Routing and Switching ROUTE: Cisco CCNP Implementing Cisco IP Routing v2.0

ROUTE: Cisco CCNP Implementing Cisco IP Routing v2.0

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This Package Contains Courses - See More
  • Course Delivery: On Demand
  • Duration: 10 
  • Language: English
  • Difficulty: Intermediate
  • Audience: IT Professionals

Chat Live | Contact Us | Toll Free: (888) 360-8764

 

Description

In this course, you will gain the knowledge and skills needed to plan, implement, and monitor a scalable routed network. You will focus on routing protocols for both IPv4 and IPv6: EIGRP and OSPF for an enterprise and BGP for enterprise Internet connectivity. You will also learn how to redistribute routes, implement path control, and secure Cisco routers.

Audience:

  • Network engineers and technicians
  • Support engineers
  • Systems engineers
  • Network analysts
  • Senior network administrators
  • Anyone involved in planning, implementing, verifying, and troubleshooting routing protocols in enterprise networks
 

Course Objectives

At Course Completion

  • Routing protocols, network technologies, and remote connectivity options
  • RIPng in an IPv6 environment
  • Technologies, operations, and metrics that EIGRP uses
  • Configure and verify EIGRP in IPv4 and IPv6 environments including optimizing its behavior and named EIGRP configuration
  • Multiarea OSPF including over different network types and how to optimize its database
  • Configure and verify OSPFv2 in IPv4 environments and OSPFv3 in IPv4 and IPv6 environments
  • Route redistribution and how it is implemented using distribute list, prefix list, and route map filtering mechanisms
  • Use Cisco Express Forwarding for efficient Layer 3 packet forwarding
  • Implement path control using policy based routing and IP Service Level Agreement (SLA)
  • Establishing enterprise Internet connectivity for IPv4 and IPv6
  • BGP for enterprise IPv4 and IPv6 Internet connectivity
  • Secure Cisco routers according to best practices including the configuring routing protocol
 

Topics Covered

This course prepares the learners for the Cisco Certified Network Professional CCNP&#174, Cisco Certified Internetwork Professional CCIP&#174, and Cisco Certified Design Professional CCDP&#174 certifications.

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 01 - Routing Services

Complex Enterprise Network Frameworks, Architectures, and Models
  • Traffic Conditions in a Converged Network
  • IIN:  Cisco Intelligent Information Network
  • Three Phases of the Intelligent Information Network
  • Three Phases of the Intelligent Information Network Graph
  • Cisco SONA Framework
  • Cisco SONA Framework Layers
  • SONA:  Networked Infrastructure Layer
  • SONA:  Interactive Services Layer
  • SONA:  Application Layer
  • Updated SONA Framework
  • Cisco Enterprise Architecture
  • Campus Architecture
  • Branch Architecture
  • Data Center Architecture
  • Teleworker Architecture
  • Cisco Hierarchical Network Model
  • Hierarchical Campus Model
  • The Hierarchical Model in a Wide Area Network
  • The Enterprise Composite Network Model

Creating, Documenting, and Executing an Implementation Plan
  • Creating an Implementation Plan
  • Structured Approach
  • Ad-hoc Approach
  • Methodologies and Models
  • Cisco Lifecycle Services (PPDIOO) Model
  • Implementation Plan Documentation
  • Sample Implementation Plan
  • Example of Project Contact List
  • Example of Implementation Task List
  • Example of Tools Required
  • Example of Equipment Floor Plan

Overview of IP Routing
  • IP Routing
  • Dynamic Routing
  • Static Routing
  • Third Option:  OnDemand Routing
  • Link-State vs. Distance Vector Protocols
  • Classless vs. Classful Routing
  • Discontiguous Subnets - Classful Routing
  • Discontiguous Subnets - Classless Routing
  • IP Classless Command
  • Automatic Route Summarization
  • Criteria of Routing Table
  • Administrative Distance
  • Administrative Distances
  • Floating Static Route
  • Demo - RIPNG

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 02 - Configuring the Enhanced Interior Gateway Routing Protocol

Understanding EIGRP Terminology and Operation
  • EIGRP Attributes and Capabilities
  • Terminology of the EIGRP Protocol
  • Tables Used with the EIGRP Protocol
  • FD vs. AD
  • Successor and Feasible Successor
  • Active Routes vs. Passive
  • Major EIGRP Technologies
  • Reliable Transport Protocols
  • Neighbor Discovery
  • PDMs or Protocol Dependent Modules
  • DUAL Finate-State Machine
  • Packet Types Used by EIGRP
  • Hello Packet Used by EIGRP
  • Acknowledgement Packets
  • Update Packets
  • Query and Reply Packets
  • Update Packets
  • Query and Reply Packets
  • EIGRP (AD) Administrative Distance
  • EIGRP Metric Calculation
  • EIGRP Bandwidth

Planning EIGRP Routing Implementations
  • EIGRP Deployment Prerequisites
  • EIGRP Implementation
  • EIGRP Verification
  • EIGRP Documentation

Configuring and Verifying EIGRP
  • Enable EIGRP Routing
  • Advertising EIGRP
  • Demo - Enable EIGRP Routing
  • Demo - Define EIGRP Networks
  • Automatic Summarization
  • Demo - Define Bandwidth on Interfaces
  • EIGRP Commands
  • Demo - Enable and Disable EIGRP Automatic Summarization
  • EIGRP Passive-Interface
  • Default Route Propagation
  • Demo - Passive Interface
  • IP Default Network Command
  • EIGRP Route Summarization
  • Demo - IP Default Network
  • Demo - Configure a Router to Advertise a Default Route as the Gateway of Last Resort
  • Interface Summarization
  • Demo - Example of the IP Route Next Hop Command
  • Demo - Example of the IP Route Quad Zero Command
  • Creating Summary Route at an Arbitrary Bit Boundary
  • Demo - Summarization in Discontiguous Networks

Configuring and Verifying EIGRP in an Enterprise WAN
  • Demo - Disabling Automatic Summarization
  • WAN and EIGRP Considerations
  • EIGRP over MPLS
  • Demo - Frame Relay Using Dynamic Mapping
  • Load Balancing with EIGRP
  • Demo - EIGRP over Layer 3 MPLS VPNs
  • Demo - EIGRP over Layer 2 MPLS VPNs
  • Unequal EIGRP Cost Load Balancing
  • EGIRP Bandwidth Use on WAN Links
  • Setting EIGRP Bandwidth in a WAN Environment

Configuring and Verifying EIGRP Authentication
  • Authentication in Routers
  • Comparing MD5 Autherntication to a Simple Password
  • Preparing for the Configuration of EIGRP Authentication
  • Demo - Configure Authentication Mode for EIGRP
  • The Configuration of EIGRP Authentication
  • Demo - Configure the Key Chain

Optimizing EIGRP Implementations
  • Demo - Enable Authentication to Use the Key Chain
  • EIGRP Scalability
  • Query Process
  • Stuck-in-Active
  • Summarization:  SIA Solution
  • Stub Networks
  • Stub Routing
  • Configure a Router as a Stub Router
  • Demo - EIGRP

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 03 - Configuring the Open Shortest Path First Protocol

Understanding OSPF Terminology and Operation
  • OSPF:  Open Shortest Path First
  • Features of OSPF
  • Characteristics of Link-State Protocol
  • Advantages
  • Terminology
  • Router Types
  • Internal Router
  • Backbone Router
  • ABR or Area Border Router
  • ASBR:  Autonomous System Boundary Router
  • BDR and DR Routers

OSPF Packets
  • What are OSPF Packets Used for?
  • OSPF Hello Packet:  Type 1
  • OSPF DBD Packet:  Type 2
  • OSPF LSR Packet:  Type 3
  • OSPF LSU Packet:  Type 4
  • OSPF LSAck Packet:  Type 5
  • Adjacent Neighbors
  • Link-State Data Structures

Planning OSPF Routing Implementations
  • Planning OSPF Deployment
  • OSPF Implementation
  • OSPF Verification
  • OSPF Documentation

Basic OSPF Verification and Configuration
  • Enable OSPF Routing
  • OSPF Network Identification
  • Wildcard Mask
  • Interface Bandwidth Definition
  • OSPF Router ID
  • Demo - Configuring Single Area OSPF
  • Router ID Definition
  • Demo - Configuring Multi Area OSPF
  • OSPF Verification:  First Method
  • Demo - Verifying OSPF
  • OSPF Verification:  Second Method
  • OSPF Verification:  Third Method
  • OSPF Verification:  Fourth Method
  • OSPF Verification:  Fifth Method
  • Clearing the OSPF Routing Table

OSPF Network Types
  • Broadcast
  • DR:  Designated Router
  • BDR:  Backup Designated Router
  • DR and BDR Election Manipulation
  • Router Priority Assignment
  • Demo - Assigning Router Priority
  • DR Election
  • Demo - Override the Default Interface Cost
  • Influencing the Election Process
  • Demo - Configure a Key for Simple Authentication
  • Point-to-Point
  • Demo - Configure the MD5 Key-ID and Key
  • OSPF over MPLS
  • Demo - Verifying Simple Password Authentication
  • NBMA:  Non-broadcast Multi-access
  • DR Election in NBMA Topology
  • OSPF over NBMA
  • Demo - OSPF

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 04 - Manipulating Routing Updates

Assessing Network Routing Performance Issues
  • Usual Routing Performance Problems
  • Running Different Protocols (At the Same Time)
  • Performance Solutions for Routing Protocols
  • Route Filtering

Using Multiple Routing Protocols on a Network
  • Simple Protocols and Complex Networks
  • Having Multiple Routing Protocols Running on One Network
  • Complex Networks
  • Redistribution
  • Demo - Redistribution Supports All Routing Protocols
  • Redistributed Routes
  • How to Select the Best Route
  • Edge and Core Routing Protocols
  • Routing Loops Prevention
  • Redistribution Guidelines

Implementing Route Distribution
  • Redistribution Command
  • Demo - Redistribute Routes into RIP
  • Important Route Redistribution Information
  • Demo - Redistribute Routes into OSPF
  • Default Metric for BGP, OSPF, and RIP
  • Demo - Default Metric for Routing Protocols
  • Redistributing into EIGRP
  • Demo - Redistributing Routes into EIGRP
  • Default Metric for EIGRP
  • Demo - Applying Metric Values for EIGRP
  • Modifying the Administrative Distance
  • Demo - Modifying the Administrative Distance for All Routing Protocols
  • Changing the Default Administrative Distance
  • Changing the Default OSPF Administrative Distance
  • Changing the Default EIGRP Administrative Distance
  • Demo - Changing OSPF AD

Controlling Routing Update Traffic
  • Controlling Routing Updates
  • Passive Interfaces
  • Passive-Interface Default Command
  • Static Routes
  • Default Routes
  • Route Maps
  • Demo - Route Map
  • To Define a Route Map
  • To Specify Criteria to be Matched
  • To Modify Matching Conditions
  • Define and Name the Route Map
  • Various Route Map Commands for PBR
  • Configure Route Maps for Redistribution
  • Redistribution Commands for Route Map
  • Using Distribute Lists
  • Demo - Using Distribute Lists and Filter Incoming Routing Updates
  • Define a Filter for Incoming Routing Updates
  • Demo - Defining a Filter for Outgoing Routing Commands
  • Define a Filter for Ongoing Routing Updates
  • Demo - Distribute List In or Out and Examples
  • Prefix Lists
  • Demo - Distribute Lists to Avoid Route Feedback
  • Demo - Fallbacks of Distribute Lists
  • Prefix List Configuration
  • Demo - Using Prefix Lists

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 05 - Implementing Path Control

Understanding Path Control
  • Path Control Network Performance Assessment
  • Considerations for Network Redundancy
  • Path Control Integrated Strategy
  • Demo - Similarities of ACLs and Prefix Lists

Implementing Path Control Using Offset Lists
  • Demo - Configuring a Prefix List
  • Path Control Using Offset Lists
  • Demo - Implementing Path
  • Offset List Definition
  • Offset Lists Verification
  • Demo - Verify Offset Lists

Implementing Path Control Using IOS IP SLAs
  • Path Control Using Cisco IOS IP SLAs
  • Cisco IOS IP SLAs
  • Demo - Cisco IOS IP SLAs
  • IP SLAs Applications
  • Demo - IP SLAs Applications
  • Operations, Responders, and Sources
  • Demo - Operations, Responders, and Sources
  • IP SLAs Operations
  • Demo - IP SLAs Operations
  • IP SLA Operation Definition
  • Demo - Steps to Deploying IP SLAs
  • IP SLAs ICMP Echo Operation Definition
  • Demo - IP SLA ICMP ECHO and ICMP ECHO Subcommands
  • ICMP ECHO Subcommands
  • Scheduling an IP SLA Operation
  • Demo - IP SLA Schedules
  • IP SLA Object Tracking Configuration
  • Demo - Define Tracking Objects to Track the State of IP SLAs Operations
  • Tracking Delay Configuration
  • Demo - Configuring Track Delay
  • IP SLAs and Static Routing
  • Demo - Configure a Static Route for IP SLAs Tracking
  • Demo - Verify IP SLAs Using Method 1
  • Demo - Verify IP SLAs Using Method 2

Implement Path Control Using Policy-Based Routing
  • Path Control Using PBR
  • Demo - Implement Path Control Using Policy Based Routing
  • PBR Configuration
  • Demo - Configure PBR
  • PBR Route Map Commands
  • Demo - Logical PBR Operation
  • Demo - Route Map Commands for PBR
  • Match Statements
  • Demo - Match Statements and Conditions
  • Match IP Address Command
  • Demo - Match Commands Used in PBR
  • Match Length Command
  • Demo - Specify Criteria to Be Matched Using Prefix Lists of ACLs
  • Set Statements
  • Demo - Specify Criteria to Be Matched by Prefix Length
  • Set IP Next Hop Command
  • Demo - Set Commands Used in PBR
  • Set Default Interface Command
  • Demo - Sepecify the Next Hop IP Address for Matching Packets
  • Set IP TOS Command
  • Specify Interfaces through which Packets Can Be Routed
  • Set IP Precedence Command
  • Demo - Specify a List of Default Next Hop IP Addresses
  • Configuring PBR on an Interface
  • Demo - Specify a List of Default Interfaces
  • Demo - Mark Packets using the IP ToS Field
  • Demo - Set the 3 IP Precedence Bits in the IP Packet Header
  • Demo - Set IP Precedence Parameters
  • Demo - Identify a Rout Map to Use for Policy Routing on an Interface
  • Demo - Various Methods to Verify PBR

Advanced Path Control Tools
  • Cisco IOS Optimized Edge Routing
  • Virtualization
  • Cisco Wide Area Application Services (WAAS)

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 06 - Implementing a Border Gateway Protocol Solution for ISP Connectivity

BGP Terminology, Concepts, and Operation
  • EGP vs. IGP
  • Demo - EGP and IGP
  • Autonomous Systems (AS)
  • Demo - AS
  • IANA
  • Demo - IANA
  • Demo - RIRs
  • AS Numbers
  • Demo - AS Numbers
  • BGP
  • Demo - Facts about BGP
  • IGP vs. BGP
  • Connecting Enterprise Networks to an ISP
  • Public IP Address Space
  • Connection Redundancy
  • BGP and Enterprise Networks
  • Demo - BGP Neighbors
  • BGP Path Vector Characteristics
  • Demo - BGP Operational Overview
  • When to Use BGP
  • Demo - BGP Use between ASs
  • When Not to Use BGP
  • Demo - BGP and IGPs
  • BGP Synchronization
  • Demo - Connecting Enterprise Networks to Internet Service Providers
  • BGP Table
  • BGP Tables
  • Path Attributes
  • Well-Known Mandatory:  NEXT_HOP
  • Well-Known Mandatory:  ORIGIN
  • Well-Known Discretionary:  LOCAL_PREF
  • Default Local Preference Configuration
  • Well-Known Discretionary:  ATOMIC_AGGREGATE
  • Optional Transitive:  Community
  • Optional Nontransitive:  MED
  • Cisco Weight Attribute

Configuring BGP
  • Planning BGP Deployment
  • Demo - Questions for Deploying Routing and Connection
  • BGP Implementation
  • Demo - Public IP Address Space
  • BGP Verification
  • Demo - Configure Static Routes
  • Documentation
  • Demo - Configure the Default Local Preference
  • Engabling BGP Routing
  • Demo - Define BGP as the IP Routing Protocol
  • Demo - Router BGP Command Parameters
  • To Define BGP Neighbors
  • Demo - Identify Peer Router to Establish a BGP Session
  • To Define a BGP Peer Group
  • Demo - Create a Peer Group
  • Demo - Assign Neighbors as Part of the Peer Group
  • To Shutdown a BGP Neighbor
  • Demo - Disable an Existing BGP Neighbor or Peer Group Relationship
  • IBFP Source IP Address Problem
  • Demo - Establish the IBGP Session Using a Loopback Interface
  • IBGP Source IP Address Solution
  • Demo - IBGP Source IP
  • Demo - Increase the TTL for EBGP Connections
  • Neighbor Next-Hop-Self Command
  • Demo - Configure the Router as the Next Hop for a BGP Speaking Peer
  • BGP Synchronization
  • To Identify BGP Networks
  • BGP Authentication
  • To Enable MD5 Authentication
  • To Hard Reset BGP Sessions
  • To Soft Reset Outbound

Verifying and Troubleshooting BGP
  • For Verifying BGP

Basic BGP Path Manipulation Using Route Maps
  • Configuring Route Maps in BGP
  • To Match a BGP Autonomous System Path Access List
  • To Specify the BGP Weight for the Routing Table
  • To Specify a Preference Value for the AS Path
  • BGP Path Manipulation
  • To Change the Default Weight
  • To Configure an Autonomous System ACL
  • To Change the Default Local Preference for Outbound Routes

Filtering BGP Routing Updates
  • BGP Routing Updates Filtering
  • To Apply BGP Filters to Routes
  • Planning BGP Filtering Using Prefix Lists

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 07 - Implementing Routing Facilities for Branch Offices and Mobile Workers

Planning the Branch Office Implementation
  • Branch Office Challenges
  • Branch Office Design Considerations
  • The Thin Branch
  • Broadband Technology Deployment
  • Broadband Technologies
  • Wireless Broadband
  • Municipal WiFi
  • WiMAX
  • Satellite Internet
  • Broadband Cable
  • Digital Subscriber Line (DSL)
  • Verifying PPPoA
  • Configure a NAT Pool
  • Bind the ACL and NAT Pool
  • Configure Static NAT
  • Identify NAT Interfaces
  • Create a Tunnel Interface
  • Identify the GRE Tunnel Source
  • Identify the GRE Tunnel Destination
  • Identify the Tunnel Mode
  • Demo - NAT

Planning for Mobile Worker Implementations
  • Mobile Worker Connectivity
  • Considerations for Enterprise Mobile Workers
  • Business Ready Mobile User Solution
  • Business Ready VPN Components

Routing Traffic to the Mobile Worker
  • Easy VPN Server
  • Routing Services for VPN Subnets
  • Proxy ARP
  • Remote Users Connections

ROUTE Cisco CCNP Implementing Cisco IP Routing v2.0: Module 08 - Implementing IPv6 in the Enterprise Network

Introducing IPv6
  • IPv6 Introduction
  • IPv6 Features
  • MTU Discovery
  • New IPv6 Features
  • IPv6 Address Specifics
  • Abbreviating IPv6 Addresses
  • Subnet Prefix
  • Interface Identifiers
  • Multiple IP Addresses per Interface

Configuring and Verifying IPv6 Unicast Addresses
  • Enable IPv6 Routing
  • Enable CEF for IPv6
  • Enable IPv6 on an Interface
  • Ethernet EUI-64 Address
  • Enable IP Unnumbered
  • Enable stateless Auto Configuration
  • Alter the Neighbor Detection Parameter
  • Add a Neighbor Router to the Neighbor Discovery Cache
  • IPv6 Connectivity on FR Multipoint Links

Routing IPv6 Traffic
  • IPv6 Routing

Configuring Static Routing
  • Static Routing
  • To Configure an IPv6 Static Route
  • Static Routes Types
  • RIPng
  • To Enable an IPv6 RIP Process on an Interface
  • To Configure the IPv6 RIP Routing Process
  • To Disable Split Horizon Route Loop Prevention Feature

Configuring OSPFv3
  • The Protocol Implementation for IPv6 Includes These Characteristics
  • OSPFv3
  • Link Local Addresses Are Used
  • Multiple OSPFv3 Instance Support
  • Security
  • LSA Types for IPv6
  • To Configure the OSPFv3 Routing Process Parameters
  • To Define the Router ID of OSPFv3
  • To Enable an OSPFv3 Instance on an Interface
  • To Specify the Cost of Sending a Packet on an Interface
  • To Change the OSPF Priority Used in DR Elections
  • To Define an Area as a Stub or Totally Stub Area
  • To Summarize Routes at an Area Boundary
  • To Trigger a New SPF Recalculation and Repopulation of the RIB
  • Demo - OSPFv3

Configuring EIGRP for IPv6
  • EIGRP for IPv6
  • To Configure the EIGRP for IPv6 Routing Process Parameters
  • To Define the Router ID of EIGRP for IPv6
  • To Enable the EIGRP for IPv6 Process
  • To Enable EIGRP for IPv6 on an Interface
  • To Identify the Router as a Stub Router
  • To Configure a Summary Aggregate Address for an Interface
  • Demo - EIGRP for IPv6

Multiprotocol BGP (MP-BGP)
  • Multiprotocol BGP (MP-BGP)
  • To Configure the MBGP Routing Process Parameters
  • To Define the BGP Router ID
  • To Identify Peer BGP Routers
  • To Configure Routing Sessions that Use Standard IPv6 Address Prefixes
  • To Apply a Route Map to Filter Incoming or Outgoing MBGP Routes
 

Prerequisites

  • Taking ICND1 v2.0 and ICND2 v2.0 (or CCNAX v2.0) is highly recommended
  • Know how to:
  • Configure network fundamentals, including the ability to establish Internet, LAN, and WAN connectivity using both IPv4 and IPv6
  • Operate and support a medium-sized LAN that has multiple switches, including VLANs, trunking, and spanning tree functionality
  • Troubleshoot IPv4 and IPv6 connectivity issues
  • Configure and troubleshoot EIGRP and OSPF, for both IPv4 and IPv6
  • Configure devices for SNMP, Syslog, and NetFlow
  • Manage network device security, Cisco device configurations, Cisco IOS images, and licenses
  • ICND1 v2.0 - Interconnecting Cisco Networking Devices, Part 1
  • ICND2 v2.0 - Interconnecting Cisco Networking Devices, Part 2
  • CCNAX v2.0 - CCNA Routing and Switching Boot Camp
 

Quiz Information

Review Quizzes
Once a course is completed, test your knowledge by taking our course review quiz! Students have the ability to retake any review quizzes as many times as they wish to ensure they understand the material or to improve upon their scores.

Final Exams
Upon full completion of a training series, students can take a Series Final Exam, these exams are designed to test the students knowledge on all material trained within a series of courses. Students have the ability to retake any final exam as many times as they wish to ensure they understand the material or to improve upon their score.

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