{ $Id$ 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. 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. **********************************************************************} { These things are set in the makefile, } { But you can override them here.} { If you use an aout system, set the conditional AOUT} { $Define AOUT} Unit SysLinux; Interface {$ifdef m68k} { used for single computations } const BIAS4 = $7f-1; {$endif} {$define newsignal} {$I systemh.inc} {$I heaph.inc} const UnusedHandle = -1; StdInputHandle = 0; StdOutputHandle = 1; StdErrorHandle = 2; var argc : longint; argv : ppchar; envp : ppchar; Implementation {$I system.inc} { used in syscall to report errors.} var Errno : longint; { Include constant and type definitions } {$i errno.inc } { Error numbers } {$i sysnr.inc } { System call numbers } {$i sysconst.inc } { Miscellaneous constants } {$i systypes.inc } { Types needed for system calls } { Read actual system call definitions. } {$i syscalls.inc } {***************************************************************************** Misc. System Dependent Functions *****************************************************************************} procedure prthaltproc;external name '_haltproc'; procedure System_exit; begin {$ifdef i386} asm jmp prthaltproc end; {$else} asm jmp prthaltproc end; {$endif} End; Function ParamCount: Longint; Begin Paramcount:=argc-1 End; Function ParamStr(l: Longint): String; var link, hs : string; i : longint; begin if l=0 then begin str(sys_getpid,hs); hs:='/proc/'+hs+'/exe'#0; i:=Sys_readlink(@hs[1],@link[1],high(link)); if i>0 then begin link[0]:=chr(i); paramstr:=link; end else paramstr:=strpas(argv[0]); end else if (l>0) and (l0 then Sbrk:=0; end; {$else} Function sbrk(size : longint) : Longint; type tmmapargs=packed record address : longint; size : longint; prot : longint; flags : longint; fd : longint; offset : longint; end; var t : syscallregs; mmapargs : tmmapargs; begin mmapargs.address:=0; mmapargs.size:=Size; mmapargs.prot:=3; mmapargs.flags:=$22; mmapargs.fd:=-1; mmapargs.offset:=0; t.reg2:=longint(@mmapargs); Sbrk:=syscall(syscall_nr_mmap,t); if ErrNo<>0 then Sbrk:=0; end; {$endif} { include standard heap management } {$I heap.inc} {***************************************************************************** Low Level File Routines *****************************************************************************} { The lowlevel file functions should take care of setting the InOutRes to the correct value if an error has occured, else leave it untouched } Procedure Errno2Inoutres; { Convert ErrNo error to the correct Inoutres value } begin if ErrNo=0 then { Else it will go through all the cases } exit; case ErrNo of Sys_ENFILE, Sys_EMFILE : Inoutres:=4; Sys_ENOENT : Inoutres:=2; Sys_EBADF : Inoutres:=6; Sys_ENOMEM, Sys_EFAULT : Inoutres:=217; Sys_EINVAL : Inoutres:=218; Sys_EPIPE, Sys_EINTR, Sys_EIO, Sys_EAGAIN, Sys_ENOSPC : Inoutres:=101; Sys_ENAMETOOLONG, Sys_ELOOP, Sys_ENOTDIR : Inoutres:=3; Sys_EROFS, Sys_EEXIST, Sys_EACCES : Inoutres:=5; Sys_ETXTBSY : Inoutres:=162; end; end; Procedure Do_Close(Handle:Longint); Begin sys_close(Handle); End; Procedure Do_Erase(p:pchar); Begin sys_unlink(p); Errno2Inoutres; End; Procedure Do_Rename(p1,p2:pchar); Begin sys_rename(p1,p2); Errno2Inoutres; End; Function Do_Write(Handle,Addr,Len:Longint):longint; Begin repeat Do_Write:=sys_write(Handle,pchar(addr),len); until ErrNo<>Sys_EINTR; Errno2Inoutres; if Do_Write<0 then Do_Write:=0; End; Function Do_Read(Handle,Addr,Len:Longint):Longint; Begin repeat Do_Read:=sys_read(Handle,pchar(addr),len); until ErrNo<>Sys_EINTR; Errno2Inoutres; if Do_Read<0 then Do_Read:=0; End; Function Do_FilePos(Handle: Longint): Longint; Begin Do_FilePos:=sys_lseek(Handle, 0, Seek_Cur); Errno2Inoutres; End; Procedure Do_Seek(Handle,Pos:Longint); Begin sys_lseek(Handle, pos, Seek_set); End; Function Do_SeekEnd(Handle:Longint): Longint; begin Do_SeekEnd:=sys_lseek(Handle,0,Seek_End); end; {$ifdef BSD} Function Do_FileSize(Handle:Longint): Longint; var Info : Stat; Begin if do_SysCall(syscall_nr_fstat,handle,longint(@info))=0 then Do_FileSize:=Info.Size else Do_FileSize:=0; Errno2Inoutres; End; {$ELSE} Function Do_FileSize(Handle:Longint): Longint; var regs : Syscallregs; Info : Stat; Begin regs.reg2:=Handle; regs.reg3:=longint(@Info); if SysCall(SysCall_nr_fstat,regs)=0 then Do_FileSize:=Info.Size else Do_FileSize:=0; Errno2Inoutres; End; {$endif} Procedure Do_Truncate(Handle,Pos:longint); {$ifndef bsd} var sr : syscallregs; {$endif} begin {$ifdef bsd} do_syscall(syscall_nr_ftruncate,handle,pos,0); {$else} sr.reg2:=Handle; sr.reg3:=Pos; syscall(syscall_nr_ftruncate,sr); {$endif} Errno2Inoutres; end; 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 $100) the file will be append when (flags and $1000) the file will be truncate/rewritten when (flags and $10000) there is no check for close (needed for textfiles) } var oflags : longint; dirtest : stat; 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 :=Open_RDONLY; FileRec(f).mode:=fminput; end; 1 : begin oflags :=Open_WRONLY; FileRec(f).mode:=fmoutput; end; 2 : begin oflags :=Open_RDWR; FileRec(f).mode:=fminout; end; end; if (flags and $1000)=$1000 then oflags:=oflags or (Open_CREAT or Open_TRUNC) else if (flags and $100)=$100 then oflags:=oflags or (Open_APPEND); { empty name is special } if p[0]=#0 then begin case FileRec(f).mode of fminput : FileRec(f).Handle:=StdInputHandle; fminout, { this is set by rewrite } fmoutput : FileRec(f).Handle:=StdOutputHandle; fmappend : begin FileRec(f).Handle:=StdOutputHandle; FileRec(f).mode:=fmoutput; {fool fmappend} end; end; exit; end; { real open call } FileRec(f).Handle:=sys_open(p,oflags,438); if (ErrNo=Sys_EROFS) and ((OFlags and Open_RDWR)<>0) then begin Oflags:=Oflags and not(Open_RDWR); FileRec(f).Handle:=sys_open(p,oflags,438); end; { Check if it's a directory, then we should return io error 2 } if ErrNo=0 then begin if (Sys_fstat(filerec(f).handle,dirtest)<>0) then inoutres:=2 else if (dirtest.mode and STAT_IFMT)<>STAT_IFREG then inoutres:=2; end; Errno2Inoutres; End; Function Do_IsDevice(Handle:Longint):boolean; { Interface to Unix ioctl call. Performs various operations on the filedescriptor Handle. Ndx describes the operation to perform. Data points to data needed for the Ndx function. The structure of this data is function-dependent. } var {$ifndef BSD} sr: SysCallRegs; {$endif} Data : array[0..255] of byte; {Large enough for termios info} begin {$ifdef BSD} Do_IsDevice:=(do_SysCall(syscall_nr_ioctl,handle,$5401,longint(@data))=0); {$else} sr.reg2:=Handle; sr.reg3:=$5401; {=TCGETS} sr.reg4:=Longint(@Data); Do_IsDevice:=(SysCall(Syscall_nr_ioctl,sr)=0); {$endif} end; {***************************************************************************** UnTyped File Handling *****************************************************************************} {$i file.inc} {***************************************************************************** Typed File Handling *****************************************************************************} {$i typefile.inc} {***************************************************************************** Text File Handling *****************************************************************************} {$DEFINE SHORT_LINEBREAK} {$DEFINE EXTENDED_EOF} {$i text.inc} {***************************************************************************** Directory Handling *****************************************************************************} Procedure MkDir(Const s: String);[IOCheck]; Var Buffer: Array[0..255] of Char; Begin If InOutRes <> 0 then exit; Move(s[1], Buffer, Length(s)); Buffer[Length(s)] := #0; sys_mkdir(@buffer, 511); Errno2Inoutres; End; Procedure RmDir(Const s: String);[IOCheck]; Var Buffer: Array[0..255] of Char; Begin If InOutRes <> 0 then exit; Move(s[1], Buffer, Length(s)); Buffer[Length(s)] := #0; sys_rmdir(@buffer); Errno2Inoutres; End; Procedure ChDir(Const s: String);[IOCheck]; Var Buffer: Array[0..255] of Char; Begin If InOutRes <> 0 then exit; Move(s[1], Buffer, Length(s)); Buffer[Length(s)] := #0; sys_chdir(@buffer); Errno2Inoutres; End; procedure getdir(drivenr : byte;var dir : shortstring); var thisdir : stat; rootino, thisino, dotdotino : longint; rootdev, thisdev, dotdotdev : {$ifdef bsd}longint{$else}word{$endif}; thedir,dummy : string[255]; dirstream : pdir; d : pdirent; mountpoint,validdir : boolean; predot : string[255]; begin drivenr:=0; dir:=''; thedir:='/'#0; if sys_stat(@thedir[1],thisdir)<0 then exit; rootino:=thisdir.ino; rootdev:=thisdir.dev; thedir:='.'#0; if sys_stat(@thedir[1],thisdir)<0 then exit; thisino:=thisdir.ino; thisdev:=thisdir.dev; { Now we can uniquely identify the current and root dir } thedir:=''; predot:=''; while not ((thisino=rootino) and (thisdev=rootdev)) do begin { Are we on a mount point ? } dummy:=predot+'..'#0; if sys_stat(@dummy[1],thisdir)<0 then exit; dotdotino:=thisdir.ino; dotdotdev:=thisdir.dev; mountpoint:=(thisdev<>dotdotdev); { Now, Try to find the name of this dir in the previous one } dirstream:=opendir (@dummy[1]); if dirstream=nil then exit; repeat d:=sys_readdir (dirstream); validdir:=false; if (d<>nil) and (not ((d^.name[0]='.') and ((d^.name[1]=#0) or ((d^.name[1]='.') and (d^.name[2]=#0))))) and (mountpoint or (d^.ino=thisino)) then begin dummy:=predot+'../'+strpas(@(d^.name[0]))+#0; validdir:=not (sys_stat (@(dummy[1]),thisdir)<0); end else validdir:=false; until (d=nil) or ((validdir) and (thisdir.dev=thisdev) and (thisdir.ino=thisino) ); if (closedir(dirstream)<0) or (d=nil) then exit; { At this point, d.name contains the name of the current dir} thedir:='/'+strpas(@(d^.name[0]))+thedir; thisdev:=dotdotdev; thisino:=dotdotino; predot:=predot+'../'; end; { Now rootino=thisino and rootdev=thisdev so we've reached / } dir:=thedir end; {***************************************************************************** SystemUnit Initialization *****************************************************************************} {$ifdef I386} { this should be defined in i386 directory !! PM } const fpucw : word = $1332; FPU_Invalid = 1; FPU_Denormal = 2; FPU_DivisionByZero = 4; FPU_Overflow = 8; FPU_Underflow = $10; FPU_StackUnderflow = $20; FPU_StackOverflow = $40; {$endif I386} Procedure ResetFPU; begin {$ifdef I386} {$ifndef CORRECTFLDCW} {$asmmode direct} {$endif} asm fninit fldcw fpucw end; {$ifndef CORRECTFLDCW} {$asmmode att} {$endif} {$endif I386} end; {$ifndef BSD} {$ifndef newSignal} Procedure SignalToRunError(Sig:longint); begin case sig of 8 : begin { this is not allways necessary but I don't know yet how to tell if it is or not PM } ResetFPU; HandleError(200); end; 11 : HandleError(216); end; end; Procedure InstallSignals; var sr : syscallregs; begin sr.reg3:=longint(@SignalToRunError); { sigsegv } sr.reg2:=11; syscall(syscall_nr_signal,sr); { sigfpe } sr.reg2:=8; syscall(syscall_nr_signal,sr); end; {$else newSignal} {$i i386/signal.inc} procedure SignalToRunerror(Sig: longint; SigContext: SigContextRec); cdecl; var res,fpustate : word; begin res:=0; case sig of 8 : begin { this is not allways necessary but I don't know yet how to tell if it is or not PM } {$ifdef I386} fpustate:=0; res:=200; if assigned(SigContext.fpstate) then fpuState:=SigContext.fpstate^.sw; {$ifdef SYSTEMDEBUG} Writeln(stderr,'FpuState = ',Hexstr(FpuState,4)); {$endif SYSTEMDEBUG} if (FpuState and $7f) <> 0 then begin { first check te more precise options } if (FpuState and FPU_DivisionByZero)<>0 then res:=200 else if (FpuState and FPU_Overflow)<>0 then res:=205 else if (FpuState and FPU_Underflow)<>0 then res:=206 else if (FpuState and FPU_Denormal)<>0 then res:=216 else if (FpuState and (FPU_StackOverflow or FPU_StackUnderflow))<>0 then res:=207 else if (FpuState and FPU_Invalid)<>0 then res:=216 else res:=207; {'Coprocessor Error'} end; {$endif I386} ResetFPU; end; 11 : res:=216; end; { give runtime error at the position where the signal was raised } if res<>0 then begin {$ifdef I386} HandleErrorAddrFrame(res,SigContext.eip,SigContext.ebp); {$else} HandleError(res); {$endif} end; end; Procedure InstallSignals; const act: SigActionRec = (handler:(Sa:@SignalToRunError);sa_mask:0;sa_flags:0; Sa_restorer: NIL); oldact: PSigActionRec = Nil; begin ResetFPU; SigAction(8,@act,oldact); SigAction(11,@act,oldact); end; {$endif newSignal} {$endif bsd} procedure SetupCmdLine; var bufsize, len,j, size,i : longint; found : boolean; buf : array[0..1026] of char; procedure AddBuf; begin reallocmem(cmdline,size+bufsize); move(buf,cmdline[size],bufsize); inc(size,bufsize); bufsize:=0; end; begin size:=0; bufsize:=0; i:=0; while (isizeof(buf)-2 then len:=sizeof(buf)-2; found:=false; for j:=1 to len do if argv[i][j]=' ' then begin found:=true; break; end; if bufsize+len>=sizeof(buf)-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 $100, becuase filemode can be upto 255 Revision 1.26 1999/09/08 16:14:43 peter * pointer fixes Revision 1.25 1999/07/28 23:18:36 peter * closedir fixes, which now disposes the pdir itself }