{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by Michael Van Canneyt, BSD parts (c) 2000 by Marco van de Voort members 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. **********************************************************************} Unit Unix; Interface Uses UnixUtil,BaseUnix; {$define POSIXWORKAROUND} { Get Types and Constants } {$i sysconst.inc} {$ifdef FreeBSD} {$i systypes.inc} {$else} {$ifndef FPC_USE_LIBC} {$i systypes.inc} {$endif FPC_USE_LIBC} {$endif} {Get error numbers, some more signal definitions and other OS dependant types (that are not POSIX) } {i errno.inc} {$I signal.inc} {$i ostypes.inc} {******************** File ********************} Const P_IN = 1; // pipes (?) P_OUT = 2; Const LOCK_SH = 1; // flock constants ? LOCK_EX = 2; LOCK_UN = 8; LOCK_NB = 4; Type Tpipe = baseunix.tfildes; // compability. pglob = ^tglob; tglob = record name : pchar; next : pglob; end; {****************************************************************************** Procedure/Functions ******************************************************************************} {************************** Time/Date Handling ***************************} var tzdaylight : boolean; tzname : array[boolean] of pchar; { timezone support } procedure GetLocalTimezone(timer:cint;var leap_correct,leap_hit:cint); procedure GetLocalTimezone(timer:cint); procedure ReadTimezoneFile(fn:string); function GetTimezoneFile:string; Function GetEpochTime: cint; procedure GetTime (var hour,min,sec,msec,usec:word); procedure GetTime (var hour,min,sec,sec100:word); procedure GetTime (var hour,min,sec:word); Procedure GetDate (Var Year,Month,Day:Word); Procedure GetDateTime (Var Year,Month,Day,hour,minute,second:Word); function SetTime (Hour,Min,Sec:word) : Boolean; function SetDate (Year,Month,Day:Word) : Boolean; function SetDateTime (Year,Month,Day,hour,minute,second:Word) : Boolean; {************************** Process Handling ***************************} function CreateShellArgV (const prog:string):ppchar; function CreateShellArgV (const prog:Ansistring):ppchar; procedure FreeShellArgV(p:ppchar); // These are superceded by the fpExec functions that are more pascallike // and have less limitations. However I'll leave them in for a while, to // not frustrate things too much // but they might not make it to 2.0 Function Execv (const path:pathstr;args:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execv (const path: AnsiString;args:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execvp (Path: Pathstr;Args:ppchar;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execvp (Path: AnsiString; Args:ppchar;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execl (const Todo: String):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execl (const Todo: Ansistring):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execle (Todo: String;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execle (Todo: AnsiString;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execlp (Todo: string;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} Function Execlp (Todo: Ansistring;Ep:ppchar):cint; {$ifndef ver1_0}deprecated; {$endif} // // These are much better, in nearly all ways. // function FpExecLE (Const PathName:AnsiString;const S:Array Of AnsiString;MyEnv:ppchar):cint; function FpExecL(Const PathName:AnsiString;const S:Array Of AnsiString):cint; function FpExecLP(Const PathName:AnsiString;const S:Array Of AnsiString):cint; function FpExecV(Const PathName:AnsiString;args:ppchar):cint; function FpExecVP(Const PathName:AnsiString;args:ppchar):cint; function FpExecVPE(Const PathName:AnsiString;args,env:ppchar):cint; Function Shell (const Command:String):cint; Function Shell (const Command:AnsiString):cint; Function fpSystem(const Command:AnsiString):cint; Function WaitProcess (Pid:cint):cint; { like WaitPid(PID,@result,0) Handling of Signal interrupts (errno=EINTR), returning the Exitcode of Process (>=0) or -Status if terminated} Function WIFSTOPPED (Status: Integer): Boolean; Function W_EXITCODE (ReturnCode, Signal: Integer): Integer; Function W_STOPCODE (Signal: Integer): Integer; {************************** File Handling ***************************} {$ifndef FPC_USE_LIBC} // defined using cdecl for libc. Function fsync (fd : cint) : cint; Function Flock (fd,mode : cint) : cint ; Function fStatFS (Fd: cint;Var Info:tstatfs):cint; Function StatFS (Path:pchar;Var Info:tstatfs):cint; {$endif} Function Flock (var T : text;mode : cint) : cint; Function Flock (var F : File;mode : cint) : cint; Function SelectText (var T:Text;TimeOut :PTimeVal):cint; Function SelectText (var T:Text;TimeOut :cint):cint; {************************** Directory Handling ***************************} procedure SeekDir(p:pdir;loc:clong); function TellDir(p:pdir):clong; {************************** Pipe/Fifo/Stream ***************************} Function AssignPipe (var pipe_in,pipe_out:cint):cint; Function AssignPipe (var pipe_in,pipe_out:text):cint; Function AssignPipe (var pipe_in,pipe_out:file):cint; //Function PClose (Var F:text) : cint; //Function PClose (Var F:file) : cint; Function POpen (var F:text;const Prog:String;rw:char):cint; Function POpen (var F:file;const Prog:String;rw:char):cint; function AssignStream(Var StreamIn,Streamout:text;Const Prog:String) : cint; function AssignStream(var StreamIn, StreamOut, StreamErr: Text; const prog: String): cint; {$ifndef BSD} Function GetDomainName:String; Function GetHostName:String; {$endif} {************************** Memory functions ***************************} const PROT_READ = $1; { page can be read } PROT_WRITE = $2; { page can be written } PROT_EXEC = $4; { page can be executed } PROT_NONE = $0; { page can not be accessed } MAP_SHARED = $1; { Share changes } // MAP_PRIVATE = $2; { Changes are private } MAP_TYPE = $f; { Mask for type of mapping } MAP_FIXED = $10; { Interpret addr exactly } // MAP_ANONYMOUS = $20; { don't use a file } {$ifdef Linux} MAP_GROWSDOWN = $100; { stack-like segment } MAP_DENYWRITE = $800; { ETXTBSY } MAP_EXECUTABLE = $1000; { mark it as an executable } MAP_LOCKED = $2000; { pages are locked } MAP_NORESERVE = $4000; { don't check for reservations } {$else} {$ifdef FreeBSD} // FreeBSD defines MAP_COPY=MAP_PRIVATE=$2; MAP_FILE = $0000; { map from file (default) } MAP_ANON = $1000; { allocated from memory, swap space } MAP_RENAME = $0020; { Sun: rename private pages to file } MAP_NORESERVE = $0040; { Sun: don't reserve needed swap area } MAP_INHERIT = $0080; { region is retained after exec } MAP_NOEXTEND = $0100; { for MAP_FILE, don't change file size } MAP_HASSEMAPHORE = $0200; { region may contain semaphores } MAP_STACK = $0400; { region grows down, like a stack } MAP_NOSYNC = $0800; { page to but do not sync underlying file} MAP_NOCORE = $20000;{ dont include these pages in a coredump} {$endif} {$endif} {************************** Utility functions ***************************} Type TFSearchOption = (NoCurrentDirectory, CurrentDirectoryFirst, CurrentDirectoryLast); Function FExpand (Const Path: PathStr):PathStr; Function FSearch (const path:pathstr;dirlist:string):pathstr; Function FSearch (const path:AnsiString;dirlist:Ansistring;CurrentDirStrategy:TFSearchOption):AnsiString; Function FSearch (const path:AnsiString;dirlist:AnsiString):AnsiString; Function Glob (Const path:pathstr):pglob; Procedure Globfree (var p:pglob); procedure SigRaise (sig:integer); {$ifdef FPC_USE_LIBC} const clib = 'c'; {$i unxdeclh.inc} {$else} {$i unxsysch.inc} // calls used in system and not reexported from baseunix {$endif} {****************************************************************************** Implementation ******************************************************************************} {$i unxovlh.inc} Implementation Uses Strings{$ifndef FPC_USE_LIBC},Syscall{$endif}; {$i unxovl.inc} {$ifndef FPC_USE_LIBC} {$i syscallh.inc} {$i ossysch.inc} {$i unxsysc.inc} {$endif} { Get the definitions of textrec and filerec } {$i textrec.inc} {$i filerec.inc} {$ifndef FPC_USE_LIBC} { Raw System calls are in Syscalls.inc} {$ifdef Linux} // Linux has more "oldlinux" compability. {$i sysc11.inc} {$else} {$i syscalls.inc} {$endif} {$endif} {$i unixsysc.inc} {Has platform specific libc part under ifdef, besides syscalls} Function getenv(name:string):Pchar; external name 'FPC_SYSC_FPGETENV'; {****************************************************************************** Process related calls ******************************************************************************} { Most calls of WaitPID do not handle the result correctly, this funktion treats errors more correctly } Function WaitProcess(Pid:cint):cint; { like WaitPid(PID,@result,0) Handling of Signal interrupts (errno=EINTR), returning the Exitcode of Process (>=0) or -Status if terminated} var ret,r,s : cint; begin s:=$7F00; repeat r:=fpWaitPid(Pid,@s,0); if (r=-1) and (fpgeterrno=ESysEIntr) Then r:=0; until (r<>0); if (r=-1) or (r=0) then // 0 is not a valid return and should never occur (it means status invalid when using WNOHANG) WaitProcess:=-1 // return -1 to indicate an error. fpwaitpid updated it. else begin {$ifndef Solaris} { at least correct for Linux and Darwin (JM) } if (s and $7F)=0 then // Only this is a valid returncode {$else} if (s and $FF)=0 then // Only this is a valid returncode {$endif} WaitProcess:=s shr 8 else if (s>0) then // Until now there is not use of the highest bit , but check this for the future WaitProcess:=-s // normal case else WaitProcess:=s; // s<0 should not occur, but wie return also a negativ value end; end; function InternalCreateShellArgV(cmd:pChar; len:cint):ppchar; { Create an argv which executes a command in a shell using /bin/sh -c } const Shell = '/bin/sh'#0'-c'#0; var pp,p : ppchar; // temp : string; !! Never pass a local var back!! begin getmem(pp,4*4); p:=pp; p^:=@Shell[1]; inc(p); p^:=@Shell[9]; inc(p); getmem(p^,len+1); move(cmd^,p^^,len); pchar(p^)[len]:=#0; inc(p); p^:=Nil; InternalCreateShellArgV:=pp; end; function CreateShellArgV(const prog:string):ppchar; begin CreateShellArgV:=InternalCreateShellArgV(@prog[1],length(prog)); end; function CreateShellArgV(const prog:Ansistring):ppchar; { Create an argv which executes a command in a shell using /bin/sh -c using a AnsiString; } begin CreateShellArgV:=InternalCreateShellArgV(@prog[1],length(prog)); // if ppc works like delphi this also work when @prog[1] is invalid (len=0) end; procedure FreeShellArgV(p:ppchar); begin if (p<>nil) then begin freemem(p[2]); freemem(p); end; end; Function Execv(const path: AnsiString;args:ppchar):cint; { Overloaded ansistring version. } begin Execv:=fpExecVe(Path,Args,envp); end; Function Execvp(Path: AnsiString; Args:ppchar;Ep:ppchar):cint; { Overloaded ansistring version } var thepath : Ansistring; begin if path[1]<>'/' then begin Thepath:=strpas(fpgetenv('PATH')); if thepath='' then thepath:='.'; Path:=FSearch(path,thepath) end else Path:=''; if Path='' then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end else Execvp:=fpExecve(Path,args,ep); end; Function Execv(const path:pathstr;args:ppchar):cint; { Replaces the current program by the program specified in path, arguments in args are passed to Execve. the current environment is passed on. } begin Execv:=fpExecve(path,args,envp); end; Function Execvp(Path:Pathstr;Args:ppchar;Ep:ppchar):cint; { This does the same as Execve, only it searches the PATH environment for the place of the Executable, except when Path starts with a slash. if the PATH environment variable is unavailable, the path is set to '.' } var thepath : string; begin if path[1]<>'/' then begin Thepath:=strpas(fpgetenv('PATH')); if thepath='' then thepath:='.'; Path:=FSearch(path,thepath) end else Path:=''; if Path='' then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end else execvp:=fpExecve(Path,args,ep); end; Function Execle(Todo:string;Ep:ppchar):cint; { This procedure takes the string 'Todo', parses it for command and command options, and Executes the command with the given options. The string 'Todo' shoud be of the form 'command options', options separated by commas. the PATH environment is not searched for 'command'. The specified environment(in 'ep') is passed on to command } var p : ppchar; begin p:=StringToPPChar(ToDo,0); if (p=nil) or (p^=nil) then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end else execle:=fpExecVE(p^,p,EP); end; function Execle(Todo:AnsiString;Ep:ppchar):cint; { This procedure takes the string 'Todo', parses it for command and command options, and Executes the command with the given options. The string 'Todo' shoud be of the form 'command options', options separated by commas. the PATH environment is not searched for 'command'. The specified environment(in 'ep') is passed on to command } var p : ppchar; begin p:=StringToPPChar(ToDo,0); if (p=nil) or (p^=nil) then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end; ExecLe:=fpExecVE(p^,p,EP); end; Function Execl(const Todo:string):cint; { This procedure takes the string 'Todo', parses it for command and command options, and Executes the command with the given options. The string 'Todo' shoud be of the form 'command options', options separated by commas. the PATH environment is not searched for 'command'. The current environment is passed on to command } begin Execl:=ExecLE(ToDo,EnvP); end; Function Execlp(Todo:string;Ep:ppchar):cint; { This procedure takes the string 'Todo', parses it for command and command options, and Executes the command with the given options. The string 'Todo' shoud be of the form 'command options', options separated by commas. the PATH environment is searched for 'command'. The specified environment (in 'ep') is passed on to command } var p : ppchar; begin p:=StringToPPchar(todo,0); if (p=nil) or (p^=nil) then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end; Execlp:=ExecVP(StrPas(p^),p,EP); end; Function Execlp(Todo: Ansistring;Ep:ppchar):cint; { Overloaded ansistring version. } var p : ppchar; begin p:=StringToPPchar(todo,0); if (p=nil) or (p^=nil) then Begin fpsetErrno(ESysEnoEnt); Exit(-1); end; execlp:=ExecVP(StrPas(p^),p,EP); end; function intFpExecVEMaybeP (Const PathName:AnsiString;Args,MyEnv:ppchar;SearchPath:Boolean):cint; // does an ExecVE, but still has to handle P // execv variants call this directly, execl variants indirectly via // intfpexecl Var NewCmd : ansistring; ThePath : AnsiString; Error : cint; NrParam : longint; Begin If SearchPath and (pos('/',pathname)=0) Then Begin // The above could be better. (check if not escaped/quoted '/' 's) ? // (Jilles says this is ok) // Stevens says only search if newcmd contains no '/' // fsearch is not ansistring clean yet. ThePath:=fpgetenv('PATH'); if thepath='' then thepath:='.'; // FreeBSD uses _PATH_DEFPATH = /usr/bin:/bin // but a quick check showed that _PATH_DEFPATH // varied from OS to OS newcmd:=FSearch(pathname,thepath,NoCurrentDirectory); // FreeBSD libc keeps on trying till a file is successfully run. // Stevens says "try each path prefix" // execp puts newcmd here. args^:=pchar(newcmd); End; // repeat // if searchpath then args^:=pchar(commandtorun) IntFpExecVEMaybeP:=fpExecVE(Args^,Args,MyEnv); { // Code that if exec fails due to permissions, tries to run it with sh // Should we deallocate p on fail? -> no fpexit is run no matter what // } // if intfpexecvemaybep=-1 then zoekvolgende file. // until (Goexit) or SearchExit; { If IntFpExec=-1 Then Begin Error:=fpGetErrno Case Error of ESysE2Big : Exit(-1); ESysELoop, : Exit(-1); } end; function intFpExecl (Const PathName:AnsiString;const s:array of ansistring;MyEnv:ppchar;SearchPath:Boolean):cint; { Handles the array of ansistring -> ppchar conversion. Base for the the "l" variants. } var p:ppchar; begin If PathName='' Then Begin fpsetErrno(ESysEnoEnt); Exit(-1); // Errno? End; p:=ArrayStringToPPchar(s,1); if p=NIL Then Begin GetMem(p,2*sizeof(pchar)); if p=nil then begin {$ifdef xunix} fpseterrno(ESysEnoMem); {$endif} fpseterrno(ESysEnoEnt); exit(-1); end; p[1]:=nil; End; p^:=pchar(PathName); IntFPExecL:=intFpExecVEMaybeP(PathName,p,MyEnv,SearchPath); // If we come here, no attempts were executed successfully. Freemem(p); end; function FpExecLE (Const PathName:AnsiString;const S:Array Of AnsiString;MyEnv:ppchar):cint; Begin FpExecLE:=intFPExecl(PathName,s,MyEnv,false); End; function FpExecL(Const PathName:AnsiString;const S:Array Of AnsiString):cint; Begin FpExecL:=intFPExecl(PathName,S,EnvP,false); End; function FpExecLP(Const PathName:AnsiString;const S:Array Of AnsiString):cint; Begin FpExecLP:=intFPExecl(PathName,S,EnvP,True); End; function FpExecV(Const PathName:AnsiString;args:ppchar):cint; Begin fpexecV:=intFpExecVEMaybeP (PathName,args,envp,false); End; function FpExecVP(Const PathName:AnsiString;args:ppchar):cint; Begin fpexecVP:=intFpExecVEMaybeP (PathName,args,envp,true); End; function FpExecVPE(Const PathName:AnsiString;args,env:ppchar):cint; Begin fpexecVPE:=intFpExecVEMaybeP (PathName,args,env,true); End; // exect and execvP (ExecCapitalP) are not implement // Non POSIX anyway. // Exect turns on tracing for the process // execvP has the searchpath as array of ansistring ( const char *search_path) {$define FPC_USE_FPEXEC} Function Shell(const Command:String):cint; { Executes the shell, and passes it the string Command. (Through /bin/sh -c) The current environment is passed to the shell. It waits for the shell to exit, and returns its exit status. If the Exec call failed exit status 127 is reported. } { Changed the structure: - the previous version returns an undefinied value if fork fails - it returns the status of Waitpid instead of the Process returnvalue (see the doc to Shell) - it uses exit(127) not ExitProc (The Result in pp386: going on Compiling in 2 processes!) - ShellArgs are now released - The Old CreateShellArg gives back pointers to a local var } var {$ifndef FPC_USE_FPEXEC} p : ppchar; {$endif} pid : cint; begin {$ifndef FPC_USE_FPEXEC} p:=CreateShellArgv(command); {$endif} pid:=fpfork; if pid=0 then // We are in the Child begin {This is the child.} {$ifndef FPC_USE_FPEXEC} fpExecve(p^,p,envp); {$else} fpexecl('/bin/sh',['-c',Command]); {$endif} fpExit(127); // was Exit(127) end else if (pid<>-1) then // Successfull started Shell:=WaitProcess(pid) else // no success Shell:=-1; // indicate an error {$ifndef FPC_USE_FPEXEC} FreeShellArgV(p); {$endif} end; Function Shell(const Command:AnsiString):cint; { AnsiString version of Shell } var {$ifndef FPC_USE_FPEXEC} p : ppchar; {$endif} pid : cint; begin { Changes as above } {$ifndef FPC_USE_FPEXEC} p:=CreateShellArgv(command); {$endif} pid:=fpfork; if pid=0 then // We are in the Child begin {$ifdef FPC_USE_FPEXEC} fpexecl('/bin/sh',['-c',Command]); {$else} fpExecve(p^,p,envp); {$endif} fpExit(127); // was exit(127)!! We must exit the Process, not the function end else if (pid<>-1) then // Successfull started Shell:=WaitProcess(pid) else // no success Shell:=-1; {$ifndef FPC_USE_FPEXEC} FreeShellArgV(p); {$ENDIF} end; {$ifdef FPC_USE_LIBC} function xfpsystem(p:pchar):cint; cdecl; external clib name 'system'; Function fpSystem(const Command:AnsiString):cint; begin fpsystem:=xfpsystem(pchar(command)); end; {$else} Function fpSystem(const Command:AnsiString):cint; { AnsiString version of Shell } var pid,savedpid : cint; pstat : cint; ign,intact, quitact : SigactionRec; newsigblock, oldsigblock : tsigset; begin { Changes as above } if command='' then exit(1); {$ifdef FreeBSD} ign.sa_handler:=TSigAction(SIG_IGN); {$else} ign.sa_handler:=SignalHandler(SIG_IGN); {$endif} fpsigemptyset(ign.sa_mask); ign.sa_flags:=0; fpsigaction(SIGINT, @ign, @intact); fpsigaction(SIGQUIT, @ign, @quitact); fpsigemptyset(newsigblock); fpsigaddset(newsigblock,SIGCHLD); fpsigprocmask(SIG_BLOCK,newsigblock,oldsigblock); pid:=fpfork; if pid=0 then // We are in the Child begin fpsigaction(SIGINT,@intact,NIL); fpsigaction(SIGQUIT,@quitact,NIL); fpsigprocmask(SIG_SETMASK,@oldsigblock,NIL); fpexecl('/bin/sh',['-c',Command]); fpExit(127); // was exit(127)!! We must exit the Process, not the function end else if (pid<>-1) then // Successfull started begin savedpid:=pid; repeat pid:=fpwaitpid(savedpid,@pstat,0); until (pid<>-1) and (fpgeterrno()<>ESysEintr); if pid=-1 Then fpsystem:=-1 else fpsystem:=pstat; end else // no success fpsystem:=-1; fpsigaction(SIGINT,@intact,NIL); fpsigaction(SIGQUIT,@quitact,NIL); fpsigprocmask(SIG_SETMASK,@oldsigblock,NIL); end; {$endif} Function WIFSTOPPED(Status: Integer): Boolean; begin WIFSTOPPED:=((Status and $FF)=$7F); end; Function W_EXITCODE(ReturnCode, Signal: Integer): Integer; begin W_EXITCODE:=(ReturnCode shl 8) or Signal; end; Function W_STOPCODE(Signal: Integer): Integer; begin W_STOPCODE:=(Signal shl 8) or $7F; end; {****************************************************************************** Date and Time related calls ******************************************************************************} Function GetEpochTime: cint; { Get the number of seconds since 00:00, January 1 1970, GMT the time NOT corrected any way } begin GetEpochTime:=fptime; end; procedure GetTime(var hour,min,sec,msec,usec:word); { Gets the current time, adjusted to local time } var year,day,month:Word; tz:timeval; begin fpgettimeofday(@tz,nil); EpochToLocal(tz.tv_sec,year,month,day,hour,min,sec); msec:=tz.tv_usec div 1000; usec:=tz.tv_usec mod 1000; end; procedure GetTime(var hour,min,sec,sec100:word); { Gets the current time, adjusted to local time } var usec : word; begin gettime(hour,min,sec,sec100,usec); sec100:=sec100 div 10; end; Procedure GetTime(Var Hour,Min,Sec:Word); { Gets the current time, adjusted to local time } var msec,usec : Word; Begin gettime(hour,min,sec,msec,usec); End; Procedure GetDate(Var Year,Month,Day:Word); { Gets the current date, adjusted to local time } var hour,minute,second : word; Begin EpochToLocal(fptime,year,month,day,hour,minute,second); End; Procedure GetDateTime(Var Year,Month,Day,hour,minute,second:Word); { Gets the current date, adjusted to local time } Begin EpochToLocal(fptime,year,month,day,hour,minute,second); End; {$ifndef BSD} // this can be done nicer, but I still have // to think about what to do with this func. {$ifdef linux} {$ifdef FPC_USE_LIBC} function intstime (t:ptime_t):cint; external name 'stime'; {$endif} Function stime (t : cint) : boolean; begin {$ifdef FPC_USE_LIBC} stime:=intstime(@t)=0; {$else} stime:=do_SysCall(Syscall_nr_stime,cint(@t))=0; {$endif} end; {$endif} {$endif} {$ifdef BSD} Function stime (t : cint) : Boolean; begin end; {$endif} Function SetTime(Hour,Min,Sec:word) : boolean; var Year, Month, Day : Word; begin GetDate (Year, Month, Day); SetTime:=stime ( LocalToEpoch ( Year, Month, Day, Hour, Min, Sec ) ); end; Function SetDate(Year,Month,Day:Word) : boolean; var Hour, Minute, Second, Sec100 : Word; begin GetTime ( Hour, Minute, Second, Sec100 ); SetDate:=stime ( LocalToEpoch ( Year, Month, Day, Hour, Minute, Second ) ); end; Function SetDateTime(Year,Month,Day,hour,minute,second:Word) : Boolean; begin SetDateTime:=stime ( LocalToEpoch ( Year, Month, Day, Hour, Minute, Second ) ); end; { Include timezone handling routines which use /usr/share/timezone info } {$i timezone.inc} {****************************************************************************** FileSystem calls ******************************************************************************} Function Execl(const Todo:Ansistring):cint; { Overloaded AnsiString Version of ExecL. } begin Execl:=ExecLE(ToDo,EnvP); end; Function Flock (var T : text;mode : cint) : cint; begin Flock:=Flock(TextRec(T).Handle,mode); end; Function Flock (var F : File;mode : cint) :cint; begin Flock:=Flock(FileRec(F).Handle,mode); end; Function SelectText(var T:Text;TimeOut :PTimeval):cint; Var F:TfdSet; begin if textrec(t).mode=fmclosed then begin fpseterrno(ESysEBADF); exit(-1); end; FpFD_ZERO(f); fpFD_SET(textrec(T).handle,f); if textrec(T).mode=fminput then SelectText:=fpselect(textrec(T).handle+1,@f,nil,nil,TimeOut) else SelectText:=fpselect(textrec(T).handle+1,nil,@f,nil,TimeOut); end; Function SelectText(var T:Text;TimeOut :cint):cint; var p : PTimeVal; tv : TimeVal; begin if TimeOut=-1 then p:=nil else begin tv.tv_Sec:=Timeout div 1000; tv.tv_Usec:=(Timeout mod 1000)*1000; p:=@tv; end; SelectText:=SelectText(T,p); end; {****************************************************************************** Directory ******************************************************************************} procedure SeekDir(p:pdir;loc:clong); begin if p=nil then begin fpseterrno(ESysEBADF); exit; end; {$ifndef bsd} p^.dd_nextoff:=fplseek(p^.dd_fd,loc,seek_set); {$endif} p^.dd_size:=0; p^.dd_loc:=0; end; function TellDir(p:pdir):clong; begin if p=nil then begin fpseterrno(ESysEBADF); telldir:=-1; exit; end; telldir:=fplseek(p^.dd_fd,0,seek_cur) { We could try to use the nextoff field here, but on my 1.2.13 kernel, this gives nothing... This may have to do with the readdir implementation of libc... I also didn't find any trace of the field in the kernel code itself, So I suspect it is an artifact of libc. Michael. } end; {****************************************************************************** Pipes/Fifo ******************************************************************************} Procedure OpenPipe(var F:Text); begin case textrec(f).mode of fmoutput : if textrec(f).userdata[1]<>P_OUT then textrec(f).mode:=fmclosed; fminput : if textrec(f).userdata[1]<>P_IN then textrec(f).mode:=fmclosed; else textrec(f).mode:=fmclosed; end; end; Function IOPipe(var F:text):cint; begin IOPipe:=0; case textrec(f).mode of fmoutput : begin { first check if we need something to write, else we may get a SigPipe when Close() is called (PFV) } if textrec(f).bufpos>0 then IOPipe:=fpwrite(textrec(f).handle,pchar(textrec(f).bufptr),textrec(f).bufpos); end; fminput : Begin textrec(f).bufend:=fpread(textrec(f).handle,pchar(textrec(f).bufptr),textrec(f).bufsize); IOPipe:=textrec(f).bufend; End; end; textrec(f).bufpos:=0; end; Function FlushPipe(var F:Text):cint; begin FlushPipe:=0; if (textrec(f).mode=fmoutput) and (textrec(f).bufpos<>0) then FlushPipe:=IOPipe(f); textrec(f).bufpos:=0; end; Function ClosePipe(var F:text):cint; begin textrec(f).mode:=fmclosed; ClosePipe:=fpclose(textrec(f).handle); end; Function AssignPipe(var pipe_in,pipe_out:text):cint; { Sets up a pair of file variables, which act as a pipe. The first one can be read from, the second one can be written to. } var f_in,f_out : cint; begin if AssignPipe(f_in,f_out)=-1 then exit(-1); { Set up input } Assign(Pipe_in,''); Textrec(Pipe_in).Handle:=f_in; Textrec(Pipe_in).Mode:=fmInput; Textrec(Pipe_in).userdata[1]:=P_IN; TextRec(Pipe_in).OpenFunc:=@OpenPipe; TextRec(Pipe_in).InOutFunc:=@IOPipe; TextRec(Pipe_in).FlushFunc:=@FlushPipe; TextRec(Pipe_in).CloseFunc:=@ClosePipe; { Set up output } Assign(Pipe_out,''); Textrec(Pipe_out).Handle:=f_out; Textrec(Pipe_out).Mode:=fmOutput; Textrec(Pipe_out).userdata[1]:=P_OUT; TextRec(Pipe_out).OpenFunc:=@OpenPipe; TextRec(Pipe_out).InOutFunc:=@IOPipe; TextRec(Pipe_out).FlushFunc:=@FlushPipe; TextRec(Pipe_out).CloseFunc:=@ClosePipe; AssignPipe:=0; end; Function AssignPipe(var pipe_in,pipe_out:file):cint; { Sets up a pair of file variables, which act as a pipe. The first one can be read from, the second one can be written to. If the operation was unsuccesful, } var f_in,f_out : cint; begin if AssignPipe(f_in,f_out)=-1 then exit(-1); { Set up input } Assign(Pipe_in,''); Filerec(Pipe_in).Handle:=f_in; Filerec(Pipe_in).Mode:=fmInput; Filerec(Pipe_in).recsize:=1; Filerec(Pipe_in).userdata[1]:=P_IN; { Set up output } Assign(Pipe_out,''); Filerec(Pipe_out).Handle:=f_out; Filerec(Pipe_out).Mode:=fmoutput; Filerec(Pipe_out).recsize:=1; Filerec(Pipe_out).userdata[1]:=P_OUT; AssignPipe:=0; end; Function PCloseText(Var F:text):cint; { May not use @PClose due overloading } begin PCloseText:=PClose(f); end; function POpen(var F:text;const Prog:String;rw:char):cint; { Starts the program in 'Prog' and makes it's input or out put the other end of a pipe. If rw is 'w' or 'W', then whatever is written to F, will be read from stdin by the program in 'Prog'. The inverse is true for 'r' or 'R' : whatever the program in 'Prog' writes to stdout, can be read from 'f'. } var pipi, pipo : text; pid : pid_t; pl : ^cint; pp : ppchar; ret : cint; begin rw:=upcase(rw); if not (rw in ['R','W']) then begin FpSetErrno(ESysEnoent); exit(-1); end; if AssignPipe(pipi,pipo)=-1 Then Exit(-1); pid:=fpfork; // vfork in FreeBSD. if pid=-1 then begin close(pipi); close(pipo); exit(-1); end; if pid=0 then begin { We're in the child } if rw='W' then begin close(pipo); ret:=fpdup2(pipi,input); close(pipi); if ret=-1 then halt(127); end else begin close(pipi); ret:=fpdup2(pipo,output); close(pipo); if ret=-1 then halt(127); end; {$ifdef FPC_USE_FPEXEC} fpexecl('/bin/sh',['-c',Prog]); {$else} pp:=createshellargv(prog); fpExecve(pp^,pp,envp); {$endif} halt(127); end else begin { We're in the parent } if rw='W' then begin close(pipi); f:=pipo; textrec(f).bufptr:=@textrec(f).buffer; end else begin close(pipo); f:=pipi; textrec(f).bufptr:=@textrec(f).buffer; end; {Save the process ID - needed when closing } pl:=@(textrec(f).userdata[2]); pl^:=pid; textrec(f).closefunc:=@PCloseText; end; ret:=0; end; Function POpen(var F:file;const Prog:String;rw:char):cint; { Starts the program in 'Prog' and makes it's input or out put the other end of a pipe. If rw is 'w' or 'W', then whatever is written to F, will be read from stdin by the program in 'Prog'. The inverse is true for 'r' or 'R' : whatever the program in 'Prog' writes to stdout, can be read from 'f'. } var pipi, pipo : file; pid : cint; pl : ^cint; p,pp : ppchar; temp : string[255]; ret : cint; begin rw:=upcase(rw); if not (rw in ['R','W']) then begin FpSetErrno(ESysEnoent); exit(-1); end; ret:=AssignPipe(pipi,pipo); if ret=-1 then exit(-1); pid:=fpfork; if pid=-1 then begin close(pipi); close(pipo); exit(-1); end; if pid=0 then begin { We're in the child } if rw='W' then begin close(pipo); ret:=fpdup2(filerec(pipi).handle,stdinputhandle); close(pipi); if ret=-1 then halt(127); end else begin close(pipi); ret:=fpdup2(filerec(pipo).handle,stdoutputhandle); close(pipo); if ret=1 then halt(127); end; {$ifdef FPC_USE_FPEXEC} fpexecl('/bin/sh',['-c',Prog]); {$else} getmem(pp,sizeof(pchar)*4); temp:='/bin/sh'#0'-c'#0+prog+#0; p:=pp; p^:=@temp[1]; inc(p); p^:=@temp[9]; inc(p); p^:=@temp[12]; inc(p); p^:=Nil; fpExecve(ansistring('/bin/sh'),pp,envp); {$endif} halt(127); end else begin { We're in the parent } if rw='W' then begin close(pipi); f:=pipo; end else begin close(pipo); f:=pipi; end; {Save the process ID - needed when closing } pl:=@(filerec(f).userdata[2]); pl^:=pid; end; POpen:=0; end; Function AssignStream(Var StreamIn,Streamout:text;Const Prog:String) : cint; { Starts the program in 'Prog' and makes its input and output the other end of two pipes, which are the stdin and stdout of a program specified in 'Prog'. streamout can be used to write to the program, streamin can be used to read the output of the program. See the following diagram : Parent Child STreamout --> Input Streamin <-- Output Return value is the process ID of the process being spawned, or -1 in case of failure. } var pipi, pipo : text; pid : cint; pl : ^cint; begin AssignStream:=-1; if AssignPipe(streamin,pipo)=-1 Then exit(-1); if AssignPipe(pipi,streamout)=-1 Then // shouldn't this close streamin and pipo? exit(-1); pid:=fpfork; if pid=-1 then begin close(pipi); close(pipo); close (streamin); close (streamout); exit; end; if pid=0 then begin { We're in the child } { Close what we don't need } close(streamout); close(streamin); if fpdup2(pipi,input)=-1 Then halt(127); close(pipi); If fpdup2(pipo,output)=-1 Then halt (127); close(pipo); Execl(Prog); halt(127); end else begin { we're in the parent} close(pipo); close(pipi); {Save the process ID - needed when closing } pl:=@(textrec(StreamIn).userdata[2]); pl^:=pid; textrec(StreamIn).closefunc:=@PCloseText; {Save the process ID - needed when closing } pl:=@(textrec(StreamOut).userdata[2]); pl^:=pid; textrec(StreamOut).closefunc:=@PCloseText; AssignStream:=Pid; end; end; function AssignStream(var StreamIn, StreamOut, StreamErr: Text; const prog: String):cint; { Starts the program in 'prog' and makes its input, output and error output the other end of three pipes, which are the stdin, stdout and stderr of a program specified in 'prog'. StreamOut can be used to write to the program, StreamIn can be used to read the output of the program, StreamErr reads the error output of the program. See the following diagram : Parent Child StreamOut --> StdIn (input) StreamIn <-- StdOut (output) StreamErr <-- StdErr (error output) } var PipeIn, PipeOut, PipeErr: text; pid: cint; pl: ^cint; begin AssignStream := -1; // Assign pipes if AssignPipe(StreamIn, PipeOut)=-1 Then Exit(-1); If AssignPipe(StreamErr, PipeErr)=-1 Then begin Close(StreamIn); Close(PipeOut); exit(-1); end; if AssignPipe(PipeIn, StreamOut)=-1 Then begin Close(StreamIn); Close(PipeOut); Close(StreamErr); Close(PipeErr); exit(-1); end; // Fork pid := fpFork; if pid=-1 then begin Close(StreamIn); Close(PipeOut); Close(StreamErr); Close(PipeErr); Close(PipeIn); Close(StreamOut); exit(-1); end; if pid = 0 then begin // *** We are in the child *** // Close what we don not need Close(StreamOut); Close(StreamIn); Close(StreamErr); // Connect pipes if fpdup2(PipeIn, Input)=-1 Then Halt(127); Close(PipeIn); if fpdup2(PipeOut, Output)=-1 Then Halt(127); Close(PipeOut); if fpdup2(PipeErr, StdErr)=-1 Then Halt(127); Close(PipeErr); // Execute program Execl(Prog); Halt(127); end else begin // *** We are in the parent *** Close(PipeErr); Close(PipeOut); Close(PipeIn); // Save the process ID - needed when closing pl := @(TextRec(StreamIn).userdata[2]); pl^ := pid; TextRec(StreamIn).closefunc := @PCloseText; // Save the process ID - needed when closing pl := @(TextRec(StreamOut).userdata[2]); pl^ := pid; TextRec(StreamOut).closefunc := @PCloseText; // Save the process ID - needed when closing pl := @(TextRec(StreamErr).userdata[2]); pl^ := pid; TextRec(StreamErr).closefunc := @PCloseText; AssignStream := pid; end; end; {****************************************************************************** General information calls ******************************************************************************} {$ifndef BSD} Function GetDomainName:String; { linux only!} // domainname is a glibc extension. { Get machines domain name. Returns empty string if not set. } Var Sysn : utsname; begin If fpUname(sysn)<>0 then getdomainname:='' else getdomainname:=strpas(@Sysn.domain[0]); end; {$endif} Function GetHostName:String; { Get machines name. Returns empty string if not set. } Var Sysn : utsname; begin If fpuname(sysn)=-1 then gethostname:='' else gethostname:=strpas(@Sysn.nodename[0]); end; {****************************************************************************** Signal handling calls ******************************************************************************} procedure SigRaise(sig:integer); begin fpKill(fpGetPid,Sig); end; {****************************************************************************** Utility calls ******************************************************************************} { Function Octal(l:cint):cint; { Convert an octal specified number to decimal; } var octnr, oct : cint; begin octnr:=0; oct:=0; while (l>0) do begin oct:=oct or ((l mod 10) shl octnr); l:=l div 10; inc(octnr,3); end; Octal:=oct; end; } {$DEFINE FPC_FEXPAND_TILDE} { Tilde is expanded to home } {$DEFINE FPC_FEXPAND_GETENVPCHAR} { GetEnv result is a PChar } {$I fexpand.inc} {$UNDEF FPC_FEXPAND_GETENVPCHAR} {$UNDEF FPC_FEXPAND_TILDE} Function FSearch(const path:pathstr;dirlist:string):pathstr; { Searches for a file 'path' in the list of direcories in 'dirlist'. returns an empty string if not found. Wildcards are NOT allowed. If dirlist is empty, it is set to '.' } Var NewDir : PathStr; p1 : cint; Info : Stat; Begin {Replace ':' with ';'} for p1:=1to length(dirlist) do if dirlist[p1]=':' then dirlist[p1]:=';'; {Check for WildCards} If (Pos('?',Path) <> 0) or (Pos('*',Path) <> 0) Then FSearch:='' {No wildcards allowed in these things.} Else Begin Dirlist:='.;'+dirlist;{Make sure current dir is first to be searched.} Repeat p1:=Pos(';',DirList); If p1=0 Then p1:=255; NewDir:=Copy(DirList,1,P1 - 1); if NewDir[Length(NewDir)]<>'/' then NewDir:=NewDir+'/'; NewDir:=NewDir+Path; Delete(DirList,1,p1); if (FpStat(NewDir,Info)>=0) and (not fpS_ISDIR(Info.st_Mode)) then Begin If Pos('./',NewDir)=1 Then Delete(NewDir,1,2); {DOS strips off an initial .\} End Else NewDir:=''; Until (DirList='') or (Length(NewDir) > 0); FSearch:=NewDir; End; End; Function FSearch(const path:AnsiString;dirlist:Ansistring;CurrentDirStrategy:TFSearchOption):AnsiString; { Searches for a file 'path' in the list of direcories in 'dirlist'. returns an empty string if not found. Wildcards are NOT allowed. If dirlist is empty, it is set to '.' This function tries to make FSearch use ansistrings, and decrease stringhandling overhead at the same time. } Var NewDir : PathStr; p1 : cint; Info : Stat; i,j : cint; p : pchar; Begin if CurrentDirStrategy=CurrentDirectoryFirst Then Dirlist:='.:'+dirlist; {Make sure current dir is first to be searched.} if CurrentDirStrategy=CurrentDirectoryLast Then Dirlist:=dirlist+':.'; {Make sure current dir is last to be searched.} {Replace ':' and ';' with #0} for p1:=1 to length(dirlist) do if (dirlist[p1]=':') or (dirlist[p1]=';') then dirlist[p1]:=#0; {Check for WildCards} If (Pos('?',Path) <> 0) or (Pos('*',Path) <> 0) Then FSearch:='' {No wildcards allowed in these things.} Else Begin p:=pchar(dirlist); i:=length(dirlist); j:=1; Repeat NewDir:=p+'/'+Path; if (FpStat(NewDir,Info)>=0) and (not fpS_ISDIR(Info.st_Mode)) then Begin If Pos('./',NewDir)=1 Then Delete(NewDir,1,2); {DOS strips off an initial .\} End Else NewDir:=''; while (j<=i) and (p^<>#0) do begin inc(j); inc(p); end; if p^=#0 then inc(p); Until (j>=i) or (Length(NewDir) > 0); FSearch:=NewDir; End; End; Function FSearch(const path:AnsiString;dirlist:Ansistring):AnsiString; Begin FSearch:=FSearch(path,dirlist,CurrentDirectoryFirst); End; Procedure Globfree(var p : pglob); { Release memory occupied by pglob structure, and names in it. sets p to nil. } var temp : pglob; begin while assigned(p) do begin temp:=p^.next; if assigned(p^.name) then freemem(p^.name); dispose(p); p:=temp; end; end; Function Glob(Const path:pathstr):pglob; { Fills a tglob structure with entries matching path, and returns a pointer to it. Returns nil on error, linuxerror is set accordingly. } var temp, temp2 : string[255]; thedir : pdir; buffer : pdirent; root, current : pglob; begin { Get directory } temp:=dirname(path); if temp='' then temp:='.'; temp:=temp+#0; thedir:=fpopendir(@temp[1]); if thedir=nil then exit(nil); temp:=basename(path,''); { get the pattern } if thedir^.dd_fd<0 then exit(nil); {get the entries} root:=nil; current:=nil; repeat buffer:=fpreaddir(thedir^); if buffer=nil then break; temp2:=strpas(@(buffer^.d_name[0])); if fnmatch(temp,temp2) then begin if root=nil then begin new(root); current:=root; end else begin new(current^.next); current:=current^.next; end; if current=nil then begin fpseterrno(ESysENOMEM); globfree(root); break; end; current^.next:=nil; getmem(current^.name,length(temp2)+1); if current^.name=nil then begin fpseterrno(ESysENOMEM); globfree(root); break; end; move(buffer^.d_name[0],current^.name^,length(temp2)+1); end; until false; fpclosedir(thedir^); glob:=root; end; {-------------------------------- Stat.Mode Macro's --------------------------------} Initialization InitLocalTime; finalization DoneLocalTime; End. { $Log$ Revision 1.66 2004-02-16 13:21:18 marco * fpexec for popen Revision 1.65 2004/02/14 21:12:14 marco * provisorische fix voor Michael's problemen Revision 1.64 2004/02/14 18:22:15 marco * fpsystem, and some FPC_USE_LIBC fixes. (FreeBSD needs systypes.inc, also when FPC_USE_LIBC, it only contains types like statfs Revision 1.63 2004/02/13 10:50:22 marco * Hopefully last large changes to fpexec and friends. - naming conventions changes from Michael. - shell functions get alternative under ifdef. - arraystring function moves to unixutil - unixutil now regards quotes in stringtoppchar. - sysutils/unix get executeprocess(ansi,array of ansi), and both executeprocess functions are fixed - Sysutils/win32 get executeprocess(ansi,array of ansi) Revision 1.62 2004/02/12 16:20:58 marco * currentpath stuff fixed for fsearch Revision 1.61 2004/02/12 15:31:06 marco * First version of fpexec change. Still under ifdef or silently overloaded Revision 1.60 2004/01/23 08:11:18 jonas * only include systypes.inc if FPC_USE_LIBC is not defined Revision 1.59 2004/01/22 13:46:14 marco bsd Revision 1.58 2004/01/04 21:05:01 jonas * declare C-library routines as external in libc so we generate proper import entries for Darwin Revision 1.57 2004/01/04 20:53:02 jonas * don't use systypes if FPC_USE_LIBC is defined Revision 1.56 2004/01/04 16:24:05 jonas * fixed WaitProcess in case of SysEintr Revision 1.55 2003/12/31 20:24:25 marco * export statfs(pchar) Revision 1.54 2003/12/30 15:43:20 marco * linux now compiles with FPC_USE_LIBC Revision 1.53 2003/12/30 12:24:01 marco * FPC_USE_LIBC Revision 1.52 2003/12/08 17:16:30 peter * fsearch should only find files Revision 1.51 2003/11/19 17:11:40 marco * termio unit Revision 1.50 2003/11/19 10:54:32 marco * some simple restructures Revision 1.49 2003/11/17 11:28:08 marco * Clone moved to linux, + few small unit unix changes Revision 1.48 2003/11/17 10:05:51 marco * threads for FreeBSD. Not working tho Revision 1.47 2003/11/14 17:30:14 marco * weeehoo linuxerror is no more :-) Revision 1.46 2003/11/14 16:44:48 marco * stream functions converted to work without linuxerror Revision 1.45 2003/11/13 18:44:06 marco * small fi Revision 1.44 2003/11/12 22:19:45 marco * more linuxeror fixes Revision 1.43 2003/11/03 09:42:28 marco * Peter's Cardinal<->Longint fixes patch Revision 1.42 2003/10/30 16:42:58 marco * fixes for old syscall() convention removing Revision 1.41 2003/10/12 19:40:43 marco * ioctl fixes. IDE now starts, but Revision 1.40 2003/09/29 14:36:06 peter * fixed for stricter compiler Revision 1.39 2003/09/27 12:51:33 peter * fpISxxx macros renamed to C compliant fpS_ISxxx Revision 1.38 2003/09/20 12:38:29 marco * FCL now compiles for FreeBSD with new 1.1. Now Linux. Revision 1.37 2003/09/17 19:07:44 marco * more fixes for Unix<->unixutil Revision 1.36 2003/09/17 17:30:46 marco * Introduction of unixutil Revision 1.35 2003/09/16 21:46:27 marco * small fixes, checking things on linux Revision 1.34 2003/09/16 20:52:24 marco * small cleanups. Mostly killing of already commented code in unix etc Revision 1.33 2003/09/16 16:13:56 marco * fdset functions renamed to fp Revision 1.32 2003/09/15 20:08:49 marco * small fixes. FreeBSD now cycles Revision 1.31 2003/09/14 20:15:01 marco * Unix reform stage two. Remove all calls from Unix that exist in Baseunix. Revision 1.30 2003/07/08 21:23:24 peter * sparc fixes Revision 1.29 2003/05/30 19:58:40 marco * Getting NetBSD/i386 to compile. Revision 1.28 2003/05/29 19:16:16 marco * fixed a small *BSD gotcha Revision 1.27 2003/05/24 20:39:54 jonas * fixed ExitCode translation in WaitProcess for Linux and Darwin (and probably other BSD's as well) Revision 1.26 2003/03/11 08:27:59 michael * stringtoppchar should use tabs instead of backspace as delimiter Revision 1.25 2002/12/18 16:50:39 marco * Unix RTL generic parts. Linux working, *BSD will follow shortly Revision 1.24 2002/09/07 16:01:28 peter * old logs removed and tabs fixed Revision 1.23 2002/08/06 13:30:46 sg * replaced some Longints with Cardinals, to mach the C headers * updated the termios record Revision 1.22 2002/03/05 20:04:25 michael + Patch from Sebastian for FCNTL call Revision 1.21 2002/01/02 12:22:54 marco * Removed ifdef arround getepoch. }