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devtool-hello-world.md

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OpenBMC Hello World using devtool

Document Purpose: Walk through compiling and running an OpenBMC application in QEMU.

Prerequisites: Completed Development Environment Setup Document

Clone and Build a Repo

devtool is a command line tool provided by the yocto distribution that allows you to extract a targeted repositories source code into your local bitbake environment and modify it.

Today we'll be extracting the phosphor-state-manager repository using devtool and modifying it.

This assumes you have followed the first tutorial and are in the bitbake environment, right after doing the ". setup" command.

  1. Use devtool to extract source code

    devtool modify phosphor-state-manager
    

    The above command will output the directory the source code is contained in.

  2. Modify a source file and add a cout

    vi workspace/sources/phosphor-state-manager/bmc_state_manager_main.cpp
    

    Your diff should look something like this:

    +#include <iostream>
    
    int main(int argc, char**)
    {
    @@ -17,6 +18,8 @@ int main(int argc, char**)
    
         bus.request_name(BMC_BUSNAME);
    
    +    std::cout<<"Hello World" <<std::endl;
    +
         while (true)
         {
    
  3. Rebuild the flash image which will now include your change

    This will be a much faster build as bitbake will utilize all of the cache from your previous build, only building what is new.

    bitbake obmc-phosphor-image
    

    Follow the steps in the first tutorial to load your new image into a QEMU session and boot it up.

  4. Confirm your "Hello World" made it into the new image

    After you login to your QEMU session, verify the message is in the journal

    journalctl | grep "Hello World"
    

    You should see something like this:

    <date> romulus phosphor-bmc-state-manager[1089]: Hello World
    

You made a change, rebuilt the flash image to contain that change, and then booted that image up and verified the change made it in!

Loading an Application Directly Into a Running QEMU

In this section we're going to modify the same source file, but instead of fully re-generating the flash image and booting QEMU again, we're going to just build the required binary and copy it into the running QEMU session and launch it.

  1. Modify your hello world

    vi workspace/sources/phosphor-state-manager/bmc_state_manager_main.cpp
    

    Change your cout to "Hello World Again"

  2. Bitbake only the phosphor-state-manager repository

    Within bitbake, you can build only the repository (and it's dependencies) that you are interested in. In this case, we'll just rebuild the phosphor-state-manager repo to pick up your new hello world change.

    bitbake phosphor-state-manager
    

    Your new binary will be located at the following location relative to your bitbake directory: ./workspace/sources/phosphor-state-manager/oe-workdir/package/usr/bin/phosphor-bmc-state-manager

  3. Create a safe file system for your application

    Now is time to load your Hello World application in to QEMU virtual hardware. The OpenBMC overrides the PATH variable to always look in /usr/local/bin/ first so you could simply scp your application in to /usr/local/bin, run it and be done. That works fine for command line tests, but when you start launching your applications via systemd services you will hit problems since application paths are hardcoded in the service files. Let's start our journey doing what the professionals do and create an overlay file system. Overlays will save you time and grief. No more renaming and recovering original files, no more forgetting which files you messed with during debug, and of course, no more bricking the system. Log in to the QEMU instance and run these commands.

    mkdir -p /tmp/persist/usr
    mkdir -p /tmp/persist/work/usr
    mount -t overlay -o lowerdir=/usr,upperdir=/tmp/persist/usr,workdir=/tmp/persist/work/usr overlay /usr
    
  4. scp this binary onto your QEMU instance

    If you used the default ports when starting QEMU then here is the scp command to run from your phosphor-state-manager directory. If you chose your own port then substitute that here for the 2222.

    scp -P 2222 ./workspace/sources/phosphor-state-manager/oe-workdir/package/usr/bin/phosphor-bmc-state-manager root@127.0.0.1:/usr/bin/
    

Run the Application in QEMU

  1. Stop the BMC state manager service

    systemctl stop xyz.openbmc_project.State.BMC.service
    
  2. Run the application in your QEMU session:

    phosphor-bmc-state-manager
    

    You'll see your "Hello World Again" message displayed. Ctrl^C to end that application. In general, this is not how you will test new applications. Instead, you'll be using systemd services.

  3. Start application via systemd service

    OpenBMC uses systemd to manage its applications. There will be later tutorials on this, but for now just run the following to restart the BMC state service and have it pick up your new application:

    systemctl restart xyz.openbmc_project.State.BMC.service
    

    Since systemd started your service, the "Hello World Again" will not be output to the console, but it will be in the journal. Later tutorials will discuss the journal but for now just run:

    journalctl | tail
    

    You should see something like this in one of the journal entries:

    <date> romulus phosphor-bmc-state-manager[1089]: Hello World Again
    

That's it! You customized an existing BMC application, built it using devtool, and ran it within QEMU by both regenerating the entire flash image and patching it on via scp!

Advanced Workflow

Once you've got a good handle on the above, there are some more advanced tools and wrappers you can utilize to optimize this flow. See this link for more information.