#!/bin/bash -e ############################################################################## # Copyright (c) 2016 NEC Corporation and others. # # All rights reserved. This program and the accompanying materials # are made available under the terms of the Apache License, Version 2.0 # which accompanies this distribution, and is available at # http://www.apache.org/licenses/LICENSE-2.0 ############################################################################## [[ "${CI_DEBUG:-true}" == [Tt]rue ]] && set -x IMAGE_URL=https://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-disk.img IMAGE_NAME=cirros IMAGE_FILE="${IMAGE_NAME}.img" IMAGE_FORMAT=qcow2 VM_NAME=doctor_vm1 VM_FLAVOR=m1.tiny ALARM_NAME=doctor_alarm1 INSPECTOR_PORT=12345 CONSUMER_PORT=12346 DOCTOR_USER=doctor DOCTOR_PW=doctor DOCTOR_PROJECT=doctor #TODO: change back to `_member_` when JIRA DOCTOR-55 is done DOCTOR_ROLE=admin SUPPORTED_INSTALLER_TYPES="apex fuel local" INSTALLER_TYPE=${INSTALLER_TYPE:-local} INSTALLER_IP=${INSTALLER_IP:-none} SUPPORTED_INSPECTOR_TYPES="sample congress" INSPECTOR_TYPE=${INSPECTOR_TYPE:-sample} ssh_opts="-o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no" as_doctor_user="--os-username $DOCTOR_USER --os-password $DOCTOR_PW --os-tenant-name $DOCTOR_PROJECT" if [[ ! "$SUPPORTED_INSTALLER_TYPES" =~ "$INSTALLER_TYPE" ]] ; then echo "ERROR: INSTALLER_TYPE=$INSTALLER_TYPE is not supported." exit 1 fi if [[ ! "$SUPPORTED_INSPECTOR_TYPES" =~ "$INSPECTOR_TYPE" ]] ; then echo "ERROR: INSPECTOR_TYPE=$INSPECTOR_TYPE is not supported." exit 1 fi get_installer_ip() { if [[ "$INSTALLER_TYPE" == "apex" ]] ; then if [[ "$INSTALLER_IP" == "none" ]] ; then instack_mac=$(sudo virsh domiflist instack | awk '/default/{print $5}') INSTALLER_IP=$(/usr/sbin/arp -e | grep ${instack_mac} | awk '{print $1}') fi elif [[ "$INSTALLER_TYPE" == "fuel" ]] ; then if [[ "$INSTALLER_IP" == "none" ]] ; then instack_mac=$(sudo virsh domiflist fuel-opnfv | awk '/pxebr/{print $5}') INSTALLER_IP=$(/usr/sbin/arp -e | grep ${instack_mac} | awk '{print $1}') fi fi if [[ "$INSTALLER_TYPE" != "local" ]] ; then if [[ -z "$INSTALLER_IP" ]] ; then echo "ERROR: no installer ip" exit 1 fi fi } prepare_ssh_to_cloud() { ssh_opts_cpu="$ssh_opts" # get ssh key from installer node if [[ "$INSTALLER_TYPE" == "apex" ]] ; then sudo scp $ssh_opts root@"$INSTALLER_IP":/home/stack/.ssh/id_rsa instack_key sudo chown $(whoami):$(whoami) instack_key chmod 400 instack_key ssh_opts_cpu+=" -i instack_key" elif [[ "$INSTALLER_TYPE" == "fuel" ]] ; then sshpass -p r00tme scp $ssh_opts root@${INSTALLER_IP}:.ssh/id_rsa instack_key sudo chown $(whoami):$(whoami) instack_key chmod 400 instack_key ssh_opts_cpu+=" -i instack_key" elif [[ "$INSTALLER_TYPE" == "local" ]] ; then echo "INSTALLER_TYPE set to 'local'. Assuming SSH keys already exchanged with $COMPUTE_HOST" fi } prepare_test_env() { #TODO delete it when fuel support the configuration if [[ "$INSTALLER_TYPE" == "fuel" ]] ; then echo "modify the ceilometer event_pipeline configuration..." cat > set_alarm_event_conf.sh << 'END_TXT' #!/bin/bash if [ -e /etc/ceilometer/event_pipeline.yaml ]; then if ! grep -q '^ *- notifier://?topic=alarm.all$' /etc/ceilometer/event_pipeline.yaml; then sed -i 's|- notifier://|- notifier://?topic=alarm.all|' /etc/ceilometer/event_pipeline.yaml echo "modify the ceilometer config" service ceilometer-agent-notification restart fi else echo "ceilometer event_pipeline.yaml file does not exist" exit 1 fi exit 0 END_TXT chmod +x set_alarm_event_conf.sh CONTROLLER_IP=$(sshpass -p r00tme ssh 2>/dev/null $ssh_opts root@${INSTALLER_IP} \ "fuel node | grep controller | cut -d '|' -f 5|xargs") for node in $CONTROLLER_IP;do scp $ssh_opts_cpu set_alarm_event_conf.sh "root@$node:" ssh $ssh_opts_cpu "root@$node" './set_alarm_event_conf.sh > set_alarm_event_conf.log 2>&1 &' sleep 1 scp $ssh_opts_cpu "root@$node:set_alarm_event_conf.log" set_alarm_event_conf_$node.log done if grep -q "modify the ceilometer config" set_alarm_event_conf_*.log ; then NEED_TO_RESTORE=true fi echo "waiting ceilometer-agent-notification restart..." sleep 60 fi } restore_test_env() { #TODO delete it when fuel support the configuration if [[ "$INSTALLER_TYPE" == "fuel" ]] ; then if ! $NEED_TO_RESTORE ; then echo "Don't need to restore config" exit 0 fi echo "restore the ceilometer event_pipeline configuration..." cat > restore_alarm_event_conf.sh << 'END_TXT' #!/bin/bash if [ -e /etc/ceilometer/event_pipeline.yaml ]; then if grep -q '^ *- notifier://?topic=alarm.all$' /etc/ceilometer/event_pipeline.yaml; then sed -i 's|- notifier://?topic=alarm.all|- notifier://|' /etc/ceilometer/event_pipeline.yaml service ceilometer-agent-notification restart fi else echo "ceilometer event_pipeline.yaml file does not exist" exit 1 fi exit 0 END_TXT chmod +x restore_alarm_event_conf.sh for node in $CONTROLLER_IP;do scp $ssh_opts_cpu restore_alarm_event_conf.sh "root@$node:" ssh $ssh_opts_cpu "root@$node" './restore_alarm_event_conf.sh > set_alarm_event_conf.log 2>&1 &' done echo "waiting ceilometer-agent-notification restart..." sleep 60 fi } get_compute_host_info() { # get computer host info which VM boot in COMPUTE_HOST=$(openstack $as_doctor_user server show $VM_NAME | grep "OS-EXT-SRV-ATTR:host" | awk '{ print $4 }') compute_host_in_undercloud=${COMPUTE_HOST%%.*} if [[ -z "$COMPUTE_HOST" ]] ; then echo "ERROR: failed to get compute hostname" exit 1 fi if [[ "$INSTALLER_TYPE" == "apex" ]] ; then COMPUTE_USER=${COMPUTE_USER:-heat-admin} COMPUTE_IP=$(sudo ssh $ssh_opts $INSTALLER_IP \ "source stackrc; \ nova show $compute_host_in_undercloud \ | awk '/ ctlplane network /{print \$5}'") elif [[ "$INSTALLER_TYPE" == "fuel" ]] ; then COMPUTE_USER=${COMPUTE_USER:-root} node_id=$(echo $compute_host_in_undercloud | cut -d "-" -f 2) COMPUTE_IP=$(sshpass -p r00tme ssh 2>/dev/null $ssh_opts root@${INSTALLER_IP} \ "fuel node|awk -F '|' -v id=$node_id '{if (\$1 == id) print \$5}' |xargs") elif [[ "$INSTALLER_TYPE" == "local" ]] ; then COMPUTE_USER=${COMPUTE_USER:-$(whoami)} COMPUTE_IP=$(getent hosts "$COMPUTE_HOST" | awk '{ print $1 }') fi if [[ -z "$COMPUTE_IP" ]]; then echo "ERROR: Could not resolve $COMPUTE_HOST. Either manually set COMPUTE_IP or enable DNS resolution." exit 1 fi echo "COMPUTE_HOST=$COMPUTE_HOST" echo "COMPUTE_IP=$COMPUTE_IP" # verify connectivity to target compute host ping -c 1 "$COMPUTE_IP" if [[ $? -ne 0 ]] ; then echo "ERROR: can not ping to computer host" exit 1 fi # verify ssh to target compute host ssh $ssh_opts_cpu "$COMPUTE_USER@$COMPUTE_IP" 'exit' if [[ $? -ne 0 ]] ; then echo "ERROR: can not ssh to computer host" exit 1 fi } get_consumer_ip() { CONSUMER_IP=$(sudo ssh $ssh_opts root@$INSTALLER_IP \ "ip route get $COMPUTE_IP | awk '/ src /{print \$NF}'") echo "CONSUMER_IP=$CONSUMER_IP" if [[ -z "$CONSUMER_IP" ]]; then echo "ERROR: Could not get CONSUMER_IP." exit 1 fi } download_image() { [ -e "$IMAGE_FILE" ] && return 0 wget "$IMAGE_URL" -o "$IMAGE_FILE" } register_image() { openstack image list | grep -q " $IMAGE_NAME " && return 0 openstack image create "$IMAGE_NAME" \ --public \ --disk-format "$IMAGE_FORMAT" \ --container-format bare \ --file "$IMAGE_FILE" } create_test_user() { openstack project list | grep -q " $DOCTOR_PROJECT " || { openstack project create "$DOCTOR_PROJECT" } openstack user list | grep -q " $DOCTOR_USER " || { openstack user create "$DOCTOR_USER" --password "$DOCTOR_PW" \ --project "$DOCTOR_PROJECT" } openstack user role list "$DOCTOR_USER" --project "$DOCTOR_PROJECT" \ | grep -q " $DOCTOR_ROLE " || { openstack role add "$DOCTOR_ROLE" --user "$DOCTOR_USER" \ --project "$DOCTOR_PROJECT" } } boot_vm() { # test VM done with test user, so can test non-admin openstack $as_doctor_user server list | grep -q " $VM_NAME " && return 0 openstack $as_doctor_user server create --flavor "$VM_FLAVOR" \ --image "$IMAGE_NAME" \ "$VM_NAME" sleep 1 } create_alarm() { # get vm_id as test user ceilometer $as_doctor_user alarm-list | grep -q " $ALARM_NAME " && return 0 vm_id=$(openstack $as_doctor_user server list | grep " $VM_NAME " | awk '{print $2}') # TODO(r-mibu): change notification endpoint from localhost to the consumer # IP address (functest container). ceilometer $as_doctor_user alarm-event-create --name "$ALARM_NAME" \ --alarm-action "http://localhost:$CONSUMER_PORT/failure" \ --description "VM failure" \ --enabled True \ --repeat-actions False \ --severity "moderate" \ --event-type compute.instance.update \ -q "traits.state=string::error; traits.instance_id=string::$vm_id" } print_log() { log_file=$1 echo "$log_file:" sed -e 's/^/ /' "$log_file" } start_monitor() { pgrep -f "python monitor.py" && return 0 sudo -E python monitor.py "$COMPUTE_HOST" "$COMPUTE_IP" "$INSPECTOR_TYPE" \ "http://127.0.0.1:$INSPECTOR_PORT/events" > monitor.log 2>&1 & } stop_monitor() { pgrep -f "python monitor.py" || return 0 sudo kill $(pgrep -f "python monitor.py") print_log monitor.log } congress_add_rule() { name=$1 policy=$2 rule=$3 if ! openstack congress policy rule list $policy | grep -q -e "// Name: $name$" ; then openstack congress policy rule create --name $name $policy "$rule" fi } congress_del_rule() { name=$1 policy=$2 if openstack congress policy rule list $policy | grep -q -e "^// Name: $name$" ; then openstack congress policy rule delete $policy $name fi } congress_setup_rules() { congress_add_rule host_down classification \ 'host_down(host) :- doctor:events(hostname=host, type="compute.host.down", status="down")' congress_add_rule active_instance_in_host classification \ 'active_instance_in_host(vmid, host) :- nova:servers(id=vmid, host_name=host, status="ACTIVE")' congress_add_rule host_force_down classification \ 'execute[nova:services.force_down(host, "nova-compute", "True")] :- host_down(host)' congress_add_rule error_vm_states classification \ 'execute[nova:servers.reset_state(vmid, "error")] :- host_down(host), active_instance_in_host(vmid, host)' } start_inspector() { if [[ "$INSPECTOR_TYPE" == "sample" ]] ; then pgrep -f "python inspector.py" && return 0 python inspector.py "$INSPECTOR_PORT" > inspector.log 2>&1 & elif [[ "$INSPECTOR_TYPE" == "congress" ]] ; then nova_api_min_version="2.11" nova_api_version=$(openstack congress datasource list | \ grep nova | grep -Po "(?<='api_version': ')[^']*") [[ -z $nova_api_version ]] && nova_api_version="2.0" if [[ "$nova_api_version" < "$nova_api_min_version" ]]; then echo "ERROR: Congress Nova datasource API version < $nova_api_min_version ($nova_api_version)" exit 1 fi openstack congress driver list | grep -q " doctor " openstack congress datasource list | grep -q " doctor " || { openstack congress datasource create doctor doctor } congress_setup_rules fi } stop_inspector() { if [[ "$INSPECTOR_TYPE" == "sample" ]] ; then pgrep -f "python inspector.py" || return 0 kill $(pgrep -f "python inspector.py") print_log inspector.log elif [[ "$INSPECTOR_TYPE" == "congress" ]] ; then congress_del_rule host_force_down classification congress_del_rule error_vm_states classification congress_del_rule active_instance_in_host classification congress_del_rule host_down classification fi } start_consumer() { pgrep -f "python consumer.py" && return 0 python consumer.py "$CONSUMER_PORT" > consumer.log 2>&1 & # NOTE(r-mibu): create tunnel to the controller nodes, so that we can # avoid some network problems dpends on infra and installers. # This tunnel will be terminated by stop_consumer() or after 10 mins passed. if [[ "$INSTALLER_TYPE" == "apex" ]] ; then CONTROLLER_IPS=$(sudo ssh $ssh_opts $INSTALLER_IP \ "source stackrc; \ nova list | grep ' overcloud-controller-[0-9] ' \ | sed -e 's/^.*ctlplane=//' -e 's/ *|\$//'") fi if [[ -z "$CONTROLLER_IPS" ]]; then echo "ERROR: Could not get CONTROLLER_IPS." exit 1 fi for ip in $CONTROLLER_IPS do forward_rule="-R $CONSUMER_PORT:localhost:$CONSUMER_PORT" tunnel_command="sudo ssh $ssh_opts_cpu $COMPUTE_USER@$ip $forward_rule sleep 600" $tunnel_command > "ssh_tunnel.${ip}.log" 2>&1 < /dev/null & done } stop_consumer() { pgrep -f "python consumer.py" || return 0 kill $(pgrep -f "python consumer.py") print_log consumer.log # NOTE(r-mibu): terminate tunnels to the controller nodes for ip in $CONTROLLER_IPS do forward_rule="-R $CONSUMER_PORT:localhost:$CONSUMER_PORT" tunnel_command="sudo ssh $ssh_opts_cpu $COMPUTE_USER@$ip $forward_rule sleep 600" kill $(pgrep -f "$tunnel_command") print_log "ssh_tunnel.${ip}.log" done } wait_for_vm_launch() { echo "waiting for vm launch..." count=0 while [[ ${count} -lt 60 ]] do state=$(openstack $as_doctor_user server list | grep " $VM_NAME " | awk '{print $6}') [[ "$state" == "ACTIVE" ]] && return 0 [[ "$state" == "ERROR" ]] && echo "vm state is ERROR" && exit 1 count=$(($count+1)) sleep 1 done echo "ERROR: time out while waiting for vm launch" exit 1 } inject_failure() { echo "disabling network of compute host [$COMPUTE_HOST] for 3 mins..." cat > disable_network.sh << 'END_TXT' #!/bin/bash -x dev=$(sudo ip a | awk '/ @COMPUTE_IP@\//{print $7}') sleep 1 sudo ip link set $dev down sleep 180 sudo ip link set $dev up sleep 1 END_TXT sed -i -e "s/@COMPUTE_IP@/$COMPUTE_IP/" disable_network.sh chmod +x disable_network.sh scp $ssh_opts_cpu disable_network.sh "$COMPUTE_USER@$COMPUTE_IP:" ssh $ssh_opts_cpu "$COMPUTE_USER@$COMPUTE_IP" 'nohup ./disable_network.sh > disable_network.log 2>&1 &' } calculate_notification_time() { detected=$(grep "doctor monitor detected at" monitor.log | awk '{print $5}') notified=$(grep "doctor consumer notified at" consumer.log | awk '{print $5}') if ! grep -q "doctor consumer notified at" consumer.log ; then echo "ERROR: consumer hasn't received fault notification." exit 1 fi echo "$notified $detected" | \ awk '{d = $1 - $2; if (d < 1 && d > 0) print d " OK"; else print d " NG"}' } check_host_status() { expected_state=$1 host_status_line=$(openstack $as_doctor_user --os-compute-api-version 2.16 \ server show $VM_NAME | grep "host_status") host_status=$(echo $host_status_line | awk '{print $4}') if [ -z "$host_status" ] ; then echo "ERROR: host_status not reported by: nova show $VM_NAME" exit 1 elif [[ "$expected_state" =~ "$host_status" ]] ; then echo "$VM_NAME showing host_status: $host_status" else echo "ERROR: host_status:$host_status not equal to expected_state: $expected_state" exit 1 fi } cleanup() { set +e echo "cleanup..." stop_monitor stop_inspector stop_consumer echo "waiting disabled compute host back to be enabled..." python ./nova_force_down.py "$COMPUTE_HOST" --unset sleep 240 check_host_status "UP" scp $ssh_opts_cpu "$COMPUTE_USER@$COMPUTE_IP:disable_network.log" . print_log disable_network.log openstack $as_doctor_user server list | grep -q " $VM_NAME " && openstack $as_doctor_user server delete "$VM_NAME" sleep 1 alarm_id=$(ceilometer $as_doctor_user alarm-list | grep " $ALARM_NAME " | awk '{print $2}') sleep 1 [ -n "$alarm_id" ] && ceilometer $as_doctor_user alarm-delete "$alarm_id" sleep 1 image_id=$(openstack image list | grep " $IMAGE_NAME " | awk '{print $2}') sleep 1 [ -n "$image_id" ] && openstack image delete "$image_id" openstack role remove "$DOCTOR_ROLE" --user "$DOCTOR_USER" \ --project "$DOCTOR_PROJECT" openstack project delete "$DOCTOR_PROJECT" openstack user delete "$DOCTOR_USER" restore_test_env } echo "Note: doctor/tests/run.sh has been executed." trap cleanup EXIT echo "preparing test env..." get_installer_ip prepare_ssh_to_cloud prepare_test_env echo "preparing VM image..." download_image register_image echo "creating test user..." create_test_user echo "creating VM..." boot_vm wait_for_vm_launch openstack $as_doctor_user server show $VM_NAME echo "get computer host info..." get_compute_host_info echo "creating alarm..." get_consumer_ip create_alarm echo "starting doctor sample components..." start_inspector start_monitor start_consumer sleep 60 echo "injecting host failure..." inject_failure sleep 60 check_host_status "(DOWN|UNKNOWN)" calculate_notification_time echo "done"