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fpc/rtl/aix/system.pp
svenbarth 2d454dc8fa Move DynLibs support to System unit using a manager approach like for Threads, WideStrings, etc.. This is needed so that we can support features like "delayed" and loading of dynamic packages. 
Each port that allows the usage of dynamic libraries should call InitSystemDynLibs during initialization of the System unit.
The DynLibs unit has been adjusted to be a forwarder for the functions that now reside in the System unit (for backwards compatiblity just in case). Additionally the unit will register the DynLibsManager if it doesn't reside in the System unit anyway.
Currently only the Windows targets (Win32, Win64 and WinCE) implement the DynLibsManager inside the System unit. For other systems using the LoadLibrary, etc. functions will lead to a run error/exception.
If a port wants to implement its own DynLibsManager then it needs to define DISABLE_NO_DYNLIBS_MANAGER. TLibHandle, NilHandle and optionally TOrdinalEntry (it's set to SizeUInt otherwise) should be defined in sysdlh.inc which needs to be enabled using the define FPC_SYSTEM_HAS_SYSDLH (because there are targets which have FEATURE_DYNLIBS enabled, but don't support them... e.g. powerpc-wii -.-).
The DynLibsManager contains methods for loading a library based on a RawByteString and based on a UnicodeString. BOTH should be implemented, but internally one can forward to the other.
The loading by ordinal *can* be be implemented. If it is set to Nil then the implementation of GetProcAddress(lib,ordinal) will return Nil.

+ new functions SetDynLibsManager and GetDynLibsManager to set and retrieve the current DynLibsManager
* provide interface of DynLibs unit in unit System

git-svn-id: trunk@29613 -
2015-02-03 20:00:00 +00:00

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{
This file is part of the Free Pascal run time library.
Copyright (c) 1999-2000 by the Free Pascal development team.
AIX system unit
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.
**********************************************************************}
unit System;
interface
{$define FPC_IS_SYSTEM}
{$linklib m}
{ include system-independent routine headers }
{$I sysunixh.inc}
var argc:longint;
argv:PPchar;
envp:PPchar;
implementation
{ OS independant parts}
{$I system.inc}
{*****************************************************************************
Misc. System Dependent Functions
*****************************************************************************}
procedure pascalmain;cdecl;external name 'PASCALMAIN';
procedure FPC_SYSTEMMAIN(argcparam: Longint; argvparam: ppchar; envpparam: ppchar); cdecl; [public];
begin
argc:=argcparam;
argv:=argvparam;
envp:=envpparam;
pascalmain; {run the pascal main program}
end;
procedure System_exit;
begin
Fpexit(cint(ExitCode));
End;
Function ParamCount: Longint;
Begin
Paramcount:=argc-1
End;
function BackPos(c:char; const s: shortstring): integer;
var
i: integer;
Begin
for i:=length(s) downto 0 do
if s[i] = c then break;
if i=0 then
BackPos := 0
else
BackPos := i;
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 < argc) then
paramstr:=strpas(argv[l])
else
paramstr:='';
end;
Procedure Randomize;
Begin
randseed:=longint(Fptime(nil));
End;
{*****************************************************************************
SystemUnit Initialization
*****************************************************************************}
function reenable_signal(sig : longint) : boolean;
var
e,oe : TSigSet;
i,j : byte;
olderrno: cint;
begin
fillchar(e,sizeof(e),#0);
fillchar(oe,sizeof(oe),#0);
{ set is 1 based PM }
dec(sig);
i:=sig mod sizeof(clong);
j:=sig div sizeof(clong);
e[j]:=1 shl i;
{ this routine is called from a signal handler, so must not change errno }
olderrno:=geterrno;
fpsigprocmask(SIG_UNBLOCK,@e,@oe);
reenable_signal:=geterrno=0;
seterrno(olderrno);
end;
{$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:=@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 SetupCmdLine;
var
bufsize,
len,j,
size,i : longint;
found : boolean;
buf : pchar;
procedure AddBuf;
begin
reallocmem(cmdline,size+bufsize);
move(buf^,cmdline[size],bufsize);
inc(size,bufsize);
bufsize:=0;
end;
begin
GetMem(buf,ARG_MAX);
size:=0;
bufsize:=0;
i:=0;
while (i<argc) do
begin
len:=strlen(argv[i]);
if len>ARG_MAX-2 then
len:=ARG_MAX-2;
found:=false;
for j:=1 to len do
if argv[i][j]=' ' then
begin
found:=true;
break;
end;
if bufsize+len>=ARG_MAX-2 then
AddBuf;
if found then
begin
buf[bufsize]:='"';
inc(bufsize);
end;
move(argv[i]^,buf[bufsize],len);
inc(bufsize,len);
if found then
begin
buf[bufsize]:='"';
inc(bufsize);
end;
if i<argc-1 then
buf[bufsize]:=' '
else
buf[bufsize]:=#0;
inc(bufsize);
inc(i);
end;
AddBuf;
FreeMem(buf,ARG_MAX);
end;
procedure SysInitStdIO;
begin
OpenStdIO(Input,fmInput,StdInputHandle);
OpenStdIO(Output,fmOutput,StdOutputHandle);
OpenStdIO(ErrOutput,fmOutput,StdErrorHandle);
OpenStdIO(StdOut,fmOutput,StdOutputHandle);
OpenStdIO(StdErr,fmOutput,StdErrorHandle);
end;
function GetProcessID: SizeUInt;
begin
GetProcessID := SizeUInt (fpGetPID);
end;
function CheckInitialStkLen(stklen : SizeUInt) : SizeUInt;
begin
result := stklen;
end;
const
FP_TRAP_SYNC = 1; { precise fpu exceptions }
FP_TRAP_OFF = 0; { disable fpu exceptions }
FP_TRAP_QUERY = 2; { current fpu exception state }
FP_TRAP_IMP = 3; { imprecise non-recoverable fpu exceptions }
FP_TRAP_IMP_REC = 4; { imprecise recoverable fpu exceptions }
FP_TRAP_FASTMODE = 128; { fastest fpu exception state }
FP_TRAP_ERROR = -1;
FP_TRAP_UNIMPL = -2;
TRP_INVALID = $00000080;
TRP_OVERFLOW = $00000040;
TRP_UNDERFLOW = $00000020;
TRP_DIV_BY_ZERO = $00000010;
TRP_INEXACT = $00000008;
function fp_trap(flag: longint): longint; cdecl; external;
procedure fp_enable(Mask: DWord);cdecl;external;
Begin
IsConsole := TRUE;
StackLength := CheckInitialStkLen(InitialStkLen);
StackBottom := Sptr - StackLength;
{ Set up signals handlers (may be needed by init code to test cpu features) }
InstallSignals;
SysResetFPU;
if not(IsLibrary) then
begin
{ clear pending exceptions }
feclearexcept(FE_ALL_EXCEPT);
{ enable floating point exceptions process-wide (try two possibilities) }
if fp_trap(FP_TRAP_SYNC)=FP_TRAP_UNIMPL then
fp_trap(FP_TRAP_IMP);
SysInitFPU;
{ now enable the actual individual exceptions, except for underflow and
inexact (also disabled by default on x86 and in the softfpu mask) }
fp_enable(TRP_INVALID or TRP_DIV_BY_ZERO or TRP_OVERFLOW);
end;
{ Setup heap }
InitHeap;
SysInitExceptions;
initunicodestringmanager;
{ Setup stdin, stdout and stderr }
SysInitStdIO;
{ Reset IO Error }
InOutRes:=0;
{ Arguments }
SetupCmdLine;
InitSystemThreads;
InitSystemDynLibs;
{ restore original signal handlers in case this is a library }
if IsLibrary then
RestoreOldSignalHandlers;
End.
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