#!/usr/bin/env bash
# Copyright 2017 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.
set -o errexit
set -o nounset
set -o pipefail
TASK=${1}
WHAT=${2}
# docker buildx command is still experimental as of Docker 19.03.0
export DOCKER_CLI_EXPERIMENTAL="enabled"
# Connecting to a Remote Docker requires certificates for authentication, which can be found
# at this path. By default, they can be found in the ${HOME} folder. We're expecting to find
# here ".docker-${os_version}" folders which contains the necessary certificates.
DOCKER_CERT_BASE_PATH="${DOCKER_CERT_BASE_PATH:-${HOME}}"
KUBE_ROOT="$(cd "$(dirname "${BASH_SOURCE[0]}")/../.." && pwd -P)"
source "${KUBE_ROOT}/hack/lib/logging.sh"
source "${KUBE_ROOT}/hack/lib/util.sh"
# Mapping of go ARCH to actual architectures shipped part of multiarch/qemu-user-static project
declare -A QEMUARCHS=( ["amd64"]="x86_64" ["arm"]="arm" ["arm64"]="aarch64" ["ppc64le"]="ppc64le" ["s390x"]="s390x" )
# NOTE(claudiub): In the test image build jobs, this script is not being run in a git repository,
# which would cause git log to fail. Instead, we can use the GIT_COMMIT_ID set in cloudbuild.yaml.
GIT_COMMIT_ID=$(git log -1 --format=%h || echo "${GIT_COMMIT_ID}")
windows_os_versions=(1809 ltsc2022)
declare -A WINDOWS_OS_VERSIONS_MAP
initWindowsOsVersions() {
for os_version in "${windows_os_versions[@]}"; do
img_base="mcr.microsoft.com/windows/nanoserver:${os_version}"
# we use awk to also trim the quotes around the OS version string.
full_version=$(docker manifest inspect "${img_base}" | grep "os.version" | head -n 1 | awk -F\" '{print $4}') || true
WINDOWS_OS_VERSIONS_MAP["${os_version}"]="${full_version}"
done
}
initWindowsOsVersions
# Returns list of all supported architectures from BASEIMAGE file
listOsArchs() {
local image=${1}
cut -d "=" -f 1 "${image}"/BASEIMAGE
}
splitOsArch() {
local image=${1}
local os_arch=${2}
if [[ $os_arch =~ .*/.*/.* ]]; then
# for Windows, we have to support both LTS and SAC channels, so we're building multiple Windows images.
# the format for this case is: OS/ARCH/OS_VERSION.
os_name=$(echo "$os_arch" | cut -d "/" -f 1)
arch=$(echo "$os_arch" | cut -d "/" -f 2)
os_version=$(echo "$os_arch" | cut -d "/" -f 3)
suffix="$os_name-$arch-$os_version"
elif [[ $os_arch =~ .*/.* ]]; then
os_name=$(echo "$os_arch" | cut -d "/" -f 1)
arch=$(echo "$os_arch" | cut -d "/" -f 2)
os_version=""
suffix="$os_name-$arch"
else
echo "The BASEIMAGE file for the ${image} image is not properly formatted. Expected entries to start with 'os/arch', found '${os_arch}' instead."
exit 1
fi
}
# Returns baseimage need to used in Dockerfile for any given architecture
getBaseImage() {
os_arch=$1
grep "${os_arch}=" BASEIMAGE | cut -d= -f2
}
# This function will build test image for all the architectures
# mentioned in BASEIMAGE file. In the absence of BASEIMAGE file,
# it will build for all the supported arch list - amd64, arm,
# arm64, ppc64le, s390x
build() {
local image=${1}
local img_folder=${1}
local output_type=${2}
docker_version_check
if [[ -f "${img_folder}/BASEIMAGE" ]]; then
os_archs=$(listOsArchs "$image")
else
# prepend linux/ to the QEMUARCHS items.
os_archs=$(printf 'linux/%s\n' "${!QEMUARCHS[@]}")
fi
# image tag
TAG=$(<"${img_folder}/VERSION")
alias_name="$(cat "${img_folder}/ALIAS" 2>/dev/null || true)"
if [[ -n "${alias_name}" ]]; then
echo "Found an alias for '${image}'. Building / tagging image as '${alias_name}.'"
image="${alias_name}"
fi
kube::util::ensure-gnu-sed
kube::util::ensure-docker-buildx
for os_arch in ${os_archs}; do
splitOsArch "${image}" "${os_arch}"
if [[ "${os_name}" == "windows" && "${output_type}" == "docker" ]]; then
echo "Cannot build the image '${image}' for ${os_arch}. Built Windows container images need to be pushed to a registry."
continue
fi
echo "Building image for ${image} OS/ARCH: ${os_arch}..."
# Create a temporary directory for every architecture and copy the image content
# and build the image from temporary directory
mkdir -p "${KUBE_ROOT}"/_tmp
temp_dir=$(mktemp -d "${KUBE_ROOT}"/_tmp/test-images-build.XXXXXX)
kube::util::trap_add "rm -rf ${temp_dir}" EXIT
cp -r "${img_folder}"/* "${temp_dir}"
if [[ -f ${img_folder}/Makefile ]]; then
# make bin will take care of all the prerequisites needed
# for building the docker image
make -C "${img_folder}" bin OS="${os_name}" ARCH="${arch}" TARGET="${temp_dir}"
fi
pushd "${temp_dir}"
# NOTE(claudiub): Some Windows images might require their own Dockerfile
# while simpler ones will not. If we're building for Windows, check if
# "Dockerfile_windows" exists or not.
dockerfile_name="Dockerfile"
if [[ "$os_name" = "windows" && -f "Dockerfile_windows" ]]; then
dockerfile_name="Dockerfile_windows"
fi
base_image=""
if [[ -f BASEIMAGE ]]; then
base_image=$(getBaseImage "${os_arch}" | "${SED}" "s|REGISTRY|${REGISTRY}|g")
"${SED}" -i "s|BASEARCH|${arch}|g" $dockerfile_name
fi
# Only the cross-build on x86 is guaranteed by far, other arches like aarch64 doesn't support cross-build
# thus, there is no need to tackle a disability feature on those platforms, and also help to prevent from
# ending up a wrong image tag on non-amd64 platforms.
build_arch=$(uname -m)
if [[ ${build_arch} = 'x86_64' ]]; then
# copy the qemu-*-static binary to docker image to build the multi architecture image on x86 platform
if grep -q 'CROSS_BUILD_' Dockerfile; then
if [[ "${arch}" = 'amd64' ]]; then
"${SED}" -i '/CROSS_BUILD_/d' Dockerfile
else
"${SED}" -i "s|QEMUARCH|${QEMUARCHS[$arch]}|g" Dockerfile
# Register qemu-*-static for all supported processors except the current one
echo 'Registering qemu-*-static binaries in the kernel'
local sudo=""
if [[ $(id -u) -ne 0 ]]; then
sudo="sudo"
fi
${sudo} docker run --rm --privileged tonistiigi/binfmt:latest --install all
curl -sSL https://github.com/multiarch/qemu-user-static/releases/download/"${QEMUVERSION}"/x86_64_qemu-"${QEMUARCHS[$arch]}"-static.tar.gz | tar -xz -C "${temp_dir}"
# Ensure we don't get surprised by umask settings
chmod 0755 "${temp_dir}/qemu-${QEMUARCHS[$arch]}-static"
"${SED}" -i 's/CROSS_BUILD_//g' Dockerfile
fi
fi
elif [[ "${QEMUARCHS[$arch]}" != "${build_arch}" ]]; then
echo "skip cross-build $arch on non-supported platform ${build_arch}."
popd
continue
else
"${SED}" -i '/CROSS_BUILD_/d' Dockerfile
fi
# `--provenance=false --sbom=false` is set to avoid creating a manifest list: https://github.com/kubernetes/kubernetes/issues/123266
docker buildx build --progress=plain --no-cache --pull --output=type="${output_type}" --platform "${os_name}/${arch}" --provenance=false --sbom=false \
--build-arg BASEIMAGE="${base_image}" --build-arg REGISTRY="${REGISTRY}" --build-arg OS_VERSION="${os_version}" \
-t "${REGISTRY}/${image}:${TAG}-${suffix}" -f "${dockerfile_name}" \
--label "image_version=${TAG}" --label "commit_id=${GIT_COMMIT_ID}" \
--label "git_url=https://github.com/kubernetes/kubernetes/tree/${GIT_COMMIT_ID}/test/images/${img_folder}" .
popd
done
}
docker_version_check() {
# docker manifest annotate --os-version has been introduced in 20.10.0,
# so we need to make sure we have it.
docker_version=$(docker version --format '{{.Client.Version}}' | cut -d"-" -f1)
if [[ ${docker_version} != 20.10.0 && ${docker_version} < 20.10.0 ]]; then
echo "Minimum docker version 20.10.0 is required for annotating the OS Version in the manifest list images: ${docker_version}]"
exit 1
fi
}
# This function will push the docker images
push() {
local image=${1}
docker_version_check
TAG=$(<"${image}"/VERSION)
if [[ -f ${image}/BASEIMAGE ]]; then
os_archs=$(listOsArchs "$image")
else
# prepend linux/ to the QEMUARCHS items.
os_archs=$(printf 'linux/%s\n' "${!QEMUARCHS[@]}")
fi
pushd "${image}"
alias_name="$(cat ALIAS 2>/dev/null || true)"
if [[ -n "${alias_name}" ]]; then
echo "Found an alias for '${image}'. Pushing image as '${alias_name}.'"
image="${alias_name}"
fi
kube::util::ensure-gnu-sed
# reset manifest list; needed in case multiple images are being built / pushed.
manifest=()
# Make os_archs list into image manifest. Eg: 'linux/amd64 linux/ppc64le' to '${REGISTRY}/${image}:${TAG}-linux-amd64 ${REGISTRY}/${image}:${TAG}-linux-ppc64le'
while IFS='' read -r line; do manifest+=("$line"); done < <(echo "$os_archs" | "${SED}" "s~\/~-~g" | "${SED}" -e "s~[^ ]*~$REGISTRY\/$image:$TAG\-&~g")
docker manifest create --amend "${REGISTRY}/${image}:${TAG}" "${manifest[@]}"
for os_arch in ${os_archs}; do
splitOsArch "${image}" "${os_arch}"
# For Windows images, we also need to include the "os.version" in the manifest list, so the Windows node
# can pull the proper image it needs.
if [[ "$os_name" = "windows" ]]; then
full_version="${WINDOWS_OS_VERSIONS_MAP[$os_version]}"
docker manifest annotate --os "${os_name}" --arch "${arch}" --os-version "${full_version}" "${REGISTRY}/${image}:${TAG}" "${REGISTRY}/${image}:${TAG}-${suffix}"
else
docker manifest annotate --os "${os_name}" --arch "${arch}" "${REGISTRY}/${image}:${TAG}" "${REGISTRY}/${image}:${TAG}-${suffix}"
fi
done
popd
docker manifest push --purge "${REGISTRY}/${image}:${TAG}"
}
# This function is for building AND pushing images. Useful if ${WHAT} is "all-conformance".
# This will allow images to be pushed immediately after they've been built.
build_and_push() {
local image=${1}
build "${image}" "registry"
push "${image}"
}
# This function is for building the go code
bin() {
local arch_prefix=""
if [[ "${ARCH:-}" == "arm" ]]; then
arch_prefix="GOARM=${GOARM:-7}"
fi
for SRC in "$@";
do
docker run --rm -v "${TARGET}:${TARGET}:Z" -v "${KUBE_ROOT}":/go/src/k8s.io/kubernetes:Z \
golang:"${GOLANG_VERSION}" \
/bin/bash -c "\
cd /go/src/k8s.io/kubernetes/test/images/${SRC_DIR} && \
CGO_ENABLED=0 ${arch_prefix} GOOS=${OS} GOARCH=${ARCH} go build -a -installsuffix cgo --ldflags \"-w ${LD_FLAGS:-}\" -o ${TARGET}/${SRC} ./$(dirname "${SRC}")"
done
}
shift
if [[ "${WHAT}" == "all-conformance" ]]; then
# NOTE(claudiub): Building *ALL* the images under the kubernetes/test/images folder takes an extremely
# long time (especially some images), and some images are rarely used and rarely updated, so there's
# no point in rebuilding all of them every time. This will only build the Conformance-related images.
# Discussed during Conformance Office Hours Meeting (2019.12.17):
# https://docs.google.com/document/d/1W31nXh9RYAb_VaYkwuPLd1hFxuRX3iU0DmaQ4lkCsX8/edit#heading=h.l87lu17xm9bh
shift
conformance_images=("busybox" "agnhost" "jessie-dnsutils" "kitten" "nautilus" "nonewprivs" "resource-consumer" "sample-apiserver")
for image in "${conformance_images[@]}"; do
"${TASK}" "${image}" "$@"
done
else
"${TASK}" "$@"
fi
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