The JH7100 is a Linux-capable dual-core 64bit RISC-V SoC and this tree is meant to collect all the in-development patches for running Linux on boards using this. So far there are two such boards and both are supported by this tree:
The VisionFive boards aren't quite shipping yet, but you can already register interest and ask questions on the forum.
About 300 BeagleV Starlight Beta boards were sent out to developers in April 2021 in preparation for an eventual BeagleV branded board using the updated JH7110 chip. The BeagleBoard organization has since cancelled that project though.
Cross-compiling the Linux kernel is surprisingly easy since it doesn't depend on any (target) libraries and most distributions already have packages with a working cross-compiler. We'll also need a few other tools to build everything:
# Debian/Ubuntu
sudo apt-get install libncurses-dev libssl-dev bc flex bison make gcc gcc-riscv64-linux-gnu
# Fedora
sudo dnf install ncurses-devel openssl openssl-devel bc flex bison make gcc gcc-riscv64-linux-gnu
# Archlinux
sudo pacman -S --needed ncurses openssl bc flex bison make gcc riscv64-linux-gnu-gcc
The build system needs to know that we want to cross-compile a kernel for
RISC-V by setting ARCH=riscv
. It also needs to know the prefix of our
cross-compiler using CROSS_COMPILE=riscv64-linux-gnu-
. Also let's assume
we're building on an 8-core machine so compilation can be greatly sped up by
telling make to use all 8 cores with -j8
.
First we need to configure the kernel though. Linux has a very extensive configuration system, but you can get a good baseline configuration for the boards using:
make -j8 ARCH=riscv CROSS_COMPILE=riscv64-linux-gnu- visionfive_defconfig
There is nothing magic about this configuration other than it has all the drivers enabled that are working for the hardware on the boards. In fact it has very little extra features enabled which is great for compile times, but you are very much encouraged to add additional drivers and configure your kernel further using
make -j8 ARCH=riscv CROSS_COMPILE=riscv64-linux-gnu- nconfig
Now compile the whole thing with
make -j8 ARCH=riscv CROSS_COMPILE=riscv64-linux-gnu-
Once the build has finished the resulting kernel can be found at
arch/riscv/boot/Image
You'll also need the matching device tree at
arch/riscv/boot/dts/starfive/jh7100-starfive-visionfive-v1.dtb
(If you have a Starlight board you should instead be using jh7100-beaglev-starlight.dtb
.)
These two files should be copied to the boot partition on the SD card. In the
default Fedora image this is /dev/mmcblk0p3
and is mounted at /boot
.
Now add the following entry to the grub.cfg
file:
menuentry 'My New Kernel' {
linux /Image earlycon console=ttyS0,115200n8 root=/dev/mmcblk0p4 rootwait
devicetree /jh7100-starfive-visionfive-v1.dtb
}
This assumes your root file system is at /dev/mmcblk0p4
which it is in the
default Fedora image.
The visionfive_defconfig
doesn't enable modules, but if you enabled them in
your build you'll also need to install them in /lib/modules/
on the root file
system. How to do that best is out of scope for this README though.
- Clock tree
- Resets
- Pinctrl/Pinmux
- GPIO
- Serial port
- I2C
- SPI
- MMC / SDIO / SD card
- Random number generator
- Temperature sensor
- Ethernet
- USB, USB 3.0 is broken with
CONFIG_PM=y
- DRM driver
- NVDLA
- Watchdog
- PWM DAC for sound through the minijack, only 16kHz samplerate for now
- I2S [WIP]
- TDM [WIP]
- MIPI-DSI [WIP]
- MIPI-CSI [WIP]
- ISP [WIP]
- Video Decode [WIP]
- Video Encode [WIP]
- QSPI
- Security Engine
- NNE50
- Vision DSP
- LED
- PMIC / Reboot
- Ethernet PHY
- HDMI
- AP6236 Wifi
- AP6236 Bluetooth, with a userspace tool
- I2C EEPROM (VisionFive only)
- GD25LQ128DWIG (VisionFive) / GD25LQ256D (Starlight) flash
If you're working on cleaning up or upstreaming some of this or adding support for more of the SoC I'd very much like to incorporate it into this tree. Either send a pull request, mail or contact Esmil on IRC/Slack.
Also think of this tree mostly as a collection of patches that will hopefully mature enough to be submitted upstream eventually. So expect regular rebases.