# Cross compilation environment for librespot # Build the docker image from the root of the project with the following command : # $ docker build -t librespot-cross -f contrib/Dockerfile . # # The resulting image can be used to build librespot for linux x86_64, armhf and armel. # $ docker run -v /tmp/librespot-build:/build librespot-cross # # The compiled binaries will be located in /tmp/librespot-build # # If only one architecture is desired, cargo can be invoked directly with the appropriate options : # $ docker run -v /tmp/librespot-build:/build librespot-cross cargo build --release --no-default-features --features "with-syntex alsa-backend" # $ docker run -v /tmp/librespot-build:/build librespot-cross cargo build --release --target arm-unknown-linux-gnueabihf --no-default-features --features "with-syntex alsa-backend" # $ docker run -v /tmp/librespot-build:/build librespot-cross cargo build --release --target arm-unknown-linux-gnueabi --no-default-features --features "with-syntex alsa-backend" # FROM debian:stretch RUN dpkg --add-architecture armhf RUN dpkg --add-architecture armel RUN apt-get update RUN apt-get install -y curl build-essential crossbuild-essential-armhf crossbuild-essential-armel RUN apt-get install -y libasound2-dev libasound2-dev:armhf libasound2-dev:armel RUN curl https://sh.rustup.rs -sSf | sh -s -- -y ENV PATH="/root/.cargo/bin/:${PATH}" RUN rustup target add arm-unknown-linux-gnueabi RUN rustup target add arm-unknown-linux-gnueabihf RUN mkdir /.cargo && \ echo '[target.arm-unknown-linux-gnueabihf]\nlinker = "arm-linux-gnueabihf-gcc"' > /.cargo/config && \ echo '[target.arm-unknown-linux-gnueabi]\nlinker = "arm-linux-gnueabi-gcc"' >> /.cargo/config RUN mkdir /build ENV CARGO_TARGET_DIR /build ENV CARGO_HOME /build/cache ADD . /src WORKDIR /src CMD ["/src/contrib/docker-build.sh"]