Wireless Network Interface Daemon for Low-Power Wireless SoCs
wpantund
is a user-space network interface driver/daemon that
provides a native IPv6 network interface to a low-power wireless
Network Co-Processor (or NCP). It was written and developed by
Nest Labs to make supporting Thread
connectivity on Unix-like operating systems more straightforward.
wpantund
is designed to marshall all access to the NCP, ensuring
that it always remains in a consistent and well-defined state.
This is not an official Google product.
wpantund
provides:
wpanctl
) for managing and
configuring the NCP.The architecture and design of wpantund
has been motivated by the
following design goals (in no specific order):
wpantund
to gracefully co-exist on a
single machineNote that Windows is not currently supported, but patches are welcome.
The following NCP plugins are provided:
src/ncp-spinel
: Supports NCPs that communicate using the Spinel NCP
Protocol, used by NCPs running OpenThread
src/ncp-dummy
: A dummy NCP plug-in implementation meant to be the
starting point for implementing new NCP plug-inswpantund
is open-source software released under the Apache License,
Version 2.0. See the file LICENSE
for more information.
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
wpantund
is conceptually similar in purpose to the point-to-point
daemon (pppd
, commonly used on Unix platforms to provide network
connectivity via a dial-up modems) except that instead of communicating
with a dial-up modem, wpantund
is communicating with an NCP.
wpantund
communicates with the NCP via an abstraction of a
asynchronous stream socket, which could be any of the following:
Unlike a dial-up modem, NCPs often have a rich management interface
for performing operations, such as forming a network, joining a
network, scanning for nearby networks, etc. To perform these operations,
wpantund
includes a command line utility called wpanctl
.
Applications that need to directly configure the network interface can
also communicate directly with wpantund
using its DBus API.
To expose a native IPv6 network interface to the host operating
system, wpantund
uses the tun
driver on Linux. On Linux, the
default name for the interface is wpan0
.
The behavior of wpantund
is determined by its configuration
parameters, which may be specified in a configuration file (typically
/etc/wpantund.conf
) or at the command line. A typical configuration
file might look like that shown below. For a more thorough explanation
of available configuration parameters, see the included example.
# Try to name the network interface `wpan0`.
# If not possible, a different name will be used.
Config:TUN:InterfaceName "wpan0"
# The pathname of the socket used to communicate
# with the NCP.
Config:NCP:SocketPath "/dev/ttyUSB0"
# The name of the driver plugin to use. The chosen
# plugin must support the NCP you are trying to use.
Config:NCP:DriverName "spinel"
# Drop root privileges after opening all sockets
Config:Daemon:PrivDropToUser "nobody"
# Use a CCA Threshold of -70db
NCP:CCAThreshold "-70"
When up and running, you can use wpanctl
to check the status of the
interface and perform various management operations. For example, to
check the general status of an interface:
$ sudo wpanctl status
wpan0 => [
"NCP:State" => "offline"
"Daemon:Enabled" => true
"NCP:Version" => "OPENTHREAD/g1651a47; May 23 2016 17:23:24"
"Daemon:Version" => "0.07.00 (May 23 2016 12:58:54)"
"Config:NCP:DriverName" => "spinel"
"NCP:HardwareAddress" => [F1D92A82C8D8FE43]
]
Here we see that the NCP is in the offline
state along with a few
additional bits of information such as the version of the NCP and its
hardware address. From here we can easily form a new network:
$ sudo wpanctl form "wpantund-testnet"
Forming WPAN "wpantund-testnet" as node type router
Successfully formed!
$
Now if we check the status, we will see more information:
$ sudo wpanctl status
wpan0 => [
"NCP:State" => "associated"
"Daemon:Enabled" => true
"NCP:Version" => "OPENTHREAD/g1651a47; May 23 2016 17:23:24"
"Daemon:Version" => "0.07.00 (May 23 2016 12:58:54)"
"Config:NCP:DriverName" => "spinel"
"NCP:HardwareAddress" => [F1D92A82C8D8FE43]
"NCP:Channel" => 23
"Network:NodeType" => "leader"
"Network:Name" => "wpantund-testnet"
"Network:XPANID" => 0x09717AEF221F66FB
"Network:PANID" => 0xBFCD
"IPv6:LinkLocalAddress" => "fe80::f3d9:2a82:c8d8:fe43"
"IPv6:MeshLocalAddress" => "fd09:717a:ef22::9a5d:5d1e:5527:5fc8"
"IPv6:MeshLocalPrefix" => "fd09:717a:ef22::/64"
]
$ ifconfig wpan0
wpan0: flags=8051<UP,POINTOPOINT,RUNNING,MULTICAST> mtu 1280
inet6 fe80::f3d9:2a82:c8d8:fe43%wpan0 prefixlen 10 scopeid 0x15
inet6 fd09:717a:ef22::9a5d:5d1e:5527:5fc8 prefixlen 64
If compiled with libreadline
or libedit
, wpanctl
supports an
convenient interactive console. All commands support online help: type
help
to get a list of supported commands, or add -h
to a command to get
help with that specific command.
For simulation example Codelab please see: https://openthread.io/guides#try_openthread
Submit bugs and feature requests to issue tracker. We use the following mailing lists for discussion and announcements:
wpantund
wpantund
User Discussion Groupwpantund
Developer Discussion GroupThe following people have significantly contributed to the design
and development of wpantund
:
If you would like to contribute to this project, please read CONTRIBUTING.md first.