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FCoE, Basic concepts

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Zoning can solve the preceding problem by dividing a VSAN into zones and adding N_Ports to different zones for different purposes. In this manner, N_Ports in different zones are separated to implement access control. For more information about FC zones, see "Configuring FC zones." FCoE A data center using the FC SAN technology usually comprises separate local area networks (LANs) and SANs. LANs carry traditional Ethernet/IP services, and SANs carry network storage services. To provide services for LANs and use SANs for storage simultaneously, the servers must use independent Ethernet adapters and FC adapters. In addition, the IP switches and the FC switches are also independent and have independent network connections. Such a network needs many switches, network adapters, and cables, and it brings high investments and maintenance costs and low scalability. FCoE was introduced to solve this problem. FCoE is a protocol that carries FC over Ethernet. In an FCoE solution, the server uses an FCoE-capable Ethernet adapter, and the FCoE switch (FCoE forwarder) integrates the functions of both the traditional IP switch and FCF switch. FCoE reduces the number of network adapters, switches, and cables, and the network operation and maintenance workload. In all, FCoE reduces the total cost. Figure 5 FCoE for I/O consolidation As shown in Figure 5, in the traditional network, the server is connected to the LAN through an Ethernet interface and to the SAN through an FC interface. In the FCoE network, the server is connected to the FCoE-capable FCF switch, and then the FCF switch is connected to the LAN through an Ethernet interface and to the SAN through an FC interface. The link between the server and the FCF switch can transmit both Ethernet frames and FC frames. Basic concepts As shown in Figure 6, the links between the FCF switch and the ENode (nodes that can transport FC over Ethernet, such as servers and disk devices) and between FCF switches can be used for receiving and sending both Ethernet frames and FC frames. 5

Section	Page
Title Page	1
Contents	3
FCoE overview	7
Storage area network	7
FC SAN	7
FC protocol	8
Basic concepts	8
WWN	8
FC address	8
Port modes	9
Communication flow	9
VSAN	10
FC zone	10
FCoE	11
Basic concepts	11
VFC interface and VN interface	12
FIP protocol	12
FCoE frames	12
How FCoE works	13
Procedure for receiving and sending FC frames over Ethernet	13
How FIP works	13
FCoE modes	14
FCF mode	15
NPV mode	15
Protocols and standards	16
Configuring an FCoE mode	17
FCoE features supported in different FCoE modes	17
Configuration procedure	17
Configuring VFC interfaces and FIP	19
VFC interfaces and FIP configuration task list	19
Configuring a VFC interface	19
Enabling FCoE for a VLAN and mapping a VSAN to the VLAN	20
Configuration restrictions and guidelines	20
Configuration procedure	20
Configuring the FC-MAP value	21
Configuring the FKA advertisement period value	21
Configuring the FCF priority	22
Configuring the system FCF priority	22
Configuring the VFC interface FCF priority	22
Displaying and maintaining VFC interfaces and FIP	22
VFC interfaces and FIP configuration example	23
Network requirements	23
Configuration procedure	23
Setting up a fabric	27
Overview	27
Principal switch selection	27
Domain ID assignment	28
FC address assignment	29
Fabric setup configuration task list	29
Building a fabric statically	29
Building a fabric dynamically	30
Enabling or disabling the fabric configuration function	30
Setting a fabric name	31
Setting the switch priority	31
Configuring the allowed domain ID list	32
Configuring a domain ID for a switch	32
Configuring the mapping between the N_Port WWN and the FC address	33
Configuring the fabric timers	33
Configuring the fabric timers in system view	34
Configuring the fabric timers in VSAN view	34
Configuring the fabric reconfiguration	34
Configuring the auto fabric reconfiguration function	35
Manually initiating the fabric reconfiguration	35
Configuring a VFC interface to reject incoming RCF requests	35
Configuring and obtaining FC4 information of nodes	36
Enabling auto discovery of SCSI-FCP information	36
Configuring the default FC4 information for a node	37
Displaying and maintaining a fabric	37
Static fabric building configuration example	38
Network requirements	38
Configuration procedure	38
Verifying the configurations	42
Dynamic fabric building configuration example	43
Network requirements	43
Configuration procedure	44
Verifying the configurations	51
Configuring VSAN	53
VSAN fundamentals	53
Trunk VSAN in an FC network	53
Trunk VSAN in an FCoE network	53
Creating a VSAN	54
Configuring a trunk VSAN	54
Displaying and maintaining VSAN	54
VSAN configuration example	54
Network requirements	54
Configuration considerations	55
Configuration procedure	55
Verifying the configurations	58
Configuring FC routing and forwarding	60
Overview	60
Routing table and FIB table	60
Routing table contents	60
FIB table contents	61
Direct routes	61
Static routes	62
FSPF routes	62
Basic concepts	62
FSPF packet types	63
How FSPF works	63
Configuring static routes for FC	63
Configuration restrictions and guidelines	63
Configuration procedure	64
Configuring FSPF	64
FSPF configuration task list	64
Enabling FSPF	64
Configuring the shortest SPF calculation interval	65
Configuring the minimum LSR receiving interval	65
Configuring the minimum LSR refresh interval	65
Configuring the FSPF cost for an interface	66
Configuring the hello interval for an interface	66
Configuring the dead interval for an interface	66
Configuring the LSR retransmission interval for interfaces	67
Disabling FSPF for an interface	67
Configuring FSPF GR	68
Configuring the GR restarter	68
Configuring the GR helper	68
Displaying and maintaining FC routing and forwarding	68
Static FC routing configuration example	69
Network requirements	69
Configuration procedure	69
Verifying the configurations	72
FSPF configuration example	73
Network requirements	73
Configuration procedure	73
Verifying the configurations	75
Configuring FC zones	77
Overview	77
Zone database	77
Zone database structure	77
Active zone set	78
Default zone	79
Distributing zones	79
Methods of triggering a distribution	79
Zone distribution process	79
Zone merge	81
Zone merge process	81
Zone merge rules	83
Access control	83
FC zone configuration task list	83
Configuring zone aliases	84
Configuring zones	84
Configuring zone sets	85
Configuring the default zone policy	85
Configuring zone distribution and merge types	85
Activating a zone set and distributing it to the entire fabric	86
Triggering a complete distribution	86
Renaming zone aliases, zones, and zone sets	87
Copying zone aliases, zones, and zone sets	87
Deleting the zone database	88
Displaying and maintaining FC zones	88
FC zone configuration example	88
Network requirements	88
Configuration considerations	89
Configuration procedure	89
Verifying the configurations	90
Configuring NPV	92
Overview	92
Downlink interface and downlink	92
Uplink interface and uplink	92
Downlink-to-uplink interface mappings	93
Disruptive load balancing	93
NPV configuration task list	93
Configuring uplink interfaces and downlink interfaces	93
Configuring uplink interfaces	94
Configuring downlink interfaces	94
Configuring downlink-to-uplink interface mappings	94
Initiating a disruptive load-balancing process	95
Displaying and maintaining NPV	95
NPV configuration example	95
Network requirements	95
Configuration procedure	96
Configuring Switch A	96
Configuring Switch B	99
Verifying the configurations	99
Configuring FC ping	101
Overview	101
Configuration procedure	101
FC ping configuration example	101
Network requirements	101
Configuration procedure	102
Verifying the configurations	103
Configuring FC tracert	105
Overview	105
Configuration procedure	106
FC tracert configuration example	106
Network requirements	106
Configuration procedure	106
Appendixes	111
Appendix A Fabric address assignment	111
Appendix B Well-known fabric addresses	111
Support and other resources	113
Contacting HP	113
Subscription service	113
Related information	113
Documents	113
Websites	113
Conventions	114
Command conventions	114
GUI conventions	114
Symbols	114
Network topology icons	115
Port numbering in examples	115

Match case Limit results 1 per page

Zoning can solve the preceding problem by dividing a VSAN into zones and adding N_Ports to different

zones for different purposes. In this manner, N_Ports in different zones are separated to implement

access control.

For more information about FC zones, see "

Configuring FC zones

FCoE

A data center using the FC SAN technology usually comprises separate local area networks (LANs) and

SANs. LANs carry traditional Ethernet/IP services, and SANs carry network storage services.

To provide services for LANs and use SANs for storage simultaneously, the servers must use independent

Ethernet adapters and FC adapters. In addition, the IP switches and the FC switches are also

independent and have independent network connections. Such a network needs many switches,

network adapters, and cables, and it brings high investments and maintenance costs and low scalability.

FCoE was introduced to solve this problem. FCoE is a protocol that carries FC over Ethernet. In an FCoE

solution, the server uses an FCoE-capable Ethernet adapter, and the FCoE switch (FCoE forwarder)

integrates the functions of both the traditional IP switch and FCF switch. FCoE reduces the number of

network adapters, switches, and cables, and the network operation and maintenance workload. In all,

FCoE reduces the total cost.

Figure 5

FCoE for I/O consolidation

As shown in

Figure 5

, in the traditional network, the server is connected to the LAN through an Ethernet

interface and to the SAN through an FC interface. In the FCoE network, the server is connected to the

FCoE-capable FCF switch, and then the FCF switch is connected to the LAN through an Ethernet interface

and to the SAN through an FC interface. The link between the server and the FCF switch can transmit

both Ethernet frames and FC frames.

Basic concepts

As shown in

Figure 6

, the links between the FCF switch and the ENode (nodes that can transport FC over

Ethernet, such as servers and disk devices) and between FCF switches can be used for receiving and

sending both Ethernet frames and FC frames.