fi
# Best-effort attempt at building a non-maintaned kernel module
- local __baseurl
- local __subdir
+ local __baseurl='http://vault.centos.org/centos'
+ local __subdir='Source/SPackages'
local __uname_r=$(uname -r)
local __uname_m=$(uname -m)
if [ "${__uname_m}" = 'x86_64' ]; then
- __baseurl='http://vault.centos.org/centos'
- __subdir='Source/SPackages'
__srpm="kernel-${__uname_r%.${__uname_m}}.src.rpm"
else
- __baseurl='http://vault.centos.org/altarch'
- __subdir="Source/${__uname_m}/Source/SPackages"
# NOTE: fmt varies across releases (e.g. kernel-alt-4.11.0-44.el7a.src.rpm)
__srpm="kernel-alt-${__uname_r%.${__uname_m}}.src.rpm"
fi
sudo qemu-nbd --connect="${OPNFV_NBD_DEV}" --aio=native --cache=none \
"${image_dir}/${image}"
sudo kpartx -av "${OPNFV_NBD_DEV}"
- sleep 5 # /dev/nbdNp1 takes some time to come up
# Hardcode partition index to 1, unlikely to change for Ubuntu UCA image
+ sudo partx -uvn 1:1 "${OPNFV_NBD_DEV}"
if sudo growpart "${OPNFV_NBD_DEV}" 1; then
sudo kpartx -u "${OPNFV_NBD_DEV}"
sudo e2fsck -pf "${OPNFV_MAP_DEV}"
sudo resize2fs "${OPNFV_MAP_DEV}"
+ else
+ sleep 5 # /dev/nbdNp1 takes some time to come up
fi
+ sudo partx -d "${OPNFV_NBD_DEV}"
# grub-update does not like /dev/nbd*, so use a loop device to work around it
sudo losetup "${OPNFV_LOOP_DEV}" "${OPNFV_MAP_DEV}"
mkdir -p "${OPNFV_MNT_DIR}"
function __cleanup_vms {
# clean up existing nodes
for node in $(${VIRSH} list --name | grep -P '\w{3}\d{2}'); do
- ${VIRSH} destroy "${node}"
+ ${VIRSH} destroy "${node}" 2>/dev/null || true
done
for node in $(${VIRSH} list --name --all | grep -P '\w{3}\d{2}'); do
${VIRSH} domblklist "${node}" | awk '/^.da/ {print $2}' | \
local base_image=$1; shift
local image_dir=$1; shift
local repos_pkgs_str=$1; shift # ^-sep list of repos, pkgs to install/rm
- local vnodes=("$@")
local image=base_image_opnfv_fuel.img
local vcp_image=${image%.*}_vcp.img
local _o=${base_image/*\/}
- local _h=$(echo "${repos_pkgs_str}.$(md5sum "${image_dir}/${_o}")" | \
- md5sum | cut -c -8)
- local _tmp
[ -n "${image_dir}" ] || exit 1
cleanup_uefi
__get_base_image "${base_image}" "${image_dir}"
IFS='^' read -r -a repos_pkgs <<< "${repos_pkgs_str}"
+ local _h=$(echo "${repos_pkgs_str}.$(md5sum "${image_dir}/${_o}")" | \
+ md5sum | cut -c -8)
+ local _tmp="${image%.*}.${_h}.img"
echo "[INFO] Lookup cache / build patched base image for fingerprint: ${_h}"
- _tmp="${image%.*}.${_h}.img"
if [ "${image_dir}/${_tmp}" -ef "${image_dir}/${image}" ]; then
echo "[INFO] Patched base image found"
else
ln -sf "${image_dir}/${_tmp}" "${image_dir}/${image}"
fi
- # Create config ISO and resize OS disk image for each foundation node VM
- for node in "${vnodes[@]}"; do
- ./create-config-drive.sh -k "$(basename "${SSH_KEY}").pub" \
- -u 'user-data.sh' -h "${node}" "${image_dir}/mcp_${node}.iso"
- cp "${image_dir}/${image}" "${image_dir}/mcp_${node}.qcow2"
- qemu-img resize "${image_dir}/mcp_${node}.qcow2" 100G
- # Prepare dedicated drive for cinder on cmp nodes
- if [[ "${node}" =~ ^(cmp) ]]; then
- qemu-img create "${image_dir}/mcp_${node}_storage.qcow2" 100G
- fi
- done
-
# VCP VMs base image specific changes
if [[ ! "${repos_pkgs_str}" =~ \^{3}$ ]] && [ -n "${repos_pkgs[*]:4}" ]; then
echo "[INFO] Lookup cache / build patched VCP image for md5sum: ${_h}"
}
function create_networks {
- local all_vnode_networks=("mcpcontrol" "$@")
- # create required networks, including constant "mcpcontrol"
- for net in "${all_vnode_networks[@]}"; do
+ local all_vnode_networks=("$@")
+ # create required networks
+ for net in "mcpcontrol" "${all_vnode_networks[@]}"; do
if ${VIRSH} net-info "${net}" >/dev/null 2>&1; then
${VIRSH} net-destroy "${net}" || true
${VIRSH} net-undefine "${net}"
${VIRSH} net-start "${net}"
fi
done
- # create veth pairs for relevant networks (mcpcontrol, pxebr, mgmt)
- for i in $(seq 0 2 4); do
- sudo ip link del "veth_mcp$i" || true
- sudo ip link add "veth_mcp$i" type veth peer name "veth_mcp$((i+1))"
- sudo ip link set "veth_mcp$i" up mtu 9000
- sudo ip link set "veth_mcp$((i+1))" up mtu 9000
- sudo brctl addif "${all_vnode_networks[$((i/2))]}" "veth_mcp$i"
- done
+
+ sudo ip link del veth_mcp0 || true
+ sudo ip link del veth_mcp2 || true
+ # Create systemd service for veth creation after reboot
+ FUEL_VETHC_SERVICE="/etc/systemd/system/opnfv-fuel-vethc.service"
+ FUEL_VETHA_SERVICE="/etc/systemd/system/opnfv-fuel-vetha.service"
+ test -f /usr/sbin/ip && PREFIX=/usr/sbin || PREFIX=/sbin
+ cat <<-EOF | sudo tee "${FUEL_VETHC_SERVICE}"
+ [Unit]
+ After=libvirtd.service
+ Before=docker.service
+ [Service]
+ ExecStart=/bin/sh -ec '\
+ ${PREFIX}/ip link add veth_mcp0 type veth peer name veth_mcp1 && \
+ ${PREFIX}/ip link add veth_mcp2 type veth peer name veth_mcp3 && \
+ ${PREFIX}/ip link set veth_mcp0 up mtu 9000 && \
+ ${PREFIX}/ip link set veth_mcp1 up mtu 9000 && \
+ ${PREFIX}/ip link set veth_mcp2 up mtu 9000 && \
+ ${PREFIX}/ip link set veth_mcp3 up mtu 9000'
+ EOF
+ cat <<-EOF | sudo tee "${FUEL_VETHA_SERVICE}"
+ [Unit]
+ StartLimitInterval=200
+ StartLimitBurst=10
+ After=opnfv-fuel-vethc.service
+ [Service]
+ Restart=on-failure
+ RestartSec=10
+ ExecStartPre=/bin/sh -ec '\
+ ${PREFIX}/brctl showstp ${all_vnode_networks[0]} > /dev/null 2>&1 && \
+ ${PREFIX}/brctl showstp ${all_vnode_networks[1]} > /dev/null 2>&1'
+ ExecStart=/bin/sh -ec '\
+ ${PREFIX}/brctl addif ${all_vnode_networks[0]} veth_mcp0 && \
+ ${PREFIX}/brctl addif ${all_vnode_networks[1]} veth_mcp2'
+ EOF
+ sudo ln -sf "${FUEL_VETHC_SERVICE}" "/etc/systemd/system/multi-user.target.wants/"
+ sudo ln -sf "${FUEL_VETHA_SERVICE}" "/etc/systemd/system/multi-user.target.wants/"
+ sudo systemctl daemon-reload
+ sudo systemctl restart opnfv-fuel-vethc
+ sudo systemctl restart opnfv-fuel-vetha
}
function create_vms {
local image_dir=$1; shift
+ local image=base_image_opnfv_fuel.img
# vnode data should be serialized with the following format:
- # <name0>,<ram0>,<vcpu0>[,<sockets0>,<cores0>,<threads0>[,<cell0name0>,<cell0memory0>,
+ # <name0>,<disks0>,<ram0>,<vcpu0>[,<sockets0>,<cores0>,<threads0>[,<cell0name0>,<cell0memory0>,
# <cell0cpus0>,<cell1name0>,<cell1memory0>,<cell1cpus0>]]|<name1>,...'
IFS='|' read -r -a vnodes <<< "$1"; shift
for serialized_vnode_data in "${vnodes[@]}"; do
if [ -z "${serialized_vnode_data}" ]; then continue; fi
IFS=',' read -r -a vnode_data <<< "${serialized_vnode_data}"
+ IFS=';' read -r -a disks_data <<< "${vnode_data[1]}"
+
+ # Create config ISO and resize OS disk image for each foundation node VM
+ ./create-config-drive.sh -k "$(basename "${SSH_KEY}").pub" \
+ -u 'user-data.sh' -h "${vnode_data[0]}" "${image_dir}/mcp_${vnode_data[0]}.iso"
+ cp "${image_dir}/${image}" "${image_dir}/mcp_${vnode_data[0]}.qcow2"
+ qemu-img resize "${image_dir}/mcp_${vnode_data[0]}.qcow2" "${disks_data[0]}"
+ # Prepare additional drives if present
+ idx=0
+ virt_extra_storage=
+ for dsize in "${disks_data[@]:1}"; do
+ ((idx+=1))
+ qcow_file="${image_dir}/mcp_${vnode_data[0]}_${idx}.qcow2"
+ qemu-img create "${qcow_file}" "${dsize}"
+ virt_extra_storage+=" --disk path=${qcow_file},format=qcow2,bus=virtio,cache=none,io=native"
+ done
# prepare VM CPU model, count, topology (optional), NUMA cells (optional, requires topo)
local virt_cpu_args=' --cpu host-passthrough'
- local idx=6 # cell0.name index in serialized data
+ local idx=7 # cell0.name index in serialized data
while [ -n "${vnode_data[${idx}]}" ]; do
virt_cpu_args+=",${vnode_data[${idx}]}.memory=${vnode_data[$((idx + 1))]}"
virt_cpu_args+=",${vnode_data[${idx}]}.cpus=${vnode_data[$((idx + 2))]}"
idx=$((idx + 3))
done
- virt_cpu_args+=" --vcpus vcpus=${vnode_data[2]}"
- if [ -n "${vnode_data[5]}" ]; then
- virt_cpu_args+=",sockets=${vnode_data[3]},cores=${vnode_data[4]},threads=${vnode_data[5]}"
+ virt_cpu_args+=" --vcpus vcpus=${vnode_data[3]}"
+ if [ -n "${vnode_data[6]}" ]; then
+ virt_cpu_args+=",sockets=${vnode_data[4]},cores=${vnode_data[5]},threads=${vnode_data[6]}"
fi
# prepare network args
local vnode_networks=("$@")
- if [[ "${vnode_data[0]}" =~ ^(cfg01|mas01) ]]; then
- net_args=" --network network=mcpcontrol,model=virtio"
- # 3rd interface gets connected to PXE/Admin Bridge (cfg01, mas01)
- vnode_networks[2]="${vnode_networks[0]}"
- else
- net_args=" --network bridge=${vnode_networks[0]},model=virtio"
- fi
- for net in "${vnode_networks[@]:1}"; do
+ local net_args=
+ for net in "${vnode_networks[@]}"; do
net_args="${net_args} --network bridge=${net},model=virtio"
done
- # dedicated storage drive for cinder on cmp nodes
- virt_extra_storage=
- if [[ "${vnode_data[0]}" =~ ^(cmp) ]]; then
- virt_extra_storage="--disk path=${image_dir}/mcp_${vnode_data[0]}_storage.qcow2,format=qcow2,bus=virtio,cache=none,io=native"
- fi
-
[ ! -e "${image_dir}/virt-manager" ] || VIRT_PREFIX="${image_dir}/virt-manager/"
# shellcheck disable=SC2086
${VIRT_PREFIX}${VIRSH/virsh/virt-install} --name "${vnode_data[0]}" \
${virt_cpu_args} --accelerate \
${net_args} \
- --ram "${vnode_data[1]}" \
+ --ram "${vnode_data[2]}" \
--disk path="${image_dir}/mcp_${vnode_data[0]}.qcow2",format=qcow2,bus=virtio,cache=none,io=native \
${virt_extra_storage} \
--os-type linux --os-variant none \
done
}
-function update_mcpcontrol_network {
- # set static ip address for salt master node, MaaS node
- local amac=$(${VIRSH} domiflist mas01 2>&1| awk '/mcpcontrol/ {print $5; exit}')
- [ -z "${amac}" ] || ${VIRSH} net-update "mcpcontrol" add ip-dhcp-host \
- "<host mac='${amac}' name='mas01' ip='${MAAS_IP}'/>" --live --config
-}
-
function reset_vms {
local vnodes=("$@")
local cmd_str="ssh ${SSH_OPTS} ${SSH_SALT}"
# reset non-infrastructure vms, wait for them to come back online
for node in "${vnodes[@]}"; do
- if [[ ! "${node}" =~ (cfg01|mas01) ]]; then
- ${VIRSH} reset "${node}"
- fi
+ ${VIRSH} reset "${node}"
done
for node in "${vnodes[@]}"; do
- if [[ ! "${node}" =~ (cfg01|mas01) ]]; then
- wait_for 20.0 "${cmd_str} sudo salt -C '${node}*' saltutil.sync_all"
- fi
+ wait_for 20.0 "${cmd_str} sudo salt -C '${node}*' saltutil.sync_all"
done
}
if [[ ! "${MCP_DOCKER_TAG}" =~ 'verify' ]]; then
"${COMPOSE_PREFIX}docker-compose" -f docker-compose/docker-compose.yaml pull
fi
- sudo rm -rf "${image_dir}/"{salt,hosts,pki} "${image_dir}/nodes/"*
- mkdir -p "${image_dir}/salt/"{master.d,minion.d}
- touch "${image_dir}/hosts"
+ # overwrite hosts only on first container up, to preserve cluster nodes
+ sudo cp docker-compose/files/hosts "${image_dir}/hosts"
+ sudo rm -rf "${image_dir}/"{salt,pki,mas01/etc} "${image_dir}/nodes/"*
+ find "${image_dir}/mas01/var/lib/" \
+ -mindepth 2 -maxdepth 2 -not -name boot-resources \
+ -exec sudo rm -rf {} \; || true
+ mkdir -p "${image_dir}/"{salt/master.d,salt/minion.d}
+
+ if grep -q -e 'maas' 'docker-compose/docker-compose.yaml'; then
+ chmod +x docker-compose/files/entrypoint*.sh
+ # Apparmor workaround for bind9 inside Docker containers using AUFS
+ for profile in 'usr.sbin.ntpd' 'usr.sbin.named' \
+ 'usr.sbin.dhcpd' 'usr.bin.tcpdump'; do
+ if [ -e "/etc/apparmor.d/${profile}" ] && \
+ [ ! -e "/etc/apparmor.d/disable/${profile}" ]; then
+ sudo ln -sf "/etc/apparmor.d/${profile}" "/etc/apparmor.d/disable/"
+ sudo apparmor_parser -R "/etc/apparmor.d/${profile}" || true
+ fi
+ done
+ fi
}
function start_containers {
sudo losetup -d "${OPNFV_LOOP_DEV}"
fi
if [ -n "${OPNFV_NBD_DEV}" ]; then
+ sudo partx -d "${OPNFV_NBD_DEV}" || true
sudo kpartx -d "${OPNFV_NBD_DEV}" || true
sudo qemu-nbd -d "${OPNFV_NBD_DEV}" || true
fi