#
do_exit () {
local RC=$?
- clean
+ cleanup_mounts > /dev/null 2>&1
if [ ${RC} -eq 0 ]; then
notify "\n[OK] MCP: Openstack installation finished succesfully!\n\n" 2
else
-h Print this message and exit
-l Lab-name
-p Pod-name
+ -P Skip installation of package dependencies
-s Deploy-scenario short-name
-S Storage dir for VM images
-L Deployment log path and file name
-L Deployment log path and name, eg. -L /home/jenkins/job.log.tar.gz
-l Lab name as defined in the configuration directory, e.g. lf
-p POD name as defined in the configuration directory, e.g. pod2
+-P Skip installing dependency distro packages on current host
+ This flag should only be used if you have kept back older packages that
+ would be upgraded and that is undesirable on the current system.
+ Note that without the required packages, deploy will fail.
-s Deployment-scenario, this points to a short deployment scenario name, which
has to be defined in config directory (e.g. os-odl-nofeature-ha).
-S Storage dir for VM images, default is mcp/deploy/images
# END of colored notification wrapper
##############################################################################
-##############################################################################
-# BEGIN of deployment clean-up
-#
-clean() {
- echo "Cleaning up deploy tmp directories"
-}
-#
-# END of deployment clean-up
-##############################################################################
-
##############################################################################
# BEGIN of variables to customize
#
# Customize deploy workflow
DRY_RUN=${DRY_RUN:-0}
+USE_EXISTING_PKGS=${USE_EXISTING_PKGS:-0}
USE_EXISTING_INFRA=${USE_EXISTING_INFRA:-0}
INFRA_CREATION_ONLY=${INFRA_CREATION_ONLY:-0}
NO_DEPLOY_ENVIRONMENT=${NO_DEPLOY_ENVIRONMENT:-0}
ERASE_ENV=${ERASE_ENV:-0}
source "${DEPLOY_DIR}/globals.sh"
+source "${DEPLOY_DIR}/lib.sh"
#
# END of variables to customize
#
set +x
OPNFV_BRIDGE_IDX=0
-while getopts "b:B:dDfEFl:L:p:s:S:he" OPTION
+while getopts "b:B:dDfEFl:L:p:Ps:S:he" OPTION
do
case $OPTION in
b)
DEPLOY_TYPE='virtual'
fi
;;
+ P)
+ USE_EXISTING_PKGS=1
+ ;;
s)
DEPLOY_SCENARIO=${OPTARG}
;;
# 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 uuid-runtime \
- libvirt-bin
-[ -n "$(command -v yum)" ] && sudo yum install -y --skip-broken \
- git make rsync genisoimage curl virt-install qemu-kvm util-linux \
- libvirt
-
-# For baremetal, python is indirectly required for PDF parsing
-if [ "${DEPLOY_TYPE}" = 'baremetal' ]; then
- [ -n "$(command -v apt-get)" ] && sudo apt-get install -y \
- python python-ipaddress python-jinja2 python-yaml
- [ -n "$(command -v yum)" ] && sudo yum install -y --skip-broken \
- python python-ipaddress python-jinja2 python-yaml
-fi
-
-# AArch64 VMs use AAVMF (guest UEFI)
-if [ "$(uname -m)" = 'aarch64' ]; then
- [ -n "$(command -v apt-get)" ] && sudo apt-get install -y qemu-efi
- [ -n "$(command -v yum)" ] && sudo yum install -y --skip-broken AAVMF
+# Install required packages on jump server
+if [ ${USE_EXISTING_PKGS} -eq 1 ]; then
+ notify "[NOTE] Skipping distro pkg installation\n" 2 1>&2
+else
+ notify "[NOTE] Installing required distro pkgs\n" 2 1>&2
+ if [ -n "$(command -v apt-get)" ]; then
+ pkg_type='deb'; pkg_cmd='sudo apt-get install -y'
+ else
+ pkg_type='rpm'; pkg_cmd='sudo yum install -y --skip-broken'
+ fi
+ eval "$(parse_yaml "./requirements_${pkg_type}.yaml")"
+ for section in 'common' "${DEPLOY_TYPE}" "$(uname -m)"; do
+ section_var="requirements_pkg_${section}[*]"
+ pkg_list+=" ${!section_var}"
+ done
+ # shellcheck disable=SC2086
+ ${pkg_cmd} ${pkg_list}
fi
if ! virsh list >/dev/null 2>&1; then
exit 1
fi
+# Collect jump server system information for deploy debugging
+./sysinfo_print.sh
+
# Clone git submodules and apply our patches
make -C "${REPO_ROOT_PATH}/mcp/patches" deepclean patches-import
# 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 "${LOCAL_PDF_RECLASS}")"
export CLUSTER_DOMAIN=${cluster_domain}
-# Use MaaS PXE network defined via PDF admin network if available
-MAAS_PXE_NETWORK=${parameters__param_opnfv_infra_maas_node01_deploy_address:-${MAAS_PXE_NETWORK}}
-export MAAS_PXE_NETWORK=${MAAS_PXE_NETWORK%.*}.0
-
# Serialize vnode data as '<name0>,<ram0>,<vcpu0>|<name1>,<ram1>,<vcpu1>[...]'
for node in "${virtual_nodes[@]}"; do
virtual_custom_ram="virtual_${node}_ram"
done
virtual_nodes_data=${virtual_nodes_data%|}
+# Serialize repos, packages to (pre-)install/remove for:
+# - foundation node VM base image (virtual: all VMs, baremetal: cfg01|mas01)
+# - virtualized control plane VM base image (only when VCP is used)
+base_image_flavors=common
+if [[ "${cluster_states[*]}" =~ virtual_control ]]; then
+ base_image_flavors+=" control"
+fi
+for sc in ${base_image_flavors}; do
+ for va in apt_keys apt_repos pkg_install pkg_remove; do
+ key=virtual_${sc}_${va}
+ eval "${key}=\${${key}[@]// /|}"
+ eval "${key}=\${${key}// /,}"
+ virtual_repos_pkgs+="${!key}^"
+ done
+done
+virtual_repos_pkgs=${virtual_repos_pkgs%^}
+
# Expand reclass and virsh network templates
for tp in "${RECLASS_CLUSTER_DIR}/all-mcp-ocata-common/opnfv/"*.template \
net_*.template; do
# Convert Pharos-compatible PDF to reclass network definitions
if [ "${DEPLOY_TYPE}" = 'baremetal' ]; then
- find "${RECLASS_CLUSTER_DIR}/${CLUSTER_DOMAIN%.local}" \
- "${RECLASS_CLUSTER_DIR}/${DEPLOY_TYPE}-mcp-ocata-common" \
- -name '*.j2' | while read -r tp
+ find "${RECLASS_CLUSTER_DIR}" -name '*.j2' | while read -r tp
do
if ! "${PHAROS_GEN_CONFIG_SCRIPT}" -y "${LOCAL_PDF}" \
-j "${tp}" > "${tp%.j2}"; then
# Map PDF networks 'admin', 'mgmt', 'private' and 'public' to bridge names
BR_NAMES=('admin' 'mgmt' 'private' 'public')
BR_NETS=( \
- "${MAAS_PXE_NETWORK}" \
+ "${paramaters__param_opnfv_infra_maas_pxe_address}" \
"${parameters__param_opnfv_infra_config_address}" \
"${parameters__param_opnfv_openstack_compute_node01_tenant_address}" \
"${parameters__param_opnfv_openstack_compute_node01_external_address}" \
check_connection
else
generate_ssh_key
- prepare_vms "${base_image}" "${STORAGE_DIR}" "${virtual_nodes[@]}"
+ prepare_vms "${base_image}" "${STORAGE_DIR}" "${virtual_repos_pkgs}" \
+ "${virtual_nodes[@]}"
create_networks "${OPNFV_BRIDGES[@]}"
create_vms "${STORAGE_DIR}" "${virtual_nodes_data}" "${OPNFV_BRIDGES[@]}"
update_mcpcontrol_network