Using IPv6 Feature of Brahmaputra Release

This section provides the users with gap analysis regarding IPv6 feature requirements with OpenStack Liberty Official Release and Open Daylight Beryllium Official Release. The gap analysis serves as feature specific user guides and references when as a user you may leverage the IPv6 feature in the platform and need to perform some IPv6 related operations.

IPv6 Gap Analysis with OpenStack Liberty

This section provides users with IPv6 gap analysis regarding feature requirement with OpenStack Neutron in Liberty Official Release. The following table lists the use cases / feature requirements of VIM-agnostic IPv6 functionality, including infrastructure layer and VNF (VM) layer, and its gap analysis with OpenStack Neutron in Liberty Official Release.

Use Case / Requirement Supported in Liberty Notes
All topologies work in a multi-tenant environment Yes The IPv6 design is following the Neutron tenant networks model; dnsmasq is being used inside DHCP network namespaces, while radvd is being used inside Neutron routers namespaces to provide full isolation between tenants. Tenant isolation can be based on VLANs, GRE, or VXLAN encapsulation. In case of overlays, the transport network (and VTEPs) must be IPv4 based as of today.
IPv6 VM to VM only Yes It is possible to assign IPv6-only addresses to VMs. Both switching (within VMs on the same tenant network) as well as east/west routing (between different networks of the same tenant) are supported.
IPv6 external L2 VLAN directly attached to a VM Yes IPv6 provider network model; RA messages from upstream (external) router are forwarded into the VMs

IPv6 subnet routed via L3 agent to an external IPv6 network

  1. Both VLAN and overlay (e.g. GRE, VXLAN) subnet attached to VMs;
  2. Must be able to support multiple L3 agents for a given external network to support scaling (neutron scheduler to assign vRouters to the L3 agents)
  1. Yes
  2. Yes
Configuration is enhanced since Kilo to allow easier setup of the upstream gateway, without the user being forced to create an IPv6 subnet for the external network.

Ability for a NIC to support both IPv4 and IPv6 (dual stack) address.

  1. VM with a single interface associated with a network, which is then associated with two subnets.
  2. VM with two different interfaces associated with two different networks and two different subnets.
  1. Yes
  2. Yes
Dual-stack is supported in Neutron with the addition of Multiple IPv6 Prefixes Blueprint

Support IPv6 Address assignment modes.

  1. SLAAC
  2. DHCPv6 Stateless
  3. DHCPv6 Stateful
  1. Yes
  2. Yes
  3. Yes
 
Ability to create a port on an IPv6 DHCPv6 Stateful subnet and assign a specific IPv6 address to the port and have it taken out of the DHCP address pool. Yes  
Ability to create a port with fixed_ip for a SLAAC/DHCPv6-Stateless Subnet. No The following patch disables this operation: https://review.openstack.org/#/c/129144/
Support for private IPv6 to external IPv6 floating IP; Ability to specify floating IPs via Neutron API (REST and CLI) as well as via Horizon, including combination of IPv6/IPv4 and IPv4/IPv6 floating IPs if implemented. Rejected Blueprint proposed in upstream and got rejected. General expectation is to avoid NAT with IPv6 by assigning GUA to tenant VMs. See https://review.openstack.org/#/c/139731/ for discussion.
Provide IPv6/IPv4 feature parity in support for pass-through capabilities (e.g., SR-IOV). To-Do The L3 configuration should be transparent for the SR-IOV implementation. SR-IOV networking support introduced in Juno based on the sriovnicswitch ML2 driver is expected to work with IPv4 and IPv6 enabled VMs. We need to verify if it works or not.
Additional IPv6 extensions, for example: IPSEC, IPv6 Anycast, Multicast No It does not appear to be considered yet (lack of clear requirements)
VM access to the meta-data server to obtain user data, SSH keys, etc. using cloud-init with IPv6 only interfaces. No This is currently not supported. Config-drive or dual-stack IPv4 / IPv6 can be used as a workaround (so that the IPv4 network is used to obtain connectivity with the metadata service)
Full support for IPv6 matching (i.e., IPv6, ICMPv6, TCP, UDP) in security groups. Ability to control and manage all IPv6 security group capabilities via Neutron/Nova API (REST and CLI) as well as via Horizon. Yes  
During network/subnet/router create, there should be an option to allow user to specify the type of address management they would like. This includes all options including those low priority if implemented (e.g., toggle on/off router and address prefix advertisements); It must be supported via Neutron API (REST and CLI) as well as via Horizon Yes

Two new Subnet attributes were introduced to control IPv6 address assignment options:

  • ipv6-ra-mode: to determine who sends Router Advertisements;
  • ipv6-address-mode: to determine how VM obtains IPv6 address, default gateway, and/or optional information.
Security groups anti-spoofing: Prevent VM from using a source IPv6/MAC address which is not assigned to the VM Yes  
Protect tenant and provider network from rogue RAs Yes When using a tenant network, Neutron is going to automatically handle the filter rules to allow connectivity of RAs to the VMs only from the Neutron router port; with provider networks, users are required to specify the LLA of the upstream router during the subnet creation, or otherwise manually edit the security-groups rules to allow incoming traffic from this specific address.
Support the ability to assign multiple IPv6 addresses to an interface; both for Neutron router interfaces and VM interfaces. Yes  
Ability for a VM to support a mix of multiple IPv4 and IPv6 networks, including multiples of the same type. Yes  
Support for IPv6 Prefix Delegation. Yes Partial support in Liberty
Distributed Virtual Routing (DVR) support for IPv6 No Blueprint proposed upstream, pending discussion.
IPv6 First-Hop Security, IPv6 ND spoofing Yes  
IPv6 support in Neutron Layer3 High Availability (keepalived+VRRP). Yes  

IPv6 Gap Analysis with Open Daylight Beryllium

This section provides users with IPv6 gap analysis regarding feature requirement with Open Daylight Beryllium Official Release. The following table lists the use cases / feature requirements of VIM-agnostic IPv6 functionality, including infrastructure layer and VNF (VM) layer, and its gap analysis with Open Daylight Beryllium Official Release.

Use Case / Requirement Supported in ODL Beryllium Notes
REST API support for IPv6 subnet creation in ODL Yes

Yes, it is possible to create IPv6 subnets in ODL using Neutron REST API.

For a network which has both IPv4 and IPv6 subnets, ODL mechanism driver will send the port information which includes IPv4/v6 addresses to ODL Neutron northbound API. When port information is queried it displays IPv4 and IPv6 addresses. However, in Beryllium release, ODL net-virt provider does not support IPv6 features (i.e., the actual functionality is missing and would be available only in the later releases of ODL).

IPv6 Router support in ODL

  1. Communication between VMs on same compute node
  2. Communication between VMs on different compute nodes (east-west)
  3. External routing (north-south)
No

ODL net-virt provider in Beryllium release only supports IPv4 Router.

In the meantime, if IPv6 Routing is necessary, we can use ODL for L2 connectivity and Neutron L3 agent for IPv4/v6 routing.

IPAM: Support for IPv6 Address assignment modes.

  1. SLAAC
  2. DHCPv6 Stateless
  3. DHCPv6 Stateful
No Although it is possible to create different types of IPv6 subnets in ODL, ODL_L3 would have to implement the IPv6 Router that can send out Router Advertisements based on the IPv6 addressing mode. Router Advertisement is also necessary for VMs to configure the default route.
When using ODL for L2 forwarding/tunneling, it is compatible with IPv6. Yes  
Full support for IPv6 matching (i.e., IPv6, ICMPv6, TCP, UDP) in security groups. Ability to control and manage all IPv6 security group capabilities via Neutron/Nova API (REST and CLI) as well as via Horizon. No Security Groups for IPv6 is a work in progress.
Shared Networks support No ODL currently assumes a single tenant to network mapping and does not support shared networks among tenants.
IPv6 external L2 VLAN directly attached to a VM. ToDo  
ODL on an IPv6 only Infrastructure. ToDo Deploying OpenStack with ODL on an IPv6 only infrastructure where the API endpoints are all IPv6 addresses.