#!/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. # A library of helper functions that each provider hosting Kubernetes must implement to use cluster/kube-*.sh scripts. KUBE_ROOT=$(dirname "${BASH_SOURCE}")/../.. source "${KUBE_ROOT}/cluster/vagrant/${KUBE_CONFIG_FILE-"config-default.sh"}" source "${KUBE_ROOT}/cluster/common.sh" function detect-master () { KUBE_MASTER_IP=$MASTER_IP echo "KUBE_MASTER_IP: ${KUBE_MASTER_IP}" 1>&2 } # Get node IP addresses and store in KUBE_NODE_IP_ADDRESSES[] function detect-nodes { echo "Nodes already detected" 1>&2 KUBE_NODE_IP_ADDRESSES=("${NODE_IPS[@]}") } # Verify prereqs on host machine Also sets exports USING_KUBE_SCRIPTS=true so # that our Vagrantfile doesn't error out. function verify-prereqs { for x in vagrant; do if ! which "$x" >/dev/null; then echo "Can't find $x in PATH, please fix and retry." exit 1 fi done local vagrant_plugins=$(vagrant plugin list | sed '-es% .*$%%' '-es% *% %g' | tr ' ' $'\n') local providers=( # Format is: # provider_ctl_executable vagrant_provider_name vagrant_provider_plugin_re # either provider_ctl_executable or vagrant_provider_plugin_re can # be blank (i.e., '') if none is needed by Vagrant (see, e.g., # virtualbox entry) '' vmware_fusion vagrant-vmware-fusion '' vmware_workstation vagrant-vmware-workstation prlctl parallels vagrant-parallels VBoxManage virtualbox '' virsh libvirt vagrant-libvirt '' vsphere vagrant-vsphere ) local provider_found='' local provider_bin local provider_name local provider_plugin_re while [ "${#providers[@]}" -gt 0 ]; do provider_bin=${providers[0]} provider_name=${providers[1]} provider_plugin_re=${providers[2]} providers=("${providers[@]:3}") # If the provider is explicitly set, look only for that provider if [ -n "${VAGRANT_DEFAULT_PROVIDER:-}" ] \ && [ "${VAGRANT_DEFAULT_PROVIDER}" != "${provider_name}" ]; then continue fi if ([ -z "${provider_bin}" ] \ || which "${provider_bin}" >/dev/null 2>&1) \ && ([ -z "${provider_plugin_re}" ] \ || [ -n "$(echo "${vagrant_plugins}" | grep -E "^${provider_plugin_re}$")" ]); then provider_found="${provider_name}" # Stop after finding the first viable provider break fi done if [ -z "${provider_found}" ]; then if [ -n "${VAGRANT_DEFAULT_PROVIDER:-}" ]; then echo "Can't find the necessary components for the ${VAGRANT_DEFAULT_PROVIDER} vagrant provider." echo "Possible reasons could be: " echo -e "\t- vmrun utility is not in your path" echo -e "\t- Vagrant plugin was not found." echo -e "\t- VAGRANT_DEFAULT_PROVIDER is set, but not found." echo "Please fix and retry." else echo "Can't find the necessary components for any viable vagrant providers (e.g., virtualbox), please fix and retry." fi exit 1 fi # Set VAGRANT_CWD to KUBE_ROOT so that we find the right Vagrantfile no # matter what directory the tools are called from. export VAGRANT_CWD="${KUBE_ROOT}" export USING_KUBE_SCRIPTS=true } # Create a set of provision scripts for the master and each of the nodes function create-provision-scripts { kube::util::ensure-temp-dir ( echo "#! /bin/bash" echo-kube-env echo "NODE_IP='${MASTER_IP}'" echo "CONTAINER_ADDR='${MASTER_CONTAINER_ADDR}'" echo "CONTAINER_NETMASK='${MASTER_CONTAINER_NETMASK}'" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-utils.sh" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-network-master.sh" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-master.sh" ) > "${KUBE_TEMP}/master-start.sh" for (( i=0; i<${#NODE_NAMES[@]}; i++)); do ( echo "#! /bin/bash" echo-kube-env echo "NODE_NAME=(${NODE_NAMES[$i]})" echo "NODE_IP='${NODE_IPS[$i]}'" echo "NODE_ID='$i'" echo "CONTAINER_ADDR='${NODE_CONTAINER_ADDRS[$i]}'" echo "CONTAINER_NETMASK='${NODE_CONTAINER_NETMASKS[$i]}'" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-utils.sh" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-network-node.sh" awk '!/^#/' "${KUBE_ROOT}/cluster/vagrant/provision-node.sh" ) > "${KUBE_TEMP}/node-start-${i}.sh" done } function echo-kube-env() { echo "KUBE_ROOT=/vagrant" echo "INSTANCE_PREFIX='${INSTANCE_PREFIX}'" echo "MASTER_NAME='${INSTANCE_PREFIX}-master'" echo "MASTER_IP='${MASTER_IP}'" echo "NODE_NAMES=(${NODE_NAMES[@]})" echo "NODE_IPS=(${NODE_IPS[@]})" echo "DEFAULT_NETWORK_IF_NAME=${DEFAULT_NETWORK_IF_NAME}" echo "CONTAINER_SUBNET='${CONTAINER_SUBNET}'" echo "CLUSTER_IP_RANGE='${CLUSTER_IP_RANGE}'" echo "MASTER_CONTAINER_SUBNET='${MASTER_CONTAINER_SUBNET}'" echo "NODE_CONTAINER_NETMASKS='${NODE_CONTAINER_NETMASKS[@]}'" echo "NODE_CONTAINER_SUBNETS=(${NODE_CONTAINER_SUBNETS[@]})" echo "SERVICE_CLUSTER_IP_RANGE='${SERVICE_CLUSTER_IP_RANGE}'" echo "MASTER_USER='${MASTER_USER}'" echo "MASTER_PASSWD='${MASTER_PASSWD}'" echo "KUBE_USER='${KUBE_USER}'" echo "KUBE_PASSWORD='${KUBE_PASSWORD}'" echo "KUBE_BEARER_TOKEN='${KUBE_BEARER_TOKEN}'" echo "ENABLE_CLUSTER_MONITORING='${ENABLE_CLUSTER_MONITORING}'" echo "ENABLE_CLUSTER_LOGGING='${ENABLE_CLUSTER_LOGGING:-false}'" echo "ELASTICSEARCH_LOGGING_REPLICAS='${ELASTICSEARCH_LOGGING_REPLICAS:-1}'" echo "ENABLE_NODE_LOGGING='${ENABLE_NODE_LOGGING:-false}'" echo "ENABLE_CLUSTER_UI='${ENABLE_CLUSTER_UI}'" echo "ENABLE_HOSTPATH_PROVISIONER='${ENABLE_HOSTPATH_PROVISIONER:-false}'" echo "LOGGING_DESTINATION='${LOGGING_DESTINATION:-}'" echo "ENABLE_CLUSTER_DNS='${ENABLE_CLUSTER_DNS:-false}'" echo "DNS_SERVER_IP='${DNS_SERVER_IP:-}'" echo "DNS_DOMAIN='${DNS_DOMAIN:-}'" echo "RUNTIME_CONFIG='${RUNTIME_CONFIG:-}'" echo "ADMISSION_CONTROL='${ADMISSION_CONTROL:-}'" echo "DOCKER_OPTS='${EXTRA_DOCKER_OPTS:-}'" echo "VAGRANT_DEFAULT_PROVIDER='${VAGRANT_DEFAULT_PROVIDER:-}'" echo "KUBELET_TOKEN='${KUBELET_TOKEN:-}'" echo "KUBE_PROXY_TOKEN='${KUBE_PROXY_TOKEN:-}'" echo "MASTER_EXTRA_SANS='${MASTER_EXTRA_SANS:-}'" echo "ENABLE_CPU_CFS_QUOTA='${ENABLE_CPU_CFS_QUOTA}'" echo "NETWORK_PROVIDER='${NETWORK_PROVIDER:-}'" echo "OPENCONTRAIL_TAG='${OPENCONTRAIL_TAG:-}'" echo "OPENCONTRAIL_KUBERNETES_TAG='${OPENCONTRAIL_KUBERNETES_TAG:-}'" echo "OPENCONTRAIL_PUBLIC_SUBNET='${OPENCONTRAIL_PUBLIC_SUBNET:-}'" echo "E2E_STORAGE_TEST_ENVIRONMENT='${E2E_STORAGE_TEST_ENVIRONMENT:-}'" echo "CUSTOM_FEDORA_REPOSITORY_URL='${CUSTOM_FEDORA_REPOSITORY_URL:-}'" echo "EVICTION_HARD='${EVICTION_HARD:-}'" } function verify-cluster { # TODO: How does the user know the difference between "tak[ing] some # time" and "loop[ing] forever"? Can we give more specific feedback on # whether "an error" has occurred? echo "Each machine instance has been created/updated." echo " Now waiting for the Salt provisioning process to complete on each machine." echo " This can take some time based on your network, disk, and cpu speed." echo " It is possible for an error to occur during Salt provision of cluster and this could loop forever." # verify master has all required daemons echo "Validating master" local machine="master" local -a required_processes=("kube-apiserver" "kube-scheduler" "kube-controller-manager" "kubelet" "docker") local validated="1" until [[ "$validated" == "0" ]]; do validated="0" for process in "${required_processes[@]}"; do vagrant ssh "${machine}" -c "pgrep -f ${process}" >/dev/null 2>&1 || { printf "." validated="1" sleep 2 } done done # verify each node has all required daemons local i for (( i=0; i<${#NODE_NAMES[@]}; i++)); do echo "Validating ${VAGRANT_NODE_NAMES[$i]}" local machine=${VAGRANT_NODE_NAMES[$i]} local -a required_processes=("kube-proxy" "kubelet" "docker") local validated="1" until [[ "${validated}" == "0" ]]; do validated="0" for process in "${required_processes[@]}"; do vagrant ssh "${machine}" -c "pgrep -f ${process}" >/dev/null 2>&1 || { printf "." validated="1" sleep 2 } done done done echo echo "Waiting for each node to be registered with cloud provider" for (( i=0; i<${#NODE_NAMES[@]}; i++)); do local validated="0" start="$(date +%s)" until [[ "$validated" == "1" ]]; do now="$(date +%s)" # Timeout set to 3 minutes if [ $((now - start)) -gt 180 ]; then echo "Timeout while waiting for echo node to be registered with cloud provider" exit 2 fi local nodes=$("${KUBE_ROOT}/cluster/kubectl.sh" get nodes -o name) validated=$(echo $nodes | grep -c "${NODE_NAMES[i]}") || { printf "." sleep 2 validated="0" } done done # By this time, all kube api calls should work, so no need to loop and retry. echo "Validating we can run kubectl commands." vagrant ssh master --command "kubectl get pods" || { echo "WARNING: kubectl to localhost failed. This could mean localhost is not bound to an IP" } ( # ensures KUBECONFIG is set get-kubeconfig-basicauth get-kubeconfig-bearertoken echo echo "Kubernetes cluster is running." echo echo "The master is running at:" echo echo " https://${MASTER_IP}" echo echo "Administer and visualize its resources using Cockpit:" echo echo " https://${MASTER_IP}:9090" echo echo "For more information on Cockpit, visit http://cockpit-project.org" echo echo "The user name and password to use is located in ${KUBECONFIG}" echo ) } # Instantiate a kubernetes cluster function kube-up { load-or-gen-kube-basicauth load-or-gen-kube-bearertoken get-tokens create-provision-scripts vagrant up --no-parallel export KUBE_CERT="/tmp/$RANDOM-kubecfg.crt" export KUBE_KEY="/tmp/$RANDOM-kubecfg.key" export CA_CERT="/tmp/$RANDOM-kubernetes.ca.crt" export CONTEXT="vagrant" ( umask 077 vagrant ssh master -- sudo cat /srv/kubernetes/kubecfg.crt >"${KUBE_CERT}" 2>/dev/null vagrant ssh master -- sudo cat /srv/kubernetes/kubecfg.key >"${KUBE_KEY}" 2>/dev/null vagrant ssh master -- sudo cat /srv/kubernetes/ca.crt >"${CA_CERT}" 2>/dev/null # Update the user's kubeconfig to include credentials for this apiserver. create-kubeconfig create-kubeconfig-for-federation ) verify-cluster } # Delete a kubernetes cluster function kube-down { vagrant destroy -f } # Update a kubernetes cluster with latest source function kube-push { get-kubeconfig-basicauth get-kubeconfig-bearertoken create-provision-scripts vagrant provision } # Execute prior to running tests to build a release if required for env function test-build-release { # Make a release "${KUBE_ROOT}/build/release.sh" } # Execute prior to running tests to initialize required structure function test-setup { "${KUBE_ROOT}/cluster/kube-up.sh" echo "Vagrant test setup complete" 1>&2 } # Execute after running tests to perform any required clean-up function test-teardown { kube-down } # Find the node name based on the IP address function find-vagrant-name-by-ip { local ip="$1" local ip_pattern="${NODE_IP_BASE}(.*)" # This is subtle. We map 10.245.2.2 -> node-1. We do this by matching a # regexp and using the capture to construct the name. [[ $ip =~ $ip_pattern ]] || { return 1 } echo "node-$((${BASH_REMATCH[1]} - 1))" } # Find the vagrant machine name based on the host name of the node function find-vagrant-name-by-node-name { local ip="$1" if [[ "$ip" == "${INSTANCE_PREFIX}-master" ]]; then echo "master" return $? fi local ip_pattern="${INSTANCE_PREFIX}-node-(.*)" [[ $ip =~ $ip_pattern ]] || { return 1 } echo "node-${BASH_REMATCH[1]}" } # SSH to a node by name or IP ($1) and run a command ($2). function ssh-to-node { local node="$1" local cmd="$2" local machine machine=$(find-vagrant-name-by-ip $node) || true [[ -n ${machine-} ]] || machine=$(find-vagrant-name-by-node-name $node) || true [[ -n ${machine-} ]] || { echo "Cannot find machine to ssh to: $1" return 1 } vagrant ssh "${machine}" -c "${cmd}" } # Perform preparations required to run e2e tests function prepare-e2e() { echo "Vagrant doesn't need special preparations for e2e tests" 1>&2 } function get-tokens() { KUBELET_TOKEN=$(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) }