# Graphics Streaming Kit (formerly: Vulkan Cereal)
Graphics Streaming Kit is a code generator that makes it easier to serialize
and forward graphics API calls from one place to another:
- From a virtual machine guest to host for virtualized graphics
- From one process to another for IPC graphics
- From one computer to another via network sockets
# Build: Linux
Make sure the latest CMake is installed.
Make sure the opengl lib is installed. Otherwise, sudo apt-get install
libglu1-mesa-dev freeglut3-dev mesa-common-dev
Make sure you are using Clang as your `CC` and clang++ as your`CXX`. Then
mkdir build
cd build
cmake . ../
make -j24
Unit tests:
make test
# Build: Windows
Make sure the latest CMake is installed. Make sure Visual Studio 2019 is
installed on your system along with all the Clang C++ toolchain components.
Then
mkdir build
cd build
cmake . ../ -A x64 -T ClangCL
A solution file should be generated. Then open the solution file in Visual
studio and build the `gfxstream_backend` target.
# Build: Android for host
Be in the Android build system. Then
m libgfxstream_backend
It then ends up in `out/host`
This also builds for Android on-device.
# Output artifacts
libgfxstream_backend.(dll|so|dylib)
# Regenerating Vulkan code
scripts/generate-vulkan-sources.sh
If you're in an AOSP checkout, this will also modify contents of the guest Vulkan encoder in `../goldfish-opengl`.
# Regenerating GLES/RenderControl code
First, build `build/gfxstream-generic-apigen`. Then run
scripts/generate-apigen-source.sh
# Tests
## Linux Tests
There are a bunch of test executables generated. They require `libEGL.so` and `libGLESv2.so` and `libvulkan.so` to be available, possibly from your GPU vendor or ANGLE, in the `$LD_LIBRARY_PATH`.
## Windows Tests
There are a bunch of test executables generated. They require `libEGL.dll` and `libGLESv2.dll` and `vulkan-1.dll` to be available, possibly from your GPU vendor or ANGLE, in the `%PATH%`.
## Android Host Tests
These are currently not built due to the dependency on system libEGL/libvulkan to run correctly.
# Structure
- `CMakeLists.txt`: specifies all host-side build targets. This includes all
backends along with client/server setups that live only on the host. Some
- Backend implementations
- Implementations of the host side of various transports
- Frontends used for host-side testing with a mock implementation of guest
graphics stack (mainly Android)
- Frontends that result in actual Linux/macOS/Windows gles/vk libraries
(isolation / fault tolerance use case)
- `Android.bp`: specifies all guest-side build targets for Android:
- Implementations of the guest side of various transports (above the kernel)
- Frontends
- `BUILD.gn`: specifies all guest-side build targets for Fuchsia
- Implementations of the guest side of various transports (above the kernel)
- Frontends
- `base/`: common libraries that are built for both the guest and host.
Contains utility code related to synchronization, threading, and suballocation.
- `protocols/`: implementations of protocols for various graphics APIs. May contain
code generators to make it easy to regen the protocol based on certain things.
- `host-common/`: implementations of host-side support code that makes it
easier to run the server in a variety of virtual device environments.
Contains concrete implementations of auxiliary virtual devices such as
Address Space Device and Goldfish Pipe.
- `stream-servers/`: implementations of various backends for various graphics
APIs that consume protocol. `gfxstream-virtio-gpu-renderer.cpp` contains a
virtio-gpu backend implementation.