NAME
rfork —
manipulate process resources
LIBRARY
library “libc”
SYNOPSIS
#include
<unistd.h>
int
rfork(int
flags);
DESCRIPTION
Forking, vforking or rforking are the only ways new processes are created. The flags argument torfork()
selects which resources of the invoking process (parent) are shared by the new
process (child) or initialized to their default values. The resources include
the open file descriptor table (which, when shared, permits processes to open
and close files for other processes), and open files.
Flags is the logical OR of some subset of:
RFPROC- If set a new process is created; otherwise changes affect the current process. The current implementation requires this flag to always be set.
RFNOWAIT- If set, the child process will be dissociated from the parent. Upon exit the child will not leave a status for the parent to collect. See wait(2).
RFFDG- If set, the invoker's file descriptor table (see intro(2)) is copied; otherwise the two processes share a single table.
RFCFDG- If set, the new process starts with a clean file descriptor table. Is
mutually exclusive with
RFFDG. RFMEM- If set, the kernel will force sharing of the entire address space,
typically by sharing the hardware page table directly. The child will thus
inherit and share all the segments the parent process owns, whether they
are normally shareable or not. The stack segment is not split (both the
parent and child return on the same stack) and thus
rfork() with theRFMEMflag may not generally be called directly from high level languages including C. May be set only withRFPROC. A helper function is provided to assist with this problem and will cause the new process to run on the provided stack. Seerfork_thread(3) for information. RFSIGSHARE- If set, the kernel will force sharing the sigacts structure between the child and the parent.
RFLINUXTHPN- If set, the kernel will return
SIGUSR1instead of SIGCHILD upon thread exit for the child. This is intended to mimic certain Linux clone behaviour.
File descriptors in a shared file descriptor table are kept open until either they are explicitly closed or all processes sharing the table exit.
If RFPROC is set, the value
returned in the parent process is the process id of the child process; the
value returned in the child is zero. Without RFPROC,
the return value is zero. Process id's range from 1 to the maximum integer
(int) value.
Rfork() will
sleep, if necessary, until required process resources are available.
Fork()
can be implemented as a call to
rfork(RFFDG | RFPROC) but
isn't for backwards compatibility.
RETURN VALUES
Upon successful completion, rfork()
returns a value of 0 to the child process and returns the process ID of the
child process to the parent process. Otherwise, a value of -1 is returned to
the parent process, no child process is created, and the global variable
errno is set to indicate the error.
ERRORS
Rfork() will fail and no child process
will be created if:
- [
EAGAIN] - The system-imposed limit on the total number of processes under execution
would be exceeded. The limit is given by the
sysctl(3) MIB variable
KERN_MAXPROC. (The limit is actually ten less than this except for the super user). - [
EAGAIN] - The user is not the super user, and the system-imposed limit on the total
number of processes under execution by a single user would be exceeded.
The limit is given by the
sysctl(3) MIB variable
KERN_MAXPROCPERUID. - [
EAGAIN] - The user is not the super user, and the soft resource limit corresponding
to the resource parameter
RLIMIT_NOFILEwould be exceeded (see getrlimit(2)). - [
EINVAL] - The
RFPROCflag was not specified. - [
EINVAL] - Both the
RFFDGand theRFCFDGflags were specified. - [
ENOMEM] - There is insufficient swap space for the new process.
SEE ALSO
fork(2), intro(2), lwp_create(2), minherit(2), vfork(2), rfork_thread(3)
HISTORY
The rfork() function call first appeared
in Plan 9.