6.2. Isolating Networks
The director provides methods to configure isolated Overcloud networks. This means the Overcloud environment separates network traffic types into different networks, which in turn assigns network traffic to specific network interfaces or bonds. After configuring isolated networks, the director configures the OpenStack services to use the isolated networks. If no isolated networks are configured, all services run on the Provisioning network.
This example uses separate networks for all services:
- Network 1 - Provisioning
- Network 2 - Internal API
- Network 3 - Tenant Networks
- Network 4 - Storage
- Network 5 - Storage Management
- Network 6 - Management
- Network 7 - External and Floating IP (mapped after Overcloud creation)
In this example, each Overcloud node uses two network interfaces in a bond to serve networks in tagged VLANs. The following network assignments apply to this bond:
Network Type
|
Subnet
|
VLAN
|
---|---|---|
Internal API
|
172.16.0.0/24
|
201
|
Tenant
|
172.17.0.0/24
|
202
|
Storage
|
172.18.0.0/24
|
203
|
Storage Management
|
172.19.0.0/24
|
204
|
Management
|
172.20.0.0/24
|
205
|
External / Floating IP
|
10.1.1.0/24
|
100
|
For more examples of network configuration, see Appendix E, Network Interface Template Examples.
6.2.1. Creating Custom Interface Templates
The Overcloud network configuration requires a set of the network interface templates. You customize these templates to configure the node interfaces on a per role basis. These templates are standard heat templates in YAML format (see Section 6.1, “Understanding Heat Templates”). The director contains a set of example templates to get you started:
/usr/share/openstack-tripleo-heat-templates/network/config/single-nic-vlans
- Directory containing templates for single NIC with VLANs configuration on a per role basis./usr/share/openstack-tripleo-heat-templates/network/config/bond-with-vlans
- Directory containing templates for bonded NIC configuration on a per role basis./usr/share/openstack-tripleo-heat-templates/network/config/multiple-nics
- Directory containing templates for multiple NIC configuration using one NIC per role./usr/share/openstack-tripleo-heat-templates/network/config/single-nic-linux-bridge-vlans
- Directory containing templates for single NIC with VLANs configuration on a per role basis and using a Linux bridge instead of an Open vSwitch bridge.
For this example, use the default bonded NIC example configuration as a basis. Copy the version located at
/usr/share/openstack-tripleo-heat-templates/network/config/bond-with-vlans
.
$ cp -r /usr/share/openstack-tripleo-heat-templates/network/config/bond-with-vlans ~/templates/nic-configs
This creates a local set of heat templates that define a bonded network interface configuration for each role. Each template contains the standard
parameters
, resources
, and output
sections. For this example, you would only edit the resources
section. Each resources
section begins with the following:
resources: OsNetConfigImpl: type: OS::Heat::StructuredConfig properties: group: os-apply-config config: os_net_config: network_config:
This creates a request for the
os-apply-config
command and os-net-config
subcommand to configure the network properties for a node. The network_config
section contains your custom interface configuration arranged in a sequence based on type, which includes the following:
- interface
- Defines a single network interface. The configuration defines each interface using either the actual interface name ("eth0", "eth1", "enp0s25") or a set of numbered interfaces ("nic1", "nic2", "nic3").
- type: interface name: nic2
- vlan
- Defines a VLAN. Use the VLAN ID and subnet passed from the
parameters
section.- type: vlan vlan_id: {get_param: ExternalNetworkVlanID} addresses: - ip_netmask: {get_param: ExternalIpSubnet}
- ovs_bond
- Defines a bond in Open vSwitch to join two or more
interfaces
together. This helps with redundancy and increases bandwidth.- type: ovs_bond name: bond1 members: - type: interface name: nic2 - type: interface name: nic3
- ovs_bridge
- Defines a bridge in Open vSwitch, which connects multiple
interface
,ovs_bond
andvlan
objects together.- type: ovs_bridge name: {get_input: bridge_name} members: - type: ovs_bond name: bond1 members: - type: interface name: nic2 primary: true - type: interface name: nic3 - type: vlan device: bond1 vlan_id: {get_param: ExternalNetworkVlanID} addresses: - ip_netmask: {get_param: ExternalIpSubnet}
- linux_bond
- Defines a Linux bond that joins two or more
interfaces
together. This helps with redundancy and increases bandwidth. Make sure to include the kernel-based bonding options in thebonding_options
parameter. For more information on Linux bonding options, see 4.5.1. Bonding Module Directives in the Red Hat Enterprise Linux 7 Networking Guide.- type: linux_bond name: bond1 members: - type: interface name: nic2 - type: interface name: nic3 bonding_options: "mode=802.3ad"
- linux_bridge
- Defines a Linux bridge, which connects multiple
interface
,linux_bond
andvlan
objects together.- type: linux_bridge name: bridge1 addresses: - ip_netmask: list_join: - '/' - - {get_param: ControlPlaneIp} - {get_param: ControlPlaneSubnetCidr} members: - type: interface name: nic1 primary: true - type: vlan vlan_id: {get_param: ExternalNetworkVlanID} device: bridge1 addresses: - ip_netmask: {get_param: ExternalIpSubnet} routes: - ip_netmask: 0.0.0.0/0 default: true next_hop: {get_param: ExternalInterfaceDefaultRoute}
See Appendix D, Network Interface Parameters for a full list of parameters for each of these items.
For this example, you use the default bonded interface configuration. For example, the
/home/stack/templates/nic-configs/controller.yaml
template uses the following network_config
:
resources: OsNetConfigImpl: type: OS::Heat::StructuredConfig properties: group: os-apply-config config: os_net_config: network_config: - type: interface name: nic1 use_dhcp: false addresses: - ip_netmask: list_join: - '/' - - {get_param: ControlPlaneIp} - {get_param: ControlPlaneSubnetCidr} routes: - ip_netmask: 169.254.169.254/32 next_hop: {get_param: EC2MetadataIp} - type: ovs_bridge name: {get_input: bridge_name} dns_servers: {get_param: DnsServers} members: - type: ovs_bond name: bond1 ovs_options: {get_param: BondInterfaceOvsOptions} members: - type: interface name: nic2 primary: true - type: interface name: nic3 - type: vlan device: bond1 vlan_id: {get_param: ExternalNetworkVlanID} addresses: - ip_netmask: {get_param: ExternalIpSubnet} routes: - default: true next_hop: {get_param: ExternalInterfaceDefaultRoute} - type: vlan device: bond1 vlan_id: {get_param: InternalApiNetworkVlanID} addresses: - ip_netmask: {get_param: InternalApiIpSubnet} - type: vlan device: bond1 vlan_id: {get_param: StorageNetworkVlanID} addresses: - ip_netmask: {get_param: StorageIpSubnet} - type: vlan device: bond1 vlan_id: {get_param: StorageMgmtNetworkVlanID} addresses: - ip_netmask: {get_param: StorageMgmtIpSubnet} - type: vlan device: bond1 vlan_id: {get_param: TenantNetworkVlanID} addresses: - ip_netmask: {get_param: TenantIpSubnet} - type: vlan device: bond1 vlan_id: {get_param: ManagementNetworkVlanID} addresses: - ip_netmask: {get_param: ManagementIpSubnet}
Note
The Management network section is commented in the network interface Heat templates. Uncomment this section to enable the Management network.
This template defines a bridge (usually the external bridge named
br-ex
) and creates a bonded interface called bond1
from two numbered interfaces: nic2
and nic3
. The bridge also contains a number of tagged VLAN devices, which use bond1
as a parent device. The template also include an interface that connects back to the director (nic1
).
For more examples of network interface templates, see Appendix E, Network Interface Template Examples.
Note that a lot of these parameters use the
get_param
function. You would define these in an environment file you create specifically for your networks.
Important
Unused interfaces can cause unwanted default routes and network loops. For example, your template might contain a network interface (
nic4
) that does not use any IP assignments for OpenStack services but still uses DHCP and/or a default route. To avoid network conflicts, remove any unused interfaces from ovs_bridge
devices and disable the DHCP and default route settings:
- type: interface name: nic4 use_dhcp: false defroute: false
6.2.2. Creating a Network Environment File
The network environment file is a Heat environment file that describes the Overcloud's network environment and points to the network interface configuration templates from the previous section. You can define the subnets and VLANs for your network along with IP address ranges. You can then customize these values for the local environment.
The director contains a set of example environment files to get you started. Each environment file corresponds to the example network interface files in
/usr/share/openstack-tripleo-heat-templates/network/config/
:
/usr/share/openstack-tripleo-heat-templates/environments/net-single-nic-with-vlans.yaml
- Example environment file for single NIC with VLANs configuration in thesingle-nic-vlans
) network interface directory. Environment files for disabling the External network (net-single-nic-with-vlans-no-external.yaml
) or enabling IPv6 (net-single-nic-with-vlans-v6.yaml
) are also available./usr/share/openstack-tripleo-heat-templates/environments/net-bond-with-vlans.yaml
- Example environment file for bonded NIC configuration in thebond-with-vlans
network interface directory. Environment files for disabling the External network (net-bond-with-vlans-no-external.yaml
) or enabling IPv6 (net-bond-with-vlans-v6.yaml
) are also available./usr/share/openstack-tripleo-heat-templates/environments/net-multiple-nics.yaml
- Example environment file for a multiple NIC configuration in themultiple-nics
network interface directory. An environment file for enabling IPv6 (net-multiple-nics-v6.yaml
) is also available./usr/share/openstack-tripleo-heat-templates/environments/net-single-nic-linux-bridge-with-vlans.yaml
- Example environment file for single NIC with VLANs configuration using a Linux bridge instead of an Open vSwitch bridge, which uses the thesingle-nic-linux-bridge-vlans
network interface directory.
This scenario uses a modified version of the
/usr/share/openstack-tripleo-heat-templates/environments/net-bond-with-vlans.yaml
file. Copy this file to the stack user's templates
directory.
$ cp /usr/share/openstack-tripleo-heat-templates/environments/net-bond-with-vlans.yaml /home/stack/templates/network-environment.yaml
The environment file contains the following modified sections:
resource_registry: OS::TripleO::BlockStorage::Net::SoftwareConfig: /home/stack/templates/nic-configs/cinder-storage.yaml OS::TripleO::Compute::Net::SoftwareConfig: /home/stack/templates/nic-configs/compute.yaml OS::TripleO::Controller::Net::SoftwareConfig: /home/stack/templates/nic-configs/controller.yaml OS::TripleO::ObjectStorage::Net::SoftwareConfig: /home/stack/templates/nic-configs/swift-storage.yaml OS::TripleO::CephStorage::Net::SoftwareConfig: /home/stack/templates/nic-configs/ceph-storage.yaml parameter_defaults: InternalApiNetCidr: 172.16.0.0/24 TenantNetCidr: 172.17.0.0/24 StorageNetCidr: 172.18.0.0/24 StorageMgmtNetCidr: 172.19.0.0/24 StorageMgmtNetCidr: 172.19.0.0/24 ManagementNetCidr: 172.20.0.0/24 ExternalNetCidr: 10.1.1.0/24 InternalApiAllocationPools: [{'start': '172.16.0.10', 'end': '172.16.0.200'}] TenantAllocationPools: [{'start': '172.17.0.10', 'end': '172.17.0.200'}] StorageAllocationPools: [{'start': '172.18.0.10', 'end': '172.18.0.200'}] StorageMgmtAllocationPools: [{'start': '172.19.0.10', 'end': '172.19.0.200'}] ManagementAllocationPools: [{'start': '172.20.0.10', 'end': '172.20.0.200'}] # Leave room for floating IPs in the External allocation pool ExternalAllocationPools: [{'start': '10.1.1.10', 'end': '10.1.1.50'}] # Set to the router gateway on the external network ExternalInterfaceDefaultRoute: 10.1.1.1 # Gateway router for the provisioning network (or Undercloud IP) ControlPlaneDefaultRoute: 192.0.2.254 # The IP address of the EC2 metadata server. Generally the IP of the Undercloud EC2MetadataIp: 192.0.2.1 # Define the DNS servers (maximum 2) for the overcloud nodes DnsServers: ["8.8.8.8","8.8.4.4"] InternalApiNetworkVlanID: 201 StorageNetworkVlanID: 202 StorageMgmtNetworkVlanID: 203 TenantNetworkVlanID: 204 ManagementNetworkVlanID: 205 ExternalNetworkVlanID: 100 # Set to "br-ex" if using floating IPs on native VLAN on bridge br-ex NeutronExternalNetworkBridge: "''" # Customize bonding options if required BondInterfaceOvsOptions: "bond_mode=balance-tcp"
The
resource_registry
section contains modified links to the custom network interface templates for each node role. See Section 6.2.1, “Creating Custom Interface Templates”.
The
parameter_defaults
section contains a list of parameters that define the network options for each network type. For a full reference of these options, see Appendix F, Network Environment Options.
This scenario defines options for each network. All network types use an individual VLAN and subnet used for assigning IP addresses to hosts and virtual IPs. In the example above, the allocation pool for the Internal API network starts at 172.16.0.10 and continues to 172.16.0.200 using VLAN 201. This results in static and virtual IPs assigned starting at 172.16.0.10 and upwards to 172.16.0.200 while using VLAN 201 in your environment.
The External network hosts the Horizon dashboard and Public API. If using the External network for both cloud administration and floating IPs, make sure there is room for a pool of IPs to use as floating IPs for VM instances. In this example, you only have IPs from 10.1.1.10 to 10.1.1.50 assigned to the External network, which leaves IP addresses from 10.1.1.51 and above free to use for Floating IP addresses. Alternately, place the Floating IP network on a separate VLAN and configure the Overcloud after creation to use it.
The
BondInterfaceOvsOptions
option provides options for our bonded interface using nic2
and nic3
. For more information on bonding options, see Appendix G, Open vSwitch Bonding Options.
Important
Changing the network configuration after creating the Overcloud can cause configuration problems due to the availability of resources. For example, if a user changes a subnet range for a network in the network isolation templates, the reconfiguration might fail due to the subnet already being in use.
6.2.3. Assigning OpenStack Services to Isolated Networks
Each OpenStack service is assigned to a default network type in the resource registry. These services are then bound to IP addresses within the network type's assigned network. Although the OpenStack services are divided among these networks, the number of actual physical networks might differ as defined in the network environment file. You can reassign OpenStack services to different network types by defining a new network map in your network environment file (
/home/stack/templates/network-environment.yaml
). The ServiceNetMap
parameter determines the network types used for each service.
For example, you can reassign the Storage Management network services to the Storage Network by modifying the highlighted sections:
parameter_defaults: ... ServiceNetMap: NeutronTenantNetwork: tenant CeilometerApiNetwork: internal_api MongoDbNetwork: internal_api CinderApiNetwork: internal_api CinderIscsiNetwork: storage GlanceApiNetwork: storage GlanceRegistryNetwork: internal_api KeystoneAdminApiNetwork: internal_api KeystonePublicApiNetwork: internal_api NeutronApiNetwork: internal_api HeatApiNetwork: internal_api NovaApiNetwork: internal_api NovaMetadataNetwork: internal_api NovaVncProxyNetwork: internal_api SwiftMgmtNetwork: storage_mgmt SwiftProxyNetwork: storage HorizonNetwork: internal_api MemcachedNetwork: internal_api RabbitMqNetwork: internal_api RedisNetwork: internal_api MysqlNetwork: internal_api CephClusterNetwork: storage_mgmt CephPublicNetwork: storage # Define which network will be used for hostname resolution ControllerHostnameResolveNetwork: internal_api ComputeHostnameResolveNetwork: internal_api BlockStorageHostnameResolveNetwork: internal_api ObjectStorageHostnameResolveNetwork: internal_api CephStorageHostnameResolveNetwork: storage ...
Changing these parameters to
storage
places these services on the Storage network instead of the Storage Management network. This means you only need to define a set of parameter_defaults
for the Storage network and not the Storage Management network.
6.2.4. Selecting Networks to Deploy
The settings in the
resource_registry
section of the environment file for networks and ports do not ordinarily need to be changed. The list of networks can be changed if only a subset of the networks are desired.
Note
When specifying custom networks and ports, do not include the
environments/network-isolation.yaml
on the deployment command line. Instead, specify all the networks and ports in the network environment file.
In order to use isolated networks, the servers must have IP addresses on each network. You can use neutron in the Undercloud to manage IP addresses on the isolated networks, so you will need to enable neutron port creation for each network. You can override the resource registry in your environment file.
First, this is the complete set of networks and ports that can be deployed:
resource_registry: # This section is usually not modified, if in doubt stick to the defaults # TripleO overcloud networks OS::TripleO::Network::External: /usr/share/openstack-tripleo-heat-templates/network/external.yaml OS::TripleO::Network::InternalApi: /usr/share/openstack-tripleo-heat-templates/network/internal_api.yaml OS::TripleO::Network::StorageMgmt: /usr/share/openstack-tripleo-heat-templates/network/storage_mgmt.yaml OS::TripleO::Network::Storage: /usr/share/openstack-tripleo-heat-templates/network/storage.yaml OS::TripleO::Network::Tenant: /usr/share/openstack-tripleo-heat-templates/network/tenant.yaml OS::TripleO::Network::Management: /usr/share/openstack-tripleo-heat-templates/network/management.yaml # Port assignments for the VIPs OS::TripleO::Network::Ports::ExternalVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/external.yaml OS::TripleO::Network::Ports::InternalApiVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Network::Ports::StorageVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Network::Ports::StorageMgmtVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage_mgmt.yaml OS::TripleO::Network::Ports::TenantVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml OS::TripleO::Network::Ports::ManagementVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml OS::TripleO::Network::Ports::RedisVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/vip.yaml # Port assignments for the controller role OS::TripleO::Controller::Ports::ExternalPort: /usr/share/openstack-tripleo-heat-templates/network/ports/external.yaml OS::TripleO::Controller::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Controller::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Controller::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage_mgmt.yaml OS::TripleO::Controller::Ports::TenantPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml OS::TripleO::Controller::Ports::ManagementPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml # Port assignments for the compute role OS::TripleO::Compute::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Compute::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Compute::Ports::TenantPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml OS::TripleO::Compute::Ports::ManagementPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml # Port assignments for the ceph storage role OS::TripleO::CephStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::CephStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage_mgmt.yaml OS::TripleO::CephStorage::Ports::ManagementPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml # Port assignments for the swift storage role OS::TripleO::SwiftStorage::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::SwiftStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::SwiftStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage_mgmt.yaml OS::TripleO::SwiftStorage::Ports::ManagementPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml # Port assignments for the block storage role OS::TripleO::BlockStorage::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::BlockStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::BlockStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage_mgmt.yaml OS::TripleO::BlockStorage::Ports::ManagementPort: /usr/share/openstack-tripleo-heat-templates/network/ports/management.yaml
The first section of this file has the resource registry declaration for the
OS::TripleO::Network::*
resources. By default these resources point at a noop.yaml
file that does not create any networks. By pointing these resources at the YAML files for each network, you enable the creation of these networks.
The next several sections create the IP addresses for the nodes in each role. The controller nodes have IPs on each network. The compute and storage nodes each have IPs on a subset of the networks.
To deploy without one of the pre-configured networks, disable the network definition and the corresponding port definition for the role. For example, all references to
storage_mgmt.yaml
could be replaced with noop.yaml
:
resource_registry: # This section is usually not modified, if in doubt stick to the defaults # TripleO overcloud networks OS::TripleO::Network::External: /usr/share/openstack-tripleo-heat-templates/network/external.yaml OS::TripleO::Network::InternalApi: /usr/share/openstack-tripleo-heat-templates/network/internal_api.yaml OS::TripleO::Network::StorageMgmt: /usr/share/openstack-tripleo-heat-templates/network/noop.yaml OS::TripleO::Network::Storage: /usr/share/openstack-tripleo-heat-templates/network/storage.yaml OS::TripleO::Network::Tenant: /usr/share/openstack-tripleo-heat-templates/network/tenant.yaml # Port assignments for the VIPs OS::TripleO::Network::Ports::ExternalVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/external.yaml OS::TripleO::Network::Ports::InternalApiVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Network::Ports::StorageVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Network::Ports::StorageMgmtVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml OS::TripleO::Network::Ports::TenantVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml OS::TripleO::Network::Ports::RedisVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/vip.yaml # Port assignments for the controller role OS::TripleO::Controller::Ports::ExternalPort: /usr/share/openstack-tripleo-heat-templates/network/ports/external.yaml OS::TripleO::Controller::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Controller::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Controller::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml OS::TripleO::Controller::Ports::TenantPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml # Port assignments for the compute role OS::TripleO::Compute::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::Compute::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::Compute::Ports::TenantPort: /usr/share/openstack-tripleo-heat-templates/network/ports/tenant.yaml # Port assignments for the ceph storage role OS::TripleO::CephStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::CephStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml # Port assignments for the swift storage role OS::TripleO::SwiftStorage::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::SwiftStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::SwiftStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml # Port assignments for the block storage role OS::TripleO::BlockStorage::Ports::InternalApiPort: /usr/share/openstack-tripleo-heat-templates/network/ports/internal_api.yaml OS::TripleO::BlockStorage::Ports::StoragePort: /usr/share/openstack-tripleo-heat-templates/network/ports/storage.yaml OS::TripleO::BlockStorage::Ports::StorageMgmtPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml parameter_defaults: ServiceNetMap: NeutronTenantNetwork: tenant CeilometerApiNetwork: internal_api MongoDbNetwork: internal_api CinderApiNetwork: internal_api CinderIscsiNetwork: storage GlanceApiNetwork: storage GlanceRegistryNetwork: internal_api KeystoneAdminApiNetwork: ctlplane # Admin connection for Undercloud KeystonePublicApiNetwork: internal_api NeutronApiNetwork: internal_api HeatApiNetwork: internal_api NovaApiNetwork: internal_api NovaMetadataNetwork: internal_api NovaVncProxyNetwork: internal_api SwiftMgmtNetwork: storage # Changed from storage_mgmt SwiftProxyNetwork: storage HorizonNetwork: internal_api MemcachedNetwork: internal_api RabbitMqNetwork: internal_api RedisNetwork: internal_api MysqlNetwork: internal_api CephClusterNetwork: storage # Changed from storage_mgmt CephPublicNetwork: storage ControllerHostnameResolveNetwork: internal_api ComputeHostnameResolveNetwork: internal_api BlockStorageHostnameResolveNetwork: internal_api ObjectStorageHostnameResolveNetwork: internal_api CephStorageHostnameResolveNetwork: storage
By using
noop.yaml
, no network or ports are created, so the services on the Storage Management network would default to the Provisioning network. This can be changed in the ServiceNetMap
in order to move the Storage Management services to another network, such as the Storage network.