200 Using the FC-FC routing service
Special types of ports, called an
EX_Port
and a VEX_Port
,
function somewhat like an E_Port, but terminate
at the switch and do not propagate fabric services or routing topology information from one edge fabric to
another. The link between an E_Port and EX_Port, or VE_Port and VEX_Port is called an
interfabric Link
(IFL). You can configure multiple IFLs from a 400 MP Router, a B-Series MP Router blade (operating in a
4/256 SAN Director using chassis configuration option 5), from additional MP Routers, or from all three.
FC-FC Routing services do not support EX_Ports and VEX_Ports connected to the same edge fabrics (refer to
Figure 9
). Refer to ”
Configuring and monitoring FCIP tunneling
” on page 367 for details about VE_Ports.
•
Fabric ID (FID)
Every EX_Port and VEX_Port uses the FID property to identify the fabric at the opposite end of the IFL.
You should configure all of the EX_Ports and VEX_Ports attached to the same edge fabric with the same
FID. The FID for every edge fabric must be unique from each backbone fabric's perspective. You should
also configure the FID for all of the EX_Ports and VEX_Ports from a backbone fabric to uniquely
reference each of the attached edge fabrics. Note, though, when two different backbones are
connected to the same edge fabric, the backbone fabric IDs are different (but the edge fabric FID
should be the same). If two backbones with the same backbone fabric ID are connected to the same
edge, the FC-FC Routing service will work on only one of the backbone fabrics. When two backbone
fabrics are not connected to the same edge, they can have the same backbone fabric ID.
•
Edge Fabric
A Fibre Channel fabric with targets and initiators connected through the supported platforms via an
EX_Port or VEX_Port.
•
Backbone Fabric
A backbone fabric is an intermediate network that connects two or more edge fabrics. A backbone
fabric consists of at least one 400 MP Router, 4/256 SAN Director with a B-Series MP Router blade, or
MP Router and possibly a number of Fabric OS-based Fibre Channel switches. It also enables hosts and
targets in one edge fabric to communicate with devices in the other edge fabrics (see to
Figure 10
). A
backbone fabric also enables hosts and targets in one edge fabric to communicate with devices in
other edge or backbone fabrics.
NOTE:
While the 400 MP Router and 4/256 SAN Director with a B-Series MP Router blade
facilitate communication between devices in edge fabrics with those in a backbone fabric, this is
not true of the MP Router.
•
metaSAN
A collection of SAN devices, switches, edge fabrics, Logical Storage Area Networks (LSANs), and MP
Routers that comprise a physically connected but logically partitioned storage network. In this chapter,
metaSAN is used for the collection of all SANs interconnected with Fibre Channel routers.
A simple metaSAN can be constructed using a 400 MP Router, 4/256 SAN Director with a B-Series
MP Router blade, or MP Router to connect two or more separate fabrics. Additional 400 MP Routers,
4/256 SAN Director with B-Series MP Router blades, or MP Router can be used to increase the
available bandwidth between fabrics, and for redundancy.
•
proxy PID
The port ID of the proxy device. A proxy device is a virtual device presented into a fabric by a Fibre
Channel router, and represents a real device on another fabric. When a proxy device is created in a
fabric, the real Fibre Channel device is considered to be imported into this fabric. The presence of a
proxy device is required for interfabric device communication. The proxy device appears to the fabric
as a real Fibre Channel device, has a name server entry, and is assigned a valid port ID. The port ID is
only relevant on the fabric in which the proxy device has been created.
•
phantom domains
The Fibre Channel Router emulates two levels of phantom domains. The first set of phantom domains
are known as
front phantom domains
. There is one front phantom domain from FCR to an edge fabric.
The second level of phantom domains is known as a “translate phantom domain.” The EX_Ports also
present translate phantom domains in edge fabrics as being topologically behind the front domains; if
the translate phantom domain is in a backbone fabric, then it is topologically present behind the Fibre
Channel router because there is no front domain in a backbone fabric.The translate phantom domain is
a router virtual domain that represents an entire fabric. Device connectivity can be achieved from one
Содержание AE370A - Brocade 4Gb SAN Switch 4/12
Страница 1: ...HP StorageWorks Fabric OS 5 2 x administrator guide Part number 5697 0014 Fifth edition May 2009 ...
Страница 18: ...18 ...
Страница 82: ...82 Managing user accounts ...
Страница 102: ...102 Configuring standard security features ...
Страница 126: ...126 Maintaining configurations ...
Страница 198: ...198 Routing traffic ...
Страница 238: ...238 Using the FC FC routing service ...
Страница 260: ...260 Administering FICON fabrics ...
Страница 280: ...280 Working with diagnostic features ...
Страница 332: ...332 Administering Extended Fabrics ...
Страница 414: ...398 Configuring the PID format ...
Страница 420: ...404 Configuring interoperability mode ...
Страница 426: ...410 Understanding legacy password behaviour ...
Страница 442: ...426 ...
Страница 444: ......
Страница 447: ......