{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 2000 by Marco van de Voort 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. **********************************************************************} Function Fork:longint; { This function issues the 'fork' System call. the program is duplicated in memory and Execution continues in parent and child process. In the parent process, fork returns the PID of the child. In the child process, zero is returned. A negative value indicates that an error has occurred, the error is returned in LinuxError. } Begin fork:=Do_syscall(SysCall_nr_fork); LinuxError:=ErrNo; End; { function clone(func:TCloneFunc;sp:pointer;flags:longint;args:pointer):longint; {NOT IMPLEMENTED YET UNDER BSD} begin // perhaps it is better to implement the hack from solaris then this msg HALT; END; if (pointer(func)=nil) or (sp=nil) then begin LinuxError:=EsysEInval; exit(-1); end; asm { Insert the argument onto the new stack. } movl sp,%ecx subl $8,%ecx movl args,%eax movl %eax,4(%ecx) { Save the function pointer as the zeroth argument. It will be popped off in the child in the ebx frobbing below. } movl func,%eax movl %eax,0(%ecx) { Do the system call } pushl %ebx pushl %ebx // movl flags,%ebx movl $251,%eax int $0x80 popl %ebx popl %ebx test %eax,%eax jnz .Lclone_end { We're in the new thread } subl %ebp,%ebp { terminate the stack frame } call *%ebx { exit process } movl %eax,%ebx movl $1,%eax int $0x80 .Lclone_end: movl %eax,__RESULT end; end; } Procedure Execve(path:pathstr;args:ppchar;ep:ppchar); { Replaces the current program by the program specified in path, arguments in args are passed to Execve. environment specified in ep is passed on. } Begin path:=path+#0; do_syscall(syscall_nr_Execve,longint(@path[1]),longint(Args),longint(ep)); LinuxError:=ErrNo; End; Function Umask(Mask:Integer):integer; { Sets file creation mask to (Mask and 0777 (octal) ), and returns the previous value. } begin UMask:=Do_syscall(syscall_nr_umask,mask); LinuxError:=0; end; Procedure Nice(N:integer); { Set process priority. A positive N means a lower priority. A negative N decreases priority. Doesn't exist in BSD. Linux emu uses setpriority in a construct as below: } begin SetPriority(Prio_Process,0,N); end; Procedure Execve(path:pchar;args:ppchar;ep:ppchar); { Replaces the current program by the program specified in path, arguments in args are passed to Execve. environment specified in ep is passed on. } { Replaces the current program by the program specified in path, arguments in args are passed to Execve. environment specified in ep is passed on. } Begin do_syscall(syscall_nr_Execve,longint(path),longint(Args),longint(ep)); LinuxError:=ErrNo; End; Procedure ExitProcess(val:longint); begin do_syscall(Syscall_nr_exit,val); LinuxError:=ErrNo; end; Function WaitPid(Pid:longint;Status:pointer;Options:longint):Longint; { Waits until a child with PID Pid exits, or returns if it is exited already. Any resources used by the child are freed. The exit status is reported in the adress referred to by Status. It should be a longint. } begin WaitPID:=do_syscall(syscall_nr_WaitPID,PID,longint(Status),options,0); LinuxError:=ErrNo; end; Function GetPriority(Which,Who:longint):longint; { Get Priority of process, process group, or user. Which : selects what kind of priority is used. can be one of the following predefined Constants : Prio_User. Prio_PGrp. Prio_Process. Who : depending on which, this is , respectively : Uid Pid Process Group id Errors are reported in linuxerror _only_. (priority can be negative) } begin errno:=0; if (whichprio_user) then begin { We can save an interrupt here } getpriority:=0; linuxerror:=ESysEinval; end else begin GetPriority:=do_syscall(syscall_nr_GetPriority,which,who); LinuxError:=ErrNo; end; end; Procedure SetPriority(Which,Who,What:longint); { Set Priority of process, process group, or user. Which : selects what kind of priority is used. can be one of the following predefined Constants : Prio_User. Prio_PGrp. Prio_Process. Who : depending on value of which, this is, respectively : Uid Pid Process Group id what : A number between -20 and 20. -20 is most favorable, 20 least. 0 is the default. } begin errno:=0; if ((whichprio_user)) or ((what<-20) or (what>20)) then linuxerror:=ESyseinval { We can save an interrupt here } else begin do_syscall(Syscall_nr_Setpriority,which,who,what); LinuxError:=ErrNo; end; end; Function GetPid:LongInt; { Get Process ID. } begin GetPID:=do_syscall(Syscall_nr_GetPID); LinuxError:=errno; end; Function GetPPid:LongInt; { Get Process ID of parent process. } begin GetPPid:=do_syscall(Syscall_nr_GetPPid); LinuxError:=errno; end; Function GetUid:Longint; { Get User ID. } begin GetUID:=do_syscall(Syscall_nr_GetUID); LinuxError:=ErrNo; end; Function GetEUid:Longint; { Get _effective_ User ID. } begin GetEUID:=do_syscall(Syscall_nr_GetEUID); LinuxError:=ErrNo; end; Function GetGid:Longint; { Get Group ID. } begin GetGID:=do_syscall(Syscall_nr_getgid); LinuxError:=ErrNo; end; Function GetEGid:Longint; { Get _effective_ Group ID. } begin GetEGID:=do_syscall(syscall_nr_getegid); LinuxError:=ErrNo; end; Procedure GetTimeOfDay(var tv:timeval); { Get the number of seconds since 00:00, January 1 1970, GMT the time NOT corrected any way } var tz : timezone; begin do_syscall(syscall_nr_gettimeofday,longint(@tv),longint(@tz)); LinuxError:=Errno; end; Function GetTimeOfDay: longint; { Get the number of seconds since 00:00, January 1 1970, GMT the time NOT corrected any way } begin GetTimeOfDay:=Sys_time; LinuxError:=Errno; end; Function fdTruncate(fd,size:longint):boolean; begin fdtruncate:=do_syscall(syscall_nr_ftruncate,fd,size,0)=0; LinuxError:=Errno; end; Function fdFlush (fd : Longint) : Boolean; begin fdflush:=do_syscall(syscall_nr_fsync,fd)=0; LinuxError:=Errno; end; {$ifndef newreaddir} function sys_fcntl(Fd:longint;Cmd:longint;Arg:Longint):longint; begin sys_fcntl:=do_syscall(syscall_nr_fcntl,fd,cmd,arg); LinuxError:=Errno; end; {$endif} Function Chmod(path:pathstr;Newmode:longint):Boolean; { Changes the permissions of a file. } begin path:=path+#0; chmod:=do_syscall(syscall_nr_chmod,longint(@path[1]),newmode)=0; LinuxError:=Errno; end; Function Chown(path:pathstr;NewUid,NewGid:longint):boolean; { Change the owner and group of a file. A user can only change the group to a group of which he is a member. The super-user can change uid and gid of any file. } begin path:=path+#0; ChOwn:=do_syscall(syscall_nr_chown,longint(@path[1]),newuid,newgid)=0; LinuxError:=Errno; end; Function Utime(path:pathstr;utim:utimebuf):boolean; begin UTime:=do_syscall(syscall_nr_utimes,longint(@path[1]),longint(@utim))=0; LinuxError:=Errno; end; Function Flock (fd,mode : longint) : boolean; begin Flock:=do_syscall(syscall_nr_flock,fd,mode)=0; LinuxError:=Errno; end; Function Lstat(Filename: PathStr;var Info:stat):Boolean; { Get all information on a link (the link itself), and return it in info. } begin FileName:=FileName+#0; LStat:=do_syscall(syscall_nr_lstat,longint(@filename[1]),longint(@info))=0; LinuxError:=Errno; end; Function Fstat(Fd:Longint;var Info:stat):Boolean; { Get all information on a file descriptor, and return it in info. } begin FStat:=do_syscall(syscall_nr_fstat,fd,longint(@info))=0; LinuxError:=Errno; end; Function StatFS(Path:Pathstr;Var Info:Tstatfs):Boolean; { Get all information on a fileSystem, and return it in Info. Path is the name of a file/directory on the fileSystem you wish to investigate. } begin path:=path+#0; StatFS:=Do_Syscall(syscall_nr_statfs,longint(@path[1]),longint(@info))=0; LinuxError:=Errno; end; Function StatFS(Fd:Longint;Var Info:tstatfs):Boolean; { Get all information on a fileSystem, and return it in Info. Fd is the file descriptor of a file/directory on the fileSystem you wish to investigate. } begin StatFS:=do_syscall(syscall_nr_fstatfs,fd,longint(@info))=0; LinuxError:=Errno; end; Function Link(OldPath,NewPath:pathstr):boolean; { Proceduces a hard link from new to old. In effect, new will be the same file as old. } begin oldpath:=oldpath+#0; newpath:=newpath+#0; Link:=Do_Syscall(syscall_nr_link,longint(@oldpath[1]),longint(@newpath[1]))=0; LinuxError:=Errno; end; { Function SymLink(OldPath,newPath:pathstr):boolean; { Proceduces a soft link from new to old. } begin oldpath:=oldpath+#0; newpath:=newpath+#0; SymLink:=Do_Syscall(syscall_nr_symlink,longint(@oldpath[1]),longint(@newpath[1]))=0; LinuxError:=Errno; end; } Function Access(Path:Pathstr ;mode:longint):boolean; { Test users access rights on the specified file. Mode is a mask xosisting of one or more of R_OK, W_OK, X_OK, F_OK. R,W,X stand for read,write and Execute access, simultaneously. F_OK checks whether the test would be allowed on the file. i.e. It checks the search permissions in all directory components of the path. The test is done with the real user-ID, instead of the effective. If access is denied, or an error occurred, false is returned. If access is granted, true is returned. Errors other than no access,are reported in linuxerror. } begin path:=path+#0; Access:=do_syscall(syscall_nr_access,mode,longint(@path[1]))=0; LinuxError:=Errno; end; Function Dup(oldfile:longint;var newfile:longint):Boolean; { Copies the filedescriptor oldfile to newfile } begin newfile:=Do_syscall(syscall_nr_dup,oldfile); LinuxError:=Errno; Dup:=(LinuxError=0); end; Function Dup2(oldfile,newfile:longint):Boolean; { Copies the filedescriptor oldfile to newfile } begin do_syscall(syscall_nr_dup2,oldfile,newfile); LinuxError:=Errno; Dup2:=(LinuxError=0); end; Function Select(N:longint;readfds,writefds,exceptfds:PFDSet;TimeOut:PTimeVal):longint; { Select checks whether the file descriptor sets in readfs/writefs/exceptfs have changed. } begin Select:=do_syscall(syscall_nr_select,n,longint(readfds),longint(writefds),longint(exceptfds),longint(timeout)); LinuxError:=Errno; end; Function AssignPipe(var pipe_in,pipe_out:longint):boolean; { 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, linuxerror is set. } var pip : tpipe; begin do_syscall(syscall_nr_pipe,longint(@pip)); LinuxError:=Errno; pipe_in:=pip[1]; pipe_out:=pip[2]; AssignPipe:=(LinuxError=0); end; Function PClose(Var F:text) :longint; var pl : ^longint; res : longint; begin do_syscall(syscall_nr_close,Textrec(F).Handle); { closed our side, Now wait for the other - this appears to be needed ?? } pl:=@(textrec(f).userdata[2]); waitpid(pl^,@res,0); pclose:=res shr 8; end; Function PClose(Var F:file) : longint; var pl : ^longint; res : longint; begin do_syscall(syscall_nr_close,filerec(F).Handle); { closed our side, Now wait for the other - this appears to be needed ?? } pl:=@(filerec(f).userdata[2]); waitpid(pl^,@res,0); pclose:=res shr 8; end; Function mkFifo(pathname:string;mode:longint):boolean; begin pathname:=pathname+#0; mkfifo:=do_syscall(syscall_nr_mknod,longint(@pathname[1]),mode or STAT_IFIFO,0)=0; LinuxError:=Errno; end; Function Kill(Pid:longint;Sig:longint):integer; { Send signal 'sig' to a process, or a group of processes. If Pid > 0 then the signal is sent to pid pid=-1 to all processes except process 1 pid < -1 to process group -pid Return value is zero, except for case three, where the return value is the number of processes to which the signal was sent. } begin kill:=do_syscall(syscall_nr_kill,pid,sig); if kill<0 THEN Kill:=0; LinuxError:=Errno; end; Procedure SigProcMask(How:longint;SSet,OldSSet:PSigSet); { Change the list of currently blocked signals. How determines which signals will be blocked : SigBlock : Add SSet to the current list of blocked signals SigUnBlock : Remove the signals in SSet from the list of blocked signals. SigSetMask : Set the list of blocked signals to SSet if OldSSet is non-null, the old set will be saved there. } begin do_syscall(syscall_nr_sigprocmask,longint(how),longint(sset),longint(oldsset)); LinuxError:=Errno; end; Function SigPending:SigSet; { Allows examination of pending signals. The signal mask of pending signals is set in SSet } Var dummy : Sigset; begin do_syscall(syscall_nr_sigpending,longint(@dummy)); LinuxError:=Errno; sigpending:=dummy; end; Procedure SigSuspend(Mask:Sigset); { Set the signal mask with Mask, and suspend the program until a signal is received. } begin do_syscall(syscall_nr_sigsuspend,longint(@mask)); LinuxError:=Errno; end; Function NanoSleep(const req : timespec;var rem : timespec) : longint; begin NanoSleep:=Do_SysCall(syscall_nr_nanosleep,longint(@req),longint(@rem)); LinuxError:=Errno; end; Function IOCtl(Handle,Ndx: Longint;Data: Pointer):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. } begin IOCtl:=Do_Syscall(syscall_nr_ioctl,handle,ndx,longint(data))=0; LinuxError:=Errno; end; function MMap(const m:tmmapargs):longint; begin {Last argument (offset) is actually 64-bit under BSD. Therefore extra 0} MMap:=do_syscall(syscall_nr_mmap,m.address,m.size,m.prot,m.flags,m.fd,m.offset,0); LinuxError:=Errno; end; function MUnMap (P : Pointer; Size : Longint) : Boolean; begin MUnMap:=do_syscall(syscall_nr_munmap,longint(P),Size)=0; LinuxError:=Errno; end; function signal(signum:longint;Handler:signalhandler):signalhandler; var sa,osa : sigactionrec; begin sa.sa_handler:=handler; FillChar(sa.sa_mask,sizeof(sigset),#0); sa.sa_flags := 0; { if (sigintr and signum) =0 then {restart behaviour needs libc} sa.sa_flags :=sa.sa_flags or SA_RESTART; } sigaction(signum,@sa,@osa); if ErrNo<>0 then signal:=NIL else signal:=osa.sa_handler; LinuxError:=Errno; end; function Clone(func:TCloneFunc;sp:pointer;flags:longint;args:pointer):longint; assembler; asm pushl %esi movl 12(%ebp), %esi // get stack addr subl $4, %esi movl 20(%ebp), %eax // get __arg movl %eax, (%esi) subl $4, %esi movl 8(%ebp), %eax // get __fn movl %eax, (%esi) pushl 16(%ebp) pushl %esi mov syscall_nr_rfork, %eax int $0x80 // call actualsyscall jb .L2 test %edx, %edx jz .L1 movl %esi,%esp popl %eax call %eax addl $8, %esp call halt // Does not return .L2: mov %eax,ErrNo mov $-1,%eax jmp .L1 // jmp PIC_PLT(HIDENAME(cerror)) .L1: addl $8, %esp popl %esi end; {$packrecords C} TYPE uint=CARDINAL; CONST I386_GET_LDT =0; I386_SET_LDT =1; { I386_IOPL } I386_GET_IOPERM =3; I386_SET_IOPERM =4; { xxxxx } I386_VM86 =6; { type i386_ldt_args = record int start : longint; union descriptor *descs; int num; end; } type i386_ioperm_args = record start : uint; length : uint; enable : longint; end; i386_vm86_args = record sub_op : longint; { sub-operation to perform } sub_args : pchar; { args } end; sysarch_args = record op : longint; parms : pchar; end; { int i386_get_ldt __P((int, union descriptor *, int)); int i386_set_ldt __P((int, union descriptor *, int)); int i386_get_ioperm __P((unsigned int, unsigned int *, int *)); int i386_set_ioperm __P((unsigned int, unsigned int, int)); int i386_vm86 __P((int, void *)); int i386_set_watch __P((int watchnum, unsigned int watchaddr, int size, int access, struct dbreg * d)); int i386_clr_watch __P((int watchnum, struct dbreg * d)); } Function IOPerm(From,Num:CARDINAL;Value:Longint):boolean; var sg : i386_ioperm_args; sa : sysarch_args; begin sg.start:=From; sg.length:=Num; sg.enable:=value; sa.op:=i386_SET_IOPERM; sa.parms:=@sg; IOPerm:=do_syscall(syscall_nr_sysarch,longint(@sa))=0; LinuxError:=ErrNo; end; Function SetITimer(Which : Longint;Const value : ItimerVal; VarOValue:ItimerVal):Longint; Begin SetItimer:=Do_Syscall(syscall_nr_setitimer,Which,Longint(@Value),longint(@value)); LinuxError:=ErrNo; End; Function GetITimer(Which : Longint;Var value : ItimerVal):Longint; Begin GetItimer:=Do_Syscall(syscall_nr_getItimer,Which,Longint(@value)); LinuxError:=ErrNo; End; Function Alarm(Sec: Longint):Longint; Var it,oitv : Itimerval; Begin // register struct itimerval *itp = ⁢ it.it_interval.sec:=0; it.it_interval.usec:=0; it.it_value.sec:=sec; it.it_value.usec:=0; If SetITimer(ITIMER_REAL,it,oitv)<0 Then Exit(-1); if oitv.it_value.usec<>0 Then Inc(oitv.it_value.sec); Alarm:=oitv.it_value.sec; End; { $Log$ Revision 1.7 2003-01-05 19:02:29 marco * Should now work with baseunx. (gmake all works) Revision 1.6 2002/10/18 12:19:59 marco * Fixes to get the generic *BSD RTL compiling again + fixes for thread support. Still problems left in fexpand. (inoutres?) Therefore fixed sysposix not yet commited Revision 1.5 2002/09/07 16:01:18 peter * old logs removed and tabs fixed Revision 1.4 2002/05/06 09:35:09 marco * Some stuff from 1.0.x ported }