#!/bin/bash # Copyright 2014 The Kubernetes Authors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # The golang package that we are building. readonly KUBE_GO_PACKAGE=k8s.io/kubernetes readonly KUBE_GOPATH="${KUBE_OUTPUT}/go" # The set of server targets that we are only building for Linux # Note: if you are adding something here, you might need to add it to # kube::build::source_targets in build/common.sh as well. # If you update this list, please also update build/release-tars/BUILD. kube::golang::server_targets() { local targets=( cmd/kube-proxy cmd/kube-apiserver cmd/kube-controller-manager cmd/cloud-controller-manager cmd/kubelet cmd/kubeadm cmd/hyperkube cmd/kube-discovery cmd/kube-aggregator plugin/cmd/kube-scheduler ) echo "${targets[@]}" } readonly KUBE_SERVER_TARGETS=($(kube::golang::server_targets)) readonly KUBE_SERVER_BINARIES=("${KUBE_SERVER_TARGETS[@]##*/}") # The set of server targets that we are only building for Kubernetes nodes # If you update this list, please also update build/release-tars/BUILD. kube::golang::node_targets() { local targets=( cmd/kube-proxy cmd/kubelet ) echo "${targets[@]}" } readonly KUBE_NODE_TARGETS=($(kube::golang::node_targets)) readonly KUBE_NODE_BINARIES=("${KUBE_NODE_TARGETS[@]##*/}") readonly KUBE_NODE_BINARIES_WIN=("${KUBE_NODE_BINARIES[@]/%/.exe}") if [[ "${KUBE_FASTBUILD:-}" == "true" ]]; then readonly KUBE_SERVER_PLATFORMS=(linux/amd64) readonly KUBE_NODE_PLATFORMS=(linux/amd64) if [[ "${KUBE_BUILDER_OS:-}" == "darwin"* ]]; then readonly KUBE_TEST_PLATFORMS=( darwin/amd64 linux/amd64 ) readonly KUBE_CLIENT_PLATFORMS=( darwin/amd64 linux/amd64 ) else readonly KUBE_TEST_PLATFORMS=(linux/amd64) readonly KUBE_CLIENT_PLATFORMS=(linux/amd64) fi else # The server platform we are building on. KUBE_SERVER_PLATFORMS=( linux/amd64 linux/arm linux/arm64 linux/s390x ) if [[ "${KUBE_BUILD_PPC64LE:-}" =~ ^[yY]$ ]]; then KUBE_SERVER_PLATFORMS+=(linux/ppc64le) fi readonly KUBE_SERVER_PLATFORMS # The node platforms we build for KUBE_NODE_PLATFORMS=( linux/amd64 linux/arm linux/arm64 linux/s390x windows/amd64 ) if [[ "${KUBE_BUILD_PPC64LE:-}" =~ ^[yY]$ ]]; then KUBE_NODE_PLATFORMS+=(linux/ppc64le) fi readonly KUBE_NODE_PLATFORMS # If we update this we should also update the set of golang compilers we build # in 'build/build-image/cross/Dockerfile'. However, it's only a bit faster since go 1.5, not mandatory KUBE_CLIENT_PLATFORMS=( linux/amd64 linux/386 linux/arm linux/arm64 darwin/amd64 darwin/386 windows/amd64 windows/386 linux/s390x ) if [[ "${KUBE_BUILD_PPC64LE:-}" =~ ^[yY]$ ]]; then KUBE_CLIENT_PLATFORMS+=(linux/ppc64le) fi readonly KUBE_CLIENT_PLATFORMS # Which platforms we should compile test targets for. Not all client platforms need these tests readonly KUBE_TEST_PLATFORMS=( linux/amd64 darwin/amd64 windows/amd64 ) fi # The set of client targets that we are building for all platforms # If you update this list, please also update build/release-tars/BUILD. readonly KUBE_CLIENT_TARGETS=( cmd/kubectl federation/cmd/kubefed ) readonly KUBE_CLIENT_BINARIES=("${KUBE_CLIENT_TARGETS[@]##*/}") readonly KUBE_CLIENT_BINARIES_WIN=("${KUBE_CLIENT_BINARIES[@]/%/.exe}") # The set of test targets that we are building for all platforms # If you update this list, please also update build/release-tars/BUILD. kube::golang::test_targets() { local targets=( cmd/gendocs cmd/genkubedocs cmd/genman cmd/genyaml cmd/mungedocs cmd/genswaggertypedocs cmd/linkcheck examples/k8petstore/web-server/src federation/cmd/genfeddocs vendor/github.com/onsi/ginkgo/ginkgo test/e2e/e2e.test ) echo "${targets[@]}" } readonly KUBE_TEST_TARGETS=($(kube::golang::test_targets)) readonly KUBE_TEST_BINARIES=("${KUBE_TEST_TARGETS[@]##*/}") readonly KUBE_TEST_BINARIES_WIN=("${KUBE_TEST_BINARIES[@]/%/.exe}") # If you update this list, please also update build/release-tars/BUILD. readonly KUBE_TEST_PORTABLE=( test/e2e/testing-manifests test/kubemark federation/develop hack/e2e.go hack/e2e-internal hack/get-build.sh hack/ginkgo-e2e.sh hack/federated-ginkgo-e2e.sh hack/lib ) # Test targets which run on the Kubernetes clusters directly, so we only # need to target server platforms. # These binaries will be distributed in the kubernetes-test tarball. # If you update this list, please also update build/release-tars/BUILD. readonly KUBE_TEST_SERVER_TARGETS=( cmd/kubemark vendor/github.com/onsi/ginkgo/ginkgo test/e2e_node/e2e_node.test ) readonly KUBE_TEST_SERVER_BINARIES=("${KUBE_TEST_SERVER_TARGETS[@]##*/}") readonly KUBE_TEST_SERVER_PLATFORMS=("${KUBE_SERVER_PLATFORMS[@]}") # Gigabytes desired for parallel platform builds. 11 is fairly # arbitrary, but is a reasonable splitting point for 2015 # laptops-versus-not. readonly KUBE_PARALLEL_BUILD_MEMORY=11 readonly KUBE_ALL_TARGETS=( "${KUBE_SERVER_TARGETS[@]}" "${KUBE_CLIENT_TARGETS[@]}" "${KUBE_TEST_TARGETS[@]}" "${KUBE_TEST_SERVER_TARGETS[@]}" ) readonly KUBE_ALL_BINARIES=("${KUBE_ALL_TARGETS[@]##*/}") readonly KUBE_STATIC_LIBRARIES=( cloud-controller-manager kube-apiserver kube-controller-manager kube-scheduler kube-proxy kube-discovery kube-aggregator kubeadm kubectl ) # Add any files with those //generate annotations in the array below. readonly KUBE_BINDATAS=( test/e2e/generated/gobindata_util.go ) kube::golang::is_statically_linked_library() { local e for e in "${KUBE_STATIC_LIBRARIES[@]}"; do [[ "$1" == *"/$e" ]] && return 0; done; # Allow individual overrides--e.g., so that you can get a static build of # kubectl for inclusion in a container. if [ -n "${KUBE_STATIC_OVERRIDES:+x}" ]; then for e in "${KUBE_STATIC_OVERRIDES[@]}"; do [[ "$1" == *"/$e" ]] && return 0; done; fi return 1; } # kube::binaries_from_targets take a list of build targets and return the # full go package to be built kube::golang::binaries_from_targets() { local target for target; do # If the target starts with what looks like a domain name, assume it has a # fully-qualified package name rather than one that needs the Kubernetes # package prepended. if [[ "${target}" =~ ^([[:alnum:]]+".")+[[:alnum:]]+"/" ]]; then echo "${target}" else echo "${KUBE_GO_PACKAGE}/${target}" fi done } # Asks golang what it thinks the host platform is. The go tool chain does some # slightly different things when the target platform matches the host platform. kube::golang::host_platform() { echo "$(go env GOHOSTOS)/$(go env GOHOSTARCH)" } kube::golang::current_platform() { local os="${GOOS-}" if [[ -z $os ]]; then os=$(go env GOHOSTOS) fi local arch="${GOARCH-}" if [[ -z $arch ]]; then arch=$(go env GOHOSTARCH) fi echo "$os/$arch" } # Takes the the platform name ($1) and sets the appropriate golang env variables # for that platform. kube::golang::set_platform_envs() { [[ -n ${1-} ]] || { kube::log::error_exit "!!! Internal error. No platform set in kube::golang::set_platform_envs" } export GOOS=${platform%/*} export GOARCH=${platform##*/} # Do not set CC when building natively on a platform, only if cross-compiling from linux/amd64 if [[ $(kube::golang::host_platform) == "linux/amd64" ]]; then # Dynamic CGO linking for other server architectures than linux/amd64 goes here # If you want to include support for more server platforms than these, add arch-specific gcc names here case "${platform}" in "linux/arm") export CGO_ENABLED=1 export CC=arm-linux-gnueabi-gcc # See https://github.com/kubernetes/kubernetes/issues/29904 export GOROOT=${K8S_PATCHED_GOROOT} ;; "linux/arm64") export CGO_ENABLED=1 export CC=aarch64-linux-gnu-gcc ;; "linux/ppc64le") export CGO_ENABLED=1 export CC=powerpc64le-linux-gnu-gcc ;; "linux/s390x") export CGO_ENABLED=1 export CC=s390x-linux-gnu-gcc ;; esac fi } kube::golang::unset_platform_envs() { unset GOOS unset GOARCH unset GOROOT unset CGO_ENABLED unset CC } # Create the GOPATH tree under $KUBE_OUTPUT kube::golang::create_gopath_tree() { local go_pkg_dir="${KUBE_GOPATH}/src/${KUBE_GO_PACKAGE}" local go_pkg_basedir=$(dirname "${go_pkg_dir}") mkdir -p "${go_pkg_basedir}" # TODO: This symlink should be relative. if [[ ! -e "${go_pkg_dir}" || "$(readlink ${go_pkg_dir})" != "${KUBE_ROOT}" ]]; then ln -snf "${KUBE_ROOT}" "${go_pkg_dir}" fi cat >"${KUBE_GOPATH}/BUILD" </dev/null; then kube::log::usage_from_stdin <` only works for a single pkg. local subdir subdir=$(kube::realpath . | sed "s|$KUBE_ROOT||") cd "${KUBE_GOPATH}/src/${KUBE_GO_PACKAGE}/${subdir}" # Set GOROOT so binaries that parse code can work properly. export GOROOT=$(go env GOROOT) # Unset GOBIN in case it already exists in the current session. unset GOBIN # This seems to matter to some tools (godep, ugorji, ginkgo...) export GO15VENDOREXPERIMENT=1 } # This will take binaries from $GOPATH/bin and copy them to the appropriate # place in ${KUBE_OUTPUT_BINDIR} # # Ideally this wouldn't be necessary and we could just set GOBIN to # KUBE_OUTPUT_BINDIR but that won't work in the face of cross compilation. 'go # install' will place binaries that match the host platform directly in $GOBIN # while placing cross compiled binaries into `platform_arch` subdirs. This # complicates pretty much everything else we do around packaging and such. kube::golang::place_bins() { local host_platform host_platform=$(kube::golang::host_platform) V=2 kube::log::status "Placing binaries" local platform for platform in "${KUBE_CLIENT_PLATFORMS[@]}"; do # The substitution on platform_src below will replace all slashes with # underscores. It'll transform darwin/amd64 -> darwin_amd64. local platform_src="/${platform//\//_}" if [[ $platform == $host_platform ]]; then platform_src="" rm -f "${THIS_PLATFORM_BIN}" ln -s "${KUBE_OUTPUT_BINPATH}/${platform}" "${THIS_PLATFORM_BIN}" fi local full_binpath_src="${KUBE_GOPATH}/bin${platform_src}" if [[ -d "${full_binpath_src}" ]]; then mkdir -p "${KUBE_OUTPUT_BINPATH}/${platform}" find "${full_binpath_src}" -maxdepth 1 -type f -exec \ rsync -pc {} "${KUBE_OUTPUT_BINPATH}/${platform}" \; fi done } kube::golang::fallback_if_stdlib_not_installable() { local go_root_dir=$(go env GOROOT); local go_host_os=$(go env GOHOSTOS); local go_host_arch=$(go env GOHOSTARCH); local cgo_pkg_dir=${go_root_dir}/pkg/${go_host_os}_${go_host_arch}_cgo; if [ -e ${cgo_pkg_dir} ]; then return 0; fi if [ -w ${go_root_dir}/pkg ]; then return 0; fi kube::log::status "+++ Warning: stdlib pkg with cgo flag not found."; kube::log::status "+++ Warning: stdlib pkg cannot be rebuilt since ${go_root_dir}/pkg is not writable by `whoami`"; kube::log::status "+++ Warning: Make ${go_root_dir}/pkg writable for `whoami` for a one-time stdlib install, Or" kube::log::status "+++ Warning: Rebuild stdlib using the command 'CGO_ENABLED=0 go install -a -installsuffix cgo std'"; kube::log::status "+++ Falling back to go build, which is slower"; use_go_build=true } # Builds the toolchain necessary for building kube. This needs to be # built only on the host platform. # TODO: Find this a proper home. # Ideally, not a shell script because testing shell scripts is painful. kube::golang::build_kube_toolchain() { local targets=( hack/cmd/teststale vendor/github.com/jteeuwen/go-bindata/go-bindata ) local binaries binaries=($(kube::golang::binaries_from_targets "${targets[@]}")) kube::log::status "Building the toolchain targets:" "${binaries[@]}" go install "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${binaries[@]:+${binaries[@]}}" } # Try and replicate the native binary placement of go install without # calling go install. kube::golang::output_filename_for_binary() { local binary=$1 local platform=$2 local output_path="${KUBE_GOPATH}/bin" if [[ $platform != $host_platform ]]; then output_path="${output_path}/${platform//\//_}" fi local bin=$(basename "${binary}") if [[ ${GOOS} == "windows" ]]; then bin="${bin}.exe" fi echo "${output_path}/${bin}" } kube::golang::build_binaries_for_platform() { local platform=$1 local use_go_build=${2-} local -a statics=() local -a nonstatics=() local -a tests=() V=2 kube::log::info "Env for ${platform}: GOOS=${GOOS-} GOARCH=${GOARCH-} GOROOT=${GOROOT-} CGO_ENABLED=${CGO_ENABLED-} CC=${CC-}" for binary in "${binaries[@]}"; do if [[ "${binary}" =~ ".test"$ ]]; then tests+=($binary) elif kube::golang::is_statically_linked_library "${binary}"; then statics+=($binary) else nonstatics+=($binary) fi done if [[ "${#statics[@]}" != 0 ]]; then kube::golang::fallback_if_stdlib_not_installable; fi # TODO: Remove this temporary workaround when we have the official golang linker working if [[ ${platform} == "linux/arm" ]]; then gogcflags="${gogcflags} -largemodel" fi if [[ -n ${use_go_build:-} ]]; then kube::log::progress " " for binary in "${statics[@]:+${statics[@]}}"; do local outfile=$(kube::golang::output_filename_for_binary "${binary}" "${platform}") CGO_ENABLED=0 go build -o "${outfile}" \ "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${binary}" kube::log::progress "*" done for binary in "${nonstatics[@]:+${nonstatics[@]}}"; do local outfile=$(kube::golang::output_filename_for_binary "${binary}" "${platform}") go build -o "${outfile}" \ "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${binary}" kube::log::progress "*" done kube::log::progress "\n" else # Use go install. if [[ "${#nonstatics[@]}" != 0 ]]; then go install "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${nonstatics[@]:+${nonstatics[@]}}" fi if [[ "${#statics[@]}" != 0 ]]; then CGO_ENABLED=0 go install -installsuffix cgo "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${statics[@]:+${statics[@]}}" fi fi for test in "${tests[@]:+${tests[@]}}"; do local outfile=$(kube::golang::output_filename_for_binary "${test}" \ "${platform}") local testpkg="$(dirname ${test})" # Staleness check always happens on the host machine, so we don't # have to locate the `teststale` binaries for the other platforms. # Since we place the host binaries in `$KUBE_GOPATH/bin`, we can # assume that the binary exists there, if it exists at all. # Otherwise, something has gone wrong with building the `teststale` # binary and we should safely proceed building the test binaries # assuming that they are stale. There is no good reason to error # out. if test -x "${KUBE_GOPATH}/bin/teststale" && ! "${KUBE_GOPATH}/bin/teststale" -binary "${outfile}" -package "${testpkg}" then continue fi # `go test -c` below directly builds the binary. It builds the packages, # but it never installs them. `go test -i` only installs the dependencies # of the test, but not the test package itself. So neither `go test -c` # nor `go test -i` installs, for example, test/e2e.a. And without that, # doing a staleness check on k8s.io/kubernetes/test/e2e package always # returns true (always stale). And that's why we need to install the # test package. go install "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ "${testpkg}" mkdir -p "$(dirname ${outfile})" go test -i -c \ "${goflags[@]:+${goflags[@]}}" \ -gcflags "${gogcflags}" \ -ldflags "${goldflags}" \ -o "${outfile}" \ "${testpkg}" done } # Return approximate physical memory available in gigabytes. kube::golang::get_physmem() { local mem # Linux kernel version >=3.14, in kb if mem=$(grep MemAvailable /proc/meminfo | awk '{ print $2 }'); then echo $(( ${mem} / 1048576 )) return fi # Linux, in kb if mem=$(grep MemTotal /proc/meminfo | awk '{ print $2 }'); then echo $(( ${mem} / 1048576 )) return fi # OS X, in bytes. Note that get_physmem, as used, should only ever # run in a Linux container (because it's only used in the multiple # platform case, which is a Dockerized build), but this is provided # for completeness. if mem=$(sysctl -n hw.memsize 2>/dev/null); then echo $(( ${mem} / 1073741824 )) return fi # If we can't infer it, just give up and assume a low memory system echo 1 } # Build binaries targets specified # # Input: # $@ - targets and go flags. If no targets are set then all binaries targets # are built. # KUBE_BUILD_PLATFORMS - Incoming variable of targets to build for. If unset # then just the host architecture is built. kube::golang::build_binaries() { # Create a sub-shell so that we don't pollute the outer environment ( # Check for `go` binary and set ${GOPATH}. kube::golang::setup_env V=2 kube::log::info "Go version: $(go version)" local host_platform host_platform=$(kube::golang::host_platform) # Use eval to preserve embedded quoted strings. local goflags goldflags gogcflags eval "goflags=(${KUBE_GOFLAGS:-})" goldflags="${KUBE_GOLDFLAGS:-} $(kube::version::ldflags)" gogcflags="${KUBE_GOGCFLAGS:-}" local use_go_build local -a targets=() local arg for arg; do if [[ "${arg}" == "--use_go_build" ]]; then use_go_build=true elif [[ "${arg}" == -* ]]; then # Assume arguments starting with a dash are flags to pass to go. goflags+=("${arg}") else targets+=("${arg}") fi done if [[ ${#targets[@]} -eq 0 ]]; then targets=("${KUBE_ALL_TARGETS[@]}") fi local -a platforms=(${KUBE_BUILD_PLATFORMS:-}) if [[ ${#platforms[@]} -eq 0 ]]; then platforms=("${host_platform}") fi local binaries binaries=($(kube::golang::binaries_from_targets "${targets[@]}")) local parallel=false if [[ ${#platforms[@]} -gt 1 ]]; then local gigs gigs=$(kube::golang::get_physmem) if [[ ${gigs} -ge ${KUBE_PARALLEL_BUILD_MEMORY} ]]; then kube::log::status "Multiple platforms requested and available ${gigs}G >= threshold ${KUBE_PARALLEL_BUILD_MEMORY}G, building platforms in parallel" parallel=true else kube::log::status "Multiple platforms requested, but available ${gigs}G < threshold ${KUBE_PARALLEL_BUILD_MEMORY}G, building platforms in serial" parallel=false fi fi # First build the toolchain before building any other targets kube::golang::build_kube_toolchain kube::log::status "Generating bindata:" "${KUBE_BINDATAS[@]}" for bindata in ${KUBE_BINDATAS[@]}; do # Only try to generate bindata if the file exists, since in some cases # one-off builds of individual directories may exclude some files. if [[ -f "${KUBE_ROOT}/${bindata}" ]]; then go generate "${goflags[@]:+${goflags[@]}}" "${KUBE_ROOT}/${bindata}" fi done if [[ "${parallel}" == "true" ]]; then kube::log::status "Building go targets for {${platforms[*]}} in parallel (output will appear in a burst when complete):" "${targets[@]}" local platform for platform in "${platforms[@]}"; do ( kube::golang::set_platform_envs "${platform}" kube::log::status "${platform}: go build started" kube::golang::build_binaries_for_platform ${platform} ${use_go_build:-} kube::log::status "${platform}: go build finished" ) &> "/tmp//${platform//\//_}.build" & done local fails=0 for job in $(jobs -p); do wait ${job} || let "fails+=1" done for platform in "${platforms[@]}"; do cat "/tmp//${platform//\//_}.build" done exit ${fails} else for platform in "${platforms[@]}"; do kube::log::status "Building go targets for ${platform}:" "${targets[@]}" ( kube::golang::set_platform_envs "${platform}" kube::golang::build_binaries_for_platform ${platform} ${use_go_build:-} ) done fi ) }