$(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]]]]
+ [-B PXE Bridge [-B Mgmt Bridge [-B Internal Bridge [-B Public Bridge]]]] \\
+ [-S storage-dir] [-L /path/to/log/file.tar.gz] [-f] [-F] [-e] [-d]
$(notify "OPTIONS:" 2)
-b Base-uri for the stack-configuration structure
-B Bridge(s): 1st usage = PXE, 2nd = Mgmt, 3rd = Internal, 4th = Public
+ -d Dry-run
+ -e Do not launch environment deployment
+ -f Deploy on existing Salt master
+ -F Do only create a Salt master
-h Print this message and exit
-l Lab-name
-p Pod-name
-s Deploy-scenario short-name
-
-$(notify "DISABLED OPTIONS (not yet supported with MCP):" 3)
- -d (disabled) Dry-run
- -e (disabled) Do not launch environment deployment
- -f (disabled) Deploy on existing Salt master
- -F (disabled) Do only create a Salt master
- -i (disabled) iso url
- -L (disabled) Deployment log path and file name
- -S (disabled) Storage dir for VM images
- -T (disabled) Timeout, in minutes, for the deploy.
+ -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.
and provides a fairly simple mechanism to execute a deployment.
$(notify "Input parameters to the build script are:" 2)
--b Base URI to the configuration directory (needs to be provided in a URI
- style, it can be a local resource: file:// or a remote resource http(s)://)
+-b Base URI to the configuration directory (needs to be provided in URI style,
+ it can be a local resource: file:// or a remote resource http(s)://).
+ A POD Descriptor File (PDF) should be available at:
+ <base-uri>/labs/<lab-name>/<pod-name>.yaml
+ The default is './mcp/config'.
-B Bridges to be used by deploy script. It can be specified several times,
or as a comma separated list of bridges, or both: -B br1 -B br2,br3
First occurence sets PXE Brige, next Mgmt, then Internal and Public.
For an empty value, the deploy script will use virsh to create the default
expected network (e.g. -B pxe,,,public will use existing "pxe" and "public"
bridges, respectively create "mgmt" and "internal").
- The default is pxebr.
+ Note that a virtual network "mcpcontrol" is always created. For virtual
+ deploys, "mcpcontrol" is also used for PXE, leaving the PXE bridge unused.
+ For baremetal deploys, PXE bridge is used for baremetal node provisioning,
+ while "mcpcontrol" is used to provision the infrastructure VMs only.
+ The default is 'pxebr'.
+-d Dry-run - Produce deploy config files, but do not execute deploy
+-e Do not launch environment deployment
+-f Deploy on existing Salt master
+-F Do only create a Salt master
-h Print this message and exit
+-L Deployment log path and name, eg. -L /home/jenkins/job.log.tar.gz
-l Lab name as defined in the configuration directory, e.g. lf
--p POD name as defined in the configuration directory, e.g. pod-1
+-p POD name as defined in the configuration directory, e.g. pod2
-s Deployment-scenario, this points to a short deployment scenario name, which
- has to be defined in config directory (e.g. os-odl_l2-nofeature-noha).
-
-$(notify "Disabled input parameters (not yet supported with MCP):" 3)
--d (disabled) Dry-run - Produce deploy config files, but do not execute deploy
--f (disabled) Deploy on existing Salt master
--e (disabled) Do not launch environment deployment
--F (disabled) Do only create a Salt master
--L (disabled) Deployment log path and name, eg. -L /home/jenkins/job.log.tar.gz
--S (disabled) Storage dir for VM images, default is fuel/deploy/images
--T (disabled) Timeout, in minutes, for the deploy.
- It defaults to using the DEPLOY_TIMEOUT environment variable when defined.
--i (disabled) .iso image to be deployed (needs to be provided in a URI
- style, it can be a local resource: file:// or a remote resource http(s)://)
-
-$(notify "[NOTE] Root priviledges are needed for this script to run" 3)
+ has to be defined in config directory (e.g. os-odl-nofeature-ha).
+-S Storage dir for VM images, default is mcp/deploy/images
+
+$(notify "[NOTE] sudo & virsh priviledges are needed for this script to run" 3)
Example:
$(notify "sudo $(basename "$0") \\
- -b file:///home/jenkins/lab-config \\
- -l lf -p pod1 \\
- -s os-odl_l2-nofeature-noha" 2)
+ -b file:///home/jenkins/securedlab \\
+ -l lf -p pod2 \\
+ -s os-odl-nofeature-ha" 2)
EOF
}
# BEGIN of colored notification wrapper
#
notify() {
- tput setaf "${2:-1}"
+ tput setaf "${2:-1}" || true
echo -en "${1:-"[WARN] Unsupported opt arg: $3\\n"}"
tput sgr0
}
##############################################################################
# BEGIN of variables to customize
#
-SCRIPT_PATH=$(readlink -f "$(dirname "${BASH_SOURCE[0]}")")
-DEPLOY_DIR=$(cd "${SCRIPT_PATH}/../mcp/scripts"; pwd)
-OPNFV_BRIDGES=('pxe' 'mgmt' 'internal' 'public')
+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"
-export SSH_KEY=${SSH_KEY:-mcp.rsa}
-export SALT_MASTER=${SALT_MASTER_IP:-192.168.10.100}
-export SSH_OPTS="-o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null -i ${SSH_KEY}"
+# Customize deploy workflow
+DRY_RUN=${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"
-# Variables below are disabled for now, to be re-introduced or removed later
-set +x
-USE_EXISTING_FUEL=''
-FUEL_CREATION_ONLY=''
-NO_DEPLOY_ENVIRONMENT=''
-STORAGE_DIR=''
-DRY_RUN=0
-if ! [ -z "${DEPLOY_TIMEOUT}" ]; then
- DEPLOY_TIMEOUT="-dt ${DEPLOY_TIMEOUT}"
-else
- DEPLOY_TIMEOUT=""
-fi
-set -x
#
# END of variables to customize
##############################################################################
#
set +x
OPNFV_BRIDGE_IDX=0
-while getopts "b:B:dfFl:L:p:s:S:T:i:he" OPTION
+while getopts "b:B:dfFl:L:p:s:S:he" OPTION
do
case $OPTION in
b)
if [ -n "${bridge}" ]; then
OPNFV_BRIDGES[${OPNFV_BRIDGE_IDX}]="${bridge}"
fi
- OPNFV_BRIDGE_IDX=$[OPNFV_BRIDGE_IDX + 1]
+ OPNFV_BRIDGE_IDX=$((OPNFV_BRIDGE_IDX + 1))
done
IFS=${OIFS}
;;
d)
- notify '' 3 "${OPTION}"; continue
DRY_RUN=1
;;
f)
- notify '' 3 "${OPTION}"; continue
- USE_EXISTING_FUEL='-nf'
+ USE_EXISTING_INFRA=1
;;
F)
- notify '' 3 "${OPTION}"; continue
- FUEL_CREATION_ONLY='-fo'
+ INFRA_CREATION_ONLY=1
;;
e)
- notify '' 3 "${OPTION}"; continue
- NO_DEPLOY_ENVIRONMENT='-nde'
+ NO_DEPLOY_ENVIRONMENT=1
;;
l)
TARGET_LAB=${OPTARG}
;;
L)
- notify '' 3 "${OPTION}"; continue
- DEPLOY_LOG="-log ${OPTARG}"
+ DEPLOY_LOG="${OPTARG}"
;;
p)
TARGET_POD=${OPTARG}
+ if [[ "${TARGET_POD}" =~ "virtual" ]]; then
+ DEPLOY_TYPE='virtual'
+ fi
;;
s)
DEPLOY_SCENARIO=${OPTARG}
;;
S)
- notify '' 3 "${OPTION}"; continue
if [[ ${OPTARG} ]]; then
- STORAGE_DIR="-s ${OPTARG}"
- fi
- ;;
- T)
- notify '' 3 "${OPTION}"; continue
- DEPLOY_TIMEOUT="-dt ${OPTARG}"
- ;;
- i)
- notify '' 3 "${OPTION}"; continue
- ISO=${OPTARG}
- if [[ ! $ISO =~ ${URI_REGEXP} ]]; then
- notify "[ERROR] -i $ISO - invalid URI\n"
- usage
- exit 1
+ STORAGE_DIR="${OPTARG}"
fi
;;
h)
esac
done
-if [[ $EUID -ne 0 ]]; then
- notify "[ERROR] This script must be run as root\n" 1>&2
+if [[ "$(sudo whoami)" != 'root' ]]; then
+ notify "This script requires sudo rights\n" 1>&2
+ exit 1
+fi
+
+if ! virsh list >/dev/null 2>&1; then
+ notify "This script requires hypervisor access\n" 1>&2
exit 1
fi
# Validate mandatory arguments are set
-# FIXME(armband): Bring back support for BASE_CONFIG_URI
if [ -z "${TARGET_LAB}" ] || [ -z "${TARGET_POD}" ] || \
[ -z "${DEPLOY_SCENARIO}" ]; then
notify "[ERROR] At least one of the mandatory args is missing!\n" 1>&2
# Enable the automatic exit trap
trap do_exit SIGINT SIGTERM EXIT
-# Set no restrictive umask so that Jenkins can removeeee any residuals
+# Set no restrictive umask so that Jenkins can remove any residuals
umask 0000
clean
# scenario, etc.
# Install required packages
-[ -n "$(command -v apt-get)" ] && apt-get install -y mkisofs curl virtinst cpu-checker qemu-kvm
-[ -n "$(command -v yum)" ] && yum install -y genisoimage curl virt-install qemu-kvm
+[ -n "$(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}" > "${LOCAL_PDF_RECLASS}"; then
+ notify "[ERROR] Could not convert PDF to reclass model input!\n" 1>&2
+ exit 1
+fi
# Check scenario file existence
-if [[ ! -f ../config/${DEPLOY_SCENARIO}.yaml ]]; then
+SCENARIO_DIR="../config/scenario"
+if [ ! -f "${SCENARIO_DIR}/${DEPLOY_TYPE}/${DEPLOY_SCENARIO}.yaml" ]; then
notify "[WARN] ${DEPLOY_SCENARIO}.yaml not found! \
Setting simplest scenario (os-nosdn-nofeature-noha)\n" 3
DEPLOY_SCENARIO='os-nosdn-nofeature-noha'
+ if [ ! -f "${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 "$(parse_yaml "../config/defaults.yaml")"
-eval "$(parse_yaml "../config/${DEPLOY_SCENARIO}.yaml")"
+eval "$(parse_yaml "${SCENARIO_DIR}/defaults-$(uname -i).yaml")"
+eval "$(parse_yaml "${SCENARIO_DIR}/${DEPLOY_TYPE}/${DEPLOY_SCENARIO}.yaml")"
+eval "$(parse_yaml "${LOCAL_PDF_RECLASS}")"
+set -x
export CLUSTER_DOMAIN=${cluster_domain}
virtual_nodes_vcpus[$node]=${!virtual_custom_vcpus:-$virtual_default_vcpus}
done
-# Infra setup
-generate_ssh_key
-prepare_vms virtual_nodes "${base_image}"
-create_networks OPNFV_BRIDGES
-create_vms virtual_nodes virtual_nodes_ram virtual_nodes_vcpus OPNFV_BRIDGES
-update_pxe_network OPNFV_BRIDGES
-start_vms virtual_nodes
-check_connection
+# Expand reclass and virsh network templates
+for tp in "${RECLASS_CLUSTER_DIR}/all-mcp-ocata-common/opnfv/"*.template \
+ net_*.template; do
+ eval "cat <<-EOF
+ $(<"${tp}")
+ EOF" 2> /dev/null > "${tp%.template}"
+done
-./salt.sh
+# Map PDF networks 'admin', 'mgmt', 'private' and 'public' to bridge names
+BR_NAMES=('admin' 'mgmt' 'private' 'public')
+BR_NETS=( \
+ "${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 "Dry run, skipping all deployment tasks\n" 2 1>&2
+ exit 0
+elif [ ${USE_EXISTING_INFRA} -eq 1 ]; then
+ notify "Use existing infra\n" 2 1>&2
+ check_connection
+else
+ generate_ssh_key
+ prepare_vms virtual_nodes "${base_image}" "${STORAGE_DIR}"
+ create_networks OPNFV_BRIDGES
+ create_vms virtual_nodes virtual_nodes_ram virtual_nodes_vcpus \
+ OPNFV_BRIDGES "${STORAGE_DIR}"
+ update_mcpcontrol_network
+ start_vms virtual_nodes
+ check_connection
+ ./salt.sh "${LOCAL_PDF_RECLASS}"
+fi
# Openstack cluster setup
-for state in "${cluster_states[@]}"; do
- notify "STATE: ${state}\n" 2
- # shellcheck disable=SC2086,2029
- ssh ${SSH_OPTS} "ubuntu@${SALT_MASTER}" \
- sudo "/root/fuel/mcp/config/states/${state}"
-done
+if [ ${INFRA_CREATION_ONLY} -eq 1 ] || [ ${NO_DEPLOY_ENVIRONMENT} -eq 1 ]; then
+ notify "Skip openstack cluster setup\n" 2
+else
+ for state in "${cluster_states[@]}"; do
+ notify "STATE: ${state}\n" 2
+ # shellcheck disable=SC2086,2029
+ ssh ${SSH_OPTS} "${SSH_SALT}" \
+ sudo "/root/fuel/mcp/config/states/${state} || true"
+ done
+fi
+
+./log.sh "${DEPLOY_LOG}"
popd > /dev/null