LibVNCServer: A library for easy implementation of a VNC server. Copyright (C) 2001-2003 Johannes E. Schindelin
If you already used LibVNCServer, you probably want to read NEWS.
VNC is a set of programs using the RFB (Remote Frame Buffer) protocol. They are designed to "export" a frame buffer via net: you set up a server and can connect to it via VNC viewers. If the server supports WebSockets (which LibVNCServer does), you can also connect using an in-browser VNC viewer like noVNC.
It is already in wide use for administration, but it is not that easy to program a server yourself.
This has been changed by LibVNCServer.
The homepage has a tentative list of all the projects using either LibVNCServer or LibVNCClient or both.
Name | Number | LibVNCServer | LibVNCClient |
---|---|---|---|
None | 1 | ✔ | ✔ |
VNC Authentication | 2 | ✔ | ✔ |
SASL | 20 | ✔ | |
MSLogon | 0xfffffffa | ✔ | |
Apple ARD | 30 | ✔ | |
TLS | 18 | ✔ | |
VeNCrypt | 19 | ✔ | |
UltraVNC MSLogonII | 113 | ✔ |
Name | Number | LibVNCServer | LibVNCClient |
---|---|---|---|
Raw | 1 | ✔ | ✔ |
CopyRect | 2 | ✔ | ✔ |
RRE | 3 | ✔ | ✔ |
CoRRE | 4 | ✔ | ✔ |
Hextile | 5 | ✔ | ✔ |
Zlib | 6 | ✔ | ✔ |
Tight | 7 | ✔ | ✔ |
Zlibhex | 8 | ✔ | |
Ultra | 9 | ✔ | ✔ |
TRLE | 15 | ✔ | |
ZRLE | 16 | ✔ | ✔ |
ZYWRLE | 17 | ✔ | ✔ |
TightPNG | -260 | ✔ |
Name | LibVNCServer | LibVNCClient |
---|---|---|
RFB | ✔ | ✔ |
Encrypted RFB via VeNCrypt | ✔ | |
Encrypted RFB via AnonTLS | ✔ | |
Websockets | ✔ | |
Encrypted Websockets | ✔ |
LibVNCServer uses CMake, which you can download here or, better yet, install using your platform's package manager (apt, yum, brew, macports, chocolatey, etc.).
You can then build via:
mkdir build
cd build
cmake ..
cmake --build .
Crypto support in LibVNCClient and LibVNCServer can use different backends:
- OpenSSL (
-DWITH_OPENSSL=ON -DWITH_GCRYPT=OFF
)- Supports all authentication methods in LibVNCClient and LibVNCServer.
- Supports WebSockets in LibVNCServer.
- Libgcrypt (
-DWITH_OPENSSL=OFF -DWITH_GCRYPT=ON
)- Supports all authentication methods in LibVNCClient and LibVNCServer.
- Supports WebSockets in LibVNCServer.
- Included (
-DWITH_OPENSSL=OFF -DWITH_GCRYPT=OFF
)- Supports only VNC authentication in LibVNCClient and LibVNCServer.
- Supports WebSockets in LibVNCServer.
Transport Layer Security support in LibVNCClient and LibVNCServer can use:
- OpenSSL (
-DWITH_OPENSSL=ON -DWITH_GNUTLS=OFF
) - GnuTLS (
-DWITH_OPENSSL=OFF -DWITH_GNUTLS=ON
)
For some more comprehensive examples that include installation of dependencies, see the Unix CI and Windows CI build setups.
See https://developer.android.com/ndk/guides/cmake.html as a reference, but basically it boils down to:
mkdir build
cd build
cmake .. -DANDROID_NDK=<path> -DCMAKE_TOOLCHAIN_FILE=<path> -DANDROID_NATIVE_API_LEVEL=<API level you want>
cmake --build .
Tested with MinGW-w64 on Debian, which you should install via sudo apt install mingw-w64
.
You can make use of the provided toolchainfile.
It sets CMake to expect (optional) win32 dependencies like libjpeg and friends
in the deps
directory. Note that you need (probably self-built) development packages for
win32, the -dev
packages coming with your distribution won't work.
mkdir build
cd build
cmake -DCMAKE_TOOLCHAIN_FILE=../cmake/Toolchain-cross-mingw32-linux.cmake ..
cmake --build .
- Update AUTHORS.
- Update NEWS.
- Update git submodules.
- Increment version in CMakeLists.txt
- Update Doxygen API docs at https://libvnc.github.io/doc/html/
- Update ChangeLog (using git2cl)
See the LibVNCServer API intro documentation for how to create a server instance, wire up input handlers and handle cursors.
In case you prefer to learn LibVNCServer by example, have a look at the servers in the examples/server directory.
For LibVNCClient, examples can be found in examples/client.
The install process installs pkg-config
.pc files for LibVNCServer as well as LibVNCClient which you can use in your build
system via the usual pkg-config --cflags libvncserver
et al.
If using CMake, LibVNCServer versions > 0.9.13 provide CMake configure files so in your project's CMakeLists.txt, you can say:
find_package(LibVNCServer)
if(LibVNCServer_FOUND)
# libs and headers location are now accessible via properties, but you only
# need to add the respective export target to your project's target_link_libraries,
# cmake will automatically add libs and headers
# eg: add client (YOUR_PROJECT_TARGET being a placeholder for your real target -
# it must be defined by add_executable or add_library):
target_link_libraries(YOUR_PROJECT_TARGET LibVNCServer::vncclient)
# add server:
target_link_libraries(YOUR_PROJECT_TARGET LibVNCServer::vncserver)
endif()
You can try out the built-in websockets support by starting the example server
from the webclients directory via ../examples/example
. It's
important to not start from within the examples
directory as otherwise the
server program won't find its HTTP index file. The server program will tell you
a URL to point your web browser to. There, you can click on the noVNC-Button to
connect using the noVNC viewer git submodule (installable via
git submodule update --init
).
If you don't already have an SSL cert that's trusted by your browser, the most
comfortable way to create one is using minica.
On Debian-based distros, you can install it via sudo apt install minica
, on
MacOS via brew install minica
.
Go to the webclients directory and create host and CA certs via:
cd webclients
minica -org "LibVNC" $(hostname)
Trust the cert in your browser by importing the created cacert.crt
, e.g. for
Firefox go to Options->Privacy & Security->View Certificates->Authorities and
import the created cacert.crt
, tick the checkbox to use it for trusting
websites. For other browsers, the process is similar.
Then, you can finally start the example server, giving it the created host key and cert:
../examples/example -sslkeyfile $(hostname).key -sslcertfile $(hostname).crt
The server program will tell you a URL to point your web browser to. There, you can click on the noVNC-encrypted-connection-button to connect using the bundled noVNC viewer using an encrypted Websockets connection.
If your client-server connection is sluggish because the link is 'slow', there are a few things to consider.
First off, you have to investigate whether your link has low throughput or high latency or both.
On a high-latency link, try asking for framebuffer updates continously, as RFB is client-pull per default, not server-push. One example implementation can be found here and it definitely improves responsiveness.
There also is the ContinuousUpdates RFB extension, but that one is not supported by LibVNC (yet).
If your link is low-throughput, you basically have to reduce the number of bytes that get sent per framebuffer update:
- First off, you should have your client request a lossy encoding such as Tight. This already yields some huge savings.
- Use a pixel format that represents a pixel with a smaller amount of bytes. For instance, you can switch from 24-bit true colour to 16-bit high colour or even a palleted colour mode. You can request a pixel format via the client or set a default (native) one in the server. With the latter approach, however, you very probably also have to change the way your framebuffer data gets written, so the first client-side one should be preferred.
- Send a scaled-down version of your framebuffer. You can do the scaling in your application feeding data into LibVNCServer's framebuffer (would affect all clients) or let LibVNCServer do the work for you if your client requests a scaled screen via a SetScale or SetScaleFactor message (this is per-client scaling - UltraVNC viewers can request this).
At the beginning of this project Dscho, the original author, would have liked to make it a BSD license. However, it is based on plenty of GPL'ed code, so it has to be a GPL.
The people at AT&T worked really well to produce something as clean and lean as VNC. The managers decided that for their fame, they would release the program for free. But not only that! They realized that by releasing also the code for free, VNC would become an evolving little child, conquering new worlds, making its parents very proud. As well they can be! To protect this innovation, they decided to make it GPL, not BSD. The principal difference is: You can make closed source programs deriving from BSD, not from GPL. You have to give proper credit with both.
Our commercial product wants to make use of LibVNCServer to create our own VNC server and distribute. Will this be considered derivative work in the GPLv2 context?
Yes. Please note that while you would have to stick to the GPL for your program if you link to LibVNCServer/LibVNCClient, you do not have to make your code public in case you use the derivative work internally in your organisation, see https://www.gnu.org/licenses/gpl-faq.html#GPLRequireSourcePostedPublic
Does modifying LibVNCServer code or not make any difference in determining whether our VNC server will be considered derivative work?
No. By simply linking to LibVNCServer/LibVNCClient, your program becomes derivative work.
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.
- To file an issue, go to https://github.com/LibVNC/libvncserver/issues
- For non-public contact please see SECURITY.md.