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A script to create bootable OS images, and run qemu with a locally built kernel.

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pmem/run_qemu

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Requirements

  • mkosi
    • e.g. dnf install mkosi
  • qemu-system-x86_64
  • rsync
  • dracut
  • enabled virtualization (KVM)
  • nopasswd sudo preferred, or run as root, or enter passwords into the prompt several times
  • argbash to generate the argument parser lib (using parser_generator.m4)

You can also git clone https://github.com/systemd/mkosi, symlink to mkosi.git/bin/mkosi and run mkosi directly from source. This works out of the box with git tags v15 and above. mkosi/README.md offers other installation methods.

Fedora 39+ Notes

Fedora 39 updates mkosi to 15 (and later) which contains a lot of breaking changes, and indeed breaks various expectations with run_qemu's usage of it.

Fedora 39 and 40 have packaged mkosi 14 separately and in parallel to the latest mkosi. Uninstall the default mkosi package, and install 'mkosi14' to continue using run_qemu on Fedora 39 and 40:

# dnf remove --noautoremove mkosi
# dnf install mkosi14

Fedora 41 has stopped packaging mkosi14.

Installation

  • symlink the run_qemu.sh script into somewhere in your PATH
    • e.g. ln -s ~/git/run_qemu/run_qemu.sh ~/bin/run_qemu.sh
  • Note: Supporting files in this repo are required to be in the same location as the script, after any symlink resolution. Copying just the script itself will not work.
  • Bash Completion
    • Copy or symlink the run_qemu file into the default bash completions dir
    • The completions directory can be found using: pkg-config --variable=completionsdir bash-completion

Usage Notes

  • Run this from the top level of a Linux kernel tree

    • e.g. run_qemu.sh --cxl --git-qemu
  • The script can/will:

    • Build the kernel with whatever .config is present (It is up to the user to manage the .config)
    • Create a rootfs image with the chosen distro using mkosi
    • Perform some basic setup on the rootfs, including installing the kernel, utilities (such as ndctl), and other convenience operations such as copying .ssh/*.pub keys for easy access, and your ~/.bashrc etc.
    • Boot qemu with the newly compiled kernel provided on the qemu command line, and using the rootfs image above
    • Various options influence the qemu command line generated - there are options to select NUMA config, NVDIMMs, NVME devices, CXL devices etc.
  • More detailed CLI help is available with run_qemu.sh --help

  • Once qemu starts, in nographic mode, the Linux console 'takes over' the terminal. To interact with it, the following are useful:

    • Ctrl-a c : switch between the qemu monitor prompt (qemu) and console
    • Ctrl-a x : kill qemu and exit
  • mkosi creates a package cache in mkosi.cache/ If a cache is present, it will always use only that, and never go over the network even if newer packages are available. To force re-fetching everything, remove this directory, or --rebuild=wipe which removes the builddir entirely.

  • Which qemu to use can be overridden from the environment: qemu=/path/to/qemu/build/qemu-system-x86_64 ./run_qemu.sh [options]

  • List of variables that have overrides via env:

    • qemu
    • gdb
    • distro
    • rev
    • builddir
    • ndctl
  • To use the 'hostfwd' network, put this in your .ssh/config:

    Host rq
      Hostname localhost
      User root
      Port 10022
      StrictHostKeyChecking no
      UserKnownHostsFile /dev/null
    

    And then ssh rq. You may need to open port 10022 on any local firewalls.

  • The root password for the guest VM is root by default but note many Linux distributions restrict remote root access in various ways. The serial console automatically logs in, and a password isn't required.

CXL Usage

The script enables generating a sane QEMU commandline for instantiating a basic CXL topology. Since QEMU support for CXL isn't yet upstream, --git-qemu is additionally required. The CXL related options are:

  • --cxl: Enables a simple CXL topology with:
    • single host bridge
      • 512M window size at 0x4c00000000
      • Bus #52
    • single root port
    • single Type 3 device
      • Persistent 256M
    • simple label storage area
  • --cxl-debug: Add any and all flags for extra debug (kernel and QEMU)
  • --cxl-hb: Turn q35 into a CXL capable Host bridge. Don't use this option unless you're working on support for this.
  • --cxl-test-run: Attempt to do a sanity test of the kernel and QEMU configuration.

DAX Usage

  • --dax-debug: Add any and all flags for extra debug of dax modules (kernel)

Kernel config

  • Make sure to Turn on CXL related options in the kernel's .config:
$ grep -i cxl .config
CONFIG_CXL_BUS=y
CONFIG_CXL_PCI=m
CONFIG_CXL_MEM_RAW_COMMANDS=y
CONFIG_CXL_ACPI=m
CONFIG_CXL_PMEM=m
CONFIG_CXL_MEM=m
CONFIG_CXL_PORT=y
CONFIG_CXL_SUSPEND=y

The following is a way to check basic sanity within the QEMU guest:

lspci  | grep '3[45]:00'
34:00.0 PCI bridge: Intel Corporation Device 7075
35:00.0 Memory controller [0502]: Intel Corporation Device 0d93 (rev 01)

readlink -f /sys/bus/cxl/devices/mem0
/sys/devices/pci0000:34/0000:34:00.0/0000:35:00.0/mem0