An extremely low latency KVMFR (KVM FrameRelay) implementation for guests with VGA PCI Passthrough.
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KVMGFX

Purpose

To provide a low latency KVM Guest client that relies on video capture rather than the output of a virtual VGA device. The goal of this project is to allow lossless zero latency display of a guest on the host on the local host.

The Problem

Exising solutions such as Spice are designed to work with a virtual VGA adaptor, but when a physical VGA device is passed into the guest VM the display can not be presented to the host, instead a physical monitor must be attached to the physcal VGA device. While this may be acceptible to some it requires a physical switch between the host and guest VM preventing the VM from being inlined into the host window manager.

Existing Solutions

Some have reported that they are able to stream using Steam InHouse Streaming to stream the desktop back to the host by launching a program such as notepad in the guest, and then tabbing to desktop. While this works Steam is designed to stream this over a local area network and as such employs technologies such as compression and packetization for network transmission, there are several issues with this solution:

  • Latency from guest to client is generally no less then 50-80ms, this is very noticable when using a cursor input or running games that demand high precision and fast input.

  • Compressing the stream adds additional CPU/GPU overhead that can degrade performance.

  • Compressing converts to the YUV422P colorspace which degrades quality quite substantially.

  • The stream is tuned for transmission over a network which not only adds additional overheads, it also adds additional buffers that increase latency.

Our Solution

Qemu contains a virtual device that allows mapping of shared memory between host and guest called 'ivshmem'. This device has been used for very specific cases where extremely high bandwidth low latency networking/firewalls have been required and as such a windows driver was never written for this device.

We developed a Windows driver for this device and have worked with Red Hat to have it included into the official VirtIO windows driver repository.

The shared memory segment is intialized by the guest with a strcture that describes the format of the frame and the current mouse coordinates. Frame data is appended to the buffer after this header.

Video Transfer

The guest runs a program that uses the ivshmem device as a direct transfer between the guest and host. This application uses accelerated capture methods such as NvFBC or DXGI to capture the guests framebuffer. This captured frame is then copied into the shared memory region. After the frame has been copied a doorbell is set in ivshmem which the host client application is waiting on, after which the client application waits for an IRQ from the host to state that the frame has been processed.

After the host client application is notified there is a new frame it maps the frame to the host video card by means of a SDL streaming texture. Once a copy of the frame has been completed the host client then notifies the guest by means of raising the IRQ the guest is waiting on.

At this time the guest still requires a monitor or dummy device attached that presents valid EDID information for the resolutions that are desired. There may be a way around this but that is not the goal of this project at this time and is thus out of scope. This author found it easiest to just use the secondary input to one of his monitors to present the EDID information.

Keyboard and Mouse Input

The host client implements the Spice protocol and is able to send mouse and keyboard events over the existing communications channels provided by qemu.

If using libvirt the virtual tablet device must be removed from the host as this application expects to and requires to use relative positioning for all interactions. If the tablet device exists qemu will give priority to it for click events which are unreliable when used in this way.

There are also some issues with the qemu PS2 controller that will cause mouse input lockups when keyboard events and mouse events occur at the same time. The virtual USB keyboard and mouse inputs while are somewhat more reliable also suffer random dropouts at high rates due to USB hub emulation timing issues.

At the time of writing this we have found the best solution is to use the PS2 mouse and the VirtIO Keyboard device.

The guest program returns the current mouse position as part of each frame, this is so that it is possible to syncronise the host mouse position in the window to that reported by the guest.

We recommend that the guest have the mouse acceleration disabled so that the guest's mouse position is 1:1 with the host. This makes for a seemless experience when the cursor is moved inside and outside of the client application on the host.

Audio

This client doesn't implement any form of audio, the guest needs to be configured to use the hosts for audio directly. At this time we recommend using pulseaudio as the ALSA implementation seems to be problematic and requires some attention.

Testing

Our test scenario involved running a physical monitor along side the guest client, at this time we have only tested NvFBC as the capture technology on the guest.

Hardware

MB Asrock AB350 Pro4
CPU AMD Ryzen 7 1700 @ 3.8GHz
RAM 16GB DDR4
Host GPU NVidia GTX 1080 Ti running 4 monitors @ 1920x1200
Guest GPU NVidia GTX 680 modified to a Quadro K5000 @ 1920x1200

Software

Host Debian 9 + NPT patch
Guest Windows 10 running in KVM on the i440 device tree.

Results

Latency has not been measured but it is sufficient to say that it would be difficult to obtain an accurate measurement. In practice to this author it is impossible to see any latency between the physical display and host client output.

At this time we are waiting for a signed ivshmem driver by Red Hat to be released but since this may take quite some time we are currently in the process of obtaining a driver signing certificate.

Status

The guest software at current needs to be rewritten, in it's current state it is simply proof of concept.

The host software is considered 90% complete, features such as copy & paste between client and guest are missing and it would be nice if it could also serve as the ivshmem-server.

Security

This project has not been written with security of the shared memory in mind, it is certainly possible at this time for the client to abuse the headers and input invalid information that could be used to compromise the host system.

At this time this is not a concern as our use case of this application at this time is in a completely trusted environment, but before it is more widely put into use this will need to be addressed.

License

KVMGFX Client - A KVM Client for VGA Passthrough
Copyright (C) 2017 Geoffrey McRae <geoff@hostfission.com>

This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation; either version 2 of the License, or (at your option) any later
version.

This program is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place, Suite 330, Boston, MA 02111-1307 USA