero)<>0 then res:=208 else if (MMState and MM_Invalid)<>0 Then res:=207 else if (MMState and MM_Overflow)<>0 then res:=205 else if (MMState and MM_Underflow)<>0 then res:=206 else if (MMState and MM_Denormal)<>0 then res:=206 else res:=207; {'Coprocessor Error'} end; end; end; end; end; if assigned(ucontext^.uc_mcontext.fpstate) then with ucontext^.uc_mcontext.fpstate^ do begin { Reset Status word } sw:=sw and not(FPU_ExceptionMask); if magic=0 then mxcsr:=mxcsr and not(MM_ExceptionMask); cw:=Default8087CW; { Reset Tag word to $ffff for all empty } tag:=$ffff; end; end; SIGBUS: res:=214; SIGILL: if sse_check then begin os_supports_sse:=false; res:=0; inc(ucontext^.uc_mcontext.eip,3); end else res:=216; SIGSEGV : res:=216; SIGINT: res:=217; SIGQUIT: res:=233; end; reenable_signal(sig); { give runtime error at the position where the signal was raised } if res<>0 then begin ucontext^.uc_mcontext.eax := res; ucontext^.uc_mcontext.edx := ucontext^.uc_mcontext.eip; ucontext^.uc_mcontext.ecx := ucontext^.uc_mcontext.ebp; ucontext^.uc_mcontext.eip := ptruint(@SignalToHandleErrorAddrFrame); end; end;