$(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]
+ [-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
-L Deployment log path and file 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
-T (disabled) Timeout, in minutes, for the deploy.
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 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-nofeature-ha).
-S Storage dir for VM images, default is mcp/deploy/images
$(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
-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
Example:
$(notify "sudo $(basename "$0") \\
- -b file:///home/jenkins/lab-config \\
+ -b file:///home/jenkins/securedlab \\
-l lf -p pod2 \\
-s os-odl-nofeature-ha" 2)
EOF
##############################################################################
# BEGIN of variables to customize
#
-SCRIPT_PATH=$(readlink -f "$(dirname "${BASH_SOURCE[0]}")")
-DEPLOY_DIR=$(cd "${SCRIPT_PATH}/../mcp/scripts"; pwd)
-STORAGE_DIR=$(cd "${SCRIPT_PATH}/../mcp/deploy/images"; pwd)
-RECLASS_CLUSTER_DIR=$(cd "${SCRIPT_PATH}/../mcp/reclass/classes/cluster"; pwd)
+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=${SSH_KEY:-"/var/lib/opnfv/mcp.rsa"}
-export SALT_MASTER=${INSTALLER_IP:-10.20.0.2}
-export SALT_MASTER_USER=${SALT_MASTER_USER:-ubuntu}
-export MAAS_IP=${MAAS_IP:-${SALT_MASTER%.*}.3}
-export MAAS_PXE_NETWORK=${MAAS_PXE_NETWORK:-192.168.11.0}
+# 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}
-# Derivated from above global vars
-export MCP_CTRL_NETWORK_ROOTSTR=${SALT_MASTER%.*}
-export MAAS_PXE_NETWORK_ROOTSTR=${MAAS_PXE_NETWORK%.*}
-export SSH_OPTS="-o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null -i ${SSH_KEY}"
-export SSH_SALT="${SALT_MASTER_USER}@${SALT_MASTER}"
+source "${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=''
-DRY_RUN=0
if ! [ -z "${DEPLOY_TIMEOUT}" ]; then
DEPLOY_TIMEOUT="-dt ${DEPLOY_TIMEOUT}"
else
IFS=${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=${OPTARG}
[ -n "$(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
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 "${LOCAL_PDF_RECLASS}")"
export CLUSTER_DOMAIN=${cluster_domain}
# Expand reclass and virsh network templates
for tp in "${RECLASS_CLUSTER_DIR}/all-mcp-ocata-common/opnfv/"*.template \
- net_*.template; do envsubst < "${tp}" > "${tp%.template}"; done
+ net_*.template; do
+ eval "cat <<-EOF
+ $(<"${tp}")
+ EOF" 2> /dev/null > "${tp%.template}"
+done
-# Infra setup
-generate_ssh_key
-prepare_vms virtual_nodes "${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
-
-# 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/${state} || true"
+# Map PDF networks 'admin', 'mgmt', 'private' and 'public' to bridge names
+BR_NAMES=('admin' 'mgmt' 'private' 'public')
+BR_NETS=( \
+ "${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
+
+if [ ${INFRA_CREATION_ONLY} -eq 1 ] || [ ${NO_DEPLOY_ENVIRONMENT} -eq 1 ]; then
+ notify "Skip openstack cluster setup\n" 2
+else
+ # Openstack cluster setup
+ for state in "${cluster_states[@]}"; do
+ notify "STATE: ${state}\n" 2
+ # shellcheck disable=SC2086,2029
+ ssh ${SSH_OPTS} "ubuntu@${SALT_MASTER}" \
+ sudo "/root/fuel/mcp/config/states/${state} || true"
+ done
+fi
./log.sh "${DEPLOY_LOG}"