#!/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. # Common utilities, variables and checks for all build scripts. set -o errexit set -o nounset set -o pipefail USER_ID=$(id -u) GROUP_ID=$(id -g) DOCKER_OPTS=${DOCKER_OPTS:-""} 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-cpu-count -1"} # This will canonicalize the path KUBE_ROOT=$(cd $(dirname "${BASH_SOURCE}")/.. && pwd -P) source "${KUBE_ROOT}/hack/lib/init.sh" # Constants readonly KUBE_BUILD_IMAGE_REPO=kube-build readonly KUBE_BUILD_IMAGE_CROSS_TAG="$(cat ${KUBE_ROOT}/build/build-image/cross/VERSION)" # This version number is used to cause everyone to rebuild their data containers # and build image. This is especially useful for automated build systems like # Jenkins. # # Increment/change this number if you change the build image (anything under # build/build-image) or change the set of volumes in the data container. readonly KUBE_BUILD_IMAGE_VERSION_BASE="$(cat ${KUBE_ROOT}/build/build-image/VERSION)" readonly KUBE_BUILD_IMAGE_VERSION="${KUBE_BUILD_IMAGE_VERSION_BASE}-${KUBE_BUILD_IMAGE_CROSS_TAG}" # Here we map the output directories across both the local and remote _output # directories: # # *_OUTPUT_ROOT - the base of all output in that environment. # *_OUTPUT_SUBPATH - location where golang stuff is built/cached. Also # persisted across docker runs with a volume mount. # *_OUTPUT_BINPATH - location where final binaries are placed. If the remote # is really remote, this is the stuff that has to be copied # back. # OUT_DIR can come in from the Makefile, so honor it. readonly LOCAL_OUTPUT_ROOT="${KUBE_ROOT}/${OUT_DIR:-_output}" readonly LOCAL_OUTPUT_SUBPATH="${LOCAL_OUTPUT_ROOT}/dockerized" readonly LOCAL_OUTPUT_BINPATH="${LOCAL_OUTPUT_SUBPATH}/bin" readonly LOCAL_OUTPUT_GOPATH="${LOCAL_OUTPUT_SUBPATH}/go" readonly LOCAL_OUTPUT_IMAGE_STAGING="${LOCAL_OUTPUT_ROOT}/images" # This is a symlink to binaries for "this platform" (e.g. build tools). readonly THIS_PLATFORM_BIN="${LOCAL_OUTPUT_ROOT}/bin" readonly REMOTE_ROOT="/go/src/${KUBE_GO_PACKAGE}" readonly REMOTE_OUTPUT_ROOT="${REMOTE_ROOT}/_output" readonly REMOTE_OUTPUT_SUBPATH="${REMOTE_OUTPUT_ROOT}/dockerized" readonly REMOTE_OUTPUT_BINPATH="${REMOTE_OUTPUT_SUBPATH}/bin" readonly REMOTE_OUTPUT_GOPATH="${REMOTE_OUTPUT_SUBPATH}/go" # This is the port on the workstation host to expose RSYNC on. Set this if you # are doing something fancy with ssh tunneling. readonly KUBE_RSYNC_PORT="${KUBE_RSYNC_PORT:-}" # This is the port that rsync is running on *inside* the container. This may be # mapped to KUBE_RSYNC_PORT via docker networking. readonly KUBE_CONTAINER_RSYNC_PORT=8730 # Get the set of master binaries that run in Docker (on Linux) # Entry format is ",". # Binaries are placed in /usr/local/bin inside the image. # # $1 - server architecture kube::build::get_docker_wrapped_binaries() { debian_iptables_version=v8 ### If you change any of these lists, please also update DOCKERIZED_BINARIES ### in build/BUILD. case $1 in "amd64") local targets=( cloud-controller-manager,busybox kube-apiserver,busybox kube-controller-manager,busybox kube-scheduler,busybox kube-aggregator,busybox kube-proxy,gcr.io/google-containers/debian-iptables-amd64:${debian_iptables_version} );; "arm") local targets=( cloud-controller-manager,arm32v7/busybox kube-apiserver,arm32v7/busybox kube-controller-manager,arm32v7/busybox kube-scheduler,arm32v7/busybox kube-aggregator,arm32v7/busybox kube-proxy,gcr.io/google-containers/debian-iptables-arm:${debian_iptables_version} );; "arm64") local targets=( cloud-controller-manager,arm64v8/busybox kube-apiserver,arm64v8/busybox kube-controller-manager,arm64v8/busybox kube-scheduler,arm64v8/busybox kube-aggregator,arm64v8/busybox kube-proxy,gcr.io/google-containers/debian-iptables-arm64:${debian_iptables_version} );; "ppc64le") local targets=( cloud-controller-manager,ppc64le/busybox kube-apiserver,ppc64le/busybox kube-controller-manager,ppc64le/busybox kube-scheduler,ppc64le/busybox kube-aggregator,ppc64le/busybox kube-proxy,gcr.io/google-containers/debian-iptables-ppc64le:${debian_iptables_version} );; "s390x") local targets=( cloud-controller-manager,s390x/busybox kube-apiserver,s390x/busybox kube-controller-manager,s390x/busybox kube-scheduler,s390x/busybox kube-aggregator,s390x/busybox kube-proxy,gcr.io/google-containers/debian-iptables-s390x:${debian_iptables_version} );; esac echo "${targets[@]}" } # --------------------------------------------------------------------------- # Basic setup functions # Verify that the right utilities and such are installed for building Kube. Set # up some dynamic constants. # Args: # $1 - boolean of whether to require functioning docker (default true) # # Vars set: # KUBE_ROOT_HASH # KUBE_BUILD_IMAGE_TAG_BASE # KUBE_BUILD_IMAGE_TAG # KUBE_BUILD_IMAGE # KUBE_BUILD_CONTAINER_NAME_BASE # KUBE_BUILD_CONTAINER_NAME # KUBE_DATA_CONTAINER_NAME_BASE # KUBE_DATA_CONTAINER_NAME # KUBE_RSYNC_CONTAINER_NAME_BASE # KUBE_RSYNC_CONTAINER_NAME # DOCKER_MOUNT_ARGS # LOCAL_OUTPUT_BUILD_CONTEXT function kube::build::verify_prereqs() { local -r require_docker=${1:-true} kube::log::status "Verifying Prerequisites...." kube::build::ensure_tar || return 1 kube::build::ensure_rsync || return 1 if ${require_docker}; then kube::build::ensure_docker_in_path || return 1 if kube::build::is_osx; then kube::build::docker_available_on_osx || return 1 fi kube::util::ensure_docker_daemon_connectivity || return 1 if (( ${KUBE_VERBOSE} > 6 )); then kube::log::status "Docker Version:" "${DOCKER[@]}" version | kube::log::info_from_stdin fi fi KUBE_GIT_BRANCH=$(git symbolic-ref --short -q HEAD 2>/dev/null || true) KUBE_ROOT_HASH=$(kube::build::short_hash "${HOSTNAME:-}:${KUBE_ROOT}:${KUBE_GIT_BRANCH}") KUBE_BUILD_IMAGE_TAG_BASE="build-${KUBE_ROOT_HASH}" KUBE_BUILD_IMAGE_TAG="${KUBE_BUILD_IMAGE_TAG_BASE}-${KUBE_BUILD_IMAGE_VERSION}" KUBE_BUILD_IMAGE="${KUBE_BUILD_IMAGE_REPO}:${KUBE_BUILD_IMAGE_TAG}" KUBE_BUILD_CONTAINER_NAME_BASE="kube-build-${KUBE_ROOT_HASH}" KUBE_BUILD_CONTAINER_NAME="${KUBE_BUILD_CONTAINER_NAME_BASE}-${KUBE_BUILD_IMAGE_VERSION}" KUBE_RSYNC_CONTAINER_NAME_BASE="kube-rsync-${KUBE_ROOT_HASH}" KUBE_RSYNC_CONTAINER_NAME="${KUBE_RSYNC_CONTAINER_NAME_BASE}-${KUBE_BUILD_IMAGE_VERSION}" KUBE_DATA_CONTAINER_NAME_BASE="kube-build-data-${KUBE_ROOT_HASH}" KUBE_DATA_CONTAINER_NAME="${KUBE_DATA_CONTAINER_NAME_BASE}-${KUBE_BUILD_IMAGE_VERSION}" DOCKER_MOUNT_ARGS=(--volumes-from "${KUBE_DATA_CONTAINER_NAME}") LOCAL_OUTPUT_BUILD_CONTEXT="${LOCAL_OUTPUT_IMAGE_STAGING}/${KUBE_BUILD_IMAGE}" kube::version::get_version_vars kube::version::save_version_vars "${KUBE_ROOT}/.dockerized-kube-version-defs" } # --------------------------------------------------------------------------- # Utility functions function kube::build::docker_available_on_osx() { if [[ -z "${DOCKER_HOST}" ]]; then if [[ -S "/var/run/docker.sock" ]]; then kube::log::status "Using Docker for MacOS" return 0 fi kube::log::status "No docker host is set. Checking options for setting one..." if [[ -z "$(which docker-machine)" ]]; then kube::log::status "It looks like you're running Mac OS X, yet neither Docker for Mac nor docker-machine can be found." kube::log::status "See: https://docs.docker.com/engine/installation/mac/ for installation instructions." return 1 elif [[ -n "$(which docker-machine)" ]]; then kube::build::prepare_docker_machine fi fi } function kube::build::prepare_docker_machine() { kube::log::status "docker-machine was found." local available_memory_bytes=$(sysctl -n hw.memsize 2>/dev/null) local bytes_in_mb=1048576 # Give virtualbox 1/2 the system memory. Its necessary to divide by 2, instead # of multiple by .5, because bash can only multiply by ints. local memory_divisor=2 local virtualbox_memory_mb=$(( ${available_memory_bytes} / (${bytes_in_mb} * ${memory_divisor}) )) docker-machine inspect "${DOCKER_MACHINE_NAME}" &> /dev/null || { kube::log::status "Creating a machine to build Kubernetes" docker-machine create --driver ${DOCKER_MACHINE_DRIVER} \ --virtualbox-memory "${virtualbox_memory_mb}" \ --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} --virtualbox-memory ${virtualbox_memory_mb} ${DOCKER_MACHINE_NAME}" return 1 } } docker-machine start "${DOCKER_MACHINE_NAME}" &> /dev/null # it takes `docker-machine env` a few seconds to work if the machine was just started local docker_machine_out while ! docker_machine_out=$(docker-machine env "${DOCKER_MACHINE_NAME}" 2>&1); do if [[ ${docker_machine_out} =~ "Error checking TLS connection" ]]; then echo ${docker_machine_out} docker-machine regenerate-certs ${DOCKER_MACHINE_NAME} else sleep 1 fi done eval $(docker-machine env "${DOCKER_MACHINE_NAME}") kube::log::status "A Docker host using docker-machine named '${DOCKER_MACHINE_NAME}' is ready to go!" return 0 } function kube::build::is_osx() { [[ "$(uname)" == "Darwin" ]] } function kube::build::is_gnu_sed() { [[ $(sed --version 2>&1) == *GNU* ]] } function kube::build::ensure_rsync() { if [[ -z "$(which rsync)" ]]; then kube::log::error "Can't find 'rsync' in PATH, please fix and retry." return 1 fi } function kube::build::update_dockerfile() { if kube::build::is_gnu_sed; then sed_opts=(-i) else sed_opts=(-i '') fi sed "${sed_opts[@]}" "s/KUBE_BUILD_IMAGE_CROSS_TAG/${KUBE_BUILD_IMAGE_CROSS_TAG}/" "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile" } function kube::build::set_proxy() { if [[ -n "${KUBERNETES_HTTPS_PROXY:-}" ]]; then echo "ENV https_proxy $KUBERNETES_HTTPS_PROXY" >> "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile" fi if [[ -n "${KUBERNETES_HTTP_PROXY:-}" ]]; then echo "ENV http_proxy $KUBERNETES_HTTP_PROXY" >> "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile" fi if [[ -n "${KUBERNETES_NO_PROXY:-}" ]]; then echo "ENV no_proxy $KUBERNETES_NO_PROXY" >> "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile" fi } function kube::build::ensure_docker_in_path() { if [[ -z "$(which docker)" ]]; then kube::log::error "Can't find 'docker' in PATH, please fix and retry." kube::log::error "See https://docs.docker.com/installation/#installation for installation instructions." return 1 fi } function kube::build::ensure_tar() { if [[ -n "${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::has_docker() { which docker &> /dev/null } function kube::build::has_ip() { ip -Version | grep 'iproute2' &> /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 } [[ $("${DOCKER[@]}" images -q "${1}:${2}") ]] } # Delete all images that match a tag prefix except for the "current" version # # $1: The image repo/name # $2: The tag base. We consider any image that matches $2* # $3: The current image not to delete if provided function kube::build::docker_delete_old_images() { # In Docker 1.12, we can replace this with # docker images "$1" --format "{{.Tag}}" for tag in $("${DOCKER[@]}" images ${1} | tail -n +2 | awk '{print $2}') ; do if [[ "${tag}" != "${2}"* ]] ; then V=3 kube::log::status "Keeping image ${1}:${tag}" continue fi if [[ -z "${3:-}" || "${tag}" != "${3}" ]] ; then V=2 kube::log::status "Deleting image ${1}:${tag}" "${DOCKER[@]}" rmi "${1}:${tag}" >/dev/null else V=3 kube::log::status "Keeping image ${1}:${tag}" fi done } # Stop and delete all containers that match a pattern # # $1: The base container prefix # $2: The current container to keep, if provided function kube::build::docker_delete_old_containers() { # In Docker 1.12 we can replace this line with # docker ps -a --format="{{.Names}}" for container in $("${DOCKER[@]}" ps -a | tail -n +2 | awk '{print $NF}') ; do if [[ "${container}" != "${1}"* ]] ; then V=3 kube::log::status "Keeping container ${container}" continue fi if [[ -z "${2:-}" || "${container}" != "${2}" ]] ; then V=2 kube::log::status "Deleting container ${container}" kube::build::destroy_container "${container}" else V=3 kube::log::status "Keeping container ${container}" fi done } # 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 if [[ $("${DOCKER[@]}" version --format '{{.Server.Version}}') = 17.06.0* ]]; then # Workaround https://github.com/moby/moby/issues/33948. # TODO: remove when 17.06.0 is not relevant anymore DOCKER_API_VERSION=v1.29 "${DOCKER[@]}" wait "$1" >/dev/null 2>&1 || true else "${DOCKER[@]}" wait "$1" >/dev/null 2>&1 || true fi "${DOCKER[@]}" rm -f -v "$1" >/dev/null 2>&1 || true } # --------------------------------------------------------------------------- # Building function kube::build::clean() { if kube::build::has_docker ; then kube::build::docker_delete_old_containers "${KUBE_BUILD_CONTAINER_NAME_BASE}" kube::build::docker_delete_old_containers "${KUBE_RSYNC_CONTAINER_NAME_BASE}" kube::build::docker_delete_old_containers "${KUBE_DATA_CONTAINER_NAME_BASE}" kube::build::docker_delete_old_images "${KUBE_BUILD_IMAGE_REPO}" "${KUBE_BUILD_IMAGE_TAG_BASE}" V=2 kube::log::status "Cleaning all untagged docker images" "${DOCKER[@]}" rmi $("${DOCKER[@]}" images -q --filter 'dangling=true') 2> /dev/null || true fi if [[ -d "${LOCAL_OUTPUT_ROOT}" ]]; then kube::log::status "Removing _output directory" rm -rf "${LOCAL_OUTPUT_ROOT}" fi } # Set up the context directory for the kube-build image and build it. function kube::build::build_image() { mkdir -p "${LOCAL_OUTPUT_BUILD_CONTEXT}" # Make sure the context directory owned by the right user for syncing sources to container. chown -R ${USER_ID}:${GROUP_ID} "${LOCAL_OUTPUT_BUILD_CONTEXT}" cp /etc/localtime "${LOCAL_OUTPUT_BUILD_CONTEXT}/" cp build/build-image/Dockerfile "${LOCAL_OUTPUT_BUILD_CONTEXT}/Dockerfile" cp build/build-image/rsyncd.sh "${LOCAL_OUTPUT_BUILD_CONTEXT}/" dd if=/dev/urandom bs=512 count=1 2>/dev/null | LC_ALL=C tr -dc 'A-Za-z0-9' | dd bs=32 count=1 2>/dev/null > "${LOCAL_OUTPUT_BUILD_CONTEXT}/rsyncd.password" chmod go= "${LOCAL_OUTPUT_BUILD_CONTEXT}/rsyncd.password" kube::build::update_dockerfile kube::build::set_proxy kube::build::docker_build "${KUBE_BUILD_IMAGE}" "${LOCAL_OUTPUT_BUILD_CONTEXT}" 'false' # Clean up old versions of everything kube::build::docker_delete_old_containers "${KUBE_BUILD_CONTAINER_NAME_BASE}" "${KUBE_BUILD_CONTAINER_NAME}" kube::build::docker_delete_old_containers "${KUBE_RSYNC_CONTAINER_NAME_BASE}" "${KUBE_RSYNC_CONTAINER_NAME}" kube::build::docker_delete_old_containers "${KUBE_DATA_CONTAINER_NAME_BASE}" "${KUBE_DATA_CONTAINER_NAME}" kube::build::docker_delete_old_images "${KUBE_BUILD_IMAGE_REPO}" "${KUBE_BUILD_IMAGE_TAG_BASE}" "${KUBE_BUILD_IMAGE_TAG}" kube::build::ensure_data_container kube::build::sync_to_container } # 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 <&2 +++ Docker build command failed for ${image} ${docker_output} To retry manually, run: ${build_cmd[*]} EOF return 1 } } function kube::build::ensure_data_container() { # If the data container exists AND exited successfully, we can use it. # Otherwise nuke it and start over. local ret=0 local code=$(docker inspect \ -f '{{.State.ExitCode}}' \ "${KUBE_DATA_CONTAINER_NAME}" 2>/dev/null || ret=$?) if [[ "${ret}" == 0 && "${code}" != 0 ]]; then kube::build::destroy_container "${KUBE_DATA_CONTAINER_NAME}" ret=1 fi if [[ "${ret}" != 0 ]]; then kube::log::status "Creating data container ${KUBE_DATA_CONTAINER_NAME}" # We have to ensure the directory exists, or else the docker run will # create it as root. mkdir -p "${LOCAL_OUTPUT_GOPATH}" # We want this to run as root to be able to chown, so non-root users can # later use the result as a data container. This run both creates the data # container and chowns the GOPATH. # # The data container creates volumes for all of the directories that store # intermediates for the Go build. This enables incremental builds across # Docker sessions. The *_cgo paths are re-compiled versions of the go std # libraries for true static building. local -ra docker_cmd=( "${DOCKER[@]}" run --volume "${REMOTE_ROOT}" # white-out the whole output dir --volume /usr/local/go/pkg/linux_386_cgo --volume /usr/local/go/pkg/linux_amd64_cgo --volume /usr/local/go/pkg/linux_arm_cgo --volume /usr/local/go/pkg/linux_arm64_cgo --volume /usr/local/go/pkg/linux_ppc64le_cgo --volume /usr/local/go/pkg/darwin_amd64_cgo --volume /usr/local/go/pkg/darwin_386_cgo --volume /usr/local/go/pkg/windows_amd64_cgo --volume /usr/local/go/pkg/windows_386_cgo --name "${KUBE_DATA_CONTAINER_NAME}" --hostname "${HOSTNAME}" "${KUBE_BUILD_IMAGE}" chown -R ${USER_ID}:${GROUP_ID} "${REMOTE_ROOT}" /usr/local/go/pkg/ ) "${docker_cmd[@]}" fi } # Run a command in the kube-build image. This assumes that the image has # already been built. function kube::build::run_build_command() { kube::log::status "Running build command..." kube::build::run_build_command_ex "${KUBE_BUILD_CONTAINER_NAME}" -- "$@" } # Run a command in the kube-build image. This assumes that the image has # already been built. # # Arguments are in the form of # -- function kube::build::run_build_command_ex() { [[ $# != 0 ]] || { echo "Invalid input - please specify a container name." >&2; return 4; } local container_name="${1}" shift local -a docker_run_opts=( "--name=${container_name}" "--user=$(id -u):$(id -g)" "--hostname=${HOSTNAME}" "${DOCKER_MOUNT_ARGS[@]}" ) local detach=false [[ $# != 0 ]] || { echo "Invalid input - please specify docker arguments followed by --." >&2; return 4; } # Everything before "--" is an arg to docker until [ -z "${1-}" ] ; do if [[ "$1" == "--" ]]; then shift break fi docker_run_opts+=("$1") if [[ "$1" == "-d" || "$1" == "--detach" ]] ; then detach=true fi shift done # Everything after "--" is the command to run [[ $# != 0 ]] || { echo "Invalid input - please specify a command to run." >&2; return 4; } local -a cmd=() until [ -z "${1-}" ] ; do cmd+=("$1") shift done docker_run_opts+=( --env "KUBE_FASTBUILD=${KUBE_FASTBUILD:-false}" --env "KUBE_BUILDER_OS=${OSTYPE:-notdetected}" --env "KUBE_VERBOSE=${KUBE_VERBOSE}" --env "GOFLAGS=${GOFLAGS:-}" --env "GOLDFLAGS=${GOLDFLAGS:-}" --env "GOGCFLAGS=${GOGCFLAGS:-}" ) # If we have stdin we can run interactive. This allows things like 'shell.sh' # to work. However, if we run this way and don't have stdin, then it ends up # running in a daemon-ish mode. So if we don't have a stdin, we explicitly # attach stderr/stdout but don't bother asking for a tty. if [[ -t 0 ]]; then docker_run_opts+=(--interactive --tty) elif [[ "${detach}" == false ]]; then docker_run_opts+=(--attach=stdout --attach=stderr) fi local -ra docker_cmd=( "${DOCKER[@]}" run "${docker_run_opts[@]}" "${KUBE_BUILD_IMAGE}") # Clean up container from any previous run kube::build::destroy_container "${container_name}" "${docker_cmd[@]}" "${cmd[@]}" if [[ "${detach}" == false ]]; then kube::build::destroy_container "${container_name}" fi } function kube::build::rsync_probe { # Wait unil rsync is up and running. local tries=20 while (( ${tries} > 0 )) ; do if rsync "rsync://k8s@${1}:${2}/" \ --password-file="${LOCAL_OUTPUT_BUILD_CONTEXT}/rsyncd.password" \ &> /dev/null ; then return 0 fi tries=$(( ${tries} - 1)) sleep 0.1 done return 1 } # Start up the rsync container in the background. This should be explicitly # stopped with kube::build::stop_rsyncd_container. # # This will set the global var KUBE_RSYNC_ADDR to the effective port that the # rsync daemon can be reached out. function kube::build::start_rsyncd_container() { IPTOOL=ifconfig if kube::build::has_ip ; then IPTOOL="ip address" fi kube::build::stop_rsyncd_container V=3 kube::log::status "Starting rsyncd container" kube::build::run_build_command_ex \ "${KUBE_RSYNC_CONTAINER_NAME}" -p 127.0.0.1:${KUBE_RSYNC_PORT}:${KUBE_CONTAINER_RSYNC_PORT} -d \ -e ALLOW_HOST="$(${IPTOOL} | grep -Eo 'inet (addr:)?([0-9]*\.){3}[0-9]*' | grep -Eo '([0-9]*\.){3}[0-9]*' | grep -v '127.0.0.1')" \ -- /rsyncd.sh >/dev/null local mapped_port if ! mapped_port=$("${DOCKER[@]}" port "${KUBE_RSYNC_CONTAINER_NAME}" ${KUBE_CONTAINER_RSYNC_PORT} 2> /dev/null | cut -d: -f 2) ; then kube::log::error "Could not get effective rsync port" return 1 fi local container_ip container_ip=$("${DOCKER[@]}" inspect --format '{{ .NetworkSettings.IPAddress }}' "${KUBE_RSYNC_CONTAINER_NAME}") # Sometimes we can reach rsync through localhost and a NAT'd port. Other # times (when we are running in another docker container on the Jenkins # machines) we have to talk directly to the container IP. There is no one # strategy that works in all cases so we test to figure out which situation we # are in. if kube::build::rsync_probe 127.0.0.1 ${mapped_port}; then KUBE_RSYNC_ADDR="127.0.0.1:${mapped_port}" return 0 elif kube::build::rsync_probe "${container_ip}" ${KUBE_CONTAINER_RSYNC_PORT}; then KUBE_RSYNC_ADDR="${container_ip}:${KUBE_CONTAINER_RSYNC_PORT}" return 0 fi kube::log::error "Could not connect to rsync container. See build/README.md for setting up remote Docker engine." return 1 } function kube::build::stop_rsyncd_container() { V=3 kube::log::status "Stopping any currently running rsyncd container" unset KUBE_RSYNC_ADDR kube::build::destroy_container "${KUBE_RSYNC_CONTAINER_NAME}" } function kube::build::rsync { local -a rsync_opts=( --archive --password-file="${LOCAL_OUTPUT_BUILD_CONTEXT}/rsyncd.password" ) if (( ${KUBE_VERBOSE} >= 6 )); then rsync_opts+=("-iv") fi if (( ${KUBE_RSYNC_COMPRESS} > 0 )); then rsync_opts+=("--compress-level=${KUBE_RSYNC_COMPRESS}") fi V=3 kube::log::status "Running rsync" rsync "${rsync_opts[@]}" "$@" } # This will launch rsyncd in a container and then sync the source tree to the # container over the local network. function kube::build::sync_to_container() { kube::log::status "Syncing sources to container" kube::build::start_rsyncd_container # rsync filters are a bit confusing. Here we are syncing everything except # output only directories and things that are not necessary like the git # directory and generated files. The '- /' filter prevents rsync # from trying to set the uid/gid/perms on the root of the sync tree. # As an exception, we need to sync generated files in staging/, because # they will not be re-generated by 'make'. Note that the 'H' filtered files # are hidden from rsync so they will be deleted in the target container if # they exist. This will allow them to be re-created in the container if # necessary. kube::build::rsync \ --delete \ --filter='H /.git/' \ --filter='- /.make/' \ --filter='- /_tmp/' \ --filter='- /_output/' \ --filter='- /' \ --filter='H zz_generated.*' \ --filter='H generated.proto' \ "${KUBE_ROOT}/" "rsync://k8s@${KUBE_RSYNC_ADDR}/k8s/" kube::build::stop_rsyncd_container } # Copy all build results back out. function kube::build::copy_output() { kube::log::status "Syncing out of container" kube::build::start_rsyncd_container local rsync_extra="" if (( ${KUBE_VERBOSE} >= 6 )); then rsync_extra="-iv" fi # The filter syntax for rsync is a little obscure. It filters on files and # directories. If you don't go in to a directory you won't find any files # there. Rules are evaluated in order. The last two rules are a little # magic. '+ */' says to go in to every directory and '- /**' says to ignore # any file or directory that isn't already specifically allowed. # # We are looking to copy out all of the built binaries along with various # generated files. kube::build::rsync \ --prune-empty-dirs \ --filter='- /_temp/' \ --filter='+ /vendor/' \ --filter='+ /Godeps/' \ --filter='+ /staging/***/Godeps/**' \ --filter='+ /_output/dockerized/bin/**' \ --filter='+ zz_generated.*' \ --filter='+ generated.proto' \ --filter='+ *.pb.go' \ --filter='+ types.go' \ --filter='+ */' \ --filter='- /**' \ "rsync://k8s@${KUBE_RSYNC_ADDR}/k8s/" "${KUBE_ROOT}" kube::build::stop_rsyncd_container }