zephyr/samples/net/lwm2m_client
Torsten Rasmussen 407b49b35c cmake: use find_package to locate Zephyr
Using find_package to locate Zephyr.

Old behavior was to use $ENV{ZEPHYR_BASE} for inclusion of boiler plate
code.

Whenever an automatic run of CMake happend by the build system / IDE
then it was required that ZEPHYR_BASE was defined.
Using ZEPHYR_BASE only to locate the Zephyr package allows CMake to
cache the base variable and thus allowing subsequent invocation even
if ZEPHYR_BASE is not set in the environment.

It also removes the risk of strange build results if a user switchs
between different Zephyr based project folders and forgetting to reset
ZEPHYR_BASE before running ninja / make.

Signed-off-by: Torsten Rasmussen <Torsten.Rasmussen@nordicsemi.no>
2020-03-27 16:23:46 +01:00
..
src samples: lwm2m_client: Add support for queue mode 2020-03-10 14:57:29 +02:00
CMakeLists.txt cmake: use find_package to locate Zephyr 2020-03-27 16:23:46 +01:00
README.rst samples: lwm2m_client: Add support for queue mode 2020-03-10 14:57:29 +02:00
overlay-bt.conf
overlay-dtls.conf
overlay-queue.conf samples: lwm2m_client: Add support for queue mode 2020-03-10 14:57:29 +02:00
prj.conf
sample.yaml boards: nrf52840_pca10056: Rename board to nrf52840dk_nrf52840 2020-03-27 09:14:08 +01:00

README.rst

.. _lwm2m-client-sample:

LwM2M client
############

Overview
********

Lightweight Machine to Machine (LwM2M) is an application layer protocol
based on CoAP/UDP, and is designed to expose various resources for reading,
writing and executing via an LwM2M server in a very lightweight environment.

This LwM2M client sample application for Zephyr implements the LwM2M library
and establishes a connection to an LwM2M server using the
`Open Mobile Alliance Lightweight Machine to Machine Technical Specification`_
(Section 5.3: Client Registration Interface).

.. _Open Mobile Alliance Lightweight Machine to Machine Technical Specification:
    http://www.openmobilealliance.org/release/LightweightM2M/V1_0-20170208-A/OMA-TS-LightweightM2M-V1_0-20170208-A.pdf

The source code for this sample application can be found at:
:zephyr_file:`samples/net/lwm2m_client`.

Requirements
************

- :ref:`networking_with_qemu`
- Linux machine
- Leshan Demo Server (https://eclipse.org/leshan/)

Building and Running
********************

There are configuration files for various setups in the
samples/net/lwm2m_client directory:

- :file:`prj.conf`
  This is the standard default config.

- :file:`overlay-dtls.conf`
  This overlay config can be added for DTLS support via MBEDTLS.

- :file:`overlay-bt.conf`
  This overlay config can be added to enable Bluetooth networking support.

- :file:`overlay-queue.conf`
  This overlay config can be added to enable LWM2M Queue Mode support.

Build the lwm2m-client sample application like this:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :board: <board to use>
   :conf: <config file to use>
   :goals: build
   :compact:

The easiest way to setup this sample application is to build and run it
via QEMU using the default configuration :file:`prj.conf`.
This requires a small amount of setup described in :ref:`networking_with_qemu`.

Download and run the latest build of the Leshan Demo Server:

.. code-block:: console

    $ wget https://hudson.eclipse.org/leshan/job/leshan/lastSuccessfulBuild/artifact/leshan-server-demo.jar
    $ java -jar ./leshan-server-demo.jar -wp 8080

You can now open a web browser to: http://localhost:8080 This is where you
can watch and manage connected LwM2M devices.

Build the lwm2m-client sample application for QEMU like this:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: qemu_x86
   :goals: run
   :compact:

The sample will start and automatically connect to the Leshan Demo Server with
an IPv6 client endpoint "qemu_x86".

To change the sample to use IPv4, disable IPv6 by changing these two
configurations in ``prj.conf``::

    CONFIG_NET_IPV6=n
    CONFIG_NET_CONFIG_NEED_IPV6=n

DTLS Support
============

To build the lwm2m-client sample for QEMU with DTLS support do the following:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: qemu_x86
   :conf: "prj.conf overlay-dtls.conf"
   :goals: run
   :compact:

Setup DTLS security in Leshan Demo Server:

- Open up the Leshan Demo Server web UI
- Click on "Security"
- Click on "Add new client security configuration"
- Enter the following data:
    Client endpoint: qemu_x86
    Security mode: Pre-Shared Key
    Identity: Client_identity
    Key: 000102030405060708090a0b0c0d0e0f
- Start the Zephyr sample

Bluetooth Support
=================

To build the lwm2m-client sample for hardware requiring Bluetooth for
networking (IPSP node connected via 6lowpan) do the following:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: <board to use>
   :conf: "prj.conf overlay-bt.conf"
   :goals: build
   :compact:

The overlay-\*.conf files can also be combined.  For example, you could build a
DTLS-enabled LwM2M client sample for BLENano2 hardware by using the following
commands (requires Bluetooth for networking):

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: nrf52_blenano2
   :conf: "prj.conf overlay-bt.conf overlay-dtls.conf"
   :goals: build
   :compact:

Queue Mode Support
==================

To build the lwm2m-client sample with LWM2M Queue Mode support do the following:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: <board to use>
   :conf: "prj.conf overlay-queue.conf"
   :goals: build
   :compact:

With Queue Mode enabled, the LWM2M client will register with "UDP with Queue
Mode" binding. The LWM2M engine will notify the application with
``LWM2M_RD_CLIENT_EVENT_QUEUE_MODE_RX_OFF`` event when the RX window
is closed so it can e. g. turn the radio off. The next RX window will be open
with consecutive ``LWM2M_RD_CLIENT_EVENT_REG_UPDATE_COMPLETE`` event.

WNC-M14A2A LTE-M Modem Support
==============================

To build the lwm2m-client sample for use with the WNC-M14A2A LTE-M modem
shield do the following:

.. zephyr-app-commands::
   :zephyr-app: samples/net/lwm2m_client
   :host-os: unix
   :board: <board to use>
   :conf: "prj.conf overlay-wncm14a2a.conf"
   :goals: build
   :compact:

Sample output without DTLS enabled
==================================

The following is sample output from the QEMU console.  First, LwM2M engine is
initialized.  Then, several LwM2M Smart Objects register themselves with the
engine.  The sample app then sets some client values so that they can be seen
in the Leshan Demo Server interface, and finally, the registration request is
sent to the server where the endpoint is initialized.

.. code-block:: console

    To exit from QEMU enter: 'CTRL+a, x'
    [QEMU] CPU: qemu32,+nx,+pae
    qemu-system-i386: warning: Unknown firmware file in legacy mode: genroms/multiboot.bin

    shell> [lib/lwm2m_engine] [DBG] lwm2m_engine_init: LWM2M engine thread started
    [lwm2m_obj_security] [DBG] security_create: Create LWM2M security instance: 0
    [lwm2m_obj_server] [DBG] server_create: Create LWM2M server instance: 0
    [lwm2m_obj_device] [DBG] device_create: Create LWM2M device instance: 0
    [lwm2m_obj_firmware] [DBG] firmware_create: Create LWM2M firmware instance: 0
    [lwm2m-client] [INF] main: Run LWM2M client
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/0, value:0x0001c99e, len:6
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/1, value:0x0001c9ab, len:23
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/2, value:0x0001c9c9, len:9
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/3, value:0x0001c9d9, len:3
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/9, value:0x0041a3a4, len:1
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/10, value:0x0041a3b4, len:4
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/17, value:0x0001c9fc, len:16
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/18, value:0x0001ca14, len:5
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/20, value:0x0041a3a4, len:1
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3/0/21, value:0x0041a3b4, len:4
    [lib/lwm2m_engine] [DBG] lwm2m_engine_create_obj_inst: path:3303/0
    [ipso_temp_sensor] [DBG] temp_sensor_create: Create IPSO Temperature Sensor instance: 0
    [lib/lwm2m_engine] [DBG] lwm2m_engine_set: path:3303/0/5700, value:0x0041a3b8, len:8
    [lib/lwm2m_rd_client] [INF] lwm2m_rd_client_start: LWM2M Client: qemu_x86
    [lib/lwm2m_rd_client] [INF] sm_do_init: RD Client started with endpoint 'qemu_x86' and client lifetime 0
    [lib/lwm2m_rd_client] [DBG] sm_send_registration: registration sent [2001:db8::2]
    [lib/lwm2m_engine] [DBG] lwm2m_udp_receive: checking for reply from [2001:db8::2]
    [lib/lwm2m_rd_client] [DBG] do_registration_reply_cb: Registration callback (code:2.1)
    [lwm2m-client] [DBG] rd_client_event: Registration complete
    [lib/lwm2m_rd_client] [INF] do_registration_reply_cb: Registration Done (EP='EZd501ZF26')
    [lib/lwm2m_engine] [DBG] lwm2m_udp_receive: reply 0x004001ec handled and removed