RIOT/doc/doxygen/src/getting-started.md

Getting started                                              {#getting-started}
===============

[TOC]

Downloading RIOT code                                  {#downloading-riot-code}
=====================
You can obtain the latest RIOT code from
our [Github](https://github.com/RIOT-OS/) repository either by
[downloading the latest tarball](https://github.com/RIOT-OS/RIOT/releases) or
by cloning the [git repository](https://github.com/RIOT-OS/RIOT).

In order to clone the RIOT repository, you need the
[Git revision control system](http://git-scm.com/) and run the following
command:

~~~~~~~~ {.sh}
git clone git://github.com/RIOT-OS/RIOT.git
~~~~~~~~

Compiling RIOT                                                {#compiling-riot}
==============

Setting up a toolchain                                {#setting-up-a-toolchain}
----------------------
Depending on the hardware you want to use, you need to first install a
corresponding toolchain. The Wiki on RIOT's Github page contains a lot of
information that can help you with your platform:

* [ARM-based platforms](https://github.com/RIOT-OS/RIOT/wiki/Family:-ARM)
* [TI MSP430](https://github.com/RIOT-OS/RIOT/wiki/Family:-MSP430)
* [Atmel ATmega](https://github.com/RIOT-OS/RIOT/wiki/Family%3A-ATmega)
* [native](https://github.com/RIOT-OS/RIOT/wiki/Family:-native)

The build system                                            {#the-build-system}
----------------
RIOT uses [GNU make](https://www.gnu.org/software/make/) as build system. The
simplest way to compile and link an application with RIOT, is to set up a
Makefile providing at least the following variables:

 * `APPLICATION`: should contain the (unique) name of your application
 * `BOARD`: specifies the platform the application should be build for by
   default
 * `RIOTBASE`: specifies the path to your copy of the RIOT repository (note,
   that you may want to use `$(CURDIR)` here, to give a relative path)

Additionally it has to include the `Makefile.include`, located in RIOT's root
directory:

~~~~~~~~ {.mk}
# a minimal application Makefile
APPLICATION = mini-makefile
BOARD ?= native
RIOTBASE ?= $(CURDIR)/../RIOT

include $(RIOTBASE)/Makefile.include
~~~~~~~~

You can use Make's `?=` operator in order to allow overwriting
variables from the command line. For example, you can easily specify the target
platform, using the sample Makefile, by invoking make like this:

~~~~~~~~ {.sh}
make BOARD=iotlab-m3
~~~~~~~~

Besides typical targets like `clean`, `all`, or `doc`, RIOT provides the
special targets `flash` and `term` to invoke the configured flashing and
terminal tools for the specified platform. These targets use the variable
`PORT` for the serial communication to the device. Neither this variable nor
the targets `flash` and `term` are mandatory for the native port.

For the native port, `PORT` has a special meaning: it is used to identify the
tap interface if the `netdev2_tap` module is used. The target `debug` can be
used to invoke a debugger on some platforms. For the native port the additional
targets such as `all-valgrind` and `valgrind` exist. Refer to
`cpu/native/README.md` for additional information

Some RIOT directories contain special Makefiles like `Makefile.base`,
`Makefile.include` or `Makefile.dep`. The first one can be included into other
Makefiles to define some standard targets. The files called `Makefile.include`
are used in `boards` and `cpu` to append target specific information to
variables like `INCLUDES`, setting the include paths. `Makefile.dep` serves to
define dependencies.

Unless specified otherwise, make will create an elf-file as well as an Intel
hex file in the `bin` folder of your application directory.

Learn more about the build system in the
[Wiki](https://github.com/RIOT-OS/RIOT/wiki/The-Make-Build-System)

Building and executing an examples        {#building-and-executing-and-example}
----------------------------------
RIOT provides a number of examples in the `examples/` directory. Every example
has a README that documents its usage and its purpose. You can build them by
typing

~~~~~~~~ {.sh}
make BOARD=samr21-xpro
~~~~~~~~

or

~~~~~~~~ {.sh}
make all BOARD=samr21-xpro
~~~~~~~~

into your shell.

To flash the application to a board just type

~~~~~~~~ {.sh}
make flash BOARD=samr21-xpro
~~~~~~~~

You can then access the board via the serial interface:

~~~~~~~~ {.sh}
make term BOARD=samr21-xpro
~~~~~~~~

If you are using multiple boards you can use the `PORT` macro to specify the
serial interface:

~~~~~~~~ {.sh}
make term BOARD=samr21-xpro PORT=/dev/ttyACM1
~~~~~~~~

Note that the `PORT` macro has a slightly different semantic in `native`. Here
it is used to provide the name of the TAP interface you want to use for the
virtualized networking capabilities of RIOT.

We use `pyterm` as the default terminal application. It is shipped with RIOT in
the `dist/tools/pyterm/` directory. If you choose to use another terminal
program you can set `TERMPROG` (and if need be the `TERMFLAGS`) macros:

~~~~~~~~ {.sh}
make -C examples/gnrc_networking/ term \
    BOARD=samr21-xpro \
    TERMPROG=gtkterm \
    TERMFLAGS="-s 115200 -p /dev/ttyACM0 -e"
~~~~~~~~
doc: add 'Getting started' page 2015-11-17 11:59:23 +01:00			`Getting started {#getting-started}`
			`===============`

			`[TOC]`

			`Downloading RIOT code {#downloading-riot-code}`
			`=====================`
			`You can obtain the latest RIOT code from`
			`our [Github](https://github.com/RIOT-OS/) repository either by`
			`[downloading the latest tarball](https://github.com/RIOT-OS/RIOT/releases) or`
			`by cloning the [git repository](https://github.com/RIOT-OS/RIOT).`

			`In order to clone the RIOT repository, you need the`
			`[Git revision control system](http://git-scm.com/) and run the following`
			`command:`

			`~~~~~~~~ {.sh}`
			`git clone git://github.com/RIOT-OS/RIOT.git`
			`~~~~~~~~`

			`Compiling RIOT {#compiling-riot}`
			`==============`

			`Setting up a toolchain {#setting-up-a-toolchain}`
			`----------------------`
			`Depending on the hardware you want to use, you need to first install a`
			`corresponding toolchain. The Wiki on RIOT's Github page contains a lot of`
			`information that can help you with your platform:`

			`* [ARM-based platforms](https://github.com/RIOT-OS/RIOT/wiki/Family:-ARM)`
			`* [TI MSP430](https://github.com/RIOT-OS/RIOT/wiki/Family:-MSP430)`
			`* [Atmel ATmega](https://github.com/RIOT-OS/RIOT/wiki/Family%3A-ATmega)`
			`* [native](https://github.com/RIOT-OS/RIOT/wiki/Family:-native)`

			`The build system {#the-build-system}`
			`----------------`
			`RIOT uses [GNU make](https://www.gnu.org/software/make/) as build system. The`
			`simplest way to compile and link an application with RIOT, is to set up a`
			`Makefile providing at least the following variables:`

			* `APPLICATION`: should contain the (unique) name of your application
			* `BOARD`: specifies the platform the application should be build for by
			`default`
			* `RIOTBASE`: specifies the path to your copy of the RIOT repository (note,
			that you may want to use `$(CURDIR)` here, to give a relative path)

			Additionally it has to include the `Makefile.include`, located in RIOT's root
			`directory:`

			`~~~~~~~~ {.mk}`
			`# a minimal application Makefile`
			`APPLICATION = mini-makefile`
			`BOARD ?= native`
			`RIOTBASE ?= $(CURDIR)/../RIOT`

			`include $(RIOTBASE)/Makefile.include`
			`~~~~~~~~`

			You can use Make's `?=` operator in order to allow overwriting
			`variables from the command line. For example, you can easily specify the target`
			`platform, using the sample Makefile, by invoking make like this:`

			`~~~~~~~~ {.sh}`
			`make BOARD=iotlab-m3`
			`~~~~~~~~`

			Besides typical targets like `clean`, `all`, or `doc`, RIOT provides the
			special targets `flash` and `term` to invoke the configured flashing and
			`terminal tools for the specified platform. These targets use the variable`
			`PORT` for the serial communication to the device. Neither this variable nor
			the targets `flash` and `term` are mandatory for the native port.

			For the native port, `PORT` has a special meaning: it is used to identify the
			tap interface if the `netdev2_tap` module is used. The target `debug` can be
			`used to invoke a debugger on some platforms. For the native port the additional`
			targets such as `all-valgrind` and `valgrind` exist. Refer to
			`cpu/native/README.md` for additional information

			Some RIOT directories contain special Makefiles like `Makefile.base`,
			`Makefile.include` or `Makefile.dep`. The first one can be included into other
			Makefiles to define some standard targets. The files called `Makefile.include`
			are used in `boards` and `cpu` to append target specific information to
			variables like `INCLUDES`, setting the include paths. `Makefile.dep` serves to
			`define dependencies.`

			`Unless specified otherwise, make will create an elf-file as well as an Intel`
			hex file in the `bin` folder of your application directory.

			`Learn more about the build system in the`
			`[Wiki](https://github.com/RIOT-OS/RIOT/wiki/The-Make-Build-System)`

			`Building and executing an examples {#building-and-executing-and-example}`
			`----------------------------------`
			RIOT provides a number of examples in the `examples/` directory. Every example
			`has a README that documents its usage and its purpose. You can build them by`
			`typing`

			`~~~~~~~~ {.sh}`
			`make BOARD=samr21-xpro`
			`~~~~~~~~`

			`or`

			`~~~~~~~~ {.sh}`
			`make all BOARD=samr21-xpro`
			`~~~~~~~~`

			`into your shell.`

			`To flash the application to a board just type`

			`~~~~~~~~ {.sh}`
			`make flash BOARD=samr21-xpro`
			`~~~~~~~~`

			`You can then access the board via the serial interface:`

			`~~~~~~~~ {.sh}`
			`make term BOARD=samr21-xpro`
			`~~~~~~~~`

			If you are using multiple boards you can use the `PORT` macro to specify the
			`serial interface:`

			`~~~~~~~~ {.sh}`
			`make term BOARD=samr21-xpro PORT=/dev/ttyACM1`
			`~~~~~~~~`

			Note that the `PORT` macro has a slightly different semantic in `native`. Here
			`it is used to provide the name of the TAP interface you want to use for the`
			`virtualized networking capabilities of RIOT.`

			We use `pyterm` as the default terminal application. It is shipped with RIOT in
			the `dist/tools/pyterm/` directory. If you choose to use another terminal
			program you can set `TERMPROG` (and if need be the `TERMFLAGS`) macros:

			`~~~~~~~~ {.sh}`
			`make -C examples/gnrc_networking/ term \`
			`BOARD=samr21-xpro \`
			`TERMPROG=gtkterm \`
			`TERMFLAGS="-s 115200 -p /dev/ttyACM0 -e"`
			`~~~~~~~~`