NAME

nbdkit-service - running nbdkit as a service, and systemd socket activation

DESCRIPTION

Most people start nbdkit from the command line or run it from another program (see nbdkit-captive(1). It is also possible to run nbdkit as a standalone service, which is what this page describes.

SOCKET ACTIVATION

nbdkit supports socket activation (sometimes called systemd socket activation). This is a simple protocol where instead of nbdkit itself opening the listening socket(s), the parent process (typically systemd or libnbd) passes in pre-opened file descriptors.

One use for socket activation is to serve infrequent NBD requests using a superserver without needing nbdkit to be running the whole time. Another use is to run nbdkit from a controlling libnbd process.

Socket activation is triggered when both the LISTEN_FDS and LISTEN_PID environment variables are set. In this mode using -i, -p, --run, -s or -U flags on the command line will cause an error. Also in this mode nbdkit does not fork into the background (ie. -f is implied).

Using socket activation with systemd

To use nbdkit with socket activation from systemd, create a unit file ending in .socket (eg. /etc/systemd/system/nbdkit.socket) containing:

 [Unit]
 Description=NBDKit Network Block Device server

 [Socket]
 ListenStream=10809
 # Optional settings to detect dead clients:
 #KeepAlive=true
 #KeepAliveTimeSec=60
 #KeepAliveIntervalSec=10
 #KeepAliveProbes=5

 [Install]
 WantedBy=sockets.target

There are various formats for the ListenStream key. See systemd.socket(5) for more information.

Also create a service unit (eg. /etc/systemd/system/nbdkit.service) containing:

 [Service]
 ExecStart=/usr/sbin/nbdkit file /path/to/serve
 # Optional settings to run as non-root:
 #User=nbd
 #Group=nbd

For more information on systemd and socket activation, see http://0pointer.de/blog/projects/socket-activation.html

Using socket activation with libnbd

libnbd(3) nbd_connect_systemd_socket_activation(3) lets you run nbdkit from a program using libnbd. An example is:

 struct nbd_handle *nbd = nbd_create ();
 if (nbd == NULL) {
   fprintf (stderr, "%s\n", nbd_get_error ());
   exit (EXIT_FAILURE);
 }
 char *argv[] = {
   "nbdkit", "--exit-with-parent", "memory", "1G", NULL
 };
 if (nbd_connect_systemd_socket_activation (nbd,
                                            args) == -1) {
   fprintf (stderr, "%s\n", nbd_get_error ());
   exit (EXIT_FAILURE);
 }

INETD AND XINETD

You can run nbdkit from inetd(8) or xinetd(8). For inetd use:

 nbd stream tcp nowait root /usr/sbin/nbdkit nbdkit -s file /tmp/disk.img

For xinetd create a file /etc/xinetd.d/nbdkit containing:

 service nbd
 {
     socket_type = stream
     wait = no
     user = root
     server = /usr/sbin/nbdkit
     server_args = -s file /tmp/disk.img
 }

LOGGING

Error messages from nbdkit can be sent to standard error (--log=stderr), or to the system log (--log=syslog), or can be discarded completely (--log=null, not recommended for normal use).

The default, if --log is not specified on the command line, is to send error messages to stderr, unless nbdkit forks into the background in which case they are sent to syslog.

In detail:

Messages go to standard error (stderr):

When running from the command line in the foreground.

When using systemd socket activation.

Using --log=stderr forces all messages to go to standard error.

Messages go to the system log (syslog):

When running from the command line, forked into the background.

Using --log=syslog forces all messages to go to the system log.

Debug messages (-v/--verbose) always go to standard error and are never sent to the system log.

AF_VSOCK

On Linux nbdkit supports the AF_VSOCK address family / protocol. This allows you to serve NBD devices into virtual machines without using a regular network connection.

Note that this is different from the usual case where you present NBD as a virtual block device to a guest (which the guest sees as something like a SATA or virtio-scsi disk). With AF_VSOCK the virtual machine sees a raw NBD socket which it can connect to by opening an AF_VSOCK connection. For more about this protocol, see https://wiki.qemu.org/Features/VirtioVsock

AF_VSOCK example

To set up an AF_VSOCK server, use for example:

 nbdkit --vsock [--port PORT] memory 1G

The optional -p/--port argument is used to change the AF_VSOCK port number. These port numbers exist in a different namespace from TCP/IP port numbers. Also unlike TCP, the port numbers are 32 bit. The default port is 10809.

The guest that wishes to access nbdkit must be configured for virtio-vsock. On the qemu command line use:

 qemu ... -device vhost-vsock-pci,id=vhost-vsock-pci0

For libvirt add this element to the <devices> section:

 <vsock/>

If you see the error unable to open vhost-vsock device then you may have to unload the VMCI transport on the host:

 modprobe -r vmw_vsock_vmci_transport

Once nbdkit and the guest are running, from inside the guest you can connect to nbdkit on the host using libnbd:

 nbdsh -c 'h.connect_vsock(2, 10809)' -c 'print(h.get_size())'

ENVIRONMENT VARIABLES

LISTEN_FDS
LISTEN_PID

If present in the environment when nbdkit starts up, these trigger "SOCKET ACTIVATION".

SEE ALSO

nbdkit(1), nbdkit-client(1), nbdkit-exitlast-filter(1), nbdkit-exitwhen-filter(1), nbdkit-ip-filter(1), nbdkit-limit-filter(1), systemd(1), systemd.socket(5), inetd(8), xinetd(8), syslog(3), rsyslogd(8), journalctl(1), libnbd(3), nbd_connect_systemd_socket_activation(3), nbdsh(1).

AUTHORS

Eric Blake

Richard W.M. Jones

Pino Toscano

COPYRIGHT

Copyright Red Hat

LICENSE

Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:

THIS SOFTWARE IS PROVIDED BY RED HAT AND CONTRIBUTORS ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL RED HAT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.