13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers Full 100% 2023 2024

This is Cisco 13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers Full 100% 2023 2024 for Cisco CCNA 1 v7 ITN v7.02.

   CCNA 1 v7 & ITN 7.02   
Final Exam Answers
CCNA 1 7.02 - Modules 11 - 13
Modules 11 - 13 Exam Answers Online Test
CCNA 1 7.02 - Modules 14 - 15
Modules 14 - 15 Exam Answers Online Test
CCNA 1 ITN v7.02 - Packet Tracer Activities Answers & Solutions
11.5.5 Packet Tracer – Subnet an IPv4 Network Answers
11.7.5 Packet Tracer – Subnetting Scenario Answers
11.9.3 Packet Tracer – VLSM Design and Implementation Practice Answers
11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers
11.10.2 Packet Tracer – Design and Implement a VLSM Addressing Scheme – Physical Mode
12.6.6 Packet Tracer – Configure IPv6 Addressing Answers
12.9.1 Packet Tracer – Implement a Subnetted IPv6 Addressing Scheme Answers
12.9.2 Packet Tracer – Configure IPv6 Addresses on Network Devices – Physical Mode Answers
13.2.6 Packet Tracer – Verify IPv4 and IPv6 Addressing Answers
13.2.7 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity Answers
13.3.1 Packet Tracer – Use ICMP to Test and Correct Network Connectivity Answers
13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers
CCNA 1 ITN v7.02 - Student Lab Answers & Solutions
11.6.6 Lab – Calculate IPv4 Subnets Answers
11.10.2 Lab – Design and Implement a VLSM Addressing Scheme Answers
12.7.4 Lab – Identify IPv6 Addresses Answers
12.9.2 Lab – Configure IPv6 Addresses on Network Devices Answers
13.3.2 Lab – Use Ping and Traceroute to Test Network Connectivity Answers

Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode (Answers Version)

Answers Note: Red font color or gray highlights indicate text that appears in the Answers copy only.

Topology

This topology has two PCs, two routers and 1 switch. PC-A is connected to S1 F0/6. Switch S1 F0/6 is connected to router R1 G0/0/1. Router R1 g0/0/0 is connected to ISP G0/0/0. Router ISP G0/0/1 is connected to the PC External.

Addressing Table

Device

Interface

IP Address / Prefix

Default Gateway

R1

G0/0/0

64.100.0.2 /30

N/A

R1

G0/0/0

2001:db8:acad::2 /64

N/A

R1

G0/0/0

fe80::2

N/A

R1

G0/0/1

192.168.1.1 /24

N/A

R1

G0/0/1

2001:db8:acad:1::1 /64

N/A

R1

G0/0/1

fe80::1

N/A

ISP

G0/0/0

64.100.0.1 /30

N/A

ISP

G0/0/0

2001:db8:acad::1 /64

N/A

ISP

G0/0/0

fe80::1

N/A

ISP

G0/0/1

209.165.200.225 /27

N/A

ISP

G0/0/1

2001:db8:acad:200::225 /64

N/A

ISP

G0/0/1

fe80::225

N/A

S1

VLAN 1

192.168.1.2 /24

192.168.1.1

S1

VLAN 1

2001:db8:acad:1::2 /64

fe80::1

S1

VLAN 1

fe80::2

fe80::1

PC-A

NIC

2001:db8:acad:1::10 /64

fe80::1

PC-A

NIC

192.168.1.10 /24

192.168.1.1

External

NIC

209.165.200.226 /27

209.165.200.225

External

NIC

2001:db8:acad:200::226 /64

fe80::225

Blank Line – no additional information

Objectives

Part 1: Use Ping Command for Basic Network Testing

Part 2: Use Tracert and Traceroute Commands for Basic Network Testing

Part 3: Troubleshoot the Topology

Background / Scenario

Ping and traceroute are two tools that are critical when testing TCP/IP network connectivity. Ping is a network administration utility that is used to test the reachability of a device on an IP network. This utility also measures the time it takes for messages that are sent from the originating host to a destination host and back again.

The traceroute utility is a network diagnostic tool for displaying the path or route of a packet, and for measuring the transit delays of packets travelling over an IP network.

In this Packet Tracer Physical Mode (PTPM) activity, the ping and traceroute commands are examined, and command options are explored to modify the command behavior. Cisco devices and PCs are used in this activity for command exploration. The available options for the ping and tracert commands are limited in Packet Tracer. The necessary Cisco device configurations are provided in this activity.

Instructions

Part 1:  Use the Ping Command for Basic Network Testing

In this part of the activity, use the ping command to verify end-to-end connectivity. Ping operates by sending Internet Control Message Protocol (ICMP) echo request packets to the target host and then waiting for an ICMP response. It can record the round-trip time and any packet loss or routing loops.

IP packets have a limited lifetime on the network. IPv4 packets use an 8 bit Time to Live (TTL). IPv6 packets use a Hop Limit header field value. The TTL and the Hop Limit specify the maximum number of Layer 3 hops that can be traversed on the path to their destination. Each host on a network will set the 8 bit value with a maximum value of 255.

Each time an IP packet arrives at a Layer 3 network device, this value is reduced by one before it is forwarded to the destination. If this value eventually reaches zero before reaching the destination, the IP packet is discarded.

You will examine the results of the ping command and the additional ping options that are available in Packet Tracer PCs and Cisco devices.

Step 1:  Test network connectivity to R1 using PC-A.

All the pings from PC-A to other devices in the topology should be successful. If they are not, check the topology and the cabling, as well as the configuration of the Cisco devices and the PCs.

  1. From PC-A, ping the default gateway using the IPv4 address (GigabitEthernet 0/0/1 interface of R1).

Open command prompt

C:\> ping 192.168.1.1

 

Pinging 192.168.1.1 with 32 bytes of data:

 

Reply from 192.168.1.1: bytes=32 time<1ms TTL=255

Reply from 192.168.1.1: bytes=32 time<1ms TTL=255

Reply from 192.168.1.1: bytes=32 time<1ms TTL=255

Reply from 192.168.1.1: bytes=32 time<1ms TTL=255

 

Ping statistics for 192.168.1.1:

    Packets: Sent = 4, Received = 4, Lost = 0 (0% loss),

Approximate round trip times in milli-seconds:

    Minimum = 0ms, Maximum = 0ms, Average = 0ms

In this example, four ICMP requests that have 32 bytes each, were sent. The responses were received in less than one millisecond with no packet loss. The transmission and reply time can increase as the ICMP requests and responses are processed by more devices during the journey to and from the destination.

This can also be done using the IPv6 address of the default gateway (GigabitEthernet 0/0/1 interface of R1).

C:\> ping 2001:db8:acad:1::1

 

Pinging 2001:db8:acad:1::1 with 32 bytes of data:

 

Reply from 2001:DB8:ACAD:1::1: bytes=32 time<1ms TTL=255

Reply from 2001:DB8:ACAD:1::1: bytes=32 time<1ms TTL=255

Reply from 2001:DB8:ACAD:1::1: bytes=32 time<1ms TTL=255

Reply from 2001:DB8:ACAD:1::1: bytes=32 time<1ms TTL=255

 

Ping statistics for 2001:DB8:ACAD:1::1:

    Packets: Sent = 4, Received = 4, Lost = 0 (0% loss),

Approximate round trip times in milli-seconds:

    Minimum = 0ms, Maximum = 0ms, Average = 0ms

  1. From PC-A, ping the addresses listed in the following table and record the average round trip time and IPv4 TTL, or IPv6 Hop Limit.

Destination

Average Round Trip Time (ms)

TTL / Hop Limit

192.168.1.10

<1 (Answers will vary.)

128 (Answers will vary.)

2001:db8:acad:1::10

<1 (Answers will vary.)

128 (Answers will vary.)

192.168.1.1 (R1)

<1 (Answers will vary.)

255 (Answers will vary.)

2001:db8:acad:1::1 (R1)

1 (Answers will vary.)

64 (Answers will vary.)

192.168.1.2 (S1)

1 (Answers will vary.)

255 (Answers will vary.)

2001:db8:acad:1::2(S1)

1 (Answers will vary.)

64 (Answers will vary.)

64.100.0.2 (R1)

1 (Answers will vary.)

255 (Answers will vary.)

2001:db8:acad::2 (R1)

<1 (Answers will vary.)

64 (Answers will vary.)

64.100.0.1 (ISP)

<1 (Answers will vary.)

254 (Answers will vary.)

2001:db8:acad::1 (ISP)

1 (Answers will vary.)

63 (Answers will vary.)

209.165.200.225 (ISP G0/0/1)

Unreachable

Unreachable

2001:db8:acad:200::225 (ISP G0/0/1)

Unreachable

Unreachable

209.165.200.226 (External)

Unreachable

Unreachable

2001:db8:acad:200::226 (External)

Unreachable

Unreachable

Blank Line – no additional information

*Answers Note: The average round trip time was increased if the message “Request timed out” was displayed during the first ICMP request. ARP caused the delay, and this resulted in packet loss.

Step 2:  Perform pings from S1 to External.

From S1, attempt to ping ISP and External using IPv4 and IPv6 addresses.

Question:

What are the ping results from S1 to ISP and External?

Type your answers here.

The pings were successful to ISP G0/0/0 interface. The pings were unsuccessful to ISP G0/0/1 interface and External NIC.

Close command prompt

Part 2:  Use Tracert and Traceroute Commands for Basic Network Testing

The commands for tracing routes can be found on PCs and network devices. For a Windows-based PC, the tracert command uses ICMP messages to trace the path to the destination. The traceroute command uses the User Datagram Protocol (UDP) datagrams for tracing routes to the destination for Cisco devices and other Unix-like PCs.

In this part, you will examine the traceroute commands and determine the path that a packet travels to the destination. You will use the tracert command from the PCs and the traceroute command from the Cisco devices. You will also examine the options that are available for fine tuning the traceroute results.

Step 1:  From PC-A, use the tracert command to External.

  1. At the command prompt of PC-A, type tracert 209.165.200.226.

Open a command prompt

C:\> tracert 209.165.200.226

 

Tracing route to 209.165.200.226 over a maximum of 30 hops:

 

  1    *     *       1 ms    192.168.1.1

  2    *     0 ms    0 ms    64.100.0.1

  3    0 ms  *       0 ms    64.100.0.1

  4    *     11 ms   *       Request timed out.

  5    0 ms  *       0 ms    64.100.0.1

Control-C

^C

C:\>

Note: You can stop the trace route by pressing Ctrl-C.

The tracert result indicates the path from PC-A to External is from PC-A to R1 to ISP and is unable to arrive at External. The tracert results indicate an issue at the ISP router.

  1. Repeat the tracert command using the IPv6 address. At the command prompt, enter tracert 2001:db8:acad:200::226.

Close command prompt

Step 2:  From S1, use the traceroute command to External.

From S1, type traceroute 209.165.200.226 or traceroute 2001:db8:acad:200::226.

Note: To stop the traceroute, press Ctrl-Shift-6.

Open a configuration window

S1# traceroute 209.165.200.226

Type escape sequence to abort.

Tracing the route to 209.165.200.226

 

  1   *     0 msec    0 msec   

  2   64.100.0.1      0 msec    0 msec    0 msec   

  3   64.100.0.1      !H        *     !H    

  4   *     *

<output omitted>

S1# traceroute 2001:db8:acad:200::226

Type escape sequence to abort.

Tracing the route to 2001:db8:acad:200::226

 

  1 *    *     *     *

<output omitted>

Close configuration window

The traceroute command has additional options. You can use the ? or just press Enter after typing traceroute at the prompt to explore these options.

Note: The available options are limited in Packet Tracer.

The following link provides more information regarding the ping and traceroute commands for a Cisco device:

http://www.cisco.com/en/US/products/sw/iosswrel/ps1831/products_tech_note09186a00800a6057.shtml

Part 3:  Correct the network connectivity issue at ISP.

Step 1:  Access the network location where the connectivity issue is occurring.

From the previous steps, you had determined that there is an issue at the ISP router using the ping and traceroute commands. You have remote SSH access to all the network devices using username admin and password class.

Open command prompt

  1. From the terminal of S1, SSH into the ISP router using the G0/0/0 interface to correct the problem.

C:\> ssh -l admin 64.100.0.1

  1. Use the show commands to examine the running configurations for the ISP router.

ISP# show ip interface brief

Interface              IP-Address      OK? Method Status                Protocol

GigabitEthernet0/0/0   64.100.0.1      YES manual up                    up

GigabitEthernet0/0/1   192.168.8.1     YES manual up                    up

Vlan1                  unassigned      YES NVRAM  administratively down down

 

ISP# show run | section interface

interface GigabitEthernet0/0/0

 ip address 64.100.0.1 255.255.255.252

 duplex auto

 speed auto

ipv6 address FE80::1 link-local

 ipv6 address 2001:DB8:ACAD::1/64

!

interface GigabitEthernet0/0/1

 ip address 192.168.8.1 255.255.255.0

 negotiation auto

 speed auto

 ipv6 address 2001:DB8:ACAD:201::225/128

<output omitted>

The outputs of the show run and show ip interface brief commands indicate that the GigabitEthernet 0/0/1 interface is up/up but that it is configured with an incorrect IP address.

  1. Correct the issues you found. From the command prompt on PC-A, copy and paste the following configuration into the ISP router to correct the issue in the SSH session to the ISP router.

configure terminal

interface g0/0/1

 no ip address 192.168.8.1 255.255.255.0

 ip address 209.165.200.225 255.255.255.224

 no ipv6 address 2001:db8:acad:201::225/64

 ipv6 address 2001:db8:acad:200::225/64

 ipv6 address fe80::225 link-local

no shutdown

  1. Exit the SSH session when finished.

Close command prompt

Step 2:  Verify endtoend connectivity.

From the PC-A command prompt, use the ping and tracert commands to verify end-to-end connectivity to the external server at 209.165.200.226 and 2001:db8:acad:200::226.

Part 4:  Use Extended Ping Commands

Step 1:  Use extended ping commands on PC-A.

The default ping command sends four requests of 32 bytes each. It waits 4,000 milliseconds (4 seconds) for each response to be returned before displaying the “Request timed out” message. The ping command can be fine-tuned for troubleshooting a network.

Open command prompt

  1. At the command prompt, type ping and press Enter.

C:\> ping

Packet Tracer PC Ping

 

Usage: ping [-n count | -v TOS | -t ] target

  1. Using the –t option, ping External to verify that External is reachable. The -t option will continuously ping the target until stopped. Use Ctrl+c to stop the ping sequence.

C:\> ping –t 209.165.200.226

Pinging 209.165.200.226 with 32 bytes of data:

Reply from 209.165.200.226: bytes=32 time<1ms TTL=126

Reply from 209.165.200.226: bytes=32 time<1ms TTL=126

  1. To illustrate the results when a host is unreachable, shut down the GigabitEthernet 0/0/1 interface on the ISP router. From switch S1, SSH to the ISP G0/0/0 interface. Use the password class.

S1# ssh -l admin 64.100.0.1

  1. Use the shutdown command to disable the GigabitEthernet 0/0/1 interface on the ISP router. command.

Reply from 209.165.200.226: bytes=32 time<1ms TTL=126

Reply from 64.100.0.1: Destination host unreachable.

Reply from 64.100.0.1: Destination host unreachable.

While the network is functioning correctly, the ping command can determine whether the destination responded and how long it took to receive a reply from the destination. If a network connectivity problem exists, the ping command displays an error message.

  1. Re-enable the GigabitEthernet 0/0/1 interface on the ISP router (using the no shutdown command) before moving onto the next step. After about 30 seconds, the ping should be successful again.

Reply from 64.100.0.1: Destination host unreachable.

Request timed out.

Request timed out.

Reply from 209.165.200.226: bytes=32 time<1ms TTL=126

Reply from 209.165.200.226: bytes=32 time<1ms TTL=126

  1. Press Ctrl+c to stop the ping command.
  2. The above steps can be repeated for the IPv6 address to obtain an ICMP error message.

Question:

What ICMP error messages did you receive?

Type your answers here.

Destination net unreachable, request timed out.

  1. Enable the GigabitEthernet 0/0/1 interface on the ISP router (using the no shutdown command) before moving onto the next step. After about 30 seconds, the ping should be successful again.

Close command prompt

Step 2:  Test network connectivity from the R1 network using Cisco devices.

The ping command is also available on Cisco devices. In this step, the ping command is examined using R1 and S1.

  1. From R1, ping External on the external network using the IP address of 209.165.200.226.

Open configuration window

R1# ping 209.165.200.226

Type escape sequence to abort.

Sending 5, 100-byte ICMP Echos to 209.165.200.226, timeout is 2 seconds:

!!!!!

Success rate is 100 percent (5/5), round-trip min/avg/max = 1/1/1 ms

The exclamation point (!) indicates that the ping was successful from R1 to External. The round trip takes an average of 1 ms with no packet loss, as indicated by a 100% success rate.

  1. Because a local host table was configured on R1, you can ping Externalv4 on the external network using the hostname configured from R1.

R1# ping Externalv4

Question:

What is the IP address used?

Type your answers here.

209.165.200.226

  1. In the privileged EXEC mode, there are more options available for the ping command. At the command line, type ping and press Enter. Use ipv6 as the protocol. Input 2001:db8:acad:200::226 or external for the target IPv6 address. Press Enter to accept the default value for other options.

R1# ping

Protocol [ip]: ipv6

Target IPv6 address: 2001:db8:acad:200::226

Repeat count [5]:

Datagram size [100]:

Timeout in seconds [2]:

Extended commands? [no]:

Sweep range of sizes? [no]:

Type escape sequence to abort.

Sending 5, 100-byte ICMP Echos to 2001:db8:acad:200::226, timeout is 2 seconds:

!!!!!

Success rate is 100 percent (5/5), round-trip min/avg/max = 1/1/1 ms

  1. You can use an extended ping to observe where there is a network issue. Start the ping command to 209.165.200.226 with a repeat count of 50000. Then, shut down the GigabitEthernet 0/0/1 interface on the ISP router.

From the SSH session to ISP on switch S1, disable the GigabitEthernet 0/0/1 interface on ISP.

  1. From the SSH session, enable the GigabitEthernet 0/0/1 interface on ISP after the exclamation points (!) have replaced by the letter U and periods (.). After about 30 seconds, the ping should be successful again. Press Ctrl+Shift+6 to stop the ping command.

R1# ping

Protocol [ip]:

Target IP address: 209.165.200.226

Repeat count [5]: 50000

Datagram size [100]:

Timeout in seconds [2]:

Extended commands [n]:

Sweep range of sizes [n]:

Sending 500, 100-byte ICMP Echos to 209.165.200.226, timeout is 2 seconds:

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

<output omitted>

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!.U.U.U.U.U.

U.U…………….!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

<output omitted>

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!

Success rate is 99 percent (9970/10000), round-trip min/avg/max = 1/1/10 ms

The letter U in the results indicates that a destination is unreachable. An error PDU was received by R1. Each period (.) in the output indicates that the ping timed out while waiting for a reply from External. In this example, 1% of the packets were lost during the simulated network outage.

Close configuration window

The ping command is extremely useful when troubleshooting network connectivity. However, ping cannot indicate the location of a problem when a ping is not successful. The tracert (or traceroute) command can display network latency and path information.

  1. In the PT activity window, click Check Results to verify all the assessment items and connectivity tests are correct.

Reflection Questions

  1. What could prevent ping or traceroute responses from reaching the originating device beside network connectivity issues?

Type your answers here.

Firewall on the PCs, access list commands, routing issues, interface is down, network delay

  1. If you ping a non-existent address on the remote network, such as 209.165.200.227, what is the message displayed by the ping command? What does this mean? If you ping a valid host address and receive this response, what should you check?

Type your answers here.

Request timed out or periods (.). This means that there was no response in the default time period. Some of the items you may check: router is down, destination host is down, return route to your device and latency of the response is not more than the default time period

  1. If you ping an address that does not exist in any network in your topology, such as 192.168.5.3, from a Windows-based PC, what is the message displayed by the ping command? What does this message indicate?

Type your answers here.

Destination host unreachable. This message indicates that there is no route to the destination as the network is not listed by the routing table.

   CCNA 1 v7 & ITN 7.02   
Final Exam Answers
CCNA 1 7.02 - Modules 11 - 13
Modules 11 - 13 Exam Answers Online Test
CCNA 1 7.02 - Modules 14 - 15
Modules 14 - 15 Exam Answers Online Test
CCNA 1 ITN v7.02 - Packet Tracer Activities Answers & Solutions
11.5.5 Packet Tracer – Subnet an IPv4 Network Answers
11.7.5 Packet Tracer – Subnetting Scenario Answers
11.9.3 Packet Tracer – VLSM Design and Implementation Practice Answers
11.10.1 Packet Tracer – Design and Implement a VLSM Addressing Scheme Answers
11.10.2 Packet Tracer – Design and Implement a VLSM Addressing Scheme – Physical Mode
12.6.6 Packet Tracer – Configure IPv6 Addressing Answers
12.9.1 Packet Tracer – Implement a Subnetted IPv6 Addressing Scheme Answers
12.9.2 Packet Tracer – Configure IPv6 Addresses on Network Devices – Physical Mode Answers
13.2.6 Packet Tracer – Verify IPv4 and IPv6 Addressing Answers
13.2.7 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity Answers
13.3.1 Packet Tracer – Use ICMP to Test and Correct Network Connectivity Answers
13.3.2 Packet Tracer – Use Ping and Traceroute to Test Network Connectivity – Physical Mode Answers
CCNA 1 ITN v7.02 - Student Lab Answers & Solutions
11.6.6 Lab – Calculate IPv4 Subnets Answers
11.10.2 Lab – Design and Implement a VLSM Addressing Scheme Answers
12.7.4 Lab – Identify IPv6 Addresses Answers
12.9.2 Lab – Configure IPv6 Addresses on Network Devices Answers
13.3.2 Lab – Use Ping and Traceroute to Test Network Connectivity Answers
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