#!/usr/bin/env bash # Copyright (c) 2020-2022 Status Research & Development GmbH. Licensed under # either of: # - Apache License, version 2.0 # - MIT license # at your option. This file may not be copied, modified, or distributed except # according to those terms. set -e cd /home/user/nimbus-eth2 git config --global core.abbrev 8 if [[ -z "${1}" ]]; then echo "Usage: $(basename ${0}) PLATFORM" exit 1 fi PLATFORM="${1}" BINARIES="nimbus_beacon_node" echo -e "\nPLATFORM=${PLATFORM}" #- we need to build everything against libraries available inside this container, including the Nim compiler make clean NIMFLAGS_COMMON="-d:disableMarchNative --gcc.options.debug:'-g1' --clang.options.debug:'-gline-tables-only'" if [[ "${PLATFORM}" == "Windows_amd64" ]]; then # Cross-compilation using the MXE distribution of Mingw-w64 export PATH="/opt/mxe/usr/bin:${PATH}" CC=x86_64-w64-mingw32.static-gcc CXX=x86_64-w64-mingw32.static-g++ ${CC} --version echo make \ -j$(nproc) \ USE_LIBBACKTRACE=0 \ QUICK_AND_DIRTY_COMPILER=1 \ deps-common build/generate_makefile make \ -j$(nproc) \ -C vendor/nim-nat-traversal/vendor/miniupnp/miniupnpc \ -f Makefile.mingw \ CC="${CC}" \ libminiupnpc.a &>/dev/null make \ -j$(nproc) \ -C vendor/nim-nat-traversal/vendor/libnatpmp-upstream \ CC="${CC}" \ CFLAGS="-Wall -Os -DWIN32 -DNATPMP_STATICLIB -DENABLE_STRNATPMPERR -DNATPMP_MAX_RETRIES=4 ${CFLAGS}" \ libnatpmp.a &>/dev/null # We set CXX and add CXXFLAGS for libunwind's C++ code, even though we don't # use those C++ objects. I don't see an easy way of disabling the C++ parts in # libunwind itself. # # "libunwind.a" combines objects produced from C and C++ code. Even though we # don't link any C++-generated objects, the linker still checks them for # undefined symbols, so we're forced to use g++ as a linker wrapper. # For some reason, macOS's Clang doesn't need this trick, nor do native (and # newer) Mingw-w64 toolchains on Windows. # # nim-blscurve's Windows SSSE3 detection doesn't work when cross-compiling, # so we enable it here. make \ -j$(nproc) \ CC="${CC}" \ CXX="${CXX}" \ CXXFLAGS="${CXXFLAGS} -D__STDC_FORMAT_MACROS -D_WIN32_WINNT=0x0600" \ USE_VENDORED_LIBUNWIND=1 \ LOG_LEVEL="TRACE" \ NIMFLAGS="${NIMFLAGS_COMMON} --os:windows --gcc.exe=${CC} --gcc.linkerexe=${CXX} --passL:-static -d:BLSTuseSSSE3=1" \ ${BINARIES} elif [[ "${PLATFORM}" == "Linux_arm32v7" ]]; then CC="arm-linux-gnueabihf-gcc" ${CC} --version echo make \ -j$(nproc) \ USE_LIBBACKTRACE=0 \ QUICK_AND_DIRTY_COMPILER=1 \ deps-common build/generate_makefile make \ -j$(nproc) \ LOG_LEVEL="TRACE" \ CC="${CC}" \ NIMFLAGS="${NIMFLAGS_COMMON} --cpu:arm --gcc.exe=${CC} --gcc.linkerexe=${CC}" \ PARTIAL_STATIC_LINKING=1 \ ${BINARIES} elif [[ "${PLATFORM}" == "Linux_arm64v8" ]]; then CC="aarch64-linux-gnu-gcc" ${CC} --version echo make \ -j$(nproc) \ USE_LIBBACKTRACE=0 \ QUICK_AND_DIRTY_COMPILER=1 \ deps-common build/generate_makefile make \ -j$(nproc) \ LOG_LEVEL="TRACE" \ CC="${CC}" \ NIMFLAGS="${NIMFLAGS_COMMON} --cpu:arm64 --gcc.exe=${CC} --gcc.linkerexe=${CC}" \ PARTIAL_STATIC_LINKING=1 \ ${BINARIES} elif [[ "${PLATFORM}" == "macOS_amd64" ]]; then export PATH="/opt/osxcross/bin:${PATH}" export OSXCROSS_MP_INC=1 # sets up include and library paths export ZERO_AR_DATE=1 # avoid timestamps in binaries DARWIN_VER="20.4" CC="o64-clang" ${CC} --version echo make \ -j$(nproc) \ USE_LIBBACKTRACE=0 \ QUICK_AND_DIRTY_COMPILER=1 \ deps-common build/generate_makefile make \ -j$(nproc) \ CC="${CC}" \ LIBTOOL="x86_64-apple-darwin${DARWIN_VER}-libtool" \ OS="darwin" \ NIMFLAGS="${NIMFLAGS_COMMON} --os:macosx --clang.exe=${CC}" \ nat-libs make \ -j$(nproc) \ LOG_LEVEL="TRACE" \ CC="${CC}" \ AR="x86_64-apple-darwin${DARWIN_VER}-ar" \ RANLIB="x86_64-apple-darwin${DARWIN_VER}-ranlib" \ CMAKE="x86_64-apple-darwin${DARWIN_VER}-cmake" \ DSYMUTIL="x86_64-apple-darwin${DARWIN_VER}-dsymutil" \ FORCE_DSYMUTIL=1 \ USE_VENDORED_LIBUNWIND=1 \ NIMFLAGS="${NIMFLAGS_COMMON} --os:macosx --clang.exe=${CC} --clang.linkerexe=${CC}" \ ${BINARIES} elif [[ "${PLATFORM}" == "macOS_arm64" ]]; then export PATH="/opt/osxcross/bin:${PATH}" export OSXCROSS_MP_INC=1 # sets up include and library paths export ZERO_AR_DATE=1 # avoid timestamps in binaries DARWIN_VER="20.4" CC="oa64-clang" ${CC} --version echo make \ -j$(nproc) \ USE_LIBBACKTRACE=0 \ QUICK_AND_DIRTY_COMPILER=1 \ deps-common build/generate_makefile make \ -j$(nproc) \ CC="${CC}" \ LIBTOOL="arm64-apple-darwin${DARWIN_VER}-libtool" \ OS="darwin" \ NIMFLAGS="${NIMFLAGS_COMMON} --os:macosx --cpu:arm64 --passC:'-mcpu=apple-a13' --clang.exe=${CC}" \ nat-libs make \ -j$(nproc) \ LOG_LEVEL="TRACE" \ CC="${CC}" \ AR="arm64-apple-darwin${DARWIN_VER}-ar" \ RANLIB="arm64-apple-darwin${DARWIN_VER}-ranlib" \ CMAKE="arm64-apple-darwin${DARWIN_VER}-cmake" \ DSYMUTIL="arm64-apple-darwin${DARWIN_VER}-dsymutil" \ FORCE_DSYMUTIL=1 \ USE_VENDORED_LIBUNWIND=1 \ NIMFLAGS="${NIMFLAGS_COMMON} --os:macosx --cpu:arm64 --passC:'-mcpu=apple-a13' --passL:'-mcpu=apple-a13' --clang.exe=${CC} --clang.linkerexe=${CC}" \ ${BINARIES} else # Linux AMD64 gcc --version echo make \ -j$(nproc) \ LOG_LEVEL="TRACE" \ NIMFLAGS="${NIMFLAGS_COMMON}" \ PARTIAL_STATIC_LINKING=1 \ QUICK_AND_DIRTY_COMPILER=1 \ ${BINARIES} fi # archive directory (we need the Nim compiler in here) PREFIX="nimbus-eth2_${PLATFORM}_" GIT_COMMIT="$(git rev-parse --short HEAD)" VERSION="$(./env.sh nim --verbosity:0 --hints:off --warnings:off scripts/print_version.nims)" DIR="${PREFIX}${VERSION}_${GIT_COMMIT}" DIST_PATH="dist/${DIR}" # delete old artefacts rm -rf "dist/${PREFIX}"*.tar.gz if [[ -d "${DIST_PATH}" ]]; then rm -rf "${DIST_PATH}" fi mkdir -p "${DIST_PATH}" mkdir "${DIST_PATH}/scripts" mkdir "${DIST_PATH}/build" # copy and checksum binaries, copy scripts and docs EXT="" if [[ "${PLATFORM}" == "Windows_amd64" ]]; then EXT=".exe" fi for BINARY in ${BINARIES}; do cp -a "./build/${BINARY}${EXT}" "${DIST_PATH}/build/" if [[ "${PLATFORM}" =~ macOS ]]; then # debug info cp -a "./build/${BINARY}.dSYM" "${DIST_PATH}/build/" fi cd "${DIST_PATH}/build" sha512sum "${BINARY}${EXT}" > "${BINARY}.sha512sum" cd - >/dev/null done sed -e "s/GIT_COMMIT/${GIT_COMMIT}/" docker/dist/README.md.tpl > "${DIST_PATH}/README.md" if [[ "${PLATFORM}" == "Linux_amd64" ]]; then sed -i -e 's/^make dist$/make dist-amd64/' "${DIST_PATH}/README.md" elif [[ "${PLATFORM}" == "Linux_arm32v7" ]]; then sed -i -e 's/^make dist$/make dist-arm/' "${DIST_PATH}/README.md" elif [[ "${PLATFORM}" == "Linux_arm64v8" ]]; then sed -i -e 's/^make dist$/make dist-arm64/' "${DIST_PATH}/README.md" elif [[ "${PLATFORM}" == "Windows_amd64" ]]; then sed -i -e 's/^make dist$/make dist-win64/' "${DIST_PATH}/README.md" cp -a docker/dist/README-Windows.md.tpl "${DIST_PATH}/README-Windows.md" elif [[ "${PLATFORM}" == "macOS_amd64" ]]; then sed -i -e 's/^make dist$/make dist-macos/' "${DIST_PATH}/README.md" elif [[ "${PLATFORM}" == "macOS_arm64" ]]; then sed -i -e 's/^make dist$/make dist-macos-arm64/' "${DIST_PATH}/README.md" fi cp -a scripts/run-beacon-node.sh "${DIST_PATH}/scripts" cp -a ./run-*-beacon-node.sh "${DIST_PATH}/" # create the tarball cd dist tar czf "${DIR}.tar.gz" "${DIR}" # don't leave the directory hanging around rm -rf "${DIR}" cd - >/dev/null