Preparing the Environment
Usage
- StratoVirt can run on VMs with the x86_64 or AArch64 processor architecture.
- You are advised to compile, debug, and deploy StratoVirt on openEuler 20.03 LTS SP3.
- StratoVirt can run with non-root permissions.
Environment Requirements
The following are required in the environment for running StratoVirt:
- /dev/vhost-vsock device (for implementing MMIO)
- nmap tool
- Kernel and rootfs images
Preparing Devices and Tools
To run StratoVirt, the MMIO device must be implemented. Therefore, before running StratoVirt, ensure that the /dev/vhost-vsock device exists.
Check whether the device exists.
$ ls /dev/vhost-vsock /dev/vhost-vsock
If the device does not exist, run the following command to generate it:
$ modprobe vhost_vsock
To use QMP commands, install the nmap tool first. After configuring the Yum source, run the following command to install the tool:
# yum install nmap
Preparing Images
Creating the Kernel Image
StratoVirt of the current version supports only the PE kernel image of the x86_64 and AArch64 platforms. The kernel image in PE format can be generated by using the following method:
Run the following commands to obtain the kernel source code of openEuler:
$ git clone https://gitee.com/openeuler/kernel $ cd kernel
Run the following command to check and switch to the kernel version 4.19:
$ git checkout kernel-4.19
Configure and compile the Linux kernel. It is better to use the recommended configuration file (Obtain configuration file). Copy it to the kernel directory, and rename it as .config. You can also run the following command to configure the kernel as prompted:
$ make menuconfig
Run the following command to create and convert the kernel image to the PE format. The converted image is vmlinux.bin.
$ make -j vmlinux && objcopy -O binary vmlinux vmlinux.bin
If you want to use the kernel in bzImzge format on the x86 platform, run the following command:
$ make -j bzImage
Creating the Rootfs Image
The rootfs image is a file system image. When StratoVirt is started, the ext4 image with init can be loaded. To create an ext4 rootfs image, perform the following steps:
Prepare a file with a proper size (for example, create a file with the size of 10 GB in /home).
$ cd /home $ dd if=/dev/zero of=./rootfs.ext4 bs=1G count=10
Create an empty ext4 file system on this file.
$ mkfs.ext4 ./rootfs.ext4
Mount the file image. Create the /mnt/rootfs directory and mount rootfs.ext4 to the directory as user root.
$ mkdir /mnt/rootfs # Return to the directory where the file system is created, for example, **/home**. $ cd /home $ sudo mount ./rootfs.ext4 /mnt/rootfs && cd /mnt/rootfs
Obtain the latest alpine-mini rootfs of the corresponding processor architecture.
$ arch=`uname -m` $ wget http://dl-cdn.alpinelinux.org/alpine/latest-stable/releases/$arch/alpine- minirootfs-3.13.0-$arch.tar.gz -O alpine-minirootfs.tar.gz $ tar -zxvf alpine-minirootfs.tar.gz $ rm alpine-minirootfs.tar.gz
Run the following command to create a simple /sbin/init for the ext4 file image:
$ rm sbin/init; touch sbin/init && cat > sbin/init <<EOF #! /bin/sh mount -t devtmpfs dev /dev mount -t proc proc /proc mount -t sysfs sysfs /sys ip link set up dev lo exec /sbin/getty -n -l /bin/sh 115200 /dev/ttyS0 poweroff -f EOF sudo chmod +x sbin/init
Unmount the rootfs image.
$ cd /home; umount /mnt/rootfs
The rootfs is created successfully. You can use the ext4 rootfs image file rootfs.ext4, which is stored in the /home directory.