Ports/riscv64/QEMU: Difference between revisions

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This page describes how to start riscv64 virtual machine via [https://www.qemu.org QEMU].
This page describes how to start riscv64 virtual machine via [https://www.qemu.org QEMU].


QEMU, starting with version 6.0, includes OpenSBI firmware. For older QEMU versions, there are instructions how to obtain and use the firmware in [[#OpenSBI]] section below.
QEMU, starting with version 6.0, includes OpenSBI firmware. For older QEMU versions you need to obtain the firmware -- check out the instructions in the [[#OpenSBI]] section below.


Some older ALT images for QEMU include a VNC server that provides access to initial setup and graphical desktop (see [[Regular/riscv64#VNC]] for more details). To access that server, it's convenient to forward port 5900 from the virtual machine to the host machine. The parameters necessary for that are included into QEMU command lines below.
Some ALT images for riscv64 include a VNC server that provides access to initial setup and graphical desktop (see [[Regular/riscv64#VNC]] for more details). To access that server, it's convenient to forward port 5900 from the virtual machine to the host machine. The parameters necessary for that are included into QEMU command lines below.


== QEMU 6.0+ ==
== QEMU 6.0+ ==


QEMU 6.0 virtual machines with kernel 5.14+ have graphics (virtuo-gpu) and input (virtio-keyboard and virtio-tablet) working using U-boot boot loader.
QEMU 6.0 virtual machines with kernel 5.14 or newer have graphics (virtuo-gpu) and input (virtio-keyboard and virtio-tablet) working. Here are the steps run ALT images in QEMU:
 
Here are the steps run images in QEMU:


'''Step 0''': Install QEMU with riscv64 support to run the ALT port on RISC-V. If your host system is running ALT x86_64, you need [https://packages.altlinux.org/en/sisyphus/srpms/qemu/ qemu-system-riscv-core package]:
'''Step 0''': Install QEMU with riscv64 support to run the ALT port on RISC-V. If your host system is running ALT x86_64, you need [https://packages.altlinux.org/en/sisyphus/srpms/qemu/ qemu-system-riscv-core package]:
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  rpm2cpio u-boot-qemu-*.rpm | cpio -vi --to-stdout './usr/share/u-boot/qemu-riscv64_smode/u-boot.bin' > u-boot.bin
  rpm2cpio u-boot-qemu-*.rpm | cpio -vi --to-stdout './usr/share/u-boot/qemu-riscv64_smode/u-boot.bin' > u-boot.bin


'''Step 2''':  Now you can start a virtual machine on QEMU via the following commands. Give directions in IMAGE to image and in UBOOT to u-boot that you got in step 1:
'''Step 2''':  Now you can start a virtual machine on QEMU via the following commands. Put the path to the image you want to run into the IMAGE environment variable, and path to the U-Boot binary you obtained on the step 1 to UBOOT environment variable:


<source lang="shell">
<source lang="shell">
$ IMAGE=<путь до образа>
$ IMAGE=/path/to/<image>
$ UBOOT=<путь до u-boot.bin>
$ UBOOT=/path/to/u-boot.bin
$ qemu-system-riscv64 \
$ qemu-system-riscv64 \
           -nographic -m 2G  -machine virt -kernel "$UBOOT" \
           -nographic -m 2G  -machine virt -kernel "$UBOOT" \
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           -drive file=$IMAGE,id=hd0 -device virtio-blk-device,drive=hd0  \
           -drive file=$IMAGE,id=hd0 -device virtio-blk-device,drive=hd0  \
           -netdev user,id=eth0,hostfwd=tcp::5900-:5900 -device virtio-net-device,netdev=eth0 \
           -netdev user,id=eth0,hostfwd=tcp::5900-:5900 -device virtio-net-device,netdev=eth0 \
           -device virtio-vga-gl,xres=1280,yres=800 -device virtio-keyboard -device virtio-tablet -display sdl,gl=on
          -device virtio-keyboard -device virtio-tablet \
           -device virtio-vga-gl,xres=1280,yres=800 -display sdl,gl=on
</source>
</source>


If you need access via vnc, then you need to specify "-vnc: 1" instead of "-sdl" and connect to 5901 port (5900 port is taken for network forwarding):
If you need to access the virtual machine via VNC, replace <tt>-device virtio-vga-gl</tt> and <tt>-display sdl</tt> options with "-device virtio-vga -vnc :1" and connect to 5901 port (5900 port is taken for the network forwarding):


<source lang="shell">
<source lang="shell">
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Download the recent version of <code>opensbi</code>.
Download the recent version of <code>opensbi</code>.
You can use [https://packages.altlinux.org/en/sisyphus_riscv64/srpms/opensbi/rpms/ the link to the package on the official website of the Sisyphus repository]. Or find the package directly in the [http://ftp.altlinux.org/pub/distributions/ALTLinux/ports/riscv64/Sisyphus/noarch/RPMS.classic/ repository].
You can use [https://packages.altlinux.org/en/sisyphus_riscv64/srpms/opensbi/rpms/ the link to the package on the official website of the Sisyphus repository]. Or find the package directly in the [http://ftp.altlinux.org/pub/distributions/ALTLinux/ports/riscv64/Sisyphus/riscv64/RPMS.classic/ repository].


Extract '''/usr/share/opensbi/generic/firmware/fw_jump.elf''' file from the downloaded package. For example:
Extract '''/usr/share/opensbi/generic/firmware/fw_jump.elf''' file from the downloaded package. For example:
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  rpm2cpio opensbi-*.rpm | cpio -vi --to-stdout './usr/share/opensbi/generic/firmware/fw_jump.elf' > fw_jump.elf
  rpm2cpio opensbi-*.rpm | cpio -vi --to-stdout './usr/share/opensbi/generic/firmware/fw_jump.elf' > fw_jump.elf


Now you can start a virtual machine on QEMU via the following commands. Give directions in IMAGE to image, in UBOOT to u-boot, that you got in step 1, and in FIRM to fw_jump.elf.
Now you can start a virtual machine on QEMU via the following commands. Put path to your image into IMAGE, path to the u-boot binary into UBOOT environment variable, and path to  to u-boot, and path to <tt>fw_jump.elf</tt> that you extracted from FIRM package into FIRM variable:


<source lang="shell">
<source lang="shell">
$ IMAGE=<путь до образа>
$ IMAGE=/path/to/<image>
$ UBOOT=<путь до u-boot.bin>
$ UBOOT=/path/to/u-boot.bin
$ FIRM=<путь до fw_jump.elf>
$ FIRM=/path/to/fw_jump.elf
$ qemu-system-riscv64 \
$ qemu-system-riscv64 \
                       -nographic -machine virt \
                       -nographic -machine virt \
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</source>
</source>


If you need a graphical interface, run the VNC server in the image, for example, as described in [[Regular/riscv64#VNC]].
If you need a graphical interface, run the VNC server in the VM, for example, as described in [[Regular/riscv64#VNC]].


Connect to VNC, for example:
Connect to VNC, for example, like this:


  vncviewer localhost
  vncviewer localhost

Latest revision as of 13:15, 16 November 2022

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This page is not finished yet and may lack substantial information.


This page describes how to start riscv64 virtual machine via QEMU.

QEMU, starting with version 6.0, includes OpenSBI firmware. For older QEMU versions you need to obtain the firmware -- check out the instructions in the #OpenSBI section below.

Some ALT images for riscv64 include a VNC server that provides access to initial setup and graphical desktop (see Regular/riscv64#VNC for more details). To access that server, it's convenient to forward port 5900 from the virtual machine to the host machine. The parameters necessary for that are included into QEMU command lines below.

QEMU 6.0+

QEMU 6.0 virtual machines with kernel 5.14 or newer have graphics (virtuo-gpu) and input (virtio-keyboard and virtio-tablet) working. Here are the steps run ALT images in QEMU:

Step 0: Install QEMU with riscv64 support to run the ALT port on RISC-V. If your host system is running ALT x86_64, you need qemu-system-riscv-core package:

 apt-get install qemu-system-riscv-core qemu-device-display-virtio-gpu-gl qemu-ui-sdl seavgabios

Step 1: Download the recent version of u-boot-qemu for riscv64. You can use the link to the package on the official website of the Sisyphus repository. Or find the package directly in the repository.

Extract /usr/share/u-boot/qemu-riscv64_smode/u-boot.bin file from the downloaded package. For example:

rpm2cpio u-boot-qemu-*.rpm | cpio -vi --to-stdout './usr/share/u-boot/qemu-riscv64_smode/u-boot.bin' > u-boot.bin

Step 2: Now you can start a virtual machine on QEMU via the following commands. Put the path to the image you want to run into the IMAGE environment variable, and path to the U-Boot binary you obtained on the step 1 to UBOOT environment variable:

$ IMAGE=/path/to/<image>
$ UBOOT=/path/to/u-boot.bin
$ qemu-system-riscv64 \
          -nographic -m 2G  -machine virt -kernel "$UBOOT" \
          -smp cpus=4 \
          -drive file=$IMAGE,id=hd0 -device virtio-blk-device,drive=hd0  \
          -netdev user,id=eth0,hostfwd=tcp::5900-:5900 -device virtio-net-device,netdev=eth0 \
          -device virtio-keyboard -device virtio-tablet \
          -device virtio-vga-gl,xres=1280,yres=800 -display sdl,gl=on

If you need to access the virtual machine via VNC, replace -device virtio-vga-gl and -display sdl options with "-device virtio-vga -vnc :1" and connect to 5901 port (5900 port is taken for the network forwarding):

$ vncviewer localhost:5901

OpenSBI

To run riscv64 virtual machine on older (pre-6.0) QEMU, you need OpenSBI (firmware) binary.

Download the recent version of opensbi. You can use the link to the package on the official website of the Sisyphus repository. Or find the package directly in the repository.

Extract /usr/share/opensbi/generic/firmware/fw_jump.elf file from the downloaded package. For example:

rpm2cpio opensbi-*.rpm | cpio -vi --to-stdout './usr/share/opensbi/generic/firmware/fw_jump.elf' > fw_jump.elf

Now you can start a virtual machine on QEMU via the following commands. Put path to your image into IMAGE, path to the u-boot binary into UBOOT environment variable, and path to to u-boot, and path to fw_jump.elf that you extracted from FIRM package into FIRM variable:

$ IMAGE=/path/to/<image>
$ UBOOT=/path/to/u-boot.bin
$ FIRM=/path/to/fw_jump.elf
$ qemu-system-riscv64 \
                      -nographic -machine virt \
                      -bios "$FIRM" \
                      -kernel "$UBOOT" \
                      -m 2G -smp cpus=4 \
                      -drive file=$IMAGE,id=hd0,format=raw -device virtio-blk-device,drive=hd0 \
                      -netdev user,id=eth0,hostfwd=tcp::5900-:5900 -device virtio-net-device,netdev=eth0

If you need a graphical interface, run the VNC server in the VM, for example, as described in Regular/riscv64#VNC.

Connect to VNC, for example, like this:

vncviewer localhost