Versions Compared


  • This line was added.
  • This line was removed.
  • Formatting was changed.

A tutorial to set up your environment and Download Source Code

Table of Contents

Build Setup Instructions

Setting up the Host Environment



Yocto 2.2 (Morty)

Yocto 3.1 LTS (Dunfell)


32/64 bit Ubuntu 16.04 LTS

Precise supported distributions and versions are here

64 bit Ubuntu 18.04 LTS

Precise supported distributions and versions are here

Free HDD Space

Minimum 100GB Free Memory

Minimum 100GB Free memory space

Oracle Virtual Box

5.0.40 or higher


Wireless Adapter

Brand Name: Tenda ralink & Model Number:W311MI

TP-Link Archer T4U AC 1200


USB to Ethernet Switch

To connect with Ethernet Switch & Multiple Clients

Host Tools version
  • Git or greater

  • tar 1.24 or greater

  • Python 2.7.3

  • Git or greater

  • tar 1.28 or greater

  • Python 3.5.0 or greater

Install the following packages for setting up your host VM

The instructions provided below are meant to be executed via the command line on an Ubuntu machine

Code Block
titlefor yocto 2.2 (morty)
# essential packages installation
# super user mode is required

# major essential packages
sudo apt-get install gawk wget git-core diffstat unzip texinfo gcc-multilib g++-multilib build-essential chrpath socat bison curl
# supportive packages
sudo apt-get install libfile-slurp-perl libncurses-dev autoconf flex doxygen libtool automake libpcre3-dev zlib1g-dev libbz2-dev subversion minicom putty libssl-dev rpm python-pexpect python-svn python-argparse vim tofrodos meld dos2unix cmake uuid-dev ruby transfig libglib2.0-dev xutils-dev lynx-cur gperf autopoint python-dulwich python-dev openjdk-7-jre
labelYocto 2.2 (Morty)
titleinstruction to install essential package on host machine

Note : Please note openjdk-7-jre package is not available for Ubuntu-16.04 anymore. Presumably openjdk-8-jre should be used instead.

Code Block
titlefor yocto 3.1 (dunfell)
# essential packages installation
# super user mode is required

# major essential packages
sudo apt-get install gawk wget git-core diffstat unzip texinfo gcc-multilib g++-multilib build-essential chrpath socat bison curl cpio python3 python3-pip python3-pexpect xz-utils debianutils iputils-ping python3-git python3-jinja2 libegl1-mesa libsdl1.2-dev pylint3 xterm

Configure bash as default command interpreter for shell scripts

Code Block
sudo dpkg-reconfigure dash

Select “No”
To choose bash, when the prompt asks if you want to use dash as the default system shell - select “No”

Configure Git

Upgrade your Git version to 1.8.x or higher

On Ubuntu 16.04 LTS, if you are unable to upgrade your git version using apt-get, then follow the below steps in order to upgrade 

Code Block
sudo apt-get install python-software-properties
sudo add-apt-repository ppa:git-core/ppa
sudo apt-get update
sudo apt-get install git

Once git is installed, configure your name and email using the below commands

Code Block
# review your existing configuration
git config --list --show-origin

# configure user name and email address
git config --global "John Doe"
git config --global

# configure git cookies. Needed for Gerrit to only contact the LDAP backend once.
git config --global http.cookieFile /tmp/gitcookie.txt
git config --global http.saveCookies true

Configure repo

In order to use Yocto build system, first you need to make sure that repo is properly installed on the machine:

Code Block
# create a bin directory
mkdir ~/bin
export PATH=~/bin:$PATH

# Download the repo tool and ensure that it is executable
curl > ~/bin/repo
chmod a+x ~/bin/repo

Trivia Repo is a repository management tool that is built on top of Git. Its main purpose is to help manage projects that consist of many Git repositories, it can also be used to manage uploads to the CMF Gerrit instance and automate aspects of the development workflow.

Repo does not replace Git, it simply aids management of projects that contain multiple Git repositories into a single local working directory. Git will still be used for local operation such as commits etc.

Repo manages this for you by means of an XML based Manifest file. The Manifest file defines which repositories the project uses and links to appropriate revisions of each git repository, i.e where the upstream repositories reside and where they should be cloned locally. It is the manifest.xml (or default.xml) that determines which Git repositories and revisions repo will manage. This manifest.xml file is hosted in a Git repository along with all the other git repositories.

 Credential configuration

Note: it is also recommended to put credentials in .netrc when interacting with the repo.

A sample .netrc file is illustrated below


    login <YOUR_USERNAME>

    password <YOUR_PASSWORD>

Downloading Source Code & Building

Downloading Source Code

Following commands fetch the source code using repo tool

$ mkdir <Directory-Name> && cd <Directory-Name>

Please use the following repo init command

$ repo init -u -m manifest.xml -b <branch_name>

Examples :

repo init -u -m rdkb.xml -b rdkb-20180527

repo init -u -m rdkb.xml -b master

repo init -u -m rdkb.xml -b morty

$ repo sync -j`nproc` --no-clone-bundle

  • Cloning the code before login once to, user would get the Authentication error, even though the account is in good standing and has all the required access.
  • Please login to before attempting to clone.


$ source <setup-environment>

The above step configures and sets up your directory to start an appropriate build.

There are different kinds of builds listed. Please read the options and select the number of the build you need.

1) meta-rdk-bsp-emulator/conf/machine/qemuarmbroadband.conf
2) meta-rdk-bsp-emulator/conf/machine/qemux86broadband.conf
3) meta-rdk-bsp-emulator/conf/machine/qemux86hyb.conf
4) meta-rdk-bsp-emulator/conf/machine/qemux86mc.conf
5) openembedded-core/meta/conf/machine/qemuarm.conf
6) openembedded-core/meta/conf/machine/qemux86-64.conf
7) openembedded-core/meta/conf/machine/qemux86.conf

Next, you would need to initiate the build using the following command:

$ bitbake <image-name>

On Successful build, the ROOTFS (in vmdk format) would be available at the following reference location based on the build type :

-$ {HOME}/emulator/build-qemux86broadband/tmp/deploy/images/qemux86broadband/rdk-generic-broadband-image-qemux86broadband-<timestamp>.vmdk

Example :