HP Cisco MDS 9020 HP StorageWorks C-Series iSCSI Configuration Guide (AA-RW7PE - Page 10

Using the C-Series IP Storage Services Modules (IPS-4, IPS-8), Multi-protocol Services Module (14/2), and MDS 9216i switch in an iSCSI environment iSCSI protocol overview iSCSI is a SCSI transport protocol for mapping of block-oriented storage data over TCP/IP networks through iSCSI protocol data units (PDUs). The iSCSI protocol enables universal access to storage devices and storage area networks (SANs) over standard Ethernet-based TCP/IP networks. These networks may be dedicated networks or may be shared with traditional Ethernet applications. IP LAN/WAN routers and switches can be used to extend the IP storage network to a wide area of applications such as synchronous and asynchronous remote disk copy or tape backup and restore. iSCSI in a SAN Although the iSCSI protocol is written as a complete data transport from host to storage, this guide only discusses the current HP supported topology of iSCSI hosts to Fibre Channel storage using the C-Series IP Storage Services Modules (IPS-4, IPS-8) , Multi-protocol Services Module (14/2), and the 9216i switch. Typical network structure When you add iSCSI to a large SAN, you must configure and manage two data protocols: TCP/IP and Fibre Channel. IP hosts with iSCSI initiators access C-Series IP Services through an IP network connected to the C-Series Gigabit Ethernet (GbE) interface. The C-Series IP Services access Fibre Channel storage devices connected to the Fibre Channel interfaces through the FC ports within the C-Series chassis or through the FC ports of the IP switch. Figure 1 shows a typical IP/Fibre Channel network. iSCSI Initiator With the IP Storage Services Modules (IPS-4, IPS-8), Multi-protocol Services Module (14/2), and MDS 9216i switch, the IP host uses an iSCSI initiator to enable target resource recognition and attachment. The C-Series IP Services connect directly to HP's Fibre Channel SAN storage via an IP-to-worldwide port number (WWPN) translation provided by the C-Series IP Services. With this transparent SCSI forwarding, the HP Fibre Channel SAN Storage recognizes this WWPN as it would from any Fibre Channel HBA directly connected to the SAN. LUN setup and LUN masking can now be configured with this WWPN. The iSCSI Initiator then sees these storage resources (LUNs) as if they were local drives attached directly to the server. IP network The IP network is the infrastructure used to transfer data between the iSCSI Initiator and the C-Series IP Services via TCP/IP. LAN switches tend to be Ethernet-based, supporting speeds from 10 Mb/s to 10 Gb/s, using copper and optical interfaces ranging in size from a few ports to hundreds of ports. LAN switches typically support TCP/IP and other protocols, including TCP/UDP, IPX, and AppleTalk. Other features found in many LAN switches include support for voice-over-IP (VoIP), quality of service (QoS), bandwidth management and reporting, multi-cast and jumbo frames. With the advent of SCSI storage data now being transferred within an IP network, it is important to recognize and understand the level of service necessary to avoid loss of data. Part of the appeal that iSCSI brings to the storage market is low cost, standardized network adapters and topology hardware, in addition to years of expertise developed in deploying these networks. However, it should be stressed that existing networks must be evaluated for suitability regarding their capacity to support iSCSI storage. In any deployment, HP recommends using a dedicated Gigabit Ethernet network between iSCSI Initiators and the C-Series IP Storage Services Modules (IPS-4, IPS-8), Multi-protocol Services Module (14/2), or MDS 9216i switch. This ensures adequate performance as 10