ENSA_Module_6_NAT_IPv4.pdf

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Module 6: NAT for IPv4
Enterprise Networking, Security,
and Automation v7.0 (ENSA)

Cisco Networking Academy Program
Enterprise Networking, Security, and Automation v7.0 (ENSA)
Module 6: NAT for IPv6

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 OFFICIAL

Module Objectives
Module Title: NAT for IPv4

Module Objective: Configure NAT services on the edge router to provide IPv4 address
scalability.

Topic Title Topic Objective
NAT Characteristics Explain the purpose and function of NAT.

Types of NAT Explain the operation of different types of NAT.

NAT Advantages and Disadvantages Describe the advantages and disadvantages of NAT.

Static NAT Configure static NAT using the CLI.

Dynamic NAT Configure dynamic NAT using the CLI.

PAT Configure PAT using the CLI.

NAT64 Describe NAT for IPv6.

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6 – NAT for IPv4
6.0.2 - What will I learn to do in this Module?

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6.1 NAT Characteristics

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6.0 – NAT for IPv4
6.1 – NAT Characteristics

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 OFFICIAL
NAT Characteristics
IPv4 Address Space
Networks are commonly implemented
using private IPv4 addresses, as defined Activity
Class Activity Type
in RFC 1918. Name
Private IPv4 addresses cannot be A 10.0.0.0 – 10.255.255.255 10.0.0.0/8
routed over the internet and are used
B 172.16.0.0 – 172.31.255.255 172.16.0.0/12
within an organization or site to allow
192.168.0.0/1
devices to communicate locally. C 192.168.0.0 – 192.168.255.255
6
To allow a device with a private IPv4
address to access devices and
resources outside of the local network,
the private address must first be
translated to a public address.
NAT provides the translation of private
addresses to public addresses.

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6.0 – NAT for IPv4
6.1 – NAT Characteristics
6.1.2 – IPv4 Address Space

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NAT Characteristics
What is NAT
The primary use of NAT is to conserve
public IPv4 addresses.
NAT allows networks to use private IPv4
addresses internally and translates them
to a public address when needed.
A NAT router typically operates at the
border of a stub network.
When a device inside the stub network
wants to communicate with a device
outside of its network, the packet is
forwarded to the border router which
performs the NAT process, translating
the internal private address of the device
to a public, outside, routable address.

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6.0 – NAT for IPv4
6.1 – NAT Characteristics
6.1.2 – What is NAT

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NAT Characteristics
How NAT Works
PC1 wants to communicate with an outside web server with
public address 209.165.201.1.
1. PC1 sends a packet addressed to the web server.
2. R2 receives the packet and reads the source IPv4 address
to determine if it needs translation.
3. R2 adds mapping of the local to global address to the NAT
table.
4. R2 sends the packet with the translated source address
toward the destination.
5. The web server responds with a packet addressed to the
inside global address of PC1 (209.165.200.226).
6. R2 receives the packet with destination address
209.165.200.226. R2 checks the NAT table and finds an
entry for this mapping. R2 uses this information and
translates the inside global address (209.165.200.226) to
the inside local address (192.168.10.10), and the packet is
forwarded toward PC1.
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6.0 – NAT for IPv4
6.1 – NAT Characteristics
6.1.3 – How NAT Works

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NAT Characteristics
NAT Terminology
NAT includes four types of addresses:
Inside local address
Inside global address
Outside local address
Outside global address
NAT terminology is always applied from the perspective of the device with the
translated address:
Inside address - The address of the device which is being translated by NAT.
Outside address - The address of the destination device.
Local address - A local address is any address that appears on the inside portion
of the network.
Global address - A global address is any address that appears on the outside
portion of the network.
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6.0 – NAT for IPv4
6.1 – NAT Characteristics
6.1.4 – NAT Terminology

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NAT Characteristics
NAT Terminology (Cont.)
Inside local address
The address of the source as seen from inside the network.
This is typically a private IPv4 address. The inside local
address of PC1 is 192.168.10.10.
Inside global addresses
The address of source as seen from the outside network. The
inside global address of PC1 is 209.165.200.226
Outside global address
The address of the destination as seen from the outside
network. The outside global address of the web server is
209.165.201.1
Outside local address
The address of the destination as seen from the inside
network. PC1 sends traffic to the web server at the IPv4
address 209.165.201.1. While uncommon, this address could
be different than the globally routable address of the
destination.
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6.0 – NAT for IPv4
6.1 – NAT Characteristics
6.1.4 – NAT Terminology (Cont.)
6.1.5 – Check Your Understanding – NAT Characteristics

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6.2 Types of NAT

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6.0 – NAT for IPv4
6.2 – Types of NAT

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Types of NAT
Static NAT
Static NAT uses a one-to-one mapping of
local and global addresses configured by
the network administrator that remain
constant.
Static NAT is useful for web servers or
devices that must have a consistent
address that is accessible from the
internet, such as a company web server.
It is also useful for devices that must be
accessible by authorized personnel when
offsite, but not by the general public on
the internet.
Note: Static NAT requires that enough public
addresses are available to satisfy the total
number of simultaneous user sessions.
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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.1 – Static NAT

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Types of NAT
Dynamic NAT
Dynamic NAT uses a pool of public
addresses and assigns them on a first-
come, first-served basis.
When an inside device requests access
to an outside network, dynamic NAT
assigns an available public IPv4 address
from the pool.
The other addresses in the pool are still
available for use.
Note: Dynamic NAT requires that enough
public addresses are available to satisfy the
total number of simultaneous user sessions.

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.2 – Dynamic NAT

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Types of NAT
Port Address Translation
Port Address Translation (PAT), also known
as NAT overload, maps multiple private
IPv4 addresses to a single public IPv4
address or a few addresses.
With PAT, when the NAT router receives
a packet from the client, it uses the
source port number to uniquely identify
the specific NAT translation.
PAT ensures that devices use a different
TCP port number for each session with
a server on the internet.

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.3 – Port Address Translation

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Types of NAT
Next Available Port
PAT attempts to preserve the original
source port. If the original source port is
already used, PAT assigns the first
available port number starting from the
beginning of the appropriate port group 0-
511, 512-1,023, or 1,024-65,535.
When there are no more ports available
and there is more than one external
address in the address pool, PAT moves
to the next address to try to allocate the
original source port.
The process continues until there are no
more available ports or external IPv4
addresses in the address pool.

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.4 – Next Available Port

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Types of NAT
NAT and PAT Comparison
Summary of the differences between NAT NAT PAT

and PAT. One-to-one mapping One Inside Global address
between Inside Local and can be mapped to many
NAT - Only modifies the IPv4 addresses Inside Global addresses. Inside Local addresses.
Uses IPv4 addresses and
Inside Global Address Inside Local Address Uses only IPv4 addresses TCP or UDP source port
in translation process. numbers in translation
209.165.200.226 192.168.10.10
process.
A unique Inside Global A single unique Inside
PAT - PAT modifies both the IPv4 address and the address is required for Global address can be
each inside host shared by many inside
port number. accessing the outside hosts accessing the
network. outside network.
Inside Global Address Inside Local Address

209.165.200.226:2031 192.168.10.10:2031

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.5 – NAT and PAT Comparison

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Types of NAT
Packets without a Layer 4 Segment
Some packets do not contain a Layer 4 port number, such as ICMPv4
messages. Each of these types of protocols is handled differently by PAT.

For example, ICMPv4 query messages, echo requests, and echo replies
include a Query ID. ICMPv4 uses the Query ID to identify an echo request
with its corresponding echo reply.

Note: Other ICMPv4 messages do not use the Query ID. These messages and other
protocols that do not use TCP or UDP port numbers vary and are beyond the scope
of this curriculum.

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.6 – Packets without a Layer 4 Segment

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Types of NAT
Packet Tracer – Investigate NAT Operations
In this Packet Tracer, you will complete the following objectives:
Investigate NAT operation across the intranet
Investigate NAT operation across the internet
Conduct further investigations

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6.0 – NAT for IPv4
6.2 – Types of NAT
6.2.7 – Packet Tracer – Investigate NAT Operations

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6.3 NAT Advantages and
Disadvantages

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6.0 – NAT for IPv4
6.3 – NAT Advantages and Disadvantages

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NAT Advantages and Disadvantages
Advantages of NAT
NAT provides many benefits:
NAT conserves the legally registered addressing scheme by allowing the
privatization of intranets.
NAT conserves addresses through application port-level multiplexing.
NAT increases the flexibility of connections to the public network.
NAT provides consistency for internal network addressing schemes.
NAT allows the existing private IPv4 address scheme to remain while allowing for
easy change to a new public addressing scheme.
NAT hides the IPv4 addresses of users and other devices.

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6.0 – NAT for IPv4
6.3 – NAT Advantages and Disadvantages
6.3.1 – Advantages of NAT

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NAT Advantages and Disadvantages
Disadvantages of NAT
NAT does have drawbacks:
NAT increases forwarding delays.
End-to-end addressing is lost.
End-to-end IPv4 traceability is lost.
NAT complicates the use of tunneling protocols, such as IPsec.
Services that require the initiation of TCP connections from the outside network, or
stateless protocols, such as those using UDP, can be disrupted.

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6.0 – NAT for IPv4
6.3 – NAT Advantages and Disadvantages
6.3.2 – Disadvantages of NAT
6.3.3 – Check Your Understanding – NAT Advantages and Disadvantages

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6.4 Static NAT

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6.0 – NAT for IPv4
6.4 – Static NAT

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Static NAT
Static NAT Scenario
Static NAT is a one-to-one mapping
between an inside address and an
outside address.
Static NAT allows external devices
to initiate connections to internal
devices using the statically
assigned public address.
For instance, an internal web server
may be mapped to a specific inside
global address so that it is
accessible from outside networks.

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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.1 – Static NAT Scenario

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Static NAT
Configure Static NAT
There are two basic tasks when configuring static NAT translations:
Step 1 - Create a mapping between the inside local address and the inside global
addresses using the ip nat inside source static command.
Step 2 - The interfaces participating in the translation are configured as inside or
outside relative to NAT with the ip nat inside and ip nat outside commands.

R2(config)# ip nat inside source static 192.168.10.254 209.165.201.5
R2(config)#
R2(config)# interface serial 0/1/0
R2(config-if)# ip address 192.168.1.2 255.255.255.252
R2(config-if)# ip nat inside
R2(config-if)# exit
R2(config)# interface serial 0/1/1
R2(config-if)# ip address 209.165.200.1 255.255.255.252
R2(config-if)# ip nat outside

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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.2 – Configure Static NAT

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Static NAT
Analyze Static NAT
The static NAT translation process between the
client and the web server:
1. The client sends a packet to the web server.
2. R2 receives packets from the client on its NAT
outside interface and checks its NAT table.
3. R2 translates the inside global address of to the
inside local address and forwards the packet
towards the web server.
4. The web server receives the packet and responds
to the client using its inside local address.
5. (a) R2 receives the packet from the web server
on its NAT inside interface with source address of
the inside local address of the web server and (b)
translates the source address to the inside global
address.
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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.3 – Analyze Static NAT

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Static NAT
Verify Static NAT
To verify NAT operation, issue the show ip nat translations command.
This command shows active NAT translations.
Because the example is a static NAT configuration, the translation is always present in
the NAT table regardless of any active communications.
If the command is issued during an active session, the output also indicates the
address of the outside device.
R2# show ip nat translations
Pro Inside global Inside local Outside local Outside global
--- 209.165.201.5 192.168.10.254 --- ---
Total number of translations: 1

R2# show ip nat translations
Pro Inside global Inside local Outside local Outside global
tcp 209.165.201.5 192.168.10.254 209.165.200.254 209.165.200.254
--- 209.165.201.5 192.168.10.254 --- ---
Total number of translations: 2

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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.4 – Verify Static NAT

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Static NAT
Verify Static NAT (Cont.)
Another useful command is show ip nat statistics.
It displays information about the total number of active translations, NAT
configuration parameters, the number of addresses in the pool, and the number of
addresses that have been allocated.
To verify that the NAT translation is working, it is best to clear statistics from any
past translations using the clear ip nat statistics command before testing.

R2# show ip nat statistics
Total active translations: 1 (1 static, 0 dynamic; 0 extended)
Outside interfaces:
Serial0/1/1
Inside interfaces:
Serial0/1/0
Hits: 4 Misses: 1
(output omitted)

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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.4 – Verify Static NAT (Cont.)

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 OFFICIAL
Static NAT
Packet Tracer – Configure Static NAT
In this Packet Tracer, you will complete the following objectives:
Test Access without NAT
Configure Static NAT
Test Access with NAT

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6.0 – NAT for IPv4
6.4 – Static NAT
6.4.5 – Packet Tracer – Configure Static NAT

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6.5 Dynamic NAT

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6.0 – NAT for IPv4
6.5 – Dynamic NAT

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Static NAT
Dynamic NAT Scenario
Dynamic NAT automatically maps
inside local addresses to inside
global addresses.
Dynamic NAT uses a pool of inside
global addresses.
The pool of inside global addresses
is available to any device on the
inside network on a first-come first-
served basis.
If all addresses in the pool are in
use, a device must wait for an
available address before it can
access the outside network.
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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.1 – Dynamic NAT Scenario

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Static NAT
Configure Dynamic NAT
There are five tasks when configuring dynamic NAT translations:
Step 1 - Define the pool of addresses that will be used for translation using the ip
nat pool command.
Step 2 - Configure a standard ACL to identify (permit) only those addresses that
are to be translated.
Step 3 - Bind the ACL to the pool, using the ip nat inside source list command.

R2(config)# ip nat pool NAT-POOL1 209.165.200.226 209.165.200.240 netmask 255.255.255.224
R2(config)# access-list 1 permit 192.168.0.0 0.0.255.255
R2(config)# ip nat inside source list 1 pool NAT-POOL1

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.2 – Configure Dynamic NAT

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Static NAT
Configure Dynamic NAT (Cont.)
There are five tasks when configuring dynamic NAT translations:
Step 4 - Identify which interfaces are inside.
Step 5 - Identify which interfaces are outside.

R2(config)# ip nat pool NAT-POOL1 209.165.200.226 209.165.200.240 netmask 255.255.255.224
R2(config)# access-list 1 permit 192.168.0.0 0.0.255.255
R2(config)# ip nat inside source list 1 pool NAT-POOL1
R2(config)# interface serial 0/1/0
R2(config-if)# ip nat inside
R2(config-if)# interface serial 0/1/1
R2(config-if)# ip nat outside

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.2 – Configure Dynamic NAT (Cont.)

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Static NAT
Analyze Dynamic NAT – Inside to Outside
Dynamic NAT translation process:
1. PC1 and PC2 send packets requesting a
connection to the server.
2. R2 receives the first packet from PC1,
checks the ALC to determine if the packet
should be translated, selects an available
global address, and creates a translation
entry in the NAT table.
3. R2 replaces the inside local source address
of PC1, 192.168.10.10, with the translated
inside global address of 209.165.200.226
and forwards the packet. (The same process
occurs for the packet from PC2 using the
translated address of 209.165.200.227.)

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.3 – Analyze Dynamic NAT – Inside to Outside

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 OFFICIAL
Static NAT
Analyze Dynamic NAT – Outside to Inside
Dynamic NAT translation process:
4. The server receives the packet from PC1 and
responds using the destination address of
209.165.200.226. The server receives the packet
from PC2, it responds to using the destination
address of 209.165.200.227.
5. (a) When R2 receives the packet with the
destination address of 209.165.200.226; it
performs a NAT table lookup and translates the
address back to the inside local address and
forwards the packet toward PC1.
(b) When R2 receives the packet with the
destination address of 209.165.200.227; it
performs a NAT table lookup and translates the
address back to the inside local address
192.168.11.10 and forwards the packet toward
PC2.
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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.4 – Analyze Dynamic NAT – Outside to Inside

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Static NAT
Analyze Dynamic NAT – Outside to Inside (Cont.)
Dynamic NAT translation process:
6. PC1 and PC2 receive the packets and
continue the conversation. The router
performs Steps 2 to 5 for each packet.

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.4 – Analyze Dynamic NAT – Outside to Inside (Cont.)

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Static NAT
Verify Dynamic NAT
The output of the show ip nat translations command displays all static
translations that have been configured and any dynamic translations that
have been created by traffic.

R2# show ip nat translations
Pro Inside global Inside local Outside local Outside global
--- 209.165.200.228 192.168.10.10 --- ---
--- 209.165.200.229 192.168.11.10 --- ---
R2#

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.5 – Verify Dynamic NAT

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Static NAT
Verify Dynamic NAT (Cont.)
Adding the verbose keyword displays additional information about each
translation, including how long ago the entry was created and used.

R2# show ip nat translation verbose
Pro Inside global Inside local Outside local Outside global
tcp 209.165.200.228 192.168.10.10 --- ---
create 00:02:11, use 00:02:11 timeout:86400000, left 23:57:48, Map-Id(In): 1,
flags:
none, use_count: 0, entry-id: 10, lc_entries: 0
tcp 209.165.200.229 192.168.11.10 --- ---
create 00:02:10, use 00:02:10 timeout:86400000, left 23:57:49, Map-Id(In): 1,
flags:
none, use_count: 0, entry-id: 12, lc_entries: 0
R2#

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.5 – Verify Dynamic NAT (Cont.)

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Static NAT
Verify Dynamic NAT (Cont.)
By default, translation entries time out after 24 hours, unless the timers have been
reconfigured with the ip nat translation timeout timeout-seconds command in global
configuration mode. To clear dynamic entries before the timeout has expired, use the
clear ip nat translation privileged EXEC mode command.

R2# clear ip nat translation *
R2# show ip nat translation

Command Description

clear ip nat translation *
Clears all dynamic address translation entries from the
NAT translation table.
clear ip nat translation inside global-ip Clears a simple dynamic translation entry containing an inside
local-ip [outside local-ip global-ip] translation or both inside and outside translation.
clear ip nat translation protocol inside
global-ip global-port local-ip local-port [
Clears an extended dynamic translation entry.
outside local-ip local-port global-ip global-
port]
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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.5 – Verify Dynamic NAT (Cont.)

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Static NAT
Verify Dynamic NAT (Cont.)
The show ip nat statistics command displays information about the total number of
active translations, NAT configuration parameters, the number of addresses in the
pool, and how many of the addresses have been allocated.
R2# show ip nat statistics
Total active translations: 4 (0 static, 4 dynamic; 0 extended)
Peak translations: 4, occurred 00:31:43 ago
Outside interfaces:
Serial0/1/1
Inside interfaces:
Serial0/1/0
Hits: 47 Misses: 0
CEF Translated packets: 47, CEF Punted packets: 0
Expired translations: 5
Dynamic mappings:
-- Inside Source
[Id: 1] access-list 1 pool NAT-POOL1 refcount 4
pool NAT-POOL1: netmask 255.255.255.224
start 209.165.200.226 end 209.165.200.240
type generic, total addresses 15, allocated 2 (13%), misses 0
(output omitted)
R2#

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.5 – Verify Dynamic NAT (Cont.)

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Static NAT
Verify Dynamic NAT (Cont.)
The show running-config command and show s the NAT, ACL, interface, or pool
commands with the required values.

R2# show running-config | include NAT
ip nat pool NAT-POOL1 209.165.200.226 209.165.200.240 netmask 255.255.255.224
ip nat inside source list 1 pool NAT-POOL1

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.5.5 – Verify Dynamic NAT (Cont.)

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 OFFICIAL
Dynamic NAT
Packet Tracer – Configure Dynamic NAT
In this Packet Tracer, you will complete the following objectives:
Configure Dynamic NAT
Verify NAT Implementation

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6.0 – NAT for IPv4
6.5 – Dynamic NAT
6.4.6 – Packet Tracer – Configure Dynamic NAT

39
6.6 PAT

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6.0 – NAT for IPv4
6.6 – PAT

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PAT
Configure PAT to Use a Single IPv4 Address
To configure PAT to use a single IPv4 address, add the keyword overload to the ip nat
inside source command.

In the example, all hosts from network 192.168.0.0/16 (matching ACL 1) that send
traffic through router R2 to the internet will be translated to IPv4 address
209.165.200.225 (IPv4 address of interface S0/1/1). The traffic flows will be identified
by port numbers in the NAT table because the overload keyword is configured.

R2(config)# ip nat inside source list 1 interface serial 0/1/0 overload
R2(config)# access-list 1 permit 192.168.0.0 0.0.255.255
R2(config)# interface serial0/1/0
R2(config-if)# ip nat inside
R2(config-if)# exit
R2(config)# interface Serial0/1/1
R2(config-if)# ip nat outside

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6.0 – NAT for IPv4
6.6 – PAT
6.6.2 – Configure PAT to Use a Single IPv4 Address

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PAT
Configure PAT to Use an Address Pool
An ISP may allocate more than one public IPv4 address to an organization. In this
scenario the organization can configure PAT to use a pool of IPv4 public addresses for
translation.
To configure PAT for a dynamic NAT address pool, simply add the keyword overload
to the ip nat inside source command.

In the example, NAT-POOL2 is bound to an ACL to permit 192.168.0.0/16 to be
translated. These hosts can share an IPv4 address from the pool because PAT is
enabled with the keyword overload.
R2(config)# ip nat pool NAT-POOL2 209.165.200.226 209.165.200.240 netmask 255.255.255.224
R2(config)# access-list 1 permit 192.168.0.0 0.0.255.255
R2(config)# ip nat inside source list 1 pool NAT-POOL2 overload
R2(config)# interface serial0/1/0
R2(config-if)# ip nat inside
R2(config-if)# interface serial0/1/0
R2(config-if)# ip nat outside

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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.3 – Configure PAT to Use an Address Pool

42
 OFFICIAL
PAT
Analyze PAT – Server to PC
1. PC1 and PC2 send packets to Svr1 and
Svr2.
2. The packet from PC1 reaches R2 first.
R2 modifies the source IPv4 address to
209.165.200.225 (inside global address).
The packet is then forwarded towards
Svr1.
3. The packet from PC2 arrives at R2. PAT
changes the source IPv4 address of PC2
to the inside global address
209.165.200.225. PC2 has the same
source port number as the translation for
PC1. PAT increments the source port
number until it is a unique value in its
table. In this instance, 1445.
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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.4 – Analyze PAT – Server to PC

43
 OFFICIAL
PAT
Analyze PAT – PC to Server
1. PC1 and PC2 send packets to Svr1
and Svr2.
2. The packet from PC1 reaches R2 first.
R2 modifies the source IPv4 address to
209.165.200.225 (inside global
address). The packet is then forwarded
towards Svr1.
3. The packet from PC2 arrives at R2.
PAT changes the source IPv4 address
of PC2 to the inside global address
209.165.200.225. PC2 has the same
source port number as the translation
for PC1. PAT increments the source
port number until it is a unique value in
its table. In this instance, it is 1445.
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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.5 – Analyze PAT – PC to Server

44
 OFFICIAL
PAT
Analyze PAT – Server to PC
1. The servers use the source port from the
received packet as the destination port,
and the source address as the destination
address for the return traffic.
2. R2 changes the destination IPv4 address
of the packet from Srv1 from
209.165.200.225 to 192.168.10.10, and
forwards the packet toward PC1.
3. R2 changes the destination address of
packet from Srv2. from 209.165.200.225 to
192.168.10.11. and modifies the
destinations port back to its original value
of 1444. The packet is then forwarded
toward PC2.

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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.5 – Analyze PAT – Server to PC

45
 OFFICIAL
PAT
Verify PAT
The same commands used to verify static and dynamic NAT are used to verify PAT.
The show ip nat translations command displays the translations from two different
hosts to different web servers. Notice that two different inside hosts are allocated the
same IPv4 address of 209.165.200.226 (inside global address). The source port
numbers in the NAT table differentiate the two transactions.

R2# show ip nat translations
Pro Inside global Inside local Outside local Outside global
tcp 209.165.200.225:1444 192.168.10.10:1444 209.165.201.1:80 209.165.201.1:80
tcp 209.165.200.225:1445 192.168.11.10:1444 209.165.202.129:80 209.165.202.129:80
R2#

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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.6 – Verify PAT

46
 OFFICIAL
PAT
Verify PAT (Cont.)
The show ip nat statistics command verifies that NAT-POOL2 has allocated a single
address for both translations. Also shown are the number and type of active translations,
NAT configuration parameters, the number of addresses in the pool, and how many have
been allocated.
R2# show ip nat statistics
Total active translations: 4 (0 static, 2 dynamic; 2 extended)
Peak translations: 2, occurred 00:31:43 ago
Outside interfaces:
Serial0/1/1
Inside interfaces:
Serial0/1/0
Hits: 4 Misses: 0
CEF Translated packets: 47, CEF Punted packets: 0
Expired translations: 0
Dynamic mappings:
-- Inside Source
[Id: 3] access-list 1 pool NAT-POOL2 refcount 2
pool NAT-POOL2: netmask 255.255.255.224
start 209.165.200.225 end 209.165.200.240
type generic, total addresses 15, allocated 1 (6%), misses 0
(output omitted)
R2#

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OFFICIAL

6.0 – NAT for IPv4
6.6 – PAT
6.6.6 – Verify PAT (Cont.)

47
 OFFICIAL
Dynamic NAT
Packet Tracer – Configure PAT
In this Packet Tracer, you will complete the following objectives:
Configure Dynamic NAT with Overload
Verify Dynamic NAT with Overload Implementation
Configure PAT using an Interface
Verify PAT Interface Implementation

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OFFICIAL

6.0 – NAT for IPv4
6.6 – Dynamic NAT
6.6.7 – Packet Tracer – Configure PAT

48
6.7 NAT64

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6.0 – NAT for IPv4
6.7 – NAT64

49
 OFFICIAL
NAT64
NAT for IPv6?
IPv6 was developed with the intention of making NAT for IPv4 with translation between
public and private IPv4 addresses unnecessary.
However, IPv6 does include its own IPv6 private address space, unique local
addresses (ULAs).
IPv6 unique local addresses (ULA) are similar to RFC 1918 private addresses in
IPv4 but have a different purpose.
ULA addresses are meant for only local communications within a site. ULA
addresses are not meant to provide additional IPv6 address space, nor to provide a
level of security.
IPv6 does provide for protocol translation between IPv4 and IPv6 known as NAT64.

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OFFICIAL

6.0 – NAT for IPv4
6.7 – NAT64
6.7.1 – NAT for IPv6?

50
 OFFICIAL
NAT64
NAT64
NAT for IPv6 is used in a much different
context than NAT for IPv4.
The varieties of NAT for IPv6 are used to
transparently provide access between
IPv6-only and IPv4-only networks, as
shown. It is not used as a form of private
IPv6 to global IPv6 translation.
NAT for IPv6 should not be used as a
long-term strategy, but as a temporary
mechanism to assist in the migration
from IPv4 to IPv6.

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OFFICIAL

6.0 – NAT for IPv4
6.7 – NAT64
6.7.2 – NAT64

51
6.8 Module Practice and
Quiz

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6.0 – NAT for IPv4
6.8 – Module Practice and Quiz

52
 OFFICIAL
Dynamic NAT
Packet Tracer – Configure NAT for IPv4
In this Packet Tracer, you will complete the following objectives:
Configure Dynamic NAT with PAT
Configure Static NAT

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OFFICIAL

6.0 – NAT for IPv4
6.8 – Module Practice and Quiz
6.8.1 – Packet Tracer – Configure NAT for IPv4

53
 OFFICIAL
Dynamic NAT
Packet Tracer – Configure NAT for IPv4
In this Lab, you will complete the following objectives:
Build the Network and Configure Basic Device Settings
Configure and verify NAT for IPv4
Configure and verify PAT for IPv4
Configure and verify Static NAT for IPv4

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OFFICIAL

6.0 – NAT for IPv4
6.8 – Module Practice and Quiz
6.8.2 – Lab – Configure NAT for IPv4

54
 OFFICIAL
Module Practice and Quiz
What did I learn in this module?
There are not enough public IPv4 addresses to assign a unique address to each device
connected to the internet.
The primary use of NAT is to conserve public IPv4 addresses.
In NAT terminology, the inside network is the set of networks that is subject to translation. The
outside network refers to all other networks.
NAT terminology is always applied from the perspective of the device with the translated
address.
Inside address are the address of the device which is being translated by NAT.
Outside address are the address of the destination device.
Local address is any address that appears on the inside portion of the network.
Global address is any address that appears on the outside portion of the network.
Static NAT uses a one-to-one mapping of local and global addresses.
Dynamic NAT uses a pool of public addresses and assigns them on a first-come, first-served
basis.

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OFFICIAL

6.0 – NAT for IPv4
6.8 – Module Practice and Quiz
6.8.3 – What did I learn in this module?

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 OFFICIAL
Module Practice and Quiz
What did I learn in this module? (Cont.)
Port Address Translation (PAT), also known as NAT overload, maps multiple private IPv4
addresses to a single public IPv4 address or a few addresses.
NAT increases forwarding delays because the translation of each IPv4 address within the
packet headers takes time.
NAT complicates the use of tunneling protocols, such as IPsec, because NAT modifies values
in the headers, causing integrity checks to fail.
The show ip nat translations command displays all static translations that have been
configured and any dynamic translations that have been created by traffic.
To clear dynamic entries before the timeout has expired, use the clear ip nat translation
privileged EXEC mode command.
IPv6 was developed with the intention of making NAT for IPv4 with translation between public
and private IPv4 addresses unnecessary.
IPv6 unique local addresses (ULA) are similar to RFC 1918 private addresses in IPv4 but
have a different purpose.
IPv6 does provide for protocol translation between IPv4 and IPv6 known as NAT64.
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OFFICIAL

6.0 – NAT for IPv4
6.8 – Module Practice and Quiz
6.8.3 – What did I learn in this module? (Cont.)
6.8.4 – Module Quiz – NAT for IPv4

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Module 6: NAT for IPv4 OFFICIAL

New Terms and Commands
RFC1918
inside local address
inside global address
outside local address
outside global address
static NAT
dynamic NAT
PAT
ip nat inside source static
show ip nat translations
show ip nat statistics
ip nat outside
ip nat inside
ip nat pool
clear ip nat translation *
Overload
NAT 64

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