Refactor hack/karmada-bootstrap.sh and hack/deploy-karmada-agent.sh
Signed-off-by: lfbear <lfbear@gmail.com>
This commit is contained in:
lfbear
parent
b9ca6606ee
commit
2ebc90e073
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@ -26,7 +26,7 @@ spec:
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command:
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- /bin/karmada-agent
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- --karmada-kubeconfig=/etc/kubeconfig/karmada-kubeconfig
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- --karmada-context=karmada-apiserver
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- --karmada-context={{karmada_context}}
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- --cluster-name={{member_cluster_name}}
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- --cluster-status-update-frequency=10s
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- --v=4
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@ -4,24 +4,66 @@ set -o errexit
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set -o nounset
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REPO_ROOT=$(dirname "${BASH_SOURCE[0]}")/..
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KARMADA_APISERVER_KUBECONFIG=${KARMADA_APISERVER_KUBECONFIG:-"/var/run/karmada/karmada-apiserver.config"}
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# The host cluster name which used to install karmada control plane components.
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MEMBER_CLUSTER_NAME=${MEMBER_CLUSTER_NAME:-"member3"}
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MEMBER_CLUSTER_KUBECONFIG=${MEMBER_CLUSTER_KUBECONFIG:-"${HOME}/.kube/member3.config"}
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source ${REPO_ROOT}/hack/util.sh
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function usage() {
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echo "This script will deploy karmada agent to a cluster."
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echo "Usage: hack/deploy-karmada-agent.sh"
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echo "Example: hack/deploy-karmada-agent.sh"
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echo "Usage: hack/deploy-karmada-agent.sh <KARMADA_APISERVER_KUBECONFIG> <KARMADA_APISERVER_CONTEXT_NAME> <MEMBER_CLUSTER_KUBECONFIG> <MEMBER_CLUSTER_CONTEXT_NAME>"
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echo "Example: hack/deploy-karmada-agent.sh ~/.kube/karmada.config karmada-apiserver ~/.kube/karmada.config member1"
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}
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if [[ $# -ne 4 ]]; then
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usage
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exit 1
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fi
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# check kube config file existence
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if [[ ! -f "${1}" ]]; then
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echo -e "ERROR: failed to get kubernetes config file: '${1}', not existed.\n"
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usage
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exit 1
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fi
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KARMADA_APISERVER_KUBECONFIG=$1
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# check context existence
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if ! kubectl config use-context "${2}" --kubeconfig="${KARMADA_APISERVER_KUBECONFIG}" > /dev/null 2>&1;
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then
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echo -e "ERROR: failed to use context: '${2}' not in ${KARMADA_APISERVER_KUBECONFIG}. \n"
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usage
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exit 1
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fi
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KARMADA_APISERVER_CONTEXT_NAME=$2
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# check kube config file existence
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if [[ ! -f "${3}" ]]; then
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echo -e "ERROR: failed to get kubernetes config file: '${3}', not existed.\n"
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usage
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exit 1
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fi
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MEMBER_CLUSTER_KUBECONFIG=$3
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# check context existence
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if ! kubectl config get-contexts "${4}" --kubeconfig="${MEMBER_CLUSTER_KUBECONFIG}" > /dev/null 2>&1;
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then
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echo -e "ERROR: failed to get context: '${4}' not in ${MEMBER_CLUSTER_KUBECONFIG}. \n"
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usage
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exit 1
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fi
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MEMBER_CLUSTER_NAME=$4
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source "${REPO_ROOT}"/hack/util.sh
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# install agent to member cluster
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CURR_KUBECONFIG=$KUBECONFIG # backup current kubeconfig
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export KUBECONFIG="${MEMBER_CLUSTER_KUBECONFIG}" # switch to member cluster
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kubectl config use-context "${MEMBER_CLUSTER_NAME}"
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# load image if member cluster created by kind (if kubeconfig clusters' name contains kind-xxx)
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if kubectl config get-clusters | grep "kind-${MEMBER_CLUSTER_NAME}"
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then
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export REGISTRY="swr.ap-southeast-1.myhuaweicloud.com/karmada"
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export VERSION="latest"
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kind load docker-image "${REGISTRY}/karmada-agent:${VERSION}" --name="${MEMBER_CLUSTER_NAME}"
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export KUBECONFIG="${MEMBER_CLUSTER_KUBECONFIG}"
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fi
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# create namespace for karmada agent
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/namespace.yaml"
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@ -32,18 +74,18 @@ kubectl apply -f "${REPO_ROOT}/artifacts/agent/clusterrole.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/clusterrolebinding.yaml"
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# create secret
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if [[ ! -e ${KARMADA_APISERVER_KUBECONFIG} ]]; then
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echo "the kubeconfig file of karmada control plane not exist"
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exit 1
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fi
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kubectl create secret generic karmada-kubeconfig --from-file=karmada-kubeconfig="$KARMADA_APISERVER_KUBECONFIG" -n karmada-system
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kubectl create secret generic karmada-kubeconfig --from-file=karmada-kubeconfig="${KARMADA_APISERVER_KUBECONFIG}" -n "${KARMADA_SYSTEM_NAMESPACE}"
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# deploy karmada agent
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cp "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml.tmp
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sed -i "s/{{member_cluster_name}}/${MEMBER_CLUSTER_NAME}/g" "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/karmada-agent.yaml"
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mv "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml.tmp "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml
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TEMP_PATH=$(mktemp -d)
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cp "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml "${TEMP_PATH}"/karmada-agent.yaml
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sed -i "s/{{karmada_context}}/${KARMADA_APISERVER_CONTEXT_NAME}/g" "${TEMP_PATH}"/karmada-agent.yaml
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sed -i "s/{{member_cluster_name}}/${MEMBER_CLUSTER_NAME}/g" "${TEMP_PATH}"/karmada-agent.yaml
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echo -e "Apply dynamic rendered deployment in ${TEMP_PATH}/karmada-agent.yaml.\n"
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kubectl apply -f "${TEMP_PATH}"/karmada-agent.yaml
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# Wait for karmada-etcd to come up before launching the rest of the components.
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util::wait_pod_ready "${AGENT_POD_LABEL}" "karmada-system"
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util::wait_pod_ready "${AGENT_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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# recover the kubeconfig before installing agent
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export KUBECONFIG="${CURR_KUBECONFIG}"
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@ -116,13 +116,13 @@ generate_cert_secret
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-etcd.yaml"
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# Wait for karmada-etcd to come up before launching the rest of the components.
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util::wait_pod_ready "${ETCD_POD_LABEL}" "karmada-system"
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util::wait_pod_ready "${ETCD_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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# deploy karmada apiserver
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-apiserver.yaml"
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# Wait for karmada-apiserver to come up before launching the rest of the components.
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util::wait_pod_ready "${APISERVER_POD_LABEL}" "karmada-system"
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util::wait_pod_ready "${APISERVER_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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if [[ -z "${3-}" ]]; then
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KARMADA_APISERVER_IP=$(kubectl get service karmada-apiserver -n karmada-system -o jsonpath='{.spec.clusterIP}')
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@ -163,7 +163,7 @@ kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-scheduler.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-webhook.yaml"
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# make sure all karmada control plane components are ready
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util::wait_pod_ready "${KARMADA_CONTROLLER_LABEL}" "karmada-system"
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util::wait_pod_ready "${KARMADA_SCHEDULER_LABEL}" "karmada-system"
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util::wait_pod_ready "${KUBE_CONTROLLER_POD_LABEL}" "karmada-system"
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util::wait_pod_ready "${KARMADA_WEBHOOK_LABEL}" "karmada-system"
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util::wait_pod_ready "${KARMADA_CONTROLLER_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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util::wait_pod_ready "${KARMADA_SCHEDULER_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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util::wait_pod_ready "${KUBE_CONTROLLER_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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util::wait_pod_ready "${KARMADA_WEBHOOK_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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@ -4,224 +4,83 @@ set -o nounset
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set -o pipefail
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# This script starts a local karmada control plane based on current codebase and with a certain number of clusters joined. REPO_ROOT=$(dirname "${BASH_SOURCE[0]}")/..
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# This script intended used in following scenarios: source ${REPO_ROOT}/hack/util.sh
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# This script depends on utils in: ${REPO_ROOT}/hack/util.sh
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# 1. used by developer to setup develop environment quickly.
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# 2. used by e2e testing to setup test environment automatically.
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REPO_ROOT=$(dirname "${BASH_SOURCE[0]}")/..
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source ${REPO_ROOT}/hack/util.sh
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source "${REPO_ROOT}"/hack/util.sh
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# variable define
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KUBECONFIG_PATH=${KUBECONFIG_PATH:-"${HOME}/.kube"}
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MAIN_KUBECONFIG=${MAIN_KUBECONFIG:-"${KUBECONFIG_PATH}/karmada.config"}
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HOST_CLUSTER_NAME=${HOST_CLUSTER_NAME:-"karmada-host"}
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KARMADA_APISERVER_CLUSTER_NAME=${KARMADA_APISERVER_CLUSTER_NAME:-"karmada-apiserver"}
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MEMBER_CLUSTER_KUBECONFIG=${MEMBER_CLUSTER_KUBECONFIG:-"${KUBECONFIG_PATH}/members.config"}
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MEMBER_CLUSTER_1_NAME=${MEMBER_CLUSTER_1_NAME:-"member1"}
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MEMBER_CLUSTER_2_NAME=${MEMBER_CLUSTER_2_NAME:-"member2"}
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HOST_CLUSTER_KUBECONFIG=${HOST_CLUSTER_KUBECONFIG:-"${KUBECONFIG_PATH}/karmada-host.config"}
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MEMBER_CLUSTER_1_KUBECONFIG=${MEMBER_CLUSTER_1_KUBECONFIG:-"${KUBECONFIG_PATH}/member1.config"}
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MEMBER_CLUSTER_2_KUBECONFIG=${MEMBER_CLUSTER_2_KUBECONFIG:-"${KUBECONFIG_PATH}/member2.config"}
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CLUSTER_VERSION=${CLUSTER_VERSION:-"kindest/node:v1.19.1"}
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PULL_MODE_CLUSTER_NAME=${PULL_MODE_CLUSTER_NAME:-"member3"}
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PULL_MODE_CLUSTER_KUBECONFIG=${PULL_MODE_CLUSTER_KUBECONFIG:-"${KUBECONFIG_PATH}/member3.config"}
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CERT_DIR=${CERT_DIR:-"/var/run/karmada"}
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mkdir -p "${CERT_DIR}" &>/dev/null || sudo mkdir -p "${CERT_DIR}"
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KARMADA_APISERVER_CONFIG="${CERT_DIR}/karmada-apiserver.config"
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KARMADA_APISERVER_SECURE_PORT=${KARMADA_APISERVER_SECURE_PORT:-5443}
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CFSSL_VERSION="v1.5.0"
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CONTROLPLANE_SUDO=$(test -w "${CERT_DIR}" || echo "sudo -E")
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ROOT_CA_FILE=${CERT_DIR}/server-ca.crt
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CLUSTER_VERSION=${CLUSTER_VERSION:-"kindest/node:v1.19.1"}
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KIND_LOG_FILE=${KIND_LOG_FILE:-"/tmp/karmada"}
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# generate a secret to store the certificates
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function generate_cert_secret {
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local karmada_ca=$(base64 "${ROOT_CA_FILE}" | tr -d '\r\n')
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local TEMP_PATH=$(mktemp -d)
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cp -rf ${REPO_ROOT}/artifacts/deploy/karmada-cert-secret.yaml ${TEMP_PATH}/karmada-cert-secret-tmp.yaml
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cp -rf ${REPO_ROOT}/artifacts/deploy/secret.yaml ${TEMP_PATH}/secret-tmp.yaml
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cp -rf ${REPO_ROOT}/artifacts/deploy/karmada-webhook-cert-secret.yaml ${TEMP_PATH}/karmada-webhook-cert-secret-tmp.yaml
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sed -i "s/{{ca_crt}}/${karmada_ca}/g" ${TEMP_PATH}/karmada-cert-secret-tmp.yaml
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sed -i "s/{{client_cer}}/${KARMADA_CRT}/g" ${TEMP_PATH}/karmada-cert-secret-tmp.yaml
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sed -i "s/{{client_key}}/${KARMADA_KEY}/g" ${TEMP_PATH}/karmada-cert-secret-tmp.yaml
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sed -i "s/{{ca_crt}}/${karmada_ca}/g" ${TEMP_PATH}/secret-tmp.yaml
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sed -i "s/{{client_cer}}/${KARMADA_CRT}/g" ${TEMP_PATH}/secret-tmp.yaml
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sed -i "s/{{client_key}}/${KARMADA_KEY}/g" ${TEMP_PATH}/secret-tmp.yaml
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sed -i "s/{{server_key}}/${KARMADA_KEY}/g" ${TEMP_PATH}/karmada-webhook-cert-secret-tmp.yaml
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sed -i "s/{{server_certificate}}/${KARMADA_CRT}/g" ${TEMP_PATH}/karmada-webhook-cert-secret-tmp.yaml
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kubectl apply -f ${TEMP_PATH}/karmada-cert-secret-tmp.yaml
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kubectl apply -f ${TEMP_PATH}/secret-tmp.yaml
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kubectl apply -f ${TEMP_PATH}/karmada-webhook-cert-secret-tmp.yaml
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rm -rf "${TEMP_PATH}"
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}
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# installCRDs installs crd APIs of karmada in host cluster
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function installCRDs() {
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if [[ ! -f ${KARMADA_APISERVER_CONFIG} ]]; then
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echo "Please provide kubeconfig to connect karmada apiserver"
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return 1
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fi
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# install APIs
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/namespace.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/cluster.karmada.io_clusters.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/policy.karmada.io_propagationpolicies.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/policy.karmada.io_clusterpropagationpolicies.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/policy.karmada.io_overridepolicies.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/policy.karmada.io_clusteroverridepolicies.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/policy.karmada.io_replicaschedulingpolicies.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/work.karmada.io_works.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/work.karmada.io_resourcebindings.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/deploy/work.karmada.io_clusterresourcebindings.yaml"
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}
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# deploy karmada agent in pull mode member clusters
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function deploy_karmada_agent() {
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export KUBECONFIG="${PULL_MODE_CLUSTER_KUBECONFIG}"
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# create namespace for karmada agent
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/namespace.yaml"
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# create service account, cluster role for karmada agent
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/serviceaccount.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/clusterrole.yaml"
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/clusterrolebinding.yaml"
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# create secret
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kubectl create secret generic karmada-kubeconfig --from-file=karmada-kubeconfig="$KARMADA_APISERVER_CONFIG" -n "${KARMADA_SYSTEM_NAMESPACE}"
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# deploy karmada agent
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cp "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml.tmp
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sed -i "s/{{member_cluster_name}}/${PULL_MODE_CLUSTER_NAME}/g" "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml
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kubectl apply -f "${REPO_ROOT}/artifacts/agent/karmada-agent.yaml"
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mv "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml.tmp "${REPO_ROOT}"/artifacts/agent/karmada-agent.yaml
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# Wait for karmada-etcd to come up before launching the rest of the components.
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util::wait_pod_ready "${AGENT_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
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if [[ $? -ne 0 ]]; then
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echo "failed to deploy karmada agent in pull mode cluster"
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return 1
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fi
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}
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#step0: prepare
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# install kind
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util::install_tools sigs.k8s.io/kind v0.10.0
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#step1. create host cluster and member clusters in parallel
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util::create_cluster ${HOST_CLUSTER_NAME} ${HOST_CLUSTER_KUBECONFIG} ${CLUSTER_VERSION} ${KIND_LOG_FILE}
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util::create_cluster ${MEMBER_CLUSTER_1_NAME} ${MEMBER_CLUSTER_1_KUBECONFIG} ${CLUSTER_VERSION} ${KIND_LOG_FILE}
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util::create_cluster ${MEMBER_CLUSTER_2_NAME} ${MEMBER_CLUSTER_2_KUBECONFIG} ${CLUSTER_VERSION} ${KIND_LOG_FILE}
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util::create_cluster ${PULL_MODE_CLUSTER_NAME} ${PULL_MODE_CLUSTER_KUBECONFIG} ${CLUSTER_VERSION} ${KIND_LOG_FILE}
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util::create_cluster "${HOST_CLUSTER_NAME}" "${MAIN_KUBECONFIG}" "${CLUSTER_VERSION}" "${KIND_LOG_FILE}"
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util::create_cluster "${MEMBER_CLUSTER_1_NAME}" "${MEMBER_CLUSTER_KUBECONFIG}" "${CLUSTER_VERSION}" "${KIND_LOG_FILE}"
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util::create_cluster "${MEMBER_CLUSTER_2_NAME}" "${MEMBER_CLUSTER_KUBECONFIG}" "${CLUSTER_VERSION}" "${KIND_LOG_FILE}"
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util::create_cluster "${PULL_MODE_CLUSTER_NAME}" "${MEMBER_CLUSTER_KUBECONFIG}" "${CLUSTER_VERSION}" "${KIND_LOG_FILE}"
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#step2. make images and get karmadactl
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export VERSION="latest"
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export REGISTRY="swr.ap-southeast-1.myhuaweicloud.com/karmada"
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make images
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make images --directory="${REPO_ROOT}"
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GO111MODULE=on go install "github.com/karmada-io/karmada/cmd/karmadactl"
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GOPATH=$(go env GOPATH | awk -F ':' '{print $1}')
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KARMADACTL_BIN="${GOPATH}/bin/karmadactl"
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#step3. generate cert
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util::cmd_must_exist "openssl"
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util::cmd_must_exist_cfssl ${CFSSL_VERSION}
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# create CA signers
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util::create_signing_certkey "${CONTROLPLANE_SUDO}" "${CERT_DIR}" server '"client auth","server auth"'
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# signs a certificate
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util::create_certkey "${CONTROLPLANE_SUDO}" "${CERT_DIR}" "server-ca" karmada system:admin kubernetes.default.svc "*.etcd.karmada-system.svc.cluster.local" "*.karmada-system.svc.cluster.local" "*.karmada-system.svc" "localhost" "127.0.0.1"
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#step4. wait until the host cluster ready
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#step3. wait until the host cluster ready
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echo "Waiting for the host clusters to be ready..."
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util::check_clusters_ready ${HOST_CLUSTER_KUBECONFIG} ${HOST_CLUSTER_NAME}
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util::check_clusters_ready "${MAIN_KUBECONFIG}" "${HOST_CLUSTER_NAME}"
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#step5. load components images to kind cluster
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#step4. load components images to kind cluster
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export VERSION="latest"
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export REGISTRY="swr.ap-southeast-1.myhuaweicloud.com/karmada"
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kind load docker-image "${REGISTRY}/karmada-controller-manager:${VERSION}" --name="${HOST_CLUSTER_NAME}"
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kind load docker-image "${REGISTRY}/karmada-scheduler:${VERSION}" --name="${HOST_CLUSTER_NAME}"
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kind load docker-image "${REGISTRY}/karmada-webhook:${VERSION}" --name="${HOST_CLUSTER_NAME}"
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#step6. generate kubeconfig and cert secret
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#step5. install karmada control plane components
|
||||
KARMADA_APISERVER_IP=$(docker inspect --format='{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "${HOST_CLUSTER_NAME}-control-plane")
|
||||
KARMADA_CRT=$(sudo base64 "${CERT_DIR}/karmada.crt" | tr -d '\r\n')
|
||||
KARMADA_KEY=$(sudo base64 "${CERT_DIR}/karmada.key" | tr -d '\r\n')
|
||||
util::write_client_kubeconfig "${CONTROLPLANE_SUDO}" "${CERT_DIR}" "${KARMADA_CRT}" "${KARMADA_KEY}" "${KARMADA_APISERVER_IP}" "${KARMADA_APISERVER_SECURE_PORT}" karmada-apiserver
|
||||
"${REPO_ROOT}"/hack/deploy-karmada.sh "${MAIN_KUBECONFIG}" "${HOST_CLUSTER_NAME}" "${KARMADA_APISERVER_IP}"
|
||||
|
||||
#step7. install karmada control plane components
|
||||
export KUBECONFIG="${HOST_CLUSTER_KUBECONFIG}"
|
||||
# create namespace for control plane components
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/namespace.yaml"
|
||||
# create service account, cluster role for controller-manager
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/serviceaccount.yaml"
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/clusterrole.yaml"
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/clusterrolebinding.yaml"
|
||||
#step6. wait until the member cluster ready and join member clusters
|
||||
util::check_clusters_ready "${MEMBER_CLUSTER_KUBECONFIG}" "${MEMBER_CLUSTER_1_NAME}"
|
||||
util::check_clusters_ready "${MEMBER_CLUSTER_KUBECONFIG}" "${MEMBER_CLUSTER_2_NAME}"
|
||||
|
||||
generate_cert_secret
|
||||
|
||||
# deploy karmada etcd
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-etcd.yaml"
|
||||
# Wait for karmada-etcd to come up before launching the rest of the components.
|
||||
util::wait_pod_ready ${ETCD_POD_LABEL} "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
|
||||
# deploy karmada apiserver
|
||||
TEMP_PATH=$(mktemp -d)
|
||||
cp -rf ${REPO_ROOT}/artifacts/deploy/karmada-apiserver.yaml ${TEMP_PATH}/karmada-apiserver-tmp.yaml
|
||||
sed -i "s/{{api_addr}}/${KARMADA_APISERVER_IP}/g" ${TEMP_PATH}/karmada-apiserver-tmp.yaml
|
||||
kubectl apply -f "${TEMP_PATH}/karmada-apiserver-tmp.yaml"
|
||||
rm -rf "${TEMP_PATH}"
|
||||
|
||||
# wait for karmada-apiserver to come up before launching the rest of the components.
|
||||
util::wait_pod_ready ${APISERVER_POD_LABEL} "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
|
||||
# deploy kube controller manager
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/kube-controller-manager.yaml"
|
||||
|
||||
# install CRD APIs on karmada apiserver.
|
||||
export KUBECONFIG=${KARMADA_APISERVER_CONFIG}
|
||||
installCRDs
|
||||
|
||||
# deploy webhook configurations on karmada apiserver
|
||||
util::deploy_webhook_configuration ${ROOT_CA_FILE} "${REPO_ROOT}/artifacts/deploy/webhook-configuration.yaml"
|
||||
|
||||
# deploy karmada-controller-manager on host cluster
|
||||
export KUBECONFIG=${HOST_CLUSTER_KUBECONFIG}
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/controller-manager.yaml"
|
||||
# deploy karmada-scheduler on host cluster
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-scheduler.yaml"
|
||||
# deploy karmada-webhook on host cluster
|
||||
kubectl apply -f "${REPO_ROOT}/artifacts/deploy/karmada-webhook.yaml"
|
||||
|
||||
# make sure all karmada control plane components are ready
|
||||
util::wait_pod_ready "${KARMADA_CONTROLLER_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
util::wait_pod_ready "${KARMADA_SCHEDULER_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
util::wait_pod_ready "${KUBE_CONTROLLER_POD_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
util::wait_pod_ready "${KARMADA_WEBHOOK_LABEL}" "${KARMADA_SYSTEM_NAMESPACE}"
|
||||
|
||||
# wait until the member cluster ready
|
||||
util::check_clusters_ready "${MEMBER_CLUSTER_1_KUBECONFIG}" "$MEMBER_CLUSTER_1_NAME"
|
||||
util::check_clusters_ready "${MEMBER_CLUSTER_2_KUBECONFIG}" "$MEMBER_CLUSTER_2_NAME"
|
||||
|
||||
#step8. join push mode member clusters
|
||||
export KUBECONFIG=${KARMADA_APISERVER_CONFIG}
|
||||
${KARMADACTL_BIN} join member1 --cluster-kubeconfig="${MEMBER_CLUSTER_1_KUBECONFIG}"
|
||||
${KARMADACTL_BIN} join member2 --cluster-kubeconfig="${MEMBER_CLUSTER_2_KUBECONFIG}"
|
||||
#join push mode member clusters
|
||||
export KUBECONFIG="${MAIN_KUBECONFIG}"
|
||||
kubectl config use-context "${KARMADA_APISERVER_CLUSTER_NAME}"
|
||||
${KARMADACTL_BIN} join member1 --cluster-kubeconfig="${MEMBER_CLUSTER_KUBECONFIG}"
|
||||
${KARMADACTL_BIN} join member2 --cluster-kubeconfig="${MEMBER_CLUSTER_KUBECONFIG}"
|
||||
|
||||
# wait until the pull mode cluster ready
|
||||
util::check_clusters_ready ${PULL_MODE_CLUSTER_KUBECONFIG} "$PULL_MODE_CLUSTER_NAME"
|
||||
kind load docker-image "${REGISTRY}/karmada-agent:${VERSION}" --name="$PULL_MODE_CLUSTER_NAME"
|
||||
util::check_clusters_ready "${MEMBER_CLUSTER_KUBECONFIG}" "${PULL_MODE_CLUSTER_NAME}"
|
||||
kind load docker-image "${REGISTRY}/karmada-agent:${VERSION}" --name="${PULL_MODE_CLUSTER_NAME}"
|
||||
|
||||
#step9. deploy karmada agent in pull mode member clusters
|
||||
deploy_karmada_agent
|
||||
#step7. deploy karmada agent in pull mode member clusters
|
||||
"${REPO_ROOT}"/hack/deploy-karmada-agent.sh "${MAIN_KUBECONFIG}" "${KARMADA_APISERVER_CLUSTER_NAME}" "${MEMBER_CLUSTER_KUBECONFIG}" "${PULL_MODE_CLUSTER_NAME}"
|
||||
|
||||
function print_success() {
|
||||
echo
|
||||
echo "Local Karmada is running."
|
||||
echo "To start using your karmada, run:"
|
||||
cat <<EOF
|
||||
export KUBECONFIG=$KARMADA_APISERVER_CONFIG
|
||||
export KUBECONFIG=${MAIN_KUBECONFIG}
|
||||
EOF
|
||||
}
|
||||
|
||||
|
|
|
|||
|
|
@ -13,8 +13,8 @@ set -o pipefail
|
|||
# Example 2: export KARMADA_APISERVER_KUBECONFIG=<KUBECONFIG PATH> hack/run-e2e.sh (run e2e with your KUBECONFIG)
|
||||
|
||||
KUBECONFIG_PATH=${KUBECONFIG_PATH:-"${HOME}/.kube"}
|
||||
KARMADA_APISERVER_KUBECONFIG=${KARMADA_APISERVER_KUBECONFIG:-"/var/run/karmada/karmada-apiserver.config"}
|
||||
PULL_BASED_CLUSTERS=${PULL_BASED_CLUSTERS:-"member3:$KUBECONFIG_PATH/member3.config"}
|
||||
KARMADA_APISERVER_KUBECONFIG=${KARMADA_APISERVER_KUBECONFIG:-"$KUBECONFIG_PATH/karmada.config"}
|
||||
PULL_BASED_CLUSTERS=${PULL_BASED_CLUSTERS:-"member3:$KUBECONFIG_PATH/members.config"}
|
||||
|
||||
# Install ginkgo
|
||||
GO111MODULE=on go install github.com/onsi/ginkgo/ginkgo
|
||||
|
|
|
|||
Loading…
Reference in New Issue