Source Route Transparent Bridging
Source Route Transparent Bridging (SRT) is a combination of SRB and TB. SRT bridges make forwarding
decisions based on either the Routing Information Field (RIF) for the destination or the MAC address in the
frame.
Some protocols attempt to establish a connection using a frame without using a RIF. These applications send
a test frame to see if the destination is on the same ring as the source. If no response is received from this test
frame, then an All Routes Explorer (ARE) test frame with a RIF is sent. If the destination receives the ARE, it
responds, and the spanning−tree path through the bridge is used.
If the network is configured with parallel full−duplex backbones, this detected path may be very undesirable.
If the spanning−tree path is used, then only one of the backbones will carry the traffic.
Source Route Translational Bridging
Source Route Translational Bridging (SR/TLB) has a Token Ring attached to at least one port of the bridge
and another media−type topology (such as FDDI or Ethernet) attached to another port. SR/TLB’s main
function is to make the two media types transparent to one another. The bridge receives the token, converts
the data to a readable format for the Ethernet segment, and then forwards the data out the Ethernet to the
receiving host address. All this takes place transparently to both hosts on the network—the Ethernet host
believes that the Token Ring host is on Ethernet, and vice versa.
Transparent Bridging
Transparent bridges get their name because they are invisible to all the network nodes for which they provide
services. Transparent bridges and switches acquire knowledge of the network by looking at the source address
of all frames coming into their interfaces. The bridge then creates a table based on the information from the
frames it received.
If a host sends a frame to a single host on another port, then if the bridge or switch has learned the port the
destination resides on and it is on the local switch, the switch forwards the frame out the destination interface.
If the bridge or switch does not know the port the destination host resides on, it will flood the frame received
out all the ports except for the port the frame was received on. Broadcasts and multicasts are also flooded in
the same way out all the ports.
Source Route Switching
Source Route Switching (SRS) was created to overcome the disadvantages of standard TB. TB does not
support source−routing information. SRS forwards frames that do not contain routing information based on
the MAC address the same way that TB does. All the rings that are source−route switched have the same ring
number, and the switch learns the MAC addresses of adapters on these rings.
SRS also learns the route descriptors. A route descriptor is a portion of a RIF that indicates a single hop. It
defines a ring number, a bridge number, and the hop closest to the switch. Future frames received from other
ports with the same next−hop route descriptor are forwarded to that port.
If you have a Token Ring switch that has reached the limitation of ring stations on the current ring, SRS is
your best choice for bridging. Unlike SRB, SRS looks at the RIF; it never makes the changes to the RIF.
Using SRS, the switch does not need to obtain the MAC addresses of the devices. This method reduces the
number of MAC addresses that the switch must learn and maintain.
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