org.freedesktop.machine1
systemd
org.freedesktop.machine1
5
org.freedesktop.machine1
The D-Bus interface of systemd-machined
Introduction
systemd-machined.service8
is a system service that keeps track of locally running virtual machines and containers.
This page describes the D-Bus interface.
The Manager Object
The service exposes the following interfaces on the Manager object on the bus:
node /org/freedesktop/machine1 {
interface org.freedesktop.machine1.Manager {
methods:
GetMachine(in s name,
out o machine);
GetImage(in s name,
out o image);
GetMachineByPID(in u pid,
out o machine);
ListMachines(out a(ssso) machines);
ListImages(out a(ssbttto) images);
CreateMachine(in s name,
in ay id,
in s service,
in s class,
in u leader,
in s root_directory,
in a(sv) scope_properties,
out o path);
CreateMachineWithNetwork(in s name,
in ay id,
in s service,
in s class,
in u leader,
in s root_directory,
in ai ifindices,
in a(sv) scope_properties,
out o path);
RegisterMachine(in s name,
in ay id,
in s service,
in s class,
in u leader,
in s root_directory,
out o path);
RegisterMachineWithNetwork(in s name,
in ay id,
in s service,
in s class,
in u leader,
in s root_directory,
in ai ifindices,
out o path);
UnregisterMachine(in s name);
TerminateMachine(in s id);
KillMachine(in s name,
in s who,
in i signal);
GetMachineAddresses(in s name,
out a(iay) addresses);
GetMachineOSRelease(in s name,
out a{ss} fields);
OpenMachinePTY(in s name,
out h pty,
out s pty_path);
OpenMachineLogin(in s name,
out h pty,
out s pty_path);
OpenMachineShell(in s name,
in s user,
in s path,
in as args,
in as environment,
out h pty,
out s pty_path);
BindMountMachine(in s name,
in s source,
in s destination,
in b read_only,
in b mkdir);
CopyFromMachine(in s name,
in s source,
in s destination);
CopyToMachine(in s name,
in s source,
in s destination);
OpenMachineRootDirectory(in s name,
out h fd);
GetMachineUIDShift(in s name,
out u shift);
RemoveImage(in s name);
RenameImage(in s name,
in s new_name);
CloneImage(in s name,
in s new_name,
in b read_only);
MarkImageReadOnly(in s name,
in b read_only);
GetImageHostname(in s name,
out s hostname);
GetImageMachineID(in s name,
out ay id);
GetImageMachineInfo(in s name,
out a{ss} machine_info);
GetImageOSRelease(in s name,
out a{ss} os_release);
SetPoolLimit(in t size);
SetImageLimit(in s name,
in t size);
CleanPool(in s mode,
out a(st) images);
MapFromMachineUser(in s name,
in u uid_inner,
out u uid_outer);
MapToMachineUser(in u uid_outer,
out s machine_name,
out o machine_path,
out u uid_inner);
MapFromMachineGroup(in s name,
in u gid_inner,
out u gid_outer);
MapToMachineGroup(in u gid_outer,
out s machine_name,
out o machine_path,
out u gid_inner);
signals:
MachineNew(s machine,
o path);
MachineRemoved(s machine,
o path);
properties:
@org.freedesktop.DBus.Property.EmitsChangedSignal("false")
readonly s PoolPath = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("false")
readonly t PoolUsage = ...;
@org.freedesktop.DBus.Property.EmitsChangedSignal("false")
readonly t PoolLimit = ...;
};
interface org.freedesktop.DBus.Peer { ... };
interface org.freedesktop.DBus.Introspectable { ... };
interface org.freedesktop.DBus.Properties { ... };
};
Methods
GetMachine() may be used to get the machine object path for the machine with
the specified name. Similarly, GetMachineByPID() gets the machine object the
specified PID belongs to if there is any.
GetImage() may be used to get the image object path of the image with the
specified name.
ListMachines() returns an array of all currently registered machines. The
structures in the array consist of the following fields: machine name, machine class, an identifier for
the service that registered the machine and the machine object path.
ListImages() returns an array of all currently known images. The
structures in the array consist of the following fields: image name, type, read-only flag, creation
time, modification time, current disk space, and image object path.
CreateMachine() may be used to register a new virtual machine or container
with systemd-machined, creating a scope unit for it. It accepts the following arguments: a
machine name chosen by the registrar, an optional UUID as a 32 byte array, a string that identifies the
service that registers the machine, a class string, the PID of the leader process of the machine, an
optional root directory of the container, and an array of additional properties to use for the scope
registration. The virtual machine name must be suitable as a hostname, and hence should follow the usual
DNS hostname rules, as well as the Linux hostname restrictions. Specifically, only 7 bit ASCII is
permitted, a maximum length of 64 characters is enforced, only characters from the set
a-zA-Z0-9-_. are allowed, the name may not begin with a dot, and it may not contain
two dots immediately following each other. Container and VM managers should ideally use the hostname
used internally in the machine for this parameter. This recommendation is made in order to make the
machine name naturally resolvable using
nss-mymachines8. If
a container manager needs to embed characters outside of the indicated range, escaping is required,
possibly using _ as the escape character. Another (somewhat natural) option would be
to utilize Internet IDNA encoding. The UUID is passed as a 32 byte array or, if no suitable UUID is
available, an empty array (zero length) or zeroed out array shall be passed. The UUID should identify
the virtual machine/container uniquely and should ideally be the same UUID that
/etc/machine-id in the VM/container is initialized from. The service string can be
free-form, but it is recommended to pass a short lowercase identifier like
systemd-nspawn, libvirt-lxc or similar. The class string should
be either container or vm indicating whether the machine to
register is of the respective class. The leader PID should be the host PID of the init process of the
container or the encapsulating process of the VM. If the root directory of the container is known and
available in the host's hierarchy, it should be passed. Otherwise, pass the empty string instead. Finally, the
scope properties are passed as array in the same way as to PID1's
StartTransientUnit() method. Calling this method will internally register a transient scope
unit for the calling client (utilizing the passed scope_properties) and move the leader PID into
it. The method returns an object path for the registered machine object that implements the
org.freedesktop.machine1.Machine interface (see below). Also see the
New Control Group
Interfaces for details about scope units and how to alter resource control settings on the
created machine at runtime.
RegisterMachine() is similar to CreateMachine().
However, it only registers a machine and does not create a scope unit for it. Instead, the caller's unit is
registered. We recommend to only use this method for container or VM managers that are run
multiple times, one instance for each container/VM they manage, and are invoked as system
services.
CreateMachineWithNetwork() and
RegisterMachineWithNetwork() are similar to CreateMachine()
and RegisterMachine() but take an extra argument: an array of network interface
indices that point towards the virtual machine or container. The interface indices should reference one
or more network interfaces on the host that can be used to communicate with the guest. Commonly, the
passed interface index refers to the host side of a "veth" link (in case of containers), a
"tun"/"tap" link (in case of VMs), or the host side of a bridge interface that bridges access to the
VM/container interfaces. Specifying this information is useful to enable support for link-local IPv6
communication to the machines since the scope field of sockaddr_in6 can be initialized by the
specified ifindex.
nss-mymachines8
makes use of this information.
KillMachine() sends a UNIX signal to the machine's processes. As its arguments, it takes a
machine name (as originally passed to CreateMachine() or returned by
ListMachines()), an identifier that specifies what precisely to send the signal to (either
leader or all), and a numeric UNIX signal integer.
TerminateMachine() terminates a virtual machine, killing its processes. It
takes a machine name as its only argument.
GetMachineAddresses() retrieves the IP addresses of a container. This method
returns an array of pairs consisting of an address family specifier (AF_INET or
AF_INET6) and a byte array containing the addresses. This is only supported for
containers that make use of network namespacing.
GetMachineOSRelease() retrieves the OS release information of a
container. This method returns an array of key value pairs read from the
os-release5 file in
the container and is useful to identify the operating system used in a container.
OpenMachinePTY() allocates a pseudo TTY in the container and returns a file
descriptor and its path. This is equivalent to transitioning into the container and invoking
posix_openpt3.
OpenMachineLogin() allocates a pseudo TTY in the container and ensures that
a getty login prompt of the container is running on the other end. It returns the file descriptor of
the PTY and the PTY path. This is useful for acquiring a pty with a login prompt from the
container.
OpenMachineShell() allocates a pseudo TTY in the container, as the specified
user, and invokes the executable at the specified path with a list of arguments (starting from
argv[0]) and an environment block. It then returns the file descriptor of the PTY and the PTY
path.
BindMountMachine() bind mounts a file or directory from the host into the
container. Its arguments consist of a machine name, the source directory on the host, the destination directory in the
container, and two booleans, one indicating whether the bind mount shall be
read-only, the other indicating whether the destination mount point shall be created first, if it is
missing.
CopyFromMachine() copies files or directories from a container into the
host. It takes a container name, a source directory in the container and a destination directory on the
host as arguments. CopyToMachine() does the opposite and copies files from a source
directory on the host into a destination directory in the container.
RemoveImage() removes the image with the specified name.
RenameImage() renames the specified image.
CloneImage() clones the specified image under a new name. It also takes a
boolean argument indicating whether the resulting image shall be read-only or not.
MarkImageReadOnly() toggles the read-only flag of an image.
SetPoolLimit() sets an overall quota limit on the pool of images.
SetImageLimit() sets a per-image quota limit.
MapFromMachineUser(), MapToMachineUser(),
MapFromMachineGroup(), and MapToMachineGroup() may be used to map
UIDs/GIDs from the host user namespace to a container user namespace or vice versa.
Signals
MachineNew and MachineRemoved are sent whenever a new
machine is registered or removed. These signals carry the machine name and the object path to the corresponding
org.freedesktop.machine1.Machine interface (see below).
Properties
PoolPath specifies the file system path where images are written to.
PoolUsage specifies the current usage size of the image pool in bytes.
PoolLimit specifies the size limit of the image pool in bytes.
Machine Objects
node /org/freedesktop/machine1/machine/rawhide {
interface org.freedesktop.machine1.Machine {
methods:
Terminate();
Kill(in s who,
in i signal);
GetAddresses(out a(iay) addresses);
GetOSRelease(out a{ss} fields);
GetUIDShift(out u shift);
OpenPTY(out h pty,
out s pty_path);
OpenLogin(out h pty,
out s pty_path);
OpenShell(in s user,
in s path,
in as args,
in as environment,
out h pty,
out s pty_path);
BindMount(in s source,
in s destination,
in b read_only,
in b mkdir);
CopyFrom(in s source,
in s destination);
CopyTo(in s source,
in s destination);
OpenRootDirectory(out h fd);
properties:
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly s Name = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly ay Id = [...];
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly t Timestamp = ...;
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly t TimestampMonotonic = ...;
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly s Service = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly s Unit = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly u Leader = ...;
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly s Class = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly s RootDirectory = '...';
@org.freedesktop.DBus.Property.EmitsChangedSignal("const")
readonly ai NetworkInterfaces = [...];
@org.freedesktop.DBus.Property.EmitsChangedSignal("false")
readonly s State = '...';
};
interface org.freedesktop.DBus.Peer { ... };
interface org.freedesktop.DBus.Introspectable { ... };
interface org.freedesktop.DBus.Properties { ... };
};
Methods
Terminate() and Kill() terminate/kill the machine. These methods
take the same arguments as TerminateMachine() and
KillMachine() on the Manager interface, respectively.
GetAddresses() and GetOSRelease() get the IP address and OS
release information from the machine. These methods take the same arguments as
GetMachineAddresses() and GetMachineOSRelease() of the
Manager interface, respectively.
Properties
Name is the machine name as it was passed in during registration with
CreateMachine() on the manager object.
Id is the machine UUID.
Timestamp and TimestampMonotonic are the realtime and
monotonic timestamps when the virtual machines where created in microseconds since the epoch.
Service contains a short string identifying the registering service as passed
in during registration of the machine.
Unit is the systemd scope or service unit name for the machine.
Leader is the PID of the leader process of the machine.
Class is the class of the machine and is either the string "vm" (for real VMs
based on virtualized hardware) or "container" (for light-weight userspace virtualization sharing the
same kernel as the host).
RootDirectory is the root directory of the container if it is known and
applicable or the empty string.
NetworkInterfaces contains an array of network interface indices that point
towards the container, the VM or the host. For details about this information see the description of
CreateMachineWithNetwork() above.
State is the state of the machine and is one of opening,
running, or closing. Note that the state machine is not considered
part of the API and states might be removed or added without this being considered API breakage.
Examples
Introspect org.freedesktop.machine1.Manager on the bus
$ gdbus introspect --system \
--dest org.freedesktop.machine1 \
--object-path /org/freedesktop/machine1
Introspect org.freedesktop.machine1.Machine on the bus
$ gdbus introspect --system \
--dest org.freedesktop.machine1 \
--object-path /org/freedesktop/machine1/machine/rawhide
Versioning
These D-Bus interfaces follow
the usual interface versioning guidelines.