User Managed End-To-End Lightpath Provisioning Over CA*net 4 - PowerPoint PPT Presentation

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User Managed End-To-End Lightpath Provisioning Over CA*net 4

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User Managed End-To-End Lightpath Provisioning Over CA*net 4 Jing Wu, Scott Campbell, J. Michel Savoie, Hanxi Zhang, Gregor v. Bochmann, Bill St. Arnaud – PowerPoint PPT presentation

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Title: User Managed End-To-End Lightpath Provisioning Over CA*net 4


1
User Managed End-To-End Lightpath Provisioning
Over CAnet 4
  • Jing Wu, Scott Campbell, J. Michel Savoie, Hanxi
    Zhang, Gregor v. Bochmann, Bill St. Arnaud
  • Presented by Scott Campbell

2
Introduction
  • 2 types of customer owned and managed optical
    networks
  • Metro dark fibre
  • Control your own connectivity and bandwidth
  • Long-haul wavelength networks
  • Providers sell or lease point-to-point
    wavelengths
  • Customer owns a set of wavelength

3
Why User Controlled Lightpaths
  • To allow users to share the costs of the optical
    network but independently manage their own
    add/drops and cross connects
  • To optimize the overall resource consumption of
    their network elements
  • More flexibility in network planning and
    deployment
  • Can purchase dark fibre/wavelengths from many
    different independent suppliers

4
Why contd
  • Customers can peer directly with each other and
    set up bandwidth guaranteed connections.
  • Can change the peering relationship without
    having to contact a central management body or
    pay extra Internet transit fees
  • Such connections are needed for dedicated QOS and
    high volume data transfers

5
Technical Challenges
  • Collaboration among many independent customers
    without a central manager
  • Each customer not only receives transport
    services with other customer domains but also
    contributes services to other customer domains
  • A link between two customer domains is controlled
    equally between them
  • Policy enforcement, authorization, and
    authentication must be addressed

6
Technical Challenges contd
  • Managing many independent sources that share the
    same resources (Condominiums)
  • Ports on the same switch, Wavelengths on the same
    fibre
  • Customer can only view their portions of the
    network
  • No central manager has complete view of network
  • Dynamic provisioning of resources to customers
  • VPN is very static and difficult to make changes

7
Condominium Example
8
Creating E2E Connections
  • It may be necessary to concatenate lightpath
    spans that belong to different parties
  • Peering
  • The establishment of an E2E connection may
    involve connecting lightpath spans together that
    belong to two or more parties
  • Leasing
  • A party may own a lightpath span between 2
    switches that it wishes to make available to
    others for a fixed period of time

9
Connecting Light Spans
AS 2
AS 1
AS 3
  • AS 2 can lease its light span to AS 1 to allow
    it to connect to AS3.
  • Light spans connect at a peering switch in AS 2
    that is shared by AS 1 and AS 2.

10
Advertising Network Resources
  • Resources that are available for peering or
    leasing should be publicly advertised using
    service registries
  • Web Service Directories, I.e. UDDI, WSIL
  • Jini Lookup Service
  • JavaSpaces
  • Potential users can query the service registries
    for available resources or services
  • Resources are advertised as objects allowing
    meaning full queries to be made to the registries

11
Advertising Resources
AS 2
AS 1
AS 3
Light Span Registry
  • AS 1 and AS 2 advertise their available
    resources in a public registry
  • User in AS 1 can query the registry to find and
    use resources

12
Distributed Resource Management
  • Connections are being created across several
    management domains
  • Each domain has its own database
  • Even though one party has access to all resources
    to be connected, It may involve queries to many
    distributed databases
  • To ensure concurrency of the data, operations
    must be mutually exclusive and atomic
  • All Operations must succeed or fail,
    (Transactions)
  • The databases must also be persistent and have
    the ability to recover from a system crash

13
Distributed Databases
AS 2
AS 1
AS 3
Light Span Registry
  • AS 1 and AS 2 advertise their available
    resources to their respective registries
  • Users in AS 1 must query each registry to find
    available resources

Light Span Registry
14
Management Tool for UCLP
  • UCLP User Controlled Lightpath Provisioning
  • Distributed management system
  • Uses JavaSpaces to store all system resources
  • Uses Jini services to manage resources
  • System can be accessed via OGSI Grid methods or
    by Jini
  • Has an interactive GUI for administering
    resources and setting up connections

15
Why use Jini/JavaSpaces
  • Jini hides the underlying complexity of
    distributed computing from the developer
  • Jini runs on top of Java using RMI
  • The Jini Lookup Service (JLS) provides a
    distributed service registry
  • Users can find any service without having any
    prior knowledge of the location of that service
  • JLS persists all services registered with it
  • Jini provides mechanisms for distributed events,
    distributed leases, and transactions

16
Why Jini/JavaSpaces contd
  • JavaSpaces provide a distributed object store for
    Java objects
  • Objects in a JavaSpace are loosely coupled
  • Anyone can take an object from a space without
    knowing or caring about the details of the person
    who put it there
  • Operations are transactionally secure
  • Operations on one or many JavaSpaces will either
    all commit or all fail
  • Like the JLS, JavaSpaces are persistent and
    support distributed leases

17
CAnet 4
  • A shared network interconnecting all provincial
    Optical Regional Advanced Networks (ORANs)
  • Provides a set of wavelengths that can be shared
    by all ORANS
  • CAnet 4 is a temporary network (5 years)
  • It is expected that the provincial ORANs will
    continue to peer with each other without the help
    of CAnet 4
  • This must be taken into account when designing
    the UCLP system so it will work without CAnet 4

18
Life Without CAnet 4
  • Must design a management and control system that
    acts as if CAnet 4 does not exist
  • Each ORAN is its own management domain
  • Provide the resources to interconnect each other
  • Each switch in CAnet 4 is associated with the
    ORAN it is directly connected to
  • The ORAN owns and operates the switch it is
    connected to, not CAnet 4

19
Federations
  • A Federation is an administrative domain that has
    resources to share with others
  • Each ORAN is a member of the same federation as
    the crossconnect switch that it uses to connect
    to CAnet 4
  • If more than one ORAN connect to CAnet 4 via the
    same switch, they are members of the same
    federation
  • There can be more then one switch in a federation
  • A federation could also be associated with an
    Autonomous system
  • Since a single ORAN could have many ASs within
    it, it is possible to have many federations
    within an ORAN

20
(No Transcript)
21
UCLP Architecture
  • Each federation has its own set of UCLP services,
    including its own JavaSpace and JLS
  • CS Interface is a generic interface that allows
    the Jini services to communicate with any type of
    switch
  • CAnet 4 used Cisco ONS 15454
  • SCS can communicate with a single switch or an AS
    cloud that speaks an optical intra-domain routing
    protocol
  • GMPLS, O-UNI

22
Interfacing With Network Devices
23
Discovering/Advertising Services
  • All Jini services (including JavaSpaces) register
    with the Jini Lookup Service
  • All Jini Lookup Services register with all other
    Jini Lookup Services
  • A client in one federation can access any service
    in any other federation
  • Grid SAP is accessed via a GUI which the client
    downloads using Java Web Start
  • Later implementations will use GIIS to

24
Distributed Objects
  • Lightpath Object (LPO)
  • An abstraction of one or more lightpath segments
  • Has attributes and methods that enable peering
    with other LPOs at a switch to create an E2E
    connection
  • Resource Object (RO)
  • The endpoints of an LPO
  • Representation of the physical resources on a
    switch
  • Shows the cross connection across a switch

25
Lightpath Management Services
  • User functions
  • Create and delete connections
  • Query about the status of their connections
  • Display users resources
  • Admin functions
  • Create and delete new Lightpath Objects (LPO)
  • Allocate Resources on the switches
  • Display all network resources
  • Perform all user functions

26
Multiple Access Points
  • Grid SAP
  • Provides access to the UCLP system via OGSA/OGSI
    standards
  • To be used by Grid applications
  • Uses XML/SOAP messaging to allow any type client
    application to connect and use the system
  • Jini SAP
  • By-pass the Grid level (for light weight
    applications)
  • Can only be used by Jini enabled Java
    applications
  • Client downloads Jini SAP directly from the Jini
    Lookup Service

27
Path Searching Strategies
  • Standards for inter-domain routing for optical
    networks do not exist
  • 2 Steps
  • Find the switches required to crossconnect in
    order to make the connection (switch path)
  • Currently using a graph table (much like BGP AS
    path table)
  • Find resources that are available across the
    switch path (lightpath objects)
  • Currently a brute force algorithm that returns
    all available LPOs along the switch path

28
Conclusions
  • There is use for customer-managed optical
    networks in todays market
  • Research/education Networks
  • E-science
  • Web services techniques can be used to setup E2E
    connections and control optical networks

29
User Managed End-To-End Lightpath Provisioning
Over CAnet 4
  • Jing Wu jing.wu_at_crc.ca
  • Scott Campbell scott.campbell_at_crc.ca
  • Michel Savoie michel.savoie_at_crc.ca
  • Hanxi Zhang hanxi.zhang_at_crc.ca
  • Gregor v. Bochmann bochmann_at_site.uottawa.ca
  • Bill St.Arnaud bill.st.arnaud_at_canarie.ca
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