=========== VIF Types =========== In os-vif, a VIF type refers to a particular approach for configuring the backend of a guest virtual network interface. There is a small, finite set of ways that a VIF backend can be configured for any given hypervisor and a limited amount of metadata is associated with each approach. VIF objects =========== Each distinct type of VIF configuration is represented by a versioned object in os-vif, subclassed from os_vif.objects.VIFBase. The VIFBase class defines some fields that are common to all types of VIF, and provides an association to a versioned object describing the network the VIF is plugged into. VIFGeneric ---------- This class provides a totally generic type of configuration, where the guest is simply associated with an arbitrary TAP device (or equivalent). The way the TAP device is connected to the host network stack is explicitly left undefined and entirely up to the plugin to decide. VIFBridge --------- This class provides a configuration where the guest is connected directly to an explicit host bridge device. This provides ethernet layer bridging, typically to the LAN. VIFOpenVSwitch -------------- This class provides a configuration where the guest is connected to an openvswitch port. VIFDirect --------- This class provides a configuration where the guest is connected to a physical network device. The connection to the device may operate in one of a number of different modes, VEPA (either 802.1qbg 802.1qbh), passthrough (exclusive assignment of the host NIC) or bridge (ethernet layer bridging of traffic). The passthrough mode would be used when there is a network device which needs to have a MAC address or vlan conf. For passthrough of network devices without MAC/vlan configuration, the VIFHostDevice should be used instead. VIFVHostUser ------------ This class provides another totally generic type of configuration, where the guest is exposing a UNIX socket for its control plane, allowing an external userspace service to provide the backend data plane via a mapped memory region. The process must implement the virtio-net vhost protocol on this socket in whatever means is most suitable. VIFHostDevice ------------- This class provides a way to pass a physical device to the guest. Either an entire physical device, or a SR-IOV PCI device virtual function, are permitted. VIF port profile objects ======================== Each VIF instance can optionally be associated with a port profile object. This provides a set of metadata attributes that serve to identify the guest virtual interface to the host. Different types of host connectivity will require different port profile object metadata. Each port profile type is associated wtih a versioned object, subclassing VIFPortProfileBase VIFPortProfileOpenVSwitch ------------------------- This profile provides the metadata required to associate a VIF with an openvswitch host port. VIFPortProfile8021Qbg --------------------- This profile provides the metadata required to associate a VIF with a VEPA host device supporting the 801.1Qbg spec. VIFPortProfile8021Qbh --------------------- This profile provides the metadata required to associate a VIF with a VEPA host device supporting the 801.1Qbg spec. VIFPortProfileFPOpenVSwitch --------------------------- This profile provides the metadata required to associate a fast path vhostuser VIF with an openvswitch port. VIFPortProfileFPBridge ---------------------- This profile provides the metadata required to associate a fast path vhostuser VIF with a linuxbridge port. VIFPortProfileFPTap ------------------- This profile provides the metadata required to associate a fast path vhostuser VIF with a calico port. VIF network objects =================== Each VIF instance is associated with a set of objects which describe the logical network that the guest will be plugged into. This information is again represented by a set of versioned objects TODO :-(