Difference between revisions of "User:Aarondabomb/PineNote Development/Building Kernel new"

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(Created page with "= Building the Kernel = After followed [https://github.com/DorianRudolph/pinenotes#starter-guide Dorian's directions] to get Arch installed you've seen someone [https://github.com/m-weigand/mw_pinenote_misc/blob/main/videos/20220808_bw_dither_mode_picture_doom_video_small.mp4 playing DOOM] and you want to learn how to get the features that enable that kind of performance. To get your PN running this smoothly, we'll need to build our own kernel. There are two major kern...")
 
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<li> Clone Maximilian's repository: </li>
<li> Clone Maximilian's repository: </li>
<pre> $ git clone https://github.com/m-weigand/linux.git </pre>
<pre> $ git clone https://github.com/m-weigand/linux.git </pre>
<li> </li>
<li> If this is your first Kernel, download the arm toolchain. Which version you want depends on your host machine (the machine which will do the compiling). The target machine is the PineNote, which is a <pre>AArch64 GNU/Linux target (aarch64-none-linux-gnu)</pre> target.
<li> Compile the kernel: </li>
</li>
<pre> $ sh ./mw_pinenote_misc/custom_kernel/compile.sh </pre>
<li> Compile the kernel:
  <ol>
    <li> Set the necessary environment variables:
    <pre>
    export CROSS_COMPILE="<PATH_TO_TOOLCHAIN>/arm-gnu-toolchain-11.3.rel1-x86_64-aarch64-none-linux-gnu/bin/aarch64-none-linux-gnu-"
    export ARCH=arm64
    </li>
  </ol>
</li>
<li> Next we want to perform the work captured in <code>install_to_pn.sh</code>, but the work may vary slightly from person to person. For example, I believe Maximilian is running Debian Sid, and I am running Manjaro -- because of this, and personal preference, some of our files live at different places. As long as you put them somewhere and configure your <code>extlinux.conf</code> to point at it, things will be okay. Looking at <code>install_to_pn.sh</code>, we can see that there are three pieces to installing the kernel: the kernel image (called <code>Image</code>), the device tree (<code>rk3566-pinenote-v1.2.dtb</code>), and the modules. All of these files have been compiled and placed into the <code>linux/pack</code> folder. The easiest way to send these over is by using scp or rsync -- read the script and decide how you would like to get your files in the correct location. You may need to install rsync on your PineNote if it doesn't already have it.
<li> Next we want to perform the work captured in <code>install_to_pn.sh</code>, but the work may vary slightly from person to person. For example, I believe Maximilian is running Debian Sid, and I am running Manjaro -- because of this, and personal preference, some of our files live at different places. As long as you put them somewhere and configure your <code>extlinux.conf</code> to point at it, things will be okay. Looking at <code>install_to_pn.sh</code>, we can see that there are three pieces to installing the kernel: the kernel image (called <code>Image</code>), the device tree (<code>rk3566-pinenote-v1.2.dtb</code>), and the modules. All of these files have been compiled and placed into the <code>linux/pack</code> folder. The easiest way to send these over is by using scp or rsync -- read the script and decide how you would like to get your files in the correct location. You may need to install rsync on your PineNote if it doesn't already have it.
   <ol><li>If it helps, I installed my dtb like this: <code>$ scp rk3566-pinenote-v1.2.dtb root@pinenote:/boot/dtbs/rockchip/</code></li>
   <ol><li>If it helps, I installed my dtb like this: <code>$ scp rk3566-pinenote-v1.2.dtb root@pinenote:/boot/dtbs/rockchip/</code></li>

Revision as of 15:51, 10 October 2022

Building the Kernel

After followed Dorian's directions to get Arch installed you've seen someone playing DOOM and you want to learn how to get the features that enable that kind of performance. To get your PN running this smoothly, we'll need to build our own kernel. There are two major kernel efforts:

  1. pgwipeout: https://gitlab.com/pgwipeout/linux-next
  2. smaeul: https://github.com/smaeul/linux/tree/rk35/pinenote-next

And then there is a third effort adding to smaeul's efforts by incorporating various community patches and several new features:

  1. maximilian: https://github.com/m-weigand/linux

Of course, most of the work in the kernel has been in creating a DRM driver for the eink display. You can learn more about the driver by reading Smaeul's RFC.

A small warning

These changes are all experimental and may damage your panel. However, there have been no confirmed instances of damage from this work and only a few mysterious hardware issues that may be entirely unrelated.

Note: If anyone reading this has recommended reading for how we can understand what may damage our panels (IE is the risk in fast updates? The types of updates? something more complicated?), please add it here!

What you should have already done

I assume you've already got an operating system installed on your Pinenote other than the stock Android. Doing this isn't trivial, but it is well understood -- you will be following the footsteps of many others. Dorian Rudolph made a guide for doing this, available here.

TODO: rewrite this guide in the wiki.

What do you need to know?

If you followed Dorian's guide to get here and felt semi-comfortable, you'll be fine. This is no more complicated than that. If you are intimidated, that's okay! I'll still encourage you to try :) you will learn a lot, just be patient and don't put any data on your PineNote that you wouldn't be okay losing. If you run into trouble, ask for help in the Discord/Matrix. Please try to solve problems on your own first, and then ask for help -- if nobody replies, please be patient and ask again soon.

Steps to build

  1. Clone Maximilian's repository:
  2.  $ git clone https://github.com/m-weigand/linux.git 
  3. If this is your first Kernel, download the arm toolchain. Which version you want depends on your host machine (the machine which will do the compiling). The target machine is the PineNote, which is a
    AArch64 GNU/Linux target (aarch64-none-linux-gnu)
    target.
  4. Compile the kernel:
    1. Set the necessary environment variables:
          export CROSS_COMPILE="<PATH_TO_TOOLCHAIN>/arm-gnu-toolchain-11.3.rel1-x86_64-aarch64-none-linux-gnu/bin/aarch64-none-linux-gnu-"
          export ARCH=arm64
          </li>
        </ol>
      </li>
      <li> Next we want to perform the work captured in <code>install_to_pn.sh</code>, but the work may vary slightly from person to person. For example, I believe Maximilian is running Debian Sid, and I am running Manjaro -- because of this, and personal preference, some of our files live at different places. As long as you put them somewhere and configure your <code>extlinux.conf</code> to point at it, things will be okay. Looking at <code>install_to_pn.sh</code>, we can see that there are three pieces to installing the kernel: the kernel image (called <code>Image</code>), the device tree (<code>rk3566-pinenote-v1.2.dtb</code>), and the modules. All of these files have been compiled and placed into the <code>linux/pack</code> folder. The easiest way to send these over is by using scp or rsync -- read the script and decide how you would like to get your files in the correct location. You may need to install rsync on your PineNote if it doesn't already have it.
        <ol><li>If it helps, I installed my dtb like this: <code>$ scp rk3566-pinenote-v1.2.dtb root@pinenote:/boot/dtbs/rockchip/</code></li>
            <li>After installing the dtb as above, I updated my <code>/boot/extlinux/extlinux.conf</code> to point to this new file (previously, my dtb did not have the <code>-v1.2</code> on the end).</li>
      </li>
      <li> (Perhaps not necessary?) The last step is to generate a new initrd image. (If you're like me and don't know what initrd is, the [https://en.wikipedia.org/wiki/Initial_ramdisk wiki] is very enlightening.) This is done on the PineNote itself. Send Maximilian's installation script over and run it. Then place the generated image (from the last step of the shell script) into your boot partition and update <code>extlinux.conf</code> if needed to point at this new file.  
      <pre>
       $ scp initrd/gen_uboot_image.sh root@pinenote:/root # Do this part on local to put script on PN
       $ ssh root@pinenote # Or use UART, the dongle + picocom, and change to root
       $ cd /root
       $ ./gen_uboot_image.sh
       $ mv initrd.img /boot/initrd.img
       $ vim /boot/extlinux/extlinux.conf # Update this to reference this new initrd image
      
    2. At this point your kernel is in place! However, there are a few more steps you may need to complete to ensure the display and networking continue to work:
      1. For display, you may need to change /lib/firmware/waveform.bin to /lib/firmware/rockchip/ebc.wbf (TODO is this a difference between PG and smaeul's kernel? or a patch?)
      2. For networking (and I imagine more as well), you may need to change /lib/firmware/pinenote.bin to /lib/firmware/pinenote-v1.2.bin
    3. This part technically isn't kernel specific, but we need to install a patched version of Mesa. If you are running an Arch based system, you're in luck! occam_razor provides prebuilt patched packages (say that 5 times fast) here. Simply extract these files, send them to PN, and install them using the package manager. You can also patch it yourself by looking at Maximilian's compile_mesa.sh.
      Note: If you frequently update your system with something `pacman -Syu`, you will end up updating these packages and losing the patches. Add this line to your /etc/pacman.conf to prevent them from being updated:
      IgnorePkg = libva-mesa-driver mesa mesa-debug mesa-vdpau opencl-mesa vulkan-mesa-layers vulkan-broadcom vulkan-panfrost vulkan-radeon vulkan-swrast
    4. To ensure the GPU stays on, we need to use Maximilian's mweigand_eglinfo.service. The Readme.md in that same directory has instructions for how to install this, but basically we need to copy it to /etc/systemd/system/, run sudo systemctl daemon-reload to make sure systemd knows it exists, then execute sudo systemctl enable mweigand_eglinfo.service
    5. .

    That should be it! Now are equipped with the freshest kernel + patches.

    Next Steps

    Configuring the driver

    The driver has several options that can improve performance. These can be read about here. Personally, I use rockchip_ebc.bw_mode=1 rockchip_ebc.default_waveform=1 rockchip_ebc.refresh_threshold=30 rockchip_ebc.auto_refresh=1 to make the image lower quality, but much faster to update. The auto_refresh setting is also essential to clear ghosting which will otherwise accrue on screen. I added the above settings the APPEND line in my extlinux.conf to make sure they are applied on boot.

    Fixing Suspend

    If you're using a logind system, edit your /etc/systemd/logind.conf config. More information on what to do in Arch's documentation.

    Configuring your apps

    See this page.

    Booting Linux instead of Android

    PineNote Development/Booting Linux

    Fixing Bluetooth

    Some users have noticed instability with their wireless driver. Upgrading the driver to the version provided by LibreELEC may help! To do this, download the BCM4345C0.hcd, brcmfmac43455-sdio.bin, and brcmfmac43455-sdio.txt from the libreELEC repositories and place them in the same location as your previous firmware. Then rename brcmfmac43455-sdio.{txt,bin} as `brcmfmac43455-sdio.pine64,pinenote-v1.2.{txt,bin}`. If this doesn't help, ask about it in the matrix chat!

    Autoconnect to your Bluetooth devices

    This bluetooth-autoconnect project may help.