| commit | c76ddbd7374d08e2e6f9c324ffb91e70b10bd3cf | [log] [tgz] |
|---|---|---|
| author | Gurchetan Singh <gurchetansingh@chromium.org> | Thu Jul 20 13:45:21 2023 -0700 |
| committer | Gurchetan Singh <gurchetansingh@google.com> | Fri Jul 28 10:16:33 2023 -0700 |
| tree | 71d4b01d2be6d67c149f7a256127b4e1cfc00d30 | |
| parent | 01b8b481f9cd275c9fdb2b816a2caca6d3337389 [diff] |
gfxstream: add default args to each meson build file
Also, fix the following compile warning:
cc1plus: note: unrecognized command-line option ‘-Wno-macro-redefined’
may have been intended to silence earlier diagnostics
cc1plus: note: unrecognized command-line option ‘-Wno-unused-private-field’
may have been intended to silence earlier diagnostics
cc1plus: note: unrecognized command-line option ‘-Wno-reorder-ctor’
may have been intended to silence earlier diagnostics
BUG=292548160
TEST=run and see debug output
Change-Id: Ibe45c1a07113815275a347eb707246f0c4af165d
Graphics Streaming Kit is a code generator that makes it easier to serialize and forward graphics API calls from one place to another:
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 yourCXX. Then
mkdir build cd build cmake . ../ make -j24
Unit tests:
make test
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.
Be in the Android build system. Then
m libgfxstream_backend
It then ends up in out/host
This also builds for Android on-device.
libgfxstream_backend.(dll|so|dylib)
Check out the gfxstream-protocols repo at ../../../external/gfxstream-protocols relative to the root directory of this repo, and run the scripts/generate-vulkan-sources.sh script in the gfxstream-protocols root folder.
If you're in an AOSP checkout, this will also modify contents of the guest Vulkan encoder in ../goldfish-opengl.
First, build build/gfxstream-generic-apigen. Then run
scripts/generate-apigen-source.sh
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.
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%.
These are currently not built due to the dependency on system libEGL/libvulkan to run correctly.
CMakeLists.txt: specifies all host-side build targets. This includes all backends along with client/server setups that live only on the host. SomeAndroid.bp: specifies all guest-side build targets for Android:BUILD.gn: specifies all guest-side build targets for Fuchsiabase/: 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.