Module 16: Troubleshoot Static and Default Routes
Switching, Routing and Wireless Essentials v7.0 (SRWE)

Cisco Networking Academy Program
Switching, Routing and Wireless Essentials v7.0 (SRWE)
Module 16: Troubleshoot Static and Default Routes

Module 16: Activities
§What activities are associated with this module?
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Page #
Activity Type
Activity Name
Optional?
16.1.2
Check Your Understanding
Packet Processing with Static Routes
Recommended
16.2.4
Syntax Checker
Troubleshoot IPv4 Static and Default Routes
Recommended
16.3.1
Packet Tracer
Troubleshoot Static and Default Routes
Recommended
16.3.2
Lab
Troubleshoot Static and Default Routes
Recommended

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Module Objectives
Module Objective: Troubleshoot static and default route configurations.
Topic Title
Topic Objective
Packet Processing with Static Routes
Explain how a router processes packets when a static route is configured.
Troubleshoot IPv4 Static and Default Route Configuration
Troubleshoot common static and default route configuration issues.

16 – Troubleshoot Static and Default Routes
16.0 – Introduction
16.0.2 – What will I learn to do in this module?

Static Routes and Packet Forwarding
•PC1 addresses a packet to PC3 and sends it to the default gateway address.
•When the packet arrives on the R1 G0/0/0 interface, R1 decapsulates the packet and searches the
routing table for a matching destination network entry.
If the destination IP address:
•Matches a static route entry, R1 will use the static route to identify the next-hop IP address or
exit interface.
•Does not match a specific route to the destination network, then R1 will use the default static
route (if configured).
•Does not match a route table entry, then R1 will drop the packet and send an ICMP message back to
the source (i.e., PC1).

16 – Troubleshoot Static and Default Routes
16.1 – Packet Processing with Static Routes
16.1.1 – Static Routes and Packet Forwarding

Static Routes and Packet Forwarding (Cont.)
•Assuming R1 matched a routing table entry, it encapsulates the packet in a new frame and forwards
it out of interface S0/1/0 to R2.
•R2 receives the packet on its S0/1/0 interface.
•It decapsulates and processes the packet the same way R1 did.
•When R2 finds a match in the routing table, it uses the identified next-hop IP address or exit
interface and sends the packet out of its interface S0/1/1 towards R3.
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•

16 – Troubleshoot Static and Default Routes
16.1 – Packet Processing with Static Routes
16.1.1 – Static Routes and Packet Forwarding (Cont.)

Static Routes and Packet Forwarding (Cont.)
•R3 receives the packet, decapsulates it, and searches the routing table for a match.
•The destination IP address of PC3 matches the directly connected G0/0/0 interface. Therefore, R3
searches the ARP table for the Layer 2 MAC address of PC3.
•If no ARP entry exists, then R3 sends an ARP request out of the G0/0/0 interface.
•PC3 responds with an ARP reply containing its MAC address.
•R3 encapsulates the packet in a new frame and uses the PC3 MAC address as the destination MAC
address and the G0/0/0 MAC address as the source MAC address.
•The frame is forwarded out of interface G0/0/0 and PC3 receives and processes it accordingly.
•
adhere

16 – Troubleshoot Static and Default Routes
16.1 – Packet Processing with Static Routes
16.1.1 – Static Routes and Packet Forwarding (Cont.)
16.1.2 – Check Your Understanding - Packet Processing with Static Routes

16.2 Troubleshoot IPv4 Static and Default Route Configuration

16 – Troubleshoot Static and Default Routes
16.2 – Troubleshoot IPv4 Static and Default Route Configuration

Network Changes
•Networks fail for a number of reasons:
•An interface can fail
•A service provider drops a connection
•Links can become oversaturated
•An administrator may enter a wrong configuration.
•
•Network administrators are responsible for pinpointing and solving the problem.
•
•To efficiently find and solve these issues, it is advantageous to be intimately familiar with
tools to help isolate routing problems quickly.

16 – Troubleshoot Static and Default Routes
16.2 – Troubleshoot IPv4 Static and Default Route Configuration
16.2.1 – Network Changes

Common Troubleshooting Commands
Command
Description
ping
•Verify Layer 3 connectivity to destination.
•Extended pings provide additional options.
traceroute
•Verify path to destination network.
•It uses ICMP echo reply messages to determine the hops to the destination.
show ip route
•Displays the routing table.
•Used to verify route entries for destination IP addresses.
show ip interface brief
•Displays the status of device interfaces.
•Used to verify the operational status and IP address of an interface.
show cdp neighbors
•Displays a list of directly connected Cisco devices.
•Also used to validate Layer 1 and 2 connectivity.

16 – Troubleshoot Static and Default Routes
16.2 – Troubleshoot IPv4 Static and Default Route Configuration
16.2.2 – Common Troubleshooting Commands

Solve a Connectivity Problem
•Connectivity from PC1 to PC3 fails.
•Extended pings from the R1 G0/0/0 interface to PC3 fail.
•Pings from R1 (i.e., S0/1/0 interface) to R2 are successful.
•Pings from R1 (i.e., S0/1/0 interface) to R3 are successful.
•R2 routing table reveals the problem and the incorrect static route is removed.
•A new static route solves the problem.
•ip route 172.16.3.0 255.255.255.0 172.16.2.1
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•

16 – Troubleshoot Static and Default Routes
16.2 – Troubleshoot IPv4 Static and Default Route Configuration
16.2.3 –Solve a Connectivity Problem
16.2.4 – Syntax Checker - Troubleshoot IPv4 Static and Default Routes

Opakování: IP zátěž v těle rámce
09 Ethernet CCNA Exploration Chapter 9 - ppt download


FIB (Forwarding Information Base) a Adjacency table
CEF Lookup


Implementace FIB v TCAM, Adjacency table je implementována v RAM
TCAM FIB


16.3 Module Practice and Quiz
adhere

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz

Module 16: Best Practices
•Topic 16.1
•What kinds of problems do you think an incorrectly configured static route create?
•What kind of configuration errors can be caused by configuring a static route?
•Topic 16.2
•Given a topology, can you explain how a packet travels from source to destination?
•Which commands would help you solve a static route problem?
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Packet Tracer – Troubleshoot Static and Default Routes
•In this activity you will troubleshoot and static and default routes and repair any errors that
you find.
•Troubleshoot IPv4 static routes.
•Troubleshoot IPv6 static routes.
•Configure IPv4 static routes.
•Configure IPv4 default routes.
•Configure IPv6 static routes.

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz
16.3.1 – Packet Tracer – Troubleshoot Static and Default Routes

Lab - Troubleshoot Static and Default Routes
•In this lab, you will complete the following objectives:
•Evaluate Network Operation.
•Gather information, create an action plan, and implement corrections.

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz
16.3.2 – Lab - Troubleshoot Static and Default Routes

What did I learn in this module?
•A host sends a packet to another host and sends it to the default gateway address.
•When the packet arrives on a router interface, it decapsulates the packet and searches the routing
table for a matching destination network entry.
•If the destination IP address:
•Matches a static route entry, the router will use the static route to identify the next hop IP
address or exit interface.
•Does not match a specific route to the destination network, then the router will use the default
static route (if configured).
•Does not match a route table entry, then the router will drop the packet and send an ICMP message
back to the source.
•If the router matched a routing table entry, then the router encapsulates the packet and forwards
it out of the appropriate interface.
•The packet is forwarded from router to router until it reaches its destination network.

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz
16.3.3 – What did I learn in this module?

What did I learn in this module? (Cont.)
•When the packet reaches the destination network, that router will search the routing table for a
match.
•When the destination IP address matches a directly connected Ethernet interface, the router
searches the ARP table for the Layer 2 MAC address of the destination IP address.
•If no ARP entry exists, the router sends an ARP request out of the Ethernet interface
•The destination host responds with an ARP reply containing its MAC address.
•The router then encapsulates the packet in a new frame. It uses the MAC address of the destination
host as the frame destination MAC address, and the MAC address of the router Ethernet interface as
the source MAC address in the frame.
•The frame is forwarded out of the appropriate interface.
•The packet arrives on the network interface card (NIC) interface of destination host and is
processed accordingly.

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz
16.3.3 – What did I learn in this module? (Cont.)

Module Practice and Quiz
What did I learn in this module? (Cont.)
•Common IOS troubleshooting commands to troubleshoot IPv4 Static and default routes include:
•ping
•traceroute
•show ip route
•show ip interface brief
•show cdp neighbors detail

16 – Troubleshoot Static and Default Routes
16.3 - Module Practice and Quiz
16.3.3 – What did I learn in this module? (Cont.)
16.3.4 – Module Quiz – Troubleshoot Static and Default Routes