mvfst
(Pronounced move fast) is a client and server implementation of IETF QUIC protocol in C++ by Facebook. QUIC is a UDP based reliable, multiplexed transport protocol that will become an internet standard. The goal of mvfst
is to build a performant implementation of the QUIC transport protocol that applications could adapt for use cases on both the internet and the data-center. mvfst
has been tested at scale on android, iOS apps, as well as servers and has several features to support large scale deployments.
Server features:
- Multi-threaded UDP socket server with a thread local architecture to be able to scale to multi-core servers
- Customizable Connection-Id routing. The default Connection-Id routing implementation integrates seamlessly with katran
- APIs to enable zero-downtime restarts of servers, so that applications do not have to drop connections when restarting.
- APIs to expose transport and server statistics for debuggability
- Zero-Rtt connection establishment and customizable zero rtt path validation
- Support for UDP Generic segmentation offloading (GSO) for faster UDP writes.
Client features:
- Native happy eyeballs support between ipv4 and ipv6 so that applications do not need to implement it themselves
- Pluggable congestion control and support for turning off congestion control to plug in application specific control algorithms
- QUIC trace APIs to retrieve deep transport level stats.
quic/api
: Defines API that applications can use to interact with the QUIC transport layer.quic/client
: Client transport implementationquic/codec
: Read and write codec implementation for the protocolquic/common
: Implementation of common utility functionsquic/congestion_control
: Implementation of different congestion control algorithms such as Cubic and Copaquic/flowcontrol
: Implementations of flow control functionsquic/handshake
: Implementations cryptographic handshake layerquic/happyeyeballs
: Implementation of mechanism to race IPV4 and IPV6 connection and pick a winnerquic/logging
: Implementation of logging frameworkquic/loss
: Implementations of different loss recovery algorithmsquic/samples
: Example client and serverquic/server
: Server transport implementationquic/state
: Defines and implements both connection and stream level state artifacts and state machines
mvfst
largely depends on two libraries: folly and fizz.
To begin, you should install the dependencies we need for build. This largely consists of dependencies from folly as well as fizz.
sudo apt-get install \
g++ \
cmake \
libboost-all-dev \
libevent-dev \
libdouble-conversion-dev \
libgoogle-glog-dev \
libgflags-dev \
libiberty-dev \
liblz4-dev \
liblzma-dev \
libsnappy-dev \
make \
zlib1g-dev \
binutils-dev \
libjemalloc-dev \
libssl-dev \
pkg-config \
libsodium-dev
Then, build and install folly and fizz
Alternatively, run the helper script build_helper.sh
in this subdirectory.
It will install and link the required dependencies and also build folly and fizz.
This may take several minutes the first time.
./build_helper.sh
After building, the directory _build/
will contain the dependencies
(under _build/deps
) whereas _build/build
will contain all the
built libraries and binaries for mvfst
.
You can also install mvfst
as well as its dependencies folly
and fizz
to a custom directory using the build script, by supplying an INSTALL_PREFIX
env var.
./build_helper.sh -i /usr/local
See ./build_helper.sh --help
for more options
You might need to run the script as root to install to certain directories.
By default the build script build_helper.sh
enables the building of test target (i.e. runs with -DBUILD_TEST=ON
option). Since some of tests in mvfst
require some test artifacts of Fizz, it is necessary to supply the path of the Fizz src directory (via option DFIZZ_PROJECT
) to correctly build all test targets in mvfst
.
Building the test targets of mvfst
(or via build_helper.sh
) should automatically build the sample client and server binaries into the default _build/build
directory (or whichever target directory was specified). The server will automatically bind to ::1
by default if no host is used, but you can then spin a simple echo server by running:
./_build/build/quic/samples/echo -mode=server -host=<host> -port=<port>
and to run a client:
./_build/build/quic/samples/echo -mode=client -host=<host> -port=<port>
For more options, see
./_build/build/quic/samples/echo --help
This repo implements the QUIC transport. For an HTTP/3 implementation that uses Mvfst, please check out Proxygen.
We'd love to have your help in making mvfst
better. If you're interested, please
read our guide to guide to contributing
Please also join our slack to ask questions or start discussions.
mvfst
is MIT licensed, as found in the LICENSE file.
The API should be considered in alpha. We can't predict all the use cases that people will have, so we're waiting some time before declaring a more stable API. We are open to have several different APIs for different constraints.
Please do not open GitHub issues or pull requests - this makes the problem
immediately visible to everyone, including malicious actors. Security issues in
mvfst
can be safely reported via Facebook's Whitehat Bug Bounty program:
https://www.facebook.com/whitehat
Facebook's security team will triage your report and determine whether or not is it eligible for a bounty under our program.