Orange Pi PC (orangepi-pc
)¶
The Xunlong Orange Pi PC is an Allwinner H3 System on Chip based embedded computer with mainline support in both U-Boot and Linux. The board comes with a Quad Core Cortex-A7 @ 1.3GHz, 1GiB RAM, 100Mbit ethernet, USB, SD/MMC, USB, HDMI and various other I/O.
Supported devices¶
The Orange Pi PC machine supports the following devices:
SMP (Quad Core Cortex-A7)
Generic Interrupt Controller configuration
SRAM mappings
SDRAM controller
Real Time Clock
Timer device (re-used from Allwinner A10)
UART
SD/MMC storage controller
EMAC ethernet
USB 2.0 interfaces
Clock Control Unit
System Control module
Security Identifier device
Limitations¶
Currently, Orange Pi PC does not support the following features:
Graphical output via HDMI, GPU and/or the Display Engine
Audio output
Hardware Watchdog
Also see the ‘unimplemented’ array in the Allwinner H3 SoC module
for a complete list of unimplemented I/O devices: ./hw/arm/allwinner-h3.c
Boot options¶
The Orange Pi PC machine can start using the standard -kernel functionality for loading a Linux kernel or ELF executable. Additionally, the Orange Pi PC machine can also emulate the BootROM which is present on an actual Allwinner H3 based SoC, which loads the bootloader from a SD card, specified via the -sd argument to qemu-system-arm.
Machine-specific options¶
The following machine-specific options are supported:
allwinner-rtc.base-year=YYYY
The Allwinner RTC device is automatically created by the Orange Pi PC machine and uses a default base year value which can be overridden using the ‘base-year’ property. The base year is the actual represented year when the RTC year value is zero. This option can be used in case the target operating system driver uses a different base year value. The minimum value for the base year is 1900.
allwinner-sid.identifier=abcd1122-a000-b000-c000-12345678ffff
The Security Identifier value can be read by the guest. For example, U-Boot uses it to determine a unique MAC address.
The above machine-specific options can be specified in qemu-system-arm via the ‘-global’ argument, for example:
$ qemu-system-arm -M orangepi-pc -sd mycard.img \
-global allwinner-rtc.base-year=2000
Running mainline Linux¶
Mainline Linux kernels from 4.19 up to latest master are known to work. To build a Linux mainline kernel that can be booted by the Orange Pi PC machine, simply configure the kernel using the sunxi_defconfig configuration:
$ ARCH=arm CROSS_COMPILE=arm-linux-gnueabi- make mrproper
$ ARCH=arm CROSS_COMPILE=arm-linux-gnueabi- make sunxi_defconfig
To be able to use USB storage, you need to manually enable the corresponding configuration item. Start the kconfig configuration tool:
$ ARCH=arm CROSS_COMPILE=arm-linux-gnueabi- make menuconfig
Navigate to the following item, enable it and save your configuration:
Device Drivers > USB support > USB Mass Storage support
Build the Linux kernel with:
$ ARCH=arm CROSS_COMPILE=arm-linux-gnueabi- make
To boot the newly build linux kernel in QEMU with the Orange Pi PC machine, use:
$ qemu-system-arm -M orangepi-pc -nic user -nographic \
-kernel /path/to/linux/arch/arm/boot/zImage \
-append 'console=ttyS0,115200' \
-dtb /path/to/linux/arch/arm/boot/dts/sun8i-h3-orangepi-pc.dtb
Orange Pi PC images¶
Note that the mainline kernel does not have a root filesystem. You may provide it with an official Orange Pi PC image from the official website:
Another possibility is to run an Armbian image for Orange Pi PC which can be downloaded from:
Alternatively, you can also choose to build you own image with buildroot using the orangepi_pc_defconfig. Also see https://buildroot.org for more information.
When using an image as an SD card, it must be resized to a power of two. This can be
done with the qemu-img
command. It is recommended to only increase the image size
instead of shrinking it to a power of two, to avoid loss of data. For example,
to prepare a downloaded Armbian image, first extract it and then increase
its size to one gigabyte as follows:
$ qemu-img resize Armbian_19.11.3_Orangepipc_bionic_current_5.3.9.img 1G
You can choose to attach the selected image either as an SD card or as USB mass storage. For example, to boot using the Orange Pi PC Debian image on SD card, simply add the -sd argument and provide the proper root= kernel parameter:
$ qemu-system-arm -M orangepi-pc -nic user -nographic \
-kernel /path/to/linux/arch/arm/boot/zImage \
-append 'console=ttyS0,115200 root=/dev/mmcblk0p2' \
-dtb /path/to/linux/arch/arm/boot/dts/sun8i-h3-orangepi-pc.dtb \
-sd OrangePi_pc_debian_stretch_server_linux5.3.5_v1.0.img
To attach the image as an USB mass storage device to the machine, simply append to the command:
-drive if=none,id=stick,file=myimage.img \
-device usb-storage,bus=usb-bus.0,drive=stick
Instead of providing a custom Linux kernel via the -kernel command you may also choose to let the Orange Pi PC machine load the bootloader from SD card, just like a real board would do using the BootROM. Simply pass the selected image via the -sd argument and remove the -kernel, -append, -dbt and -initrd arguments:
$ qemu-system-arm -M orangepi-pc -nic user -nographic \
-sd Armbian_19.11.3_Orangepipc_buster_current_5.3.9.img
Note that both the official Orange Pi PC images and Armbian images start a lot of userland programs via systemd. Depending on the host hardware and OS, they may be slow to emulate, especially due to emulating the 4 cores. To help reduce the performance slow down due to emulating the 4 cores, you can give the following kernel parameters via U-Boot (or via -append):
=> setenv extraargs 'systemd.default_timeout_start_sec=9000 loglevel=7 nosmp console=ttyS0,115200'
Running U-Boot¶
U-Boot mainline can be build and configured using the orangepi_pc_defconfig using similar commands as describe above for Linux. Note that it is recommended for development/testing to select the following configuration setting in U-Boot:
Device Tree Control > Provider for DTB for DT Control > Embedded DTB
To start U-Boot using the Orange Pi PC machine, provide the u-boot binary to the -kernel argument:
$ qemu-system-arm -M orangepi-pc -nic user -nographic \
-kernel /path/to/uboot/u-boot -sd disk.img
Use the following U-boot commands to load and boot a Linux kernel from SD card:
=> setenv bootargs console=ttyS0,115200
=> ext2load mmc 0 0x42000000 zImage
=> ext2load mmc 0 0x43000000 sun8i-h3-orangepi-pc.dtb
=> bootz 0x42000000 - 0x43000000
Running NetBSD¶
The NetBSD operating system also includes support for Allwinner H3 based boards, including the Orange Pi PC. NetBSD 9.0 is known to work best for the Orange Pi PC board and provides a fully working system with serial console, networking and storage. For the Orange Pi PC machine, get the ‘evbarm-earmv7hf’ based image from:
The image requires manually installing U-Boot in the image. Build U-Boot with the orangepi_pc_defconfig configuration as described in the previous section. Next, unzip the NetBSD image and write the U-Boot binary including SPL using:
$ gunzip armv7.img.gz
$ dd if=/path/to/u-boot-sunxi-with-spl.bin of=armv7.img bs=1024 seek=8 conv=notrunc
Finally, before starting the machine the SD image must be extended such that the size of the SD image is a power of two and that the NetBSD kernel will not conclude the NetBSD partition is larger than the emulated SD card:
$ qemu-img resize armv7.img 2G
Start the machine using the following command:
$ qemu-system-arm -M orangepi-pc -nic user -nographic \
-sd armv7.img -global allwinner-rtc.base-year=2000
At the U-Boot stage, interrupt the automatic boot process by pressing a key and set the following environment variables before booting:
=> setenv bootargs root=ld0a
=> setenv kernel netbsd-GENERIC.ub
=> setenv fdtfile dtb/sun8i-h3-orangepi-pc.dtb
=> setenv bootcmd 'fatload mmc 0:1 ${kernel_addr_r} ${kernel}; fatload mmc 0:1 ${fdt_addr_r} ${fdtfile}; fdt addr ${fdt_addr_r}; bootm ${kernel_addr_r} - ${fdt_addr_r}'
Optionally you may save the environment variables to SD card with ‘saveenv’. To continue booting simply give the ‘boot’ command and NetBSD boots.
Orange Pi PC integration tests¶
The Orange Pi PC machine has several integration tests included. To run the whole set of tests, build QEMU from source and simply provide the following command:
$ AVOCADO_ALLOW_LARGE_STORAGE=yes avocado --show=app,console run \
-t machine:orangepi-pc tests/avocado/boot_linux_console.py