docs/microvm.rst - third_party/qemu - Git at Google

 ====================
 microvm Machine Type
 ====================

 ``microvm`` is a machine type inspired by ``Firecracker`` and
 constructed after its machine model.

 It's a minimalist machine type without ``PCI`` nor ``ACPI`` support,
 designed for short-lived guests. microvm also establishes a baseline
 for benchmarking and optimizing both QEMU and guest operating systems,
 since it is optimized for both boot time and footprint.


 Supported devices
 -----------------

 The microvm machine type supports the following devices:

 - ISA bus
 - i8259 PIC (optional)
 - i8254 PIT (optional)
 - MC146818 RTC (optional)
 - One ISA serial port (optional)
 - LAPIC
 - IOAPIC (with kernel-irqchip=split by default)
 - kvmclock (if using KVM)
 - fw_cfg
 - Up to eight virtio-mmio devices (configured by the user)


 Limitations
 -----------

 Currently, microvm does *not* support the following features:

  - PCI-only devices.
  - Hotplug of any kind.
  - Live migration across QEMU versions.


 Using the microvm machine type
 ------------------------------

 Machine-specific options
 ~~~~~~~~~~~~~~~~~~~~~~~~

 It supports the following machine-specific options:

 - microvm.x-option-roms=bool (Set off to disable loading option ROMs)
 - microvm.pit=OnOffAuto (Enable i8254 PIT)
 - microvm.isa-serial=bool (Set off to disable the instantiation an ISA serial port)
 - microvm.pic=OnOffAuto (Enable i8259 PIC)
 - microvm.rtc=OnOffAuto (Enable MC146818 RTC)
 - microvm.auto-kernel-cmdline=bool (Set off to disable adding virtio-mmio devices to the kernel cmdline)


 Boot options
 ~~~~~~~~~~~~

 By default, microvm uses ``qboot`` as its BIOS, to obtain better boot
 times, but it's also compatible with ``SeaBIOS``.

 As no current FW is able to boot from a block device using
 ``virtio-mmio`` as its transport, a microvm-based VM needs to be run
 using a host-side kernel and, optionally, an initrd image.


 Running a microvm-based VM
 ~~~~~~~~~~~~~~~~~~~~~~~~~~

 By default, microvm aims for maximum compatibility, enabling both
 legacy and non-legacy devices. In this example, a VM is created
 without passing any additional machine-specific option, using the
 legacy ``ISA serial`` device as console::

   $ qemu-system-x86_64 -M microvm \
      -enable-kvm -cpu host -m 512m -smp 2 \
      -kernel vmlinux -append "earlyprintk=ttyS0 console=ttyS0 root=/dev/vda" \
      -nodefaults -no-user-config -nographic \
      -serial stdio \
      -drive id=test,file=test.img,format=raw,if=none \
      -device virtio-blk-device,drive=test \
      -netdev tap,id=tap0,script=no,downscript=no \
      -device virtio-net-device,netdev=tap0

 While the example above works, you might be interested in reducing the
 footprint further by disabling some legacy devices. If you're using
 ``KVM``, you can disable the ``RTC``, making the Guest rely on
 ``kvmclock`` exclusively. Additionally, if your host's CPUs have the
 ``TSC_DEADLINE`` feature, you can also disable both the i8259 PIC and
 the i8254 PIT (make sure you're also emulating a CPU with such feature
 in the guest).

 This is an example of a VM with all optional legacy features
 disabled::

   $ qemu-system-x86_64 \
      -M microvm,x-option-roms=off,pit=off,pic=off,isa-serial=off,rtc=off \
      -enable-kvm -cpu host -m 512m -smp 2 \
      -kernel vmlinux -append "console=hvc0 root=/dev/vda" \
      -nodefaults -no-user-config -nographic \
      -chardev stdio,id=virtiocon0 \
      -device virtio-serial-device \
      -device virtconsole,chardev=virtiocon0 \
      -drive id=test,file=test.img,format=raw,if=none \
      -device virtio-blk-device,drive=test \
      -netdev tap,id=tap0,script=no,downscript=no \
      -device virtio-net-device,netdev=tap0
	====================
	microvm Machine Type
	====================

	``microvm`` is a machine type inspired by ``Firecracker`` and
	constructed after its machine model.

	It's a minimalist machine type without ``PCI`` nor ``ACPI`` support,
	designed for short-lived guests. microvm also establishes a baseline
	for benchmarking and optimizing both QEMU and guest operating systems,
	since it is optimized for both boot time and footprint.


	Supported devices
	-----------------

	The microvm machine type supports the following devices:

	- ISA bus
	- i8259 PIC (optional)
	- i8254 PIT (optional)
	- MC146818 RTC (optional)
	- One ISA serial port (optional)
	- LAPIC
	- IOAPIC (with kernel-irqchip=split by default)
	- kvmclock (if using KVM)
	- fw_cfg
	- Up to eight virtio-mmio devices (configured by the user)


	Limitations
	-----------

	Currently, microvm does not support the following features:

	- PCI-only devices.
	- Hotplug of any kind.
	- Live migration across QEMU versions.


	Using the microvm machine type
	------------------------------

	Machine-specific options
	~~~~~~~~~~~~~~~~~~~~~~~~

	It supports the following machine-specific options:

	- microvm.x-option-roms=bool (Set off to disable loading option ROMs)
	- microvm.pit=OnOffAuto (Enable i8254 PIT)
	- microvm.isa-serial=bool (Set off to disable the instantiation an ISA serial port)
	- microvm.pic=OnOffAuto (Enable i8259 PIC)
	- microvm.rtc=OnOffAuto (Enable MC146818 RTC)
	- microvm.auto-kernel-cmdline=bool (Set off to disable adding virtio-mmio devices to the kernel cmdline)


	Boot options
	~~~~~~~~~~~~

	By default, microvm uses ``qboot`` as its BIOS, to obtain better boot
	times, but it's also compatible with ``SeaBIOS``.

	As no current FW is able to boot from a block device using
	``virtio-mmio`` as its transport, a microvm-based VM needs to be run
	using a host-side kernel and, optionally, an initrd image.


	Running a microvm-based VM
	~~~~~~~~~~~~~~~~~~~~~~~~~~

	By default, microvm aims for maximum compatibility, enabling both
	legacy and non-legacy devices. In this example, a VM is created
	without passing any additional machine-specific option, using the
	legacy ``ISA serial`` device as console::

	$ qemu-system-x86_64 -M microvm \
	-enable-kvm -cpu host -m 512m -smp 2 \
	-kernel vmlinux -append "earlyprintk=ttyS0 console=ttyS0 root=/dev/vda" \
	-nodefaults -no-user-config -nographic \
	-serial stdio \
	-drive id=test,file=test.img,format=raw,if=none \
	-device virtio-blk-device,drive=test \
	-netdev tap,id=tap0,script=no,downscript=no \
	-device virtio-net-device,netdev=tap0

	While the example above works, you might be interested in reducing the
	footprint further by disabling some legacy devices. If you're using
	``KVM``, you can disable the ``RTC``, making the Guest rely on
	``kvmclock`` exclusively. Additionally, if your host's CPUs have the
	``TSC_DEADLINE`` feature, you can also disable both the i8259 PIC and
	the i8254 PIT (make sure you're also emulating a CPU with such feature
	in the guest).

	This is an example of a VM with all optional legacy features
	disabled::

	$ qemu-system-x86_64 \
	-M microvm,x-option-roms=off,pit=off,pic=off,isa-serial=off,rtc=off \
	-enable-kvm -cpu host -m 512m -smp 2 \
	-kernel vmlinux -append "console=hvc0 root=/dev/vda" \
	-nodefaults -no-user-config -nographic \
	-chardev stdio,id=virtiocon0 \
	-device virtio-serial-device \
	-device virtconsole,chardev=virtiocon0 \
	-drive id=test,file=test.img,format=raw,if=none \
	-device virtio-blk-device,drive=test \
	-netdev tap,id=tap0,script=no,downscript=no \
	-device virtio-net-device,netdev=tap0