{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2004 by the Free Pascal development team. 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. System.pp for Netware libc environment **********************************************************************} { no stack check in system } {$S-} unit system; interface {$define netware} {$define netware_libc} {$define StdErrToConsole} {$define autoHeapRelease} {$define IOpossix} {$define DisableArrayOfConst} {$ifdef SYSTEMDEBUG} {$define SYSTEMEXCEPTIONDEBUG} {$endif SYSTEMDEBUG} {$ifdef cpui386} {$define Set_i386_Exception_handler} {$endif cpui386} { include system-independent routine headers } {$I systemh.inc} type THandle = DWord; {Platform specific information} const LineEnding = #13#10; LFNSupport : boolean = false; DirectorySeparator = '/'; DriveSeparator = ':'; PathSeparator = ';'; { FileNameCaseSensitive is defined separately below!!! } maxExitCode = $ffff; { include heap support headers } {$I heaph.inc} CONST { Default filehandles } UnusedHandle : THandle = -1; StdInputHandle : THandle = 0; StdOutputHandle : THandle = 0; StdErrorHandle : THandle = 0; FileNameCaseSensitive : boolean = false; sLineBreak = LineEnding; DefaultTextLineBreakStyle : TTextLineBreakStyle = tlbsCRLF; type TNWCheckFunction = procedure (var code : longint); TDLL_Process_Entry_Hook = function (dllparam : longint) : longbool; TDLL_Entry_Hook = procedure (dllparam : longint); VAR ArgC : INTEGER; ArgV : ppchar; NetwareCheckFunction: TNWCheckFunction; NWLoggerScreen : pointer = nil; const Dll_Process_Attach_Hook : TDLL_Process_Entry_Hook = nil; Dll_Process_Detach_Hook : TDLL_Entry_Hook = nil; Dll_Thread_Attach_Hook : TDLL_Entry_Hook = nil; Dll_Thread_Detach_Hook : TDLL_Entry_Hook = nil; NetwareUnloadProc : pointer = nil; {like exitProc but for nlm unload only} envp : ppchar = nil; type //TSysCloseAllRemainingSemaphores = procedure; TSysReleaseThreadVars = procedure; TSysSetThreadDataAreaPtr = function (newPtr:pointer):pointer; procedure NWSysSetThreadFunctions (atv:TSysReleaseThreadVars; rtv:TSysReleaseThreadVars; stdata:TSysSetThreadDataAreaPtr); procedure ConsolePrintf (s :shortstring); procedure ConsolePrintf (FormatStr : PCHAR; Param : LONGINT); procedure ConsolePrintf (FormatStr : PCHAR; Param : pchar); procedure ConsolePrintf (FormatStr : PCHAR; P1,P2 : LONGINT); procedure ConsolePrintf (FormatStr : PCHAR; P1,P2,P3 : LONGINT); procedure ConsolePrintf (FormatStr : PCHAR); procedure __EnterDebugger;cdecl;external '!netware' name 'EnterDebugger'; function NWGetCodeStart : pointer; // needed for Lineinfo function NWGetCodeLength : dword; function NWGetDataStart : pointer; function NWGetDataLength : dword; implementation { Indicate that stack checking is taken care by OS} {$DEFINE NO_GENERIC_STACK_CHECK} { include system independent routines } {$I system.inc} { some declarations for Netware API calls } { I nwlibc.inc} {$I errno.inc} {$define INCLUDED_FROM_SYSTEM} {$I libc.pp} var {$ifdef autoHeapRelease} HeapListAllocResourceTag, {$endif} HeapAllocResourceTag : rtag_t; NLMHandle : pointer; ReleaseThreadVars : TSysReleaseThreadVars = nil; AllocateThreadVars: TSysReleaseThreadVars = nil; SetThreadDataAreaPtr : TSysSetThreadDataAreaPtr = nil; TerminatingThreadID : dword = 0; procedure NWSysSetThreadFunctions (atv:TSysReleaseThreadVars; rtv:TSysReleaseThreadVars; stdata:TSysSetThreadDataAreaPtr); begin AllocateThreadVars := atv; ReleaseThreadVars := rtv; SetThreadDataAreaPtr := stdata; end; procedure PASCALMAIN;external name 'PASCALMAIN'; procedure fpc_do_exit;external name 'FPC_DO_EXIT'; {***************************************************************************** System Dependent Exit code *****************************************************************************} {$ifdef autoHeapRelease} procedure FreeSbrkMem; forward; {$endif} var SigTermHandlerActive : boolean; Procedure system_exit; begin if TerminatingThreadID <> 0 then if TerminatingThreadID <> ThreadId then if TerminatingThreadID <> dword(pthread_self) then begin {$ifdef DEBUG_MT} ConsolePrintf ('Terminating Thread %x because halt was called while Thread %x terminates nlm'#13#10,dword(pthread_self),TerminatingThreadId); {$endif} pthread_exit (nil); // only for the case ExitThread fails while true do NXThreadYield; end; if assigned (ReleaseThreadVars) then ReleaseThreadVars; {$ifdef autoHeapRelease} FreeSbrkMem; { free memory allocated by heapmanager } {$endif} if not SigTermHandlerActive then begin if Erroraddr <> nil then { otherwise we dont see runtime-errors } SetScreenMode (0); _exit (ExitCode); end; end; {***************************************************************************** Stack check code *****************************************************************************} const StackErr : boolean = false; procedure int_stackcheck(stack_size:Cardinal);[public,alias:'FPC_STACKCHECK']; { called when trying to get local stack if the compiler directive $S is set this function must preserve all registers With a 5k byte safe area used to write to StdIo and some libc functions without crossing the stack boundary } begin if StackErr then exit; // avoid recursive calls asm pusha end; stackerr := (stackavail < stack_size + 5120); // we really need that much, at least on nw6.5 asm popa end; if not StackErr then exit; StackErr := true; HandleError (202); end; {***************************************************************************** ParamStr/Randomize *****************************************************************************} { number of args } function paramcount : longint; begin paramcount := argc - 1; end; { argument number l } function paramstr(l : longint) : string; begin if (l>=0) and (l+1<=argc) then begin paramstr:=strpas(argv[l]); if l = 0 then // fix nlm path begin for l := 1 to length (paramstr) do if paramstr[l] = '\' then paramstr[l] := '/'; end; end else paramstr:=''; end; { set randseed to a new pseudo random value } procedure randomize; begin randseed := time (NIL); end; {***************************************************************************** Heap Management *****************************************************************************} {$ifdef autoHeapRelease} const HeapInitialMaxBlocks = 32; type THeapSbrkBlockList = array [1.. HeapInitialMaxBlocks] of pointer; var HeapSbrkBlockList : ^THeapSbrkBlockList = nil; HeapSbrkLastUsed : dword = 0; HeapSbrkAllocated : dword = 0; HeapSbrkReleased : boolean = false; { function to allocate size bytes more for the program } { must return the first address of new data space or nil if fail } { for netware all allocated blocks are saved to free them at } { exit (to avoid message "Module did not release xx resources") } Function SysOSAlloc(size : longint):pointer; var P2 : POINTER; i : longint; Slept : longint; begin if HeapSbrkReleased then begin ConsolePrintf ('Error: SysOSFree called after all heap memory was released'#13#10); exit(nil); end; SysOSAlloc := _Alloc (size,HeapAllocResourceTag); if SysOSAlloc <> nil then begin if HeapSbrkBlockList = nil then begin Pointer (HeapSbrkBlockList) := _Alloc (sizeof (HeapSbrkBlockList^),HeapListAllocResourceTag); if HeapSbrkBlockList = nil then begin _free (SysOSAlloc); SysOSAlloc := nil; exit; end; fillchar (HeapSbrkBlockList^,sizeof(HeapSbrkBlockList^),0); HeapSbrkAllocated := HeapInitialMaxBlocks; end; if (HeapSbrkLastUsed > 0) then for i := 1 to HeapSbrkLastUsed do if (HeapSbrkBlockList^[i] = nil) then begin // reuse free slot HeapSbrkBlockList^[i] := SysOSAlloc; exit; end; if (HeapSbrkLastUsed = HeapSbrkAllocated) then begin { grow } slept := 0; p2 := _ReallocSleepOK (HeapSbrkBlockList, (HeapSbrkAllocated + HeapInitialMaxBlocks) * sizeof(pointer),HeapListAllocResourceTag,Slept); if p2 = nil then // should we better terminate with error ? begin _free (SysOSAlloc); SysOSAlloc := nil; exit; end; HeapSbrkBlockList := p2; inc (HeapSbrkAllocated, HeapInitialMaxBlocks); end; inc (HeapSbrkLastUsed); HeapSbrkBlockList^[HeapSbrkLastUsed] := SysOSAlloc; end; end; procedure FreeSbrkMem; var i : longint; begin if HeapSbrkBlockList <> nil then begin for i := 1 to HeapSbrkLastUsed do if (HeapSbrkBlockList^[i] <> nil) then _free (HeapSbrkBlockList^[i]); _free (HeapSbrkBlockList); HeapSbrkAllocated := 0; HeapSbrkLastUsed := 0; HeapSbrkBlockList := nil; end; HeapSbrkReleased := true; {ReturnResourceTag(HeapAllocResourceTag,1); ReturnResourceTag(HeapListAllocResourceTag,1); not in netware.imp, seems to be not needed} end; {***************************************************************************** OS Memory allocation / deallocation ****************************************************************************} {$define HAS_SYSOSFREE} procedure SysOSFree(p: pointer; size: ptrint); var i : longint; begin if HeapSbrkReleased then begin ConsolePrintf ('Error: SysOSFree called after all heap memory was released'#13#10); end else if (HeapSbrkLastUsed > 0) then for i := 1 to HeapSbrkLastUsed do if (HeapSbrkBlockList^[i] = p) then begin _free (p); HeapSbrkBlockList^[i] := nil; exit; end; HandleError (204); // invalid pointer operation end; {$else autoHeapRelease} {$define HAS_SYSOSFREE} procedure SysOSFree(p: pointer; size: ptrint); begin _free (p); end; function SysOSAlloc(size: ptrint): pointer; begin SysOSAlloc := _Alloc(size,HeapAllocResourceTag); end; {$endif autoHeapRelease} { include standard heap management } {$I heap.inc} {**************************************************************************** Low level File Routines All these functions can set InOutRes on errors ****************************************************************************} PROCEDURE NW2PASErr (Err : LONGINT); BEGIN if Err = 0 then { Else it will go through all the cases } exit; case Err of Sys_ENFILE, Sys_EMFILE : Inoutres:=4; Sys_ENOENT : Inoutres:=2; Sys_EBADF : Inoutres:=6; Sys_ENOMEM, Sys_EFAULT : Inoutres:=217; Sys_EINVAL : Inoutres:=218; Sys_EPIPE, Sys_EINTR, Sys_EIO, Sys_EAGAIN, Sys_ENOSPC : Inoutres:=101; Sys_ENAMETOOLONG, Sys_ELOOP, Sys_ENOTDIR : Inoutres:=3; Sys_EROFS, Sys_EEXIST, Sys_EACCES : Inoutres:=5; Sys_EBUSY : Inoutres:=162 else begin Writeln (stderr,'NW2PASErr: unknown error ',err); libc_perror('NW2PASErr'); Inoutres := Err; end; end; END; procedure Errno2Inoutres; begin NW2PASErr (___errno^); end; procedure SetFileError (VAR Err : LONGINT); begin if Err >= 0 then InOutRes := 0 else begin // libc_perror ('SetFileError'); Err := ___errno^; NW2PASErr (Err); Err := 0; end; end; { close a file from the handle value } procedure do_close(handle : thandle); VAR res : LONGINT; begin {$ifdef IOpossix} res := FpClose (handle); {$else} res := _fclose (_TFILE(handle)); {$endif} IF res <> 0 THEN SetFileError (res) ELSE InOutRes := 0; end; procedure do_erase(p : pchar); VAR res : LONGINT; begin res := unlink (p); IF Res < 0 THEN SetFileError (res) ELSE InOutRes := 0; end; procedure do_rename(p1,p2 : pchar); VAR res : LONGINT; begin res := rename (p1,p2); IF Res < 0 THEN SetFileError (res) ELSE InOutRes := 0 end; function do_write(h:thandle;addr:pointer;len : longint) : longint; var res : LONGINT; begin {$ifdef IOpossix} res := Fpwrite (h,addr,len); {$else} res := _fwrite (addr,1,len,_TFILE(h)); {$endif} if res > 0 then InOutRes := 0 else SetFileError (res); do_write := res; NXThreadYield; end; function do_read(h:thandle;addr:pointer;len : longint) : longint; VAR res : LONGINT; begin {$ifdef IOpossix} res := Fpread (h,addr,len); {$else} res := _fread (addr,1,len,_TFILE(h)); {$endif} IF res > 0 THEN InOutRes := 0 ELSE SetFileError (res); do_read := res; NXThreadYield; end; function do_filepos(handle : thandle) : longint; var res : LONGINT; begin InOutRes:=1; {$ifdef IOpossix} res := Fptell (handle); {$else} res := _ftell (_TFILE(handle)); {$endif} if res < 0 THEN SetFileError (res) else InOutRes := 0; do_filepos := res; end; procedure do_seek(handle:thandle;pos : longint); VAR res : LONGINT; begin {$ifdef IOpossix} res := Fplseek (handle,pos, SEEK_SET); {$else} res := _fseek (_TFILE(handle),pos, SEEK_SET); {$endif} IF res >= 0 THEN InOutRes := 0 ELSE SetFileError (res); end; function do_seekend(handle:thandle):longint; VAR res : LONGINT; begin {$ifdef IOpossix} res := Fplseek (handle,0, SEEK_END); {$else} res := _fseek (_TFILE(handle),0, SEEK_END); {$endif} IF res >= 0 THEN InOutRes := 0 ELSE SetFileError (res); do_seekend := res; end; function do_filesize(handle : thandle) : longint; VAR res : LONGINT; statbuf : TStat; begin {$ifdef IOpossix} res := Fpfstat (handle, statbuf); {$else} res := _fstat (_fileno (_TFILE(handle)), statbuf); // was _filelength for clib {$endif} if res <> 0 then begin SetFileError (Res); do_filesize := -1; end else begin InOutRes := 0; do_filesize := statbuf.st_size; end; end; { truncate at a given position } procedure do_truncate (handle:thandle;pos:longint); VAR res : LONGINT; begin {$ifdef IOpossix} res := ftruncate (handle,pos); {$else} res := _ftruncate (_fileno (_TFILE(handle)),pos); {$endif} IF res <> 0 THEN SetFileError (res) ELSE InOutRes := 0; end; {$ifdef IOpossix} // mostly stolen from syslinux procedure do_open(var f;p:pchar;flags:longint); { filerec and textrec have both handle and mode as the first items so they could use the same routine for opening/creating. when (flags and $10) the file will be append when (flags and $100) the file will be truncate/rewritten when (flags and $1000) there is no check for close (needed for textfiles) } var oflags : longint; Begin { close first if opened } if ((flags and $10000)=0) then begin case FileRec(f).mode of fminput,fmoutput,fminout : Do_Close(FileRec(f).Handle); fmclosed : ; else begin inoutres:=102; {not assigned} exit; end; end; end; { reset file Handle } FileRec(f).Handle:=UnusedHandle; { We do the conversion of filemodes here, concentrated on 1 place } case (flags and 3) of 0 : begin oflags := O_RDONLY; filerec(f).mode := fminput; end; 1 : begin oflags := O_WRONLY; filerec(f).mode := fmoutput; end; 2 : begin oflags := O_RDWR; filerec(f).mode := fminout; end; end; if (flags and $1000)=$1000 then oflags:=oflags or (O_CREAT or O_TRUNC) else if (flags and $100)=$100 then oflags:=oflags or (O_APPEND); { empty name is special } if p[0]=#0 then begin case FileRec(f).mode of fminput : FileRec(f).Handle:=StdInputHandle; fminout, { this is set by rewrite } fmoutput : FileRec(f).Handle:=StdOutputHandle; fmappend : begin FileRec(f).Handle:=StdOutputHandle; FileRec(f).mode:=fmoutput; {fool fmappend} end; end; exit; end; { real open call } ___errno^ := 0; FileRec(f).Handle := open(p,oflags,438); { open somtimes returns > -1 but errno was set } if (___errno^ <> 0) or (longint(FileRec(f).Handle) < 0) then if (___errno^=Sys_EROFS) and ((OFlags and O_RDWR)<>0) then begin // i.e. for cd-rom Oflags:=Oflags and not(O_RDWR); FileRec(f).Handle := open(p,oflags,438); end; if (___errno^ <> 0) or (longint(FileRec(f).Handle) < 0) then Errno2Inoutres else InOutRes := 0; end; {$else} procedure do_open(var f;p:pchar;flags:longint); { filerec and textrec have both handle and mode as the first items so they could use the same routine for opening/creating. when (flags and $10) the file will be append when (flags and $100) the file will be truncate/rewritten when (flags and $1000) there is no check for close (needed for textfiles) } var oflags : string[10]; Begin { close first if opened } if ((flags and $10000)=0) then begin case FileRec(f).mode of fminput,fmoutput,fminout : Do_Close(FileRec(f).Handle); fmclosed : ; else begin inoutres:=102; {not assigned} exit; end; end; end; { reset file Handle } FileRec(f).Handle:=UnusedHandle; { We do the conversion of filemodes here, concentrated on 1 place } case (flags and 3) of 0 : begin oflags := 'rb'#0; filerec(f).mode := fminput; end; 1 : begin if (flags and $1000)=$1000 then oflags := 'w+b' else oflags := 'wb'; filerec(f).mode := fmoutput; end; 2 : begin if (flags and $1000)=$1000 then oflags := 'w+' else oflags := 'r+'; filerec(f).mode := fminout; end; end; {if (flags and $1000)=$1000 then oflags:=oflags or (O_CREAT or O_TRUNC) else if (flags and $100)=$100 then oflags:=oflags or (O_APPEND);} { empty name is special } if p[0]=#0 then begin case FileRec(f).mode of fminput : FileRec(f).Handle:=StdInputHandle; fminout, { this is set by rewrite } fmoutput : FileRec(f).Handle:=StdOutputHandle; fmappend : begin FileRec(f).Handle:=StdOutputHandle; FileRec(f).mode:=fmoutput; {fool fmappend} end; end; exit; end; { real open call } FileRec(f).Handle := THandle (_fopen (p,@oflags[1]));//_open(p,oflags,438); //WriteLn ('_open (',p,') returned ',ErrNo, 'Handle: ',FileRec(f).Handle); // errno does not seem to be set on succsess ?? {IF FileRec(f).Handle < 0 THEN if (ErrNo=Sys_EROFS) and ((OFlags and O_RDWR)<>0) then begin // i.e. for cd-rom Oflags:=Oflags and not(O_RDWR); FileRec(f).Handle := _open(p,oflags,438); end;} if FileRec(f).Handle = 0 then Errno2Inoutres else InOutRes := 0; End; {$endif} function do_isdevice(handle:THandle):boolean; begin {$ifdef IOpossix} do_isdevice := (Fpisatty (handle) > 0); {$else} do_isdevice := (isatty (_fileno(_TFILE(handle))) > 0); {$endif} end; {***************************************************************************** UnTyped File Handling *****************************************************************************} {$i file.inc} {***************************************************************************** Typed File Handling *****************************************************************************} {$i typefile.inc} {***************************************************************************** Text File Handling *****************************************************************************} {$i text.inc} {***************************************************************************** Directory Handling *****************************************************************************} procedure mkdir(const s : string);[IOCheck]; var S2 : STRING; Res: LONGINT; BEGIN S2 := S; IF Length (S2) = 255 THEN DEC (BYTE(S2[0])); S2 := S2 + #0; Res := FpMkdir (@S2[1],S_IRWXU); if Res = 0 then InOutRes:=0 else SetFileError (Res); end; procedure rmdir(const s : string);[IOCheck]; VAR S2 : STRING; Res: LONGINT; BEGIN S2 := S; IF Length (S2) = 255 THEN DEC (BYTE(S2[0])); S2 := S2 + #0; Res := FpRmdir (@S2[1]); IF Res = 0 THEN InOutRes:=0 ELSE SetFileError (Res); end; procedure chdir(const s : string);[IOCheck]; VAR S2 : STRING; Res: LONGINT; begin S2 := S; IF Length (S2) = 255 THEN DEC (BYTE(S2[0])); S2 := S2 + #0; Res := FpChdir (@S2[1]); IF Res = 0 THEN InOutRes:=0 ELSE SetFileError (Res); end; procedure getdir(drivenr : byte;var dir : shortstring); var P : array [0..255] of CHAR; i : LONGINT; begin P[0] := #0; getcwdpath(@P,nil,0); // getcwd does not return volume, getcwdpath does i := libc_strlen (P); if i > 0 then begin Move (P, dir[1], i); BYTE(dir[0]) := i; For i := 1 to length (dir) do if dir[i] = '\' then dir [i] := '/'; // fix / after volume, the compiler needs that // normaly root of a volumes is SERVERNAME/SYS:, change that // to SERVERNAME/SYS:/ i := pos (':',dir); if (i > 0) then if i = Length (dir) then dir := dir + '/' else if dir [i+1] <> '/' then insert ('/',dir,i+1); end else InOutRes := 1; end; {***************************************************************************** Thread Handling *****************************************************************************} procedure InitFPU;assembler; asm fninit fldcw fpucw end; { if return-value is <> 0, netware shows the message Unload Anyway ? To Disable unload at all, SetNLMDontUnloadFlag can be used on Netware >= 4.0 } function CheckFunction : longint; CDECL; [public,alias: '_NonAppCheckUnload']; var oldPtr : pointer; begin //ConsolePrintf ('CheckFunction'#13#10); if assigned (NetwareCheckFunction) then begin if assigned (SetThreadDataAreaPtr) then oldPtr := SetThreadDataAreaPtr (NIL); { nil means main thread } result := 0; NetwareCheckFunction (result); if assigned (SetThreadDataAreaPtr) then SetThreadDataAreaPtr (oldPtr); end else result := 0; end; procedure ConsolePrintf (s : shortstring); begin if length(s) > 254 then byte(s[0]) := 254; s := s + #0; ConsolePrintf (@s[1]); end; procedure ConsolePrintf (FormatStr : PCHAR); begin if NWLoggerScreen = nil then NWLoggerScreen := getnetwarelogger; if NWLoggerScreen <> nil then screenprintf (NWLoggerScreen,FormatStr); end; procedure ConsolePrintf (FormatStr : PCHAR; Param : LONGINT); begin if NWLoggerScreen = nil then NWLoggerScreen := getnetwarelogger; if NWLoggerScreen <> nil then screenprintf (NWLoggerScreen,FormatStr,Param); end; procedure ConsolePrintf (FormatStr : PCHAR; Param : pchar); begin ConsolePrintf (FormatStr,longint(Param)); end; procedure ConsolePrintf (FormatStr : PCHAR; P1,P2 : LONGINT); begin if NWLoggerScreen = nil then NWLoggerScreen := getnetwarelogger; if NWLoggerScreen <> nil then screenprintf (NWLoggerScreen,FormatStr,P1,P2); end; procedure ConsolePrintf (FormatStr : PCHAR; P1,P2,P3 : LONGINT); begin if NWLoggerScreen = nil then NWLoggerScreen := getnetwarelogger; if NWLoggerScreen <> nil then screenprintf (NWLoggerScreen,FormatStr,P1,P2,P3); end; var NWUts : Tutsname; procedure getCodeAddresses; begin if Fpuname(NWUts) < 0 then FillChar(NWuts,sizeof(NWUts),0); end; function NWGetCodeStart : pointer; begin NWGetCodeStart := NWUts.codeoffset; NXThreadYield; end; function NWGetCodeLength : dword; begin NWGetCodeLength := NWUts.codelength; NXThreadYield; end; function NWGetDataStart : pointer; begin NWGetDataStart := NWUts.dataoffset; NXThreadYield; end; function NWGetDataLength : dword; begin NWGetDataLength := NWUts.datalength; NXThreadYield; end; {$ifdef StdErrToConsole} var ConsoleBuff : array [0..512] of char; Function ConsoleWrite(Var F: TextRec): Integer; var i : longint; Begin if F.BufPos>0 then begin if F.BufPos>sizeof(ConsoleBuff)-1 then i:=sizeof(ConsoleBuff)-1 else i:=F.BufPos; Move(F.BufPtr^,ConsoleBuff,i); ConsoleBuff[i] := #0; screenprintf (NWLoggerScreen,@ConsoleBuff); end; F.BufPos:=0; ConsoleWrite := 0; NXThreadYield; End; Function ConsoleClose(Var F: TextRec): Integer; begin ConsoleClose:=0; end; Function ConsoleOpen(Var F: TextRec): Integer; Begin TextRec(F).InOutFunc:=@ConsoleWrite; TextRec(F).FlushFunc:=@ConsoleWrite; TextRec(F).CloseFunc:=@ConsoleClose; ConsoleOpen:=0; End; procedure AssignStdErrConsole(Var T: Text); begin Assign(T,''); TextRec(T).OpenFunc:=@ConsoleOpen; Rewrite(T); end; {$endif} function GetProcessID: SizeUInt; begin GetProcessID := SizeUInt (getnlmhandle); end; { this will be called if the nlm is unloaded. It will NOT be called if the program exits i.e. with halt. Halt (or _exit) can not be called from this callback procedure } procedure TermSigHandler (Sig:longint); CDecl; var oldPtr : pointer; current_exit : procedure; begin { Threadvar Pointer will not be valid because the signal handler is called by netware with a differnt thread. To avoid problems in the exit routines, we set the data of the main thread here } if assigned (SetThreadDataAreaPtr) then oldPtr := SetThreadDataAreaPtr (NIL); { nil means main thread } TerminatingThreadID := dword(pthread_self); {we need to finalize winock to release threads waiting on a blocking socket call. If that thread calls halt, we have to avoid that unit finalization is called by that thread because we are doing it here like the old exitProc, mainly to allow winsock to release threads blocking in a winsock calls } while NetwareUnloadProc<>nil Do Begin InOutRes:=0; current_exit:=tProcedure(NetwareUnloadProc); NetwareUnloadProc:=nil; current_exit(); NXThreadYield; //hadExitProc := true; End; SigTermHandlerActive := true; { to avoid that system_exit calls _exit } do_exit; { calls finalize units } if assigned (SetThreadDataAreaPtr) then SetThreadDataAreaPtr (oldPtr); end; procedure SysInitStdIO; begin { Setup stdin, stdout and stderr } {$ifdef IOpossix} StdInputHandle := THandle (fileno (___stdin^)); // GetStd** returns **FILE ! StdOutputHandle:= THandle (fileno (___stdout^)); StdErrorHandle := THandle (fileno (___stderr^)); {$else} StdInputHandle := THandle (___stdin^); // GetStd** returns **FILE ! StdOutputHandle:= THandle (___stdout^); StdErrorHandle := THandle (___stderr^); {$endif} OpenStdIO(Input,fmInput,StdInputHandle); OpenStdIO(Output,fmOutput,StdOutputHandle); OpenStdIO(StdOut,fmOutput,StdOutputHandle); {$ifdef StdErrToConsole} AssignStdErrConsole(StdErr); AssignStdErrConsole(ErrOutput); {$else} OpenStdIO(StdErr,fmOutput,StdErrorHandle); OpenStdIO(ErrOutput,fmOutput,StdErrorHandle); {$endif} end; // this is called by main.as, setup args and call PASCALMAIN procedure nlm_main (_ArgC : LONGINT; _ArgV : ppchar); cdecl; [public,alias: '_FPC_NLM_Entry']; BEGIN ArgC := _ArgC; ArgV := _ArgV; isLibrary := false; PASCALMAIN; do_exit; // currently not needed END; function _DLLMain (hInstDLL:pointer; fdwReason:dword; DLLParam:longint):longbool; cdecl; [public, alias : '_FPC_DLL_Entry']; var res : longbool; begin {$ifdef DEBUG_MT} ConsolePrintf ('_FPC_DLL_Entry called'); {$endif} _DLLMain := false; isLibrary := true; case fdwReason of DLL_ACTUAL_DLLMAIN : _DLLMain := true; DLL_NLM_STARTUP : begin //__ConsolePrintf ('DLL_NLM_STARTUP'); if assigned(Dll_Process_Attach_Hook) then begin res:=Dll_Process_Attach_Hook(DllParam); if not res then exit(false); end; PASCALMAIN; _DLLMain := true; end; DLL_NLM_SHUTDOWN : begin //__ConsolePrintf ('DLL_NLM_SHUTDOWN'); TermSigHandler(0); _DLLMain := true; end; { standard DllMain() messages... } DLL_THREAD_ATTACH, DLL_PROCESS_ATTACH : begin //__ConsolePrintf ('DLL_PROCESS/THREAD_ATTACH'); if assigned(AllocateThreadVars) then AllocateThreadVars; if assigned(Dll_Thread_Attach_Hook) then Dll_Thread_Attach_Hook(DllParam); _DLLMain := true; end; DLL_THREAD_DETACH, DLL_PROCESS_DETACH : begin //__ConsolePrintf ('DLL_PROCESS/THREAD_DETACH'); if assigned(Dll_Thread_Detach_Hook) then Dll_Thread_Detach_Hook(DllParam); if assigned(ReleaseThreadVars) then ReleaseThreadVars; _DLLMain := true; end; end; end; {***************************************************************************** SystemUnit Initialization *****************************************************************************} Begin getCodeAddresses; StackBottom := SPtr - StackLength; SigTermHandlerActive := false; NetwareCheckFunction := nil; {$ifdef StdErrToConsole} NWLoggerScreen := getnetwarelogger; {$endif} CheckFunction; // avoid check function to be removed by the linker envp := ____environ^; NLMHandle := getnlmhandle; { allocate resource tags to see what kind of memory i forgot to release } HeapAllocResourceTag := AllocateResourceTag(NLMHandle,'Heap Memory',AllocSignature); {$ifdef autoHeapRelease} HeapListAllocResourceTag := AllocateResourceTag(NLMHandle,'Heap Memory List',AllocSignature); {$endif} FpSignal (SIGTERM, @TermSigHandler); { Setup heap } InitHeap; SysInitExceptions; { Reset IO Error } InOutRes:=0; ThreadID := dword(pthread_self); SysInitStdIO; {Delphi Compatible} IsConsole := TRUE; ExitCode := 0; {$ifdef HASVARIANT} initvariantmanager; {$endif HASVARIANT} End. { $Log$ Revision 1.10 2004-12-07 11:40:43 armin * implemented GetProcessId, defined TimeVal and TimeZone in addition to TTimeVal, TTimeZone, Makefile defaults to binutilsprefix i386-netware Revision 1.9 2004/12/05 14:36:38 hajny + GetProcessID added Revision 1.8 2004/11/25 12:38:17 armin * adapted to new compiler check for externals Revision 1.7 2004/11/04 09:32:31 peter ErrOutput added Revision 1.6 2004/10/25 18:11:49 armin * saveregisters no longer supported by compiler, for now save all registers in stackcheck Revision 1.5 2004/10/25 15:38:59 peter * compiler defined HEAP and HEAPSIZE removed Revision 1.4 2004/09/26 19:23:34 armin * exiting threads at nlm unload * renamed some libc functions Revision 1.3 2004/09/19 20:06:37 armin * removed get/free video buf from video.pp * implemented sockets * basic library support * threadvar memory leak removed * fixes (ide now starts and editor is usable) * support for lineinfo Revision 1.2 2004/09/12 20:51:22 armin * added keyboard and video * a lot of fixes Revision 1.1 2004/09/05 20:58:47 armin * first rtl version for netwlibc }