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SUPPORT.md

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% Support statement for this release

This document describes the support status and in particular the security support status of the Xen branch within which you find it.

See the bottom of the file for the definitions of the support status levels etc.

Release Support

Xen-Version: 4.15-unstable
Initial-Release: n/a
Supported-Until: TBD
Security-Support-Until: Unreleased - not yet security-supported

Release Notes : RN

Feature Support

Kconfig

EXPERT and DEBUG Kconfig options are not security supported. Other Kconfig options are supported, if the related features are marked as supported in this document.

Host Architecture

x86-64

Status: Supported

ARM v7 + Virtualization Extensions

Status: Supported

ARM v8

Status: Supported
Status, Cortex A57 r0p0-r1p1: Supported, not security supported

For the Cortex A57 r0p0 - r1p1, see Errata 832075.

Host hardware support

Physical CPU Hotplug

Status, x86: Supported

Physical Memory Hotplug

Status, x86: Supported

Host ACPI (via Domain 0)

Status, x86 PV: Supported
Status, ARM: Experimental

x86/Intel Platform QoS Technologies

Status: Tech Preview

IOMMU

Status, AMD IOMMU: Supported
Status, Intel VT-d: Supported
Status, ARM SMMUv1: Supported, not security supported
Status, ARM SMMUv2: Supported, not security supported
Status, Renesas IPMMU-VMSA: Supported, not security supported

ARM/GICv3 ITS

Extension to the GICv3 interrupt controller to support MSI.

Status: Experimental

Guest Type

x86/PV

Traditional Xen PV guest

No hardware requirements

Status: Supported

x86/HVM

Fully virtualised guest using hardware virtualisation extensions

Requires hardware virtualisation support (Intel VMX / AMD SVM)

Status, domU: Supported

x86/PVH

PVH is a next-generation paravirtualized mode designed to take advantage of hardware virtualization support when possible. During development this was sometimes called HVMLite or PVHv2.

Requires hardware virtualisation support (Intel VMX / AMD SVM).

Dom0 support requires an IOMMU (Intel VT-d / AMD IOMMU).

Status, domU: Supported
Status, dom0: Experimental

ARM

ARM only has one guest type at the moment

Status: Supported

Hypervisor file system

Build info

Status: Supported

Hypervisor config

Status: Supported

Runtime parameters

Status: Supported

Toolstack

xl

Status: Supported

Direct-boot kernel image format

Format which the toolstack accepts for direct-boot kernels

Supported, x86: bzImage, ELF
Supported, ARM32: zImage
Supported, ARM64: Image

Dom0 init support for xl

Status, SysV: Supported
Status, systemd: Supported
Status, BSD-style: Supported

JSON output support for xl

Output of information in machine-parseable JSON format

Status: Experimental

Open vSwitch integration for xl

Status, Linux: Supported

Virtual cpu hotplug

Status: Supported

QEMU backend hotplugging for xl

Status: Supported

xenlight Go package

Go (golang) bindings for libxl

Status: Experimental

Linux device model stubdomains

Support for running qemu-xen device model in a linux stubdomain.

Status: Tech Preview

Toolstack/3rd party

libvirt driver for xl

Status: Supported, Security support external

Debugging, analysis, and crash post-mortem

Host serial console

Status, NS16550: Supported
Status, EHCI: Supported
Status, Cadence UART (ARM): Supported
Status, PL011 UART (ARM): Supported
Status, Exynos 4210 UART (ARM): Supported
Status, OMAP UART (ARM): Supported
Status, SCI(F) UART: Supported

Hypervisor 'debug keys'

These are functions triggered either from the host serial console, or via the xl 'debug-keys' command, which cause Xen to dump various hypervisor state to the console.

Status: Supported, not security supported

Hypervisor synchronous console output (sync_console)

Xen command-line flag to force synchronous console output.

Status: Supported, not security supported

Useful for debugging, but not suitable for production environments due to incurred overhead.

gdbsx

Status, x86: Supported, not security supported

Debugger to debug ELF guests

Soft-reset for PV guests

Soft-reset allows a new kernel to start 'from scratch' with a fresh VM state, but with all the memory from the previous state of the VM intact. This is primarily designed to allow "crash kernels", which can do core dumps of memory to help with debugging in the event of a crash.

Status: Supported

xentrace

Tool to capture Xen trace buffer data

Status, x86: Supported

gcov

Export hypervisor coverage data suitable for analysis by gcov or lcov.

Status: Supported, Not security supported

Memory Management

Dynamic memory control

Allows a guest to add or remove memory after boot-time. This is typically done by a guest kernel agent known as a "balloon driver".

Status: Supported

Populate-on-demand memory

This is a mechanism that allows normal operating systems with only a balloon driver to boot with memory < maxmem.

Status, x86 HVM: Supported

Memory Sharing

Allow sharing of identical pages between guests

Status, x86 HVM: Experimental

Memory Paging

Allow pages belonging to guests to be paged to disk

Status, x86 HVM: Experimental

Alternative p2m

Alternative p2m (altp2m) allows external monitoring of guest memory by maintaining multiple physical to machine (p2m) memory mappings.

Status, x86 HVM: Tech Preview
Status, ARM: Tech Preview

Resource Management

CPU Pools

Groups physical cpus into distinct groups called "cpupools", with each pool having the capability of using different schedulers and scheduling properties.

Status: Supported

Core Scheduling

Allows to group virtual cpus into virtual cores which are scheduled on the physical cores. This results in never running different guests at the same time on the same physical core.

Status, x86: Experimental

Credit Scheduler

A weighted proportional fair share virtual CPU scheduler. This is the default scheduler.

Status: Supported

Credit2 Scheduler

A general purpose scheduler for Xen, designed with particular focus on fairness, responsiveness, and scalability

Status: Supported

RTDS based Scheduler

A soft real-time CPU scheduler built to provide guaranteed CPU capacity to guest VMs on SMP hosts

Status: Experimental

ARINC653 Scheduler

A periodically repeating fixed timeslice scheduler.

Status: Supported

Currently only single-vcpu domains are supported.

Null Scheduler

A very simple, very static scheduling policy that always schedules the same vCPU(s) on the same pCPU(s). It is designed for maximum determinism and minimum overhead on embedded platforms.

Status: Experimental

NUMA scheduler affinity

Enables NUMA aware scheduling in Xen

Status, x86: Supported

Scalability

Super page support

NB that this refers to the ability of guests to have higher-level page table entries point directly to memory, improving TLB performance. On ARM, and on x86 in HAP mode, the guest has whatever support is enabled by the hardware.

This feature is independent of the ARM "page granularity" feature (see below).

Status, x86 HVM/PVH, HAP: Supported
Status, x86 HVM/PVH, Shadow, 2MiB: Supported
Status, ARM: Supported

On x86 in shadow mode, only 2MiB (L2) superpages are available; furthermore, they do not have the performance characteristics of hardware superpages.

x86/PVHVM

This is a useful label for a set of hypervisor features which add paravirtualized functionality to HVM guests for improved performance and scalability. This includes exposing event channels to HVM guests.

Status: Supported

High Availability and Fault Tolerance

Remus Fault Tolerance

Status: Experimental

COLO Manager

Status: Experimental

x86/vMCE

Forward Machine Check Exceptions to appropriate guests

Status: Supported

Virtual driver support, guest side

Blkfront

Guest-side driver capable of speaking the Xen PV block protocol

Status, Linux: Supported
Status, FreeBSD: Supported, Security support external
Status, NetBSD: Supported, Security support external
Status, OpenBSD: Supported, Security support external
Status, Windows: Supported

Netfront

Guest-side driver capable of speaking the Xen PV networking protocol

Status, Linux: Supported
Status, FreeBSD: Supported, Security support external
Status, NetBSD: Supported, Security support external
Status, OpenBSD: Supported, Security support external
Status, Windows: Supported

PV Framebuffer (frontend)

Guest-side driver capable of speaking the Xen PV Framebuffer protocol

Status, Linux (xen-fbfront): Supported

PV display (frontend)

Guest-side driver capable of speaking the Xen PV display protocol

Status, Linux: Supported

PV Console (frontend)

Guest-side driver capable of speaking the Xen PV console protocol

Status, Linux (hvc_xen): Supported
Status, FreeBSD: Supported, Security support external
Status, NetBSD: Supported, Security support external
Status, Windows: Supported

PV keyboard (frontend)

Guest-side driver capable of speaking the Xen PV keyboard protocol. Note that the "keyboard protocol" includes mouse / pointer / multi-touch support as well.

Status, Linux (xen-kbdfront): Supported

PV USB (frontend)

Status, Linux: Supported

PV SCSI protocol (frontend)

Status, Linux: Supported, with caveats

NB that while the PV SCSI frontend is in Linux and tested regularly, there is currently no xl support.

PV TPM (frontend)

Guest-side driver capable of speaking the Xen PV TPM protocol

Status, Linux (xen-tpmfront): Tech Preview

PV 9pfs frontend

Guest-side driver capable of speaking the Xen 9pfs protocol

Status, Linux: Tech Preview

PVCalls (frontend)

Guest-side driver capable of making pv system calls

Status, Linux: Tech Preview

PV sound (frontend)

Guest-side driver capable of speaking the Xen PV sound protocol

Status, Linux: Supported

Virtual device support, host side

For host-side virtual device support, "Supported" and "Tech preview" include xl/libxl support unless otherwise noted.

Blkback

Host-side implementations of the Xen PV block protocol.

Status, Linux (xen-blkback): Supported
Status, QEMU (xen_disk), raw format: Supported
Status, QEMU (xen_disk), qcow format: Supported
Status, QEMU (xen_disk), qcow2 format: Supported
Status, QEMU (xen_disk), vhd format: Supported
Status, FreeBSD (blkback): Supported, Security support external
Status, NetBSD (xbdback): Supported, security support external
Status, Blktap2, raw format: Deprecated
Status, Blktap2, vhd format: Deprecated

Backends only support raw format unless otherwise specified.

Netback

Host-side implementations of Xen PV network protocol

Status, Linux (xen-netback): Supported
Status, FreeBSD (netback): Supported, Security support external
Status, NetBSD (xennetback): Supported, Security support external

PV Framebuffer (backend)

Host-side implementation of the Xen PV framebuffer protocol

Status, QEMU: Supported

PV Console (xenconsoled)

Host-side implementation of the Xen PV console protocol

Status: Supported

PV keyboard (backend)

Host-side implementation of the Xen PV keyboard protocol. Note that the "keyboard protocol" includes mouse / pointer support as well.

Status, QEMU: Supported

PV USB (backend)

Host-side implementation of the Xen PV USB protocol

Status, QEMU: Supported

PV SCSI protocol (backend)

Status, Linux: Experimental

NB that while the PV SCSI backend is in Linux and tested regularly, there is currently no xl support.

PV TPM (backend)

Status: Tech Preview

PV 9pfs (backend)

Status, QEMU: Tech Preview

PVCalls (backend)

Status, Linux: Experimental

PVCalls backend has been checked into Linux, but has no xl support.

Online resize of virtual disks

Status: Supported

Security

Driver Domains

"Driver domains" means allowing non-Domain 0 domains with access to physical devices to act as back-ends.

Status: Supported, with caveats

See the appropriate "Device Passthrough" section for more information about security support.

Device Model Stub Domains

Status: Supported, with caveats

Vulnerabilities of a device model stub domain to a hostile driver domain (either compromised or untrusted) are excluded from security support.

Device Model Deprivileging

Status, Linux dom0: Tech Preview, with limited support

This means adding extra restrictions to a device model in order to prevent a compromised device model from attacking the rest of the domain it's running in (normally dom0).

"Tech preview with limited support" means we will not issue XSAs for the additional functionality provided by the feature; but we will issue XSAs in the event that enabling this feature opens up a security hole that would not be present without the feature disabled.

For example, while this is classified as tech preview, a bug in libxl which failed to change the user ID of QEMU would not receive an XSA, since without this feature the user ID wouldn't be changed. But a change which made it possible for a compromised guest to read arbitrary files on the host filesystem without compromising QEMU would be issued an XSA, since that does weaken security.

KCONFIG Expert

Status: Experimental

Live Patching

Status, x86: Supported
Status, ARM: Experimental

Compile time disabled for ARM by default.

Virtual Machine Introspection

Status, x86: Supported, not security supported

XSM & FLASK

Status: Experimental

Compile time disabled by default.

Also note that using XSM to delegate various domain control hypercalls to particular other domains, rather than only permitting use by dom0, is also specifically excluded from security support for many hypercalls. Please see XSA-77 for more details.

FLASK default policy

Status: Experimental

The default policy includes FLASK labels and roles for a "typical" Xen-based system with dom0, driver domains, stub domains, domUs, and so on.

Virtual Hardware, Hypervisor

x86/Nested PV

This means running a Xen hypervisor inside an HVM domain on a Xen system, with support for PV L2 guests only (i.e., hardware virtualization extensions not provided to the guest).

Status, x86 Xen HVM: Tech Preview

This works, but has performance limitations because the L1 dom0 can only access emulated L1 devices.

Xen may also run inside other hypervisors (KVM, Hyper-V, VMWare), but nobody has reported on performance.

x86/Nested HVM

This means providing hardware virtulization support to guest VMs allowing, for instance, a nested Xen to support both PV and HVM guests. It also implies support for other hypervisors, such as KVM, Hyper-V, Bromium, and so on as guests.

Status, x86 HVM: Experimental

vPMU

Virtual Performance Management Unit for HVM guests

Status, x86: Supported, Not security supported

Disabled by default (enable with hypervisor command line option). This feature is not security supported: see https://xenbits.xen.org/xsa/advisory-163.html

Argo: Inter-domain message delivery by hypercall

Status: Experimental

x86/PCI Device Passthrough

Status, x86 PV: Supported, with caveats
Status, x86 HVM: Supported, with caveats

Only systems using IOMMUs are supported.

Not compatible with migration, populate-on-demand, altp2m, introspection, memory sharing, or memory paging.

Because of hardware limitations (affecting any operating system or hypervisor), it is generally not safe to use this feature to expose a physical device to completely untrusted guests. However, this feature can still confer significant security benefit when used to remove drivers and backends from domain 0 (i.e., Driver Domains).

x86/Multiple IOREQ servers

An IOREQ server provides emulated devices to HVM and PVH guests. QEMU is normally the only IOREQ server, but Xen has support for multiple IOREQ servers. This allows for custom or proprietary device emulators to be used in addition to QEMU.

Status: Experimental

ARM/Non-PCI device passthrough

Status: Supported, not security supported

Note that this still requires an IOMMU that covers the DMA of the device to be passed through.

ARM: 16K and 64K page granularity in guests

Status: Supported, with caveats

No support for QEMU backends in a 16K or 64K domain.

ARM: Guest Device Tree support

Status: Supported

ARM: Guest ACPI support

Status: Supported

Arm: OP-TEE Mediator

Status: Tech Preview

Virtual Hardware, QEMU

This section describes supported devices available in HVM mode using a qemu devicemodel (the default).

Status: Support scope restricted 

Note that other devices are available but not security supported.

x86/Emulated platform devices (QEMU):

Status, piix3: Supported

x86/Emulated network (QEMU):

Status, e1000: Supported
Status, rtl8193: Supported
Status, virtio-net: Supported

x86/Emulated storage (QEMU):

Status, piix3 ide: Supported
Status, ahci: Supported

See the section Blkback for image formats supported by QEMU.

x86/Emulated graphics (QEMU):

Status, cirrus-vga: Supported
Status, stdvga: Supported

x86/Emulated audio (QEMU):

Status, sb16: Supported
Status, es1370: Supported
Status, ac97: Supported

x86/Emulated input (QEMU):

Status, usbmouse: Supported
Status, usbtablet: Supported
Status, ps/2 keyboard: Supported
Status, ps/2 mouse: Supported

x86/Emulated serial card (QEMU):

Status, UART 16550A: Supported

x86/Host USB passthrough (QEMU):

Status: Supported, not security supported

qemu-xen-traditional

The Xen Project provides an old version of qemu with modifications which enable use as a device model stub domain. The old version is normally selected by default only in a stub dm configuration, but it can be requested explicitly in other configurations, for example in xl with device_model_version="QEMU_XEN_TRADITIONAL".

Status, Device Model Stub Domains: Supported, with caveats
Status, as host process device model: No security support, not recommended

qemu-xen-traditional is security supported only for those available devices which are supported for mainstream QEMU (see above), with trusted driver domains (see Device Model Stub Domains).

Virtual Firmware

x86/HVM iPXE

Booting a guest via PXE.

Status: Supported, with caveats

PXE inherently places full trust of the guest in the network, and so should only be used when the guest network is under the same administrative control as the guest itself.

x86/HVM BIOS

Booting a guest via guest BIOS firmware

Status, SeaBIOS (qemu-xen): Supported
Status, ROMBIOS (qemu-xen-traditional): Supported

x86/HVM OVMF

OVMF firmware implements the UEFI boot protocol.

Status, qemu-xen: Supported

Format and definitions

This file contains prose, and machine-readable fragments. The data in a machine-readable fragment relate to the section and subsection in which it is found.

The file is in markdown format. The machine-readable fragments are markdown literals containing RFC-822-like (deb822-like) data.

In each case, descriptions which expand on the name of a feature as provided in the section heading, precede the Status indications. Any paragraphs which follow the Status indication are caveats or qualifications of the information provided in Status fields.

Keys found in the Feature Support subsections

Status

This gives the overall status of the feature, including security support status, functional completeness, etc. Refer to the detailed definitions below.

If support differs based on implementation (for instance, x86 / ARM, Linux / QEMU / FreeBSD), one line for each set of implementations will be listed.

Definition of Status labels

Each Status value corresponds to levels of security support, testing, stability, etc., as follows:

Experimental

Functional completeness: No
Functional stability: Here be dragons
Interface stability: Not stable
Security supported: No

Tech Preview

Functional completeness: Yes
Functional stability: Quirky
Interface stability: Provisionally stable
Security supported: No

Supported

Functional completeness: Yes
Functional stability: Normal
Interface stability: Yes
Security supported: Yes

Deprecated

Functional completeness: Yes
Functional stability: Quirky
Interface stability: No (as in, may disappear the next release)
Security supported: Yes

All of these may appear in modified form. There are several interfaces, for instance, which are officially declared as not stable; in such a case this feature may be described as "Stable / Interface not stable".

Definition of the status label interpretation tags

Functionally complete

Does it behave like a fully functional feature? Does it work on all expected platforms, or does it only work for a very specific sub-case? Does it have a sensible UI, or do you have to have a deep understanding of the internals to get it to work properly?

Functional stability

What is the risk of it exhibiting bugs?

General answers to the above:

  • Here be dragons

    Pretty likely to still crash / fail to work. Not recommended unless you like life on the bleeding edge.

  • Quirky

    Mostly works but may have odd behavior here and there. Recommended for playing around or for non-production use cases.

  • Normal

    Ready for production use

Interface stability

If I build a system based on the current interfaces, will they still work when I upgrade to the next version?

  • Not stable

    Interface is still in the early stages and still fairly likely to be broken in future updates.

  • Provisionally stable

    We're not yet promising backwards compatibility, but we think this is probably the final form of the interface. It may still require some tweaks.

  • Stable

    We will try very hard to avoid breaking backwards compatibility, and to fix any regressions that are reported.

Security supported

Will XSAs be issued if security-related bugs are discovered in the functionality?

If "no", anyone who finds a security-related bug in the feature will be advised to post it publicly to the Xen Project mailing lists (or contact another security response team, if a relevant one exists).

Bugs found after the end of Security-Support-Until in the Release Support section will receive an XSA if they also affect newer, security-supported, versions of Xen. However, the Xen Project will not provide official fixes for non-security-supported versions.

Three common 'diversions' from the 'Supported' category are given the following labels:

  • Supported, Not security supported

    Functionally complete, normal stability, interface stable, but no security support

  • Supported, Security support external

    This feature is security supported by a different organization (not the XenProject). See External security support below.

  • Supported, with caveats

    This feature is security supported only under certain conditions, or support is given only for certain aspects of the feature, or the feature should be used with care because it is easy to use insecurely without knowing it. Additional details will be given in the description.

Interaction with other features

Not all features interact well with all other features. Some features are only for HVM guests; some don't work with migration, &c.

External security support

The XenProject security team provides security support for XenProject projects.

We also provide security support for Xen-related code in Linux, which is an external project but doesn't have its own security process.

External projects that provide their own security support for Xen-related features are listed below.