From Fedora Project Wiki
(Information about scaling governor; mention microSD card as okay for main partitions.)
(Add how to generate default U-Boot environment for the board)
 
(2 intermediate revisions by the same user not shown)
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</pre>
</pre>
Boot into U-Boot, load default environment and write it out to SPI-NOR flash.
Boot into U-Boot, load default environment and write it out to SPI-NOR flash.
You can find firmware files on your disk image:
<pre>
# rpm -ql uboot-images-riscv64
[..]
/usr/share/uboot/starfive_visionfive2
[..]
/usr/share/uboot/starfive_visionfive2/spl/u-boot-spl.bin.normal.out
[..]
/usr/share/uboot/starfive_visionfive2/u-boot.itb
</pre>
Remember to reboot and get into U-Boot prompt to load new default environment and write it out to SPI-NOR flash.


=Configurating for highest performance=
=Configurating for highest performance=
Line 351: Line 363:
analyzing CPU 3:
analyzing CPU 3:
375000:0, 500000:0, 750000:0, 1500000:268990  (1)
375000:0, 500000:0, 750000:0, 1500000:268990  (1)
</pre>
=How to generate U-Boot default environment=
U-Boot package in Fedora does not incl. default environment (text or binary) for the boards. If you want to generate on your own you will need to rebuild `uboot-tools` SRPM locally. Once you have done that. Follow these instructions:
<pre>
cd /home/riscv/rpmbuild/BUILD/u-boot-2024.10-rc3
make u-boot-initial-env starfive_visionfive2_defconfig O=builds/starfive_visionfive2
cd builds/starfive_visionfive2
# You can check actual content
vi u-boot-initial-env
mkenvimage -s $(grep CONFIG_ENV_SIZE .config | sed 's/^CONFIG_ENV_SIZE=//') -o uboot-env.bin u-boot-initial-env
# You can check the binary
hexdump -C uboot-env.bin | less
</pre>
Another alternative would be to directly call `get_default_envs.sh` script:
<pre>
cd /home/riscv/rpmbuild/BUILD/u-boot-2024.10-rc3
./scripts/get_default_envs.sh builds/starfive_visionfive2/  > uboot-env.txt
./builds/tools/mkenvimage -s $(grep CONFIG_ENV_SIZE builds/starfive_visionfive2/.config | sed 's/^CONFIG_ENV_SIZE=//') -o uboot-env.bin uboot-env.txt
</pre>
</pre>

Latest revision as of 11:13, 3 September 2024

This page provides instructions how to install Fedora 40 (or newer) on StarFive VisionFive 2 (JH7110) SBC. The instructions assume that main partitions will be on M.2 NVMe. microSD card is not required, but can be used to flash SPI-NOR firmware with a new U-Boot and OpenSBI.

You can place the main partitions on microSD card instead of M.2 NVMe if you don't have one.

This guide assumes that your host system is running Fedora 40 (or newer).

Default accounts:

  • root:linux
  • riscv:fedora_rocks! (groups: wheel and mock)

Web console (cockpit) should be available at 9090 port (exact link will be printed on the serial console and SSH login).

root account will not work with SSH and web console. Use riscv account.

You can find initial VisionFive 2 Fedora 40 disk images here: https://dl.fedoraproject.org/pub/alt/risc-v/disk_images/Fedora-40/VisionFive2/

Installing SPI-NOR firmware via UART boot mode

This method allows to boot upstream U-Boot SPL (XMODEM) and U-Boot proper (YMODEM) using your serial console. This is especially helpful is SPI-NOR content is damaged and the board no longer boots. Once booted you can flash SPI-NOR with a new firmware images.

SPI-NOR partitions:

# cat /proc/mtd
dev:    size   erasesize  name
mtd0: 00080000 00010000 "spl"
mtd1: 00010000 00010000 "uboot-env"
mtd2: 00400000 00010000 "uboot"
mtd3: 00a00000 00010000 "reserved-data"
[..]
partitions {
        compatible = "fixed-partitions";
        #address-cells = <1>;
        #size-cells = <1>;

        spl@0 {
                reg = <0x0 0x80000>;
        };
        uboot-env@f0000 {
                reg = <0xf0000 0x10000>;
        };
        uboot@100000 {
                reg = <0x100000 0x400000>;
        };
        reserved-data@600000 {
                reg = <0x600000 0xa00000>;
        };
};
[..]

Make sure your board is powered down.

Connect UART-Serial to USB dongle to VF2 using GPIO headers (3V3):

  • PIN 6: GND
  • PIN 8: UART-TX
  • PIN 10: UART-RX

More details here: https://doc-en.rvspace.org/VisionFive2/Quick_Start_Guide/VisionFive2_SDK_QSG/recovering_bootloader%20-%20vf2.html

Check dmesg or usb-devices output for a new device (could be written as "UART", "Serial", etc.).

Your USB serial port adapter will be /dev/ttyUSB<NUMBER> and /dev/serial/by-id/<NAME>. The latter name is generated base d on vendor, product name, serial code of your USB serial port adapter.

These devices are in dialout group. If you don't want to use sudo and your user to this group:

usermod -aG dialout <USERNAME>

We will use minicom for serial console. Let's launch it with minicom -s for setup:

 +-----[configuration]------+
 | Filenames and paths      |
 | File transfer protocols  |
 | Serial port setup        |
 | Modem and dialing        |
 | Screen and keyboard      |
 | Save setup as dfl        |
 | Save setup as..          |
 | Exit                     |
 | Exit from Minicom        |
 +--------------------------+

Select Serial port setup. Press A and modify the path for your USB serial port adapter. Hit ENTER until you return to the original menu. Then choose Exit to start.

Switch the board to UART boot mode:

 1 (High)  0 (Low)                
┌───────┐ ┌───────┐               
│XXXXXXX│ │       │ RGPIO_1: 1 (H)
└───────┘ └───────┘               
┌───────┐ ┌───────┐               
│XXXXXXX│ │       │ RGPIO_0: 1 (H)
└───────┘ └───────┘               

More details here: https://doc-en.rvspace.org/VisionFive2/Boot_UG/VisionFive2_SDK_QSG/boot_mode_settings.html?hl=uart

Let's use microSD card with FAT or ext4 partition to store new firmware files:

  • u-boot-spl.bin.normal.out (U-Boot SPL) [REQUIRED]
  • u-boot.itb (U-Boot, OpenSBI, DTB) [REQUIRED]
  • uboot-env.bin (default U-Boot environment in binary format) [OPTIONAL]

All required files can be found in uboot-images-riscv64 (noarch) package. It's also installed in the disk image.

Remove M.2 NVMe if installed. We don't want to have bootable media in any form otherwise Linux will boot before you can get to U-Boot prompt.

Insert the card to the board, and power it on.

You should see similar output:

(C)StarFive
CCCCCCCCCCCCCCCCCCCCC

It will constantly write C.

Press CTRL-A S. You will see upload menu:

+-[Upload]--+
| zmodem    |
| ymodem    |
| xmodem    |
| kermit    |
| ascii     |
+-----------+

Select xmodem, then [Goto] button at the bottom. Enter directory were you have downloaded your U-Boot firmware files. Select u-boot-spl.bin.normal.out using SPACE and then active [Okay] button. It will start uploading the first binary:

+----------------[xmodem upload - Press CTRL-C to quit]----------------+
|Sending u-boot-spl.bin.normal.out, 1142 blocks: Give your local XMODEM|
| receive command now.                                                 |
|Xmodem sectors/kbytes sent: 414/51k                                   |
|                                                                      |
|                                                                      |
|                                                                      |
|                                                                      |
+----------------------------------------------------------------------+

Press any key once it's uploaded. Now you should see U-Boot SPL booted and C will continue to be printed out:

U-Boot SPL 2024.10-rc2 (Aug 22 2024 - 00:00:00 +0000)
DDR version: dc2e84f0.
Trying to boot from UART
CCCCCCCCC

Now press CTRL-A S and select ymodem. This time we want to send u-boot.itb file. This file is large and thus will take a bit longer to upload.

+----------------[ymodem upload - Press CTRL-C to quit]----------------+
|Sending: u-boot.itb                                                   |
|Bytes Sent:1151104   BPS:8710                                         |
|Sending:                                                              |
|Ymodem sectors/kbytes sent:   0/ 0k                                   |
|Transfer complete                                                     |
|                                                                      |
| READY: press any key to continue...                                  |
+----------------------------------------------------------------------+

U-Boot will not find any bootable media and will drop you into the prompt.

Loading Boot0000 'mmc 1' failed
Loading from BootNext failed, falling back to BootOrder
Loading Boot0000 'mmc 1' failed
EFI boot manager: Cannot load any image
StarFive #

Check the content of microSD card:

StarFive # ls mmc 1:1
<DIR>       4096 .
<DIR>       4096 ..
<DIR>      16384 lost+found
         1151019 u-boot.itb
          146178 u-boot-spl.bin.normal.out
           65536 uboot-env.bin

Update U-Boot SPL and U-Boot data:

sf probe
load mmc 1:1 ${loadaddr} u-boot-spl.bin.normal.out
setenv ldsize ${filesize}
sf update ${loadaddr} 0x0 ${ldsize}
load mmc 1:1 ${loadaddr} u-boot.itb
setenv ldsize ${filesize}
sf update ${loadaddr} 0x100000 ${ldsize}

We booted using UART mode with the same files thus we can update default U-Boot environment too:

# env default -a -f; env save
## Resetting to default environment
Saving Environment to SPIFlash... Erasing SPI flash...Writing to SPI flash...done
OK

Alternative would be to load uboot-env.bin from microSD card and write it out:

load mmc 1:1 ${loadaddr} uboot-env.bin
setenv ldsize ${filesize}
sf update ${loadaddr} 0xf0000 ${ldsize}

Let's shutdown the system for now with poweroff command. Remove power cable. Remove the microSD card. Switch to SPI-NOR boot mode:

 1 (High)  0 (Low)                
┌───────┐ ┌───────┐               
│       │ │XXXXXXX│ RGPIO_1: 1 (H)
└───────┘ └───────┘               
┌───────┐ ┌───────┐               
│       │ │XXXXXXX│ RGPIO_0: 1 (H)
└───────┘ └───────┘               

Prepare main system drive (M.2 NVMe or microSD)

Download the latest Fedora 40 disk image. There are multiple way to write RAW disk image to a drive. One of them is using dd tool:

sudo dd if=./Fedora.riscv64-Rawhide_server_20240826.n.0.raw of=/dev/<YOUR_DRIVE> bs=512K iflag=fullblock oflag=direct conv=fsync status=progress

It's highly import to ensure that a proper of= device is used otherwise you could damage your host system and loose all the data.

You can also use GNOME Disks application. It has "Restore Disk Image.." once a drive is selected.

This image can be flashed to microSD or M.2 NVMe, and it will work the same way.

Post Install

At this stage you should be able to boot Fedora 40 with firmware on SPI-NOR flash and NVMe for the system partitions.

Our filesystem is not using a full drive capacity:

[root@localhost ~]# btrfs filesystem usage -T /
Overall:
    Device size:                   3.53GiB
    Device allocated:              2.68GiB
    Device unallocated:          874.98MiB
    Device missing:                  0.00B
    Device slack:                  3.50KiB
    Used:                          1.67GiB
    Free (estimated):              1.49GiB      (min: 1.06GiB)
    Free (statfs, df):             1.49GiB
    Data ratio:                       1.00
    Metadata ratio:                   2.00
    Global reserve:                5.50MiB      (used: 0.00B)
    Multiple profiles:                  no

                  Data    Metadata  System
Id Path           single  DUP       DUP      Unallocated Total   Slack
-- -------------- ------- --------- -------- ----------- ------- -------
 1 /dev/nvme0n1p3 2.16GiB 512.00MiB 16.00MiB   874.98MiB 3.53GiB 3.50KiB
-- -------------- ------- --------- -------- ----------- ------- -------
   Total          2.16GiB 256.00MiB  8.00MiB   874.98MiB 3.53GiB 3.50KiB
   Used           1.53GiB  73.53MiB 16.00KiB

Expand it to full disk capacity:

[root@localhost ~]# growpart /dev/nvme0n1 3
CHANGED: partition=3 start=3074048 old: size=7411679 end=10485726 new: size=1950451087 end=1953525134
[root@localhost ~]# btrfs filesystem resize max /
Resize device id 1 (/dev/nvme0n1p3) from 3.53GiB to max
[  554.546967] BTRFS info (device nvme0n1p3): resize device /dev/nvme0n1p3 (devid 1) from 3794776064 to 998630952960
[root@localhost ~]# btrfs filesystem usage -T /
Overall:
    Device size:                 930.05GiB
    Device allocated:              2.68GiB
    Device unallocated:          927.37GiB
    Device missing:                  0.00B
    Device slack:                  3.50KiB
    Used:                          1.67GiB
    Free (estimated):            928.00GiB      (min: 464.32GiB)
    Free (statfs, df):           928.00GiB
    Data ratio:                       1.00
    Metadata ratio:                   2.00
    Global reserve:                5.50MiB      (used: 0.00B)
    Multiple profiles:                  no

                  Data    Metadata  System
Id Path           single  DUP       DUP      Unallocated Total     Slack
-- -------------- ------- --------- -------- ----------- --------- -------
 1 /dev/nvme0n1p3 2.16GiB 512.00MiB 16.00MiB   927.37GiB 930.05GiB 3.50KiB
-- -------------- ------- --------- -------- ----------- --------- -------
   Total          2.16GiB 256.00MiB  8.00MiB   927.37GiB 930.05GiB 3.50KiB
   Used           1.53GiB  73.53MiB 16.00KiB

Change default passwords for root and riscv users using passwd command. You can access U-Boot default environment from Linux by creating a file /etc/fw_env.config with:

/dev/mtd1 0x0 0x10000

Command fw_printenv will print full environment, and fw_setenv will allow you to modify it without booting into U-Boot. Change default hostname:

hostnamectl set-hostname <HOSTNAME>

Next time you want to update firmware you can do that from Linux user space. Check SPI-NOR partitioning:

[root@fedora-riscv ~]# cat /proc/mtd
dev:    size   erasesize  name
mtd0: 00080000 00010000 "spl"
mtd1: 00010000 00010000 "uboot-env"
mtd2: 00400000 00010000 "uboot"
mtd3: 00a00000 00010000 "reserved-data"

Use flashcp command:

flashcp -v u-boot-spl.bin.normal.out /dev/mtd0
flashcp -v u-boot.itb /dev/mtd2

Boot into U-Boot, load default environment and write it out to SPI-NOR flash.

You can find firmware files on your disk image:

# rpm -ql uboot-images-riscv64
[..]
/usr/share/uboot/starfive_visionfive2
[..]
/usr/share/uboot/starfive_visionfive2/spl/u-boot-spl.bin.normal.out
[..]
/usr/share/uboot/starfive_visionfive2/u-boot.itb

Remember to reboot and get into U-Boot prompt to load new default environment and write it out to SPI-NOR flash.

Configurating for highest performance

By default CPU scaling governor is schedutil which close to highest performance while scaling frequency. To achieve the best performance from JH7110 boards you might want to switch to performace governor. Get information about the current default kernel:

# grubby --info=DEFAULT
index=0
kernel="/boot/vmlinuz-6.10.6-200.1.riscv64.fc40.riscv64"
args="ro rootflags=subvol=root earlycon rootflags=subvol=root cpufreq.default_governor=performance"
root="UUID=9bde1c01-47d0-43bb-bcdd-4aa90ffec397"
initrd="/boot/initramfs-6.10.6-200.1.riscv64.fc40.riscv64.img"
title="Fedora Linux (6.10.6-200.1.riscv64.fc40.riscv64) 40 (Server Edition)"
id="e97ec9d687994be78cf0a91cc5e7633e-6.10.6-200.1.riscv64.fc40.riscv64"

Modify the current default kernel to user performance governor:

grubby --update-kernel=DEFAULT --args="cpufreq.default_governor=performance"

To modify the current default kernel and future kernels too to use performance governor:

grubby --update-kernel=ALL --args="cpufreq.default_governor=performance"

Reboot the system. You can get more information from running system:

# cpupower  frequency-info
analyzing CPU 1:
  driver: cpufreq-dt
  CPUs which run at the same hardware frequency: 0 1 2 3
  CPUs which need to have their frequency coordinated by software: 0 1 2 3
  maximum transition latency:  Cannot determine or is not supported.
  hardware limits: 375 MHz - 1.50 GHz
  available frequency steps:  375 MHz, 500 MHz, 750 MHz, 1.50 GHz
  available cpufreq governors: conservative ondemand userspace powersave performance schedutil
  current policy: frequency should be within 375 MHz and 1.50 GHz.
                  The governor "performance" may decide which speed to use
                  within this range.
  current CPU frequency: 1.50 GHz (asserted by call to hardware)

# cpupower  frequency-info -s
analyzing CPU 3:
375000:0, 500000:0, 750000:0, 1500000:268990  (1)

How to generate U-Boot default environment

U-Boot package in Fedora does not incl. default environment (text or binary) for the boards. If you want to generate on your own you will need to rebuild uboot-tools SRPM locally. Once you have done that. Follow these instructions:

cd /home/riscv/rpmbuild/BUILD/u-boot-2024.10-rc3
make u-boot-initial-env starfive_visionfive2_defconfig O=builds/starfive_visionfive2
cd builds/starfive_visionfive2
# You can check actual content
vi u-boot-initial-env
mkenvimage -s $(grep CONFIG_ENV_SIZE .config | sed 's/^CONFIG_ENV_SIZE=//') -o uboot-env.bin u-boot-initial-env
# You can check the binary
hexdump -C uboot-env.bin | less

Another alternative would be to directly call get_default_envs.sh script:

cd /home/riscv/rpmbuild/BUILD/u-boot-2024.10-rc3
./scripts/get_default_envs.sh builds/starfive_visionfive2/  > uboot-env.txt
./builds/tools/mkenvimage -s $(grep CONFIG_ENV_SIZE builds/starfive_visionfive2/.config | sed 's/^CONFIG_ENV_SIZE=//') -o uboot-env.bin uboot-env.txt