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#!/bin/bash -e
# shellcheck disable=SC2034,SC2154,SC1090,SC1091
##############################################################################
# Copyright (c) 2017 Ericsson AB, Mirantis Inc., Enea AB and others.
# jonas.bjurel@ericsson.com
# All rights reserved. This program and the accompanying materials
# are made available under the terms of the Apache License, Version 2.0
# which accompanies this distribution, and is available at
# http://www.apache.org/licenses/LICENSE-2.0
##############################################################################
##############################################################################
# BEGIN of Exit handlers
#
do_exit () {
local RC=$?
clean
if [ ${RC} -eq 0 ]; then
notify "\n[OK] MCP: Openstack installation finished succesfully!\n\n" 2
else
notify "\n[ERROR] MCP: Openstack installation threw a fatal error!\n\n"
fi
}
#
# End of Exit handlers
##############################################################################
##############################################################################
# BEGIN of usage description
#
usage ()
{
cat << EOF
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
$(notify "$(basename "$0"): Deploy the Fuel@OPNFV MCP stack" 3)
$(notify "USAGE:" 2)
$(basename "$0") -b base-uri -l lab-name -p pod-name -s deploy-scenario \\
[-B PXE Bridge [-B Mgmt Bridge [-B Internal Bridge [-B Public Bridge]]]] \\
[-S storage-dir] [-L /path/to/log/file.tar.gz] \\
[-f [-f]] [-F] [-e] [-d] [-D]
$(notify "OPTIONS:" 2)
-b Base-uri for the stack-configuration structure
-B Bridge(s): 1st usage = PXE, 2nd = Mgmt, 3rd = Internal, 4th = Public
-d Dry-run
-D Debug logging
-e Do not launch environment deployment
-f Deploy on existing Salt master (use twice to also skip config sync)
-F Do only create a Salt master
-h Print this message and exit
-l Lab-name
-p Pod-name
-s Deploy-scenario short-name
-S Storage dir for VM images
-L Deployment log path and file name
$(notify "Description:" 2)
Deploys the Fuel@OPNFV stack on the indicated lab resource.
This script provides the Fuel@OPNFV deployment abstraction.
It depends on the OPNFV official configuration directory/file structure
and provides a fairly simple mechanism to execute a deployment.
$(notify "Input parameters to the build script are:" 2)
-b Base URI to the configuration directory (needs to be provided in URI style,
it can be a local resource: file:// or a remote resource http(s)://).
A POD Descriptor File (PDF) should be available at:
<base-uri>/labs/<lab-name>/<pod-name>.yaml
The default is './mcp/config'.
-B Bridges to be used by deploy script. It can be specified several times,
or as a comma separated list of bridges, or both: -B br1 -B br2,br3
First occurence sets PXE Brige, next Mgmt, then Internal and Public.
For an empty value, the deploy script will use virsh to create the default
expected network (e.g. -B pxe,,,public will use existing "pxe" and "public"
bridges, respectively create "mgmt" and "internal").
Note that a virtual network "mcpcontrol" is always created. For virtual
deploys, "mcpcontrol" is also used for PXE, leaving the PXE bridge unused.
For baremetal deploys, PXE bridge is used for baremetal node provisioning,
while "mcpcontrol" is used to provision the infrastructure VMs only.
The default is 'pxebr'.
-d Dry-run - Produce deploy config files, but do not execute deploy
-D Debug logging - Enable extra logging in sh deploy scripts (set -x)
-e Do not launch environment deployment
-f Deploy on existing Salt master. It will skip infrastructure VM creation,
but it will still sync reclass configuration from current repo to Salt
Master node. If specified twice (e.g. -f -f), config sync will also be
skipped.
-F Do only create a Salt master
-h Print this message and exit
-L Deployment log path and name, eg. -L /home/jenkins/job.log.tar.gz
-l Lab name as defined in the configuration directory, e.g. lf
-p POD name as defined in the configuration directory, e.g. pod2
-s Deployment-scenario, this points to a short deployment scenario name, which
has to be defined in config directory (e.g. os-odl-nofeature-ha).
-S Storage dir for VM images, default is mcp/deploy/images
$(notify "[NOTE] sudo & virsh priviledges are needed for this script to run" 3)
Example:
$(notify "sudo $(basename "$0") \\
-b file:///home/jenkins/securedlab \\
-l lf -p pod2 \\
-s os-odl-nofeature-ha" 2)
EOF
}
#
# END of usage description
##############################################################################
##############################################################################
# BEGIN of colored notification wrapper
#
notify() {
tput setaf "${2:-1}" || true
echo -en "${1:-"[WARN] Unsupported opt arg: $3\\n"}"
tput sgr0
}
#
# END of colored notification wrapper
##############################################################################
##############################################################################
# BEGIN of deployment clean-up
#
clean() {
echo "Cleaning up deploy tmp directories"
}
#
# END of deployment clean-up
##############################################################################
##############################################################################
# BEGIN of variables to customize
#
CI_DEBUG=${CI_DEBUG:-0}; [[ "${CI_DEBUG}" =~ (false|0) ]] || set -x
REPO_ROOT_PATH=$(readlink -f "$(dirname "${BASH_SOURCE[0]}")/..")
DEPLOY_DIR=$(cd "${REPO_ROOT_PATH}/mcp/scripts"; pwd)
STORAGE_DIR=$(cd "${REPO_ROOT_PATH}/mcp/deploy/images"; pwd)
RECLASS_CLUSTER_DIR=$(cd "${REPO_ROOT_PATH}/mcp/reclass/classes/cluster"; pwd)
DEPLOY_TYPE='baremetal'
OPNFV_BRIDGES=('pxebr' 'mgmt' 'internal' 'public')
URI_REGEXP='(file|https?|ftp)://.*'
BASE_CONFIG_URI="file://${REPO_ROOT_PATH}/mcp/config"
# Customize deploy workflow
DRY_RUN=${DRY_RUN:-0}
USE_EXISTING_INFRA=${USE_EXISTING_INFRA:-0}
INFRA_CREATION_ONLY=${INFRA_CREATION_ONLY:-0}
NO_DEPLOY_ENVIRONMENT=${NO_DEPLOY_ENVIRONMENT:-0}
source "${DEPLOY_DIR}/globals.sh"
#
# END of variables to customize
##############################################################################
##############################################################################
# BEGIN of main
#
set +x
OPNFV_BRIDGE_IDX=0
while getopts "b:B:dDfFl:L:p:s:S:he" OPTION
do
case $OPTION in
b)
BASE_CONFIG_URI=${OPTARG}
if [[ ! $BASE_CONFIG_URI =~ ${URI_REGEXP} ]]; then
notify "[ERROR] -b $BASE_CONFIG_URI - invalid URI\n"
usage
exit 1
fi
;;
B)
OIFS=${IFS}
IFS=','
OPT_BRIDGES=($OPTARG)
for bridge in "${OPT_BRIDGES[@]}"; do
if [ -n "${bridge}" ]; then
OPNFV_BRIDGES[${OPNFV_BRIDGE_IDX}]="${bridge}"
fi
((OPNFV_BRIDGE_IDX+=1))
done
IFS=${OIFS}
;;
d)
DRY_RUN=1
;;
D)
CI_DEBUG=1
;;
f)
((USE_EXISTING_INFRA+=1))
;;
F)
INFRA_CREATION_ONLY=1
;;
e)
NO_DEPLOY_ENVIRONMENT=1
;;
l)
TARGET_LAB=${OPTARG}
;;
L)
DEPLOY_LOG="${OPTARG}"
;;
p)
TARGET_POD=${OPTARG}
if [[ "${TARGET_POD}" =~ "virtual" ]]; then
DEPLOY_TYPE='virtual'
fi
;;
s)
DEPLOY_SCENARIO=${OPTARG}
;;
S)
if [[ ${OPTARG} ]]; then
STORAGE_DIR="${OPTARG}"
fi
;;
h)
usage
exit 0
;;
*)
notify "[ERROR] Arguments not according to new argument style\n"
exit 1
;;
esac
done
if [[ "$(sudo whoami)" != 'root' ]]; then
notify "[ERROR] This script requires sudo rights\n" 1>&2
exit 1
fi
if ! virsh list >/dev/null 2>&1; then
notify "[ERROR] This script requires hypervisor access\n" 1>&2
exit 1
fi
# Validate mandatory arguments are set
if [ -z "${TARGET_LAB}" ] || [ -z "${TARGET_POD}" ] || \
[ -z "${DEPLOY_SCENARIO}" ]; then
notify "[ERROR] At least one of the mandatory args is missing!\n" 1>&2
usage
exit 1
fi
[[ "${CI_DEBUG}" =~ (false|0) ]] || set -x
# Enable the automatic exit trap
trap do_exit SIGINT SIGTERM EXIT
# Set no restrictive umask so that Jenkins can remove any residuals
umask 0000
clean
pushd "${DEPLOY_DIR}" > /dev/null
# Prepare the deploy config files based on lab/pod information, deployment
# scenario, etc.
# Install required packages
[ -n "$(command -v apt-get)" ] && sudo apt-get install -y \
git make rsync mkisofs curl virtinst cpu-checker qemu-kvm
[ -n "$(command -v yum)" ] && sudo yum install -y --skip-broken \
git make rsync genisoimage curl virt-install qemu-kvm
if [ "$(uname -i)" = "aarch64" ]; then
[ -n "$(command -v apt-get)" ] && sudo apt-get install -y vgabios && \
sudo ln -sf /usr/share/vgabios/vgabios.bin /usr/share/qemu/vgabios-stdvga.bin
[ -n "$(command -v yum)" ] && sudo yum install -y --skip-broken vgabios
fi
# Clone git submodules and apply our patches
make -C "${REPO_ROOT_PATH}/mcp/patches" deepclean patches-import
# Convert Pharos-compatible POD Descriptor File (PDF) to reclass model input
PHAROS_GEN_CONFIG_SCRIPT="./pharos/config/utils/generate_config.py"
PHAROS_INSTALLER_ADAPTER="./pharos/config/installers/fuel/pod_config.yml.j2"
BASE_CONFIG_PDF="${BASE_CONFIG_URI}/labs/${TARGET_LAB}/${TARGET_POD}.yaml"
BASE_CONFIG_IDF="${BASE_CONFIG_URI}/labs/${TARGET_LAB}/idf-${TARGET_POD}.yaml"
LOCAL_PDF="${STORAGE_DIR}/$(basename "${BASE_CONFIG_PDF}")"
LOCAL_IDF="${STORAGE_DIR}/$(basename "${BASE_CONFIG_IDF}")"
LOCAL_PDF_RECLASS="${STORAGE_DIR}/pod_config.yml"
if ! curl --create-dirs -o "${LOCAL_PDF}" "${BASE_CONFIG_PDF}"; then
if [ "${DEPLOY_TYPE}" = 'baremetal' ]; then
notify "[ERROR] Could not retrieve PDF (Pod Descriptor File)!\n" 1>&2
exit 1
else
notify "[WARN] Could not retrieve PDF (Pod Descriptor File)!\n" 3
fi
elif ! curl -o "${LOCAL_IDF}" "${BASE_CONFIG_IDF}"; then
notify "[WARN] POD has no IDF (Installer Descriptor File)!\n" 3
elif ! "${PHAROS_GEN_CONFIG_SCRIPT}" -y "${LOCAL_PDF}" \
-j "${PHAROS_INSTALLER_ADAPTER}" > "${LOCAL_PDF_RECLASS}"; then
notify "[ERROR] Could not convert PDF to reclass model input!\n" 1>&2
exit 1
fi
# Check scenario file existence
SCENARIO_DIR="../config/scenario"
if [ ! -f "${SCENARIO_DIR}/${DEPLOY_TYPE}/${DEPLOY_SCENARIO}.yaml" ]; then
notify "[WARN] ${DEPLOY_SCENARIO}.yaml not found!\n" 3
notify "[WARN] Setting simplest scenario (os-nosdn-nofeature-noha)\n" 3
DEPLOY_SCENARIO='os-nosdn-nofeature-noha'
if [ ! -f "${SCENARIO_DIR}/${DEPLOY_TYPE}/${DEPLOY_SCENARIO}.yaml" ]; then
notify "[ERROR] Scenario definition file is missing!\n" 1>&2
exit 1
fi
fi
# Check defaults file existence
if [ ! -f "${SCENARIO_DIR}/defaults-$(uname -i).yaml" ]; then
notify "[ERROR] Scenario defaults file is missing!\n" 1>&2
exit 1
fi
# Get required infra deployment data
set +x
source lib.sh
eval "$(parse_yaml "${SCENARIO_DIR}/defaults-$(uname -i).yaml")"
eval "$(parse_yaml "${SCENARIO_DIR}/${DEPLOY_TYPE}/${DEPLOY_SCENARIO}.yaml")"
eval "$(parse_yaml "${LOCAL_PDF_RECLASS}")"
[[ "${CI_DEBUG}" =~ (false|0) ]] || set -x
export CLUSTER_DOMAIN=${cluster_domain}
# Serialize vnode data as '<name0>,<ram0>,<vcpu0>|<name1>,<ram1>,<vcpu1>[...]'
for node in "${virtual_nodes[@]}"; do
virtual_custom_ram="virtual_${node}_ram"
virtual_custom_vcpus="virtual_${node}_vcpus"
virtual_nodes_data+="${node},"
virtual_nodes_data+="${!virtual_custom_ram:-$virtual_default_ram},"
virtual_nodes_data+="${!virtual_custom_vcpus:-$virtual_default_vcpus}|"
done
virtual_nodes_data=${virtual_nodes_data%|}
# Expand reclass and virsh network templates
for tp in "${RECLASS_CLUSTER_DIR}/all-mcp-ocata-common/opnfv/"*.template \
net_*.template; do
eval "cat <<-EOF
$(<"${tp}")
EOF" 2> /dev/null > "${tp%.template}"
done
# Convert Pharos-compatible PDF to reclass network definitions
if [ "${DEPLOY_TYPE}" = 'baremetal' ]; then
find "${RECLASS_CLUSTER_DIR}/${CLUSTER_DOMAIN%.local}" \
"${RECLASS_CLUSTER_DIR}/${DEPLOY_TYPE}-mcp-ocata-common" \
-name '*.j2' | while read -r tp
do
if ! "${PHAROS_GEN_CONFIG_SCRIPT}" -y "${LOCAL_PDF}" \
-j "${tp}" > "${tp%.j2}"; then
notify "[ERROR] Could not convert PDF to reclass network defs!\n"
exit 1
fi
done
fi
# Map PDF networks 'admin', 'mgmt', 'private' and 'public' to bridge names
BR_NAMES=('admin' 'mgmt' 'private' 'public')
BR_NETS=( \
"${parameters__param_opnfv_maas_pxe_address}" \
"${parameters__param_opnfv_infra_config_address}" \
"${parameters__param_opnfv_openstack_compute_node01_tenant_address}" \
"${parameters__param_opnfv_openstack_compute_node01_external_address}" \
)
for ((i = 0; i < ${#BR_NETS[@]}; i++)); do
br_jump=$(eval echo "\$parameters__param_opnfv_jump_bridge_${BR_NAMES[i]}")
if [ -n "${br_jump}" ] && [ "${br_jump}" != 'None' ] && \
[ -d "/sys/class/net/${br_jump}/bridge" ]; then
notify "[OK] Bridge found for '${BR_NAMES[i]}': ${br_jump}\n" 2
OPNFV_BRIDGES[${i}]="${br_jump}"
elif [ -n "${BR_NETS[i]}" ]; then
bridge=$(ip addr | awk "/${BR_NETS[i]%.*}./ {print \$NF; exit}")
if [ -n "${bridge}" ] && [ -d "/sys/class/net/${bridge}/bridge" ]; then
notify "[OK] Bridge found for net ${BR_NETS[i]%.*}.0: ${bridge}\n" 2
OPNFV_BRIDGES[${i}]="${bridge}"
fi
fi
done
notify "[NOTE] Using bridges: ${OPNFV_BRIDGES[*]}\n" 2
# Infra setup
if [ ${DRY_RUN} -eq 1 ]; then
notify "[NOTE] Dry run, skipping all deployment tasks\n" 2 1>&2
exit 0
elif [ ${USE_EXISTING_INFRA} -gt 0 ]; then
notify "[NOTE] Use existing infra\n" 2 1>&2
check_connection
else
generate_ssh_key
prepare_vms "${base_image}" "${STORAGE_DIR}" "${virtual_nodes[@]}"
create_networks "${OPNFV_BRIDGES[@]}"
create_vms "${STORAGE_DIR}" "${virtual_nodes_data}" "${OPNFV_BRIDGES[@]}"
update_mcpcontrol_network
start_vms "${virtual_nodes[@]}"
check_connection
fi
if [ ${USE_EXISTING_INFRA} -lt 2 ]; then
wait_for 5 "./salt.sh ${LOCAL_PDF_RECLASS}"
fi
# Openstack cluster setup
set +x
if [ ${INFRA_CREATION_ONLY} -eq 1 ] || [ ${NO_DEPLOY_ENVIRONMENT} -eq 1 ]; then
notify "[NOTE] Skip openstack cluster setup\n" 2
else
for state in "${cluster_states[@]}"; do
notify "[STATE] Applying state: ${state}\n" 2
# shellcheck disable=SC2086,2029
wait_for 5 "ssh ${SSH_OPTS} ${SSH_SALT} \
sudo /root/fuel/mcp/config/states/${state}"
done
fi
./log.sh "${DEPLOY_LOG}"
popd > /dev/null
#
# END of main
##############################################################################
|