QUIC is an experimental protocol aimed at reducing web latency over that of TCP. On the surface, QUIC is very similar to TCP+TLS+SPDY implemented on UDP. Because TCP is implement in operating system kernels, and middlebox firmware, making significant changes to TCP is next to impossible. However, since QUIC is built on top of UDP, it suffers from no such limitations.
Key features of QUIC over existing TCP+TLS+SPDY include
- Dramatically reduced connection establishment time
- Improved congestion control
- Multiplexing without head of line blocking
- Forward error correction
- Connection migration
See Chromium QUIC Page for detailed information.
This repository is sources and dependencies extracted from Chromium's QUIC Implementation with a few modifications and patches to minimize dependencies needed to build QUIC library.
Notable and only dependency is BoringSSL. The BoringSSL sources is already embedded in this repository and linked with CMake build file. You don't need any kind of dependency installs.
This library is intended as an essential reference point for other language bindings and possibly for integration with other C/C++ codebase such as HTTP servers like Apache or nginx.
Currently there is only one experimental language binding:
- Go binding: goquic
Building with CMake and Ninja (Recommended):
$ mkdir build/
$ cd build/
$ cmake -GNinja ..
$ ninja
Building with CMake and Make:
$ mkdir build/
$ cd build/
$ cmake ..
$ make -j
libquic.a
library file will be generated. libssl.a
, libcrypto.a
will be
located in build/boringssl directory.
To do release builds run $ cmake -GNinja -DCMAKE_BUILD_TYPE=Release ..
instead
of $ cmake -GNinja ..
.
In order to integrate libquic to your code, your best source of documentation is official Chromium QUIC toy client and server. Golang binding will help too.
Great effort has been made to make syncing from upstream Chromium sources as
effortless as possible. See DEPS
file for all the dependencies. See
manage.py
script for actual syncing.
If you want to apply upstream chnages,
- Clone & Checkout chromium upstream. Update "chromium_revision" var at DEPS to your chromium source code revision.
- Do
./manage.py sync <CHROMIUM_GIT_ROOT>
Then, all necessary files will be updated to new one. - If there is any patch collision, fix it and repeat
step 2
. - Temporarily commit here. Try build, and you'll find that you may need to add additional patches.
- Do your work, then make a patch by
git diff > new_patch.patch
- Add patch file to
DEPS
. Amend previous temp commit. - Commit
DEPS
, new patch, and source changes