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OpenBMC Development Environment

Document Purpose: How to set up an OpenBMC development environment

Audience: Programmer familiar with Linux and BMCs

Prerequisites: Current Linux, Mac, or Windows system

Overview

OpenBMC uses the Yocto Project as its underlying building and distribution generation framework. The main OpenBMC README provides information on getting up and going with Yocto and OpenBMC. This tutorial will walk you through utilizing bitbake to build OpenBMC firmware and boot it in QEMU.

Bitbake is the build engine used by Yocto and OpenBMC to build its custom Linux distribution for a system. QEMU is a software emulator that can be used to run OpenBMC images.

This doc walks through the recommended steps for setting up an OpenBMC development environment, building OpenBMC, and running that image in QEMU.

For testing purposes, this guide uses the Romulus system as the default because this is the system tested for each CI job, which means it's the most stable.

Install Linux Environment

If you are running Linux, and are ok with installing some additional packages, then you can skip to step 3.

The recommended OpenBMC development environment is the latest Ubuntu LTS release. Other versions of Linux may work but you are using that at your own risk. If you have Windows or Mac OS then VirtualBox is the recommended virtualization tool to run the development environment.

  1. Install a Virtual Machine

    Install either VirtualBox or VMware onto your computer (Mac, Windows, Linux)

    Both have free versions available for what you need. Note: If you want to use this VM to BitBake a full OpenBMC image, you'll want to allocate as many resources as possible. Ideal minimum resources are 8 threads, 16GB memory, 200GB hard drive.

    OpenBMC continuous integration utilizes docker to build its images. This is another possibility but not covered within this document. See build-setup.sh for a reference on the script CI uses to build an appropriate docker container and launch bitbake within it. This also works within a podman environment.

  2. Install the latest Ubuntu LTS release

    The majority of OpenBMC development community uses Ubuntu. The qemu below is built on the latest Ubuntu LTS release but whatever is most recent should work. The same goes for other Linux distributions like Fedora but again, these are not tested nearly as much by the core OpenBMC team as Ubuntu.

    VirtualBox Tips - You'll want copy/paste working between your VM and Host. To do that, once you have your VM up and running:

    • Devices -> Insert Guest Additions CD Image (install)
    • Devices -> Shared Clipboard -> Bidirectional
    • reboot (the VM)
  3. Install required packages

    Refer to Prerequisite link.

    Note - In Ubuntu, a "sudo apt-get update" will probably be needed before installing the packages.

Building OpenBMC

Note this section will take you through the process of building a Romulus OpenBMC image. Future tutorials will build on this by having you customize the image. If you would like to skip the building and just try out OpenBMC and QEMU then you can download the latest Romulus image from here and skip to the Download and Start QEMU Session section.

  1. Clone OpenBMC

    git clone https://github.com/openbmc/openbmc.git
    
  2. Build the Romulus OpenBMC Image (note this will take 30 - 120 minutes depending on your hardware)

    . setup romulus
    bitbake obmc-phosphor-image
    

The Romulus image is now located in build/tmp/deploy/images/romulus/obmc-phosphor-image-romulus.static.mtd relative to your current directory.

Download and Start QEMU Session

  1. Download latest openbmc/qemu fork of QEMU application

    wget https://jenkins.openbmc.org/job/latest-qemu-x86/lastSuccessfulBuild/artifact/qemu/build/qemu-system-arm
    
    chmod u+x qemu-system-arm
    
  2. Copy the image generated by the build to your current directory

    cp ./tmp/deploy/images/romulus/obmc-phosphor-image-romulus.static.mtd ./
    
  3. Start QEMU with the Romulus image

    Note - For REST, SSH and IPMI to work into your QEMU session, you must connect up some host ports to the REST, SSH and IPMI ports in your QEMU session. In this example, it just uses 2222, 2443, 2623. You can use whatever you prefer.

    ./qemu-system-arm -m 256 -M romulus-bmc -nographic \
        -drive file=./obmc-phosphor-image-romulus.static.mtd,format=raw,if=mtd \
        -net nic \
        -net user,hostfwd=:127.0.0.1:2222-:22,hostfwd=:127.0.0.1:2443-:443,hostfwd=udp:127.0.0.1:2623-:623,hostname=qemu
    

    If you are running within a virtual environment where you can use the real ports, then you would start QEMU with the following.

    ./qemu-system-arm -m 256 -machine romulus-bmc -nographic \
        -drive file=./obmc-phosphor-image-romulus.static.mtd,format=raw,if=mtd \
        -net nic \
        -net user,hostfwd=:127.0.0.1:22-:22,hostfwd=:127.0.0.1:443-:443,hostfwd=tcp:127.0.0.1:80-:80,hostfwd=tcp:127.0.0.1:2200-:2200,hostfwd=udp:127.0.0.1:623-:623,hostfwd=udp:127.0.0.1:664-:664,hostname=qemu
    
  4. Wait for your QEMU-based BMC to boot

    Login using default root/0penBmc login (Note the 0 is a zero).

  5. Check the system state

    You'll see a lot of services starting in the console, you can start running the obmcutil tool to check the state of the OpenBMC state services. When you see the following then you have successfully booted to "Ready" state.

    root@openbmc:~# obmcutil state
    CurrentBMCState     : xyz.openbmc_project.State.BMC.BMCState.Ready
    CurrentPowerState   : xyz.openbmc_project.State.Chassis.PowerState.Off
    CurrentHostState    : xyz.openbmc_project.State.Host.HostState.Off
    

    Note To exit (and kill) your QEMU session run: ctrl+a x

  6. Test out the ssh network interface

    Run these from the system you started QEMU on

    ssh root@localhost -p 2222
    

    Login is the same as what was used above for the default QEMU login.

You've now built an OpenBMC distribution and booted it in QEMU!

Alternative yocto QEMU

yocto has tools for building and running qemu. These tools avoid some of the configuration issues that come from downloading a prebuilt image, and modifying binaries. Using yocto qemu also uses the TAP interface which some find be more stable. This is particularly useful when debugging at the application level.

This is a more advanced section and may be useful to come back to once the basics are working for you. The next tutorial will focus on devtool and how to utilize it to customize your OpenBMC image.

  • set up a bmc build environment
source setup romulus myBuild/build
  • add the qemu x86 open embedded machine for testing
MACHINE ??= "qemux86"
  • Make the changes to the build (ie devtool modify bmcweb, devtool add gdb)
devtool modify bmcweb myNewLocalbmcweb/
  • build open bmc for the qemu x86 machine
MACHINE=qemux86 bitbake obmc-phosphor-image
  • run qemu they way yocto provides
runqemu myBuild/build/tmp/deploy/images/qemux86/ nographic \
    qemuparams="-m 2048"
  • after that the all the a TAP network interface is added, and protocol like ssh, scp, http work well.