This MIB is intended to be implemented on all those
devices operating as Central Controllers (CC) that
terminate the Light Weight Access Point Protocol
(LWAPP) tunnel from Light-weight  Access Points.
        
Link Test is performed to learn the backhaul link 
quality between two mesh neighboring mesh nodes.
        
The arrangement of the controller 
(referred to as CC in the diagram) and mesh nodes
(RAP and MAP) LWAPP APs ,client(MN) and NMS appear 
as follows.
        
 +.......+                 +.......+
 +       +                 +       +
 +  NMS  +                 +  NMS  +
 +       +                 +       +
 +.......+                 +.......+
    .                         .
 .    .                     .   .
.         .                .        .
.            .             .            .
+......+     +......+     +......+           +......+
+      +     +      +     +      +           +      +
+  CC  +     +  CC  +     +  CC  +           +  CC  +
+      +     +      +     +      +           +      +
+......+     +......+     +......+           +......+
..            .             .                 .
..            .             .                 .
.  .            .             .                 .
.    .            .             .                 .
.      .            .             .                 .
.        .            .             .                 .
+......+ +......+     +......+      +......+          +......+
+      + +      +     +      +      +      +          +      +
+  RAP + +  RAP +     +  RAP  +     +  RAP +          +  RAP +
+      + +      +     +      +      +      +          +      +
+......+ +......+     +......+      +......+          +......+
.        .              .             .                 .
.        .              .             .                 .
.        .              .             .                 .
.          .              .             .                 .
.           .              .             .                 .
+......+ +......+     +......+      +......+          +......+
+      + +      +     +      +      +      +          +      +
+  MAP + +  MN  +     +  MAP +      +  MAP +          +  MAP +
+      + +      +     +      +      +      +          +      +
+......+ +......+     +......+      +......+          +......+
.                    .                          ..    . 
. .                  .                     ..        .
.   .                .                  ..            .
.     .              .              .                .
+......+ +......+     +......+      +......+.         +......+
+      + +      +     +      +      +      +          +      +
+  MAP + +  MAP +     +  MAP +      +  MAP +          +  MN  +
+      + +      +     +      +      +      +          +      +
+......+ +......+     +......+      +......+          +......+
        
        
        
        
The LWAPP tunnel exists between the controller and
the APs.  The MNs communicate with the APs through
the protocol defined by the 802.11 standard.  The
controllers and the IDS systems exchange information
through Cisco proprietary event exchange mechanisms.
        
LWAPP APs, upon bootup, discover and join one of the
controllers and the controller pushes the 
configuration, that includes the WLAN parameters, to 
the LWAPP APs. The APs then encapsulate all the 802.11 
frames from wireless clients inside LWAPP frames and 
forward the LWAPP frames to the controller.
        
                   GLOSSARY
        
Access Point ( AP )
        
An entity that contains an 802.11 medium access
control ( MAC ) and physical layer ( PHY ) interface
and provides access to the distribution services via
the wireless medium for associated clients.  
        
LWAPP APs encapsulate all the 802.11 frames in
LWAPP frames and sends them to the controller to which
it is logically connected.
        
Central Controller ( CC )
        
The central entity that terminates the LWAPP protocol
tunnel from the LWAPP APs.  Throughout this MIB,
this entity is also referred to as 'controller'.
        
Mobile Node ( MN )
        
A roaming 802.11 wireless device in a wireless
network associated with an access point. Mobile Node 
and client are used interchangeably. 
        
Network Management System ( NMS )
        
The station from which the administrator manages the
wired and wireless networks.
        
Mesh Node
                        
A mesh node is defined as a physical or logical entity
in the mesh network participating in forming the mesh 
backhaul. There are two types of mesh nodes supported 
in Cisco mesh network:RAP and MAP.
        
Root AP (RAP)
        
The AP forming the bridge between a wired and a mesh
network with an Ethernet interface to the wired 
network and a 802.11 radio interface to the mesh 
network
        
Mesh AP (MAP).
        
The AP extending wireless coverage similar to a 
repeater in a mesh network and consists of a 802.11 
uplink and a 802.11 downlink. On a single-radio 
backhaul, both uplink and downlink exist on the same 
radio and are logical links only. On a multi-radio 
backhaul, they may exist on different radios.MAP APs 
associates directly with RAP APs or with another MAP 
AP. Each association of AP (MAP-MAP or RAP-MAP) with 
another AP forms parent-child relationship. 
        
Mesh Network
        
Network starting with the wireless backhaul downlink
of the RAP and all the entities below except any 
attached network to the Ethernet link of MAPs. A mesh 
network below a single RAP is also referred to as a 
'Mesh Sector'.A mesh network consists of mesh nodes. 
A single mesh network is always augmented to a single 
wired network.
        
Mesh Link
        
A logical 802.11 link between two mesh nodes. A single 
link is point-to-point. All point-to-multipoint links 
are considered as multiple mesh links. Often referred 
to as mesh backhaul link.
        
Mesh Backhaul
        
A Mesh backhaul consists of mesh nodes and mesh links 
terminating at a RAP. This necessarily creates a one-
to-one relationship between a 'mesh network', 'mesh
sector' and a 'mesh backhaul' where these terms can be 
used interchangeably.
        
SNR
Signal to Noise ratio on the 802.11 radio.
        
Bridged network 
The bridged network is defined as the network(s)
attached to the Ethernet port of any MAP. There can be
multiple such networks attached to a single mesh 
network.
        
TKIP
        
TKIP (Temporal Key Integrity Protocol) is an encryption
protocol included as part of the IEEE 802.11i
standard for wireless LANs (WLANs). It was designed to
provide more secure encryption than the notoriously weak
Wired Equivalent Privacy (WEP), the original WLAN security protocol.
        
RSNA
        
The Robust Security Network Association (RSNA) authentication
algorithm is defined in Clause 8.4 of the IEEE 802.11i-2004 standard.
If the 802.11 station supports RSNA, it must support the AES-CCMP cipher
algorithm. Support for the WEP and TKIP cipher algorithms are optional
for RSNA.
        
CCMP
        
Counter Mode with Cipher Block Chaining Message Authentication Code
Protocol (CCMP) is an encryption protocol that forms part of the 802.11i 
standard for wireless local area networks (WLANs), particularly those using
WiMax technology.
        
        
OUI
        
Short for Organizational Unique Identifier, the first 24 bits of a MAC address
for a network-connected device, which indicate the specific vendor for that
device. The IEEE assigns OUIs to vendors. (The last 24 bits of the MAC address
are the device??s unique serial number, assigned to the device by the manufacturer.)
The OUI sometimes is referred to as the Vendor ID.
        
REFERENCE
        
[1] Wireless LAN Medium Access Control ( MAC ) and
Physical Layer ( PHY ) Specifications.
        
[2] Draft-obara-capwap-lwapp-00.txt, IETF Light 
Weight Access Point Protocol