| Introduction |
| ============ |
| |
| Virtualisation Accelerators |
| --------------------------- |
| |
| QEMU's system emulation provides a virtual model of a machine (CPU, |
| memory and emulated devices) to run a guest OS. It supports a number |
| of hypervisors (known as accelerators) as well as a JIT known as the |
| Tiny Code Generator (TCG) capable of emulating many CPUs. |
| |
| .. list-table:: Supported Accelerators |
| :header-rows: 1 |
| |
| * - Accelerator |
| - Host OS |
| - Host Architectures |
| * - KVM |
| - Linux |
| - Arm (64 bit only), MIPS, PPC, RISC-V, s390x, x86 |
| * - Xen |
| - Linux (as dom0) |
| - Arm, x86 |
| * - Intel HAXM (hax) |
| - Linux, Windows |
| - x86 |
| * - Hypervisor Framework (hvf) |
| - MacOS |
| - x86 (64 bit only), Arm (64 bit only) |
| * - Windows Hypervisor Platform (wphx) |
| - Windows |
| - x86 |
| * - NetBSD Virtual Machine Monitor (nvmm) |
| - NetBSD |
| - x86 |
| * - Tiny Code Generator (tcg) |
| - Linux, other POSIX, Windows, MacOS |
| - Arm, x86, Loongarch64, MIPS, PPC, s390x, Sparc64 |
| |
| Feature Overview |
| ---------------- |
| |
| System emulation provides a wide range of device models to emulate |
| various hardware components you may want to add to your machine. This |
| includes a wide number of VirtIO devices which are specifically tuned |
| for efficient operation under virtualisation. Some of the device |
| emulation can be offloaded from the main QEMU process using either |
| vhost-user (for VirtIO) or :ref:`Multi-process QEMU`. If the platform |
| supports it QEMU also supports directly passing devices through to |
| guest VMs to eliminate the device emulation overhead. See |
| :ref:`device-emulation` for more details. |
| |
| There is a full :ref:`featured block layer<Live Block Operations>` |
| which allows for construction of complex storage topology which can be |
| stacked across multiple layers supporting redirection, networking, |
| snapshots and migration support. |
| |
| The flexible ``chardev`` system allows for handling IO from character |
| like devices using stdio, files, unix sockets and TCP networking. |
| |
| QEMU provides a number of management interfaces including a line based |
| :ref:`Human Monitor Protocol (HMP)<QEMU monitor>` that allows you to |
| dynamically add and remove devices as well as introspect the system |
| state. The :ref:`QEMU Monitor Protocol<QMP Ref>` (QMP) is a well |
| defined, versioned, machine usable API that presents a rich interface |
| to other tools to create, control and manage Virtual Machines. This is |
| the interface used by higher level tools interfaces such as `Virt |
| Manager <https://virt-manager.org/>`_ using the `libvirt framework |
| <https://libvirt.org>`_. |
| |
| For the common accelerators QEMU, supported debugging with its |
| :ref:`gdbstub<GDB usage>` which allows users to connect GDB and debug |
| system software images. |
| |
| Running |
| ------- |
| |
| QEMU provides a rich and complex API which can be overwhelming to |
| understand. While some architectures can boot something with just a |
| disk image, those examples elide a lot of details with defaults that |
| may not be optimal for modern systems. |
| |
| For a non-x86 system where we emulate a broad range of machine types, |
| the command lines are generally more explicit in defining the machine |
| and boot behaviour. You will find often find example command lines in |
| the :ref:`system-targets-ref` section of the manual. |
| |
| While the project doesn't want to discourage users from using the |
| command line to launch VMs, we do want to highlight that there are a |
| number of projects dedicated to providing a more user friendly |
| experience. Those built around the ``libvirt`` framework can make use |
| of feature probing to build modern VM images tailored to run on the |
| hardware you have. |
| |
| That said, the general form of a QEMU command line can be expressed |
| as: |
| |
| .. parsed-literal:: |
| |
| $ |qemu_system| [machine opts] \\ |
| [cpu opts] \\ |
| [accelerator opts] \\ |
| [device opts] \\ |
| [backend opts] \\ |
| [interface opts] \\ |
| [boot opts] |
| |
| Most options will generate some help information. So for example: |
| |
| .. parsed-literal:: |
| |
| $ |qemu_system| -M help |
| |
| will list the machine types supported by that QEMU binary. ``help`` |
| can also be passed as an argument to another option. For example: |
| |
| .. parsed-literal:: |
| |
| $ |qemu_system| -device scsi-hd,help |
| |
| will list the arguments and their default values of additional options |
| that can control the behaviour of the ``scsi-hd`` device. |
| |
| .. list-table:: Options Overview |
| :header-rows: 1 |
| :widths: 10, 90 |
| |
| * - Options |
| - |
| * - Machine |
| - Define the machine type, amount of memory etc |
| * - CPU |
| - Type and number/topology of vCPUs. Most accelerators offer |
| a ``host`` cpu option which simply passes through your host CPU |
| configuration without filtering out any features. |
| * - Accelerator |
| - This will depend on the hypervisor you run. Note that the |
| default is TCG, which is purely emulated, so you must specify an |
| accelerator type to take advantage of hardware virtualization. |
| * - Devices |
| - Additional devices that are not defined by default with the |
| machine type. |
| * - Backends |
| - Backends are how QEMU deals with the guest's data, for example |
| how a block device is stored, how network devices see the |
| network or how a serial device is directed to the outside world. |
| * - Interfaces |
| - How the system is displayed, how it is managed and controlled or |
| debugged. |
| * - Boot |
| - How the system boots, via firmware or direct kernel boot. |
| |
| In the following example we first define a ``virt`` machine which is a |
| general purpose platform for running Aarch64 guests. We enable |
| virtualisation so we can use KVM inside the emulated guest. As the |
| ``virt`` machine comes with some built in pflash devices we give them |
| names so we can override the defaults later. |
| |
| .. code:: |
| |
| $ qemu-system-aarch64 \ |
| -machine type=virt,virtualization=on,pflash0=rom,pflash1=efivars \ |
| -m 4096 \ |
| |
| We then define the 4 vCPUs using the ``max`` option which gives us all |
| the Arm features QEMU is capable of emulating. We enable a more |
| emulation friendly implementation of Arm's pointer authentication |
| algorithm. We explicitly specify TCG acceleration even though QEMU |
| would default to it anyway. |
| |
| .. code:: |
| |
| -cpu max,pauth-impdef=on \ |
| -smp 4 \ |
| -accel tcg \ |
| |
| As the ``virt`` platform doesn't have any default network or storage |
| devices we need to define them. We give them ids so we can link them |
| with the backend later on. |
| |
| .. code:: |
| |
| -device virtio-net-pci,netdev=unet \ |
| -device virtio-scsi-pci \ |
| -device scsi-hd,drive=hd \ |
| |
| We connect the user-mode networking to our network device. As |
| user-mode networking isn't directly accessible from the outside world |
| we forward localhost port 2222 to the ssh port on the guest. |
| |
| .. code:: |
| |
| -netdev user,id=unet,hostfwd=tcp::2222-:22 \ |
| |
| We connect the guest visible block device to an LVM partition we have |
| set aside for our guest. |
| |
| .. code:: |
| |
| -blockdev driver=raw,node-name=hd,file.driver=host_device,file.filename=/dev/lvm-disk/debian-bullseye-arm64 \ |
| |
| We then tell QEMU to multiplex the :ref:`QEMU monitor` with the serial |
| port output (we can switch between the two using :ref:`keys in the |
| character backend multiplexer`). As there is no default graphical |
| device we disable the display as we can work entirely in the terminal. |
| |
| .. code:: |
| |
| -serial mon:stdio \ |
| -display none \ |
| |
| Finally we override the default firmware to ensure we have some |
| storage for EFI to persist its configuration. That firmware is |
| responsible for finding the disk, booting grub and eventually running |
| our system. |
| |
| .. code:: |
| |
| -blockdev node-name=rom,driver=file,filename=(pwd)/pc-bios/edk2-aarch64-code.fd,read-only=true \ |
| -blockdev node-name=efivars,driver=file,filename=$HOME/images/qemu-arm64-efivars |