UNSHARE
Section: Linux Programmer's Manual (2)
Updated: 2021-03-22
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NAME
unshare - disassociate parts of the process execution context
SYNOPSIS
#define _GNU_SOURCE
#include <sched.h>
int unshare(int flags);
DESCRIPTION
unshare()
allows a process (or thread) to disassociate parts of its execution
context that are currently being shared with other processes (or threads).
Part of the execution context, such as the mount namespace, is shared
implicitly when a new process is created using
fork(2)
or
vfork(2),
while other parts, such as virtual memory, may be
shared by explicit request when creating a process or thread using
clone(2).
The main use of
unshare()
is to allow a process to control its
shared execution context without creating a new process.
The
flags
argument is a bit mask that specifies which parts of
the execution context should be unshared.
This argument is specified by ORing together zero or more
of the following constants:
- CLONE_FILES
-
Reverse the effect of the
clone(2)
CLONE_FILES
flag.
Unshare the file descriptor table, so that the calling process
no longer shares its file descriptors with any other process.
- CLONE_FS
-
Reverse the effect of the
clone(2)
CLONE_FS
flag.
Unshare filesystem attributes, so that the calling process
no longer shares its root directory
(chroot(2)),
current directory
(chdir(2)),
or umask
(umask(2))
attributes with any other process.
- CLONE_NEWCGROUP (since Linux 4.6)
-
This flag has the same effect as the
clone(2)
CLONE_NEWCGROUP
flag.
Unshare the cgroup namespace.
Use of
CLONE_NEWCGROUP
requires the
CAP_SYS_ADMIN
capability.
- CLONE_NEWIPC (since Linux 2.6.19)
-
This flag has the same effect as the
clone(2)
CLONE_NEWIPC
flag.
Unshare the IPC namespace,
so that the calling process has a private copy of the
IPC namespace which is not shared with any other process.
Specifying this flag automatically implies
CLONE_SYSVSEM
as well.
Use of
CLONE_NEWIPC
requires the
CAP_SYS_ADMIN
capability.
- CLONE_NEWNET (since Linux 2.6.24)
-
This flag has the same effect as the
clone(2)
CLONE_NEWNET
flag.
Unshare the network namespace,
so that the calling process is moved into a
new network namespace which is not shared
with any previously existing process.
Use of
CLONE_NEWNET
requires the
CAP_SYS_ADMIN
capability.
- CLONE_NEWNS
-
This flag has the same effect as the
clone(2)
CLONE_NEWNS
flag.
Unshare the mount namespace,
so that the calling process has a private copy of
its namespace which is not shared with any other process.
Specifying this flag automatically implies
CLONE_FS
as well.
Use of
CLONE_NEWNS
requires the
CAP_SYS_ADMIN
capability.
For further information, see
mount_namespaces(7).
- CLONE_NEWPID (since Linux 3.8)
-
This flag has the same effect as the
clone(2)
CLONE_NEWPID
flag.
Unshare the PID namespace,
so that the calling process has a new PID namespace for its children
which is not shared with any previously existing process.
The calling process is
not
moved into the new namespace.
The first child created by the calling process will have
the process ID 1 and will assume the role of
init(1)
in the new namespace.
CLONE_NEWPID
automatically implies
CLONE_THREAD
as well.
Use of
CLONE_NEWPID
requires the
CAP_SYS_ADMIN
capability.
For further information, see
pid_namespaces(7).
- CLONE_NEWTIME (since Linux 5.6)
-
Unshare the time namespace,
so that the calling process has a new time namespace for its children
which is not shared with any previously existing process.
The calling process is
not
moved into the new namespace.
Use of
CLONE_NEWTIME
requires the
CAP_SYS_ADMIN
capability.
For further information, see
time_namespaces(7).
- CLONE_NEWUSER (since Linux 3.8)
-
This flag has the same effect as the
clone(2)
CLONE_NEWUSER
flag.
Unshare the user namespace,
so that the calling process is moved into a new user namespace
which is not shared with any previously existing process.
As with the child process created by
clone(2)
with the
CLONE_NEWUSER
flag, the caller obtains a full set of capabilities in the new namespace.
-
CLONE_NEWUSER
requires that the calling process is not threaded; specifying
CLONE_NEWUSER
automatically implies
CLONE_THREAD.
Since Linux 3.9,
CLONE_NEWUSER
also automatically implies
CLONE_FS.
CLONE_NEWUSER
requires that the user ID and group ID
of the calling process are mapped to user IDs and group IDs in the
user namespace of the calling process at the time of the call.
-
For further information on user namespaces, see
user_namespaces(7).
- CLONE_NEWUTS (since Linux 2.6.19)
-
This flag has the same effect as the
clone(2)
CLONE_NEWUTS
flag.
Unshare the UTS IPC namespace,
so that the calling process has a private copy of the
UTS namespace which is not shared with any other process.
Use of
CLONE_NEWUTS
requires the
CAP_SYS_ADMIN
capability.
- CLONE_SYSVSEM (since Linux 2.6.26)
-
This flag reverses the effect of the
clone(2)
CLONE_SYSVSEM
flag.
Unshare System V semaphore adjustment
(semadj)
values,
so that the calling process has a new empty
semadj
list that is not shared with any other process.
If this is the last process that has a reference to the process's current
semadj
list, then the adjustments in that list are applied
to the corresponding semaphores, as described in
semop(2).
In addition,
CLONE_THREAD,
CLONE_SIGHAND,
and
CLONE_VM
can be specified in
flags
if the caller is single threaded (i.e., it is not sharing
its address space with another process or thread).
In this case, these flags have no effect.
(Note also that specifying
CLONE_THREAD
automatically implies
CLONE_VM,
and specifying
CLONE_VM
automatically implies
CLONE_SIGHAND.)
If the process is multithreaded, then
the use of these flags results in an error.
If
flags
is specified as zero, then
unshare()
is a no-op;
no changes are made to the calling process's execution context.
RETURN VALUE
On success, zero returned.
On failure, -1 is returned and
errno
is set to indicate the error.
ERRORS
- EINVAL
-
An invalid bit was specified in
flags.
- EINVAL
-
CLONE_THREAD,
CLONE_SIGHAND,
or
CLONE_VM
was specified in
flags,
and the caller is multithreaded.
- EINVAL
-
CLONE_NEWIPC
was specified in
flags,
but the kernel was not configured with the
CONFIG_SYSVIPC
and
CONFIG_IPC_NS
options.
- EINVAL
-
CLONE_NEWNET
was specified in
flags,
but the kernel was not configured with the
CONFIG_NET_NS
option.
- EINVAL
-
CLONE_NEWPID
was specified in
flags,
but the kernel was not configured with the
CONFIG_PID_NS
option.
- EINVAL
-
CLONE_NEWUSER
was specified in
flags,
but the kernel was not configured with the
CONFIG_USER_NS
option.
- EINVAL
-
CLONE_NEWUTS
was specified in
flags,
but the kernel was not configured with the
CONFIG_UTS_NS
option.
- EINVAL
-
CLONE_NEWPID
was specified in
flags,
but the process has previously called
unshare()
with the
CLONE_NEWPID
flag.
- ENOMEM
-
Cannot allocate sufficient memory to copy parts of caller's
context that need to be unshared.
- ENOSPC (since Linux 3.7)
-
CLONE_NEWPID
was specified in flags,
but the limit on the nesting depth of PID namespaces
would have been exceeded; see
pid_namespaces(7).
- ENOSPC (since Linux 4.9; beforehand EUSERS)
-
CLONE_NEWUSER
was specified in
flags,
and the call would cause the limit on the number of
nested user namespaces to be exceeded.
See
user_namespaces(7).
-
From Linux 3.11 to Linux 4.8, the error diagnosed in this case was
EUSERS.
- ENOSPC (since Linux 4.9)
-
One of the values in
flags
specified the creation of a new user namespace,
but doing so would have caused the limit defined by the corresponding file in
/proc/sys/user
to be exceeded.
For further details, see
namespaces(7).
- EPERM
-
The calling process did not have the required privileges for this operation.
- EPERM
-
CLONE_NEWUSER
was specified in
flags,
but either the effective user ID or the effective group ID of the caller
does not have a mapping in the parent namespace (see
user_namespaces(7)).
- EPERM (since Linux 3.9)
-
CLONE_NEWUSER
was specified in
flags
and the caller is in a chroot environment
(i.e., the caller's root directory does not match the root directory
of the mount namespace in which it resides).
- EUSERS (from Linux 3.11 to Linux 4.8)
-
CLONE_NEWUSER
was specified in
flags,
and the limit on the number of nested user namespaces would be exceeded.
See the discussion of the
ENOSPC
error above.
VERSIONS
The
unshare()
system call was added to Linux in kernel 2.6.16.
CONFORMING TO
The
unshare()
system call is Linux-specific.
NOTES
Not all of the process attributes that can be shared when
a new process is created using
clone(2)
can be unshared using
unshare().
In particular, as at kernel 3.8,
unshare()
does not implement flags that reverse the effects of
CLONE_SIGHAND,
CLONE_THREAD,
or
CLONE_VM.
Such functionality may be added in the future, if required.
EXAMPLES
The program below provides a simple implementation of the
unshare(1)
command, which unshares one or more namespaces and executes the
command supplied in its command-line arguments.
Here's an example of the use of this program,
running a shell in a new mount namespace,
and verifying that the original shell and the
new shell are in separate mount namespaces:
$ readlink /proc/$$/ns/mnt
mnt:[4026531840]
$ sudo ./unshare -m /bin/bash
# readlink /proc/$$/ns/mnt
mnt:[4026532325]
The differing output of the two
readlink(1)
commands shows that the two shells are in different mount namespaces.
Program source
/* unshare.c
A simple implementation of the unshare(1) command: unshare
namespaces and execute a command.
*/
#define _GNU_SOURCE
#include <sched.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
/* A simple error-handling function: print an error message based
on the value in 'errno' and terminate the calling process. */
#define errExit(msg) do { perror(msg); exit(EXIT_FAILURE); \
} while (0)
static void
usage(char *pname)
{
fprintf(stderr, "Usage: %s [options] program [arg...]\n", pname);
fprintf(stderr, "Options can be:\n");
fprintf(stderr, " -C unshare cgroup namespace\n");
fprintf(stderr, " -i unshare IPC namespace\n");
fprintf(stderr, " -m unshare mount namespace\n");
fprintf(stderr, " -n unshare network namespace\n");
fprintf(stderr, " -p unshare PID namespace\n");
fprintf(stderr, " -t unshare time namespace\n");
fprintf(stderr, " -u unshare UTS namespace\n");
fprintf(stderr, " -U unshare user namespace\n");
exit(EXIT_FAILURE);
}
int
main(int argc, char *argv[])
{
int flags, opt;
flags = 0;
while ((opt = getopt(argc, argv, "CimnptuU")) != -1) {
switch (opt) {
case 'C': flags |= CLONE_NEWCGROUP; break;
case 'i': flags |= CLONE_NEWIPC; break;
case 'm': flags |= CLONE_NEWNS; break;
case 'n': flags |= CLONE_NEWNET; break;
case 'p': flags |= CLONE_NEWPID; break;
case 't': flags |= CLONE_NEWTIME; break;
case 'u': flags |= CLONE_NEWUTS; break;
case 'U': flags |= CLONE_NEWUSER; break;
default: usage(argv[0]);
}
}
if (optind >= argc)
usage(argv[0]);
if (unshare(flags) == -1)
errExit("unshare");
execvp(argv[optind], &argv[optind]);
errExit("execvp");
}
SEE ALSO
unshare(1),
clone(2),
fork(2),
kcmp(2),
setns(2),
vfork(2),
namespaces(7)
Documentation/userspace-api/unshare.rst
in the Linux kernel source tree
(or
Documentation/unshare.txt
before Linux 4.12)
COLOPHON
This page is part of release 5.11 of the Linux
man-pages
project.
A description of the project,
information about reporting bugs,
and the latest version of this page,
can be found at
https://www.kernel.org/doc/man-pages/.
Index
- NAME
-
- SYNOPSIS
-
- DESCRIPTION
-
- RETURN VALUE
-
- ERRORS
-
- VERSIONS
-
- CONFORMING TO
-
- NOTES
-
- EXAMPLES
-
- Program source
-
- SEE ALSO
-
- COLOPHON
-
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Time: 06:22:43 GMT, May 09, 2021