mirror of
https://github.com/ceph/ceph-csi.git
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1111 lines
34 KiB
Bash
Executable File
1111 lines
34 KiB
Bash
Executable File
#!/bin/bash
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# Copyright 2016 The Kubernetes Authors.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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set -o errexit
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set -o nounset
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set -o pipefail
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# A library of helper functions that each provider hosting Kubernetes must implement to use cluster/kube-*.sh scripts.
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KUBE_ROOT=$(dirname "${BASH_SOURCE[0]}")/../..
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# shellcheck source=./config-common.sh
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source "${KUBE_ROOT}/cluster/photon-controller/config-common.sh"
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# shellcheck source=./config-default.sh
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source "${KUBE_ROOT}/cluster/photon-controller/${KUBE_CONFIG_FILE-"config-default.sh"}"
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# shellcheck source=../common.sh
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source "${KUBE_ROOT}/cluster/common.sh"
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readonly PHOTON="photon -n"
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# Naming scheme for VMs (masters & nodes)
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readonly MASTER_NAME="${INSTANCE_PREFIX}-master"
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# shell check claims this doesn't work because you can't use a variable in a brace
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# range. It does work because we're calling eval.
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# shellcheck disable=SC2051
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readonly NODE_NAMES=($(eval echo "${INSTANCE_PREFIX}"-node-{1.."${NUM_NODES}"}))
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#####################################################################
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#
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# Public API
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#
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#####################################################################
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#
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# detect-master will query Photon Controller for the Kubernetes master.
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# It assumes that the VM name for the master is unique.
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# It will set KUBE_MASTER_ID to be the VM ID of the master
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# It will set KUBE_MASTER_IP to be the IP address of the master
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# If the silent parameter is passed, it will not print when the master
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# is found: this is used internally just to find the MASTER
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#
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function detect-master {
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local silent=${1:-""}
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local tenant_args="--tenant ${PHOTON_TENANT} --project ${PHOTON_PROJECT}"
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KUBE_MASTER=${MASTER_NAME}
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KUBE_MASTER_ID=${KUBE_MASTER_ID:-""}
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KUBE_MASTER_IP=${KUBE_MASTER_IP:-""}
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# We don't want silent failure: we check for failure
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set +o pipefail
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if [[ -z ${KUBE_MASTER_ID} ]]; then
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KUBE_MASTER_ID=$(${PHOTON} vm list ${tenant_args} | grep $'\t'"kubernetes-master"$'\t' | awk '{print $1}')
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fi
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if [[ -z ${KUBE_MASTER_ID} ]]; then
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kube::log::error "Could not find Kubernetes master node ID. Make sure you've launched a cluster with kube-up.sh"
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exit 1
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fi
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if [[ -z "${KUBE_MASTER_IP-}" ]]; then
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# Pick out the NICs that have a MAC address owned VMware (with OUI 00:0C:29)
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# Make sure to ignore lines that have a network interface but no address
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KUBE_MASTER_IP=$(${PHOTON} vm networks "${KUBE_MASTER_ID}" | grep -i $'\t'"00:0C:29" | grep -E '[0-9]+\.[0-9]+\.[0-9]+\.[0-9]+' | head -1 | awk -F'\t' '{print $3}')
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fi
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if [[ -z "${KUBE_MASTER_IP-}" ]]; then
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kube::log::error "Could not find Kubernetes master node IP. Make sure you've launched a cluster with 'kube-up.sh'" >&2
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exit 1
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fi
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if [[ -z ${silent} ]]; then
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kube::log::status "Master: $KUBE_MASTER ($KUBE_MASTER_IP)"
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fi
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# Reset default set in common.sh
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set -o pipefail
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}
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#
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# detect-nodes will query Photon Controller for the Kubernetes nodes
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# It assumes that the VM name for the nodes are unique.
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# It assumes that NODE_NAMES has been set
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# It will set KUBE_NODE_IP_ADDRESSES to be the VM IPs of the nodes
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# It will set the KUBE_NODE_IDS to be the VM IDs of the nodes
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# If the silent parameter is passed, it will not print when the nodes
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# are found: this is used internally just to find the MASTER
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#
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function detect-nodes {
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local silent=${1:-""}
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local failure=0
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local tenant_args="--tenant ${PHOTON_TENANT} --project ${PHOTON_PROJECT}"
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KUBE_NODE_IP_ADDRESSES=()
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KUBE_NODE_IDS=()
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# We don't want silent failure: we check for failure
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set +o pipefail
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for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
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local node_id
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node_id=$(${PHOTON} vm list ${tenant_args} | grep $'\t'"${NODE_NAMES[${i}]}"$'\t' | awk '{print $1}')
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if [[ -z ${node_id} ]]; then
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kube::log::error "Could not find ${NODE_NAMES[${i}]}"
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failure=1
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fi
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KUBE_NODE_IDS+=("${node_id}")
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# Pick out the NICs that have a MAC address owned VMware (with OUI 00:0C:29)
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# Make sure to ignore lines that have a network interface but no address
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node_ip=$(${PHOTON} vm networks "${node_id}" | grep -i $'\t'"00:0C:29" | grep -E '[0-9]+\.[0-9]+\.[0-9]+\.[0-9]+' | head -1 | awk -F'\t' '{print $3}')
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KUBE_NODE_IP_ADDRESSES+=("${node_ip}")
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if [[ -z ${silent} ]]; then
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kube::log::status "Node: ${NODE_NAMES[${i}]} (${KUBE_NODE_IP_ADDRESSES[${i}]})"
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fi
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done
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if [[ ${failure} -ne 0 ]]; then
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exit 1
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fi
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# Reset default set in common.sh
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set -o pipefail
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}
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# Get node names if they are not static.
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function detect-node-names {
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echo "TODO: detect-node-names" 1>&2
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}
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#
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# Verifies that this computer has sufficient software installed
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# so that it can run the rest of the script.
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#
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function verify-prereqs {
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verify-cmd-in-path photon
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verify-cmd-in-path ssh
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verify-cmd-in-path scp
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verify-cmd-in-path ssh-add
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verify-cmd-in-path openssl
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verify-cmd-in-path mkisofs
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}
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#
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# The entry point for bringing up a Kubernetes cluster
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#
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function kube-up {
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verify-prereqs
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verify-ssh-prereqs
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verify-photon-config
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kube::util::ensure-temp-dir
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find-release-tars
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find-image-id
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load-or-gen-kube-basicauth
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gen-cloud-init-iso
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gen-master-start
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create-master-vm
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install-salt-on-master
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gen-node-start
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install-salt-on-nodes
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detect-nodes -s
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install-kubernetes-on-master
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install-kubernetes-on-nodes
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wait-master-api
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wait-node-apis
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setup-pod-routes
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copy-kube-certs
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kube::log::status "Creating kubeconfig..."
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create-kubeconfig
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}
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# Delete a kubernetes cluster
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function kube-down {
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detect-master
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detect-nodes
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pc-delete-vm "${KUBE_MASTER}" "${KUBE_MASTER_ID}"
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for (( node=0; node<${#KUBE_NODE_IDS[@]}; node++)); do
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pc-delete-vm "${NODE_NAMES[${node}]}" "${KUBE_NODE_IDS[${node}]}"
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done
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}
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# Update a kubernetes cluster
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function kube-push {
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echo "TODO: kube-push" 1>&2
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}
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# Prepare update a kubernetes component
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function prepare-push {
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echo "TODO: prepare-push" 1>&2
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}
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# Update a kubernetes master
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function push-master {
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echo "TODO: push-master" 1>&2
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}
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# Update a kubernetes node
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function push-node {
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echo "TODO: push-node" 1>&2
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}
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# Execute prior to running tests to build a release if required for env
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function test-build-release {
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echo "TODO: test-build-release" 1>&2
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}
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# Execute prior to running tests to initialize required structure
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function test-setup {
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echo "TODO: test-setup" 1>&2
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}
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# Execute after running tests to perform any required clean-up
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function test-teardown {
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echo "TODO: test-teardown" 1>&2
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}
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#####################################################################
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#
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# Internal functions
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#
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#####################################################################
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#
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# Uses Photon Controller to make a VM
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# Takes two parameters:
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# - The name of the VM (Assumed to be unique)
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# - The name of the flavor to create the VM (Assumed to be unique)
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#
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# It assumes that the variables in config-common.sh (PHOTON_TENANT, etc)
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# are set correctly.
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#
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# It also assumes the cloud-init ISO has been generated
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#
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# When it completes, it sets two environment variables for use by the
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# caller: _VM_ID (the ID of the created VM) and _VM_IP (the IP address
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# of the created VM)
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#
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function pc-create-vm {
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local vm_name="${1}"
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local vm_flavor="${2}"
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local rc=0
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local i=0
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# Create the VM
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local tenant_args="--tenant ${PHOTON_TENANT} --project ${PHOTON_PROJECT}"
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local vm_args="--name ${vm_name} --image ${PHOTON_IMAGE_ID} --flavor ${vm_flavor}"
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local disk_args="disk-1 ${PHOTON_DISK_FLAVOR} boot=true"
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rc=0
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_VM_ID=$(${PHOTON} vm create ${tenant_args} ${vm_args} --disks "${disk_args}" 2>&1) || rc=$?
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if [[ ${rc} -ne 0 ]]; then
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kube::log::error "Failed to create VM. Error output:"
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echo "${_VM_ID}"
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exit 1
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fi
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kube::log::status "Created VM ${vm_name}: ${_VM_ID}"
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# Start the VM
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# Note that the VM has cloud-init in it, and we attach an ISO that
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# contains a user-data.txt file for cloud-init. When the VM starts,
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# cloud-init will temporarily mount the ISO and configure the VM
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# Our user-data will configure the 'kube' user and set up the ssh
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# authorized keys to allow us to ssh to the VM and do further work.
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run-cmd "${PHOTON} vm attach-iso -p ${KUBE_TEMP}/cloud-init.iso ${_VM_ID}"
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run-cmd "${PHOTON} vm start ${_VM_ID}"
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kube::log::status "Started VM ${vm_name}, waiting for network address..."
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# Wait for the VM to be started and connected to the network
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have_network=0
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for i in {1..120}; do
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# photon -n vm networks print several fields:
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# NETWORK MAC IP GATEWAY CONNECTED?
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# We wait until CONNECTED is True
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rc=0
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networks=$(${PHOTON} vm networks "${_VM_ID}") || rc=$?
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if [[ ${rc} -ne 0 ]]; then
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kube::log::error "'${PHOTON} vm networks ${_VM_ID}' failed. Error output: "
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echo "${networks}"
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fi
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networks=$(echo "${networks}" | grep True) || rc=$?
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if [[ ${rc} -eq 0 ]]; then
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have_network=1
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break;
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fi
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sleep 1
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done
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# Fail if the VM didn't come up
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if [[ ${have_network} -eq 0 ]]; then
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kube::log::error "VM ${vm_name} failed to start up: no IP was found"
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exit 1
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fi
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# Find the IP address of the VM
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_VM_IP=$(${PHOTON} vm networks "${_VM_ID}" | head -1 | awk -F'\t' '{print $3}')
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kube::log::status "VM ${vm_name} has IP: ${_VM_IP}"
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}
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#
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# Delete one of our VMs
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# If it is STARTED, it will be stopped first.
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#
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function pc-delete-vm {
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local vm_name="${1}"
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local vm_id="${2}"
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local rc=0
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kube::log::status "Deleting VM ${vm_name}"
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# In some cases, head exits before photon, so the pipline exits with
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# SIGPIPE. We disable the pipefile option to hide that failure.
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set +o pipefail
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${PHOTON} vm show "${vm_id}" | head -1 | grep STARTED > /dev/null 2>&1 || rc=$?
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set +o pipefail
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if [[ ${rc} -eq 0 ]]; then
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${PHOTON} vm stop "${vm_id}" > /dev/null 2>&1 || rc=$?
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if [[ ${rc} -ne 0 ]]; then
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kube::log::error "Error: could not stop ${vm_name} ($vm_id)"
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kube::log::error "Please investigate and stop manually"
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return
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fi
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fi
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rc=0
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${PHOTON} vm delete "${vm_id}" > /dev/null 2>&1 || rc=$?
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if [[ ${rc} -ne 0 ]]; then
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kube::log::error "Error: could not delete ${vm_name} ($vm_id)"
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kube::log::error "Please investigate and delete manually"
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fi
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}
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#
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# Looks for the image named PHOTON_IMAGE
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# Sets PHOTON_IMAGE_ID to be the id of that image.
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# We currently assume there is exactly one image with name
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#
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function find-image-id {
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local rc=0
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PHOTON_IMAGE_ID=$(${PHOTON} image list | grep $'\t'"${PHOTON_IMAGE}"$'\t' | head -1 | grep READY | awk -F'\t' '{print $1}')
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if [[ ${rc} -ne 0 ]]; then
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kube::log::error "Cannot find image \"${PHOTON_IMAGE}\""
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fail=1
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fi
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}
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#
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# Generate an ISO with a single file called user-data.txt
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# This ISO will be used to configure cloud-init (which is already
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# on the VM). We will tell cloud-init to create the kube user/group
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# and give ourselves the ability to ssh to the VM with ssh. We also
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# allow people to ssh with the same password that was randomly
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# generated for access to Kubernetes as a backup method.
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#
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# Assumes environment variables:
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# - VM_USER
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# - KUBE_PASSWORD (randomly generated password)
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#
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function gen-cloud-init-iso {
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local password_hash
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password_hash=$(openssl passwd -1 "${KUBE_PASSWORD}")
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local ssh_key
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ssh_key=$(ssh-add -L | head -1)
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# Make the user-data file that will be used by cloud-init
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(
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echo "#cloud-config"
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echo ""
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echo "groups:"
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echo " - ${VM_USER}"
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echo ""
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echo "users:"
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echo " - name: ${VM_USER}"
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echo " gecos: Kubernetes"
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echo " primary-group: ${VM_USER}"
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echo " lock-passwd: false"
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echo " passwd: ${password_hash}"
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echo " ssh-authorized-keys: "
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echo " - ${ssh_key}"
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echo " sudo: ALL=(ALL) NOPASSWD:ALL"
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echo " shell: /bin/bash"
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echo ""
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echo "hostname:"
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echo " - hostname: kube"
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) > "${KUBE_TEMP}/user-data.txt"
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# Make the ISO that will contain the user-data
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# The -rock option means that we'll generate real filenames (long and with case)
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run-cmd "mkisofs -rock -o ${KUBE_TEMP}/cloud-init.iso ${KUBE_TEMP}/user-data.txt"
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}
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#
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# Generate a script used to install salt on the master
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# It is placed into $KUBE_TEMP/master-start.sh
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#
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function gen-master-start {
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python "${KUBE_ROOT}/third_party/htpasswd/htpasswd.py" \
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-b -c "${KUBE_TEMP}/htpasswd" "${KUBE_USER}" "${KUBE_PASSWORD}"
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local htpasswd
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htpasswd=$(cat "${KUBE_TEMP}/htpasswd")
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# This calculation of the service IP should work, but if you choose an
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# alternate subnet, there's a small chance you'd need to modify the
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# service_ip, below. We'll choose an IP like 10.244.240.1 by taking
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# the first three octets of the SERVICE_CLUSTER_IP_RANGE and tacking
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# on a .1
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local octets
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local service_ip
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octets=($(echo "${SERVICE_CLUSTER_IP_RANGE}" | sed -e 's|/.*||' -e 's/\./ /g'))
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((octets[3]+=1))
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service_ip=$(echo "${octets[*]}" | sed 's/ /./g')
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MASTER_EXTRA_SANS="IP:${service_ip},DNS:${MASTER_NAME},${MASTER_EXTRA_SANS}"
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(
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echo "#! /bin/bash"
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echo "readonly MY_NAME=${MASTER_NAME}"
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grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/hostname.sh"
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echo "cd /home/kube/cache/kubernetes-install"
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echo "readonly KUBE_MASTER_IP='{$KUBE_MASTER_IP}'"
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echo "readonly MASTER_NAME='${MASTER_NAME}'"
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echo "readonly MASTER_IP_RANGE='${MASTER_IP_RANGE}'"
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echo "readonly INSTANCE_PREFIX='${INSTANCE_PREFIX}'"
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echo "readonly NODE_INSTANCE_PREFIX='${INSTANCE_PREFIX}-node'"
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echo "readonly NODE_IP_RANGES='${NODE_IP_RANGES}'"
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echo "readonly SERVICE_CLUSTER_IP_RANGE='${SERVICE_CLUSTER_IP_RANGE}'"
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echo "readonly ENABLE_NODE_LOGGING='${ENABLE_NODE_LOGGING:-false}'"
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echo "readonly LOGGING_DESTINATION='${LOGGING_DESTINATION:-}'"
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echo "readonly ENABLE_CLUSTER_DNS='${ENABLE_CLUSTER_DNS:-false}'"
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echo "readonly ENABLE_CLUSTER_UI='${ENABLE_CLUSTER_UI:-false}'"
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echo "readonly DNS_SERVER_IP='${DNS_SERVER_IP:-}'"
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echo "readonly DNS_DOMAIN='${DNS_DOMAIN:-}'"
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echo "readonly KUBE_USER='${KUBE_USER:-}'"
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echo "readonly KUBE_PASSWORD='${KUBE_PASSWORD:-}'"
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echo "readonly SERVER_BINARY_TAR='${SERVER_BINARY_TAR##*/}'"
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echo "readonly SALT_TAR='${SALT_TAR##*/}'"
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echo "readonly MASTER_HTPASSWD='${htpasswd}'"
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echo "readonly E2E_STORAGE_TEST_ENVIRONMENT='${E2E_STORAGE_TEST_ENVIRONMENT:-}'"
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echo "readonly MASTER_EXTRA_SANS='${MASTER_EXTRA_SANS:-}'"
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grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/create-dynamic-salt-files.sh"
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grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/install-release.sh"
|
|
grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/salt-master.sh"
|
|
) > "${KUBE_TEMP}/master-start.sh"
|
|
}
|
|
|
|
#
|
|
# Generate the scripts for each node to install salt
|
|
#
|
|
function gen-node-start {
|
|
local i
|
|
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
|
|
(
|
|
echo "#! /bin/bash"
|
|
echo "readonly MY_NAME=${NODE_NAMES[${i}]}"
|
|
grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/hostname.sh"
|
|
echo "KUBE_MASTER=${KUBE_MASTER}"
|
|
echo "KUBE_MASTER_IP=${KUBE_MASTER_IP}"
|
|
echo "NODE_IP_RANGE=$NODE_IP_RANGES"
|
|
grep -v "^#" "${KUBE_ROOT}/cluster/photon-controller/templates/salt-minion.sh"
|
|
) > "${KUBE_TEMP}/node-start-${i}.sh"
|
|
done
|
|
}
|
|
|
|
#
|
|
# Create a script that will run on the Kubernetes master and will run salt
|
|
# to configure the master. We make it a script instead of just running a
|
|
# single ssh command so that we can get logging.
|
|
#
|
|
function gen-master-salt {
|
|
gen-salt "kubernetes-master"
|
|
}
|
|
|
|
#
|
|
# Create scripts that will be run on the Kubernetes master. Each of these
|
|
# will invoke salt to configure one of the nodes
|
|
#
|
|
function gen-node-salt {
|
|
local i
|
|
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
|
|
gen-salt "${NODE_NAMES[${i}]}"
|
|
done
|
|
}
|
|
|
|
#
|
|
# Shared implementation for gen-master-salt and gen-node-salt
|
|
# Writes a script that installs Kubernetes with salt
|
|
# The core of the script is simple (run 'salt ... state.highstate')
|
|
# We also do a bit of logging so we can debug problems
|
|
#
|
|
# There is also a funky workaround for an issue with docker 1.9
|
|
# (elsewhere we peg ourselves to docker 1.9). It's fixed in 1.10,
|
|
# so we should be able to remove it in the future
|
|
# https://github.com/docker/docker/issues/18113
|
|
# The problem is that sometimes the install (with apt-get) of
|
|
# docker fails. Deleting a file and retrying fixes it.
|
|
#
|
|
# Tell shellcheck to ignore our variables within single quotes:
|
|
# We're writing a script, not executing it, so this is normal
|
|
# shellcheck disable=SC2016
|
|
function gen-salt {
|
|
node_name=${1}
|
|
(
|
|
echo '#!/bin/bash'
|
|
echo ''
|
|
echo "node=${node_name}"
|
|
echo 'out=/tmp/${node}-salt.out'
|
|
echo 'log=/tmp/${node}-salt.log'
|
|
echo ''
|
|
echo 'echo $(date) >> $log'
|
|
echo 'salt ${node} state.highstate -t 30 --no-color > ${out}'
|
|
echo 'grep -E "Failed:[[:space:]]+0" ${out}'
|
|
echo 'success=$?'
|
|
echo 'cat ${out} >> ${log}'
|
|
echo ''
|
|
echo 'if [[ ${success} -ne 0 ]]; then'
|
|
echo ' # Did we try to install docker-engine?'
|
|
echo ' attempted=$(grep docker-engine ${out} | wc -l)'
|
|
echo ' # Is docker-engine installed?'
|
|
echo ' installed=$(salt --output=txt ${node} pkg.version docker-engine | wc -l)'
|
|
echo ' if [[ ${attempted} -ne 0 && ${installed} -eq 0 ]]; then'
|
|
echo ' echo "Unwedging docker-engine install" >> ${log}'
|
|
echo ' salt ${node} cmd.run "rm -f /var/lib/docker/network/files/local-kv.db"'
|
|
echo ' fi'
|
|
echo 'fi'
|
|
echo 'exit ${success}'
|
|
) > "${KUBE_TEMP}/${node_name}-salt.sh"
|
|
}
|
|
|
|
#
|
|
# Generate a script to add a route to a host (master or node)
|
|
# The script will do two things:
|
|
# 1. Add the route immediately with the route command
|
|
# 2. Persist the route by saving it in /etc/network/interfaces
|
|
# This was done with a script because it was easier to get the quoting right
|
|
# and make it clear.
|
|
#
|
|
function gen-add-route {
|
|
route=${1}
|
|
gateway=${2}
|
|
(
|
|
echo '#!/bin/bash'
|
|
echo ''
|
|
echo '# Immediately add route'
|
|
echo "sudo route add -net ${route} gw ${gateway}"
|
|
echo ''
|
|
echo '# Persist route so it lasts over restarts'
|
|
echo 'sed -in "s|^iface eth0.*|&\n post-up route add -net' "${route} gw ${gateway}|"'" /etc/network/interfaces'
|
|
) > "${KUBE_TEMP}/add-route.sh"
|
|
}
|
|
|
|
#
|
|
# Create the Kubernetes master VM
|
|
# Sets global variables:
|
|
# - KUBE_MASTER (Name)
|
|
# - KUBE_MASTER_ID (Photon VM ID)
|
|
# - KUBE_MASTER_IP (IP address)
|
|
#
|
|
function create-master-vm {
|
|
kube::log::status "Starting master VM..."
|
|
pc-create-vm "${MASTER_NAME}" "${PHOTON_MASTER_FLAVOR}"
|
|
KUBE_MASTER=${MASTER_NAME}
|
|
KUBE_MASTER_ID=${_VM_ID}
|
|
KUBE_MASTER_IP=${_VM_IP}
|
|
}
|
|
|
|
#
|
|
# Install salt on the Kubernetes master
|
|
# Relies on the master-start.sh script created in gen-master-start
|
|
#
|
|
function install-salt-on-master {
|
|
kube::log::status "Installing salt on master..."
|
|
upload-server-tars "${MASTER_NAME}" "${KUBE_MASTER_IP}"
|
|
run-script-remotely "${KUBE_MASTER_IP}" "${KUBE_TEMP}/master-start.sh"
|
|
}
|
|
|
|
#
|
|
# Installs salt on Kubernetes nodes in parallel
|
|
# Relies on the node-start script created in gen-node-start
|
|
#
|
|
function install-salt-on-nodes {
|
|
kube::log::status "Creating nodes and installing salt on them..."
|
|
|
|
# Start each of the VMs in parallel
|
|
# In the future, we'll batch this because it doesn't scale well
|
|
# past 10 or 20 nodes
|
|
local node
|
|
for (( node=0; node<${#NODE_NAMES[@]}; node++)); do
|
|
(
|
|
pc-create-vm "${NODE_NAMES[${node}]}" "${PHOTON_NODE_FLAVOR}"
|
|
run-script-remotely "${_VM_IP}" "${KUBE_TEMP}/node-start-${node}.sh"
|
|
) &
|
|
done
|
|
|
|
# Wait for the node VM startups to complete
|
|
local fail=0
|
|
local job
|
|
for job in $(jobs -p); do
|
|
wait "${job}" || fail=$((fail + 1))
|
|
done
|
|
if (( fail != 0 )); then
|
|
kube::log::error "Failed to start ${fail}/${NUM_NODES} nodes"
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
#
|
|
# Install Kubernetes on the master.
|
|
# This uses the kubernetes-master-salt.sh script created by gen-master-salt
|
|
# That script uses salt to install Kubernetes
|
|
#
|
|
function install-kubernetes-on-master {
|
|
# Wait until salt-master is running: it may take a bit
|
|
try-until-success-ssh "${KUBE_MASTER_IP}" \
|
|
"Waiting for salt-master to start on ${KUBE_MASTER}" \
|
|
"pgrep salt-master"
|
|
gen-master-salt
|
|
copy-file-to-vm "${_VM_IP}" "${KUBE_TEMP}/kubernetes-master-salt.sh" "/tmp/kubernetes-master-salt.sh"
|
|
try-until-success-ssh "${KUBE_MASTER_IP}" \
|
|
"Installing Kubernetes on ${KUBE_MASTER} via salt" \
|
|
"sudo /bin/bash /tmp/kubernetes-master-salt.sh"
|
|
}
|
|
|
|
#
|
|
# Install Kubernetes on the nodes in parallel
|
|
# This uses the kubernetes-master-salt.sh script created by gen-node-salt
|
|
# That script uses salt to install Kubernetes
|
|
#
|
|
function install-kubernetes-on-nodes {
|
|
gen-node-salt
|
|
|
|
# Run in parallel to bring up the cluster faster
|
|
# TODO: Batch this so that we run up to N in parallel, so
|
|
# we don't overload this machine or the salt master
|
|
local node
|
|
for (( node=0; node<${#NODE_NAMES[@]}; node++)); do
|
|
(
|
|
copy-file-to-vm "${_VM_IP}" "${KUBE_TEMP}/${NODE_NAMES[${node}]}-salt.sh" "/tmp/${NODE_NAMES[${node}]}-salt.sh"
|
|
try-until-success-ssh "${KUBE_NODE_IP_ADDRESSES[${node}]}" \
|
|
"Waiting for salt-master to start on ${NODE_NAMES[${node}]}" \
|
|
"pgrep salt-minion"
|
|
try-until-success-ssh "${KUBE_MASTER_IP}" \
|
|
"Installing Kubernetes on ${NODE_NAMES[${node}]} via salt" \
|
|
"sudo /bin/bash /tmp/${NODE_NAMES[${node}]}-salt.sh"
|
|
) &
|
|
done
|
|
|
|
# Wait for the Kubernetes installations to complete
|
|
local fail=0
|
|
local job
|
|
for job in $(jobs -p); do
|
|
wait "${job}" || fail=$((fail + 1))
|
|
done
|
|
if (( fail != 0 )); then
|
|
kube::log::error "Failed to start install Kubernetes on ${fail} out of ${NUM_NODES} nodess"
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
#
|
|
# Upload the Kubernetes tarballs to the master
|
|
#
|
|
function upload-server-tars {
|
|
vm_name=${1}
|
|
vm_ip=${2}
|
|
|
|
run-ssh-cmd "${vm_ip}" "mkdir -p /home/kube/cache/kubernetes-install"
|
|
|
|
local tar
|
|
for tar in "${SERVER_BINARY_TAR}" "${SALT_TAR}"; do
|
|
local base_tar
|
|
base_tar=$(basename "${tar}")
|
|
kube::log::status "Uploading ${base_tar} to ${vm_name}..."
|
|
copy-file-to-vm "${vm_ip}" "${tar}" "/home/kube/cache/kubernetes-install/${tar##*/}"
|
|
done
|
|
}
|
|
|
|
#
|
|
# Wait for the Kubernets healthz API to be responsive on the master
|
|
#
|
|
function wait-master-api {
|
|
local curl_creds="--insecure --user ${KUBE_USER}:${KUBE_PASSWORD}"
|
|
local curl_output="--fail --output /dev/null --silent"
|
|
local curl_net="--max-time 1"
|
|
|
|
try-until-success "Waiting for Kubernetes API on ${KUBE_MASTER}" \
|
|
"curl ${curl_creds} ${curl_output} ${curl_net} https://${KUBE_MASTER_IP}/healthz"
|
|
}
|
|
|
|
#
|
|
# Wait for the Kubernetes healthz API to be responsive on each node
|
|
#
|
|
function wait-node-apis {
|
|
local curl_output="--fail --output /dev/null --silent"
|
|
local curl_net="--max-time 1"
|
|
|
|
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
|
|
try-until-success "Waiting for Kubernetes API on ${NODE_NAMES[${i}]}..." \
|
|
"curl ${curl_output} ${curl_net} http://${KUBE_NODE_IP_ADDRESSES[${i}]}:10250/healthz"
|
|
done
|
|
}
|
|
|
|
#
|
|
# Configure the nodes so the pods can communicate
|
|
# Each node will have a bridge named cbr0 for the NODE_IP_RANGES
|
|
# defined in config-default.sh. This finds the IP subnet (assigned
|
|
# by Kubernetes) to nodes and configures routes so they can communicate
|
|
#
|
|
# Also configure the master to be able to talk to the nodes. This is
|
|
# useful so that you can get to the UI from the master.
|
|
#
|
|
function setup-pod-routes {
|
|
local node
|
|
|
|
KUBE_NODE_BRIDGE_NETWORK=()
|
|
for (( node=0; node<${#NODE_NAMES[@]}; node++)); do
|
|
|
|
# This happens in two steps (wait for an address, wait for a non 172.x.x.x address)
|
|
# because it's both simpler and more clear what's happening.
|
|
try-until-success-ssh "${KUBE_NODE_IP_ADDRESSES[${node}]}" \
|
|
"Waiting for cbr0 bridge on ${NODE_NAMES[${node}]} to have an address" \
|
|
'sudo ifconfig cbr0 | grep -oP "inet addr:\K\S+"'
|
|
|
|
try-until-success-ssh "${KUBE_NODE_IP_ADDRESSES[${node}]}" \
|
|
"Waiting for cbr0 bridge on ${NODE_NAMES[${node}]} to have correct address" \
|
|
'sudo ifconfig cbr0 | grep -oP "inet addr:\K\S+" | grep -v "^172."'
|
|
|
|
run-ssh-cmd "${KUBE_NODE_IP_ADDRESSES[${node}]}" 'sudo ip route show | grep -E "dev cbr0" | cut -d " " -f1'
|
|
KUBE_NODE_BRIDGE_NETWORK+=(${_OUTPUT})
|
|
kube::log::status "cbr0 on ${NODE_NAMES[${node}]} is ${_OUTPUT}"
|
|
done
|
|
|
|
local i
|
|
local j
|
|
for (( i=0; i<${#NODE_NAMES[@]}; i++)); do
|
|
kube::log::status "Configuring pod routes on ${NODE_NAMES[${i}]}..."
|
|
gen-add-route "${KUBE_NODE_BRIDGE_NETWORK[${i}]}" "${KUBE_NODE_IP_ADDRESSES[${i}]}"
|
|
run-script-remotely "${KUBE_MASTER_IP}" "${KUBE_TEMP}/add-route.sh"
|
|
|
|
for (( j=0; j<${#NODE_NAMES[@]}; j++)); do
|
|
if [[ "${i}" != "${j}" ]]; then
|
|
gen-add-route "${KUBE_NODE_BRIDGE_NETWORK[${j}]}" "${KUBE_NODE_IP_ADDRESSES[${j}]}"
|
|
run-script-remotely "${KUBE_NODE_IP_ADDRESSES[${i}]}" "${KUBE_TEMP}/add-route.sh"
|
|
fi
|
|
done
|
|
done
|
|
}
|
|
|
|
#
|
|
# Copy the certificate/key from the Kubernetes master
|
|
# These are used to create the kubeconfig file, which allows
|
|
# users to use kubectl easily
|
|
#
|
|
# We also set KUBE_CERT, KUBE_KEY, CA_CERT, and CONTEXT because they
|
|
# are needed by create-kubeconfig from common.sh to generate
|
|
# the kube config file.
|
|
#
|
|
function copy-kube-certs {
|
|
local cert="kubecfg.crt"
|
|
local key="kubecfg.key"
|
|
local ca="ca.crt"
|
|
local cert_dir="/srv/kubernetes"
|
|
|
|
kube::log::status "Copying credentials from ${KUBE_MASTER}"
|
|
|
|
# Set global environment variables: needed by create-kubeconfig
|
|
# in common.sh
|
|
export KUBE_CERT="${KUBE_TEMP}/${cert}"
|
|
export KUBE_KEY="${KUBE_TEMP}/${key}"
|
|
export CA_CERT="${KUBE_TEMP}/${ca}"
|
|
export CONTEXT="photon-${INSTANCE_PREFIX}"
|
|
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 644 ${cert_dir}/${cert}"
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 644 ${cert_dir}/${key}"
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 644 ${cert_dir}/${ca}"
|
|
|
|
copy-file-from-vm "${KUBE_MASTER_IP}" "${cert_dir}/${cert}" "${KUBE_CERT}"
|
|
copy-file-from-vm "${KUBE_MASTER_IP}" "${cert_dir}/${key}" "${KUBE_KEY}"
|
|
copy-file-from-vm "${KUBE_MASTER_IP}" "${cert_dir}/${ca}" "${CA_CERT}"
|
|
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 600 ${cert_dir}/${cert}"
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 600 ${cert_dir}/${key}"
|
|
run-ssh-cmd "${KUBE_MASTER_IP}" "sudo chmod 600 ${cert_dir}/${ca}"
|
|
}
|
|
|
|
#
|
|
# Copies a script to a VM and runs it
|
|
# Parameters:
|
|
# - IP of VM
|
|
# - Path to local file
|
|
#
|
|
function run-script-remotely {
|
|
local vm_ip=${1}
|
|
local local_file="${2}"
|
|
local base_file
|
|
local remote_file
|
|
|
|
base_file=$(basename "${local_file}")
|
|
remote_file="/tmp/${base_file}"
|
|
|
|
copy-file-to-vm "${vm_ip}" "${local_file}" "${remote_file}"
|
|
run-ssh-cmd "${vm_ip}" "chmod 700 ${remote_file}"
|
|
run-ssh-cmd "${vm_ip}" "nohup sudo ${remote_file} < /dev/null 1> ${remote_file}.out 2>&1 &"
|
|
}
|
|
|
|
#
|
|
# Runs an command on a VM using ssh
|
|
# Parameters:
|
|
# - (optional) -i to ignore failure
|
|
# - IP address of the VM
|
|
# - Command to run
|
|
# Assumes environment variables:
|
|
# - VM_USER
|
|
# - SSH_OPTS
|
|
#
|
|
function run-ssh-cmd {
|
|
local ignore_failure=""
|
|
if [[ "${1}" = "-i" ]]; then
|
|
ignore_failure="-i"
|
|
shift
|
|
fi
|
|
|
|
local vm_ip=${1}
|
|
shift
|
|
local cmd=${1}
|
|
|
|
|
|
run-cmd ${ignore_failure} "ssh ${SSH_OPTS} $VM_USER@${vm_ip} $1"
|
|
}
|
|
|
|
#
|
|
# Uses scp to copy file to VM
|
|
# Parameters:
|
|
# - IP address of the VM
|
|
# - Path to local file
|
|
# - Path to remote file
|
|
# Assumes environment variables:
|
|
# - VM_USER
|
|
# - SSH_OPTS
|
|
#
|
|
function copy-file-to-vm {
|
|
local vm_ip=${1}
|
|
local local_file=${2}
|
|
local remote_file=${3}
|
|
|
|
run-cmd "scp ${SSH_OPTS} ${local_file} ${VM_USER}@${vm_ip}:${remote_file}"
|
|
}
|
|
|
|
function copy-file-from-vm {
|
|
local vm_ip=${1}
|
|
local remote_file=${2}
|
|
local local_file=${3}
|
|
|
|
run-cmd "scp ${SSH_OPTS} ${VM_USER}@${vm_ip}:${remote_file} ${local_file}"
|
|
}
|
|
|
|
#
|
|
# Run a command, print nice error output
|
|
# Used by copy-file-to-vm and run-ssh-cmd
|
|
#
|
|
function run-cmd {
|
|
local rc=0
|
|
local ignore_failure=""
|
|
if [[ "${1}" = "-i" ]]; then
|
|
ignore_failure=${1}
|
|
shift
|
|
fi
|
|
|
|
local cmd=$1
|
|
local output
|
|
output=$(${cmd} 2>&1) || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
if [[ -z "${ignore_failure}" ]]; then
|
|
kube::log::error "Failed to run command: ${cmd} Output:"
|
|
echo "${output}"
|
|
exit 1
|
|
fi
|
|
fi
|
|
_OUTPUT=${output}
|
|
return ${rc}
|
|
}
|
|
|
|
#
|
|
# After the initial VM setup, we use SSH with keys to access the VMs
|
|
# This requires an SSH agent, so we verify that it's running
|
|
#
|
|
function verify-ssh-prereqs {
|
|
kube::log::status "Validating SSH configuration..."
|
|
local rc
|
|
|
|
rc=0
|
|
ssh-add -L 1> /dev/null 2> /dev/null || rc=$?
|
|
# "Could not open a connection to your authentication agent."
|
|
if [[ "${rc}" -eq 2 ]]; then
|
|
# ssh agent wasn't running, so start it and ensure we stop it
|
|
eval "$(ssh-agent)" > /dev/null
|
|
trap-add "kill ${SSH_AGENT_PID}" EXIT
|
|
fi
|
|
|
|
rc=0
|
|
ssh-add -L 1> /dev/null 2> /dev/null || rc=$?
|
|
# "The agent has no identities."
|
|
if [[ "${rc}" -eq 1 ]]; then
|
|
# Try adding one of the default identities, with or without passphrase.
|
|
ssh-add || true
|
|
fi
|
|
|
|
# Expect at least one identity to be available.
|
|
if ! ssh-add -L 1> /dev/null 2> /dev/null; then
|
|
kube::log::error "Could not find or add an SSH identity."
|
|
kube::log::error "Please start ssh-agent, add your identity, and retry."
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
#
|
|
# Verify that Photon Controller has been configured in the way we expect. Specifically
|
|
# - Have the flavors been created?
|
|
# - Has the image been uploaded?
|
|
# TODO: Check the tenant and project as well.
|
|
function verify-photon-config {
|
|
kube::log::status "Validating Photon configuration..."
|
|
|
|
# We don't want silent failure: we check for failure
|
|
set +o pipefail
|
|
|
|
verify-photon-flavors
|
|
verify-photon-image
|
|
verify-photon-tenant
|
|
|
|
# Reset default set in common.sh
|
|
set -o pipefail
|
|
}
|
|
|
|
#
|
|
# Verify that the VM and disk flavors have been created
|
|
#
|
|
function verify-photon-flavors {
|
|
local rc=0
|
|
|
|
${PHOTON} flavor list | awk -F'\t' '{print $2}' | grep -q "^${PHOTON_MASTER_FLAVOR}$" > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
kube::log::error "ERROR: Cannot find VM flavor named ${PHOTON_MASTER_FLAVOR}"
|
|
exit 1
|
|
fi
|
|
|
|
if [[ "${PHOTON_MASTER_FLAVOR}" != "${PHOTON_NODE_FLAVOR}" ]]; then
|
|
rc=0
|
|
${PHOTON} flavor list | awk -F'\t' '{print $2}' | grep -q "^${PHOTON_NODE_FLAVOR}$" > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
kube::log::error "ERROR: Cannot find VM flavor named ${PHOTON_NODE_FLAVOR}"
|
|
exit 1
|
|
fi
|
|
fi
|
|
|
|
${PHOTON} flavor list | awk -F'\t' '{print $2}' | grep -q "^${PHOTON_DISK_FLAVOR}$" > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
kube::log::error "ERROR: Cannot find disk flavor named ${PHOTON_DISK_FLAVOR}"
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
#
|
|
# Verify that we have the image we need, and it's not in error state or
|
|
# multiple copies
|
|
#
|
|
function verify-photon-image {
|
|
local rc
|
|
|
|
rc=0
|
|
${PHOTON} image list | grep -q $'\t'"${PHOTON_IMAGE}"$'\t' > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
kube::log::error "ERROR: Cannot find image \"${PHOTON_IMAGE}\""
|
|
exit 1
|
|
fi
|
|
|
|
rc=0
|
|
${PHOTON} image list | grep $'\t'"${PHOTON_IMAGE}"$'\t' | grep ERROR > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -eq 0 ]]; then
|
|
echo "Warning: You have at least one ${PHOTON_IMAGE} image in the ERROR state. You may want to investigate."
|
|
echo "Images in the ERROR state will be ignored."
|
|
fi
|
|
|
|
rc=0
|
|
num_images=$(${PHOTON} image list | grep $'\t'"${PHOTON_IMAGE}"$'\t' | grep -c READY)
|
|
if [[ "${num_images}" -gt 1 ]]; then
|
|
echo "ERROR: You have more than one READY ${PHOTON_IMAGE} image. Ensure there is only one"
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
function verify-photon-tenant {
|
|
local rc
|
|
|
|
rc=0
|
|
${PHOTON} tenant list | grep -q $'\t'"${PHOTON_TENANT}" > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
echo "ERROR: Cannot find tenant \"${PHOTON_TENANT}\""
|
|
exit 1
|
|
fi
|
|
|
|
${PHOTON} project list --tenant "${PHOTON_TENANT}" | grep -q $'\t'"${PHOTON_PROJECT}"$'\t' > /dev/null 2>&1 || rc=$?
|
|
if [[ ${rc} -ne 0 ]]; then
|
|
echo "ERROR: Cannot find project \"${PHOTON_PROJECT}\""
|
|
exit 1
|
|
fi
|
|
}
|
|
|
|
#
|
|
# Verifies that a given command is in the PATH
|
|
#
|
|
function verify-cmd-in-path {
|
|
cmd=${1}
|
|
which "${cmd}" >/dev/null || {
|
|
kube::log::error "Can't find ${cmd} in PATH, please install and retry."
|
|
exit 1
|
|
}
|
|
}
|
|
|
|
#
|
|
# Repeatedly try a command over ssh until it succeeds or until five minutes have passed
|
|
# The timeout isn't exact, since we assume the command runs instantaneously, and
|
|
# it doesn't.
|
|
#
|
|
function try-until-success-ssh {
|
|
local vm_ip=${1}
|
|
local cmd_description=${2}
|
|
local cmd=${3}
|
|
local timeout=600
|
|
local sleep_time=5
|
|
local max_attempts
|
|
|
|
((max_attempts=timeout/sleep_time))
|
|
|
|
kube::log::status "${cmd_description} for up to 10 minutes..."
|
|
local attempt=0
|
|
while true; do
|
|
local rc=0
|
|
run-ssh-cmd -i "${vm_ip}" "${cmd}" || rc=1
|
|
if [[ ${rc} != 0 ]]; then
|
|
if (( attempt == max_attempts )); then
|
|
kube::log::error "Failed, cannot proceed: you may need to retry to log into the VM to debug"
|
|
exit 1
|
|
fi
|
|
else
|
|
break
|
|
fi
|
|
attempt=$((attempt+1))
|
|
sleep ${sleep_time}
|
|
done
|
|
}
|
|
|
|
function try-until-success {
|
|
local cmd_description=${1}
|
|
local cmd=${2}
|
|
local timeout=600
|
|
local sleep_time=5
|
|
local max_attempts
|
|
|
|
((max_attempts=timeout/sleep_time))
|
|
|
|
kube::log::status "${cmd_description} for up to 10 minutes..."
|
|
local attempt=0
|
|
while true; do
|
|
local rc=0
|
|
run-cmd -i "${cmd}" || rc=1
|
|
if [[ ${rc} != 0 ]]; then
|
|
if (( attempt == max_attempts )); then
|
|
kube::log::error "Failed, cannot proceed"
|
|
exit 1
|
|
fi
|
|
else
|
|
break
|
|
fi
|
|
attempt=$((attempt+1))
|
|
sleep ${sleep_time}
|
|
done
|
|
}
|
|
|
|
#
|
|
# Sets up a trap handler
|
|
#
|
|
function trap-add {
|
|
local handler="${1}"
|
|
local signal="${2-EXIT}"
|
|
local cur
|
|
|
|
cur="$(eval "sh -c 'echo \$3' -- $(trap -p ${signal})")"
|
|
if [[ -n "${cur}" ]]; then
|
|
handler="${cur}; ${handler}"
|
|
fi
|
|
|
|
# We want ${handler} to expand now, so tell shellcheck
|
|
# shellcheck disable=SC2064
|
|
trap "${handler}" ${signal}
|
|
}
|