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k3s/build/common.sh

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#!/bin/bash
# Copyright 2014 The Kubernetes Authors All rights reserved.
#
# 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.
# Common utilities, variables and checks for all build scripts.
set -o errexit
set -o nounset
set -o pipefail
DOCKER_OPTS=${DOCKER_OPTS:-""}
DOCKER_NATIVE=${DOCKER_NATIVE:-""}
DOCKER=(docker ${DOCKER_OPTS})
DOCKER_HOST=${DOCKER_HOST:-""}
DOCKER_MACHINE_NAME=${DOCKER_MACHINE_NAME:-"kube-dev"}
readonly DOCKER_MACHINE_DRIVER=${DOCKER_MACHINE_DRIVER:-"virtualbox --virtualbox-memory 4096 --virtualbox-cpu-count -1"}
# This will canonicalize the path
KUBE_ROOT=$(cd $(dirname "${BASH_SOURCE}")/.. && pwd -P)
source hack/lib/init.sh
# Incoming options
#
readonly KUBE_SKIP_CONFIRMATIONS="${KUBE_SKIP_CONFIRMATIONS:-n}"
readonly KUBE_GCS_UPLOAD_RELEASE="${KUBE_GCS_UPLOAD_RELEASE:-n}"
readonly KUBE_GCS_NO_CACHING="${KUBE_GCS_NO_CACHING:-y}"
readonly KUBE_GCS_MAKE_PUBLIC="${KUBE_GCS_MAKE_PUBLIC:-y}"
# KUBE_GCS_RELEASE_BUCKET default: kubernetes-releases-${project_hash}
readonly KUBE_GCS_RELEASE_PREFIX=${KUBE_GCS_RELEASE_PREFIX-devel}/
readonly KUBE_GCS_DOCKER_REG_PREFIX=${KUBE_GCS_DOCKER_REG_PREFIX-docker-reg}/
readonly KUBE_GCS_PUBLISH_VERSION=${KUBE_GCS_PUBLISH_VERSION:-}
readonly KUBE_GCS_DELETE_EXISTING="${KUBE_GCS_DELETE_EXISTING:-n}"
# Constants
readonly KUBE_BUILD_IMAGE_REPO=kube-build
readonly KUBE_BUILD_IMAGE_CROSS_TAG="v1.6.2-2"
# KUBE_BUILD_DATA_CONTAINER_NAME=kube-build-data-<hash>"
# Here we map the output directories across both the local and remote _output
# directories:
#
# *_OUTPUT_ROOT - the base of all output in that environment.
# *_OUTPUT_SUBPATH - location where golang stuff is built/cached. Also
# persisted across docker runs with a volume mount.
# *_OUTPUT_BINPATH - location where final binaries are placed. If the remote
# is really remote, this is the stuff that has to be copied
# back.
# OUT_DIR can come in from the Makefile, so honor it.
readonly LOCAL_OUTPUT_ROOT="${KUBE_ROOT}/${OUT_DIR:-_output}"
readonly LOCAL_OUTPUT_SUBPATH="${LOCAL_OUTPUT_ROOT}/dockerized"
readonly LOCAL_OUTPUT_BINPATH="${LOCAL_OUTPUT_SUBPATH}/bin"
readonly LOCAL_OUTPUT_IMAGE_STAGING="${LOCAL_OUTPUT_ROOT}/images"
readonly OUTPUT_BINPATH="${CUSTOM_OUTPUT_BINPATH:-$LOCAL_OUTPUT_BINPATH}"
readonly REMOTE_OUTPUT_ROOT="/go/src/${KUBE_GO_PACKAGE}/_output"
readonly REMOTE_OUTPUT_SUBPATH="${REMOTE_OUTPUT_ROOT}/dockerized"
readonly REMOTE_OUTPUT_BINPATH="${REMOTE_OUTPUT_SUBPATH}/bin"
readonly DOCKER_MOUNT_ARGS_BASE=(
--volume "${OUTPUT_BINPATH}:${REMOTE_OUTPUT_BINPATH}"
--volume /etc/localtime:/etc/localtime:ro
)
# We create a Docker data container to cache incremental build artifacts.
readonly REMOTE_OUTPUT_GOPATH="${REMOTE_OUTPUT_SUBPATH}/go"
readonly DOCKER_DATA_MOUNT_ARGS=(
--volume "${REMOTE_OUTPUT_GOPATH}"
)
# This is where the final release artifacts are created locally
readonly RELEASE_STAGE="${LOCAL_OUTPUT_ROOT}/release-stage"
readonly RELEASE_DIR="${LOCAL_OUTPUT_ROOT}/release-tars"
readonly GCS_STAGE="${LOCAL_OUTPUT_ROOT}/gcs-stage"
# Get the set of master binaries that run in Docker (on Linux)
# Entry format is "<name-of-binary>,<base-image>".
# Binaries are placed in /usr/local/bin inside the image.
#
# $1 - server architecture
kube::build::get_docker_wrapped_binaries() {
case $1 in
"amd64")
local targets=(
kube-apiserver,busybox
kube-controller-manager,busybox
kube-scheduler,busybox
kube-proxy,gcr.io/google_containers/debian-iptables-amd64:v3
federation-apiserver,busybox
federation-controller-manager,busybox
);;
"arm")
local targets=(
kube-apiserver,armel/busybox
kube-controller-manager,armel/busybox
kube-scheduler,armel/busybox
kube-proxy,gcr.io/google_containers/debian-iptables-arm:v3
federation-apiserver,armel/busybox
federation-controller-manager,armel/busybox
);;
"arm64")
local targets=(
kube-apiserver,aarch64/busybox
kube-controller-manager,aarch64/busybox
kube-scheduler,aarch64/busybox
kube-proxy,gcr.io/google_containers/debian-iptables-arm64:v3
federation-apiserver,aarch64/busybox
federation-controller-manager,aarch64/busybox
);;
"ppc64le")
local targets=(
kube-apiserver,ppc64le/busybox
kube-controller-manager,ppc64le/busybox
kube-scheduler,ppc64le/busybox
kube-proxy,gcr.io/google_containers/debian-iptables-ppc64le:v3
federation-apiserver,ppc64le/busybox
federation-controller-manager,ppc64lebusybox
);;
esac
echo "${targets[@]}"
}
# ---------------------------------------------------------------------------
# Basic setup functions
# Verify that the right utilities and such are installed for building Kube. Set
# up some dynamic constants.
#
# Vars set:
# KUBE_ROOT_HASH
# KUBE_BUILD_IMAGE_TAG
# KUBE_BUILD_IMAGE
# KUBE_BUILD_CONTAINER_NAME
# KUBE_BUILD_DATA_CONTAINER_NAME
# DOCKER_MOUNT_ARGS
# LOCAL_OUTPUT_BUILD_CONTEXT
function kube::build::verify_prereqs() {
kube::log::status "Verifying Prerequisites...."
kube::build::ensure_tar || return 1
kube::build::ensure_docker_in_path || return 1
if kube::build::is_osx; then
kube::build::docker_available_on_osx || return 1
fi
kube::build::ensure_docker_daemon_connectivity || return 1
KUBE_ROOT_HASH=$(kube::build::short_hash "${HOSTNAME:-}:${KUBE_ROOT}")
KUBE_BUILD_IMAGE_TAG="build-${KUBE_ROOT_HASH}"
KUBE_BUILD_IMAGE="${KUBE_BUILD_IMAGE_REPO}:${KUBE_BUILD_IMAGE_TAG}"
KUBE_BUILD_CONTAINER_NAME="kube-build-${KUBE_ROOT_HASH}"
KUBE_BUILD_DATA_CONTAINER_NAME="kube-build-data-${KUBE_ROOT_HASH}"
DOCKER_MOUNT_ARGS=("${DOCKER_MOUNT_ARGS_BASE[@]}" --volumes-from "${KUBE_BUILD_DATA_CONTAINER_NAME}")
LOCAL_OUTPUT_BUILD_CONTEXT="${LOCAL_OUTPUT_IMAGE_STAGING}/${KUBE_BUILD_IMAGE}"
}
# ---------------------------------------------------------------------------
# Utility functions
function kube::build::docker_available_on_osx() {
if [[ -z "${DOCKER_HOST}" ]]; then
kube::log::status "No docker host is set. Checking options for setting one..."
if [[ -z "$(which docker-machine)" && -z "$(which boot2docker)" ]]; then
kube::log::status "It looks like you're running Mac OS X, and neither docker-machine or boot2docker are nowhere to be found."
kube::log::status "See: https://docs.docker.com/machine/ for installation instructions."
return 1
elif [[ -n "$(which docker-machine)" ]]; then
kube::build::prepare_docker_machine
elif [[ -n "$(which boot2docker)" ]]; then
kube::build::prepare_boot2docker
fi
fi
}
function kube::build::prepare_docker_machine() {
kube::log::status "docker-machine was found."
docker-machine inspect "${DOCKER_MACHINE_NAME}" &> /dev/null || {
kube::log::status "Creating a machine to build Kubernetes"
docker-machine create --driver ${DOCKER_MACHINE_DRIVER} \
--engine-env HTTP_PROXY="${KUBERNETES_HTTP_PROXY:-}" \
--engine-env HTTPS_PROXY="${KUBERNETES_HTTPS_PROXY:-}" \
--engine-env NO_PROXY="${KUBERNETES_NO_PROXY:-127.0.0.1}" \
"${DOCKER_MACHINE_NAME}" > /dev/null || {
kube::log::error "Something went wrong creating a machine."
kube::log::error "Try the following: "
kube::log::error "docker-machine create -d ${DOCKER_MACHINE_DRIVER} ${DOCKER_MACHINE_NAME}"
return 1
}
}
docker-machine start "${DOCKER_MACHINE_NAME}" &> /dev/null
# it takes `docker-machine env` a few seconds to work if the machine was just started
while ! docker-machine env ${DOCKER_MACHINE_NAME} &> /dev/null; do
sleep 1
done
eval $(docker-machine env "${DOCKER_MACHINE_NAME}")
kube::log::status "A Docker host using docker-machine named '${DOCKER_MACHINE_NAME}' is ready to go!"
return 0
}
function kube::build::prepare_boot2docker() {
kube::log::status "boot2docker cli has been deprecated in favor of docker-machine."
kube::log::status "See: https://github.com/boot2docker/boot2docker-cli for more details."
if [[ $(boot2docker status) != "running" ]]; then
kube::log::status "boot2docker isn't running. We'll try to start it."
boot2docker up || {
kube::log::error "Can't start boot2docker."
kube::log::error "You may need to 'boot2docker init' to create your VM."
return 1
}
fi
# Reach over and set the clock. After sleep/resume the clock will skew.
kube::log::status "Setting boot2docker clock"
boot2docker ssh sudo date -u -D "%Y%m%d%H%M.%S" --set "$(date -u +%Y%m%d%H%M.%S)" >/dev/null
kube::log::status "Setting boot2docker env variables"
$(boot2docker shellinit)
kube::log::status "boot2docker-vm has been successfully started."
return 0
}
function kube::build::is_osx() {
[[ "$(uname)" == "Darwin" ]]
}
function kube::build::update_dockerfile() {
if kube::build::is_osx; then
sed_opts=(-i '')
else
sed_opts=(-i)
fi
sed "${sed_opts[@]}" "s/KUBE_BUILD_IMAGE_CROSS_TAG/${KUBE_BUILD_IMAGE_CROSS_TAG}/" "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile"
}
function kube::build::ensure_docker_in_path() {
if [[ -z "$(which docker)" ]]; then
kube::log::error "Can't find 'docker' in PATH, please fix and retry."
kube::log::error "See https://docs.docker.com/installation/#installation for installation instructions."
return 1
fi
}
function kube::build::ensure_docker_daemon_connectivity {
if ! "${DOCKER[@]}" info > /dev/null 2>&1 ; then
{
echo "Can't connect to 'docker' daemon. please fix and retry."
echo
echo "Possible causes:"
echo " - On Mac OS X, DOCKER_HOST hasn't been set. You may need to: "
echo " - Create and start your VM using docker-machine or boot2docker: "
echo " - docker-machine create -d ${DOCKER_MACHINE_DRIVER} ${DOCKER_MACHINE_NAME}"
echo " - boot2docker init && boot2docker start"
echo " - Set your environment variables using: "
echo " - eval \$(docker-machine env ${DOCKER_MACHINE_NAME})"
echo " - \$(boot2docker shellinit)"
echo " - On Linux, user isn't in 'docker' group. Add and relogin."
echo " - Something like 'sudo usermod -a -G docker ${USER-user}'"
echo " - RHEL7 bug and workaround: https://bugzilla.redhat.com/show_bug.cgi?id=1119282#c8"
echo " - On Linux, Docker daemon hasn't been started or has crashed."
} >&2
return 1
fi
}
function kube::build::ensure_tar() {
if [[ -n "${TAR:-}" ]]; then
return
fi
# Find gnu tar if it is available, bomb out if not.
TAR=tar
if which gtar &>/dev/null; then
TAR=gtar
else
if which gnutar &>/dev/null; then
TAR=gnutar
fi
fi
if ! "${TAR}" --version | grep -q GNU; then
echo " !!! Cannot find GNU tar. Build on Linux or install GNU tar"
echo " on Mac OS X (brew install gnu-tar)."
return 1
fi
}
function kube::build::clean_output() {
# Clean out the output directory if it exists.
if kube::build::has_docker ; then
if kube::build::build_image_built ; then
kube::log::status "Cleaning out _output/dockerized/bin/ via docker build image"
kube::build::run_build_command bash -c "rm -rf '${REMOTE_OUTPUT_BINPATH}'/*"
else
kube::log::error "Build image not built. Cannot clean via docker build image."
fi
kube::log::status "Removing data container"
"${DOCKER[@]}" rm -v "${KUBE_BUILD_DATA_CONTAINER_NAME}" >/dev/null 2>&1 || true
fi
kube::log::status "Cleaning out local _output directory"
rm -rf "${LOCAL_OUTPUT_ROOT}"
}
# Make sure the _output directory is created and mountable by docker
function kube::build::prepare_output() {
# See auto-creation of host mounts: https://github.com/docker/docker/pull/21666
# if selinux is enabled, docker run -v /foo:/foo:Z will not autocreate the host dir
mkdir -p "${LOCAL_OUTPUT_SUBPATH}"
mkdir -p "${LOCAL_OUTPUT_BINPATH}"
# On RHEL/Fedora SELinux is enabled by default and currently breaks docker
# volume mounts. We can work around this by explicitly adding a security
# context to the _output directory.
# Details: http://www.projectatomic.io/blog/2015/06/using-volumes-with-docker-can-cause-problems-with-selinux/
if which selinuxenabled &>/dev/null && \
selinuxenabled && \
which chcon >/dev/null ; then
if [[ ! $(ls -Zd "${LOCAL_OUTPUT_ROOT}") =~ svirt_sandbox_file_t ]] ; then
kube::log::status "Applying SELinux policy to '_output' directory."
if ! chcon -Rt svirt_sandbox_file_t "${LOCAL_OUTPUT_ROOT}"; then
echo " ***Failed***. This may be because you have root owned files under _output."
echo " Continuing, but this build may fail later if SELinux prevents access."
fi
fi
number=${#DOCKER_MOUNT_ARGS[@]}
for (( i=0; i<number; i++ )); do
if [[ "${DOCKER_MOUNT_ARGS[i]}" =~ "${KUBE_ROOT}" ]]; then
## Ensure we don't label the argument multiple times
if [[ ! "${DOCKER_MOUNT_ARGS[i]}" == *:Z ]]; then
DOCKER_MOUNT_ARGS[i]="${DOCKER_MOUNT_ARGS[i]}:Z"
fi
fi
done
fi
}
function kube::build::has_docker() {
which docker &> /dev/null
}
# Detect if a specific image exists
#
# $1 - image repo name
# #2 - image tag
function kube::build::docker_image_exists() {
[[ -n $1 && -n $2 ]] || {
kube::log::error "Internal error. Image not specified in docker_image_exists."
exit 2
}
# We cannot just specify the IMAGE here as `docker images` doesn't behave as
# expected. See: https://github.com/docker/docker/issues/8048
"${DOCKER[@]}" images | grep -Eq "^(\S+/)?${1}\s+${2}\s+"
}
# Takes $1 and computes a short has for it. Useful for unique tag generation
function kube::build::short_hash() {
[[ $# -eq 1 ]] || {
kube::log::error "Internal error. No data based to short_hash."
exit 2
}
local short_hash
if which md5 >/dev/null 2>&1; then
short_hash=$(md5 -q -s "$1")
else
short_hash=$(echo -n "$1" | md5sum)
fi
echo ${short_hash:0:10}
}
# Pedantically kill, wait-on and remove a container. The -f -v options
# to rm don't actually seem to get the job done, so force kill the
# container, wait to ensure it's stopped, then try the remove. This is
# a workaround for bug https://github.com/docker/docker/issues/3968.
function kube::build::destroy_container() {
"${DOCKER[@]}" kill "$1" >/dev/null 2>&1 || true
"${DOCKER[@]}" wait "$1" >/dev/null 2>&1 || true
"${DOCKER[@]}" rm -f -v "$1" >/dev/null 2>&1 || true
}
# Validate a release version
#
# Globals:
# None
# Arguments:
# version
# Returns:
# If version is a valid release version
# Sets: (e.g. for '1.2.3-alpha.4')
# VERSION_MAJOR (e.g. '1')
# VERSION_MINOR (e.g. '2')
# VERSION_PATCH (e.g. '3')
# VERSION_EXTRA (e.g. '-alpha.4')
# VERSION_PRERELEASE (e.g. 'alpha')
# VERSION_PRERELEASE_REV (e.g. '4')
function kube::release::parse_and_validate_release_version() {
local -r version_regex="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)(-(beta|alpha)\\.(0|[1-9][0-9]*))?$"
local -r version="${1-}"
[[ "${version}" =~ ${version_regex} ]] || {
kube::log::error "Invalid release version: '${version}', must match regex ${version_regex}"
return 1
}
VERSION_MAJOR="${BASH_REMATCH[1]}"
VERSION_MINOR="${BASH_REMATCH[2]}"
VERSION_PATCH="${BASH_REMATCH[3]}"
VERSION_EXTRA="${BASH_REMATCH[4]}"
VERSION_PRERELEASE="${BASH_REMATCH[5]}"
VERSION_PRERELEASE_REV="${BASH_REMATCH[6]}"
}
# Validate a ci version
#
# Globals:
# None
# Arguments:
# version
# Returns:
# If version is a valid ci version
# Sets: (e.g. for '1.2.3-alpha.4.56+abcdef12345678')
# VERSION_MAJOR (e.g. '1')
# VERSION_MINOR (e.g. '2')
# VERSION_PATCH (e.g. '3')
# VERSION_PRERELEASE (e.g. 'alpha')
# VERSION_PRERELEASE_REV (e.g. '4')
# VERSION_BUILD_INFO (e.g. '.56+abcdef12345678')
# VERSION_COMMITS (e.g. '56')
function kube::release::parse_and_validate_ci_version() {
# Accept things like "v1.2.3-alpha.4.56+abcdef12345678" or "v1.2.3-beta.4"
local -r version_regex="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)-(beta|alpha)\\.(0|[1-9][0-9]*)(\\.(0|[1-9][0-9]*)\\+[0-9a-f]{7,40})?$"
local -r version="${1-}"
[[ "${version}" =~ ${version_regex} ]] || {
kube::log::error "Invalid ci version: '${version}', must match regex ${version_regex}"
return 1
}
VERSION_MAJOR="${BASH_REMATCH[1]}"
VERSION_MINOR="${BASH_REMATCH[2]}"
VERSION_PATCH="${BASH_REMATCH[3]}"
VERSION_PRERELEASE="${BASH_REMATCH[4]}"
VERSION_PRERELEASE_REV="${BASH_REMATCH[5]}"
VERSION_BUILD_INFO="${BASH_REMATCH[6]}"
VERSION_COMMITS="${BASH_REMATCH[7]}"
}
# ---------------------------------------------------------------------------
# Building
function kube::build::build_image_built() {
kube::build::docker_image_exists "${KUBE_BUILD_IMAGE_REPO}" "${KUBE_BUILD_IMAGE_TAG}"
}
# The set of source targets to include in the kube-build image
function kube::build::source_targets() {
local targets=(
api
build
cluster
cmd
docs
examples
federation
Godeps/Godeps.json
hack
LICENSE
pkg
plugin
DESIGN.md
README.md
test
third_party
vendor
contrib/mesos
.generated_docs
)
if [ -n "${KUBERNETES_CONTRIB:-}" ]; then
for contrib in "${KUBERNETES_CONTRIB}"; do
targets+=($(eval "kube::contrib::${contrib}::source_targets"))
done
fi
echo "${targets[@]}"
}
# Set up the context directory for the kube-build image and build it.
function kube::build::build_image() {
kube::build::ensure_tar
mkdir -p "${LOCAL_OUTPUT_BUILD_CONTEXT}"
"${TAR}" czf "${LOCAL_OUTPUT_BUILD_CONTEXT}/kube-source.tar.gz" $(kube::build::source_targets)
kube::version::get_version_vars
kube::version::save_version_vars "${LOCAL_OUTPUT_BUILD_CONTEXT}/kube-version-defs"
cp build/build-image/Dockerfile "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile"
kube::build::update_dockerfile
kube::build::docker_build "${KUBE_BUILD_IMAGE}" "${LOCAL_OUTPUT_BUILD_CONTEXT}" 'false'
}
# Build a docker image from a Dockerfile.
# $1 is the name of the image to build
# $2 is the location of the "context" directory, with the Dockerfile at the root.
# $3 is the value to set the --pull flag for docker build; true by default
function kube::build::docker_build() {
local -r image=$1
local -r context_dir=$2
local -r pull="${3:-true}"
local -ra build_cmd=("${DOCKER[@]}" build -t "${image}" "--pull=${pull}" "${context_dir}")
kube::log::status "Building Docker image ${image}."
local docker_output
docker_output=$("${build_cmd[@]}" 2>&1) || {
cat <<EOF >&2
+++ Docker build command failed for ${image}
${docker_output}
To retry manually, run:
${build_cmd[*]}
EOF
return 1
}
}
function kube::build::clean_image() {
local -r image=$1
kube::log::status "Deleting docker image ${image}"
"${DOCKER[@]}" rmi ${image} 2> /dev/null || true
}
function kube::build::clean_images() {
kube::build::has_docker || return 0
kube::build::clean_image "${KUBE_BUILD_IMAGE}"
kube::log::status "Cleaning all other untagged docker images"
"${DOCKER[@]}" rmi $("${DOCKER[@]}" images -q --filter 'dangling=true') 2> /dev/null || true
}
function kube::build::ensure_data_container() {
# This is temporary, while last remnants of _workspace are obliterated. If
# the data container exists it might be from before the change from
# Godeps/_workspace/ to vendor/, and thereby still have a Godeps/_workspace/
# directory in it, which trips up godep (yay godep!). Once we are confident
# that this has run ~everywhere we care about, we can remove this.
# TODO(thockin): remove this after v1.3 is cut.
if "${DOCKER[@]}" inspect "${KUBE_BUILD_DATA_CONTAINER_NAME}" \
| grep -q "Godeps/_workspace/pkg"; then
docker rm -f "${KUBE_BUILD_DATA_CONTAINER_NAME}"
fi
if ! "${DOCKER[@]}" inspect "${KUBE_BUILD_DATA_CONTAINER_NAME}" >/dev/null 2>&1; then
kube::log::status "Creating data container"
local -ra docker_cmd=(
"${DOCKER[@]}" run
"${DOCKER_DATA_MOUNT_ARGS[@]}"
--name "${KUBE_BUILD_DATA_CONTAINER_NAME}"
"${KUBE_BUILD_IMAGE}"
true
)
"${docker_cmd[@]}"
fi
}
# Run a command in the kube-build image. This assumes that the image has
# already been built. This will sync out all output data from the build.
function kube::build::run_build_command() {
kube::log::status "Running build command...."
[[ $# != 0 ]] || { echo "Invalid input - please specify a command to run." >&2; return 4; }
kube::build::ensure_data_container
kube::build::prepare_output
local -a docker_run_opts=(
"--name=${KUBE_BUILD_CONTAINER_NAME}"
"${DOCKER_MOUNT_ARGS[@]}"
)
if [ -n "${KUBERNETES_CONTRIB:-}" ]; then
docker_run_opts+=(-e "KUBERNETES_CONTRIB=${KUBERNETES_CONTRIB}")
fi
docker_run_opts+=(
--env "KUBE_FASTBUILD=${KUBE_FASTBUILD:-false}"
--env "KUBE_BUILDER_OS=${OSTYPE:-notdetected}"
)
# If we have stdin we can run interactive. This allows things like 'shell.sh'
# to work. However, if we run this way and don't have stdin, then it ends up
# running in a daemon-ish mode. So if we don't have a stdin, we explicitly
# attach stderr/stdout but don't bother asking for a tty.
if [[ -t 0 ]]; then
docker_run_opts+=(--interactive --tty)
else
docker_run_opts+=(--attach=stdout --attach=stderr)
fi
local -ra docker_cmd=(
"${DOCKER[@]}" run "${docker_run_opts[@]}" "${KUBE_BUILD_IMAGE}")
# Clean up container from any previous run
kube::build::destroy_container "${KUBE_BUILD_CONTAINER_NAME}"
"${docker_cmd[@]}" "$@"
kube::build::destroy_container "${KUBE_BUILD_CONTAINER_NAME}"
}
# Test if the output directory is remote (and can only be accessed through
# docker) or if it is "local" and we can access the output without going through
# docker.
function kube::build::is_output_remote() {
rm -f "${LOCAL_OUTPUT_SUBPATH}/test_for_remote"
kube::build::run_build_command touch "${REMOTE_OUTPUT_BINPATH}/test_for_remote"
[[ ! -e "${LOCAL_OUTPUT_BINPATH}/test_for_remote" ]]
}
# If the Docker server is remote, copy the results back out.
function kube::build::copy_output() {
if kube::build::is_output_remote; then
# At time of this code, docker cp does not work when copying from a volume.
# As a workaround, the binaries are first copied to a local filesystem,
# /tmp, then docker cp'd to the local binaries output directory.
# The fix for the volume bug has been accepted and once it's widely
# deployed the code below should be simplified to a simple docker cp
# Bug: https://github.com/docker/docker/pull/8509
local -a docker_run_opts=(
"--name=${KUBE_BUILD_CONTAINER_NAME}"
"${DOCKER_MOUNT_ARGS[@]}"
-d
)
local -ra docker_cmd=(
"${DOCKER[@]}" run "${docker_run_opts[@]}" "${KUBE_BUILD_IMAGE}"
)
kube::log::status "Syncing back _output/dockerized/bin directory from remote Docker"
rm -rf "${LOCAL_OUTPUT_BINPATH}"
mkdir -p "${LOCAL_OUTPUT_BINPATH}"
kube::build::destroy_container "${KUBE_BUILD_CONTAINER_NAME}"
"${docker_cmd[@]}" bash -c "cp -r ${REMOTE_OUTPUT_BINPATH} /tmp/bin;touch /tmp/finished;rm /tmp/bin/test_for_remote;/bin/sleep 600" > /dev/null 2>&1
# Wait until binaries have finished coppying
count=0
while true;do
if "${DOCKER[@]}" cp "${KUBE_BUILD_CONTAINER_NAME}:/tmp/finished" "${LOCAL_OUTPUT_BINPATH}" > /dev/null 2>&1;then
"${DOCKER[@]}" cp "${KUBE_BUILD_CONTAINER_NAME}:/tmp/bin" "${LOCAL_OUTPUT_SUBPATH}"
break;
fi
let count=count+1
if [[ $count -eq 60 ]]; then
# break after 5m
kube::log::error "Timed out waiting for binaries..."
break
fi
sleep 5
done
"${DOCKER[@]}" rm -f -v "${KUBE_BUILD_CONTAINER_NAME}" >/dev/null 2>&1 || true
else
kube::log::status "Output directory is local. No need to copy results out."
fi
}
# ---------------------------------------------------------------------------
# Build final release artifacts
function kube::release::clean_cruft() {
# Clean out cruft
find ${RELEASE_STAGE} -name '*~' -exec rm {} \;
find ${RELEASE_STAGE} -name '#*#' -exec rm {} \;
find ${RELEASE_STAGE} -name '.DS*' -exec rm {} \;
}
function kube::release::package_hyperkube() {
# If we have these variables set then we want to build all docker images.
if [[ -n "${KUBE_DOCKER_IMAGE_TAG-}" && -n "${KUBE_DOCKER_REGISTRY-}" ]]; then
for arch in "${KUBE_SERVER_PLATFORMS[@]##*/}"; do
kube::log::status "Building hyperkube image for arch: ${arch}"
REGISTRY="${KUBE_DOCKER_REGISTRY}" VERSION="${KUBE_DOCKER_IMAGE_TAG}" ARCH="${arch}" make -C cluster/images/hyperkube/ build
done
fi
}
function kube::release::package_tarballs() {
# Clean out any old releases
rm -rf "${RELEASE_DIR}"
mkdir -p "${RELEASE_DIR}"
kube::release::package_build_image_tarball &
kube::release::package_client_tarballs &
kube::release::package_server_tarballs &
kube::release::package_salt_tarball &
kube::release::package_kube_manifests_tarball &
kube::util::wait-for-jobs || { kube::log::error "previous tarball phase failed"; return 1; }
kube::release::package_full_tarball & # _full depends on all the previous phases
kube::release::package_test_tarball & # _test doesn't depend on anything
kube::util::wait-for-jobs || { kube::log::error "previous tarball phase failed"; return 1; }
}
# Package the build image we used from the previous stage, for compliance/licensing/audit/yadda.
function kube::release::package_build_image_tarball() {
kube::log::status "Building tarball: src"
"${TAR}" czf "${RELEASE_DIR}/kubernetes-src.tar.gz" -C "${LOCAL_OUTPUT_BUILD_CONTEXT}" .
}
# Package up all of the cross compiled clients. Over time this should grow into
# a full SDK
function kube::release::package_client_tarballs() {
# Find all of the built client binaries
local platform platforms
platforms=($(cd "${LOCAL_OUTPUT_BINPATH}" ; echo */*))
for platform in "${platforms[@]}"; do
local platform_tag=${platform/\//-} # Replace a "/" for a "-"
kube::log::status "Starting tarball: client $platform_tag"
(
local release_stage="${RELEASE_STAGE}/client/${platform_tag}/kubernetes"
rm -rf "${release_stage}"
mkdir -p "${release_stage}/client/bin"
local client_bins=("${KUBE_CLIENT_BINARIES[@]}")
if [[ "${platform%/*}" == "windows" ]]; then
client_bins=("${KUBE_CLIENT_BINARIES_WIN[@]}")
fi
# This fancy expression will expand to prepend a path
# (${LOCAL_OUTPUT_BINPATH}/${platform}/) to every item in the
# KUBE_CLIENT_BINARIES array.
cp "${client_bins[@]/#/${LOCAL_OUTPUT_BINPATH}/${platform}/}" \
"${release_stage}/client/bin/"
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes-client-${platform_tag}.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
) &
done
kube::log::status "Waiting on tarballs"
kube::util::wait-for-jobs || { kube::log::error "client tarball creation failed"; exit 1; }
}
# Package up all of the server binaries
function kube::release::package_server_tarballs() {
local platform
for platform in "${KUBE_SERVER_PLATFORMS[@]}"; do
local platform_tag=${platform/\//-} # Replace a "/" for a "-"
local arch=$(basename ${platform})
kube::log::status "Building tarball: server $platform_tag"
local release_stage="${RELEASE_STAGE}/server/${platform_tag}/kubernetes"
rm -rf "${release_stage}"
mkdir -p "${release_stage}/server/bin"
mkdir -p "${release_stage}/addons"
# This fancy expression will expand to prepend a path
# (${LOCAL_OUTPUT_BINPATH}/${platform}/) to every item in the
# KUBE_SERVER_BINARIES array.
cp "${KUBE_SERVER_BINARIES[@]/#/${LOCAL_OUTPUT_BINPATH}/${platform}/}" \
"${release_stage}/server/bin/"
kube::release::create_docker_images_for_server "${release_stage}/server/bin" "${arch}"
# Include the client binaries here too as they are useful debugging tools.
local client_bins=("${KUBE_CLIENT_BINARIES[@]}")
if [[ "${platform%/*}" == "windows" ]]; then
client_bins=("${KUBE_CLIENT_BINARIES_WIN[@]}")
fi
cp "${client_bins[@]/#/${LOCAL_OUTPUT_BINPATH}/${platform}/}" \
"${release_stage}/server/bin/"
cp "${KUBE_ROOT}/Godeps/LICENSES" "${release_stage}/"
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes-server-${platform_tag}.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
done
}
function kube::release::md5() {
if which md5 >/dev/null 2>&1; then
md5 -q "$1"
else
md5sum "$1" | awk '{ print $1 }'
fi
}
function kube::release::sha1() {
if which shasum >/dev/null 2>&1; then
shasum -a1 "$1" | awk '{ print $1 }'
else
sha1sum "$1" | awk '{ print $1 }'
fi
}
# This will take binaries that run on master and creates Docker images
# that wrap the binary in them. (One docker image per binary)
# Args:
# $1 - binary_dir, the directory to save the tared images to.
# $2 - arch, architecture for which we are building docker images.
function kube::release::create_docker_images_for_server() {
# Create a sub-shell so that we don't pollute the outer environment
(
local binary_dir="$1"
local arch="$2"
local binary_name
local binaries=($(kube::build::get_docker_wrapped_binaries ${arch}))
for wrappable in "${binaries[@]}"; do
local oldifs=$IFS
IFS=","
set $wrappable
IFS=$oldifs
local binary_name="$1"
local base_image="$2"
kube::log::status "Starting Docker build for image: ${binary_name}"
(
local md5_sum
md5_sum=$(kube::release::md5 "${binary_dir}/${binary_name}")
local docker_build_path="${binary_dir}/${binary_name}.dockerbuild"
local docker_file_path="${docker_build_path}/Dockerfile"
local binary_file_path="${binary_dir}/${binary_name}"
rm -rf ${docker_build_path}
mkdir -p ${docker_build_path}
ln ${binary_dir}/${binary_name} ${docker_build_path}/${binary_name}
printf " FROM ${base_image} \n ADD ${binary_name} /usr/local/bin/${binary_name}\n" > ${docker_file_path}
if [[ ${arch} == "amd64" ]]; then
# If we are building a amd64 docker image, preserve the original image name
local docker_image_tag=gcr.io/google_containers/${binary_name}:${md5_sum}
else
# If we are building a docker image for another architecture, append the arch in the image tag
local docker_image_tag=gcr.io/google_containers/${binary_name}-${arch}:${md5_sum}
fi
"${DOCKER[@]}" build -q -t "${docker_image_tag}" ${docker_build_path} >/dev/null
"${DOCKER[@]}" save ${docker_image_tag} > ${binary_dir}/${binary_name}.tar
echo $md5_sum > ${binary_dir}/${binary_name}.docker_tag
rm -rf ${docker_build_path}
# If we are building an official/alpha/beta release we want to keep docker images
# and tag them appropriately.
if [[ -n "${KUBE_DOCKER_IMAGE_TAG-}" && -n "${KUBE_DOCKER_REGISTRY-}" ]]; then
local release_docker_image_tag="${KUBE_DOCKER_REGISTRY}/${binary_name}-${arch}:${KUBE_DOCKER_IMAGE_TAG}"
kube::log::status "Tagging docker image ${docker_image_tag} as ${release_docker_image_tag}"
"${DOCKER[@]}" tag -f "${docker_image_tag}" "${release_docker_image_tag}" 2>/dev/null
fi
kube::log::status "Deleting docker image ${docker_image_tag}"
"${DOCKER[@]}" rmi ${docker_image_tag} 2>/dev/null || true
) &
done
kube::util::wait-for-jobs || { kube::log::error "previous Docker build failed"; return 1; }
kube::log::status "Docker builds done"
)
}
# Package up the salt configuration tree. This is an optional helper to getting
# a cluster up and running.
function kube::release::package_salt_tarball() {
kube::log::status "Building tarball: salt"
local release_stage="${RELEASE_STAGE}/salt/kubernetes"
rm -rf "${release_stage}"
mkdir -p "${release_stage}"
cp -R "${KUBE_ROOT}/cluster/saltbase" "${release_stage}/"
# TODO(#3579): This is a temporary hack. It gathers up the yaml,
# yaml.in, json files in cluster/addons (minus any demos) and overlays
# them into kube-addons, where we expect them. (This pipeline is a
# fancy copy, stripping anything but the files we don't want.)
local objects
objects=$(cd "${KUBE_ROOT}/cluster/addons" && find . \( -name \*.yaml -or -name \*.yaml.in -or -name \*.json \) | grep -v demo)
tar c -C "${KUBE_ROOT}/cluster/addons" ${objects} | tar x -C "${release_stage}/saltbase/salt/kube-addons"
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes-salt.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
}
# This will pack kube-system manifests files for distros without using salt
# such as GCI and Ubuntu Trusty. We directly copy manifests from
# cluster/addons and cluster/saltbase/salt. The script of cluster initialization
# will remove the salt configuration and evaluate the variables in the manifests.
function kube::release::package_kube_manifests_tarball() {
kube::log::status "Building tarball: manifests"
local release_stage="${RELEASE_STAGE}/manifests/kubernetes"
rm -rf "${release_stage}"
local dst_dir="${release_stage}/gci-trusty"
mkdir -p "${dst_dir}"
local salt_dir="${KUBE_ROOT}/cluster/saltbase/salt"
cp "${salt_dir}/cluster-autoscaler/cluster-autoscaler.manifest" "${dst_dir}/"
cp "${salt_dir}/fluentd-es/fluentd-es.yaml" "${release_stage}/"
cp "${salt_dir}/fluentd-gcp/fluentd-gcp.yaml" "${release_stage}/"
cp "${salt_dir}/kube-registry-proxy/kube-registry-proxy.yaml" "${release_stage}/"
cp "${salt_dir}/kube-proxy/kube-proxy.manifest" "${release_stage}/"
cp "${salt_dir}/etcd/etcd.manifest" "${dst_dir}"
cp "${salt_dir}/kube-scheduler/kube-scheduler.manifest" "${dst_dir}"
cp "${salt_dir}/kube-apiserver/kube-apiserver.manifest" "${dst_dir}"
cp "${salt_dir}/kube-apiserver/abac-authz-policy.jsonl" "${dst_dir}"
cp "${salt_dir}/kube-controller-manager/kube-controller-manager.manifest" "${dst_dir}"
cp "${salt_dir}/kube-addons/kube-addon-manager.yaml" "${dst_dir}"
cp "${salt_dir}/l7-gcp/glbc.manifest" "${dst_dir}"
cp "${KUBE_ROOT}/cluster/gce/trusty/configure-helper.sh" "${dst_dir}/trusty-configure-helper.sh"
cp "${KUBE_ROOT}/cluster/gce/gci/configure-helper.sh" "${dst_dir}/gci-configure-helper.sh"
cp "${KUBE_ROOT}/cluster/gce/gci/health-monitor.sh" "${dst_dir}/health-monitor.sh"
cp -r "${salt_dir}/kube-admission-controls/limit-range" "${dst_dir}"
local objects
objects=$(cd "${KUBE_ROOT}/cluster/addons" && find . \( -name \*.yaml -or -name \*.yaml.in -or -name \*.json \) | grep -v demo)
tar c -C "${KUBE_ROOT}/cluster/addons" ${objects} | tar x -C "${dst_dir}"
objects=$(cd "${KUBE_ROOT}/cluster/saltbase/salt/kube-dns" && find . \( -name \*.yaml -or -name \*.yaml.in -or -name \*.json \) | grep -v demo)
mkdir -p "${dst_dir}/dns"
tar c -C "${KUBE_ROOT}/cluster/saltbase/salt/kube-dns" ${objects} | tar x -C "${dst_dir}/dns"
# This is for coreos only. ContainerVM, GCI, or Trusty does not use it.
cp -r "${KUBE_ROOT}/cluster/gce/coreos/kube-manifests"/* "${release_stage}/"
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes-manifests.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
}
# This is the stuff you need to run tests from the binary distribution.
function kube::release::package_test_tarball() {
kube::log::status "Building tarball: test"
local release_stage="${RELEASE_STAGE}/test/kubernetes"
rm -rf "${release_stage}"
mkdir -p "${release_stage}"
local platform
for platform in "${KUBE_TEST_PLATFORMS[@]}"; do
local test_bins=("${KUBE_TEST_BINARIES[@]}")
if [[ "${platform%/*}" == "windows" ]]; then
test_bins=("${KUBE_TEST_BINARIES_WIN[@]}")
fi
mkdir -p "${release_stage}/platforms/${platform}"
cp "${test_bins[@]/#/${LOCAL_OUTPUT_BINPATH}/${platform}/}" \
"${release_stage}/platforms/${platform}"
done
# Add the test image files
mkdir -p "${release_stage}/test/images"
cp -fR "${KUBE_ROOT}/test/images" "${release_stage}/test/"
tar c ${KUBE_TEST_PORTABLE[@]} | tar x -C ${release_stage}
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes-test.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
}
# This is all the stuff you need to run/install kubernetes. This includes:
# - precompiled binaries for client
# - Cluster spin up/down scripts and configs for various cloud providers
# - tarballs for server binary and salt configs that are ready to be uploaded
# to master by whatever means appropriate.
function kube::release::package_full_tarball() {
kube::log::status "Building tarball: full"
local release_stage="${RELEASE_STAGE}/full/kubernetes"
rm -rf "${release_stage}"
mkdir -p "${release_stage}"
# Copy all of the client binaries in here, but not test or server binaries.
# The server binaries are included with the server binary tarball.
local platform
for platform in "${KUBE_CLIENT_PLATFORMS[@]}"; do
local client_bins=("${KUBE_CLIENT_BINARIES[@]}")
if [[ "${platform%/*}" == "windows" ]]; then
client_bins=("${KUBE_CLIENT_BINARIES_WIN[@]}")
fi
mkdir -p "${release_stage}/platforms/${platform}"
cp "${client_bins[@]/#/${LOCAL_OUTPUT_BINPATH}/${platform}/}" \
"${release_stage}/platforms/${platform}"
done
# We want everything in /cluster except saltbase. That is only needed on the
# server.
cp -R "${KUBE_ROOT}/cluster" "${release_stage}/"
rm -rf "${release_stage}/cluster/saltbase"
mkdir -p "${release_stage}/server"
cp "${RELEASE_DIR}/kubernetes-salt.tar.gz" "${release_stage}/server/"
cp "${RELEASE_DIR}"/kubernetes-server-*.tar.gz "${release_stage}/server/"
cp "${RELEASE_DIR}/kubernetes-manifests.tar.gz" "${release_stage}/server/"
mkdir -p "${release_stage}/third_party"
cp -R "${KUBE_ROOT}/third_party/htpasswd" "${release_stage}/third_party/htpasswd"
# Include only federation/cluster and federation/manifests
mkdir "${release_stage}/federation"
cp -R "${KUBE_ROOT}/federation/cluster" "${release_stage}/federation/"
cp -R "${KUBE_ROOT}/federation/manifests" "${release_stage}/federation/"
cp -R "${KUBE_ROOT}/examples" "${release_stage}/"
cp -R "${KUBE_ROOT}/docs" "${release_stage}/"
cp "${KUBE_ROOT}/README.md" "${release_stage}/"
cp "${KUBE_ROOT}/Godeps/LICENSES" "${release_stage}/"
cp "${KUBE_ROOT}/Vagrantfile" "${release_stage}/"
echo "${KUBE_GIT_VERSION}" > "${release_stage}/version"
kube::release::clean_cruft
local package_name="${RELEASE_DIR}/kubernetes.tar.gz"
kube::release::create_tarball "${package_name}" "${release_stage}/.."
}
# Build a release tarball. $1 is the output tar name. $2 is the base directory
# of the files to be packaged. This assumes that ${2}/kubernetes is what is
# being packaged.
function kube::release::create_tarball() {
kube::build::ensure_tar
local tarfile=$1
local stagingdir=$2
"${TAR}" czf "${tarfile}" -C "${stagingdir}" kubernetes --owner=0 --group=0
}
# ---------------------------------------------------------------------------
# GCS Release
function kube::release::gcs::release() {
[[ ${KUBE_GCS_UPLOAD_RELEASE} =~ ^[yY]$ ]] || return 0
kube::release::gcs::verify_prereqs || return 1
kube::release::gcs::ensure_release_bucket || return 1
kube::release::gcs::copy_release_artifacts || return 1
}
# Verify things are set up for uploading to GCS
function kube::release::gcs::verify_prereqs() {
if [[ -z "$(which gsutil)" || -z "$(which gcloud)" ]]; then
echo "Releasing Kubernetes requires gsutil and gcloud. Please download,"
echo "install and authorize through the Google Cloud SDK: "
echo
echo " https://developers.google.com/cloud/sdk/"
return 1
fi
if [[ -z "${GCLOUD_ACCOUNT-}" ]]; then
GCLOUD_ACCOUNT=$(gcloud auth list 2>/dev/null | awk '/(active)/ { print $2 }')
fi
if [[ -z "${GCLOUD_ACCOUNT-}" ]]; then
echo "No account authorized through gcloud. Please fix with:"
echo
echo " gcloud auth login"
return 1
fi
if [[ -z "${GCLOUD_PROJECT-}" ]]; then
GCLOUD_PROJECT=$(gcloud config list project | awk '{project = $3} END {print project}')
fi
if [[ -z "${GCLOUD_PROJECT-}" ]]; then
echo "No account authorized through gcloud. Please fix with:"
echo
echo " gcloud config set project <project id>"
return 1
fi
}
# Create a unique bucket name for releasing Kube and make sure it exists.
function kube::release::gcs::ensure_release_bucket() {
local project_hash
project_hash=$(kube::build::short_hash "$GCLOUD_PROJECT")
KUBE_GCS_RELEASE_BUCKET=${KUBE_GCS_RELEASE_BUCKET-kubernetes-releases-${project_hash}}
if ! gsutil ls "gs://${KUBE_GCS_RELEASE_BUCKET}" >/dev/null 2>&1 ; then
echo "Creating Google Cloud Storage bucket: $KUBE_GCS_RELEASE_BUCKET"
gsutil mb -p "${GCLOUD_PROJECT}" "gs://${KUBE_GCS_RELEASE_BUCKET}" || return 1
fi
}
function kube::release::gcs::stage_and_hash() {
kube::build::ensure_tar || return 1
# Split the args into srcs... and dst
local -r args=( "$@" )
local -r split=$((${#args[@]}-1)) # Split point for src/dst args
local -r srcs=( "${args[@]::${split}}" )
local -r dst="${args[${split}]}"
for src in ${srcs[@]}; do
srcdir=$(dirname ${src})
srcthing=$(basename ${src})
mkdir -p ${GCS_STAGE}/${dst} || return 1
"${TAR}" c -C ${srcdir} ${srcthing} | "${TAR}" x -C ${GCS_STAGE}/${dst} || return 1
done
}
function kube::release::gcs::copy_release_artifacts() {
# TODO: This isn't atomic. There will be points in time where there will be
# no active release. Also, if something fails, the release could be half-
# copied. The real way to do this would perhaps to have some sort of release
# version so that we are never overwriting a destination.
local -r gcs_destination="gs://${KUBE_GCS_RELEASE_BUCKET}/${KUBE_GCS_RELEASE_PREFIX}"
kube::log::status "Staging release artifacts to ${GCS_STAGE}"
rm -rf ${GCS_STAGE} || return 1
mkdir -p ${GCS_STAGE} || return 1
# Stage everything in release directory
kube::release::gcs::stage_and_hash "${RELEASE_DIR}"/* . || return 1
# Having the configure-vm.sh script and GCI code from the GCE cluster
# deploy hosted with the release is useful for GKE.
kube::release::gcs::stage_and_hash "${RELEASE_STAGE}/full/kubernetes/cluster/gce/configure-vm.sh" extra/gce || return 1
kube::release::gcs::stage_and_hash "${RELEASE_STAGE}/full/kubernetes/cluster/gce/gci/node.yaml" extra/gce || return 1
kube::release::gcs::stage_and_hash "${RELEASE_STAGE}/full/kubernetes/cluster/gce/gci/master.yaml" extra/gce || return 1
kube::release::gcs::stage_and_hash "${RELEASE_STAGE}/full/kubernetes/cluster/gce/gci/configure.sh" extra/gce || return 1
# Upload the "naked" binaries to GCS. This is useful for install scripts that
# download the binaries directly and don't need tars.
local platform platforms
platforms=($(cd "${RELEASE_STAGE}/client" ; echo *))
for platform in "${platforms[@]}"; do
local src="${RELEASE_STAGE}/client/${platform}/kubernetes/client/bin/*"
local dst="bin/${platform/-//}/"
# We assume here the "server package" is a superset of the "client package"
if [[ -d "${RELEASE_STAGE}/server/${platform}" ]]; then
src="${RELEASE_STAGE}/server/${platform}/kubernetes/server/bin/*"
fi
kube::release::gcs::stage_and_hash "$src" "$dst" || return 1
done
kube::log::status "Hashing files in ${GCS_STAGE}"
find ${GCS_STAGE} -type f | while read path; do
kube::release::md5 ${path} > "${path}.md5" || return 1
kube::release::sha1 ${path} > "${path}.sha1" || return 1
done
kube::log::status "Copying release artifacts to ${gcs_destination}"
# First delete all objects at the destination
if gsutil ls "${gcs_destination}" >/dev/null 2>&1; then
kube::log::error "${gcs_destination} not empty."
[[ ${KUBE_GCS_DELETE_EXISTING} =~ ^[yY]$ ]] || {
read -p "Delete everything under ${gcs_destination}? [y/n] " -r || {
kube::log::status "EOF on prompt. Skipping upload"
return
}
[[ $REPLY =~ ^[yY]$ ]] || {
kube::log::status "Skipping upload"
return
}
}
kube::log::status "Deleting everything under ${gcs_destination}"
gsutil -q -m rm -f -R "${gcs_destination}" || return 1
fi
local gcs_options=()
if [[ ${KUBE_GCS_NO_CACHING} =~ ^[yY]$ ]]; then
gcs_options=("-h" "Cache-Control:private, max-age=0")
fi
gsutil -q -m "${gcs_options[@]+${gcs_options[@]}}" cp -r "${GCS_STAGE}"/* ${gcs_destination} || return 1
# TODO(jbeda): Generate an HTML page with links for this release so it is easy
# to see it. For extra credit, generate a dynamic page that builds up the
# release list using the GCS JSON API. Use Angular and Bootstrap for extra
# extra credit.
if [[ ${KUBE_GCS_MAKE_PUBLIC} =~ ^[yY]$ ]]; then
kube::log::status "Marking all uploaded objects public"
gsutil -q -m acl ch -R -g all:R "${gcs_destination}" >/dev/null 2>&1 || return 1
fi
gsutil ls -lhr "${gcs_destination}" || return 1
}
# Publish a new ci version, (latest,) but only if the release files actually
# exist on GCS.
#
# Globals:
# See callees
# Arguments:
# None
# Returns:
# Success
function kube::release::gcs::publish_ci() {
kube::release::gcs::verify_release_files || return 1
kube::release::parse_and_validate_ci_version "${KUBE_GCS_PUBLISH_VERSION}" || return 1
local -r version_major="${VERSION_MAJOR}"
local -r version_minor="${VERSION_MINOR}"
local -r publish_files=(ci/latest.txt ci/latest-${version_major}.txt ci/latest-${version_major}.${version_minor}.txt)
for publish_file in ${publish_files[*]}; do
# If there's a version that's above the one we're trying to release, don't
# do anything, and just try the next one.
kube::release::gcs::verify_ci_ge "${publish_file}" || continue
kube::release::gcs::publish "${publish_file}" || return 1
done
}
# Publish a new official version, (latest or stable,) but only if the release
# files actually exist on GCS and the release we're dealing with is newer than
# the contents in GCS.
#
# Globals:
# KUBE_GCS_PUBLISH_VERSION
# See callees
# Arguments:
# release_kind: either 'latest' or 'stable'
# Returns:
# Success
function kube::release::gcs::publish_official() {
local -r release_kind="${1-}"
kube::release::gcs::verify_release_files || return 1
kube::release::parse_and_validate_release_version "${KUBE_GCS_PUBLISH_VERSION}" || return 1
local -r version_major="${VERSION_MAJOR}"
local -r version_minor="${VERSION_MINOR}"
local publish_files
if [[ "${release_kind}" == 'latest' ]]; then
publish_files=(release/latest.txt release/latest-${version_major}.txt release/latest-${version_major}.${version_minor}.txt)
elif [[ "${release_kind}" == 'stable' ]]; then
publish_files=(release/stable.txt release/stable-${version_major}.txt release/stable-${version_major}.${version_minor}.txt)
else
kube::log::error "Wrong release_kind: must be 'latest' or 'stable'."
return 1
fi
for publish_file in ${publish_files[*]}; do
# If there's a version that's above the one we're trying to release, don't
# do anything, and just try the next one.
kube::release::gcs::verify_release_gt "${publish_file}" || continue
kube::release::gcs::publish "${publish_file}" || return 1
done
}
# Verify that the release files we expect actually exist.
#
# Globals:
# KUBE_GCS_RELEASE_BUCKET
# KUBE_GCS_RELEASE_PREFIX
# Arguments:
# None
# Returns:
# If release files exist
function kube::release::gcs::verify_release_files() {
local -r release_dir="gs://${KUBE_GCS_RELEASE_BUCKET}/${KUBE_GCS_RELEASE_PREFIX}"
if ! gsutil ls "${release_dir}" >/dev/null 2>&1 ; then
kube::log::error "Release files don't exist at '${release_dir}'"
return 1
fi
}
# Check if the new version is greater than the version currently published on
# GCS.
#
# Globals:
# KUBE_GCS_PUBLISH_VERSION
# KUBE_GCS_RELEASE_BUCKET
# Arguments:
# publish_file: the GCS location to look in
# Returns:
# If new version is greater than the GCS version
#
# TODO(16529): This should all be outside of build an in release, and should be
# refactored to reduce code duplication. Also consider using strictly nested
# if and explicit handling of equals case.
function kube::release::gcs::verify_release_gt() {
local -r publish_file="${1-}"
local -r new_version=${KUBE_GCS_PUBLISH_VERSION}
local -r publish_file_dst="gs://${KUBE_GCS_RELEASE_BUCKET}/${publish_file}"
kube::release::parse_and_validate_release_version "${new_version}" || return 1
local -r version_major="${VERSION_MAJOR}"
local -r version_minor="${VERSION_MINOR}"
local -r version_patch="${VERSION_PATCH}"
local -r version_prerelease="${VERSION_PRERELEASE}"
local -r version_prerelease_rev="${VERSION_PRERELEASE_REV}"
local gcs_version
if gcs_version="$(gsutil cat "${publish_file_dst}")"; then
kube::release::parse_and_validate_release_version "${gcs_version}" || {
kube::log::error "${publish_file_dst} contains invalid release version, can't compare: '${gcs_version}'"
return 1
}
local -r gcs_version_major="${VERSION_MAJOR}"
local -r gcs_version_minor="${VERSION_MINOR}"
local -r gcs_version_patch="${VERSION_PATCH}"
local -r gcs_version_prerelease="${VERSION_PRERELEASE}"
local -r gcs_version_prerelease_rev="${VERSION_PRERELEASE_REV}"
local greater=true
if [[ "${version_major}" -lt "${gcs_version_major}" ]]; then
greater=false
elif [[ "${version_major}" -gt "${gcs_version_major}" ]]; then
: # fall out
elif [[ "${version_minor}" -lt "${gcs_version_minor}" ]]; then
greater=false
elif [[ "${version_minor}" -gt "${gcs_version_minor}" ]]; then
: # fall out
elif [[ "${version_patch}" -lt "${gcs_version_patch}" ]]; then
greater=false
elif [[ "${version_patch}" -gt "${gcs_version_patch}" ]]; then
: # fall out
# Use lexicographic (instead of integer) comparison because
# version_prerelease is a string, ("alpha" or "beta",) but first check if
# either is an official release (i.e. empty prerelease string).
#
# We have to do this because lexicographically "beta" > "alpha" > "", but
# we want official > beta > alpha.
elif [[ -n "${version_prerelease}" && -z "${gcs_version_prerelease}" ]]; then
greater=false
elif [[ -z "${version_prerelease}" && -n "${gcs_version_prerelease}" ]]; then
: # fall out
elif [[ "${version_prerelease}" < "${gcs_version_prerelease}" ]]; then
greater=false
elif [[ "${version_prerelease}" > "${gcs_version_prerelease}" ]]; then
: # fall out
# Finally resort to -le here, since we want strictly-greater-than.
elif [[ "${version_prerelease_rev}" -le "${gcs_version_prerelease_rev}" ]]; then
greater=false
fi
if [[ "${greater}" != "true" ]]; then
kube::log::status "${new_version} (just uploaded) <= ${gcs_version} (latest on GCS), not updating ${publish_file_dst}"
return 1
else
kube::log::status "${new_version} (just uploaded) > ${gcs_version} (latest on GCS), updating ${publish_file_dst}"
fi
else # gsutil cat failed; file does not exist
kube::log::error "Release file '${publish_file_dst}' does not exist. Continuing."
return 0
fi
}
# Check if the new version is greater than or equal to the version currently
# published on GCS. (Ignore the build; if it's different, overwrite anyway.)
#
# Globals:
# KUBE_GCS_PUBLISH_VERSION
# KUBE_GCS_RELEASE_BUCKET
# Arguments:
# publish_file: the GCS location to look in
# Returns:
# If new version is greater than the GCS version
#
# TODO(16529): This should all be outside of build an in release, and should be
# refactored to reduce code duplication. Also consider using strictly nested
# if and explicit handling of equals case.
function kube::release::gcs::verify_ci_ge() {
local -r publish_file="${1-}"
local -r new_version=${KUBE_GCS_PUBLISH_VERSION}
local -r publish_file_dst="gs://${KUBE_GCS_RELEASE_BUCKET}/${publish_file}"
kube::release::parse_and_validate_ci_version "${new_version}" || return 1
local -r version_major="${VERSION_MAJOR}"
local -r version_minor="${VERSION_MINOR}"
local -r version_patch="${VERSION_PATCH}"
local -r version_prerelease="${VERSION_PRERELEASE}"
local -r version_prerelease_rev="${VERSION_PRERELEASE_REV}"
local -r version_commits="${VERSION_COMMITS}"
local gcs_version
if gcs_version="$(gsutil cat "${publish_file_dst}")"; then
kube::release::parse_and_validate_ci_version "${gcs_version}" || {
kube::log::error "${publish_file_dst} contains invalid ci version, can't compare: '${gcs_version}'"
return 1
}
local -r gcs_version_major="${VERSION_MAJOR}"
local -r gcs_version_minor="${VERSION_MINOR}"
local -r gcs_version_patch="${VERSION_PATCH}"
local -r gcs_version_prerelease="${VERSION_PRERELEASE}"
local -r gcs_version_prerelease_rev="${VERSION_PRERELEASE_REV}"
local -r gcs_version_commits="${VERSION_COMMITS}"
local greater=true
if [[ "${version_major}" -lt "${gcs_version_major}" ]]; then
greater=false
elif [[ "${version_major}" -gt "${gcs_version_major}" ]]; then
: # fall out
elif [[ "${version_minor}" -lt "${gcs_version_minor}" ]]; then
greater=false
elif [[ "${version_minor}" -gt "${gcs_version_minor}" ]]; then
: # fall out
elif [[ "${version_patch}" -lt "${gcs_version_patch}" ]]; then
greater=false
elif [[ "${version_patch}" -gt "${gcs_version_patch}" ]]; then
: # fall out
# Use lexicographic (instead of integer) comparison because
# version_prerelease is a string, ("alpha" or "beta")
elif [[ "${version_prerelease}" < "${gcs_version_prerelease}" ]]; then
greater=false
elif [[ "${version_prerelease}" > "${gcs_version_prerelease}" ]]; then
: # fall out
elif [[ "${version_prerelease_rev}" -lt "${gcs_version_prerelease_rev}" ]]; then
greater=false
elif [[ "${version_prerelease_rev}" -gt "${gcs_version_prerelease_rev}" ]]; then
: # fall out
# If either version_commits is empty, it will be considered less-than, as
# expected, (e.g. 1.2.3-beta < 1.2.3-beta.1).
elif [[ "${version_commits}" -lt "${gcs_version_commits}" ]]; then
greater=false
fi
if [[ "${greater}" != "true" ]]; then
kube::log::status "${new_version} (just uploaded) < ${gcs_version} (latest on GCS), not updating ${publish_file_dst}"
return 1
else
kube::log::status "${new_version} (just uploaded) >= ${gcs_version} (latest on GCS), updating ${publish_file_dst}"
fi
else # gsutil cat failed; file does not exist
kube::log::error "File '${publish_file_dst}' does not exist. Continuing."
return 0
fi
}
# Publish a release to GCS: upload a version file, if KUBE_GCS_MAKE_PUBLIC,
# make it public, and verify the result.
#
# Globals:
# KUBE_GCS_RELEASE_BUCKET
# RELEASE_STAGE
# KUBE_GCS_PUBLISH_VERSION
# KUBE_GCS_MAKE_PUBLIC
# Arguments:
# publish_file: the GCS location to look in
# Returns:
# If new version is greater than the GCS version
function kube::release::gcs::publish() {
local -r publish_file="${1-}"
local -r publish_file_dst="gs://${KUBE_GCS_RELEASE_BUCKET}/${publish_file}"
mkdir -p "${RELEASE_STAGE}/upload" || return 1
echo "${KUBE_GCS_PUBLISH_VERSION}" > "${RELEASE_STAGE}/upload/latest" || return 1
gsutil -m cp "${RELEASE_STAGE}/upload/latest" "${publish_file_dst}" || return 1
local contents
if [[ ${KUBE_GCS_MAKE_PUBLIC} =~ ^[yY]$ ]]; then
kube::log::status "Making uploaded version file public and non-cacheable."
gsutil acl ch -R -g all:R "${publish_file_dst}" >/dev/null 2>&1 || return 1
gsutil setmeta -h "Cache-Control:private, max-age=0" "${publish_file_dst}" >/dev/null 2>&1 || return 1
# If public, validate public link
local -r public_link="https://storage.googleapis.com/${KUBE_GCS_RELEASE_BUCKET}/${publish_file}"
kube::log::status "Validating uploaded version file at ${public_link}"
contents="$(curl -s "${public_link}")"
else
# If not public, validate using gsutil
kube::log::status "Validating uploaded version file at ${publish_file_dst}"
contents="$(gsutil cat "${publish_file_dst}")"
fi
if [[ "${contents}" == "${KUBE_GCS_PUBLISH_VERSION}" ]]; then
kube::log::status "Contents as expected: ${contents}"
else
kube::log::error "Expected contents of file to be ${KUBE_GCS_PUBLISH_VERSION}, but got ${contents}"
return 1
fi
}
# ---------------------------------------------------------------------------
# Docker Release
# Releases all docker images to a docker registry specified by KUBE_DOCKER_REGISTRY
# using tag KUBE_DOCKER_IMAGE_TAG.
#
# Globals:
# KUBE_DOCKER_REGISTRY
# KUBE_DOCKER_IMAGE_TAG
# KUBE_SERVER_PLATFORMS
# Returns:
# If new pushing docker images was successful.
function kube::release::docker::release() {
local binaries=(
"kube-apiserver"
"kube-controller-manager"
"kube-scheduler"
"kube-proxy"
"hyperkube"
)
local docker_push_cmd=("${DOCKER[@]}")
if [[ "${KUBE_DOCKER_REGISTRY}" == "gcr.io/"* ]]; then
docker_push_cmd=("gcloud" "docker")
fi
if [[ "${KUBE_DOCKER_REGISTRY}" == "gcr.io/google_containers" ]]; then
# Activate credentials for the k8s.production.user@gmail.com
gcloud config set account k8s.production.user@gmail.com
fi
for arch in "${KUBE_SERVER_PLATFORMS[@]##*/}"; do
for binary in "${binaries[@]}"; do
local docker_target="${KUBE_DOCKER_REGISTRY}/${binary}-${arch}:${KUBE_DOCKER_IMAGE_TAG}"
kube::log::status "Pushing ${binary} to ${docker_target}"
"${docker_push_cmd[@]}" push "${docker_target}"
# If we have a amd64 docker image. Tag it without -amd64 also and push it for compatibility with earlier versions
if [[ ${arch} == "amd64" ]]; then
local legacy_docker_target="${KUBE_DOCKER_REGISTRY}/${binary}:${KUBE_DOCKER_IMAGE_TAG}"
"${DOCKER[@]}" tag -f "${docker_target}" "${legacy_docker_target}" 2>/dev/null
kube::log::status "Pushing ${binary} to ${legacy_docker_target}"
"${docker_push_cmd[@]}" push "${legacy_docker_target}"
fi
done
done
if [[ "${KUBE_DOCKER_REGISTRY}" == "gcr.io/google_containers" ]]; then
# Activate default account
gcloud config set account ${USER}@google.com
fi
}
function kube::release::gcloud_account_is_active() {
local -r account="${1-}"
if [[ -n $(gcloud auth list --filter-account $account 2>/dev/null | grep "active") ]]; then
return 0
else
return 1
fi
}
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