Difference between revisions of "PinePhone Pro Development"

From PINE64
Jump to navigation Jump to search
(→‎Upstreaming Status: Fix colour for modem: working but not upstreamed.)
(→‎Working: Fill out the status section.)
Line 33: Line 33:
=== Working ===
=== Working ===


TBD
==== System on Chip ====
 
Supported in Megi's orange-pi branches: https://megous.com/git/linux.
 
==== Display ====
 
Working.
 
==== Front camera ====
 
OV5640 camera has a driver used by PinePhone.
 
==== Back camera ====
 
Sony IMX258. Support unknown.
 
==== Sound ====
 
Not working. See https://gitlab.com/pine64-org/pine64-alsa-ucm/-/issues/4
 
==== Modem ====
 
Working. Supported in:
* Megi's orange-pi branches: https://megous.com/git/linux.
* https://gitlab.com/mobian1/devices/eg25-manager
 
==== Sensors ====
 
?


=== Linux kernel ===
=== Linux kernel ===

Revision as of 10:08, 9 December 2021

This page documents the current status of software support for the PinePhone Pro, and provides links to resources to help prospective contributors get started.

Overview

Upstreaming Status

Function Status Component Notes
Bootloader (u-boot) Working. Not upstreamed. https://github.com/dreemurrs-embedded/Pine64-Arch/tree/master/PKGBUILDS/pine64/uboot-pinephonepro uses https://git.sr.ht/~martijnbraam/u-boot.
Modem Working. Not upstreamed. Support in https://gitlab.com/mobian1/devices/eg25-manager and Megi's kernel.
Sound Unimplemented. See https://github.com/alsa-project/alsa-ucm-conf/issues/125.

Current Status

The following sections give an overview over the current status of different parts of the phone. Some parts are waiting on a driver to be written or ported, others only need various adjustments.

Working

System on Chip

Supported in Megi's orange-pi branches: https://megous.com/git/linux.

Display

Working.

Front camera

OV5640 camera has a driver used by PinePhone.

Back camera

Sony IMX258. Support unknown.

Sound

Not working. See https://gitlab.com/pine64-org/pine64-alsa-ucm/-/issues/4

Modem

Working. Supported in:

Sensors

?

Linux kernel

There's no canonical location for Pinephone Pro Linux kernel development, because Pinephone Pro DT is not mainline, yet. megi's kernel tree is the most complete one, as of November 2021.

Levinboot Based Kernel Development Image

This guide will help you get a comfortable environment for testing your kernel builds on Pinephone Pro. It assumes you either already know how to build or cross-build a Linux kernel for arm64, or if you have a way to get a pre-built kernel from somewhere. For a quick test that your setup works, you can use megi's pre-built kernels.

Quick and easy way to get started with kernel development and testing is to use CrystalGamma's Levinboot patched with support for Pinephone Pro and 3-option boot selection using volume keys. You will be able to switch between kernels quickly without swapping uSD cards, which is necessary for painless kernel development experience.

1) Create a following partitioning scheme on a uSD card using sfdisk:

label: gpt
first-lba: 64
table-length: 8

start=64, size=8128, type=D7B1F817-AA75-2F4F-830D-84818A145370, name="sd-lboot"
size=60M, type=E5AB07A0-8E5E-46F6-9CE8-41A518929B7C, name="sd-lpayload1"
size=60M, type=5f04b556-c920-4b6d-bd77-804efe6fae01, name="sd-lpayload2"
size=60M, type=c195cc59-d766-4b78-813f-a0e1519099d8, name="sd-lpayload3"
size=14G name="sd-rootfs1"
name="sd-rootfs2"

2) Write Levinboot to sd-lboot partition using dd. You can get a pre-built and tested version here There are two options levinboot-sd.img and levinboot-emmc.img you can use either one of them for your sd-lboot partition. They differ in where they load the payloads from (either from SD or eMMC) and not in where they can be flashed to. For uSD card only workflow, you'll want levinboot-sd.img.

3) Prepare payloads for Levinboot and copy them to appropriate partitions. Partition sd-lpayload1 is used by default, sd-lpayload2 when you hold a volume down key during powerup, and sd-lpayload3 when you hold the volume up key.

Preparing a payload involves getting a TF-A bl31.elf build, kernel Image build, DTB file for Pinephone Pro, and optionally an initramfs archive, modifying DTB to include kernel boot arguments, and compressing these using lz4 in specific order, as shown below.

BOOTOPTS=(
        console=tty1

        earlycon=uart8250,mmio32,0xff1a0000
        console=ttyS2,1500000n8

        root=PARTLABEL=emmc-rootfs1
        rootfstype=f2fs
        rootflags=fastboot
        rootwait
        rw

        loglevel=7
)

BOOTOPTS="${BOOTOPTS[@]}"
ALGO="lz4 -zc"

cp -f rk3399-pinephone-pro.dtb board-cfg.dtb
fdtput -pt s board-cfg.dtb /chosen bootargs "$BOOTOPTS"

(
        $ALGO bl31.elf
        $ALGO board-cfg.dtb
        $ALGO Image
#       $ALGO initramfs.img
) > payload.img

dd if=payload.img of=/dev/disk/by-partlabel/sd-payload1 bs=4M oflag=direct

4) Prepare root filesystem. You can use any Linux distribution for aarch64 for development. For example if you want to use Arch Linux ARM, you would need to format the sd-rootfs1 partition with f2fs filesystem and extract the Arch Linux ARM rootfs tarball there. That will give you a bootable SD card image for Pinephone Pro.

5) Repeat steps 3 and 4 if you want either more kernel payloads, or more Linux distributions on the same uSD card. I recommend having at least some module-less working kernel in sd-payload3 and perhaps a small userspace in sd-rootfs1 with a pre-configured WiFi connection, that will allow you to always quickly recover if your development kernel fails to boot, just by pressing volume up key during boot and updating the the kernel in one of the primary payload partitions over WiFi.

Development discussion

Most of the discussion happens in #pinedev channel on Pine64 IRC server