A Calico network is a Neutron network (either provider or tenant) whose
connectivity is implemented, on every compute host with instances attached to
that network, by the
calico plugin or ML2 mechanism driver. There can be
just one Calico network, or any number of them. This page describes the
connectivity that Calico provides between instances attached to the same
network, and between instances attached to different Calico networks, and
between instances and the Internet; and explains how and why this connectivity
is in some details different from traditional Neutron API semantics.
Connectivity between instances on the same network
Calico provides IP connectivity, but not layer 2 (L2) adjacency, between instances attached to the same Calico network. This means that:
An instance can ping the IP of another instance, and make other IP-based connections to other instances. (Unless restricted by security group configuration.)
If an instances probe the IP path to another instance, it will find that there are intermediate IP hops in the path; or in other words, that the instances are not directly connected.
Applications or protocols that actually require L2 adjacency - such as routing protocols like OSPF - will not run successfully on instances on a Calico network. But the vast majority of applications that are IP-based will be just fine.
Traditionally, a Neutron network has always provided L2 adjacency between its instances, so this is the first way that CCalico differs from traditional Neutron semantics. Up to and including the Mitaka release, L2 adjacency was an assumed property of a Neutron network; so deployments using Calico simply had to understand that Calico networks were different in this detail.
As of the Newton release, Calico’s IP-only connectivity is expressible in the
Neutron API, as a Network whose
l2_adjacency property is
However work is still needed to make Calico networks report
False, so at the moment - unfortunately - it still has to be understood that
Calico networks do not provide L2 adjacency, even though they report
l2_adjacency True when queried on the API.
Note: Calico’s connectivity design, based on IP routing, allows unicast IP and anycast IP. Anycast IP also requires support for allowed-address-pairs, or some other way of assigning the same IP address to more than one instance; work for allowed-address-pairs support is in progress at opendev. Multicast IP support is on our roadmap but not yet implemented. Broadcast IP is not possible because it depends on L2 adjacency.
Connectivity between different Calico networks
Calico provides exactly the same connectivity between instances on different Calico networks, as it does between instances on the same Calico network.
It is important to note that this is equally true for ‘provider’ and ‘tenant’ Calico networks (i.e. for networks that are provisioned by the cloud operator, or by a particular tenant or project), and for connectivity between any mix of those networks. There is no way, with Calico, to get a tenant network that is isolated by default at the connectivity level, per standard Neutron API semantics for a tenant network that is not connected to a router, even if the Calico tenant network is not connected to a Neutron router, or if there are no Neutron routers in the deployment at all.
Calico works this way because it targets use cases where instances are attached either to provider networks directly, or (in Neutron data model terms) to tenant networks that are attached through a router to a provider network. One reason for the latter case is to use floating IPs with Calico, because in current Neutron the target of a floating IP has to be an instance attached to a tenant network. For more on this, see Floating IPs.
Flat IP addressing
An implication of that connectivity between networks is that Calico assumes that the IP addresses it handles are all in a single, flat address space. For example, if one network has a subnet with CIDR 10.65.0.0/24, and another network has a subnet with CIDR 172.18.0.0/16, an instance with IP 10.65.0.2 can directly address an instance on the other network with IP 172.18.3.23, and the IP packet will travel all the way between them with source IP 10.65.0.2 and destination IP 172.18.3.23. There is no NAT anywhere along this datapath.
Evaluation against Neutron semantics
Calico targets use cases that correspond to two Neutron data model patterns.
Firstly, where instances are attached directly to provider networks:
Secondly, where instances are attached to an externally-connected tenant network:
In the general case those patterns may be combined - so in general there may be any number of Calico provider networks, and any number of Calico tenant networks, so long as each of the tenant networks is connected through some router to a provider network. The purpose of using tenant networks - instead of always using provider networks - is only so as to enable floating IPs. The purpose of provisioning multiple networks of either kind - instead of just one - is typically to allow the user to control what kind of fixed IP an instance gets.
However many Calico networks there are, all their IP addresses (in associated Neutron subnet or subnet pool objects) must be defined or understood as belonging to a single, flat address space.
Finally it must be understood that there is no L2 adjacency between any
instances, even those that are attached to the same network. In a future
OpenStack release, we hope to make this explicit, by arranging for Calico
networks to report
Subject to those restrictions and understandings, we believe that networking-calico fully implements Neutron semantics, i.e. that it provides the connectivity that an operator would expect for a given sequence of Neutron API setup calls.