697d8c0d23
Several platforms defined compressions modes values: SICSLOWPAN_CONF_COMPRESSION_IPV6 SICSLOWPAN_CONF_COMPRESSION_HC1 SICSLOWPAN_CONF_COMPRESSION_HC01 instead of using the global SICSLOWPAN_COMPRESSION_LEVEL definitions |
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.. | ||
button-sensor.c | ||
contiki-conf.h | ||
contiki-main.c | ||
leds-arch.c | ||
Makefile.ev-aducrf101mkxz | ||
platform-conf.h | ||
README.md |
Building Contiki for the EV-ADuCRF101MKxZ Board
On Debian/Ubuntu Linux:
For older versions of Ubuntu (prior to 14.04), add the external package repository that provides recent versions of GCC for ARM:
sudo add-apt-repository -y ppa:terry.guo/gcc-arm-embedded
sudo apt-get update
For all systems, install the required development packages:
sudo apt-get install git make gcc-arm-none-eabi python-serial
Obtain the Contiki source code:
git clone https://github.com/contiki-os/contiki.git
Build Contiki's example-abc
:
make -C contiki/examples/rime \
TARGET=ev-aducrf101mkxz \
example-abc.ev-aducrf101mkxz.hex
The default radio frequency can optionally be specified on the command-line as follows. A clean rebuild may be needed when changing it:
make -C contiki/examples/rime \
TARGET=ev-aducrf101mkxz \
RF_CHANNEL=915000000 \
clean \
example-abc.ev-aducrf101mkxz.hex
The code can be flashed to the eval board and tested using
adi-cm3sd. Obtain
adi-cm3sd
:
git clone https://github.com/jimparis/adi-cm3sd.git
Connect the evaluation board using its J-Link board, or any other
serial adapter. Flash example-adc
and open a terminal by running:
adi-cm3sd/cm3sd.py -a contiki/examples/rime/example-abc.ev-aducrf101mkxz.hex \
/dev/serial/by-id/usb-SEGGER_J-Link_000541011111-if00
replacing /dev/serial/by-id/usb-SEGGER_J-Link_000541011111-if00
with
the path to the correct serial device. Flash the same code on a
second evaluation board to see them communicate.
IPv6 Example
Border Router
First, build and run the IPv6 border-router
example:
make -C contiki/examples/ipv6/rpl-border-router \
TARGET=ev-aducrf101mkxz \
SERIAL_ID='"00001234"' \
border-router.ev-aducrf101mkxz.hex
adi-cm3sd/cm3sd.py -a contiki/examples/ipv6/rpl-border-router/border-router.ev-aducrf101mkxz.hex \
/dev/serial/by-id/usb-SEGGER_J-Link_000541011111-if00
After flashing, close the terminal with CTRL-C
, then build and run
the SLIP tunnel on the host machine:
make -C contiki/tools tunslip6
sudo contiki/tools/tunslip6 \
-s /dev/serial/by-id/usb-SEGGER_J-Link_000541011111-if00 \
-B 115200 -v3 aaaa::1/64
Open the border router's home page at: http://[aaaa::3230:3030:3132:3334]/
Web Server
Then, build and flash the IPv6 webserver6
example on another eval
board. The different SERIAL_ID
ensures that the webserver uses a
link-local IP address that is different from that of the border
router:
make -C contiki/examples/webserver-ipv6 \
TARGET=ev-aducrf101mkxz \
SERIAL_ID='"00005678"' \
webserver6.ev-aducrf101mkxz.hex
adi-cm3sd/cm3sd.py -a contiki/examples/webserver-ipv6/webserver6.ev-aducrf101mkxz.hex \
/dev/serial/by-id/usb-SEGGER_J-Link_000541022222-if00
Open the web server's home page at: http://[aaaa::3230:3030:3536:3738]/
On Windows:
Install prerequisites
Install git with default options.
Install MinGW as follows:
- Download and run mingw-get-setup.exe.
- Select
Install
,Continue
, andContinue
again. - Click
Basic Setup
on the left panel. - Click the checkbox next to
mingw32-base
, then clickMark for Installation
. - Select 'Installation -> Apply Changes' from the menu bar.
- Click 'Apply', then close and quit the MinGW installer.
Install toolchain
Contiki can be built with either GCC or IAR:
-
GCC: Install GNU Tools for ARM Embedded Processors. Use the "Windows installer" version. Ensure that "Add path to environment variable" is selected in the installer.
-
IAR: Install IAR Embedded Workbench.
Building example-abc
Open a shell by right-clicking the desktop or any folder and
selecting Git Bash
.
Obtain the Contiki source code:
git clone https://github.com/contiki-os/contiki.git
Build Contiki's example-abc
:
-
GCC
/c/mingw/bin/mingw32-make -C contiki/examples/rime \ TARGET=ev-aducrf101mkxz \ example-abc.ev-aducrf101mkxz.hex
-
IAR
/c/mingw/bin/mingw32-make -C contiki/examples/rime \ IAR=1 \ TARGET=ev-aducrf101mkxz \ example-abc.ev-aducrf101mkxz.hex
Other build options like RF_CHANNEL
and SERIAL_ID
can be specified
as in the Linux instructions above.
Flashing and running
The resulting file
contiki/examples/rime/example-abc.ev-aducrf101mkxz.hex
can be
flashed to the evaluation board using ADI's
CM3WSD
utility.
Use a terminal emulator (e.g. HyperTerminal) at 115200 baud to see the program output.