Upstreaming of mediatek helios board
an idea by mbrugger
Updated over 5 years ago. 3 hacker ♥️. Has no hacker: grab it!

The only Mediatek "hacker" board available is from 96 Boards [1]. Unfortunately up to now there is nearly no mainline support. Idea would be to improve this situation. The idea would be to get the pin-controller merged first and then hopefully most of the other stuff can be just added (fingers crossed...)

[1] http://www.96boards.org/product/mediatek-x20/

No Hackers yet

Join this project

Looking for hackers with the skills:

arm64 kernel

This project is part of:

Hack Week 15 Hack Week 16 Hack Week 19

Activity

  • over 5 years ago: mbrugger left this project.
  • over 7 years ago: ptesarik liked this project.
  • almost 8 years ago: michals liked this project.
  • almost 8 years ago: a_faerber liked this project.
  • over 8 years ago: mbrugger added keyword "arm64" to this project.
  • over 8 years ago: mbrugger added keyword "kernel" to this project.
  • over 8 years ago: mbrugger started this project.
  • over 8 years ago: mbrugger originated this project.


    • Comments

    Be the first to comment!

    Similar Projects

    Create openSUSE images for Arm/RISC-V boards by avicenzi

    Project Description

    Create openSUSE images (or test generic EFI images) for Arm and/or RISC-V boards that are not yet supported.

    Goal for this Hackweek

    Create bootable images of Tumbleweed for SBCs that currently have no images available or are untested.

    Consider generic EFI images where possible, as some boards can hold a bootloader.

    Document in the openSUSE Wiki how to flash and use the image for a given board.

    Boards that I have around and there are no images:

    • Rock 3B
    • Nano PC T3 Plus
    • Lichee RV D1
    • StartFive VisionFive (has some image needs testing)

    Hack Week 22

    Hack Week 21

    Resources

    pudc - A PID 1 process that barks to the internet by mssola

    Description

    As a fun exercise in order to dig deeper into the Linux kernel, its interfaces, the RISC-V architecture, and all the dragons in between; I'm building a blog site cooked like this:

    • The backend is written in a mixture of C and RISC-V assembly.
    • The backend is actually PID1 (for real, not within a container).
    • We poll and parse incoming HTTP requests ourselves.
    • The frontend is a mere HTML page with htmx.

    The project is meant to be Linux-specific, so I'm going to use io_uring, pidfs, namespaces, and Linux-specific features in order to drive all of this.

    I'm open for suggestions and so on, but this is meant to be a solo project, as this is more of a learning exercise for me than anything else.

    Goals

    • Have a better understanding of different Linux features from user space down to the kernel internals.
    • Most importantly: have fun.

    Resources

    early stage kdump support by mbrugger

    Project Description

    When we experience a early boot crash, we are not able to analyze the kernel dump, as user-space wasn't able to load the crash system. The idea is to make the crash system compiled into the host kernel (think of initramfs) so that we can create a kernel dump really early in the boot process.

    Goal for the Hackweeks

    1. Investigate if this is possible and the implications it would have (done in HW21)
    2. Hack up a PoC (done in HW22 and HW23)
    3. Prepare RFC series (giving it's only one week, we are entering wishful thinking territory here).

    update HW23

    • I was able to include the crash kernel into the kernel Image.
    • I'll need to find a way to load that from init/main.c:start_kernel() probably after kcsan_init()
    • I workaround for a smoke test was to hack kexec_file_load() systemcall which has two problems:
      1. My initramfs in the porduction kernel does not have a new enough kexec version, that's not a blocker but where the week ended
      2. As the crash kernel is part of init.data it will be already stale once I can call kexec_file_load() from user-space.

    The solution is probably to rewrite the POC so that the invocation can be done from init.text (that's my theory) but I'm not sure if I can reuse the kexec infrastructure in the kernel from there, which I rely on heavily.

    update HW24

    • Day1
      • rebased on v6.12 with no problems others then me breaking the config
      • setting up a new compilation and qemu/virtme env
      • getting desperate as nothing works that used to work
    • Day 2
      • getting to call the invocation of loading the early kernel from __init after kcsan_init()

    • Day 3

      • fix problem of memdup not being able to alloc so much memory... use 64K page sizes for now
      • code refactoring
      • I'm now able to load the crash kernel
      • When using virtme I can boot into the crash kernel, also it doesn't boot completely (major milestone!), crash in elfcorehdr_read_notes()

    • Day 4

      • crash systems crashes (no pun intended) in copy_old_mempage() link; will need to understand elfcorehdr...
      • call path vmcore_init() -> parse_crash_elf_headers() -> elfcorehdr_read() -> read_from_oldmem() -> copy_oldmem_page() -> copy_to_iter()

    • Day 5

      • hacking arch/arm64/kernel/crash_dump.c:copy_old_mempage() to see if crash system really starts. It does.
      • fun fact: retested with more reserved memory and with UEFI FW, host kernel crashes in init but directly starts the crash kernel, so it works (somehow) \o/

    • TODOs

      • fix elfcorehdr so that we actually can make use of all this...
      • test where in the boot __init() chain we can/should call kexec_early_dump()