Just build AOSP - Fluoride is there by default.
Instructions for a Debian based distribution:
- Debian Bullseye or newer
- Ubuntu 20.10 or newer
- Clang-11 or Clang-12
- Flex 2.6.x
- Bison 3.x.x (tested with 3.0.x, 3.2.x and 3.7.x)
You'll want to download some pre-requisite packages as well. If you're currently configured for AOSP development, you should have all required packages. Otherwise, you can use the following apt-get list:
sudo apt-get install repo git-core gnupg flex bison gperf build-essential \
zip curl zlib1g-dev gcc-multilib g++-multilib \
x11proto-core-dev libx11-dev lib32z-dev libncurses5 \
libgl1-mesa-dev libxml2-utils xsltproc unzip liblz4-tool libssl-dev \
libc++-dev libevent-dev \
flatbuffers-compiler libflatbuffers1 \
openssl openssl-devYou will also need a recent-ish version of Rust and Cargo. Please follow the instructions on Rustup to install a recent version.
mkdir ~/fluoride
cd ~/fluoride
git clone https://android.googlesource.com/platform/system/btInstall dependencies (require sudo access). This adds some Ubuntu dependencies and also installs GN (which is the build tool we're using).
cd ~/fluoride/bt
build/install_deps.shThe following third-party dependencies are necessary but currently unavailable via a package manager. You may have to build these from source and install them to your local environment.
- libchrome
- modp_b64
We provide a script to produce debian packages for those components, please follow the instructions in build/dpkg/README.txt.
The googletest packages provided by Debian/Ubuntu (libgmock-dev and libgtest-dev) do not provide pkg-config files, so you can build your own googletest using the steps below:
$ git clone https://github.com/google/googletest.git -b release-1.10.0
$ cd googletest # Main directory of the cloned repository.
$ mkdir build # Create a directory to hold the build output.
$ cd build
$ cmake .. # Generate native build scripts for GoogleTest.
$ sudo make install -DCMAKE_INSTALL_PREFIX=/usr
For host build, we depend on a few other repositories:
Clone these all somewhere and create your staging environment.
export STAGING_DIR=path/to/your/staging/dir
mkdir ${STAGING_DIR}
mkdir -p ${STAGING_DIR}/external
ln -s $(readlink -f ${PLATFORM2_DIR}/common-mk) ${STAGING_DIR}/common-mk
ln -s $(readlink -f ${PLATFORM2_DIR}/.gn) ${STAGING_DIR}/.gn
ln -s $(readlink -f ${RUST_CRATE_DIR}) ${STAGING_DIR}/external/rust
ln -s $(readlink -f ${PROTO_LOG_DIR}) ${STAGING_DIR}/external/proto_loggingWe provide a build script to automate building assuming you've staged your build environment already as above.
./build.py --output ${OUTPUT_DIR} --platform-dir ${STAGING_DIR} --clangThis will build all targets to the output directory you've given. You can also build each stage separately (if you want to iterate on something specific):
- prepare - Generate the GN rules
- tools - Generate host tools
- rust - Build the rust portion of the build
- main - Build all the C/C++ code
- test - Build all targets and run the tests
- clean - Clean the output directory
You can choose to run only a specific stage by passing an arg via --target.
Currently, Rust builds are a separate stage that uses Cargo to build. See gd/rust/README.md for more information.
By default on Linux, we statically link libbluetooth so you can just run the binary directly:
cd ~/fluoride/bt/out/Default
./bluetoothtbd -create-ipc-socket=fluoride