175 lines
7.9 KiB
Markdown
175 lines
7.9 KiB
Markdown
# Project Ideas
|
|
|
|
This section collects ideas to improve coreboot and related projects and
|
|
should serve as a pool of ideas for people who want to enter the field
|
|
of firmware development but need some guidance what to work on.
|
|
|
|
These tasks can be adopted as part of programs like Google Summer of
|
|
Code or by motivated individuals outside such programs.
|
|
|
|
Each entry should outline what would be done, the benefit it brings
|
|
to the project, the pre-requisites, both in knowledge and parts. They
|
|
should also list people interested in supporting people who want to work
|
|
on them - since we started building this list for Google Summer of Code,
|
|
we'll adopt its term for those people and call them mentors.
|
|
|
|
The requirements for each project aim for productive work on the project,
|
|
but it's always possible to learn them "on the job". If you have any
|
|
doubt if you can bring yourself up to speed in a required time frame
|
|
(e.g. for GSoC), feel free to ask in the community or the mentors listed
|
|
with the projects. We can then try together to figure out if you're a
|
|
good match for a project, even when requirements might not all be met.
|
|
|
|
## Provide toolchain binaries
|
|
Our crossgcc subproject provides a uniform compiler environment for
|
|
working on coreboot and related projects. Sadly, building it takes hours,
|
|
which is a bad experience when trying to build coreboot the first time.
|
|
|
|
Provide packages/installers of our compiler toolchain for Linux distros,
|
|
Windows, Mac OS. For Windows, this should also include the environment
|
|
(shell, make, ...).
|
|
|
|
The scripts to generate these packages should be usable on a Linux
|
|
host, as that's what we're using for our automated build testing system
|
|
that we could extend to provide current packages going forward. This
|
|
might include automating some virtualization system (eg. QEMU or CrosVM) for
|
|
non-Linux builds or Docker for different Linux distributions.
|
|
|
|
### Requirements
|
|
* coreboot knowledge: Should know how to build coreboot images and where
|
|
the compiler comes into play in our build system.
|
|
* other knowledge: Should know how packages or installers for their
|
|
target OS work. Knowledge of the GCC build system is a big plus
|
|
* hardware requirements: Nothing special
|
|
|
|
### Mentors
|
|
* Patrick Georgi <patrick@georgi.software>
|
|
|
|
## Support Power9/Power8 in coreboot
|
|
There are some basic PPC64 stubs in coreboot, and there's open hardware
|
|
in TALOS2 and its family. While they already have fully open source
|
|
firmware, coreboot support adds a unified story for minimal firmware
|
|
across architectures.
|
|
|
|
### Requirements
|
|
* coreboot knowledge: Should be familiar with making chipset level
|
|
changes to the code.
|
|
* other knowledge: A general idea of the Power architecture, the more,
|
|
the better
|
|
* hardware requirements: QEMU Power bring-up exists, and even if it
|
|
probably needs to be fixed up, that shouldn't be an exceedingly large
|
|
task. For everything else, access to real Power8/9 hardware and recovery
|
|
tools (e.g. for external flashing) is required.
|
|
|
|
### Mentors
|
|
* Timothy Pearson <tpearson@raptorengineering.com>
|
|
|
|
## Support QEMU AArch64 or MIPS
|
|
Having QEMU support for the architectures coreboot can boot helps with
|
|
some (limited) compatibility testing: While QEMU generally doesn't need
|
|
much hardware init, any CPU state changes in the boot flow will likely
|
|
be quite close to reality.
|
|
|
|
That could be used as a baseline to ensure that changes to architecture
|
|
code doesn't entirely break these architectures
|
|
|
|
### Requirements
|
|
* coreboot knowledge: Should know the general boot flow in coreboot.
|
|
* other knowledge: This will require knowing how the architecture
|
|
typically boots, to adapt the coreboot payload interface to be
|
|
appropriate and, for example, provide a device tree in the platform's
|
|
typical format.
|
|
* hardware requirements: since QEMU runs practically everywhere and
|
|
needs no recovery mechanism, these are suitable projects when no special
|
|
hardware is available.
|
|
|
|
### Mentors
|
|
* Patrick Georgi <patrick@georgi.software>
|
|
|
|
## Add Kernel Address Sanitizer functionality to coreboot
|
|
The Kernel Address Sanitizer (KASAN) is a runtime dynamic memory error detector.
|
|
The idea is to check every memory access (variables) for its validity
|
|
during runtime and find bugs like stack overflow or out-of-bounds accesses.
|
|
Implementing this stub into coreboot like "Undefined behavior sanitizer support"
|
|
would help to ensure code quality and make the runtime code more robust.
|
|
|
|
### Requirements
|
|
* knowledge in the coreboot build system and the concept of stages
|
|
* the KASAN feature can be improved in a way so that the memory space needed
|
|
during runtime is not on a fixed address provided during compile time but
|
|
determined during runtime. For this to achieve a small patch to the GCC will
|
|
be helpful. Therefore minor GCC knowledge would be beneficial.
|
|
* Implementation can be initially done in QEMU and improved on different
|
|
mainboards and platforms
|
|
|
|
### Mentors
|
|
* Werner Zeh <werner.zeh@gmx.net>
|
|
|
|
## Port payloads to ARM, AArch64, MIPS or RISC-V
|
|
While we have a rather big set of payloads for x86 based platforms, all other
|
|
architectures are rather limited. Improve the situation by porting a payload
|
|
to one of the platforms, for example GRUB2, U-Boot (the UI part), Tianocore,
|
|
yabits, FILO, or Linux-as-Payload.
|
|
|
|
Since this is a bit of a catch-all idea, an application to GSoC should pick a
|
|
combination of payload and architecture to support.
|
|
|
|
### Requirements
|
|
* coreboot knowledge: Should know the general boot flow in coreboot
|
|
* other knowledge: It helps to be familiar with the architecture you want to
|
|
work on.
|
|
* hardware requirements: Much of this can be done in QEMU or other emulators,
|
|
but the ability to test on real hardware is a plus.
|
|
|
|
### Mentors
|
|
* Simon Glass <sjg@chromium.org> for U-Boot payload projects
|
|
|
|
## Fully support building coreboot with the Clang compiler
|
|
Most coreboot code is written in C, and it would be useful to support
|
|
a second compiler suite in addition to gcc. Clang is another popular
|
|
compiler suite and the build system generally supports building coreboot
|
|
with it, but firmware is a rather special situation and we need to
|
|
adjust coreboot and Clang some more to get usable binaries out of that
|
|
combination.
|
|
|
|
The goal would be to get the emulation targets to boot reliably first,
|
|
but also to support real hardware. If you don't have hardware around,
|
|
you likely will find willing testers for devices they own and work from
|
|
their bug reports.
|
|
|
|
### Requirements
|
|
* coreboot knowledge: Have a general concept of the build system
|
|
* Clang knowledge: It may be necessary to apply minor modifications to Clang
|
|
itself, but at least there will be Clang-specific compiler options etc to
|
|
adapt, so some idea how compilers work and how to modify their behavior is
|
|
helpful.
|
|
* hardware requirements: If you have your own hardware that is already
|
|
supported by coreboot that can be a good test target, but you will debug
|
|
other people's hardware, too.
|
|
* debugging experience: It helps if you know how to get the most out of a bug
|
|
report, generate theories, build patches to test them and figure out what's
|
|
going on from the resulting logs.
|
|
|
|
### Mentors
|
|
* Patrick Georgi <patrick@georgi.software>
|
|
|
|
## Make coreboot coverity clean
|
|
coreboot and several other of our projects are automatically tested
|
|
using Synopsys' free "Coverity Scan" service. While some fare pretty
|
|
good, like [em100](https://scan.coverity.com/projects/em100) at 0 known
|
|
defects, there are still many open issues in other projects, most notably
|
|
[coreboot](https://scan.coverity.com/projects/coreboot) itself (which
|
|
is also the largest codebase).
|
|
|
|
Not all of the reports are actual issues, but the project benefits a
|
|
lot if the list of unhandled reports is down to 0 because that provides
|
|
a baseline when future changes reintroduce new issues: it's easier to
|
|
triage and handle a list of 5 issues rather than more than 350.
|
|
|
|
This project would be going through all reports and handling them
|
|
appropriately: Figure out if reports are valid or not and mark them
|
|
as such. For valid reports, provide patches to fix the underlying issue.
|
|
|
|
### Mentors
|
|
* Patrick Georgi <patrick@georgi.software>
|