NixOS on ARM/PINE64 ROCK64: Difference between revisions

PINE64 ROCK64
Manufacturer	PINE64 (Pine Microsystems Inc.)
Architecture	AArch64
Bootloader	Downstream (ayufan) U-Boot
Boot options	SD, eMMC, SPI NOR Flash

VisualWikitext

Revision as of 04:40, 6 December 2019

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The ROCK64 is a single board computer built around the Rockchip RK3328 SoC.

There are three models of the board, with 1, 2 or 4 GB of RAM. It can boot from an microSD card or an eMMC. It also has a 128 Mbit SPI flash that can be used to store the bootloader.

Status

This board has upstream U-Boot and kernel support, although the mainline kernel may still be missing some features. NixOS can be installed using manual partitioning and nixos-install or by modifying the aarch64 installation image as described in the next section.

U-Boot for this board is packaged in nixpkgs, and Hydra builds can be found here: https://hydra.nixos.org/job/nixpkgs/trunk/ubootRock64.aarch64-linux This bootloader is not entirely open, incorporating a binary blob for the tertiary program loader (TPL).

Board-specific installation notes

U-Boot needs to be copied to specific sectors on the microSD card, eMMC or image with dd. Download/build U-Boot for the board, and write idbloader.img and u-boot.itb to the correct locations with (replace /dev/mmcblkX with the correct path to the card or image):

dd if=idbloader.img of=/dev/mmcblkX conv=fsync,notrunc bs=512 seek=64
dd if=u-boot.itb of=/dev/mmcblkX conv=fsync,notrunc bs=512 seek=16384

Note: Prior to NixOS 20.03, a downstream version of U-Boot 2017.09 was packaged, which placed U-Boot in a single idbloader.img file. If that version is used, simply disregard the second command above.

Serial console

The ROCK64 uses a GPIO pinout compatible with the Raspberry Pi 2 and newer. This means that the following pins can be used to connect a serial adapter:

Pi-2 Bus
Pin	Function
6	GND
8	UART0_TX
10	UART0_RX

The serial console runs at 1500000 baud in the bootloader. When using the standard NixOS aarch64 sd image, set console=ttyS2,115200n8 as kernel option in extlinux/extlinux.conf on the boot partition of the sdimage to get a serial linux console. For debugging, console=uart8250,mmio32,0xff130000 should give you an early UART console, before the full serial console is up.

Compatibility notes

	Mainline kernel	ayufan-rock64/linux-mainline-kernel
Ethernet	Works	Works
USB	As of 5.4, USB 3.0 does not work	Works
HDMI	Works	Works

Downstream kernel

To use all hardware functionality, it is currently necessary to use a downstream kernel:

ayufan-rock64/linux-kernel 4.4 based on Rockchip BSP
ayufan-rock64/linux-mainline-kernel mainline based, with potentially fewer hardware features supported. This kernel is not based on a kernel stable branch, so it may have more bugs (unrelated to the hardware).

Note: The old vendor U-Boot 2017.09 did not leave enough room between the kernel and initrd, causing recent kernels to overwrite the beginning of the initrd. This can be fixed by increasing ramdisk_addr_r in the U-Boot console, or using upstream U-Boot.

Resources

Official product page

↑ https://github.com/ayufan-rock64/linux-u-boot

[1] ttps://github.com/ayufan-rock64/linux-u-boot

[1]

@@ Line 26: / Line 26: @@
 == Status ==
-It is possible to run NixOS on this board using a downstream U-Boot and kernel. This can be done with manual partitioning  and <code>nixos-install</code> or possibly by building an SD image with the correct kernel and bootloader, but the latter has not been tested.
+This board has upstream U-Boot and kernel support, although the mainline kernel may still be missing some features. NixOS can be installed using manual partitioning and <code>nixos-install</code> or by modifying the aarch64 installation image as described in the next section.
-The upstream aarch64 SD image may boot if U-Boot is placed at the correct location as described below, but this has not been tested. There may be issues with ethernet and USB with the mainline kernel.
 U-Boot for this board is packaged in nixpkgs, and Hydra builds can be found here: https://hydra.nixos.org/job/nixpkgs/trunk/ubootRock64.aarch64-linux
-This bootloader is not entirely open, incorporating a blob for the tertiary program loader (TPL).
+This bootloader is not entirely open, incorporating a binary blob for the tertiary program loader (TPL).
 == Board-specific installation notes ==
-U-Boot needs to be copied to sector 64 on the microSD card or eMMC with <code>dd</code>. Download/build U-Boot for the board, and copy <code>idbloader.img</code> to the correct location with (replace <code>/dev/mmcblkX</code> with the correct path to the SD card device):
+U-Boot needs to be copied to specific sectors on the microSD card, eMMC or image with <code>dd</code>. Download/build U-Boot for the board, and write <code>idbloader.img</code> and <code>u-boot.itb</code> to the correct locations with (replace <code>/dev/mmcblkX</code> with the correct path to the card or image):
-<syntaxhighlight lang="bash">sudo dd if=idbloader.img of=/dev/mmcblkX bs=512 seek=64</syntaxhighlight>
+<syntaxhighlight lang="bash">
+dd if=idbloader.img of=/dev/mmcblkX conv=fsync,notrunc bs=512 seek=64
+dd if=u-boot.itb of=/dev/mmcblkX conv=fsync,notrunc bs=512 seek=16384
+</syntaxhighlight>
-On many kernels, the ethernet driver cannot handle hardware check-summing of large packets, therefore this feature must be disabled for the ethernet to be stable. This can be done with the following NixOS configuration:
+{{note|Prior to NixOS 20.03, a downstream version of U-Boot 2017.09 was packaged, which placed U-Boot in a single <code>idbloader.img</code> file. If that version is used, simply disregard the second command above.}}
-<syntaxhighlight lang="nix">
-networking.localCommands = ''
-  ${pkgs.ethtool}/bin/ethtool -K eth0 rx off tx off
-'';
-</syntaxhighlight>
 == Serial console==
@@ Line 70: / Line 66: @@
 == Compatibility notes ==
-{{Expansion | Need to verify hardware support on different kernels, this was written from memory}}
 {| class="table arm-compatibility"
-!colspan="2" style="background: #fafafa"| Mainline kernel
+|
+! style="background: #fafafa" | Mainline kernel !! style="background: #fafafa" | ayufan-rock64/linux-mainline-kernel
 |-
 ! Ethernet
-|
+| Works || Works
-* Works on 4.20, if hardware check-summing is disabled (see above)
 |-
 ! USB
-|
+| As of 5.4, USB 3.0 does not work || Works
-* As of 4.20, USB 3.0 does not work
-|-
-!colspan="2" style="background: #fafafa"| ayufan-rock64/linux-mainline-kernel
-|-
-! Ethernet
-|
-* Works if hardware check-summing is disabled (see above)
 |-
-! USB
+! HDMI
-|
+| Works || Works
-* USB hot plugging does not work
 |}
@@ Line 102: / Line 88: @@
 * [https://github.com/ayufan-rock64/linux-mainline-kernel ayufan-rock64/linux-mainline-kernel] mainline based, with potentially fewer hardware features supported. This kernel is not based on a kernel stable branch, so it may have more bugs (unrelated to the hardware).
-{{note|The kernel image built from ayufan-rock64/linux-mainline-kernel is too large to fit into the default memory layout defined in the ROCK64 u-boot. This means that, when unpacked, the kernel will overwrite the beginning of the initrd in memory, rendering the initrd unusable and causing the boot to fail. This can be fixed by setting the u-boot environment variable, ramdisk_addr_r to a larger value, either by interrupting u-boot, or by patching the ubootRock64 sources to change the default.}}
+{{note|The old vendor U-Boot 2017.09 did not leave enough room between the kernel and initrd, causing recent kernels to overwrite the beginning of the initrd. This can be fixed by increasing <code>ramdisk_addr_r</code> in the U-Boot console, or using upstream U-Boot. }}
-{{note|Keep in mind that using non-upstream forks of the kernel always incurs some security risk.}}
 == Resources ==
 * [https://www.pine64.org/?page_id=7147 Official product page]