systemd-nspawnsystemdDeveloperLennartPoetteringlennart@poettering.netsystemd-nspawn1systemd-nspawnSpawn a namespace container for debugging, testing and buildingsystemd-nspawnOPTIONSCOMMANDARGSsystemd-nspawn-bOPTIONSARGSDescriptionsystemd-nspawn may be used to
run a command or OS in a light-weight namespace
container. In many ways it is similar to
chroot1,
but more powerful since it fully virtualizes the file
system hierarchy, as well as the process tree, the
various IPC subsystems and the host and domain
name.systemd-nspawn limits access
to various kernel interfaces in the container to
read-only, such as /sys,
/proc/sys or
/sys/fs/selinux. Network
interfaces and the system clock may not be changed
from within the container. Device nodes may not be
created. The host system cannot be rebooted and kernel
modules may not be loaded from within the
container.Note that even though these security precautions
are taken systemd-nspawn is not
suitable for secure container setups. Many of the
security features may be circumvented and are hence
primarily useful to avoid accidental changes to the
host system from the container. The intended use of
this program is debugging and testing as well as
building of packages, distributions and software
involved with boot and systems management.In contrast to
chroot1systemd-nspawn
may be used to boot full Linux-based operating systems
in a container.Use a tool like
yum8,
debootstrap8,
or
pacman8
to set up an OS directory tree suitable as file system
hierarchy for systemd-nspawn
containers.Note that systemd-nspawn will
mount file systems private to the container to
/dev,
/run and similar. These will
not be visible outside of the container, and their
contents will be lost when the container exits.Note that running two
systemd-nspawn containers from the
same directory tree will not make processes in them
see each other. The PID namespace separation of the
two containers is complete and the containers will
share very few runtime objects except for the
underlying file system. Use
machinectl1's
login command to request an
additional login prompt in a running container.systemd-nspawn implements the
Container
Interface specification.As a safety check
systemd-nspawn will verify the
existence of /etc/os-release in
the container tree before starting the container (see
os-release5). It
might be necessary to add this file to the container
tree manually if the OS of the container is too old to
contain this file out-of-the-box.OptionsIf option is specified, the
arguments are used as arguments for the init
binary. Otherwise, COMMAND
specifies the program to launch in the container, and
the remaining arguments are used as arguments for this
program. If is not used and no
arguments are specifed, a shell is launched in the
container.The following options are understood:Prints a short help
text and exits.Prints a version string
and exits.Turns off any status
output by the tool itself. When this
switch is used, the only output
from nspawn will be the console output
of the container OS itself.Directory to use as
file system root for the namespace
container. If omitted, the current
directory will be
used.Automatically search
for an init binary and invoke it
instead of a shell or a user supplied
program. If this option is used,
arguments specified on the command
line are used as arguments for the
init binary. This option may not be
combined with
.
Run the command
under specified user, create home
directory and cd into it. As rest
of systemd-nspawn, this is not
the security feature and limits
against accidental changes only.
Sets the machine name
for this container. This name may be
used to identify this container on the
host, and is used to initialize the
container's hostname (which the
container can choose to override,
however). If not specified, the last
component of the root directory of the
container is used.Set the specified UUID
for the container. The init system
will initialize
/etc/machine-id
from this if this file is not set yet.
Make the container
part of the specified slice, instead
of the default
machine.slice.Disconnect networking
of the container from the host. This
makes all network interfaces
unavailable in the container, with the
exception of the loopback device and
those specified with
and configured with
. If
this option is specified, the
CAP_NET_ADMIN capability will be added
to the set of capabilities the
container retains. The latter may be
disabled by using
.Assign the specified
network interface to the
container. This will move the
specified interface from the calling
namespace and place it in the
container. When the container
terminates, it is moved back to the
host namespace. Note that
implies
. This
option may be used more than once to
add multiple network interfaces to the
container.Create a virtual
Ethernet link between host and
container. The host side of the
Ethernet link will be available as a
network interface named after the
container's name (as specified with
), prefixed
with ve-. The
container side of the the Ethernet
link will be named
host0. Note that
implies
.Adds the host side of the
Ethernet link created with
to the specified bridge. Note that
implies
.Sets the SELinux
security context to be used to label
processes in the container.Sets the SELinux security
context to be used to label files in
the virtual API file systems in the
container.List one or more
additional capabilities to grant the
container. Takes a comma-separated
list of capability names, see
capabilities7
for more information. Note that the
following capabilities will be granted
in any way: CAP_CHOWN,
CAP_DAC_OVERRIDE, CAP_DAC_READ_SEARCH,
CAP_FOWNER, CAP_FSETID, CAP_IPC_OWNER,
CAP_KILL, CAP_LEASE,
CAP_LINUX_IMMUTABLE,
CAP_NET_BIND_SERVICE,
CAP_NET_BROADCAST, CAP_NET_RAW,
CAP_SETGID, CAP_SETFCAP, CAP_SETPCAP,
CAP_SETUID, CAP_SYS_ADMIN,
CAP_SYS_CHROOT, CAP_SYS_NICE,
CAP_SYS_PTRACE, CAP_SYS_TTY_CONFIG,
CAP_SYS_RESOURCE, CAP_SYS_BOOT,
CAP_AUDIT_WRITE,
CAP_AUDIT_CONTROL. Also CAP_NET_ADMIN
is retained if
is
specified. If the special value
all is passed, all
capabilities are
retained.Specify one or more
additional capabilities to drop for
the container. This allows running the
container with fewer capabilities than
the default (see above).Control whether the
container's journal shall be made
visible to the host system. If enabled,
allows viewing the container's journal
files from the host (but not vice
versa). Takes one of
no,
host,
guest,
auto. If
no, the journal is
not linked. If host,
the journal files are stored on the
host file system (beneath
/var/log/journal/machine-id)
and the subdirectory is bind-mounted
into the container at the same
location. If guest,
the journal files are stored on the
guest file system (beneath
/var/log/journal/machine-id)
and the subdirectory is symlinked into the host
at the same location. If
auto (the default),
and the right subdirectory of
/var/log/journal
exists, it will be bind mounted
into the container. If the
subdirectory does not exist, no
linking is performed. Effectively,
booting a container once with
guest or
host will link the
journal persistently if further on
the default of auto
is used.Equivalent to
.Mount the root file
system read-only for the
container.Bind mount a file or
directory from the host into the
container. Either takes a path
argument -- in which case the
specified path will be mounted from
the host to the same path in the
container --, or a colon-separated
pair of paths -- in which case the
first specified path is the source in
the host, and the second path is the
destination in the container. The
option
creates read-only bind
mount.Specifies an
environment variable assignment to
pass to the init process in the
container, in the format
NAME=VALUE. This
may be used to override the default
variables or to set additional
variables. This parameter may be used
more than once.Allows the container
to share certain system facilities
with the host. More specifically, this
turns off PID namespacing, UTS
namespacing and IPC namespacing, and
thus allows the guest to see and
interact more easily with processes
outside of the container. Note that
using this option makes it impossible
to start up a full Operating System in
the container, as an init system
cannot operate in this mode. It is
only useful to run specific programs
or applications this way, without
involving an init system in the
container. This option implies
. This
option may not be combined with
.Controls whether the
container is registered with
systemd-machined8. Takes
a boolean argument, defaults to
yes. This option
should be enabled when the container
runs a full Operating System (more
specifically: an init system), and is
useful to ensure that the container is
accessible via
machinectl1
and shown by tools such as
ps1. If
the container does not run an init
system, it is recommended to set this
option to no. Note
that
implies
.
Instead of creating a
transient scope unit to run the
container in, simply register the
service or scope unit
systemd-nspawn has
been invoked in with
systemd-machined8. This
has no effect if
is
used. This switch should be used if
systemd-nspawn is
invoked from within a service unit,
and the service unit's sole purpose
is to run a single
systemd-nspawn
container. This option is not
available if run from a user
session.Example 1# yum -y --releasever=19 --nogpg --installroot=/srv/mycontainer --disablerepo='*' --enablerepo=fedora install systemd passwd yum fedora-release vim-minimal
# systemd-nspawn -bD /srv/mycontainerThis installs a minimal Fedora distribution into
the directory /srv/mycontainer/ and
then boots an OS in a namespace container in
it.Example 2# debootstrap --arch=amd64 unstable ~/debian-tree/
# systemd-nspawn -D ~/debian-tree/This installs a minimal Debian unstable
distribution into the directory
~/debian-tree/ and then spawns a
shell in a namespace container in it.Example 3# pacstrap -c -d ~/arch-tree/ base
# systemd-nspawn -bD ~/arch-tree/This installs a mimimal Arch Linux distribution into
the directory ~/arch-tree/ and then
boots an OS in a namespace container in it.Example 4# mv ~/arch-tree /var/lib/container/arch
# systemctl enable systemd-nspawn@arch.service
# systemctl start systemd-nspawn@arch.serviceThis makes the Arch Linux container part of the
multi-user.target on the host.
Example 5# btrfs subvolume snapshot / /.tmp
# systemd-nspawn --private-network -D /.tmp -bThis runs a copy of the host system in a
btrfs snapshot.Example 6# chcon system_u:object_r:svirt_sandbox_file_t:s0:c0,c1 -R /srv/container
# systemd-nspawn -L system_u:object_r:svirt_sandbox_file_t:s0:c0,c1 -Z system_u:system_r:svirt_lxc_net_t:s0:c0,c1 -D /srv/container /bin/shThis runs a container with SELinux sandbox security contexts.Exit statusThe exit code of the program executed in the
container is returned.See Alsosystemd1,
chroot1,
yum8,
debootstrap8,
pacman8,
systemd.slice5,
machinectl1