#! /bin/sh -e # SPDX-License-Identifier: BSD-3-Clause # Copyright(c) 2018 Intel Corporation # Run meson to auto-configure the various builds. # * all builds get put in a directory whose name starts with "build-" # * if a build-directory already exists we assume it was properly configured # Run ninja after configuration is done. # set pipefail option if possible PIPEFAIL="" set -o | grep -q pipefail && set -o pipefail && PIPEFAIL=1 srcdir=$(dirname $(readlink -f $0))/.. MESON=${MESON:-meson} use_shared="--default-library=shared" if command -v gmake >/dev/null 2>&1 ; then MAKE=gmake else MAKE=make fi if command -v ninja >/dev/null 2>&1 ; then ninja_cmd=ninja elif command -v ninja-build >/dev/null 2>&1 ; then ninja_cmd=ninja-build else echo "ERROR: ninja is not found" >&2 exit 1 fi if command -v ccache >/dev/null 2>&1 ; then CCACHE=ccache else CCACHE= fi default_path=$PATH default_pkgpath=$PKG_CONFIG_PATH load_env () # { targetcc=$1 export PATH=$default_path export PKG_CONFIG_PATH=$default_pkgpath unset DPDK_MESON_OPTIONS command -v $targetcc >/dev/null 2>&1 || return 1 DPDK_TARGET=$($targetcc -v 2>&1 | sed -n 's,^Target: ,,p') . $srcdir/devtools/load-devel-config } build () # { builddir=$1 shift targetcc=$1 shift # skip build if compiler not available command -v ${CC##* } >/dev/null 2>&1 || return 0 load_env $targetcc || return 0 if [ ! -f "$builddir/build.ninja" ] ; then options="--werror -Dexamples=all" for option in $DPDK_MESON_OPTIONS ; do options="$options -D$option" done options="$options $*" echo "$MESON $options $srcdir $builddir" $MESON $options $srcdir $builddir unset CC fi if [ -n "$TEST_MESON_BUILD_VERY_VERBOSE" ] ; then # for full output from ninja use "-v" echo "$ninja_cmd -v -C $builddir" $ninja_cmd -v -C $builddir elif [ -n "$TEST_MESON_BUILD_VERBOSE" ] ; then # for keeping the history of short cmds, pipe through cat echo "$ninja_cmd -C $builddir | cat" $ninja_cmd -C $builddir | cat else echo "$ninja_cmd -C $builddir" $ninja_cmd -C $builddir fi } if [ "$1" = "-vv" ] ; then TEST_MESON_BUILD_VERY_VERBOSE=1 elif [ "$1" = "-v" ] ; then TEST_MESON_BUILD_VERBOSE=1 fi # we can't use plain verbose when we don't have pipefail option so up-level if [ -z "$PIPEFAIL" -a -n "$TEST_MESON_BUILD_VERBOSE" ] ; then echo "# Missing pipefail shell option, changing VERBOSE to VERY_VERBOSE" TEST_MESON_BUILD_VERY_VERBOSE=1 fi # shared and static linked builds with gcc and clang for c in gcc clang ; do command -v $c >/dev/null 2>&1 || continue for s in static shared ; do export CC="$CCACHE $c" build build-$c-$s $c --default-library=$s done done # test compilation with minimal x86 instruction set # Set the install path for libraries to "lib" explicitly to prevent problems # with pkg-config prefixes if installed in "lib/x86_64-linux-gnu" later. default_machine='nehalem' ok=$(cc -march=$default_machine -E - < /dev/null > /dev/null 2>&1 || echo false) if [ "$ok" = "false" ] ; then default_machine='corei7' fi build build-x86-default cc -Dlibdir=lib -Dmachine=$default_machine $use_shared c=aarch64-linux-gnu-gcc # generic armv8a with clang as host compiler export CC="clang" build build-arm64-host-clang $c $use_shared \ --cross-file $srcdir/config/arm/arm64_armv8_linux_gcc # all gcc/arm configurations for f in $srcdir/config/arm/arm*gcc ; do export CC="$CCACHE gcc" build build-$(basename $f | tr '_' '-' | cut -d'-' -f-2) $c \ $use_shared --cross-file $f done # Test installation of the x86-default target, to be used for checking # the sample apps build using the pkg-config file for cflags and libs build_path=build-x86-default export DESTDIR=$(pwd)/$build_path/install-root $ninja_cmd -C $build_path install load_env cc pc_file=$(find $DESTDIR -name libdpdk.pc) export PKG_CONFIG_PATH=$(dirname $pc_file):$PKG_CONFIG_PATH for example in cmdline helloworld l2fwd l3fwd skeleton timer; do echo "## Building $example" $MAKE -C $DESTDIR/usr/local/share/dpdk/examples/$example clean all done