nes-proj/examples/ipso-objects
2018-03-09 16:29:06 +00:00
..
example-ipso-objects.c Migrate to LED HAL (IPSO Objects) 2018-03-01 15:29:30 +00:00
example-ipso-temperature.c moved CoAP, LWM2M and IPSO Objects 2017-09-01 17:22:04 +02:00
example-server.c Added root_start to routing driver 2018-02-02 08:47:46 -08:00
Makefile Update Makefiles to be compatible with the new build system and restrict them to specific platforms where needed 2018-03-09 16:29:06 +00:00
project-conf.h Imported ipso-objects from lwm2m-contiki at https://github.com/sics-iot/lwm2m-contiki 2018-01-12 01:18:41 +01:00
README.md Fix a number of leftover mentions of aaaa as a prefix (now fd00) 2016-03-14 13:56:00 +01:00
serial-protocol.c Re-organzie ip stack implementation 2017-09-22 17:09:54 +02:00
serial-protocol.h Implementation of OMA LWM2M Engine / IPSO Objects 2015-12-02 15:40:05 +01:00

IPSO Objects Example

This is an example of how to make use of the IPSO Object and LWM2M implementation in Contiki.

The LWM2M implementation is based on the Erbium CoAP implementation and consists of two apps: lwm2m-engine and ipso-objects. The lwm2m-engine handle the specifics of LWM2M including bootstrapping and how read/writes of objects and resources are handled. The ipso-objects contains implementations of some of the IPSO Smart Objects.

The implementation was used during the IPSO Interop in May 2015, Kista, Sweden, and was successfully tested with other implementations.

The examples use some of the basic IPSO object for controlling LEDs on Contiki devices and for reading out temperature.

##Testing IPSO-objects with Leshan

First program a device with the examples/ipso-objects/example-ipso-objects.c

>make example-ipso-objects.upload TARGET=zoul
>...

After that start up a native-border router or other border router on fd00::1/64 or another prefix - NOTE: if you use another prefix you will need to change LWM2M_SERVER_ADDRESS for which the device will register - in project-conf.h:

#define LWM2M_SERVER_ADDRESS "fd00::1"

Then when everything is setup you can download a Leshan and use that to test controlling LEDs of the device.

###Starting Leshan

wget https://hudson.eclipse.org/leshan/job/leshan/lastSuccessfulBuild/artifact/leshan-standalone.jar
java -jar ./leshan-standalone.jar

Browse to leshans device page with http://127.0.0.1:8080 .

When you have started the border-router and also Leshan you should now start (or reboot) your IPSO Object enabled device. Within 30 seconds you should be able to see it on the Leshan device page.