* Run the script `./check-environment.sh` to check that you have all required Unix tools and Java utilities. If the script exits with an error message, install the missing tool.
* Run the script `./fetch-sdk.sh` to download Android SDK to a local directory.
* Run the script `./build-openssl.sh` to download and build OpenSSL for Android.
* Run the script `./build-tdlib.sh` to build TDLib for Android.
* The built libraries are now located in the `tdlib/libs` directory, corresponding Java code is located in the `tdlib/java` directory, and standalone Java documentation can be found in the `tdlib/javadoc` directory. You can also use archives `tdlib/tdlib.zip` and `tdlib/tdlib-debug.zip`, which contain all aforementioned data.
If you already have installed Android SDK and NDK, you can skip the second step and specify existing Android SDK root path and Android NDK version as the first and the second parameters to the subsequent scripts. Make sure that the SDK includes android-33 platform and CMake 3.22.1.
If you already have prebuilt OpenSSL, you can skip the third step and specify path to the prebuild OpenSSL as the third parameter to the script `./build-tdlib.sh`.
You can specify different OpenSSL version as the fourth parameter to the script `./build-openssl.sh`. By default OpenSSL 1.1.1 is used because of much smaller binary footprint and better performance than newer OpenSSL versions.
You can build TDLib against shared standard C++ library by specifying "c++_shared" as the fourth parameter to the script `./build-tdlib.sh`. This can reduce total application size if you have a lot of other C++ code and want it to use the same shared library.
Alternatively, you can use Docker to build TDLib for Android. Use `docker build --output tdlib .` to build the latest TDLib commit from Github, or `docker build --build-arg COMMIT_HASH=<commit-hash> --output tdlib .` to build specific commit. The output archives will be placed in the directory "tdlib" as specified.