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gerrit.openbmc.org / openbmc / openbmc / 30790c4f4eca83f7b01203c6c496e6c0b0ef2258
commit30790c4f4eca83f7b01203c6c496e6c0b0ef2258[log] [tgz]
authorBrad Bishop <bradleyb@fuzziesquirrel.com>Thu Dec 13 09:16:19 2018 -0500
committerBrad Bishop <bradleyb@fuzziesquirrel.com>Mon Dec 17 14:38:09 2018 +0000
tree7d38570f9c733547a5f7ba3665d7e0cede4517cb
parentcb5ea440aecd8e9620aa668fc9903c008f64d8f9 [diff]
u-boot-aspeed: workaround old in-tree libfdt

U-boot has its own FDT implementation but it isn't isolated in terms
of include search paths very well in our ~2016 snapshot.

Prior to now (December 2018) it wasn't noticeable but with the move to
yocto 2.6 and libfdt 1.4.5 the FDT implementations are different enough
that if you have libfdt headers installed on your build host (which
under Yocto, is _always_) you will have host contanmination and 2016
u-boot will fail to build.

Work was done in upstream u-boot during 2018 to address this, but
backporting would be a not-insignificant level of effort.  Instead, use
the following hack until such a time that we can rebase on a more
recent (circa end of 2018) u-boot tree.

(From meta-aspeed rev: 7f8140089d95a529bf50c6c71112385607a64bcf)

Change-Id: I7513e2c651040fab55c2e500a6e801d4f5120d9d
Signed-off-by: Brad Bishop <bradleyb@fuzziesquirrel.com>
1 file changed
tree: 7d38570f9c733547a5f7ba3665d7e0cede4517cb
  1. meta-arm/
  2. meta-aspeed/
  3. meta-evb/
  4. meta-facebook/
  5. meta-google/
  6. meta-hxt/
  7. meta-ibm/
  8. meta-ingrasys/
  9. meta-inspur/
  10. meta-intel/
  11. meta-inventec/
  12. meta-mellanox/
  13. meta-nuvoton/
  14. meta-openembedded/
  15. meta-openpower/
  16. meta-phosphor/
  17. meta-portwell/
  18. meta-qualcomm/
  19. meta-quanta/
  20. meta-raspberrypi/
  21. meta-security/
  22. meta-x86/
  23. meta-xilinx/
  24. poky/
  25. bitbakepoky/bitbake/
  26. LICENSEpoky/LICENSE
  27. metapoky/meta
  28. meta-pokypoky/meta-poky/
  29. meta-skeletonpoky/meta-skeleton
  30. oe-init-build-envpoky/oe-init-build-env
  31. scriptspoky/scripts/
  32. .gitignore
  33. .gitreview
  34. .templateconf
  35. MAINTAINERS
  36. openbmc-env
  37. README.md
  38. setup
README.md

OpenBMC

Build Status

The OpenBMC project can be described as a Linux distribution for embedded devices that have a BMC; typically, but not limited to, things like servers, top of rack switches or RAID appliances. The OpenBMC stack uses technologies such as Yocto, OpenEmbedded, systemd, and D-Bus to allow easy customization for your server platform.

Setting up your OpenBMC project

1) Prerequisite

  • Ubuntu 14.04
sudo apt-get install -y git build-essential libsdl1.2-dev texinfo gawk chrpath diffstat
  • Fedora 28
sudo dnf install -y git patch diffstat texinfo chrpath SDL-devel bitbake rpcgen
sudo dnf groupinstall "C Development Tools and Libraries"

2) Download the source

git clone git@github.com:openbmc/openbmc.git
cd openbmc

3) Target your hardware

Any build requires an environment variable known as TEMPLATECONF to be set to a hardware target. You can see all of the known targets with find meta-* -name local.conf.sample. Choose the hardware target and then move to the next step. Additional examples can be found in the OpenBMC Cheatsheet

MachineTEMPLATECONF
Palmettometa-ibm/meta-palmetto/conf
Zaiusmeta-ingrasys/meta-zaius/conf
Witherspoonmeta-ibm/meta-witherspoon/conf
Romulusmeta-ibm/meta-romulus/conf

As an example target Palmetto

export TEMPLATECONF=meta-ibm/meta-palmetto/conf

4) Build

. openbmc-env
bitbake obmc-phosphor-image

Additional details can be found in the docs repository.

Build Validation and Testing

Commits submitted by members of the OpenBMC GitHub community are compiled and tested via our Jenkins server. Commits are run through two levels of testing. At the repository level the makefile make check directive is run. At the system level, the commit is built into a firmware image and run with an arm-softmmu QEMU model against a barrage of CI tests.

Commits submitted by non-members do not automatically proceed through CI testing. After visual inspection of the commit, a CI run can be manually performed by the reviewer.

Automated testing against the QEMU model along with supported systems are performed. The OpenBMC project uses the Robot Framework for all automation. Our complete test repository can be found here.

Submitting Patches

Support of additional hardware and software packages is always welcome. Please follow the contributing guidelines when making a submission. It is expected that contributions contain test cases.

Bug Reporting

Issues are managed on GitHub. It is recommended you search through the issues before opening a new one.

Features of OpenBMC

Feature List

  • REST Management
  • IPMI
  • SSH based SOL
  • Power and Cooling Management
  • Event Logs
  • Zeroconf discoverable
  • Sensors
  • Inventory
  • LED Management
  • Host Watchdog
  • Simulation
  • Code Update Support for multiple BMC/BIOS images

Features In Progress

  • Full IPMI 2.0 Compliance with DCMI
  • Verified Boot
  • HTML5 Java Script Web User Interface
  • BMC RAS

Features Requested but need help

  • OpenCompute Redfish Compliance
  • OpenBMC performance monitoring
  • cgroup user management and policies
  • Remote KVM
  • Remote USB
  • OpenStack Ironic Integration
  • QEMU enhancements

Finding out more

Dive deeper in to OpenBMC by opening the docs repository.

Contact