# shellcheck source=${ROBOT_VENV}/bin/activate disable=SC1091
source ${ROBOT_VENV}/bin/activate
source /tmp/common-functions.sh ${BUNDLEFOLDER}
+# Ensure we fail the job if any steps fail.
+set -ex -o pipefail
+totaltmr=$(timer)
+get_os_deploy
PYTHON="${ROBOT_VENV}/bin/python"
SSH="ssh -t -t"
ADMIN_PASSWORD="admin"
OPENSTACK_MASTER_CLIENTS_VERSION="queens"
-
-pip install odltools
-odltools -V
+#Size of the partition to /opt/stack in control and compute nodes
+TMPFS_SIZE=2G
# TODO: remove this work to run changes.py if/when it's moved higher up to be visible at the Robot level
printf "\nshowing recent changes that made it into the distribution used by this job:\n"
local prog="$0"
local lastline="$1"
local lasterr="$2"
- echo "trap_hanlder: ${prog}: line ${lastline}: exit status of last command: ${lasterr}"
+ echo "trap_handler: ${prog}: line ${lastline}: exit status of last command: ${lasterr}"
echo "trap_handler: command: ${BASH_COMMAND}"
exit 1
} # trap_handler()
trap 'trap_handler ${LINENO} ${$?}' ERR
-function print_job_parameters() {
- cat << EOF
-
-Job parameters:
-DISTROBRANCH: ${DISTROBRANCH}
-DISTROSTREAM: ${DISTROSTREAM}
-BUNDLE_URL: ${BUNDLE_URL}
-CONTROLLERFEATURES: ${CONTROLLERFEATURES}
-CONTROLLERDEBUGMAP: ${CONTROLLERDEBUGMAP}
-SCRIPTPLAN: ${SCRIPTPLAN}
-CONFIGPLAN: ${CONFIGPLAN}
-STREAMTESTPLAN: ${STREAMTESTPLAN}
-TESTPLAN: ${TESTPLAN}
-SUITES: ${SUITES}
-PATCHREFSPEC: ${PATCHREFSPEC}
-OPENSTACK_BRANCH: ${OPENSTACK_BRANCH}
-DEVSTACK_HASH: ${DEVSTACK_HASH}
-ODL_ML2_DRIVER_REPO: ${ODL_ML2_DRIVER_REPO}
-ODL_ML2_BRANCH: ${ODL_ML2_BRANCH}
-ODL_ML2_DRIVER_VERSION: ${ODL_ML2_DRIVER_VERSION}
-ODL_ML2_PORT_BINDING: ${ODL_ML2_PORT_BINDING}
-DEVSTACK_KUBERNETES_PLUGIN_REPO: ${DEVSTACK_KUBERNETES_PLUGIN_REPO}
-DEVSTACK_LBAAS_PLUGIN_REPO: ${DEVSTACK_LBAAS_PLUGIN_REPO}
-DEVSTACK_NETWORKING_SFC_PLUGIN_REPO: ${DEVSTACK_NETWORKING_SFC_PLUGIN_REPO}
-ODL_ENABLE_L3_FWD: ${ODL_ENABLE_L3_FWD}
-IPSEC_VXLAN_TUNNELS_ENABLED: ${IPSEC_VXLAN_TUNNELS_ENABLED}
-PUBLIC_BRIDGE: ${PUBLIC_BRIDGE}
-ENABLE_HAPROXY_FOR_NEUTRON: ${ENABLE_HAPROXY_FOR_NEUTRON}
-ENABLE_OS_SERVICES: ${ENABLE_OS_SERVICES}
-ENABLE_OS_COMPUTE_SERVICES: ${ENABLE_OS_COMPUTE_SERVICES}
-ENABLE_OS_NETWORK_SERVICES: ${ENABLE_OS_NETWORK_SERVICES}
-ENABLE_OS_PLUGINS: ${ENABLE_OS_PLUGINS}
-DISABLE_OS_SERVICES: ${DISABLE_OS_SERVICES}
-TENANT_NETWORK_TYPE: ${TENANT_NETWORK_TYPE}
-SECURITY_GROUP_MODE: ${SECURITY_GROUP_MODE}
-ENABLE_ITM_DIRECT_TUNNELS: ${ENABLE_ITM_DIRECT_TUNNELS}
-PUBLIC_PHYSICAL_NETWORK: ${PUBLIC_PHYSICAL_NETWORK}
-ENABLE_NETWORKING_L2GW: ${ENABLE_NETWORKING_L2GW}
-CREATE_INITIAL_NETWORKS: ${CREATE_INITIAL_NETWORKS}
-LBAAS_SERVICE_PROVIDER: ${LBAAS_SERVICE_PROVIDER}
-NUM_OPENSTACK_SITES: ${NUM_OPENSTACK_SITES}
-ODL_SFC_DRIVER: ${ODL_SFC_DRIVER}
-ODL_SNAT_MODE: ${ODL_SNAT_MODE}
-
-EOF
-}
-
print_job_parameters
function create_etc_hosts() {
NODE_IP=$1
CTRL_IP=$2
: > ${WORKSPACE}/hosts_file
- for iter in `seq 1 ${NUM_OPENSTACK_COMPUTE_NODES}`
- do
+ for iter in `seq 1 ${NUM_OPENSTACK_COMPUTE_NODES}`; do
COMPUTE_IP=OPENSTACK_COMPUTE_NODE_${iter}_IP
if [ "${!COMPUTE_IP}" == "${NODE_IP}" ]; then
CONTROL_HNAME=$(${SSH} ${CTRL_IP} "hostname")
fi
}
-function is_openstack_feature_enabled() {
- local feature=$1
- for enabled_feature in $(csv2ssv ${ENABLE_OS_SERVICES})
- do
- if [ "${enabled_feature}" == "${feature}" ]; then
- echo 1
- return
- fi
- done
- echo 0
-}
-
#Function to install rdo release
# This will help avoiding installing wrong version of packages which causes
# functionality failures
function install_rdo_release() {
local ip=$1
case ${OPENSTACK_BRANCH} in
- *pike*)
- ${SSH} ${ip} "sudo yum install -y https://repos.fedorapeople.org/repos/openstack/openstack-pike/rdo-release-pike-1.noarch.rpm"
- ;;
-
*queens*)
${SSH} ${ip} "sudo yum install -y https://repos.fedorapeople.org/repos/openstack/openstack-queens/rdo-release-queens-1.noarch.rpm"
;;
NEUTRON_SFC_DRIVERS=${ODL_SFC_DRIVER} # Only relevant if networking-sfc plugin is enabled
NEUTRON_FLOWCLASSIFIER_DRIVERS=${ODL_SFC_DRIVER} # Only relevant if networking-sfc plugin is enabled
ETCD_PORT=2379
+PUBLIC_BRIDGE=${PUBLIC_BRIDGE}
+PUBLIC_PHYSICAL_NETWORK=${PUBLIC_PHYSICAL_NETWORK}
+ML2_VLAN_RANGES=${PUBLIC_PHYSICAL_NETWORK}
+ODL_PROVIDER_MAPPINGS=${ODL_PROVIDER_MAPPINGS}
EOF
if [ "${TENANT_NETWORK_TYPE}" == "local" ]; then
cat >> ${local_conf_file_name} << EOF
ENABLE_PLUGIN_ARGS="${DEVSTACK_LBAAS_PLUGIN_REPO} ${OPENSTACK_BRANCH}"
IS_LBAAS_PLUGIN_ENABLED="yes"
elif [ "$plugin_name" == "networking-sfc" ]; then
- ENABLE_PLUGIN_ARGS="${DEVSTACK_NETWORKING_SFC_PLUGIN_REPO} master"
+ ENABLE_PLUGIN_ARGS="${DEVSTACK_NETWORKING_SFC_PLUGIN_REPO} ${OPENSTACK_BRANCH}"
IS_SFC_PLUGIN_ENABLED="yes"
else
echo "Error: Invalid plugin $plugin_name, unsupported"
EOF
fi
- if [ "${ODL_ENABLE_L3_FWD}" == "yes" ]; then
- cat >> ${local_conf_file_name} << EOF
-
-PUBLIC_BRIDGE=${PUBLIC_BRIDGE}
-PUBLIC_PHYSICAL_NETWORK=${PUBLIC_PHYSICAL_NETWORK}
-ML2_VLAN_RANGES=${PUBLIC_PHYSICAL_NETWORK}
-ODL_PROVIDER_MAPPINGS=${ODL_PROVIDER_MAPPINGS}
-EOF
-
- if [ "${ODL_ML2_DRIVER_VERSION}" == "v2" ]; then
- SERVICE_PLUGINS="odl-router_v2"
- else
- SERVICE_PLUGINS="odl-router"
- fi
- if [ "${ENABLE_NETWORKING_L2GW}" == "yes" ]; then
- SERVICE_PLUGINS+=", networking_l2gw.services.l2gateway.plugin.L2GatewayPlugin"
- fi
- if [ "${IS_LBAAS_PLUGIN_ENABLED}" == "yes" ]; then
- SERVICE_PLUGINS+=", lbaasv2"
- fi
- if [ "${IS_SFC_PLUGIN_ENABLED}" == "yes" ]; then
- SERVICE_PLUGINS+=", networking_sfc.services.flowclassifier.plugin.FlowClassifierPlugin,networking_sfc.services.sfc.plugin.SfcPlugin"
- fi
- fi #check for ODL_ENABLE_L3_FWD
+ if [ "${ODL_ML2_DRIVER_VERSION}" == "v2" ]; then
+ SERVICE_PLUGINS="odl-router_v2"
+ else
+ SERVICE_PLUGINS="odl-router"
+ fi
+ if [ "${ENABLE_NETWORKING_L2GW}" == "yes" ]; then
+ SERVICE_PLUGINS+=", networking_l2gw.services.l2gateway.plugin.L2GatewayPlugin"
+ fi
+ if [ "${IS_LBAAS_PLUGIN_ENABLED}" == "yes" ]; then
+ SERVICE_PLUGINS+=", lbaasv2"
+ fi
+ if [ "${IS_SFC_PLUGIN_ENABLED}" == "yes" ]; then
+ SERVICE_PLUGINS+=", networking_sfc.services.flowclassifier.plugin.FlowClassifierPlugin,networking_sfc.services.sfc.plugin.SfcPlugin"
+ fi
cat >> ${local_conf_file_name} << EOF
physical_network_mtus = ${PUBLIC_PHYSICAL_NETWORK}:1400
path_mtu = 1458
EOF
-
+ if [ "${ENABLE_GRE_TYPE_DRIVERS}" == "yes" ]; then
+ cat >> ${local_conf_file_name} << EOF
+type_drivers = local,flat,vlan,gre,vxlan
+[ml2_type_gre]
+tunnel_id_ranges = 1:1000
+EOF
+ fi
if [ "${ENABLE_NETWORKING_L2GW}" == "yes" ]; then
cat >> ${local_conf_file_name} << EOF
log_dir = /opt/stack/logs
[[post-config|/etc/nova/nova.conf]]
+[scheduler]
+discover_hosts_in_cells_interval = 30
+
[DEFAULT]
force_config_drive = False
force_raw_images = False
log_dir = /opt/stack/logs
-[scheduler]
-discover_hosts_in_cells_interval = 30
EOF
- echo "Control local.conf created:"
+ if [ "$(is_openstack_feature_enabled n-cpu)" == "1" ]; then
+ cat >> ${local_conf_file_name} << EOF
+use_neutron = True
+force_raw_images = False
+log_dir = /opt/stack/logs
+[libvirt]
+live_migration_uri = qemu+tcp://%s/system
+virt_type = qemu
+EOF
+ fi
+
+ if [ "$(is_openstack_feature_enabled n-cpu)" == "1" ]; then
+ echo "Combo local.conf created:"
+ else
+ echo "Control local.conf created:"
+ fi
cat ${local_conf_file_name}
} # create_control_node_local_conf()
RABBIT_PASSWORD=${ADMIN_PASSWORD}
SERVICE_TOKEN=${ADMIN_PASSWORD}
SERVICE_PASSWORD=${ADMIN_PASSWORD}
+
+PUBLIC_BRIDGE=${PUBLIC_BRIDGE}
+PUBLIC_PHYSICAL_NETWORK=${PUBLIC_PHYSICAL_NETWORK}
+ODL_PROVIDER_MAPPINGS=${ODL_PROVIDER_MAPPINGS}
EOF
if [[ "${ENABLE_OS_PLUGINS}" =~ networking-odl ]]; then
EOF
fi
- if [ "${ODL_ENABLE_L3_FWD}" == "yes" ]; then
- cat >> ${local_conf_file_name} << EOF
-
-PUBLIC_BRIDGE=${PUBLIC_BRIDGE}
-PUBLIC_PHYSICAL_NETWORK=${PUBLIC_PHYSICAL_NETWORK}
-ODL_PROVIDER_MAPPINGS=${ODL_PROVIDER_MAPPINGS}
-Q_L3_ENABLED=True
-ODL_L3=${ODL_L3}
-EOF
- fi
-
cat >> ${local_conf_file_name} << EOF
[[post-config|/etc/nova/nova.conf]]
} # create_compute_node_local_conf()
function configure_haproxy_for_neutron_requests() {
- MGRIP=$1
+ local -r haproxy_ip=$1
# shellcheck disable=SC2206
- ODL_IPS=(${2//,/ })
+ local -r odl_ips=(${2//,/ })
cat > ${WORKSPACE}/install_ha_proxy.sh<< EOF
sudo systemctl stop firewalld
sudo yum -y install policycoreutils-python haproxy
EOF
-cat > ${WORKSPACE}/haproxy.cfg << EOF
+ cat > ${WORKSPACE}/haproxy.cfg << EOF
global
daemon
group haproxy
log /dev/log local0
maxconn 20480
pidfile /tmp/haproxy.pid
+ ssl-default-bind-ciphers !SSLv2:kEECDH:kRSA:kEDH:kPSK:+3DES:!aNULL:!eNULL:!MD5:!EXP:!RC4:!SEED:!IDEA:!DES
+ ssl-default-bind-options no-sslv3 no-tlsv10
+ stats socket /var/lib/haproxy/stats mode 600 level user
+ stats timeout 2m
user haproxy
defaults
mode tcp
retries 3
timeout http-request 10s
- timeout queue 1m
+ timeout queue 2m
timeout connect 10s
- timeout client 1m
- timeout server 1m
+ timeout client 2m
+ timeout server 2m
timeout check 10s
listen opendaylight
- bind ${MGRIP}:8080
- balance source
+ bind ${haproxy_ip}:8181 transparent
+ mode http
+ http-request set-header X-Forwarded-Proto https if { ssl_fc }
+ http-request set-header X-Forwarded-Proto http if !{ ssl_fc }
+ option httpchk GET /diagstatus
+ option httplog
+EOF
-listen opendaylight_rest
- bind ${MGRIP}:8181
- balance source
+ odlindex=1
+ for odlip in ${odl_ips[*]}; do
+ echo " server opendaylight-rest-${odlindex} ${odlip}:8181 check fall 5 inter 2000 rise 2" >> ${WORKSPACE}/haproxy.cfg
+ odlindex=$((odlindex+1))
+ done
-listen opendaylight_websocket
- bind ${MGRIP}:8185
- balance source
+ cat >> ${WORKSPACE}/haproxy.cfg << EOF
+listen opendaylight_ws
+ bind ${haproxy_ip}:8185 transparent
+ mode http
+ timeout connect 5s
+ timeout client 25s
+ timeout server 25s
+ timeout tunnel 3600s
EOF
odlindex=1
- for odlip in ${ODL_IPS[*]}; do
- sed -i "/listen opendaylight$/a server controller-${odlindex} ${odlip}:8080 check fall 5 inter 2000 rise 2" ${WORKSPACE}/haproxy.cfg
- sed -i "/listen opendaylight_rest$/a server controller-rest-${odlindex} ${odlip}:8181 check fall 5 inter 2000 rise 2" ${WORKSPACE}/haproxy.cfg
- sed -i "/listen opendaylight_websocket$/a server controller-websocket-${odlindex} ${odlip}:8185 check fall 5 inter 2000 rise 2" ${WORKSPACE}/haproxy.cfg
+ for odlip in ${odl_ips[*]}; do
+ echo " server opendaylight-ws-${odlindex} ${odlip}:8185 check fall 5 inter 2000 rise 2" >> ${WORKSPACE}/haproxy.cfg
odlindex=$((odlindex+1))
done
-
echo "Dump haproxy.cfg"
cat ${WORKSPACE}/haproxy.cfg
true
EOF
- scp ${WORKSPACE}/install_ha_proxy.sh ${MGRIP}:/tmp
- ${SSH} ${MGRIP} "sudo bash /tmp/install_ha_proxy.sh"
- scp ${WORKSPACE}/haproxy.cfg ${MGRIP}:/tmp
- scp ${WORKSPACE}/deploy_ha_proxy.sh ${MGRIP}:/tmp
- ${SSH} ${MGRIP} "sudo bash /tmp/deploy_ha_proxy.sh"
+ scp ${WORKSPACE}/install_ha_proxy.sh ${haproxy_ip}:/tmp
+ ${SSH} ${haproxy_ip} "sudo bash /tmp/install_ha_proxy.sh"
+ scp ${WORKSPACE}/haproxy.cfg ${haproxy_ip}:/tmp
+ scp ${WORKSPACE}/deploy_ha_proxy.sh ${haproxy_ip}:/tmp
+ ${SSH} ${haproxy_ip} "sudo bash /tmp/deploy_ha_proxy.sh"
} # configure_haproxy_for_neutron_requests()
# Following three functions are debugging helpers when debugging devstack changes.
return ${rc}
}
+function install_ovs() {
+ local -r node=${1}
+ local -r rpm_path=${2}
+
+ if [ "${OVS_INSTALL:0:1}" = "v" ]; then
+ # An OVS version was given, so we build it ourselves from OVS git repo.
+ # Only on the first node though, consecutive nodes will use RPMs
+ # built for the first one.
+ [ ! -d "${rpm_path}" ] && mkdir -p "${rpm_path}" && build_ovs ${node} ${OVS_INSTALL} "${rpm_path}"
+ # Install OVS from path
+ install_ovs_from_path ${node} "${rpm_path}"
+ elif [ "${OVS_INSTALL:0:4}" = "http" ]; then
+ # Otherwise, install from rpm repo directly.
+ install_ovs_from_repo ${node} ${OVS_INSTALL}
+ else
+ echo "Expected either an OVS version git tag or a repo http url"
+ exit 1
+ fi
+}
+
ODL_PROVIDER_MAPPINGS="\${PUBLIC_PHYSICAL_NETWORK}:${PUBLIC_BRIDGE}"
-ODL_L3=False
RECLONE=False
ODL_PORT=8181
true
EOF
+#For SFC Tests a larger partition is required for creating instances with Ubuntu
+if [[ "${ENABLE_OS_PLUGINS}" =~ networking-sfc ]]; then
+ TMPFS_SIZE=12G
+fi
cat > ${WORKSPACE}/get_devstack.sh << EOF
sudo systemctl stop firewalld
sudo yum install bridge-utils python-pip -y
sudo mv /tmp/hosts /etc/hosts
sudo mkdir /opt/stack
echo "Create RAM disk for /opt/stack"
-sudo mount -t tmpfs -o size=2G tmpfs /opt/stack
+sudo mount -t tmpfs -o size=${TMPFS_SIZE} tmpfs /opt/stack
sudo chmod 777 /opt/stack
cd /opt/stack
echo "git clone https://git.openstack.org/openstack-dev/devstack --branch ${OPENSTACK_BRANCH}"
echo "git checkout ${DEVSTACK_HASH}"
git checkout ${DEVSTACK_HASH}
fi
+wget https://raw.githubusercontent.com/shague/odl_tools/master/fix-logging.patch.txt -O /tmp/fix-logging.patch.txt
+patch --verbose -p1 -i /tmp/fix-logging.patch.txt
git --no-pager log --pretty=format:'%h %<(13)%ar%<(13)%cr %<(20,trunc)%an%d %s%b' -n20
echo
echo "workaround: do not upgrade openvswitch"
sudo yum install -y yum-plugin-versionlock
sudo yum versionlock add openvswitch
-
-#Install qemu-img command in Control Node for Pike
-echo "Install qemu-img application"
-sudo yum install -y qemu-img
EOF
cat > "${WORKSPACE}/setup_host_cell_mapping.sh" << EOF
sudo nova-manage cell_v2 discover_hosts
EOF
+cat > "${WORKSPACE}/workaround_networking_sfc.sh" << EOF
+cd /opt/stack
+git clone https://git.openstack.org/openstack/networking-sfc
+cd networking-sfc
+git checkout ${OPENSTACK_BRANCH}
+git checkout master -- devstack/plugin.sh
+EOF
+
NUM_OPENSTACK_SITES=${NUM_OPENSTACK_SITES:-1}
compute_index=1
-odl_index=1
os_node_list=()
-os_interval=$(( ${NUM_OPENSTACK_SYSTEM} / ${NUM_OPENSTACK_SITES} ))
-ha_proxy_index=${os_interval}
-
-for i in `seq 1 ${NUM_OPENSTACK_SITES}`; do
- if [ "${ENABLE_HAPROXY_FOR_NEUTRON}" == "yes" ]; then
- echo "Configure HAProxy"
- ODL_HAPROXYIP_PARAM=OPENSTACK_HAPROXY_${i}_IP
- ha_proxy_index=$(( $ha_proxy_index + $os_interval ))
- odl_index=$(((i - 1) * 3 + 1))
- ODL_IP_PARAM1=ODL_SYSTEM_$((odl_index++))_IP
- ODL_IP_PARAM2=ODL_SYSTEM_$((odl_index++))_IP
- ODL_IP_PARAM3=ODL_SYSTEM_$((odl_index++))_IP
- ODLMGRIP[$i]=${!ODL_HAPROXYIP_PARAM} # ODL Northbound uses HAProxy VIP
- ODL_OVS_MGRS[$i]="${!ODL_IP_PARAM1},${!ODL_IP_PARAM2},${!ODL_IP_PARAM3}" # OVSDB connects to all ODL IPs
- configure_haproxy_for_neutron_requests ${!ODL_HAPROXYIP_PARAM} "${ODL_OVS_MGRS[$i]}"
- else
- ODL_IP_PARAM=ODL_SYSTEM_${i}_IP
- ODL_OVS_MGRS[$i]="${!ODL_IP_PARAM}" # ODL Northbound uses ODL IP
- ODLMGRIP[$i]=${!ODL_IP_PARAM} # OVSDB connects to ODL IP
- fi
+
+if [ "${ENABLE_HAPROXY_FOR_NEUTRON}" == "yes" ]; then
+ echo "Configure HAProxy"
+ ODL_HAPROXYIP_PARAM=OPENSTACK_HAPROXY_1_IP
+ ODL_IP_PARAM1=ODL_SYSTEM_1_IP
+ ODL_IP_PARAM2=ODL_SYSTEM_2_IP
+ ODL_IP_PARAM3=ODL_SYSTEM_3_IP
+ ODLMGRIP=${!ODL_HAPROXYIP_PARAM} # ODL Northbound uses HAProxy VIP
+ ODL_OVS_MGRS="${!ODL_IP_PARAM1},${!ODL_IP_PARAM2},${!ODL_IP_PARAM3}" # OVSDB connects to all ODL IPs
+ configure_haproxy_for_neutron_requests ${!ODL_HAPROXYIP_PARAM} "${ODL_OVS_MGRS}"
+else
+ ODL_IP_PARAM=ODL_SYSTEM_1_IP
+ ODLMGRIP=${!ODL_IP_PARAM} # OVSDB connects to ODL IP
+ ODL_OVS_MGRS="${!ODL_IP_PARAM}" # ODL Northbound uses ODL IP
+fi
+
+os_ip_list=()
+for i in `seq 1 ${NUM_OPENSTACK_CONTROL_NODES}`; do
+ cip=OPENSTACK_CONTROL_NODE_${i}_IP
+ ip=${!cip}
+ os_ip_list+=("${ip}")
+done
+
+for i in `seq 1 ${NUM_OPENSTACK_COMPUTE_NODES}`; do
+ cip=OPENSTACK_COMPUTE_NODE_${i}_IP
+ ip=${!cip}
+ os_ip_list+=("${ip}")
done
+for i in "${!os_ip_list[@]}"; do
+ ip=${os_ip_list[i]}
+ tcpdump_start "${i}" "${ip}" "port 6653"
+done
+
+
# Begin stacking the nodes, starting with the controller(s) and then the compute(s)
for i in `seq 1 ${NUM_OPENSTACK_CONTROL_NODES}`; do
if [ "${ODL_ML2_BRANCH}" == "stable/queens" ]; then
ssh ${!CONTROLIP} "sed -i 's/flat_networks public/flat_networks public,physnet1/' /opt/stack/devstack/lib/neutron"
ssh ${!CONTROLIP} "sed -i '186i iniset \$NEUTRON_CORE_PLUGIN_CONF ml2_type_vlan network_vlan_ranges public:1:4094,physnet1:1:4094' /opt/stack/devstack/lib/neutron"
+ #Workaround for networking-sfc to configure the paramaters in neutron.conf if the
+ # services used are neutron-api, neutron-dhcp etc instead of q-agt.
+ # Can be removed if the patch https://review.openstack.org/#/c/596287/ gets merged
+ if [[ "${ENABLE_OS_PLUGINS}" =~ networking-sfc ]]; then
+ scp ${WORKSPACE}/workaround_networking_sfc.sh ${!CONTROLIP}:/tmp/
+ ssh ${!CONTROLIP} "bash -x /tmp/workaround_networking_sfc.sh"
+ fi
fi
- create_control_node_local_conf ${!CONTROLIP} ${ODLMGRIP[$i]} "${ODL_OVS_MGRS[$i]}"
+ create_control_node_local_conf ${!CONTROLIP} ${ODLMGRIP} "${ODL_OVS_MGRS}"
scp ${WORKSPACE}/local.conf_control_${!CONTROLIP} ${!CONTROLIP}:/opt/stack/devstack/local.conf
echo "Install rdo release to avoid incompatible Package versions"
install_rdo_release ${!CONTROLIP}
setup_live_migration_control ${!CONTROLIP}
+ if [ "$(is_openstack_feature_enabled n-cpu)" == "1" ]; then
+ setup_live_migration_compute ${!CONTROLIP} ${!CONTROLIP}
+ fi
+ [ -n "${OVS_INSTALL}" ] && install_ovs ${!CONTROLIP} /tmp/ovs_rpms
echo "Stack the control node ${i} of ${NUM_OPENSTACK_CONTROL_NODES}: ${CONTROLIP}"
ssh ${!CONTROLIP} "cd /opt/stack/devstack; nohup ./stack.sh > /opt/stack/devstack/nohup.out 2>&1 &"
ssh ${!CONTROLIP} "ps -ef | grep stack.sh"
fi
for i in `seq 1 ${NUM_OPENSTACK_COMPUTE_NODES}`; do
- NUM_COMPUTES_PER_SITE=$((NUM_OPENSTACK_COMPUTE_NODES / NUM_OPENSTACK_SITES))
- SITE_INDEX=$((((i - 1) / NUM_COMPUTES_PER_SITE) + 1)) # We need the site index to infer the control node IP for this compute
COMPUTEIP=OPENSTACK_COMPUTE_NODE_${i}_IP
- CONTROLIP=OPENSTACK_CONTROL_NODE_${SITE_INDEX}_IP
+ CONTROLIP=OPENSTACK_CONTROL_NODE_1_IP
echo "Configure the stack of the compute node ${i} of ${NUM_OPENSTACK_COMPUTE_NODES}: ${!COMPUTEIP}"
scp ${WORKSPACE}/disable_firewall.sh "${!COMPUTEIP}:/tmp"
${SSH} "${!COMPUTEIP}" "sudo bash /tmp/disable_firewall.sh"
scp ${WORKSPACE}/hosts_file ${!COMPUTEIP}:/tmp/hosts
scp ${WORKSPACE}/get_devstack.sh ${!COMPUTEIP}:/tmp
${SSH} ${!COMPUTEIP} "bash /tmp/get_devstack.sh > /tmp/get_devstack.sh.txt 2>&1"
- create_compute_node_local_conf ${!COMPUTEIP} ${!CONTROLIP} ${ODLMGRIP[$SITE_INDEX]} "${ODL_OVS_MGRS[$SITE_INDEX]}"
+ create_compute_node_local_conf ${!COMPUTEIP} ${!CONTROLIP} ${ODLMGRIP} "${ODL_OVS_MGRS}"
scp ${WORKSPACE}/local.conf_compute_${!COMPUTEIP} ${!COMPUTEIP}:/opt/stack/devstack/local.conf
echo "Install rdo release to avoid incompatible Package versions"
install_rdo_release ${!COMPUTEIP}
setup_live_migration_compute ${!COMPUTEIP} ${!CONTROLIP}
- echo "Stack the compute node ${i} of ${NUM_OPENSTACK_COMPUTE_NODES}: ${COMPUTEIP}"
+ [ -n "${OVS_INSTALL}" ] && install_ovs ${!COMPUTEIP} /tmp/ovs_rpms
+ echo "Stack the compute node ${i} of ${NUM_OPENSTACK_COMPUTE_NODES}: ${!COMPUTEIP}"
ssh ${!COMPUTEIP} "cd /opt/stack/devstack; nohup ./stack.sh > /opt/stack/devstack/nohup.out 2>&1 &"
ssh ${!COMPUTEIP} "ps -ef | grep stack.sh"
os_node_list+=("${!COMPUTEIP}")
done
# Further configuration now that stacking is complete.
-NUM_COMPUTES_PER_SITE=$((NUM_OPENSTACK_COMPUTE_NODES / NUM_OPENSTACK_SITES))
-for i in `seq 1 ${NUM_OPENSTACK_SITES}`; do
- echo "Configure the Control Node"
- CONTROLIP=OPENSTACK_CONTROL_NODE_${i}_IP
- # Gather Compute IPs for the site
- for j in `seq 1 ${NUM_COMPUTES_PER_SITE}`; do
- COMPUTE_INDEX=$(((i-1) * NUM_COMPUTES_PER_SITE + j))
- IP_VAR=OPENSTACK_COMPUTE_NODE_${COMPUTE_INDEX}_IP
- COMPUTE_IPS[$((j-1))]=${!IP_VAR}
- done
+echo "Configure the Control Node"
+CONTROLIP=OPENSTACK_CONTROL_NODE_1_IP
+# Gather Compute IPs for the site
+for i in `seq 1 ${NUM_OPENSTACK_COMPUTE_NODES}`; do
+ IP_VAR=OPENSTACK_COMPUTE_NODE_${i}_IP
+ COMPUTE_IPS[$((i-1))]=${!IP_VAR}
+done
- echo "sleep for 60s and print hypervisor-list"
- sleep 60
- ${SSH} ${!CONTROLIP} "cd /opt/stack/devstack; source openrc admin admin; nova hypervisor-list"
- # in the case that we are doing openstack (control + compute) all in one node, then the number of hypervisors
- # will be the same as the number of openstack systems. However, if we are doing multinode openstack then the
- # assumption is we have a single control node and the rest are compute nodes, so the number of expected hypervisors
- # is one less than the total number of openstack systems
- if [ $((NUM_OPENSTACK_SYSTEM / NUM_OPENSTACK_SITES)) -eq 1 ]; then
- expected_num_hypervisors=1
- else
- expected_num_hypervisors=${NUM_COMPUTES_PER_SITE}
- fi
- num_hypervisors=$(${SSH} ${!CONTROLIP} "cd /opt/stack/devstack; source openrc admin admin; openstack hypervisor list -f value | wc -l" | tail -1 | tr -d "\r")
- if ! [ "${num_hypervisors}" ] || ! [ ${num_hypervisors} -eq ${expected_num_hypervisors} ]; then
- echo "Error: Only $num_hypervisors hypervisors detected, expected $expected_num_hypervisors"
- exit 1
+echo "sleep for 60s and print hypervisor-list"
+sleep 60
+${SSH} ${!CONTROLIP} "cd /opt/stack/devstack; source openrc admin admin; nova hypervisor-list"
+# in the case that we are doing openstack (control + compute) all in one node, then the number of hypervisors
+# will be the same as the number of openstack systems. However, if we are doing multinode openstack then the
+# assumption is we have a single control node and the rest are compute nodes, so the number of expected hypervisors
+# is one less than the total number of openstack systems
+if [ ${NUM_OPENSTACK_SYSTEM} -eq 1 ]; then
+ expected_num_hypervisors=1
+else
+ expected_num_hypervisors=${NUM_OPENSTACK_COMPUTE_NODES}
+ if [ "$(is_openstack_feature_enabled n-cpu)" == "1" ]; then
+ expected_num_hypervisors=$((expected_num_hypervisors + 1))
fi
+fi
+num_hypervisors=$(${SSH} ${!CONTROLIP} "cd /opt/stack/devstack; source openrc admin admin; openstack hypervisor list -f value | wc -l" | tail -1 | tr -d "\r")
+if ! [ "${num_hypervisors}" ] || ! [ ${num_hypervisors} -eq ${expected_num_hypervisors} ]; then
+ echo "Error: Only $num_hypervisors hypervisors detected, expected $expected_num_hypervisors"
+ exit 1
+fi
- # Gather Compute IPs for the site
- for j in `seq 1 ${NUM_COMPUTES_PER_SITE}`; do
- COMPUTE_INDEX=$(((i-1) * NUM_COMPUTES_PER_SITE + j))
- IP_VAR=OPENSTACK_COMPUTE_NODE_${COMPUTE_INDEX}_IP
- COMPUTE_IPS[$((j-1))]=${!IP_VAR}
+# External Network
+echo "prepare external networks by adding vxlan tunnels between all nodes on a separate bridge..."
+# FIXME Should there be a unique gateway IP and devstack index for each site?
+devstack_index=1
+for ip in ${!CONTROLIP} ${COMPUTE_IPS[*]}; do
+ # FIXME - Workaround, ODL (new netvirt) currently adds PUBLIC_BRIDGE as a port in br-int since it doesn't see such a bridge existing when we stack
+ ${SSH} $ip "sudo ovs-vsctl --if-exists del-port br-int $PUBLIC_BRIDGE"
+ ${SSH} $ip "sudo ovs-vsctl --may-exist add-br $PUBLIC_BRIDGE -- set bridge $PUBLIC_BRIDGE other-config:disable-in-band=true other_config:hwaddr=f6:00:00:ff:01:0$((devstack_index++))"
+done
+
+# ipsec support
+if [ "${IPSEC_VXLAN_TUNNELS_ENABLED}" == "yes" ]; then
+ # shellcheck disable=SC2206
+ ALL_NODES=(${!CONTROLIP} ${COMPUTE_IPS[*]})
+ for ((inx_ip1=0; inx_ip1<$((${#ALL_NODES[@]} - 1)); inx_ip1++)); do
+ for ((inx_ip2=$((inx_ip1 + 1)); inx_ip2<${#ALL_NODES[@]}; inx_ip2++)); do
+ KEY1=0x$(dd if=/dev/urandom count=32 bs=1 2> /dev/null| xxd -p -c 64)
+ KEY2=0x$(dd if=/dev/urandom count=32 bs=1 2> /dev/null| xxd -p -c 64)
+ ID=0x$(dd if=/dev/urandom count=4 bs=1 2> /dev/null| xxd -p -c 8)
+ ip1=${ALL_NODES[$inx_ip1]}
+ ip2=${ALL_NODES[$inx_ip2]}
+ ${SSH} $ip1 "sudo ip xfrm state add src $ip1 dst $ip2 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
+ ${SSH} $ip1 "sudo ip xfrm state add src $ip2 dst $ip1 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
+ ${SSH} $ip1 "sudo ip xfrm policy add src $ip1 dst $ip2 proto udp dir out tmpl src $ip1 dst $ip2 proto esp reqid $ID mode transport"
+ ${SSH} $ip1 "sudo ip xfrm policy add src $ip2 dst $ip1 proto udp dir in tmpl src $ip2 dst $ip1 proto esp reqid $ID mode transport"
+
+ ${SSH} $ip2 "sudo ip xfrm state add src $ip2 dst $ip1 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
+ ${SSH} $ip2 "sudo ip xfrm state add src $ip1 dst $ip2 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
+ ${SSH} $ip2 "sudo ip xfrm policy add src $ip2 dst $ip1 proto udp dir out tmpl src $ip2 dst $ip1 proto esp reqid $ID mode transport"
+ ${SSH} $ip2 "sudo ip xfrm policy add src $ip1 dst $ip2 proto udp dir in tmpl src $ip1 dst $ip2 proto esp reqid $ID mode transport"
+ done
done
- # External Network
- echo "prepare external networks by adding vxlan tunnels between all nodes on a separate bridge..."
- # FIXME Should there be a unique gateway IP and devstack index for each site?
- devstack_index=1
for ip in ${!CONTROLIP} ${COMPUTE_IPS[*]}; do
- # FIXME - Workaround, ODL (new netvirt) currently adds PUBLIC_BRIDGE as a port in br-int since it doesn't see such a bridge existing when we stack
- ${SSH} $ip "sudo ovs-vsctl --if-exists del-port br-int $PUBLIC_BRIDGE"
- ${SSH} $ip "sudo ovs-vsctl --may-exist add-br $PUBLIC_BRIDGE -- set bridge $PUBLIC_BRIDGE other-config:disable-in-band=true other_config:hwaddr=f6:00:00:ff:01:0$((devstack_index++))"
+ echo "ip xfrm configuration for node $ip:"
+ ${SSH} $ip "sudo ip xfrm policy list"
+ ${SSH} $ip "sudo ip xfrm state list"
done
+fi
- # ipsec support
- if [ "${IPSEC_VXLAN_TUNNELS_ENABLED}" == "yes" ]; then
- # shellcheck disable=SC2206
- ALL_NODES=(${!CONTROLIP} ${COMPUTE_IPS[*]})
- for ((inx_ip1=0; inx_ip1<$((${#ALL_NODES[@]} - 1)); inx_ip1++)); do
- for ((inx_ip2=$((inx_ip1 + 1)); inx_ip2<${#ALL_NODES[@]}; inx_ip2++)); do
- KEY1=0x$(dd if=/dev/urandom count=32 bs=1 2> /dev/null| xxd -p -c 64)
- KEY2=0x$(dd if=/dev/urandom count=32 bs=1 2> /dev/null| xxd -p -c 64)
- ID=0x$(dd if=/dev/urandom count=4 bs=1 2> /dev/null| xxd -p -c 8)
- ip1=${ALL_NODES[$inx_ip1]}
- ip2=${ALL_NODES[$inx_ip2]}
- ${SSH} $ip1 "sudo ip xfrm state add src $ip1 dst $ip2 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
- ${SSH} $ip1 "sudo ip xfrm state add src $ip2 dst $ip1 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
- ${SSH} $ip1 "sudo ip xfrm policy add src $ip1 dst $ip2 proto udp dir out tmpl src $ip1 dst $ip2 proto esp reqid $ID mode transport"
- ${SSH} $ip1 "sudo ip xfrm policy add src $ip2 dst $ip1 proto udp dir in tmpl src $ip2 dst $ip1 proto esp reqid $ID mode transport"
-
- ${SSH} $ip2 "sudo ip xfrm state add src $ip2 dst $ip1 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
- ${SSH} $ip2 "sudo ip xfrm state add src $ip1 dst $ip2 proto esp spi $ID reqid $ID mode transport auth sha256 $KEY1 enc aes $KEY2"
- ${SSH} $ip2 "sudo ip xfrm policy add src $ip2 dst $ip1 proto udp dir out tmpl src $ip2 dst $ip1 proto esp reqid $ID mode transport"
- ${SSH} $ip2 "sudo ip xfrm policy add src $ip1 dst $ip2 proto udp dir in tmpl src $ip1 dst $ip2 proto esp reqid $ID mode transport"
- done
- done
-
- for ip in ${!CONTROLIP} ${COMPUTE_IPS[*]}; do
- echo "ip xfrm configuration for node $ip:"
- ${SSH} $ip "sudo ip xfrm policy list"
- ${SSH} $ip "sudo ip xfrm state list"
- done
- fi
-
- # Control Node - PUBLIC_BRIDGE will act as the external router
- # Parameter values below are used in integration/test - changing them requires updates in intergration/test as well
- EXTNET_GATEWAY_IP="10.10.10.250"
- EXTNET_INTERNET_IP="10.9.9.9"
- EXTNET_PNF_IP="10.10.10.253"
- ${SSH} ${!CONTROLIP} "sudo ifconfig ${PUBLIC_BRIDGE} up ${EXTNET_GATEWAY_IP}/24"
-
- # Control Node - external net PNF simulation
+# Control Node - PUBLIC_BRIDGE will act as the external router
+# Parameter values below are used in integration/test - changing them requires updates in intergration/test as well
+EXTNET_GATEWAY_IP="10.10.10.250"
+EXTNET_INTERNET_IP="10.9.9.9"
+EXTNET_PNF_IP="10.10.10.253"
+${SSH} ${!CONTROLIP} "sudo ifconfig ${PUBLIC_BRIDGE} up ${EXTNET_GATEWAY_IP}/24"
+
+# Control Node - external net PNF simulation
+${SSH} ${!CONTROLIP} "
+ sudo ip netns add pnf_ns;
+ sudo ip link add pnf_veth0 type veth peer name pnf_veth1;
+ sudo ip link set pnf_veth1 netns pnf_ns;
+ sudo ip link set pnf_veth0 up;
+ sudo ip netns exec pnf_ns ifconfig pnf_veth1 up ${EXTNET_PNF_IP}/24;
+ sudo ovs-vsctl add-port ${PUBLIC_BRIDGE} pnf_veth0;
+"
+
+# Control Node - external net internet address simulation
+${SSH} ${!CONTROLIP} "
+ sudo ip tuntap add dev internet_tap mode tap;
+ sudo ifconfig internet_tap up ${EXTNET_INTERNET_IP}/24;
+"
+
+# Computes
+compute_index=1
+for compute_ip in ${COMPUTE_IPS[*]}; do
+ # Tunnel from controller to compute
+ COMPUTEPORT=compute$(( compute_index++ ))_vxlan
${SSH} ${!CONTROLIP} "
- sudo ip netns add pnf_ns;
- sudo ip link add pnf_veth0 type veth peer name pnf_veth1;
- sudo ip link set pnf_veth1 netns pnf_ns;
- sudo ip link set pnf_veth0 up;
- sudo ip netns exec pnf_ns ifconfig pnf_veth1 up ${EXTNET_PNF_IP}/24;
- sudo ovs-vsctl add-port ${PUBLIC_BRIDGE} pnf_veth0;
+ sudo ovs-vsctl add-port $PUBLIC_BRIDGE $COMPUTEPORT -- set interface $COMPUTEPORT type=vxlan options:local_ip=${!CONTROLIP} options:remote_ip=$compute_ip options:dst_port=9876 options:key=flow
"
-
- # Control Node - external net internet address simulation
- ${SSH} ${!CONTROLIP} "
- sudo ip tuntap add dev internet_tap mode tap;
- sudo ifconfig internet_tap up ${EXTNET_INTERNET_IP}/24;
+ # Tunnel from compute to controller
+ CONTROLPORT="control_vxlan"
+ ${SSH} $compute_ip "
+ sudo ovs-vsctl add-port $PUBLIC_BRIDGE $CONTROLPORT -- set interface $CONTROLPORT type=vxlan options:local_ip=$compute_ip options:remote_ip=${!CONTROLIP} options:dst_port=9876 options:key=flow
"
-
- # Computes
- compute_index=1
- for compute_ip in ${COMPUTE_IPS[*]}; do
- # Tunnel from controller to compute
- COMPUTEPORT=compute$(( compute_index++ ))_vxlan
- ${SSH} ${!CONTROLIP} "
- sudo ovs-vsctl add-port $PUBLIC_BRIDGE $COMPUTEPORT -- set interface $COMPUTEPORT type=vxlan options:local_ip=${!CONTROLIP} options:remote_ip=$compute_ip options:dst_port=9876 options:key=flow
- "
- # Tunnel from compute to controller
- CONTROLPORT="control_vxlan"
- ${SSH} $compute_ip "
- sudo ovs-vsctl add-port $PUBLIC_BRIDGE $CONTROLPORT -- set interface $CONTROLPORT type=vxlan options:local_ip=$compute_ip options:remote_ip=${!CONTROLIP} options:dst_port=9876 options:key=flow
- "
- done
done
if [ "${ENABLE_HAPROXY_FOR_NEUTRON}" == "yes" ]; then
which neutron
neutron --version
+stacktime=$(timer $totaltmr)
+printf "Stacking elapsed time: %s\n" "${stacktime}"
+
echo "Starting Robot test suites ${SUITES} ..."
# please add pybot -v arguments on a single line and alphabetized
suite_num=0
log_name="${suite_index}_${suite_name}"
pybot -N ${log_name} \
-c critical -e exclude -e skip_if_${DISTROSTREAM} \
- --log log_${log_name}.html --report None --output output_${log_name}.xml \
+ --log log_${log_name}.html --report report_${log_name}.html --output output_${log_name}.xml \
--removekeywords wuks \
--removekeywords name:SetupUtils.Setup_Utils_For_Setup_And_Teardown \
--removekeywords name:SetupUtils.Setup_Test_With_Logging_And_Without_Fast_Failing \
--removekeywords name:OpenStackOperations.Add_OVS_Logging_On_All_OpenStack_Nodes \
-v BUNDLEFOLDER:${BUNDLEFOLDER} \
-v BUNDLE_URL:${ACTUAL_BUNDLE_URL} \
+ -v CMP_INSTANCES_SHARED_PATH:/var/instances \
-v CONTROLLERFEATURES:"${CONTROLLERFEATURES}" \
-v CONTROLLER_USER:${USER} \
-v DEVSTACK_DEPLOY_PATH:/opt/stack/devstack \
-v JENKINS_WORKSPACE:${WORKSPACE} \
-v NEXUSURL_PREFIX:${NEXUSURL_PREFIX} \
-v NUM_ODL_SYSTEM:${NUM_ODL_SYSTEM} \
- -v NUM_OPENSTACK_SITES:${NUM_OPENSTACK_SITES} \
-v NUM_OS_SYSTEM:${NUM_OPENSTACK_SYSTEM} \
-v NUM_TOOLS_SYSTEM:${NUM_TOOLS_SYSTEM} \
-v ODL_SNAT_MODE:${ODL_SNAT_MODE} \
- -v ODL_ENABLE_L3_FWD:${ODL_ENABLE_L3_FWD} \
-v ODL_STREAM:${DISTROSTREAM} \
-v ODL_SYSTEM_IP:${ODL_SYSTEM_IP} \
-v ODL_SYSTEM_1_IP:${ODL_SYSTEM_1_IP} \
-v OS_COMPUTE_4_IP:${OPENSTACK_COMPUTE_NODE_4_IP} \
-v OS_COMPUTE_5_IP:${OPENSTACK_COMPUTE_NODE_5_IP} \
-v OS_COMPUTE_6_IP:${OPENSTACK_COMPUTE_NODE_6_IP} \
- -v CMP_INSTANCES_SHARED_PATH:/var/instances \
+ -v OPENSTACK_TOPO:${OPENSTACK_TOPO} \
-v OS_USER:${USER} \
-v PUBLIC_PHYSICAL_NETWORK:${PUBLIC_PHYSICAL_NETWORK} \
-v SECURITY_GROUP_MODE:${SECURITY_GROUP_MODE} \
${TESTOPTIONS} ${suite} || true
done
#rebot exit codes seem to be different
-rebot --output ${WORKSPACE}/output.xml --log log_full.html --report None -N openstack output_*.xml || true
+rebot --output ${WORKSPACE}/output.xml --log log_full.html --report report.html -N openstack output_*.xml || true
echo "Examining the files in data/log and checking file size"
ssh ${ODL_SYSTEM_IP} "ls -altr /tmp/${BUNDLEFOLDER}/data/log/"
ssh ${ODL_SYSTEM_IP} "du -hs /tmp/${BUNDLEFOLDER}/data/log/*"
echo "Tests Executed"
-
+printf "Total elapsed time: %s, stacking time: %s\n" "$(timer $totaltmr)" "${stacktime}"
true # perhaps Jenkins is testing last exit code
# vim: ts=4 sw=4 sts=4 et ft=sh :