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authorRonan <ronan.lemartret@iot.bzh>2016-11-28 12:57:52 +0100
committerRonan <ronan.lemartret@iot.bzh>2016-11-28 12:57:59 +0100
commit12fffa97ee6bf7c9e1cc72479a1b14b1ea6195d8 (patch)
tree4617fe1b34866b4f55d19b22cf8028c6a93c35e2 /getting-started
parentad87296b8f43bbf1d8ade4a1efc69f4c91932380 (diff)
update common source code information
Signed-off-by: Ronan <ronan.lemartret@iot.bzh>
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-# Download AGL Source Code
+# Introduction: Building target AGL image with Yocto project
+The standard Yocto process is made of the following steps:
+* Setting up your operating system.
+* Setting up the build environment for R-Car BSP.
+* Downloading the proprietary drivers and installing them in the build environment (if needed).
+* Build the image.
+* Boot using SD-CARD.
+ * Create an SD-CARD.
+ * Configure to boot on SD-CARD.
+ * Copy the image to the SD-CARD.
+ * Boot the board on it.
-The AGL source code and Yocto layers are maintained on the AGL Gerrit server. For information on how to create accounts for gerrit see Getting Started with AGL.
+For convenience, the resulting development images are made available [Here][AGL snapshots master latest]
-## Prepare Repo Tool
-AGL Uses the Repo tool for managing repositories. First you need to setup layers of AGL. You can use the commands below to prepare Repo:
+If you want to bypass the build phase and quick boot the board, you can download the image tarball and the kernel then follow the installation procedure.
+
+## Setting up your operating system
+The very first step is to ensure that your system can run the build system of the Yocto Project.
+
+**Important**: it only runs on Linux
+ * if your system is Windows© or iOS© you should use a virtualization solution (Virtualbox, VMWare ...) to run a Linux VM on your system.
+
+For AGL 2.0, Yocto Project 2.0, known as jethro, has been selected for the BSP and build system.
+This will change in the future but as of today [jul-2016] it is currently strongly recommended to use 2.0.
+
+Reference data for configuring your system can be found in the Yocto documentation [Here][yocto ref Manual]
+
+
+
+Here after an extract of this documentation for most common Linux distributions:
+* The build system should be able to run on any modern distributions that has the following versions for:
+ * Python
+ * Git 1.7.8 or greater
+ * tar 1.24 or greater
+ * GCC, …
+
+#### Note:
+* Python 2.7.3 or greater excluding Python 3.x, which is not supported.
+
+
+### Ubuntu and Debian
+The essential and graphical support packages you need for a supported Ubuntu or Debian distribution are shown in the following command:
+```
+sudo apt-get install gawk wget git-core diffstat unzip texinfo gcc-multilib \
+ build-essential chrpath socat libsdl1.2-dev xterm cpio curl
+```
+#### Note:
+* Also note that for this tutorial, the utility 'curl' has been added to the list of packages to install.
+
+### Fedora
+The essential and graphical packages you need for a supported Fedora distribution are shown in the following command:
+```
+sudo yum install gawk make wget tar bzip2 gzip python unzip perl patch \
+ diffutils diffstat git cpp gcc gcc-c++ glibc-devel texinfo chrpath \
+ ccache perl-Data-Dumper perl-Text-ParseWords perl-Thread-Queue socat \
+ SDL-devel xterm curl
+```
+### OpenSUSE
+The essential and graphical packages you need for a supported OpenSUSE distribution are shown in the following command:
+sudo zypper install python gcc gcc-c++ git chrpath make wget python-xml \
+ diffstat texinfo python-curses patch socat libSDL-devel xterm curl
+### CentOS
+The essential and graphical packages you need for a supported CentOS distribution are shown in the following command:
+```
+sudo yum install gawk make wget tar bzip2 gzip python unzip perl patch \
+ diffutils diffstat git cpp gcc gcc-c++ glibc-devel texinfo chrpath \
+ socat SDL-devel xterm curl
+```
+
+# Download AGL Source Code
+The AGL source code and Yocto layers are maintained on the AGL Gerrit server.
+For information on how to create accounts for gerrit see [Getting Started with AGL][Getting Started with AGL].
+
+## Setting up the build environment
+In the following, your top level directory is noted as “AGL_TOP”.
+For example, we will set AGL_TOP to point to a directory “$HOME/workspace_agl”:
+```
+export AGL_TOP=$HOME/workspace_agl
+mkdir -p $AGL_TOP
+```
+## Prepare Repo Tool
+AGL Uses the 'repo' tool for managing repositories.
+You need to setup layers of AGL.
+You can use the commands below to prepare Repo:
```
mkdir ~/bin
export PATH=~/bin:$PATH
curl https://storage.googleapis.com/git-repo-downloads/repo > ~/bin/repo
chmod a+x ~/bin/repo
```
-## Download Latest Stable Release
+#### Note:
+* More information about the tool 'repo' [Here][repo info]
-To download all layers for the for the latest stable release, Blowfish 2.0.3:
+## Download source
+You can choose your source release
+### Download Latest Stable Release
+To download all layers for the for the latest stable release, Blowfish 2.0.3:
```
+cd $AGL_TOP
repo init -b blowfish -m default_blowfish_2.0.3.xml -u https://gerrit.automotivelinux.org/gerrit/AGL/AGL-repo
repo sync
```
-## Download Latest on Blowfish Branch
-
+### Download Latest on Blowfish Branch
To download all layers on the current release branch which may be in the midst of testing or changes prior to the next stable release:
```
+cd $AGL_TOP
repo init -b blowfish -u https://gerrit.automotivelinux.org/gerrit/AGL/AGL-repo
repo sync
```
-## Download Master Branch
-
+### Download Master Branch
To download all code from master:
-
```
+cd $AGL_TOP
repo init -u https://gerrit.automotivelinux.org/gerrit/AGL/AGL-repo
repo sync
```
-## Set up Build Environment
-
-Set up the development environment for the desired target hardware. AGL has created a set up script for defining the target build and desired optional features. To get a complete list of the options available run.
-
+## Set up Build Environment Info
+AGL has created a set up script for defining the target build and desired optional features.
+To get a complete list of the options available run.
```
- $ source meta-agl/scripts/aglsetup.sh -h
+cd $AGL_TOP
+source meta-agl/scripts/aglsetup.sh -h
```
-
Once you run aglsetup.sh with your desired paramaters, you can build any target desired.
## Features supported by aglsetup
Here is the list of features for AGL 2.0 that can be specified in the aglsetup.sh command line:
-- in **meta-agl**
+* in **meta-agl**
* **agl-devel**: activate development options (empty root password, debugger, strace, valgrind …)
* **agl-netboot**: enable network boot support through TFTP and NBD (see meta-netboot layer)
-- in **meta-agl-extra**
+* in **meta-agl-extra**
* **agl-appfw-smack**: enables IoT.bzh Application Framework + SMACK + Cynara
* **agl-demo**: enable layer meta-agl-demo and meta-qt5 - required to build * agl-demo-platform
* **agl-localdev**: add a local layer named “meta-localdev” in meta directory and a local.dev.inc conf file if present
* **agl-sota**: enable SOTA components and dependencies (meta-sota, meta-filesystems, meta-ruby, meta-rust are added)
For newer features or to get more details on a given feature, take a look at the configuration files stored for each feature and/or each machine in meta-agl/templates and meta-agl-extra/templates.
+
+[AGL snapshots master latest]: https://download.automotivelinux.org/AGL/snapshots/master/latest/
+[yocto ref Manual]: http://www.yoctoproject.org/docs/2.0/ref-manual/ref-manual.html#detailed-supported-distros
+[Getting Started with AGL]: https://wiki.automotivelinux.org/start/getting-started
+[repo info]: https://source.android.com/source/using-repo.html