milvus/build/kind_provisioner.sh
quicksilver 686e4384ce
Add skip kind export logs options in e2e test (#6742)
Signed-off-by: quicksilver <zhifeng.zhang@zilliz.com>
2021-07-22 20:20:12 +08:00

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#!/bin/bash
# Copyright (C) 2019-2020 Zilliz. 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.
# WARNING: DO NOT EDIT, THIS FILE IS PROBABLY A COPY
#
# The original version of this file is located in the https://github.com/istio/common-files repo.
# If you're looking at this file in a different repo and want to make a change, please go to the
# common-files repo, make the change there and check it in. Then come back to this repo and run
# "make update-common".
# Copyright Istio Authors
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
set -e
set -x
# The purpose of this file is to unify prow/lib.sh in both istio and istio.io
# repos to avoid code duplication.
####################################################################
################# COMMON SECTION ###############################
####################################################################
# DEFAULT_KIND_IMAGE is used to set the Kubernetes version for KinD unless overridden in params to setup_kind_cluster(s)
DEFAULT_KIND_IMAGE="kindest/node:v1.20.2"
SOURCE="${BASH_SOURCE[0]}"
while [ -h "$SOURCE" ]; do # resolve $SOURCE until the file is no longer a symlink
DIR="$( cd -P "$( dirname "$SOURCE" )" && pwd )"
SOURCE="$(readlink "$SOURCE")"
[[ $SOURCE != /* ]] && SOURCE="$DIR/$SOURCE" # if $SOURCE was a relative symlink, we need to resolve it relative to the path where the symlink file was located
done
ROOT="$( cd -P "$( dirname "$SOURCE" )/.." && pwd )"
UNAME="$(uname -s)"
case "${UNAME}" in
Linux*) MACHINE=Linux;;
Darwin*) MACHINE=Mac;;
CYGWIN*) MACHINE=Cygwin;;
MINGW*) MACHINE=MinGw;;
*) MACHINE="UNKNOWN:${UNAME}"
esac
# load_cluster_topology function reads cluster configuration topology file and
# sets up environment variables used by other functions. So this should be called
# before anything else.
#
# Note: Cluster configuration topology file specifies basic configuration of each
# KinD cluster like its name, pod and service subnets and network_id. If two cluster
# have the same network_id then they belong to the same network and their pods can
# talk to each other directly.
#
# [{ "cluster_name": "cluster1","pod_subnet": "10.10.0.0/16","svc_subnet": "10.255.10.0/24","network_id": "0" },
# { "cluster_name": "cluster2","pod_subnet": "10.20.0.0/16","svc_subnet": "10.255.20.0/24","network_id": "0" },
# { "cluster_name": "cluster3","pod_subnet": "10.30.0.0/16","svc_subnet": "10.255.30.0/24","network_id": "1" }]
function load_cluster_topology() {
CLUSTER_TOPOLOGY_CONFIG_FILE="${1}"
if [[ ! -f "${CLUSTER_TOPOLOGY_CONFIG_FILE}" ]]; then
echo 'cluster topology configuration file is not specified'
exit 1
fi
export CLUSTER_NAMES
export CLUSTER_POD_SUBNETS
export CLUSTER_SVC_SUBNETS
export CLUSTER_NETWORK_ID
KUBE_CLUSTERS=$(jq '.[] | select(.kind == "Kubernetes" or .kind == null)' "${CLUSTER_TOPOLOGY_CONFIG_FILE}")
while read -r value; do
CLUSTER_NAMES+=("$value")
done < <(echo "${KUBE_CLUSTERS}" | jq -r '.cluster_name // .clusterName')
while read -r value; do
CLUSTER_POD_SUBNETS+=("$value")
done < <(echo "${KUBE_CLUSTERS}" | jq -r '.pod_subnet // .podSubnet')
while read -r value; do
CLUSTER_SVC_SUBNETS+=("$value")
done < <(echo "${KUBE_CLUSTERS}" | jq -r '.svc_subnet // .svcSubnet')
while read -r value; do
CLUSTER_NETWORK_ID+=("$value")
done < <(echo "${KUBE_CLUSTERS}" | jq -r '.network_id // .network')
export NUM_CLUSTERS
NUM_CLUSTERS=$(echo "${KUBE_CLUSTERS}" | jq -s 'length')
echo "${CLUSTER_NAMES[@]}"
echo "${CLUSTER_POD_SUBNETS[@]}"
echo "${CLUSTER_SVC_SUBNETS[@]}"
echo "${CLUSTER_NETWORK_ID[@]}"
echo "${NUM_CLUSTERS}"
}
#####################################################################
################### SINGLE-CLUSTER SECTION ######################
#####################################################################
# cleanup_kind_cluster takes a single parameter NAME
# and deletes the KinD cluster with that name
function cleanup_kind_cluster() {
echo "Test exited with exit code $?."
NAME="${1}"
if [[ -z "${SKIP_EXPORT_LOGS:-}" ]]; then
kind export logs --name "${NAME}" "${ARTIFACTS}/kind" -v9 || true
fi
if [[ -z "${SKIP_CLEANUP:-}" ]]; then
echo "Cleaning up kind cluster"
kind delete cluster --name "${NAME}" -v9 || true
docker network rm kind > /dev/null 2>&1 || true
fi
}
# check_default_cluster_yaml checks the presence of default cluster YAML
# It returns 1 if it is not present
function check_default_cluster_yaml() {
if [[ -z "${DEFAULT_CLUSTER_YAML}" ]]; then
echo 'DEFAULT_CLUSTER_YAML file must be specified. Exiting...'
return 1
fi
}
# setup_kind_cluster creates new KinD cluster with given name, image and configuration
# 1. NAME: Name of the Kind cluster (optional)
# 2. IMAGE: Node image used by KinD (optional)
# 3. CONFIG: KinD cluster configuration YAML file. If not specified then DEFAULT_CLUSTER_YAML is used
# 4. NOMETALBINSTALL: Dont install matllb if set true.
# 5. CRON_LOGGER_INSTALL: Install Cron Logger if set true.
# This function returns 0 when everything goes well, or 1 otherwise
# If Kind cluster was already created then it would be cleaned up in case of errors
function setup_kind_cluster() {
NAME="${1:-kind}"
IMAGE="${2:-"${DEFAULT_KIND_IMAGE}"}"
CONFIG="${3:-}"
NOMETALBINSTALL="${4:-false}"
CRON_LOGGER_INSTALL="${5:-true}"
check_default_cluster_yaml
# Delete any previous KinD cluster
echo "Deleting previous KinD cluster with name=${NAME}"
if ! (kind delete cluster --name="${NAME}" -v9) > /dev/null; then
echo "No existing kind cluster with name ${NAME}. Continue..."
else
docker network rm kind > /dev/null 2>&1 || true
fi
# explicitly disable shellcheck since we actually want $NAME to expand now
# shellcheck disable=SC2064
trap "cleanup_kind_cluster ${NAME}" EXIT
# If config not explicitly set, then use defaults
if [[ -z "${CONFIG}" ]]; then
# Kubernetes 1.15+
CONFIG=${DEFAULT_CLUSTER_YAML}
# Configure the cluster IP Family only for default configs
if [ "${IP_FAMILY}" = "ipv6" ]; then
grep 'ipFamily: ipv6' "${CONFIG}" || \
cat <<EOF >> "${CONFIG}"
networking:
ipFamily: ipv6
EOF
fi
fi
# Create KinD cluster
if ! (kind create cluster --name="${NAME}" --config "${CONFIG}" -v9 --retain --image "${IMAGE}" --wait=60s); then
echo "Could not setup KinD environment. Something wrong with KinD setup. Exporting logs."
exit 1
fi
# If metrics server configuration directory is specified then deploy in
# the cluster just created
if [[ -n ${METRICS_SERVER_CONFIG_DIR} ]]; then
kubectl apply -f "${METRICS_SERVER_CONFIG_DIR}"
fi
# Install Metallb if not set to install explicitly
if [[ "${NOMETALBINSTALL}" != "true" ]]; then
install_metallb ""
fi
# Install Cron logger if set to install explicitly'
if [[ "${CRON_LOGGER_INSTALL}" == "true" ]]; then
install_cron_logger ""
fi
}
###############################################################################
#################### MULTICLUSTER SECTION ###############################
###############################################################################
# Cleans up the clusters created by setup_kind_clusters
# It expects CLUSTER_NAMES to be present which means that
# load_cluster_topology must be called before invoking it
function cleanup_kind_clusters() {
echo "Test exited with exit code $?."
for c in "${CLUSTER_NAMES[@]}"; do
cleanup_kind_cluster "${c}"
done
}
# setup_kind_clusters sets up a given number of kind clusters with given topology
# as specified in cluster topology configuration file.
# 1. IMAGE = docker image used as node by KinD
# 2. IP_FAMILY = either ipv4 or ipv6
#
# NOTE: Please call load_cluster_topology before calling this method as it expects
# cluster topology information to be loaded in advance
function setup_kind_clusters() {
IMAGE="${1:-"${DEFAULT_KIND_IMAGE}"}"
KUBECONFIG_DIR="${ARTIFACTS:-$(mktemp -d)}/kubeconfig"
IP_FAMILY="${2:-ipv4}"
check_default_cluster_yaml
# Trap replaces any previous trap's, so we need to explicitly cleanup both clusters here
trap cleanup_kind_clusters EXIT
function deploy_kind() {
IDX="${1}"
CLUSTER_NAME="${CLUSTER_NAMES[$IDX]}"
CLUSTER_POD_SUBNET="${CLUSTER_POD_SUBNETS[$IDX]}"
CLUSTER_SVC_SUBNET="${CLUSTER_SVC_SUBNETS[$IDX]}"
CLUSTER_YAML="${ARTIFACTS}/config-${CLUSTER_NAME}.yaml"
if [ ! -f "${CLUSTER_YAML}" ]; then
cp "${DEFAULT_CLUSTER_YAML}" "${CLUSTER_YAML}"
cat <<EOF >> "${CLUSTER_YAML}"
networking:
podSubnet: ${CLUSTER_POD_SUBNET}
serviceSubnet: ${CLUSTER_SVC_SUBNET}
EOF
fi
CLUSTER_KUBECONFIG="${KUBECONFIG_DIR}/${CLUSTER_NAME}"
# Create the clusters.
KUBECONFIG="${CLUSTER_KUBECONFIG}" setup_kind_cluster "${CLUSTER_NAME}" "${IMAGE}" "${CLUSTER_YAML}" "true" "true"
# Kind currently supports getting a kubeconfig for internal or external usage. To simplify our tests,
# its much simpler if we have a single kubeconfig that can be used internally and externally.
# To do this, we can replace the server with the IP address of the docker container
# https://github.com/kubernetes-sigs/kind/issues/1558 tracks this upstream
CONTAINER_IP=$(docker inspect "${CLUSTER_NAME}-control-plane" --format "{{ .NetworkSettings.Networks.kind.IPAddress }}")
kind get kubeconfig --name "${CLUSTER_NAME}" --internal | \
sed "s/${CLUSTER_NAME}-control-plane/${CONTAINER_IP}/g" > "${CLUSTER_KUBECONFIG}"
# Enable core dumps
docker exec "${CLUSTER_NAME}"-control-plane bash -c "sysctl -w kernel.core_pattern=/var/lib/istio/data/core.proxy && ulimit -c unlimited"
}
# Now deploy the specified number of KinD clusters and
# wait till they are provisioned successfully.
declare -a DEPLOY_KIND_JOBS
for i in "${!CLUSTER_NAMES[@]}"; do
deploy_kind "${i}" & DEPLOY_KIND_JOBS+=("${!}")
done
for pid in "${DEPLOY_KIND_JOBS[@]}"; do
wait "${pid}" || exit 1
done
# Install MetalLB for LoadBalancer support. Must be done synchronously since METALLB_IPS is shared.
# and keep track of the list of Kubeconfig files that will be exported later
export KUBECONFIGS
for CLUSTER_NAME in "${CLUSTER_NAMES[@]}"; do
KUBECONFIG_FILE="${KUBECONFIG_DIR}/${CLUSTER_NAME}"
if [[ ${NUM_CLUSTERS} -gt 1 ]]; then
install_metallb "${KUBECONFIG_FILE}"
# Install Cron logger if set to install explicitly'
if [[ -n ${CRON_LOGGER_INSTALL} ]]; then
install_cron_logger "${KUBECONFIG_FILE}"
fi
fi
KUBECONFIGS+=("${KUBECONFIG_FILE}")
done
ITER_END=$((NUM_CLUSTERS-1))
for i in $(seq 0 "$ITER_END"); do
for j in $(seq 0 "$ITER_END"); do
if [[ "${j}" -gt "${i}" ]]; then
NETWORK_ID_I="${CLUSTER_NETWORK_ID[i]}"
NETWORK_ID_J="${CLUSTER_NETWORK_ID[j]}"
if [[ "$NETWORK_ID_I" == "$NETWORK_ID_J" ]]; then
POD_TO_POD_AND_SERVICE_CONNECTIVITY=1
else
POD_TO_POD_AND_SERVICE_CONNECTIVITY=0
fi
connect_kind_clusters \
"${CLUSTER_NAMES[i]}" "${KUBECONFIGS[i]}" \
"${CLUSTER_NAMES[j]}" "${KUBECONFIGS[j]}" \
"${POD_TO_POD_AND_SERVICE_CONNECTIVITY}"
fi
done
done
}
function connect_kind_clusters() {
C1="${1}"
C1_KUBECONFIG="${2}"
C2="${3}"
C2_KUBECONFIG="${4}"
POD_TO_POD_AND_SERVICE_CONNECTIVITY="${5}"
C1_NODE="${C1}-control-plane"
C2_NODE="${C2}-control-plane"
C1_DOCKER_IP=$(docker inspect -f "{{ .NetworkSettings.Networks.kind.IPAddress }}" "${C1_NODE}")
C2_DOCKER_IP=$(docker inspect -f "{{ .NetworkSettings.Networks.kind.IPAddress }}" "${C2_NODE}")
if [ "${POD_TO_POD_AND_SERVICE_CONNECTIVITY}" -eq 1 ]; then
# Set up routing rules for inter-cluster direct pod to pod & service communication
C1_POD_CIDR=$(KUBECONFIG="${C1_KUBECONFIG}" kubectl get node -ojsonpath='{.items[0].spec.podCIDR}')
C2_POD_CIDR=$(KUBECONFIG="${C2_KUBECONFIG}" kubectl get node -ojsonpath='{.items[0].spec.podCIDR}')
C1_SVC_CIDR=$(KUBECONFIG="${C1_KUBECONFIG}" kubectl cluster-info dump | sed -n 's/^.*--service-cluster-ip-range=\([^"]*\).*$/\1/p' | head -n 1)
C2_SVC_CIDR=$(KUBECONFIG="${C2_KUBECONFIG}" kubectl cluster-info dump | sed -n 's/^.*--service-cluster-ip-range=\([^"]*\).*$/\1/p' | head -n 1)
docker exec "${C1_NODE}" ip route add "${C2_POD_CIDR}" via "${C2_DOCKER_IP}"
docker exec "${C1_NODE}" ip route add "${C2_SVC_CIDR}" via "${C2_DOCKER_IP}"
docker exec "${C2_NODE}" ip route add "${C1_POD_CIDR}" via "${C1_DOCKER_IP}"
docker exec "${C2_NODE}" ip route add "${C1_SVC_CIDR}" via "${C1_DOCKER_IP}"
fi
# Set up routing rules for inter-cluster pod to MetalLB LoadBalancer communication
connect_metallb "$C1_NODE" "$C2_KUBECONFIG" "$C2_DOCKER_IP"
connect_metallb "$C2_NODE" "$C1_KUBECONFIG" "$C1_DOCKER_IP"
}
function install_kind() {
KIND_DIR=$1
KIND_VERSION=$2
echo 'Installing kind...'
mkdir -p "${KIND_DIR}"
if [[ "${MACHINE}" == "Linux" ]]; then
curl -sSLo "${KIND_DIR}/kind" "https://github.com/kubernetes-sigs/kind/releases/download/${KIND_VERSION}/kind-linux-amd64"
elif [[ "${MACHINE}" == "Mac" ]]; then
curl -sSLo "${KIND_DIR}/kind" "https://github.com/kubernetes-sigs/kind/releases/download/${KIND_VERSION}/kind-darwin-amd64"
else
echo "Error Download kind ..."
exit 1
fi
chmod +x "${KIND_DIR}/kind"
}
function install_kubectl() {
KUBECTL_DIR=$1
KUBECTL_VERSION=$2
echo 'Installing kubectl...'
mkdir -p "${KUBECTL_DIR}"
if [[ "${MACHINE}" == "Linux" ]]; then
curl -sSLo "${KUBECTL_DIR}/kubectl" "https://storage.googleapis.com/kubernetes-release/release/${KUBECTL_VERSION}/bin/linux/amd64/kubectl"
elif [[ "${MACHINE}" == "Mac" ]]; then
curl -sSLo "${KUBECTL_DIR}/kubectl" "https://storage.googleapis.com/kubernetes-release/release/${KUBECTL_VERSION}/bin/darwin/amd64/kubectl"
else
echo "Error Download kubectl ..."
exit 1
fi
chmod +x "${KUBECTL_DIR}/kubectl"
}
function install_helm() {
HELM_DIR=$1
HELM_VERSION=$2
echo 'Installing helm...'
mkdir -p "${HELM_DIR}"
OS_NAME="unknown"
if [[ "${MACHINE}" == "Linux" ]]; then
OS_NAME="linux"
elif [[ "${MACHINE}" == "Mac" ]]; then
OS_NAME="darwin"
else
echo "Error Download helm ..."
exit 1
fi
curl -sSLo "${HELM_DIR}/helm.tar.gz" "https://get.helm.sh/helm-${HELM_VERSION}-${OS_NAME}-amd64.tar.gz"
tar zxvf "${HELM_DIR}/helm.tar.gz" -C "${HELM_DIR}"
mv "${HELM_DIR}/${OS_NAME}-amd64/helm" "${HELM_DIR}"
chmod +x "${HELM_DIR}/helm"
}
function install_metallb() {
KUBECONFIG="${1}"
kubectl apply --kubeconfig="$KUBECONFIG" -f "${ROOT}/build/config/metallb.yaml"
kubectl create --kubeconfig="$KUBECONFIG" secret generic -n metallb-system memberlist --from-literal=secretkey="$(openssl rand -base64 128)"
if [ -z "${METALLB_IPS[*]-}" ]; then
# Take IPs from the end of the docker kind network subnet to use for MetalLB IPs
DOCKER_KIND_SUBNET="$(docker inspect kind | jq '.[0].IPAM.Config[0].Subnet' -r)"
METALLB_IPS=()
while read -r ip; do
METALLB_IPS+=("$ip")
done < <(cidr_to_ips "$DOCKER_KIND_SUBNET" | tail -n 100)
fi
# Give this cluster of those IPs
RANGE="${METALLB_IPS[0]}-${METALLB_IPS[9]}"
METALLB_IPS=("${METALLB_IPS[@]:10}")
echo 'apiVersion: v1
kind: ConfigMap
metadata:
namespace: metallb-system
name: config
data:
config: |
address-pools:
- name: default
protocol: layer2
addresses:
- '"$RANGE" | kubectl apply --kubeconfig="$KUBECONFIG" -f -
}
function install_cron_logger() {
KUBECONFIG="${1}"
kubectl apply --kubeconfig="$KUBECONFIG" -f "${ROOT}/build/config/logging/"
}
function connect_metallb() {
REMOTE_NODE=$1
METALLB_KUBECONFIG=$2
METALLB_DOCKER_IP=$3
IP_REGEX='(([0-9]{1,3}\.?){4})'
LB_CONFIG="$(kubectl --kubeconfig="${METALLB_KUBECONFIG}" -n metallb-system get cm config -o jsonpath="{.data.config}")"
if [[ "$LB_CONFIG" =~ $IP_REGEX-$IP_REGEX ]]; then
while read -r lb_cidr; do
docker exec "${REMOTE_NODE}" ip route add "${lb_cidr}" via "${METALLB_DOCKER_IP}"
done < <(ips_to_cidrs "${BASH_REMATCH[1]}" "${BASH_REMATCH[3]}")
fi
}
function cidr_to_ips() {
CIDR="$1"
python3 - <<EOF
from ipaddress import IPv4Network; [print(str(ip)) for ip in IPv4Network('$CIDR').hosts()]
EOF
}
function ips_to_cidrs() {
IP_RANGE_START="$1"
IP_RANGE_END="$2"
python3 - <<EOF
from ipaddress import summarize_address_range, IPv4Address
[ print(n.compressed) for n in summarize_address_range(IPv4Address(u'$IP_RANGE_START'), IPv4Address(u'$IP_RANGE_END')) ]
EOF
}