# Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # Default values for neutron. # This is a YAML-formatted file. # Declare name/value pairs to be passed into your templates. # name: value --- release_group: null images: tags: bootstrap: docker.io/openstackhelm/heat:stein-ubuntu_bionic test: docker.io/xrally/xrally-openstack:2.0.0 purge_test: docker.io/openstackhelm/ospurge:latest db_init: docker.io/openstackhelm/heat:stein-ubuntu_bionic neutron_db_sync: docker.io/openstackhelm/neutron:stein-ubuntu_bionic db_drop: docker.io/openstackhelm/heat:stein-ubuntu_bionic rabbit_init: docker.io/rabbitmq:3.7-management ks_user: docker.io/openstackhelm/heat:stein-ubuntu_bionic ks_service: docker.io/openstackhelm/heat:stein-ubuntu_bionic ks_endpoints: docker.io/openstackhelm/heat:stein-ubuntu_bionic neutron_server: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_dhcp: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_metadata: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_l3: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_l2gw: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_openvswitch_agent: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_linuxbridge_agent: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_sriov_agent: docker.io/openstackhelm/neutron:stein-18.04-sriov neutron_sriov_agent_init: docker.io/openstackhelm/neutron:stein-18.04-sriov neutron_bagpipe_bgp: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_ironic_agent: docker.io/openstackhelm/neutron:stein-ubuntu_bionic neutron_netns_cleanup_cron: docker.io/openstackhelm/neutron:stein-ubuntu_bionic dep_check: quay.io/airshipit/kubernetes-entrypoint:v1.0.0 image_repo_sync: docker.io/docker:17.07.0 pull_policy: "IfNotPresent" local_registry: active: false exclude: - dep_check - image_repo_sync labels: agent: dhcp: node_selector_key: openstack-control-plane node_selector_value: enabled l3: node_selector_key: openstack-control-plane node_selector_value: enabled metadata: node_selector_key: openstack-control-plane node_selector_value: enabled l2gw: node_selector_key: openstack-control-plane node_selector_value: enabled job: node_selector_key: openstack-control-plane node_selector_value: enabled lb: node_selector_key: linuxbridge node_selector_value: enabled # openvswitch is a special case, requiring a special # label that can apply to both control hosts # and compute hosts, until we get more sophisticated # with our daemonset scheduling ovs: node_selector_key: openvswitch node_selector_value: enabled sriov: node_selector_key: sriov node_selector_value: enabled bagpipe_bgp: node_selector_key: openstack-compute-node node_selector_value: enabled server: node_selector_key: openstack-control-plane node_selector_value: enabled ironic_agent: node_selector_key: openstack-control-plane node_selector_value: enabled netns_cleanup_cron: node_selector_key: openstack-control-plane node_selector_value: enabled test: node_selector_key: openstack-control-plane node_selector_value: enabled network: # provide what type of network wiring will be used backend: - openvswitch # NOTE(Portdirect): Share network namespaces with the host, # allowing agents to be restarted without packet loss and simpler # debugging. This feature requires mount propagation support. share_namespaces: true interface: # Tunnel interface will be used for VXLAN tunneling. tunnel: null # If tunnel is null there is a fallback mechanism to search # for interface with routing using tunnel network cidr. tunnel_network_cidr: "0/0" # To perform setup of network interfaces using the SR-IOV init # container you can use a section similar to: # sriov: # - device: ${DEV} # num_vfs: 8 # mtu: 9214 # promisc: false # qos: # - vf_num: 0 # share: 10 # queues_per_vf: # - num_queues: 16 # exclude_vf: 0,11,21 server: ingress: public: true classes: namespace: "nginx" cluster: "nginx-cluster" annotations: nginx.ingress.kubernetes.io/rewrite-target: / external_policy_local: false node_port: enabled: false port: 30096 bootstrap: enabled: false ks_user: neutron script: | openstack token issue dependencies: dynamic: common: local_image_registry: jobs: - neutron-image-repo-sync services: - endpoint: node service: local_image_registry targeted: sriov: {} l2gateway: {} bagpipe_bgp: {} openvswitch: dhcp: pod: - requireSameNode: true labels: application: neutron component: neutron-ovs-agent l3: pod: - requireSameNode: true labels: application: neutron component: neutron-ovs-agent metadata: pod: - requireSameNode: true labels: application: neutron component: neutron-ovs-agent linuxbridge: dhcp: pod: - requireSameNode: true labels: application: neutron component: neutron-lb-agent l3: pod: - requireSameNode: true labels: application: neutron component: neutron-lb-agent metadata: pod: - requireSameNode: true labels: application: neutron component: neutron-lb-agent lb_agent: pod: null static: bootstrap: services: - endpoint: internal service: network - endpoint: internal service: compute db_drop: services: - endpoint: internal service: oslo_db db_init: services: - endpoint: internal service: oslo_db db_sync: jobs: - neutron-db-init services: - endpoint: internal service: oslo_db dhcp: pod: null jobs: - neutron-rabbit-init services: - endpoint: internal service: oslo_messaging - endpoint: internal service: network - endpoint: internal service: compute ks_endpoints: jobs: - neutron-ks-service services: - endpoint: internal service: identity ks_service: services: - endpoint: internal service: identity ks_user: services: - endpoint: internal service: identity rabbit_init: services: - service: oslo_messaging endpoint: internal l3: pod: null jobs: - neutron-rabbit-init services: - endpoint: internal service: oslo_messaging - endpoint: internal service: network - endpoint: internal service: compute lb_agent: pod: null jobs: - neutron-rabbit-init services: - endpoint: internal service: oslo_messaging - endpoint: internal service: network metadata: pod: null jobs: - neutron-rabbit-init services: - endpoint: internal service: oslo_messaging - endpoint: internal service: network - endpoint: internal service: compute - endpoint: public service: compute_metadata ovs_agent: jobs: - neutron-rabbit-init pod: - requireSameNode: true labels: application: openvswitch component: server services: - endpoint: internal service: oslo_messaging - endpoint: internal service: network server: jobs: - neutron-db-sync - neutron-ks-user - neutron-ks-endpoints - neutron-rabbit-init services: - endpoint: internal service: oslo_db - endpoint: internal service: oslo_messaging - endpoint: internal service: oslo_cache - endpoint: internal service: identity ironic_agent: jobs: - neutron-db-sync - neutron-ks-user - neutron-ks-endpoints - neutron-rabbit-init services: - endpoint: internal service: oslo_db - endpoint: internal service: oslo_messaging - endpoint: internal service: oslo_cache - endpoint: internal service: identity tests: services: - endpoint: internal service: network - endpoint: internal service: compute image_repo_sync: services: - endpoint: internal service: local_image_registry pod: use_fqdn: neutron_agent: true probes: rpc_timeout: 60 rpc_retries: 2 dhcp_agent: dhcp_agent: readiness: enabled: true params: initialDelaySeconds: 30 periodSeconds: 190 timeoutSeconds: 185 liveness: enabled: true params: initialDelaySeconds: 120 periodSeconds: 600 timeoutSeconds: 580 l3_agent: l3_agent: readiness: enabled: true params: initialDelaySeconds: 30 periodSeconds: 190 timeoutSeconds: 185 liveness: enabled: true params: initialDelaySeconds: 120 periodSeconds: 600 timeoutSeconds: 580 lb_agent: lb_agent: readiness: enabled: true metadata_agent: metadata_agent: readiness: enabled: true params: initialDelaySeconds: 30 periodSeconds: 190 timeoutSeconds: 185 liveness: enabled: true params: initialDelaySeconds: 120 periodSeconds: 600 timeoutSeconds: 580 ovs_agent: ovs_agent: readiness: enabled: true params: liveness: enabled: true params: initialDelaySeconds: 120 periodSeconds: 600 timeoutSeconds: 580 sriov_agent: sriov_agent: readiness: enabled: true params: initialDelaySeconds: 30 periodSeconds: 190 timeoutSeconds: 185 bagpipe_bgp: bagpipe_bgp: readiness: enabled: true params: liveness: enabled: true params: initialDelaySeconds: 60 l2gw_agent: l2gw_agent: readiness: enabled: true params: initialDelaySeconds: 30 periodSeconds: 15 timeoutSeconds: 65 liveness: enabled: true params: initialDelaySeconds: 120 periodSeconds: 90 timeoutSeconds: 70 server: server: readiness: enabled: true params: liveness: enabled: true params: initialDelaySeconds: 60 security_context: neutron_dhcp_agent: pod: runAsUser: 42424 container: neutron_dhcp_agent: readOnlyRootFilesystem: true privileged: true neutron_l2gw_agent: pod: runAsUser: 42424 container: neutron_l2gw_agent: readOnlyRootFilesystem: true privileged: true neutron_bagpipe_bgp: pod: runAsUser: 42424 container: neutron_bagpipe_bgp: readOnlyRootFilesystem: true privileged: true neutron_l3_agent: pod: runAsUser: 42424 container: neutron_l3_agent: readOnlyRootFilesystem: true privileged: true neutron_lb_agent: pod: runAsUser: 42424 container: neutron_lb_agent_kernel_modules: capabilities: add: - SYS_MODULE - SYS_CHROOT runAsUser: 0 readOnlyRootFilesystem: true neutron_lb_agent_init: privileged: true runAsUser: 0 readOnlyRootFilesystem: true neutron_lb_agent: readOnlyRootFilesystem: true privileged: true neutron_metadata_agent: pod: runAsUser: 42424 container: neutron_metadata_agent_init: runAsUser: 0 readOnlyRootFilesystem: true neutron_ovs_agent: pod: runAsUser: 42424 container: neutron_openvswitch_agent_kernel_modules: capabilities: add: - SYS_MODULE - SYS_CHROOT runAsUser: 0 readOnlyRootFilesystem: true neutron_ovs_agent_init: privileged: true runAsUser: 0 readOnlyRootFilesystem: true neutron_ovs_agent: readOnlyRootFilesystem: true privileged: true neutron_server: pod: runAsUser: 42424 container: nginx: runAsUser: 0 readOnlyRootFilesystem: false neutron_server: allowPrivilegeEscalation: false readOnlyRootFilesystem: true neutron_sriov_agent: pod: runAsUser: 42424 container: neutron_sriov_agent_init: privileged: true runAsUser: 0 readOnlyRootFilesystem: false neutron_sriov_agent: readOnlyRootFilesystem: true privileged: true neutron_ironic_agent: pod: runAsUser: 42424 container: neutron_ironic_agent: allowPrivilegeEscalation: false readOnlyRootFilesystem: true neutron_netns_cleanup_cron: pod: runAsUser: 42424 container: neutron_netns_cleanup_cron: readOnlyRootFilesystem: true privileged: true affinity: anti: type: default: preferredDuringSchedulingIgnoredDuringExecution topologyKey: default: kubernetes.io/hostname weight: default: 10 tolerations: neutron: enabled: false tolerations: - key: node-role.kubernetes.io/master operator: Exists effect: NoSchedule mounts: neutron_server: init_container: null neutron_server: volumeMounts: volumes: neutron_dhcp_agent: init_container: null neutron_dhcp_agent: volumeMounts: volumes: neutron_l3_agent: init_container: null neutron_l3_agent: volumeMounts: volumes: neutron_lb_agent: init_container: null neutron_lb_agent: volumeMounts: volumes: neutron_metadata_agent: init_container: null neutron_metadata_agent: volumeMounts: volumes: neutron_ovs_agent: init_container: null neutron_ovs_agent: volumeMounts: volumes: neutron_sriov_agent: init_container: null neutron_sriov_agent: volumeMounts: volumes: neutron_l2gw_agent: init_container: null neutron_l2gw_agent: volumeMounts: volumes: bagpipe_bgp: init_container: null bagpipe_bgp: volumeMounts: volumes: neutron_ironic_agent: init_container: null neutron_ironic_agent: volumeMounts: volumes: neutron_netns_cleanup_cron: init_container: null neutron_netns_cleanup_cron: volumeMounts: volumes: neutron_tests: init_container: null neutron_tests: volumeMounts: volumes: neutron_bootstrap: init_container: null neutron_bootstrap: volumeMounts: volumes: neutron_db_sync: neutron_db_sync: volumeMounts: - name: db-sync-conf mountPath: /etc/neutron/plugins/ml2/ml2_conf.ini subPath: ml2_conf.ini readOnly: true volumes: replicas: server: 1 ironic_agent: 1 lifecycle: upgrades: deployments: revision_history: 3 pod_replacement_strategy: RollingUpdate rolling_update: max_unavailable: 1 max_surge: 3 daemonsets: pod_replacement_strategy: RollingUpdate dhcp_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 l3_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 lb_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 metadata_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 ovs_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 sriov_agent: enabled: true min_ready_seconds: 0 max_unavailable: 1 netns_cleanup_cron: enabled: true min_ready_seconds: 0 max_unavailable: 1 disruption_budget: server: min_available: 0 termination_grace_period: server: timeout: 30 ironic_agent: timeout: 30 resources: enabled: false agent: dhcp: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" l3: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" lb: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" metadata: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" ovs: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" sriov: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" l2gw: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" bagpipe_bgp: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" server: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" ironic_agent: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" netns_cleanup_cron: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" jobs: bootstrap: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" db_init: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" rabbit_init: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" db_sync: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" db_drop: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" ks_endpoints: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" ks_service: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" ks_user: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" tests: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" image_repo_sync: requests: memory: "128Mi" cpu: "100m" limits: memory: "1024Mi" cpu: "2000m" conf: rally_tests: force_project_purge: false run_tempest: false clean_up: | # NOTE: We will make the best effort to clean up rally generated networks and routers, # but should not block further automated deployment. set +e PATTERN="^[sc]_rally_" ROUTERS=$(openstack router list --format=value -c Name | grep -e $PATTERN | sort | tr -d '\r') NETWORKS=$(openstack network list --format=value -c Name | grep -e $PATTERN | sort | tr -d '\r') for ROUTER in $ROUTERS do openstack router unset --external-gateway $ROUTER openstack router set --disable --no-ha $ROUTER SUBNS=$(openstack router show $ROUTER -c interfaces_info --format=value | python -m json.tool | grep -oP '(?<="subnet_id": ")[a-f0-9\-]{36}(?=")' | sort | uniq) for SUBN in $SUBNS do openstack router remove subnet $ROUTER $SUBN done for PORT in $(openstack port list --router $ROUTER --format=value -c ID | tr -d '\r') do openstack router remove port $ROUTER $PORT done openstack router delete $ROUTER done for NETWORK in $NETWORKS do for PORT in $(openstack port list --network $NETWORK --format=value -c ID | tr -d '\r') do openstack port delete $PORT done openstack network delete $NETWORK done set -e tests: NeutronNetworks.create_and_delete_networks: - args: network_create_args: {} context: quotas: neutron: network: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_delete_ports: - args: network_create_args: {} port_create_args: {} ports_per_network: 10 context: network: {} quotas: neutron: network: -1 port: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_delete_routers: - args: network_create_args: {} router_create_args: {} subnet_cidr_start: 1.1.0.0/30 subnet_create_args: {} subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 router: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_delete_subnets: - args: network_create_args: {} subnet_cidr_start: 1.1.0.0/30 subnet_create_args: {} subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_list_routers: - args: network_create_args: {} router_create_args: {} subnet_cidr_start: 1.1.0.0/30 subnet_create_args: {} subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 router: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_list_subnets: - args: network_create_args: {} subnet_cidr_start: 1.1.0.0/30 subnet_create_args: {} subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_show_network: - args: network_create_args: {} context: quotas: neutron: network: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_update_networks: - args: network_create_args: {} network_update_args: admin_state_up: false context: quotas: neutron: network: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_update_ports: - args: network_create_args: {} port_create_args: {} port_update_args: admin_state_up: false device_id: dummy_id device_owner: dummy_owner ports_per_network: 5 context: network: {} quotas: neutron: network: -1 port: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_update_routers: - args: network_create_args: {} router_create_args: {} router_update_args: admin_state_up: false subnet_cidr_start: 1.1.0.0/30 subnet_create_args: {} subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 router: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.create_and_update_subnets: - args: network_create_args: {} subnet_cidr_start: 1.4.0.0/16 subnet_create_args: {} subnet_update_args: enable_dhcp: false subnets_per_network: 2 context: network: {} quotas: neutron: network: -1 subnet: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronNetworks.list_agents: - args: agent_args: {} runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronSecurityGroup.create_and_list_security_groups: - args: security_group_create_args: {} context: quotas: neutron: security_group: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 NeutronSecurityGroup.create_and_update_security_groups: - args: security_group_create_args: {} security_group_update_args: {} context: quotas: neutron: security_group: -1 runner: concurrency: 1 times: 1 type: constant sla: failure_rate: max: 0 paste: composite:neutron: use: egg:Paste#urlmap /: neutronversions_composite /v2.0: neutronapi_v2_0 composite:neutronapi_v2_0: use: call:neutron.auth:pipeline_factory noauth: cors http_proxy_to_wsgi request_id catch_errors extensions neutronapiapp_v2_0 keystone: cors http_proxy_to_wsgi request_id catch_errors authtoken audit keystonecontext extensions neutronapiapp_v2_0 composite:neutronversions_composite: use: call:neutron.auth:pipeline_factory noauth: cors http_proxy_to_wsgi neutronversions keystone: cors http_proxy_to_wsgi neutronversions filter:request_id: paste.filter_factory: oslo_middleware:RequestId.factory filter:catch_errors: paste.filter_factory: oslo_middleware:CatchErrors.factory filter:cors: paste.filter_factory: oslo_middleware.cors:filter_factory oslo_config_project: neutron filter:http_proxy_to_wsgi: paste.filter_factory: oslo_middleware.http_proxy_to_wsgi:HTTPProxyToWSGI.factory filter:keystonecontext: paste.filter_factory: neutron.auth:NeutronKeystoneContext.factory filter:authtoken: paste.filter_factory: keystonemiddleware.auth_token:filter_factory filter:audit: paste.filter_factory: keystonemiddleware.audit:filter_factory audit_map_file: /etc/neutron/api_audit_map.conf filter:extensions: paste.filter_factory: neutron.api.extensions:plugin_aware_extension_middleware_factory app:neutronversions: paste.app_factory: neutron.pecan_wsgi.app:versions_factory app:neutronapiapp_v2_0: paste.app_factory: neutron.api.v2.router:APIRouter.factory filter:osprofiler: paste.filter_factory: osprofiler.web:WsgiMiddleware.factory policy: {} api_audit_map: DEFAULT: target_endpoint_type: None custom_actions: add_router_interface: update/add remove_router_interface: update/remove path_keywords: floatingips: ip healthmonitors: healthmonitor health_monitors: health_monitor lb: None members: member metering-labels: label metering-label-rules: rule networks: network pools: pool ports: port routers: router quotas: quota security-groups: security-group security-group-rules: rule subnets: subnet vips: vip service_endpoints: network: service/network neutron_sudoers: | # This sudoers file supports rootwrap for both Kolla and LOCI Images. Defaults !requiretty Defaults secure_path="/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/snap/bin:/var/lib/openstack/bin:/var/lib/kolla/venv/bin" neutron ALL = (root) NOPASSWD: /var/lib/kolla/venv/bin/neutron-rootwrap /etc/neutron/rootwrap.conf *, /var/lib/openstack/bin/neutron-rootwrap /etc/neutron/rootwrap.conf * neutron ALL = (root) NOPASSWD: /var/lib/kolla/venv/bin/neutron-rootwrap-daemon /etc/neutron/rootwrap.conf, /var/lib/openstack/bin/neutron-rootwrap-daemon /etc/neutron/rootwrap.conf rootwrap: | # Configuration for neutron-rootwrap # This file should be owned by (and only-writeable by) the root user [DEFAULT] # List of directories to load filter definitions from (separated by ','). # These directories MUST all be only writeable by root ! filters_path=/etc/neutron/rootwrap.d,/usr/share/neutron/rootwrap,/var/lib/openstack/etc/neutron/rootwrap.d # List of directories to search executables in, in case filters do not # explicitely specify a full path (separated by ',') # If not specified, defaults to system PATH environment variable. # These directories MUST all be only writeable by root ! exec_dirs=/sbin,/usr/sbin,/bin,/usr/bin,/usr/local/bin,/usr/local/sbin,/var/lib/openstack/bin,/var/lib/kolla/venv/bin # Enable logging to syslog # Default value is False use_syslog=False # Which syslog facility to use. # Valid values include auth, authpriv, syslog, local0, local1... # Default value is 'syslog' syslog_log_facility=syslog # Which messages to log. # INFO means log all usage # ERROR means only log unsuccessful attempts syslog_log_level=ERROR [xenapi] # XenAPI configuration is only required by the L2 agent if it is to # target a XenServer/XCP compute host's dom0. xenapi_connection_url= xenapi_connection_username=root xenapi_connection_password= rootwrap_filters: debug: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # This is needed because we should ping # from inside a namespace which requires root # _alt variants allow to match -c and -w in any order # (used by NeutronDebugAgent.ping_all) ping: RegExpFilter, ping, root, ping, -w, \d+, -c, \d+, [0-9\.]+ ping_alt: RegExpFilter, ping, root, ping, -c, \d+, -w, \d+, [0-9\.]+ ping6: RegExpFilter, ping6, root, ping6, -w, \d+, -c, \d+, [0-9A-Fa-f:]+ ping6_alt: RegExpFilter, ping6, root, ping6, -c, \d+, -w, \d+, [0-9A-Fa-f:]+ dibbler: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # Filters for the dibbler-based reference implementation of the pluggable # Prefix Delegation driver. Other implementations using an alternative agent # should include a similar filter in this folder. # prefix_delegation_agent dibbler-client: CommandFilter, dibbler-client, root ipset_firewall: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # neutron/agent/linux/iptables_firewall.py # "ipset", "-A", ... ipset: CommandFilter, ipset, root l3: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # arping arping: CommandFilter, arping, root # l3_agent sysctl: CommandFilter, sysctl, root route: CommandFilter, route, root radvd: CommandFilter, radvd, root # haproxy haproxy: RegExpFilter, haproxy, root, haproxy, -f, .* kill_haproxy: KillFilter, root, haproxy, -15, -9, -HUP # metadata proxy metadata_proxy: CommandFilter, neutron-ns-metadata-proxy, root # RHEL invocation of the metadata proxy will report /usr/bin/python kill_metadata: KillFilter, root, python, -15, -9 kill_metadata2: KillFilter, root, python2, -15, -9 kill_metadata7: KillFilter, root, python2.7, -15, -9 kill_metadata3: KillFilter, root, python3, -15, -9 kill_metadata35: KillFilter, root, python3.5, -15, -9 kill_metadata36: KillFilter, root, python3.6, -15, -9 kill_metadata37: KillFilter, root, python3.7, -15, -9 kill_radvd_usr: KillFilter, root, /usr/sbin/radvd, -15, -9, -HUP kill_radvd: KillFilter, root, /sbin/radvd, -15, -9, -HUP # ip_lib ip: IpFilter, ip, root find: RegExpFilter, find, root, find, /sys/class/net, -maxdepth, 1, -type, l, -printf, %.* ip_exec: IpNetnsExecFilter, ip, root # l3_tc_lib l3_tc_show_qdisc: RegExpFilter, tc, root, tc, qdisc, show, dev, .+ l3_tc_add_qdisc_ingress: RegExpFilter, tc, root, tc, qdisc, add, dev, .+, ingress l3_tc_add_qdisc_egress: RegExpFilter, tc, root, tc, qdisc, add, dev, .+, root, handle, 1:, htb l3_tc_show_filters: RegExpFilter, tc, root, tc, -p, -s, -d, filter, show, dev, .+, parent, .+, prio, 1 l3_tc_delete_filters: RegExpFilter, tc, root, tc, filter, del, dev, .+, parent, .+, prio, 1, handle, .+, u32 l3_tc_add_filter_ingress: RegExpFilter, tc, root, tc, filter, add, dev, .+, parent, .+, protocol, ip, prio, 1, u32, match, ip, dst, .+, police, rate, .+, burst, .+, drop, flowid, :1 l3_tc_add_filter_egress: RegExpFilter, tc, root, tc, filter, add, dev, .+, parent, .+, protocol, ip, prio, 1, u32, match, ip, src, .+, police, rate, .+, burst, .+, drop, flowid, :1 # For ip monitor kill_ip_monitor: KillFilter, root, ip, -9 # ovs_lib (if OVSInterfaceDriver is used) ovs-vsctl: CommandFilter, ovs-vsctl, root # iptables_manager iptables-save: CommandFilter, iptables-save, root iptables-restore: CommandFilter, iptables-restore, root ip6tables-save: CommandFilter, ip6tables-save, root ip6tables-restore: CommandFilter, ip6tables-restore, root # Keepalived keepalived: CommandFilter, keepalived, root kill_keepalived: KillFilter, root, keepalived, -HUP, -15, -9 # l3 agent to delete floatingip's conntrack state conntrack: CommandFilter, conntrack, root # keepalived state change monitor keepalived_state_change: CommandFilter, neutron-keepalived-state-change, root # The following filters are used to kill the keepalived state change monitor. # Since the monitor runs as a Python script, the system reports that the # command of the process to be killed is python. # TODO(mlavalle) These kill filters will be updated once we come up with a # mechanism to kill using the name of the script being executed by Python kill_keepalived_monitor_py: KillFilter, root, python, -15 kill_keepalived_monitor_py27: KillFilter, root, python2.7, -15 kill_keepalived_monitor_py3: KillFilter, root, python3, -15 kill_keepalived_monitor_py35: KillFilter, root, python3.5, -15 kill_keepalived_monitor_py36: KillFilter, root, python3.6, -15 kill_keepalived_monitor_py37: KillFilter, root, python3.7, -15 netns_cleanup: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent - netns_cleanup_cron content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # netns-cleanup netstat: CommandFilter, netstat, root dhcp: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent - netns_cleanup_cron content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # dhcp-agent dnsmasq: CommandFilter, dnsmasq, root # dhcp-agent uses kill as well, that's handled by the generic KillFilter # it looks like these are the only signals needed, per # neutron/agent/linux/dhcp.py kill_dnsmasq: KillFilter, root, /sbin/dnsmasq, -9, -HUP, -15 kill_dnsmasq_usr: KillFilter, root, /usr/sbin/dnsmasq, -9, -HUP, -15 ovs-vsctl: CommandFilter, ovs-vsctl, root ivs-ctl: CommandFilter, ivs-ctl, root mm-ctl: CommandFilter, mm-ctl, root dhcp_release: CommandFilter, dhcp_release, root dhcp_release6: CommandFilter, dhcp_release6, root # metadata proxy metadata_proxy: CommandFilter, neutron-ns-metadata-proxy, root # RHEL invocation of the metadata proxy will report /usr/bin/python kill_metadata: KillFilter, root, python, -9 kill_metadata2: KillFilter, root, python2, -9 kill_metadata7: KillFilter, root, python2.7, -9 kill_metadata3: KillFilter, root, python3, -9 kill_metadata35: KillFilter, root, python3.5, -9 kill_metadata36: KillFilter, root, python3.6, -9 kill_metadata37: KillFilter, root, python3.7, -9 # ip_lib ip: IpFilter, ip, root find: RegExpFilter, find, root, find, /sys/class/net, -maxdepth, 1, -type, l, -printf, %.* ip_exec: IpNetnsExecFilter, ip, root ebtables: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] ebtables: CommandFilter, ebtables, root iptables_firewall: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # neutron/agent/linux/iptables_firewall.py # "iptables-save", ... iptables-save: CommandFilter, iptables-save, root iptables-restore: CommandFilter, iptables-restore, root ip6tables-save: CommandFilter, ip6tables-save, root ip6tables-restore: CommandFilter, ip6tables-restore, root # neutron/agent/linux/iptables_firewall.py # "iptables", "-A", ... iptables: CommandFilter, iptables, root ip6tables: CommandFilter, ip6tables, root # neutron/agent/linux/iptables_firewall.py sysctl: CommandFilter, sysctl, root # neutron/agent/linux/ip_conntrack.py conntrack: CommandFilter, conntrack, root linuxbridge_plugin: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # linuxbridge-agent # unclear whether both variants are necessary, but I'm transliterating # from the old mechanism brctl: CommandFilter, brctl, root bridge: CommandFilter, bridge, root # ip_lib ip: IpFilter, ip, root find: RegExpFilter, find, root, find, /sys/class/net, -maxdepth, 1, -type, l, -printf, %.* ip_exec: IpNetnsExecFilter, ip, root # tc commands needed for QoS support tc_replace_tbf: RegExpFilter, tc, root, tc, qdisc, replace, dev, .+, root, tbf, rate, .+, latency, .+, burst, .+ tc_add_ingress: RegExpFilter, tc, root, tc, qdisc, add, dev, .+, ingress, handle, .+ tc_delete: RegExpFilter, tc, root, tc, qdisc, del, dev, .+, .+ tc_show_qdisc: RegExpFilter, tc, root, tc, qdisc, show, dev, .+ tc_show_filters: RegExpFilter, tc, root, tc, filter, show, dev, .+, parent, .+ tc_add_filter: RegExpFilter, tc, root, tc, filter, add, dev, .+, parent, .+, protocol, all, prio, .+, basic, police, rate, .+, burst, .+, mtu, .+, drop openvswitch_plugin: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent content: | # neutron-rootwrap command filters for nodes on which neutron is # expected to control network # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # openvswitch-agent # unclear whether both variants are necessary, but I'm transliterating # from the old mechanism ovs-vsctl: CommandFilter, ovs-vsctl, root # NOTE(yamamoto): of_interface=native doesn't use ovs-ofctl ovs-ofctl: CommandFilter, ovs-ofctl, root ovs-appctl: CommandFilter, ovs-appctl, root kill_ovsdb_client: KillFilter, root, /usr/bin/ovsdb-client, -9 ovsdb-client: CommandFilter, ovsdb-client, root xe: CommandFilter, xe, root # ip_lib ip: IpFilter, ip, root find: RegExpFilter, find, root, find, /sys/class/net, -maxdepth, 1, -type, l, -printf, %.* ip_exec: IpNetnsExecFilter, ip, root # needed for FDB extension bridge: CommandFilter, bridge, root privsep: pods: - dhcp_agent - l3_agent - lb_agent - metadata_agent - ovs_agent - sriov_agent - netns_cleanup_cron content: | # Command filters to allow privsep daemon to be started via rootwrap. # # This file should be owned by (and only-writeable by) the root user [Filters] # By installing the following, the local admin is asserting that: # # 1. The python module load path used by privsep-helper # command as root (as started by sudo/rootwrap) is trusted. # 2. Any oslo.config files matching the --config-file # arguments below are trusted. # 3. Users allowed to run sudo/rootwrap with this configuration(*) are # also allowed to invoke python "entrypoint" functions from # --privsep_context with the additional (possibly root) privileges # configured for that context. # # (*) ie: the user is allowed by /etc/sudoers to run rootwrap as root # # In particular, the oslo.config and python module path must not # be writeable by the unprivileged user. # oslo.privsep default neutron context privsep: PathFilter, privsep-helper, root, --config-file, /etc, --privsep_context, neutron.privileged.default, --privsep_sock_path, / # NOTE: A second `--config-file` arg can also be added above. Since # many neutron components are installed like that (eg: by devstack). # Adjust to suit local requirements. linux_vxlan: pods: - bagpipe_bgp content: | # bagpipe-bgp-rootwrap command filters for nodes on which bagpipe-bgp is # expected to control VXLAN Linux Bridge dataplane # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # modprobe: CommandFilter, modprobe, root # brctl: CommandFilter, brctl, root bridge: CommandFilter, bridge, root # ip_lib ip: IpFilter, ip, root ip_exec: IpNetnsExecFilter, ip, root # shell (for piped commands) sh: CommandFilter, sh, root mpls_ovs_dataplane: pods: - bagpipe_bgp content: | # bagpipe-bgp-rootwrap command filters for nodes on which bagpipe-bgp is # expected to control MPLS OpenVSwitch dataplane # # This file should be owned by (and only-writeable by) the root user # format seems to be # cmd-name: filter-name, raw-command, user, args [Filters] # openvswitch ovs-vsctl: CommandFilter, ovs-vsctl, root ovs-ofctl: CommandFilter, ovs-ofctl, root # ip_lib ip: IpFilter, ip, root ip_exec: IpNetnsExecFilter, ip, root # shell (for piped commands) sh: CommandFilter, sh, root neutron: DEFAULT: metadata_proxy_socket: /var/lib/neutron/openstack-helm/metadata_proxy log_config_append: /etc/neutron/logging.conf # NOTE(portdirect): the bind port should not be defined, and is manipulated # via the endpoints section. bind_port: null default_availability_zones: nova api_workers: 1 rpc_workers: 4 allow_overlapping_ips: True state_path: /var/lib/neutron # core_plugin can be: ml2, calico core_plugin: ml2 # service_plugin can be: router, odl-router, empty for calico, # networking_ovn.l3.l3_ovn.OVNL3RouterPlugin for OVN service_plugins: router allow_automatic_l3agent_failover: True l3_ha: True max_l3_agents_per_router: 2 l3_ha_network_type: vxlan network_auto_schedule: True router_auto_schedule: True # (NOTE)portdirect: if unset this is populated dynamically from the value in # 'network.backend' to sane defaults. interface_driver: null oslo_concurrency: lock_path: /var/lib/neutron/tmp database: max_retries: -1 agent: root_helper: sudo /var/lib/openstack/bin/neutron-rootwrap /etc/neutron/rootwrap.conf root_helper_daemon: sudo /var/lib/openstack/bin/neutron-rootwrap-daemon /etc/neutron/rootwrap.conf oslo_messaging_notifications: driver: messagingv2 oslo_messaging_rabbit: rabbit_ha_queues: true oslo_middleware: enable_proxy_headers_parsing: true oslo_policy: policy_file: /etc/neutron/policy.yaml nova: auth_type: password auth_version: v3 endpoint_type: internal designate: auth_type: password auth_version: v3 endpoint_type: internal allow_reverse_dns_lookup: true ironic: endpoint_type: internal keystone_authtoken: memcache_security_strategy: ENCRYPT auth_type: password auth_version: v3 octavia: request_poll_timeout: 3000 logging: loggers: keys: - root - neutron - neutron_taas handlers: keys: - stdout - stderr - "null" formatters: keys: - context - default logger_root: level: WARNING handlers: 'null' logger_neutron: level: INFO handlers: - stdout qualname: neutron logger_neutron_taas: level: INFO handlers: - stdout qualname: neutron_taas logger_amqp: level: WARNING handlers: stderr qualname: amqp logger_amqplib: level: WARNING handlers: stderr qualname: amqplib logger_eventletwsgi: level: WARNING handlers: stderr qualname: eventlet.wsgi.server logger_sqlalchemy: level: WARNING handlers: stderr qualname: sqlalchemy logger_boto: level: WARNING handlers: stderr qualname: boto handler_null: class: logging.NullHandler formatter: default args: () handler_stdout: class: StreamHandler args: (sys.stdout,) formatter: context handler_stderr: class: StreamHandler args: (sys.stderr,) formatter: context formatter_context: class: oslo_log.formatters.ContextFormatter datefmt: "%Y-%m-%d %H:%M:%S" formatter_default: format: "%(message)s" datefmt: "%Y-%m-%d %H:%M:%S" plugins: ml2_conf: ml2: extension_drivers: port_security # (NOTE)portdirect: if unset this is populated dyanmicly from the value # in 'network.backend' to sane defaults. mechanism_drivers: null type_drivers: flat,vlan,vxlan tenant_network_types: vxlan ml2_type_vxlan: vni_ranges: 1:1000 vxlan_group: 239.1.1.1 ml2_type_flat: flat_networks: "*" # If you want to use the external network as a tagged provider network, # a range should be specified including the intended VLAN target # using ml2_type_vlan.network_vlan_ranges: # ml2_type_vlan: # network_vlan_ranges: "external:1100:1110" agent: extensions: "" ml2_conf_sriov: null taas: taas: enabled: False openvswitch_agent: agent: tunnel_types: vxlan l2_population: True arp_responder: True ovs: bridge_mappings: "external:br-ex" securitygroup: firewall_driver: neutron.agent.linux.iptables_firewall.OVSHybridIptablesFirewallDriver linuxbridge_agent: linux_bridge: # To define Flat and VLAN connections, in LB we can assign # specific interface to the flat/vlan network name using: # physical_interface_mappings: "external:eth3" # Or we can set the mapping between the network and bridge: bridge_mappings: "external:br-ex" # The two above options are exclusive, do not use both of them at once securitygroup: firewall_driver: iptables vxlan: l2_population: True arp_responder: True macvtap_agent: null sriov_agent: securitygroup: firewall_driver: neutron.agent.firewall.NoopFirewallDriver sriov_nic: physical_device_mappings: physnet2:enp3s0f1 # NOTE: do not use null here, use an empty string exclude_devices: "" dhcp_agent: DEFAULT: # (NOTE)portdirect: if unset this is populated dyanmicly from the value in # 'network.backend' to sane defaults. interface_driver: null dnsmasq_config_file: /etc/neutron/dnsmasq.conf force_metadata: True dnsmasq: | #no-hosts #port=5353 #cache-size=500 #no-negcache #dns-forward-max=100 #resolve-file= #strict-order #bind-interface #bind-dynamic #domain= #dhcp-range=10.10.10.10,10.10.10.100,24h #dhcp-lease-max=150 #dhcp-host=11:22:33:44:55:66,ignore #dhcp-option=3,10.10.10.1 #dhcp-option-force=26,1450 l3_agent: DEFAULT: # (NOTE)portdirect: if unset this is populated dyanmicly from the value in # 'network.backend' to sane defaults. interface_driver: null agent_mode: legacy metering_agent: null metadata_agent: DEFAULT: # we cannot change the proxy socket path as it is declared # as a hostPath volume from agent daemonsets metadata_proxy_socket: /var/lib/neutron/openstack-helm/metadata_proxy metadata_proxy_shared_secret: "password" cache: enabled: true backend: dogpile.cache.memcached bagpipe_bgp: {} rabbitmq: # NOTE(rk760n): adding rmq policy to mirror messages from notification queues and set expiration time for the ones policies: - vhost: "neutron" name: "ha_ttl_neutron" definition: # mirror messges to other nodes in rmq cluster ha-mode: "all" ha-sync-mode: "automatic" # 70s message-ttl: 70000 priority: 0 apply-to: all pattern: '^(?!(amq\.|reply_)).*' ## NOTE: "besteffort" is meant for dev env with mixed compute type only. ## This helps prevent sriov init script from failing due to mis-matched NIC ## For prod env, target NIC should match and init script should fail otherwise. ## sriov_init: ## - besteffort sriov_init: - # auto_bridge_add is a table of "bridge: interface" pairs # To automatically add a physical interfaces to a specific bridges, # for example eth3 to bridge br-physnet1, if0 to br0 and iface_two # to br1 do something like: # # auto_bridge_add: # br-physnet1: eth3 # br0: if0 # br1: iface_two # br-ex will be added by default auto_bridge_add: br-ex: null # configuration of OVS DPDK bridges and NICs # this is a separate section and not part of the auto_bridge_add section # because additional parameters are needed ovs_dpdk: enabled: false # setting update_dpdk_bond_config to true will have default behavior, # which may cause disruptions in ovs dpdk traffic in case of neutron # ovs agent restart or when dpdk nic/bond configurations are changed. # Setting this to false will configure dpdk in the first run and # disable nic/bond config on event of restart or config update. update_dpdk_bond_config: true driver: uio_pci_generic # In case bonds are configured, the nics which are part of those bonds # must NOT be provided here. nics: - name: dpdk0 pci_id: '0000:05:00.0' # Set VF Index in case some particular VF(s) need to be # used with ovs-dpdk. # vf_index: 0 bridge: br-phy migrate_ip: true n_rxq: 2 n_txq: 2 pmd_rxq_affinity: "0:3,1:27" ofport_request: 1 # optional parameters for tuning the OVS DPDK config # in alignment with the available hardware resources # mtu: 2000 # n_rxq_size: 1024 # n_txq_size: 1024 # vhost-iommu-support: true bridges: - name: br-phy # optional parameter, in case tunnel traffic needs to be transported over a vlan underlay # - tunnel_underlay_vlan: 45 # Optional parameter for configuring bonding in OVS-DPDK # - name: br-phy-bond0 # bonds: # - name: dpdkbond0 # bridge: br-phy-bond0 # # The IP from the first nic in nics list shall be used # migrate_ip: true # mtu: 2000 # # Please note that n_rxq is set for each NIC individually # # rather than denoting the total number of rx queues for # # the bond as a whole. So setting n_rxq = 2 below for ex. # # would be 4 rx queues in total for the bond. # # Same for n_txq # n_rxq: 2 # n_txq: 2 # ofport_request: 1 # n_rxq_size: 1024 # n_txq_size: 1024 # vhost-iommu-support: true # ovs_options: "bond_mode=active-backup" # nics: # - name: dpdk_b0s0 # pci_id: '0000:06:00.0' # pmd_rxq_affinity: "0:3,1:27" # # Set VF Index in case some particular VF(s) need to be # # used with ovs-dpdk. In which case pci_id of PF must be # # provided above. # # vf_index: 0 # - name: dpdk_b0s1 # pci_id: '0000:07:00.0' # pmd_rxq_affinity: "0:3,1:27" # # Set VF Index in case some particular VF(s) need to be # # used with ovs-dpdk. In which case pci_id of PF must be # # provided above. # # vf_index: 0 # # Set the log level for each target module (default level is always dbg) # Supported log levels are: off, emer, err, warn, info, dbg # # modules: # - name: dpdk # log_level: info # Names of secrets used by bootstrap and environmental checks secrets: identity: admin: neutron-keystone-admin neutron: neutron-keystone-user test: neutron-keystone-test oslo_db: admin: neutron-db-admin neutron: neutron-db-user oslo_messaging: admin: neutron-rabbitmq-admin neutron: neutron-rabbitmq-user tls: compute_metadata: metadata: internal: metadata-tls-metadata network: server: public: neutron-tls-public internal: neutron-tls-server oci_image_registry: neutron: neutron-oci-image-registry # typically overridden by environmental # values, but should include all endpoints # required by this chart endpoints: cluster_domain_suffix: cluster.local local_image_registry: name: docker-registry namespace: docker-registry hosts: default: localhost internal: docker-registry node: localhost host_fqdn_override: default: null port: registry: node: 5000 oci_image_registry: name: oci-image-registry namespace: oci-image-registry auth: enabled: false neutron: username: neutron password: password hosts: default: localhost host_fqdn_override: default: null port: registry: default: null oslo_db: auth: admin: username: root password: password secret: tls: internal: mariadb-tls-direct neutron: username: neutron password: password hosts: default: mariadb host_fqdn_override: default: null path: /neutron scheme: mysql+pymysql port: mysql: default: 3306 oslo_messaging: auth: admin: username: rabbitmq password: password secret: tls: internal: rabbitmq-tls-direct neutron: username: neutron password: password statefulset: replicas: 2 name: rabbitmq-rabbitmq hosts: default: rabbitmq host_fqdn_override: default: null path: /neutron scheme: rabbit port: amqp: default: 5672 http: default: 15672 oslo_cache: auth: # NOTE(portdirect): this is used to define the value for keystone # authtoken cache encryption key, if not set it will be populated # automatically with a random value, but to take advantage of # this feature all services should be set to use the same key, # and memcache service. memcache_secret_key: null hosts: default: memcached host_fqdn_override: default: null port: memcache: default: 11211 compute: name: nova hosts: default: nova-api public: nova host_fqdn_override: default: null path: default: "/v2.1/%(tenant_id)s" scheme: default: 'http' port: api: default: 8774 public: 80 novncproxy: default: 6080 compute_metadata: name: nova hosts: default: nova-metadata public: metadata host_fqdn_override: default: null path: default: / scheme: default: 'http' port: metadata: default: 8775 public: 80 identity: name: keystone auth: admin: region_name: RegionOne username: admin password: password project_name: admin user_domain_name: default project_domain_name: default neutron: role: admin region_name: RegionOne username: neutron password: password project_name: service user_domain_name: service project_domain_name: service nova: region_name: RegionOne project_name: service username: nova password: password user_domain_name: service project_domain_name: service designate: region_name: RegionOne project_name: service username: designate password: password user_domain_name: service project_domain_name: service ironic: region_name: RegionOne project_name: service username: ironic password: password user_domain_name: service project_domain_name: service test: role: admin region_name: RegionOne username: neutron-test password: password # NOTE: this project will be purged and reset if # conf.rally_tests.force_project_purge is set to true # which may be required upon test failure, but be aware that this will # expunge all openstack objects, so if this is used a seperate project # should be used for each helm test, and also it should be ensured # that this project is not in use by other tenants project_name: test user_domain_name: service project_domain_name: service hosts: default: keystone internal: keystone-api host_fqdn_override: default: null path: default: /v3 scheme: default: http port: api: default: 80 internal: 5000 network: name: neutron hosts: default: neutron-server public: neutron host_fqdn_override: default: null # NOTE(portdirect): this chart supports TLS for fqdn over-ridden public # endpoints using the following format: # public: # host: null # tls: # crt: null # key: null path: default: null scheme: default: 'http' service: 'http' port: api: default: 9696 public: 80 service: 9696 load_balancer: name: octavia hosts: default: octavia-api public: octavia host_fqdn_override: default: null path: default: null scheme: default: http port: api: default: 9876 public: 80 fluentd: namespace: osh-infra name: fluentd hosts: default: fluentd-logging host_fqdn_override: default: null path: default: null scheme: 'http' port: service: default: 24224 metrics: default: 24220 dns: name: designate hosts: default: designate-api public: designate host_fqdn_override: default: null path: default: / scheme: default: 'http' port: api: default: 9001 public: 80 baremetal: name: ironic hosts: default: ironic-api public: ironic host_fqdn_override: default: null path: default: null scheme: default: 'http' port: api: default: 6385 public: 80 # NOTE(tp6510): these endpoints allow for things like DNS lookups and ingress # They are using to enable the Egress K8s network policy. kube_dns: namespace: kube-system name: kubernetes-dns hosts: default: kube-dns host_fqdn_override: default: null path: default: null scheme: http port: dns: default: 53 protocol: UDP ingress: namespace: null name: ingress hosts: default: ingress port: ingress: default: 80 network_policy: neutron: # TODO(lamt): Need to tighten this ingress for security. ingress: - {} egress: - {} helm3_hook: true health_probe: logging: level: ERROR tls: identity: false oslo_messaging: false oslo_db: false manifests: certificates: false configmap_bin: true configmap_etc: true daemonset_dhcp_agent: true daemonset_l3_agent: true daemonset_lb_agent: true daemonset_metadata_agent: true daemonset_ovs_agent: true daemonset_sriov_agent: true daemonset_l2gw_agent: false daemonset_bagpipe_bgp: false daemonset_netns_cleanup_cron: true deployment_ironic_agent: false deployment_server: true ingress_server: true job_bootstrap: true job_db_init: true job_db_sync: true job_db_drop: false job_image_repo_sync: true job_ks_endpoints: true job_ks_service: true job_ks_user: true job_rabbit_init: true pdb_server: true pod_rally_test: true network_policy: false secret_db: true secret_ingress_tls: true secret_keystone: true secret_rabbitmq: true secret_registry: true service_ingress_server: true service_server: true ...