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VLAN

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Meng Guo , Subrata Mazumdar , 'Discovery of Spanning Trees in Virtual Bridged ... Less effective with protocols such as IPX , DECnet , or AppleTalk ... – PowerPoint PPT presentation

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Title: VLAN


1
VLAN
  • Suman Pandey

2
References
  • D. Passmore, and J. Freeman, The Virtual LAN
    Technology Report, http//www.3com.com/nsc/200374
    .html, March, 1997
  • IEEE 802.1Q, IEEE Standard for Local and
    Metropolitan Area Networks Virtual Bridge Local
    Area Networks, 1998
  • Meng Guo , Subrata Mazumdar , Discovery of
    Spanning Trees in Virtual Bridged LAN , The
    Quarterly Newsletter of SNMP Technology, Comment,
    and Events, Volume 9, Number 1, December, 2001

3
Outline
  • General Concepts of VLAN
  • What is VLAN ?
  • Why use VLAN's?
  • Different way to assign VLAN Membership.
  • Spanning Tree in VLAN
  • Frame processing and 802.1Q standard
  • Different kind of logical VLAN architecture
  • Implementation Details of VLAN for Topology
    Discovery
  • Different Vendor specific Solutions
  • SPECTRUM VLAN manager implementation
  • MIB used

4
General Concepts of VLAN
  • Paper The Virtual LAN Technology Report

5
What is VLAN ?
  • vendor-specific solution and strategy, so
    defining it is an issue.
  • VLAN's allow a network manager to logically
    segment a LAN into different broadcast domains.
  • multiple physical LAN segments independent of
    physical location and can communicate as if they
    were on a common LAN

6
Why use VLAN's?
  • Performance
  • Formation of Virtual Workgroups
  • Simplified Administration
  • Reduced Cost
  • Security

7
VLAN Membership
  • Membership by Port
  • Membership by MAC Address
  • Membership by IP Subnet Address

8
VLAN Membership
  • Membership by Port
  • Membership by MAC Address
  • Membership by IP Subnet Address
  • Advantage
  • no reconfiguration needed
  • Disadvantage
  • VLAN membership must be assigned initially.
  • performance degradation as members of different
    VLANs coexist on a single switch port

9
VLAN Membership
  • Membership by Port
  • Membership by MAC Address
  • Membership by IP Subnet Address
  • Advantage
  • Good for application-based VLAN strategy
  • User can move workstations
  • eliminate the need for frame tagging
  • Disadvantage
  • Performance/ looking for L3 address in packet.
  • Less effective with protocols such as IPX,
    DECnet, or AppleTalk
  • unroutable protocols such as NetBIOS

10
Frame Processing in VLAN env
  • Role of Bridges
  • bridge on receiving data determines to which VLAN
    the data belongs either by implicit or explicit
    tagging 802.1Q.
  • The bridge also keeps track of VLAN members in a
    filtering database which it uses to determine
    where the data is to be sent
  • all the bridges in the VLAN should contain the
    same information in their respective filtering
    databases

11
Active Topology of Network with Bridges
12
Filtering Database
  • Membership information for a VLAN is stored in a
    filtering database
  • Static Entries
  • Static Filtering Entries for every port whether
    frames to be sent to a specific MAC address or
    group address and on a specific VLAN should be
    forwarded or discarded, or follow dynamic entry
  • Static Registration Entries whether frames to
    be sent to a specific VLAN are to be tagged or
    untagged and which ports are registered for that
    VLAN
  • Dynamic Entries (learnt by bridges)
  • Dynamic Filtering Entries
  • Group Registration Entries follows GVRP
    protocol.
  • Dynamic Registration Entries

13
Tagging 802.1Q
  • Ethernet Frame Tag Header
  • Token Ring and Fiber Distributed Data Interface
    (FDDI) tag header
  • TCI

14
VLAN architecture going forward
Infrastructural VLAN
Service-Based VLAN
15
Other Details of the Report
  • DHCP with VLAN
  • ATM with VLAN
  • VLAN Migration Strategy
  • Automatic configuration of VLAN

16
Implementation Details of VLAN for Topology
Discovery
  • Paper Discovery of Spanning Trees in Virtual
    Bridged LAN

17
Different Vendor specific Solutions
  • Avaya's VLANMaster application - only works with
    Avayas Cajun switches.
  • Aprisma's SPECTRUM VLAN Manager It uses the
    Cabletron Discovery Protocol (CDP) to find all
    CDP compatible 802.1Q switches in a domain
  • Cisco's VlanDirector uses Cisco Discovery
    Protocol (CDP) VlanDirector cannot manage any
    devices that do not run CDP.
  • 3COM's Enterprise VLAN Manager
  • Granite open source C API/SDK to provision VLAN
    configurations using SNMP for Riverstone
    products.

18
MIB Information
  • MIB used
  • RFC1213-MIB
  • BRIDGE-MIB (RFC 1493)
  • Q-BRIDGE-MIB (RFC 2674).
  • Bridge MIB Used
  • dot1dStpPort
  • dot1qPvid
  • dot1dStpPortState
  • dot1dStpPortDesignatedRoot
  • dot1dStpPortDesignatedBridge
  • dot1dStpPortDesignatedPort

19
Discovery of Spanning Trees and VLANs
  • Steps
  • Deduce the target Virtual Bridged LAN from an
    arbitrary IP address in the Virtual Bridged LAN
  • Automatically discover all the bridges in the
    target Virtual Bridged LAN
  • Collect spanning tree and VLAN related MIB
    variables from the discovered brides using SNMP
  • Construct the spanning trees in the Virtual
    Bridged LAN and associate the spanning trees with
    VLANs.

20
Implementation Detail
1
2
They have used Avaya's Cajun switches, and the
STP is stored in PROMINET-MIB
Collecting Spanning Tree Related Information
21
Implementation Detail
3
4
Construction of Per-VLAN Spanning Tree
Spanning Tree of VLAN 12
22
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