#!/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. # A library of helper functions and constant for the local config. # Use the config file specified in $KUBE_CONFIG_FILE, or default to # config-default.sh. KUBE_ROOT=$(dirname "${BASH_SOURCE}")/../.. source "${KUBE_ROOT}/cluster/gce/${KUBE_CONFIG_FILE-"config-default.sh"}" source "${KUBE_ROOT}/cluster/common.sh" if [[ "${OS_DISTRIBUTION}" == "debian" || "${OS_DISTRIBUTION}" == "coreos" ]]; then source "${KUBE_ROOT}/cluster/gce/${OS_DISTRIBUTION}/helper.sh" else echo "Cannot operate on cluster using os distro: ${OS_DISTRIBUTION}" >&2 exit 1 fi NODE_INSTANCE_PREFIX="${INSTANCE_PREFIX}-minion" ALLOCATE_NODE_CIDRS=true KUBE_PROMPT_FOR_UPDATE=y KUBE_SKIP_UPDATE=${KUBE_SKIP_UPDATE-"n"} # VERSION_REGEX matches things like "v0.13.1" readonly KUBE_VERSION_REGEX="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)$" # CI_VERSION_REGEX matches things like "v0.14.1-341-ge0c9d9e" readonly KUBE_CI_VERSION_REGEX="^v(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)-(.*)$" function join_csv { local IFS=','; echo "$*"; } # Verify prereqs function verify-prereqs { local cmd for cmd in gcloud gsutil; do if ! which "${cmd}" >/dev/null; then local resp if [[ "${KUBE_PROMPT_FOR_UPDATE}" == "y" ]]; then echo "Can't find ${cmd} in PATH. Do you wish to install the Google Cloud SDK? [Y/n]" read resp else resp="y" fi if [[ "${resp}" != "n" && "${resp}" != "N" ]]; then curl https://sdk.cloud.google.com | bash fi if ! which "${cmd}" >/dev/null; then echo "Can't find ${cmd} in PATH, please fix and retry. The Google Cloud " echo "SDK can be downloaded from https://cloud.google.com/sdk/." exit 1 fi fi done if [[ "${KUBE_SKIP_UPDATE}" == "y" ]]; then return fi # update and install components as needed if [[ "${KUBE_PROMPT_FOR_UPDATE}" != "y" ]]; then gcloud_prompt="-q" fi local sudo_prefix="" if [ ! -w $(dirname `which gcloud`) ]; then sudo_prefix="sudo" fi ${sudo_prefix} gcloud ${gcloud_prompt:-} components update preview || true ${sudo_prefix} gcloud ${gcloud_prompt:-} components update alpha || true ${sudo_prefix} gcloud ${gcloud_prompt:-} components update || true } # Create a temp dir that'll be deleted at the end of this bash session. # # Vars set: # KUBE_TEMP function ensure-temp-dir { if [[ -z ${KUBE_TEMP-} ]]; then KUBE_TEMP=$(mktemp -d -t kubernetes.XXXXXX) trap 'rm -rf "${KUBE_TEMP}"' EXIT fi } # Verify and find the various tar files that we are going to use on the server. # # Vars set: # SERVER_BINARY_TAR # SALT_TAR function find-release-tars { SERVER_BINARY_TAR="${KUBE_ROOT}/server/kubernetes-server-linux-amd64.tar.gz" if [[ ! -f "$SERVER_BINARY_TAR" ]]; then SERVER_BINARY_TAR="${KUBE_ROOT}/_output/release-tars/kubernetes-server-linux-amd64.tar.gz" fi if [[ ! -f "$SERVER_BINARY_TAR" ]]; then echo "!!! Cannot find kubernetes-server-linux-amd64.tar.gz" exit 1 fi SALT_TAR="${KUBE_ROOT}/server/kubernetes-salt.tar.gz" if [[ ! -f "$SALT_TAR" ]]; then SALT_TAR="${KUBE_ROOT}/_output/release-tars/kubernetes-salt.tar.gz" fi if [[ ! -f "$SALT_TAR" ]]; then echo "!!! Cannot find kubernetes-salt.tar.gz" exit 1 fi } # Use the gcloud defaults to find the project. If it is already set in the # environment then go with that. # # Vars set: # PROJECT # PROJECT_REPORTED function detect-project () { if [[ -z "${PROJECT-}" ]]; then PROJECT=$(gcloud config list project | tail -n 1 | cut -f 3 -d ' ') fi if [[ -z "${PROJECT-}" ]]; then echo "Could not detect Google Cloud Platform project. Set the default project using " >&2 echo "'gcloud config set project '" >&2 exit 1 fi if [[ -z "${PROJECT_REPORTED-}" ]]; then echo "Project: ${PROJECT}" >&2 echo "Zone: ${ZONE}" >&2 PROJECT_REPORTED=true fi } function sha1sum-file() { if which shasum >/dev/null 2>&1; then shasum -a1 "$1" | awk '{ print $1 }' else sha1sum "$1" | awk '{ print $1 }' fi } function already-staged() { local -r file=$1 local -r newsum=$2 [[ -e "${file}.uploaded.sha1" ]] || return 1 local oldsum oldsum=$(cat "${file}.uploaded.sha1") [[ "${oldsum}" == "${newsum}" ]] } # Copy a release tar, if we don't already think it's staged in GCS function copy-if-not-staged() { local -r staging_path=$1 local -r gs_url=$2 local -r tar=$3 local -r hash=$4 if already-staged "${tar}" "${hash}"; then echo "+++ $(basename ${tar}) already staged ('rm ${tar}.sha1' to force)" else echo "${server_hash}" > "${tar}.sha1" gsutil -m -q -h "Cache-Control:private, max-age=0" cp "${tar}" "${tar}.sha1" "${staging_path}" gsutil -m acl ch -g all:R "${gs_url}" "${gs_url}.sha1" >/dev/null 2>&1 echo "${server_hash}" > "${tar}.uploaded.sha1" fi } # Take the local tar files and upload them to Google Storage. They will then be # downloaded by the master as part of the start up script for the master. # # Assumed vars: # PROJECT # SERVER_BINARY_TAR # SALT_TAR # Vars set: # SERVER_BINARY_TAR_URL # SALT_TAR_URL function upload-server-tars() { SERVER_BINARY_TAR_URL= SALT_TAR_URL= local project_hash if which md5 > /dev/null 2>&1; then project_hash=$(md5 -q -s "$PROJECT") else project_hash=$(echo -n "$PROJECT" | md5sum | awk '{ print $1 }') fi # This requires 1 million projects before the probability of collision is 50% # that's probably good enough for now :P project_hash=${project_hash:0:10} local -r staging_bucket="gs://kubernetes-staging-${project_hash}" # Ensure the bucket is created if ! gsutil ls "$staging_bucket" > /dev/null 2>&1 ; then echo "Creating $staging_bucket" gsutil mb "${staging_bucket}" fi local -r staging_path="${staging_bucket}/devel" local server_hash local salt_hash server_hash=$(sha1sum-file "${SERVER_BINARY_TAR}") salt_hash=$(sha1sum-file "${SALT_TAR}") echo "+++ Staging server tars to Google Storage: ${staging_path}" local server_binary_gs_url="${staging_path}/${SERVER_BINARY_TAR##*/}" local salt_gs_url="${staging_path}/${SALT_TAR##*/}" copy-if-not-staged "${staging_path}" "${server_binary_gs_url}" "${SERVER_BINARY_TAR}" "${server_hash}" copy-if-not-staged "${staging_path}" "${salt_gs_url}" "${SALT_TAR}" "${salt_hash}" # Convert from gs:// URL to an https:// URL SERVER_BINARY_TAR_URL="${server_binary_gs_url/gs:\/\//https://storage.googleapis.com/}" SALT_TAR_URL="${salt_gs_url/gs:\/\//https://storage.googleapis.com/}" } # Detect minions created in the minion group # # Assumed vars: # NODE_INSTANCE_PREFIX # Vars set: # MINION_NAMES function detect-minion-names { detect-project MINION_NAMES=($(gcloud preview --project "${PROJECT}" instance-groups \ --zone "${ZONE}" instances --group "${NODE_INSTANCE_PREFIX}-group" list \ | cut -d'/' -f11)) echo "MINION_NAMES=${MINION_NAMES[*]}" } # Waits until the number of running nodes in the instance group is equal to NUM_NODES # # Assumed vars: # NODE_INSTANCE_PREFIX # NUM_MINIONS function wait-for-minions-to-run { detect-project local running_minions=0 while [[ "${NUM_MINIONS}" != "${running_minions}" ]]; do echo -e -n "${color_yellow}Waiting for minions to run. " echo -e "${running_minions} out of ${NUM_MINIONS} running. Retrying.${color_norm}" sleep 5 running_minions=$((gcloud preview --project "${PROJECT}" instance-groups \ --zone "${ZONE}" instances --group "${NODE_INSTANCE_PREFIX}-group" list \ --running || true) | wc -l | xargs) done } # Detect the information about the minions # # Assumed vars: # ZONE # Vars set: # MINION_NAMES # KUBE_MINION_IP_ADDRESSES (array) function detect-minions () { detect-project detect-minion-names KUBE_MINION_IP_ADDRESSES=() for (( i=0; i<${#MINION_NAMES[@]}; i++)); do local minion_ip=$(gcloud compute instances describe --project "${PROJECT}" --zone "${ZONE}" \ "${MINION_NAMES[$i]}" --fields networkInterfaces[0].accessConfigs[0].natIP \ --format=text | awk '{ print $2 }') if [[ -z "${minion_ip-}" ]] ; then echo "Did not find ${MINION_NAMES[$i]}" >&2 else echo "Found ${MINION_NAMES[$i]} at ${minion_ip}" KUBE_MINION_IP_ADDRESSES+=("${minion_ip}") fi done if [[ -z "${KUBE_MINION_IP_ADDRESSES-}" ]]; then echo "Could not detect Kubernetes minion nodes. Make sure you've launched a cluster with 'kube-up.sh'" >&2 exit 1 fi } # Detect the IP for the master # # Assumed vars: # MASTER_NAME # ZONE # Vars set: # KUBE_MASTER # KUBE_MASTER_IP function detect-master () { detect-project KUBE_MASTER=${MASTER_NAME} if [[ -z "${KUBE_MASTER_IP-}" ]]; then KUBE_MASTER_IP=$(gcloud compute instances describe --project "${PROJECT}" --zone "${ZONE}" \ "${MASTER_NAME}" --fields networkInterfaces[0].accessConfigs[0].natIP \ --format=text | awk '{ print $2 }') fi if [[ -z "${KUBE_MASTER_IP-}" ]]; then echo "Could not detect Kubernetes master node. Make sure you've launched a cluster with 'kube-up.sh'" >&2 exit 1 fi echo "Using master: $KUBE_MASTER (external IP: $KUBE_MASTER_IP)" } # Ensure that we have a password created for validating to the master. Will # read from kubeconfig for the current context if available. # # Assumed vars # KUBE_ROOT # # Vars set: # KUBE_USER # KUBE_PASSWORD function get-password { get-kubeconfig-basicauth if [[ -z "${KUBE_USER}" || -z "${KUBE_PASSWORD}" ]]; then KUBE_USER=admin KUBE_PASSWORD=$(python -c 'import string,random; print "".join(random.SystemRandom().choice(string.ascii_letters + string.digits) for _ in range(16))') fi } # Ensure that we have a bearer token created for validating to the master. # Will read from kubeconfig for the current context if available. # # Assumed vars # KUBE_ROOT # # Vars set: # KUBE_BEARER_TOKEN function get-bearer-token() { get-kubeconfig-bearertoken if [[ -z "${KUBE_BEARER_TOKEN:-}" ]]; then KUBE_BEARER_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null) fi } # Wait for background jobs to finish. Exit with # an error status if any of the jobs failed. function wait-for-jobs { local fail=0 local job for job in $(jobs -p); do wait "${job}" || fail=$((fail + 1)) done if (( fail != 0 )); then echo -e "${color_red}${fail} commands failed. Exiting.${color_norm}" >&2 # Ignore failures for now. # exit 2 fi } # Robustly try to create a firewall rule. # $1: The name of firewall rule. # $2: IP ranges. # $3: Target tags for this firewall rule. function create-firewall-rule { detect-project local attempt=0 while true; do if ! gcloud compute firewall-rules create "$1" \ --project "${PROJECT}" \ --network "${NETWORK}" \ --source-ranges "$2" \ --target-tags "$3" \ --allow tcp,udp,icmp,esp,ah,sctp; then if (( attempt > 5 )); then echo -e "${color_red}Failed to create firewall rule $1 ${color_norm}" exit 2 fi echo -e "${color_yellow}Attempt $(($attempt+1)) failed to create firewall rule $1. Retrying.${color_norm}" attempt=$(($attempt+1)) else break fi done } # Robustly try to create an instance template. # $1: The name of the instance template. # $2: The scopes flag. # $3: The minion start script metadata from file. # $4: The kube-env metadata. function create-node-template { detect-project # First, ensure the template doesn't exist. # TODO(mbforbes): To make this really robust, we need to parse the output and # add retries. Just relying on a non-zero exit code doesn't # distinguish an ephemeral failed call from a "not-exists". if gcloud compute instance-templates describe "$1" &>/dev/null; then echo "Instance template ${1} already exists; continuing." >&2 return fi local attempt=0 while true; do if ! gcloud compute instance-templates create "$1" \ --project "${PROJECT}" \ --machine-type "${MINION_SIZE}" \ --boot-disk-type "${MINION_DISK_TYPE}" \ --boot-disk-size "${MINION_DISK_SIZE}" \ --image-project="${MINION_IMAGE_PROJECT}" \ --image "${MINION_IMAGE}" \ --tags "${MINION_TAG}" \ --network "${NETWORK}" \ $2 \ --can-ip-forward \ --metadata-from-file "$3","$4"; then if (( attempt > 5 )); then echo -e "${color_red}Failed to create instance template $1 ${color_norm}" >&2 exit 2 fi echo -e "${color_yellow}Attempt $(($attempt+1)) failed to create instance template $1. Retrying.${color_norm}" >&2 attempt=$(($attempt+1)) else break fi done } # Robustly try to add metadata on an instance. # $1: The name of the instace. # $2...$n: The metadata key=value pairs to add. function add-instance-metadata { local -r instance=$1 shift 1 local -r kvs=( "$@" ) detect-project local attempt=0 while true; do if ! gcloud compute instances add-metadata "${instance}" \ --project "${PROJECT}" \ --zone "${ZONE}" \ --metadata "${kvs[@]}"; then if (( attempt > 5 )); then echo -e "${color_red}Failed to add instance metadata in ${instance} ${color_norm}" exit 2 fi echo -e "${color_yellow}Attempt $(($attempt+1)) failed to add metadata in ${instance}. Retrying.${color_norm}" attempt=$(($attempt+1)) else break fi done } # Robustly try to add metadata on an instance, from a file. # $1: The name of the instance. # $2...$n: The metadata key=file pairs to add. function add-instance-metadata-from-file { local -r instance=$1 shift 1 local -r kvs=( "$@" ) detect-project local attempt=0 while true; do echo "${kvs[@]}" if ! gcloud compute instances add-metadata "${instance}" \ --project "${PROJECT}" \ --zone "${ZONE}" \ --metadata-from-file "$(join_csv ${kvs[@]})"; then if (( attempt > 5 )); then echo -e "${color_red}Failed to add instance metadata in ${instance} ${color_norm}" exit 2 fi echo -e "${color_yellow}Attempt $(($attempt+1)) failed to add metadata in ${instance}. Retrying.${color_norm}" attempt=$(($attempt+1)) else break fi done } # Quote something appropriate for a yaml string. # # TODO(zmerlynn): Note that this function doesn't so much "quote" as # "strip out quotes", and we really should be using a YAML library for # this, but PyYAML isn't shipped by default, and *rant rant rant ... SIGH* function yaml-quote { echo "'$(echo "${@}" | sed -e "s/'/''/g")'" } function write-master-env { build-kube-env true "${KUBE_TEMP}/master-kube-env.yaml" } function write-node-env { build-kube-env false "${KUBE_TEMP}/node-kube-env.yaml" } # Create certificate pairs for the cluster. # $1: The public IP for the master. # # These are used for static cert distribution (e.g. static clustering) at # cluster creation time. This will be obsoleted once we implement dynamic # clustering. # # The following certificate pairs are created: # # - ca (the cluster's certificate authority) # - server # - kubelet # - kubecfg (for kubectl) # # TODO(roberthbailey): Replace easyrsa with a simple Go program to generate # the certs that we need. # # Assumed vars # KUBE_TEMP # # Vars set: # CERT_DIR # CA_CERT_BASE64 # MASTER_CERT_BASE64 # MASTER_KEY_BASE64 # KUBELET_CERT_BASE64 # KUBELET_KEY_BASE64 # KUBECFG_CERT_BASE64 # KUBECFG_KEY_BASE64 function create-certs { local cert_ip cert_ip="${1}" # Note: This was heavily cribbed from make-ca-cert.sh (cd "${KUBE_TEMP}" curl -L -O https://storage.googleapis.com/kubernetes-release/easy-rsa/easy-rsa.tar.gz > /dev/null 2>&1 tar xzf easy-rsa.tar.gz > /dev/null 2>&1 cd easy-rsa-master/easyrsa3 ./easyrsa init-pki > /dev/null 2>&1 ./easyrsa --batch "--req-cn=${cert_ip}@$(date +%s)" build-ca nopass > /dev/null 2>&1 ./easyrsa --subject-alt-name=IP:"${cert_ip}" build-server-full "${MASTER_NAME}" nopass > /dev/null 2>&1 ./easyrsa build-client-full kubelet nopass > /dev/null 2>&1 ./easyrsa build-client-full kubecfg nopass > /dev/null 2>&1) || { # If there was an error in the subshell, just die. # TODO(roberthbailey): add better error handling here echo "=== Failed to generate certificates: Aborting ===" exit 2 } CERT_DIR="${KUBE_TEMP}/easy-rsa-master/easyrsa3" CA_CERT_BASE64=$(cat "${CERT_DIR}/pki/ca.crt" | base64 | tr -d '\r\n') MASTER_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/${MASTER_NAME}.crt" | base64 | tr -d '\r\n') MASTER_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/${MASTER_NAME}.key" | base64 | tr -d '\r\n') KUBELET_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/kubelet.crt" | base64 | tr -d '\r\n') KUBELET_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/kubelet.key" | base64 | tr -d '\r\n') KUBECFG_CERT_BASE64=$(cat "${CERT_DIR}/pki/issued/kubecfg.crt" | base64 | tr -d '\r\n') KUBECFG_KEY_BASE64=$(cat "${CERT_DIR}/pki/private/kubecfg.key" | base64 | tr -d '\r\n') } # Instantiate a kubernetes cluster # # Assumed vars # KUBE_ROOT # function kube-up { ensure-temp-dir detect-project get-password get-bearer-token # Make sure we have the tar files staged on Google Storage find-release-tars upload-server-tars if ! gcloud compute networks --project "${PROJECT}" describe "${NETWORK}" &>/dev/null; then echo "Creating new network: ${NETWORK}" # The network needs to be created synchronously or we have a race. The # firewalls can be added concurrent with instance creation. gcloud compute networks create --project "${PROJECT}" "${NETWORK}" --range "10.240.0.0/16" fi if ! gcloud compute firewall-rules --project "${PROJECT}" describe "${NETWORK}-default-internal" &>/dev/null; then gcloud compute firewall-rules create "${NETWORK}-default-internal" \ --project "${PROJECT}" \ --network "${NETWORK}" \ --source-ranges "10.0.0.0/8" \ --allow "tcp:1-65535,udp:1-65535,icmp" & fi if ! gcloud compute firewall-rules describe --project "${PROJECT}" "${NETWORK}-default-ssh" &>/dev/null; then gcloud compute firewall-rules create "${NETWORK}-default-ssh" \ --project "${PROJECT}" \ --network "${NETWORK}" \ --source-ranges "0.0.0.0/0" \ --allow "tcp:22" & fi echo "Starting master and configuring firewalls" gcloud compute firewall-rules create "${MASTER_NAME}-https" \ --project "${PROJECT}" \ --network "${NETWORK}" \ --target-tags "${MASTER_TAG}" \ --allow tcp:443 & # We have to make sure the disk is created before creating the master VM, so # run this in the foreground. gcloud compute disks create "${MASTER_NAME}-pd" \ --project "${PROJECT}" \ --zone "${ZONE}" \ --type "${MASTER_DISK_TYPE}" \ --size "${MASTER_DISK_SIZE}" # Generate a bearer token for this cluster. We push this separately # from the other cluster variables so that the client (this # computer) can forget it later. This should disappear with # https://github.com/GoogleCloudPlatform/kubernetes/issues/3168 KUBELET_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null) KUBE_PROXY_TOKEN=$(dd if=/dev/urandom bs=128 count=1 2>/dev/null | base64 | tr -d "=+/" | dd bs=32 count=1 2>/dev/null) # Reserve the master's IP so that it can later be transferred to another VM # without disrupting the kubelets. IPs are associated with regions, not zones, # so extract the region name, which is the same as the zone but with the final # dash and characters trailing the dash removed. local REGION=${ZONE%-*} MASTER_RESERVED_IP=$(gcloud compute addresses create "${MASTER_NAME}-ip" \ --project "${PROJECT}" \ --region "${REGION}" -q --format yaml | awk '/^address:/ { print $2 }') create-certs "${MASTER_RESERVED_IP}" create-master-instance "${MASTER_RESERVED_IP}" & # Create a single firewall rule for all minions. create-firewall-rule "${MINION_TAG}-all" "${CLUSTER_IP_RANGE}" "${MINION_TAG}" & # Report logging choice (if any). if [[ "${ENABLE_NODE_LOGGING-}" == "true" ]]; then echo "+++ Logging using Fluentd to ${LOGGING_DESTINATION:-unknown}" fi # Wait for last batch of jobs wait-for-jobs echo "Creating minions." # TODO(mbforbes): Refactor setting scope flags. local -a scope_flags=() if (( "${#MINION_SCOPES[@]}" > 0 )); then scope_flags=("--scopes" "$(join_csv ${MINION_SCOPES[@]})") else scope_flags=("--no-scopes") fi write-node-env create-node-instance-template gcloud preview managed-instance-groups --zone "${ZONE}" \ create "${NODE_INSTANCE_PREFIX}-group" \ --project "${PROJECT}" \ --base-instance-name "${NODE_INSTANCE_PREFIX}" \ --size "${NUM_MINIONS}" \ --template "${NODE_INSTANCE_PREFIX}-template" || true; # TODO: this should be true when the above create managed-instance-group # command returns, but currently it returns before the instances come up due # to gcloud's deficiency. wait-for-minions-to-run detect-minion-names detect-master echo "Waiting for cluster initialization." echo echo " This will continually check to see if the API for kubernetes is reachable." echo " This might loop forever if there was some uncaught error during start" echo " up." echo # curl in mavericks is borked. secure="" if which sw_vers > /dev/null; then if [[ $(sw_vers | grep ProductVersion | awk '{print $2}') = "10.9."* ]]; then secure="--insecure" fi fi until curl --cacert "${CERT_DIR}/pki/ca.crt" \ -H "Authorization: Bearer ${KUBE_BEARER_TOKEN}" \ ${secure} \ --max-time 5 --fail --output /dev/null --silent \ "https://${KUBE_MASTER_IP}/api/v1beta3/pods"; do printf "." sleep 2 done echo "Kubernetes cluster created." export KUBE_CERT="${CERT_DIR}/pki/issued/kubecfg.crt" export KUBE_KEY="${CERT_DIR}/pki/private/kubecfg.key" export CA_CERT="${CERT_DIR}/pki/ca.crt" export CONTEXT="${PROJECT}_${INSTANCE_PREFIX}" ( umask 077 create-kubeconfig ) echo echo -e "${color_green}Kubernetes cluster is running. The master is running at:" echo echo -e "${color_yellow} https://${KUBE_MASTER_IP}" echo echo -e "${color_green}The user name and password to use is located in ${KUBECONFIG}.${color_norm}" echo } # Delete a kubernetes cluster. This is called from test-teardown. # # Assumed vars: # MASTER_NAME # NODE_INSTANCE_PREFIX # ZONE # This function tears down cluster resources 10 at a time to avoid issuing too many # API calls and exceeding API quota. It is important to bring down the instances before bringing # down the firewall rules and routes. function kube-down { detect-project echo "Bringing down cluster" set +e # Do not stop on error # The gcloud APIs don't return machine parsable error codes/retry information. Therefore the best we can # do is parse the output and special case particular responses we are interested in. if gcloud preview managed-instance-groups --zone "${ZONE}" describe "${NODE_INSTANCE_PREFIX}-group" &>/dev/null; then deleteCmdOutput=$(gcloud preview managed-instance-groups --zone "${ZONE}" delete \ --project "${PROJECT}" \ --quiet \ "${NODE_INSTANCE_PREFIX}-group") if [[ "$deleteCmdOutput" != "" ]]; then # Managed instance group deletion is done asyncronously, we must wait for it to complete, or subsequent steps fail deleteCmdOperationId=$(echo $deleteCmdOutput | grep "Operation:" | sed "s/.*Operation:[[:space:]]*\([^[:space:]]*\).*/\1/g") if [[ "$deleteCmdOperationId" != "" ]]; then deleteCmdStatus="PENDING" while [[ "$deleteCmdStatus" != "DONE" ]] do sleep 5 deleteCmdOperationOutput=$(gcloud preview managed-instance-groups --zone "${ZONE}" get-operation $deleteCmdOperationId) deleteCmdStatus=$(echo $deleteCmdOperationOutput | grep -i "status:" | sed "s/.*status:[[:space:]]*\([^[:space:]]*\).*/\1/g") echo "Waiting for MIG deletion to complete. Current status: " $deleteCmdStatus done fi fi fi if gcloud compute instance-templates describe "${NODE_INSTANCE_PREFIX}-template" &>/dev/null; then gcloud compute instance-templates delete \ --project "${PROJECT}" \ --quiet \ "${NODE_INSTANCE_PREFIX}-template" fi # First delete the master (if it exists). if gcloud compute instances describe "${MASTER_NAME}" --zone "${ZONE}" &>/dev/null; then gcloud compute instances delete \ --project "${PROJECT}" \ --quiet \ --delete-disks all \ --zone "${ZONE}" \ "${MASTER_NAME}" fi # Delete the master pd (possibly leaked by kube-up if master create failed). if gcloud compute disks describe "${MASTER_NAME}"-pd --zone "${ZONE}" &>/dev/null; then gcloud compute disks delete \ --project "${PROJECT}" \ --quiet \ --zone "${ZONE}" \ "${MASTER_NAME}"-pd fi # Find out what minions are running. local -a minions minions=( $(gcloud compute instances list \ --project "${PROJECT}" --zone "${ZONE}" \ --regexp "${NODE_INSTANCE_PREFIX}-.+" \ | awk 'NR >= 2 { print $1 }') ) # If any minions are running, delete them in batches. while (( "${#minions[@]}" > 0 )); do echo Deleting nodes "${minions[*]::10}" gcloud compute instances delete \ --project "${PROJECT}" \ --quiet \ --delete-disks boot \ --zone "${ZONE}" \ "${minions[@]::10}" minions=( "${minions[@]:10}" ) done # Delete firewall rule for the master. if gcloud compute firewall-rules describe "${MASTER_NAME}-https" &>/dev/null; then gcloud compute firewall-rules delete \ --project "${PROJECT}" \ --quiet \ "${MASTER_NAME}-https" fi # Delete firewall rule for minions. if gcloud compute firewall-rules describe "${MINION_TAG}-all" &>/dev/null; then gcloud compute firewall-rules delete \ --project "${PROJECT}" \ --quiet \ "${MINION_TAG}-all" fi # Delete routes. local -a routes # Clean up all routes w/ names like "-minion-<4-char-node-identifier>" # e.g. "kubernetes-minion-2pl1" routes=( $(gcloud compute routes list --project "${PROJECT}" \ --regexp "${INSTANCE_PREFIX}-minion-.{4}" | awk 'NR >= 2 { print $1 }') ) while (( "${#routes[@]}" > 0 )); do echo Deleting routes "${routes[*]::10}" gcloud compute routes delete \ --project "${PROJECT}" \ --quiet \ "${routes[@]::10}" routes=( "${routes[@]:10}" ) done # Delete the master's reserved IP local REGION=${ZONE%-*} if gcloud compute addresses describe "${MASTER_NAME}-ip" --region "${REGION}" &>/dev/null; then gcloud compute addresses delete \ --project "${PROJECT}" \ --region "${REGION}" \ --quiet \ "${MASTER_NAME}-ip" fi export CONTEXT="${PROJECT}_${INSTANCE_PREFIX}" clear-kubeconfig set -e } # Prepare to push new binaries to kubernetes cluster # $1 - whether prepare push to node function prepare-push() { #TODO(dawnchen): figure out how to upgrade coreos node if [[ "${OS_DISTRIBUTION}" != "debian" ]]; then echo "Updating a kubernetes cluster with ${OS_DISTRIBUTION} is not supported yet." >&2 exit 1 fi OUTPUT=${KUBE_ROOT}/_output/logs mkdir -p ${OUTPUT} ensure-temp-dir detect-project detect-master detect-minion-names get-password get-bearer-token # Make sure we have the tar files staged on Google Storage tars_from_version # Prepare node env vars and update MIG template if [[ "${1-}" == "true" ]]; then write-node-env # TODO(mbforbes): Refactor setting scope flags. local -a scope_flags=() if (( "${#MINION_SCOPES[@]}" > 0 )); then scope_flags=("--scopes" "${MINION_SCOPES[@]}") else scope_flags=("--no-scopes") fi # Ugly hack: Since it is not possible to delete instance-template that is currently # being used, create a temp one, then delete the old one and recreate it once again. create-node-instance-template "tmp" gcloud preview managed-instance-groups --zone "${ZONE}" \ set-template "${NODE_INSTANCE_PREFIX}-group" \ --project "${PROJECT}" \ --template "${NODE_INSTANCE_PREFIX}-template-tmp" || true; gcloud compute instance-templates delete \ --project "${PROJECT}" \ --quiet \ "${NODE_INSTANCE_PREFIX}-template" || true create-node-instance-template gcloud preview managed-instance-groups --zone "${ZONE}" \ set-template "${NODE_INSTANCE_PREFIX}-group" \ --project "${PROJECT}" \ --template "${NODE_INSTANCE_PREFIX}-template" || true; gcloud compute instance-templates delete \ --project "${PROJECT}" \ --quiet \ "${NODE_INSTANCE_PREFIX}-template-tmp" || true fi } # Push binaries to kubernetes master function push-master { echo "Updating master metadata ..." write-master-env add-instance-metadata-from-file "${KUBE_MASTER}" "kube-env=${KUBE_TEMP}/master-kube-env.yaml" "startup-script=${KUBE_ROOT}/cluster/gce/configure-vm.sh" echo "Pushing to master (log at ${OUTPUT}/push-${KUBE_MASTER}.log) ..." cat ${KUBE_ROOT}/cluster/gce/configure-vm.sh | gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone "${ZONE}" "${KUBE_MASTER}" --command "sudo bash -s -- --push" &> ${OUTPUT}/push-"${KUBE_MASTER}".log } # Push binaries to kubernetes node function push-node() { node=${1} echo "Updating node ${node} metadata... " add-instance-metadata-from-file "${node}" "kube-env=${KUBE_TEMP}/node-kube-env.yaml" "startup-script=${KUBE_ROOT}/cluster/gce/configure-vm.sh" echo "Start upgrading node ${node} (log at ${OUTPUT}/push-${node}.log) ..." cat ${KUBE_ROOT}/cluster/gce/configure-vm.sh | gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone "${ZONE}" "${node}" --command "sudo bash -s -- --push" &> ${OUTPUT}/push-"${node}".log } # Push binaries to kubernetes cluster function kube-push { prepare-push true push-master for (( i=0; i<${#MINION_NAMES[@]}; i++)); do push-node "${MINION_NAMES[$i]}" & done wait-for-jobs # TODO(zmerlynn): Re-create instance-template with the new # node-kube-env. This isn't important until the node-ip-range issue # is solved (because that's blocking automatic dynamic nodes from # working). The node-kube-env has to be composed with the KUBELET_TOKEN # and KUBE_PROXY_TOKEN. Ideally we would have # https://github.com/GoogleCloudPlatform/kubernetes/issues/3168 # implemented before then, though, so avoiding this mess until then. echo echo "Kubernetes cluster is running. The master is running at:" echo echo " https://${KUBE_MASTER_IP}" echo echo "The user name and password to use is located in ~/.kube/config" echo } # ----------------------------------------------------------------------------- # Cluster specific test helpers used from hack/e2e-test.sh # Execute prior to running tests to build a release if required for env. # # Assumed Vars: # KUBE_ROOT function test-build-release { # Make a release "${KUBE_ROOT}/build/release.sh" } # Execute prior to running tests to initialize required structure. This is # called from hack/e2e.go only when running -up (it is run after kube-up). # # Assumed vars: # Variables from config.sh function test-setup { # Detect the project into $PROJECT if it isn't set detect-project # Open up port 80 & 8080 so common containers on minions can be reached # TODO(roberthbailey): Remove this once we are no longer relying on hostPorts. gcloud compute firewall-rules create \ --project "${PROJECT}" \ --target-tags "${MINION_TAG}" \ --allow tcp:80,tcp:8080 \ --network "${NETWORK}" \ "${MINION_TAG}-${INSTANCE_PREFIX}-http-alt" # Open up the NodePort range # TODO(justinsb): Move to main setup, if we decide whether we want to do this by default. gcloud compute firewall-rules create \ --project "${PROJECT}" \ --target-tags "${MINION_TAG}" \ --allow tcp:30000-32767,udp:30000-32767 \ --network "${NETWORK}" \ "${MINION_TAG}-${INSTANCE_PREFIX}-nodeports" } # Execute after running tests to perform any required clean-up. This is called # from hack/e2e.go function test-teardown { detect-project echo "Shutting down test cluster in background." gcloud compute firewall-rules delete \ --project "${PROJECT}" \ --quiet \ "${MINION_TAG}-${INSTANCE_PREFIX}-http-alt" || true gcloud compute firewall-rules delete \ --project "${PROJECT}" \ --quiet \ "${MINION_TAG}-${INSTANCE_PREFIX}-nodeports" || true "${KUBE_ROOT}/cluster/kube-down.sh" } # SSH to a node by name ($1) and run a command ($2). function ssh-to-node { local node="$1" local cmd="$2" # Loop until we can successfully ssh into the box for try in $(seq 1 5); do if gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone="${ZONE}" "${node}" --command "echo test > /dev/null"; then break fi sleep 5 done # Then actually try the command. gcloud compute ssh --ssh-flag="-o LogLevel=quiet" --project "${PROJECT}" --zone="${ZONE}" "${node}" --command "${cmd}" } # Restart the kube-proxy on a node ($1) function restart-kube-proxy { ssh-to-node "$1" "sudo /etc/init.d/kube-proxy restart" } # Restart the kube-apiserver on a node ($1) function restart-apiserver { ssh-to-node "$1" "sudo docker ps | grep /kube-apiserver | cut -d ' ' -f 1 | xargs sudo docker kill" } # Perform preparations required to run e2e tests function prepare-e2e() { detect-project }