#!/bin/sh # Fedora # dnf install wget git make which patch findutils unzip # Ubuntu # apt install wget git build-essential unzip time python # ./android_do die() { echo "Error: $1"; exit 1; } need() { which "$1" >/dev/null 2>/dev/null || die "Missing $1"; } need which need wget need git need make need patch need find need unzip need ls need uname need pwd need mkdir need rm need time need rustc need cargo BUILD_PATH=$(pwd)/build_android NDK_VERSION="android-ndk-r21" case $(uname -s) in Darwin) TYPE=darwin ;; Linux) TYPE=linux ;; *) TYPE= ;; esac if test "x$CJDNS_NDK_PATH" != "x"; then false # we already have an ndk path... elif test "x$TYPE" = xdarwin; then CJDNS_NDK_PATH_HINT=$(echo "$HOME"/Library/Android/sdk/ndk/* | tail -1) elif test "x$TYPE" = xlinux; then CJDNS_NDK_PATH_HINT=$(echo "$HOME"/Android/Sdk/ndk/* | tail -1) fi if test "x$CJDNS_NDK_PATH" = "x"; then if test "x$CJDNS_NDK_PATH_HINT" != "x" && [ -d "$CJDNS_NDK_PATH_HINT" ]; then echo "Using NDK at path $CJDNS_NDK_PATH_HINT" CJDNS_NDK_PATH=$CJDNS_NDK_PATH_HINT elif [ -d "$BUILD_PATH/$NDK_VERSION/" ]; then CJDNS_NDK_PATH="$BUILD_PATH/$NDK_VERSION" echo "Using previously downloaded NDK $CJDNS_NDK_PATH" else echo "No NDK path known, NDK will be downloaded" fi elif [ -d "$CJDNS_NDK_PATH" ]; then echo "Using NDK at specified path $CJDNS_NDK_PATH" else die "NDK path $CJDNS_NDK_PATH is not a directory" fi cpu_arch="$(uname -m)" [ -z "$cpu_arch" ] && die "NO CPU ARCHITECTURE DETECTED" [ "$cpu_arch" = "i686" ] && cpu_arch="x86" if test "x$CJDNS_NDK_PATH" = "x"; then mkdir "$BUILD_PATH" 2>/dev/null cd "$BUILD_PATH" filename="$NDK_VERSION-${TYPE}-${cpu_arch}.zip" echo "$filename" if ! [ -f "$filename" ]; then url="https://dl.google.com/android/repository/$NDK_VERSION-${TYPE}-${cpu_arch}.zip" wget "$url" || die "wget $url failed" fi if ! [ -d "$NDK_VERSION" ]; then unzip -q "$filename" || die "failed to unzip " fi CJDNS_NDK_PATH="$BUILD_PATH/$NDK_VERSION" [ -d "$CJDNS_NDK_PATH" ] || die "NDK zip file does not contain expected content" cd .. fi BUILD_0=' APP_ABI=armv7a TOOLCHAIN_PREFIX=arm EABI=androideabi VERSION=16 ' BUILD_1=' APP_ABI=aarch64 VERSION=21 ' BUILD_2=' APP_ABI=i686 VERSION=16 ' BUILD_3=' APP_ABI=x86_64 VERSION=21 ' for i in $(seq 1 100); do BUILD=$(eval echo "\$BUILD_$i") if test "x$BUILD" = "x"; then continue fi TOOLCHAIN_PREFIX= APP_ABI= VERSION= EABI=android export $BUILD if test "x$TOOLCHAIN_PREFIX" = "x"; then TOOLCHAIN_PREFIX=$APP_ABI fi RUST_TARGET="$APP_ABI-linux-$EABI" if ! [ -d "$(rustc --target "$RUST_TARGET" --print target-libdir)" ]; then echo echo 'Skipping i686-linux-android because we dont have that toolchain' echo "Use: \`rustup target add $RUST_TARGET\` to install it" echo echo continue fi CROSS_PATH=$CJDNS_NDK_PATH/toolchains/llvm/prebuilt/${TYPE}-${cpu_arch}/bin CROSS_PREFIX=${CROSS_PATH}/${TOOLCHAIN_PREFIX}-linux-${EABI} export CC=${CROSS_PATH}/${APP_ABI}-linux-${EABI}${VERSION}-clang # Used by cjdns nodejs build export SYSTEM=linux export CROSS=1 # Used by cjdns libuv build AND sodiumoxide export AR=${CROSS_PREFIX}-ar export RANLIB=${CROSS_PREFIX}-ranlib # Whatever target we happen to be using, use CC as the linker export CARGO_TARGET_AARCH64_LINUX_ANDROID_LINKER=$CC export CARGO_TARGET_I686_LINUX_ANDROID_LINKER=$CC export CARGO_TARGET_X86_64_LINUX_ANDROID_LINKER=$CC export CARGO_TARGET_ARMV7A_LINUX_ANDROIDEABI_LINKER=$CC echo "Compiler CC: $CC - $(${CC} --version)" cargo build --release -v --target "$RUST_TARGET" done