Chapter 1 Oracle ZFS Storage Appliance Overview
Chapter 3 Initial Configuration
Network IP MultiPathing (IPMP)
Network Performance and Availability
Network Configuration Using the BUI
Network Configuration Using the CLI
Network Configuration Tasks Using the BUI
Creating a single port interface
Creating a single port interface, drag-and-drop
Creating an LACP aggregated link interface
Creating an IPMP group using probe-based and link-state failure detection
Creating an IPMP group using link-state only failure detection
Creating an InfiniBand partition datalink and interface
Creating a VNIC without a VLAN ID for clustered controllers
Creating VNICs with the same VLAN ID for clustered controllers
Network Configuration Tasks Using the CLI
Changing the multihoming property to strict
Chapter 5 Storage Configuration
Chapter 6 Storage Area Network Configuration
Chapter 8 Setting ZFSSA Preferences
Chapter 10 Cluster Configuration
Chapter 12 Shares, Projects, and Schema
The Networking Configuration features lets you create a variety of advanced networking setups using your physical network ports, including link-aggregations, virtual NICs (VNICs), virtual LANs (VLANs), and multipathing groups. You can then define any number of IPv4 and IPv6 addresses for these abstractions, for use in connecting to the various data services on the system.
There are four components to a system's network configuration:
Devices - Physical network ports. These correspond to your physical network connections or IP on InfiniBand (IPoIB) partitions.
Datalinks - The basic construct for sending and receiving packets. Datalinks may correspond 1:1 with a device (that is, with a physical network port) or IB Partition, or you may define Aggregation, VLAN and VNIC datalinks composed of other devices and datalinks.
Interface - The basic construct for IP configuration and addressing. Each IP interface is associated with a single datalink, or is defined to be an IP MultiPathing (IPMP) group comprised of other interfaces.
Routing - IP routing configuration. This controls how the system will direct IP packets.