Difference between revisions of "Compiling Firmware"
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===Recovering from failed firmware updates=== | ===Recovering from failed firmware updates=== | ||
− | See [[ | + | See [[Debricking the BMC]]. |
[[Category:Guides]] | [[Category:Guides]] |
Revision as of 13:05, 2 March 2019
Contents
Purpose
The following steps can be used to compile and update the firmware on Raptor CS's OpenPOWER systems, such as the Talos II or Blackbird.
Applicability
All RCS OpenPOWER systems.
Requirements
- At least 25GB of free hard drive space
- 16GB of free RAM
Building on Debian
The build system (op-build) has been primarily tested using Debian Stretch. Ensure you install the following packages:
# Packages needed for OpenPOWER Firmware builds $ sudo apt install cscope ctags libz-dev libexpat-dev python texinfo build-essential g++ git bison flex unzip libssl-dev libxml-simple-perl libxml-sax-perl libxml2-dev libxml2-utils xsltproc wget bc rsync # Packages needed for OpenBMC builds $ sudo apt install git build-essential libsdl1.2-dev texinfo gawk chrpath diffstat
Building on other Linux distributions
If you are on a different distribution, such as Fedora 28, a Debian chroot is recommended:
$ sudo yum install debootstrap dpkg $ sudo debootstrap stretch debian-chroot http://httpredir.debian.org/debian $ sudo mount -t proc none debian-chroot/proc/ $ sudo mount -o bind /sys/ debian-chroot/sys/ $ sudo mount -o bind /dev/shm/ debian-chroot/dev/shm/
Enter the chroot and install the needed packages:
$ sudo chroot debian-chroot/ # apt install software-properties-common locales # Packages needed for OpenPOWER Firmware builds $ sudo apt install cscope ctags libz-dev libexpat-dev python texinfo build-essential g++ git bison flex unzip libssl-dev libxml-simple-perl libxml-sax-perl libxml2-dev libxml2-utils xsltproc wget bc rsync # Packages needed for OpenBMC builds $ sudo apt install git build-essential libsdl1.2-dev texinfo gawk chrpath diffstat
Also create a user inside the chroot to build under:
$ useradd -m build-user -s /bin/bash $ su build-user $ cd
You can now use the chroot to build the firmware.
To enter the chroot in the future, you can run the following from any terminal:
sudo chroot debian-chroot/ su build-user cd
Building the OpenPOWER Firmware
Downloading the sources
Raptor CS maintains a public Git repository containing the complete source code for the firmware. To download the source code:
git clone -b raptor-v1.06 --recursive https://scm.raptorcs.com/scm/git/talos-op-build
Note: The master branch is often in a non-functional state. The latest firmware branch (raptor-v1.06 at the time of this update) should be used.
Building the firmware
Before building the firmware, check the README.md file to ensure that all needed packages are installed.
The firmware can then be built using the following commands:
$ cd talos-op-build $ . op-build-env $ op-build talos_defconfig $ op-build
You can pass -j<num-cores> to perform a parallel build (op-build invokes make), though this may result in very high memory usage.
If the build completes successfully, the final firmware image is at output/images/talos.pnor.
Rebuilding an individual package
To rebuild an individual package (such as Hostboot) and recreate the talos.pnor image, run:
$ op-build pkgname-rebuild openpower-pnor-rebuild
where pkgname is the name of the package to rebuild.
For example:
$ op-build hostboot-rebuild openpower-pnor-rebuild
Installing the OpenPOWER firmware
Transfer image to BMC
Copy the firmware to the BMC:
$ scp ./output/images/talos.pnor root@$TALOS_BMC_ADDR:/tmp/
Establish BMC sessions
At this point, you should connect two SSH sessions to OpenBMC. In the first session, run the following to display the console during boot:
$ ssh -p 2200 root@$TALOS_BMC_ADDR
The console log will be useful in debugging any issues with the firmware that could occur.
In the second session, get a shell on the BMC via SSH:
$ ssh root@$TALOS_BMC_ADDR root@talos:~#
Ensure the system is off before proceeding:
root@talos:~# 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
The CurrentHostState must be Off before continuing with the procedure. If the CurrentHostState is not Off, please turn off the machine:
root@talos:~# obmcutil chassisoff
Running the firmware temporarily
You can test the firmware without installing it, though this requires rebuilding OpenBMC to use a modified mboxd binary.
First, stop mboxd:
root@talos:~# systemctl stop mboxd
Restart mboxd with the additional -b argument:
root@talos:~# mboxd -f 64M -w 1M -b /tmp/talos.pnor
You can now test the new firmware image by starting the machine:
root@talos:~# obmcutil poweron
When you have finished testing the image, stop the machine:
root@talos:~# obmcutil poweroff
Note: Ensure the machine is off before proceeding. Verify this by running obmcutil state.
Finally, terminate mboxd and restart the normal mboxd:
root@talos:~# systemctl start mboxd
Flashing the firmware
Ensure the system is off.
Perform the update:
root@talos:~# pflash -E -p /tmp/talos.pnor
Start the machine:
root@talos:~# obmcutil poweron
Note: The machine may reboot multiple times when first booted after a firmware update. This is normal; do not interrupt the process.
Troubleshooting the OpenPOWER Firmware
General advice
- Always upgrade PNOR and BMC together
- Many mismatched PNOR/BMC version combinations lead to weird failures.
- Try downgrading the PNOR+BMC firmware
- Firmware package 1.04 seems the most reliable at updating the SBE SEEPROM inside the POWER9 chip package.
- Always use processor socket 0 for SBE updates
- The BMC firmware and/or FSI driver seem to either forget to update the SBE SEEPROM in the second CPU socket, leading to a boot with only CPU 0 active. When you get a brand new chip you need to install it in CPU socket 0 leaving socket 1 empty, wait for the double-reboot to update the SEEPROM, and then you can move that chip to socket 1 if you like.
- Try unplugging the HSF fan power during SBE update
- Not kidding about this. The BMC is insanely complicated — it's got an entire operating system in there for some reason. It even has systemd. The BMC's systemd often gets into a funky loop restarting hwmon over and over and over, interrupting the SBE SEEPROM reflash every time it does this. Unplugging the PROC0 HSF 4-pin connector gets it to fail hard (due to inability to read the tachometer) and stay failed so the SBE update can proceed. Ugly as this is, it's easier than trying to figure out what systemd thinks it's doing.
SBE_MASTER_VERSION_DOWNLEVEL
If you see the following message reported in the console, then the SBE update process did not work as expected:
16.74709|Error reported by sbe (0x2200) PLID 0x90000008 16.74823| SBE Image Version Miscompare with Master Target 16.74824| ModuleId 0x0d SBE_MASTER_VERSION_COMPARE 16.74825| ReasonCode 0x2215 SBE_MASTER_VERSION_DOWNLEVEL 16.74826| UserData1 Master Target HUID : 0x0000000000050000 16.74826| UserData2 Master Target Loop Index : 0x0000000000000000
The machine needs to be reset to finish the update procedure:
root@talos:~# obmcutil chassisoff root@talos:~# systemctl stop xyz.openbmc_project.State.Host.service root@talos:~# systemctl start xyz.openbmc_project.State.Host.service root@talos:~# obmcutil poweron
The update should now complete as expected.
A bug report is open to track this issue.
internal compiler error: Killed
Building the Hostboot source code requires a large amount of RAM. If your machine runs out, you may see an error similar to the following:
powerpc64le-buildroot-linux-gnu-g++.br_real: internal compiler error: Killed (program cc1plus)
To continue you have a few options:
- Reduce the number of parallel jobs being run by appending -j<num> to you build command line
op-build -j4
- Increase the swap space (not recommended)
- Install additional RAM
Building the OpenBMC firmware
Downloading the sources
Raptor CS maintains a public Git repository containing the complete source code for the firmware. To download the source code:
$ git clone -b raptor-v1.07 https://git.raptorcs.com/git/talos-openbmc
Building the firmware
Ensure that all needed support packages are installed. See the README.md for information on needed packages.
The firmware can then be built using the following commands:
$ cd talos-openbmc $ export TEMPLATECONF=meta-openbmc-machines/meta-openpower/meta-rcs/meta-talos/conf $ . openbmc-env $ bitbake obmc-phosphor-image
The resulting firmware image can then be found in the tmp/deploy/images/talos/ directory.
Note: If mboxd fails to build, you may need to patch mboxd.bb.
Installing the firmware
Once firmware has been built, the resulting image-kernel and image-rofs binaries must be copied to /run/initramfs/ on the BMC:
$ scp tmp/deploy/images/talos/image-rofs tmp/deploy/images/talos/image-kernel root@$TALOS_BMC_ADDR:/run/initramfs/
Once the images have been transferred, reboot the BMC. The new firmware files will be detected and automatically applied.
root@talos:~# reboot
The reboot may take some time. Once complete, you will be able to log back in via SSH.
Recovering from failed firmware updates
See Debricking the BMC.