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CCNA2 Routing
Perrine modified by Brierley Page 104/19/23
Module 11Access Control
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
Perrine modified by Brierley Page 204/19/23
Module 11Access Control
172.16.2.0 172.16.4.0
e0 e1
s0172.16.4.3
Computer
Computer
172.16.3.2
172.16.2.2
172.16.3.1
s1
172.16.3.0
172.16.4.2
Server
CCNA2 Routing
Perrine modified by Brierley Page 304/19/23
Module 11
A HIGH LEVEL VIEW of ACLs
High Level View
CCNA2 Routing
Perrine modified by Brierley Page 404/19/23
Module 11
Access Control Lists
Standard
Extended
CCNA2 Routing
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Module 11
• Standard:
• Interface Fa 0/0/0
• ip access-group 1 out
• access-list 1 deny 172.16.4.13 0.0.0.0
• access-list 1 permit any
• ________________________________________________________________
• Extended:
• Interface Fa 0/0/0
• ip access-group 101 in
• access-list 101 deny tcp 172.16.4.0 0.0.0.255 172.16.3.0 0.0.0.255 eq www
• access-list 101 permit ip any any
High Level View
CCNA2 Routing
Perrine modified by Brierley Page 604/19/23
Module 11Standard Access Control Lists
ACLs are instructions that are applied to a router interfaces.
The ACLs describe the kind of packets that are to be permitted or denied.
Permitted or Denial testing can be based on:
• source address
• destination address
• port number
ACLs are configured on the router Interfaces to control access to a network.
ACLs must be defined separately for each protocol; Unique for IP, Unique for IPX; Unique for AppleTalk, etc.
Some times ACLs are called packet filters.
CCNA2 Routing
Perrine modified by Brierley Page 1004/19/23
Module 11
• Standard ACLs should be placed close to the destination.• Extended ACLs should be placed close to the source.
Placing ACLs
CCNA2 Routing
Perrine modified by Brierley Page 1104/19/23
Module 11
A firewall is an architectural structure that exists between the user and the outside world to protect the internal network from intruders.
Firewalls
CCNA2 Routing
Perrine modified by Brierley Page 1204/19/23
Module 11Restricting Virtual Terminal Access
CCNA2 Routing
Perrine modified by Brierley Page 1404/19/23
Module 11
Reasons to create ACLs:
• limit network traffic - hence increase network performance
• provide traffic flow - limit traffic through the network
• provide for security
• ACLs establish
•which traffic is blocked
•which traffic is not blocked
ACL - Access Control Lists
CCNA2 Routing
Perrine modified by Brierley Page 1504/19/23
Module 11
A MORE DETAILED VIEW of ACLs
DETAIL
CCNA2 Routing
Perrine modified by Brierley Page 1604/19/23
Module 11
Cisco IOS checks each packet for:
1. destination address
2. source address
3. protocol
4. port number
Each ACL statement is checked in a sequential order (first to last) and when there is a match, no more statements are checked.
If the results are no matches, then the packet (by default) is discarded.
Adding addition ACL statements to the end of an existing list is just a matter of adding the new statement. BUT, if
deleting an existing ACL statement causes the entire access list to be deleted.
ACL - Access Control Lists
access-list 1 deny 192.169.1.0 0.0.255.255access-list 1 deny 192.168.1.9 0.0.0.0access-list 1 deny 172.16.4.0 0.0.0.255access-list 1 permit any
CCNA2 Routing
Perrine modified by Brierley Page 1704/19/23
Module 11
When a packet enters a router’s interface:
“IN” (inbound) checking is required. The packet:
1) Is checked against the ACL list (if one exists)
2) Here It can be interrogated to permit or deny.
3) If denied the packet is dropped else,
4) It is matched against the routing table and passed to an “OUT” (outbound interface)
ACL - Access Control Lists
“OUT” (outbound) checking is required.1) Here It can be interrogated to permit or deny.
2) If denied the packet is dropped3) If permitted then packet is allowed “OUT” (outbound).
The Outbound interface’s ACL is a different list from the inbound)
CCNA2 Routing
Perrine modified by Brierley Page 1804/19/23
Module 11
ACL statements operate in a logical, sequential order. When a match is made the rest of the statements are not checked.
If none the ACL statements match, then there is an implicit deny any rule.
access-list 10 { permit | deny } { test conditions }
access-list 1 deny 192.169.1.0 0.0.255.255access-list 1 deny 192.168.1.9 0.0.0.0access-list 1 deny 172.16.4.0 0.0.0.255
access-list 1 permit any
access-list 10 { permit | deny } { test conditions }
access-list 10 { permit | deny } { test conditions }
access-list 10 { permit | deny } { test conditions }
access-list 10 deny anyaccess-list 10 deny any
ACL - Access Control Lists
CCNA2 Routing
Perrine modified by Brierley Page 1904/19/23
Module 11
Two types of IP ACL :
• standard - has access list value of 1- 99
• extended - has access list value of 100 - 199
Must be configured in global configuration mode. Router (config) #
Steps in creating ACLs:
1) create the ACL (in config mode)
2) apply the ACL to an interface
ACLs are used to filter:
• inbound traffic, or
• outbound traffic
ACL - Access Control Lists
CCNA2 Routing
Perrine modified by Brierley Page 2004/19/23
Module 11Where to place ACLs
Standard ACLs are place as close as possible to the destination.
Extended ACLs are place as close as possible to the source.
CCNA2 Routing
Perrine modified by Brierley Page 2104/19/23
Module 11
Configuring an Access List:
Router(config)# access-list <ACL number> { permit | deny } { test conditions }
Router(config)# access-list 1 permit { test conditions }
Router(config)# access-list 50 deny { test conditions }
To delete all ACL statements of an access-listRouter(config)# no access-list <ACL number>
Applying the Access List:
At an interface:
Router(config)# int E0
Router(config-if)# { protocol } access-group <ACL number> [IN | OUT]
Out is the default if not mentioned
Router(config-if)# ip access-group 1
Router(config-if)# ip access-group 50
To delete an ACL group statement (this will not delete the associated list):
Router(config)# no access-group <ACL number>
Where to place ACLs
CCNA2 Routing
Perrine modified by Brierley Page 2204/19/23
Module 11
A wildcard is matched with an IP address or protocol address.
It is a 32 bit mask divided into 4 octet, each containing 8 bits.
A 0 in the wildcard means to check the bit in the IP you are testing.
A 1 in the wildcard means ignore the bit in the IP you are testing.
NOTE!!!
Do NOT think subnet mask – that is a totally different meaning not related to the WILDCARD
Wildcard
CCNA2 Routing
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Module 11Abbreviations
To permit or deny any address:
0.0.0.0 255.255.255.255
Address Wildcard
Use the abbreviation any
Router(config)# access-list 1 permit 0.0.0.0 255.255.255.255
Router(config)# access-list 1 permit any
Router(config)# access-list 1 deny 0.0.0.0 255.255.255.255
Router(config)# access-list 1 deny any
CCNA2 Routing
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Module 11
To match all the bits of IP address use host:
EX: 172. 30.16. 29 0. 0. 0. 0
Router(config)# access-list 1 permit 172.30.16.29 0.0.0.0
Router(config)# access-list 1 permit host 172.30.16.29
Abbreviations
CCNA2 Routing
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Module 11Standard ACLs
Criteria:
• block all traffic from a network
• allow all traffic from a network
• deny entire protocol suits
Standard ACLs only check the source address.
Router(config)# access-list <ACL number> { deny | permit } source [ source wildcard] [log]
CCNA2 Routing
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Module 11
What does this statement accomplish?
Access-list 33 permit 172.16.0.0 0.0.255.255 log
Permits all traffic from 172.16.0.0 and sends messages to the console every time the access list is executed.
Standard ACLs
CCNA2 Routing
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Module 11
What does this statement accomplish?
Access-list 44 deny 172.16.13.7 0.0.0.0 log
Denies traffic from host 172.16.13.7 and sends message to the console every time the access list is hit.
Standard ACLs
CCNA2 Routing
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Module 11
What does this statement accomplish?
Access-list 55 deny 172.16.64.3 0.0.0.255
Denies all traffic from network 172.16.64.0
Standard ACLs
CCNA2 Routing
Perrine modified by Brierley Page 2904/19/23
Module 11
The log command:
Prints messages to the console which includes the ACL number, whether the packet was permitted or denied, the source address, and the number of packets.
The message is generated for the first packet that matches, and then at five-minute intervals, including the number of packets permitted or denied in the prior five-minute interval.
Log is used for debugging only not to be left active on live networks.
Standard ACLs
CCNA2 Routing
Perrine modified by Brierley Page 3004/19/23
Module 11
Example of applying the access-list:
Router(config-if)# ip access-group 33 in
Router(config-if)# ip access-group 44 out
Standard ACLs
CCNA2 Routing
Perrine modified by Brierley Page 3104/19/23
Module 11
To monitor IP access list: (in EXEC mode)
show access-list
Displays all access lists & their parameters configured on the router. (Does not show you which interface the list is set on.)
show access-list <ACL number>
Shows only the parameters for the access list <ACL number>. (Does not show you the interface the list is set on.)
show ip access-list
Shows only the IP access lists configured on the router
show ip interface
Shows which interfaces have access lists set (containing an access-group).
show running-config
Shows the routers entire configuration
Standard ACLs
CCNA2 Routing
Perrine modified by Brierley Page 3204/19/23
Module 11
R(config)# Interface e0R(config-if)# ip access-group 1 out
R(config)# Interface e1R(config-if)# ip access-group 1 out
R(config)# access-list 1 permit 172.16.0.0 0.0.255.255
What does it do?
Standard ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
Perrine modified by Brierley Page 3304/19/23
Module 11
R(config)# Interface e0
R(config-if)# ip access-group 1 out
R(config)# Interface e1
R(config-if)# ip access-group 1 out
R(config)# access-list 1 permit 172.16.0.0 0.0.255.255
Allows only traffic from source network 172.16.0.0 to be forwarded & and non-172.16.0.0 traffic is blocked.
Standard ACLs
One Access list used by multiple Interfaces
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
R(config)# Interface e0
R(config-if)# ip access-group 1 out
R(config)# access-list 1 deny 172.16.4.13 0.0.0.0
R(config)# access-list 1 permit any
What does this do?
Standard ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
R(config)# Interface e0R(config-if)# ip access-group 1 out
R(config)# access-list 1 deny 172.16.4.13 0.0.0.0R(config)# access-list 1 permit any
Denies traffic from a specific device, 172.16.4.13 & allows all other traffic thru e0 to network 172.16.3.0.
Standard ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
Interface e0
ip access-group 1 out
access-list 1 deny 172.16.4.0 0.0.0.255
access-list 1 permit any
What does this do?
Standard ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
Interface e0ip access-group 1 out
access-list 1 deny 172.16.4.0 0.0.0.255access-list 1 permit any
Denies traffic from the subnet, 172.16.4.0 & allows all other traffic thru e0 to network 172.16.3.0.
Standard ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
Criteria:• checks both the packet’s source & destination addresses
• check for specific protocol
• check for specific port numbers
• permit or denied applications – pings, telnets, FTP, etc.
•ACL values range between 100 – 199 (for IP)
Extended ACLs
CCNA2 Routing
Perrine modified by Brierley Page 3904/19/23
Module 11
Port Numbers (decimal) IP Protocol
20 FTP data [TCP]
21 FTP program (control) [TCP]
23 Telnet [TCP]
25 Simple Mail Transport Protocol
[TCP] (SMTP)
53 DNS [TCP, UDP]
69 TFTP [UDP]
80 HTTP [TCP]
Extended ACLs
CCNA2 Routing
Perrine modified by Brierley Page 4004/19/23
Module 11
Router(config)# access-list <ACL number> { permit | deny } protocol source source-mask
destination destination-mask operator operand {established}
ACL number100 – 199
permit | denyPacket is allowed or blocked
protocol IP, TCP, UDP, ICMP, GRE or IGRP
source -- Source address source-wildcard mask
destination -- Destination address destination-wildcard mask
Extended ACLs
Continued
CCNA2 Routing
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Module 11
Router(config)# access-list <ACL number> { permit | deny } protocol source source-mask destination destination-mask operator
operand {established}
operatorlt, gt, eq, neq
OperandPort number
established Allows TCP traffic to pass if the packet uses an established connection ( for example, has ACK bits set ).
access-list 101 permit tcp 172.16.4.0 0.0.0.255 any eq 25
Extended ACLs
CCNA2 Routing
Perrine modified by Brierley Page 4204/19/23
Module 11
Configuring an extended ACL to an interface:
Router(config-if)# ip access-group <ACL number> { in | out }
Router(config)# int E0
Router(config-if)# ip access-group 101 in
Extended ACLs
CCNA2 Routing
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Module 11
Interface e0
ip access-group 101
access-list 101 deny tcp 172.16.4.0 0.0.0.255 172.16.3.0 0.0.0.255 eq 21
access-list 101 permit ip any any
What does this do?
Extended ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
Perrine modified by Brierley Page 4404/19/23
Module 11
Interface e0ip access-group 101
access-list 101 deny tcp 172.16.4.0 0.0.0.255 172.16.3.0 0.0.0.255 eq 21access-list 101 permit ip any any
Blocks FTP traffic from all hosts on 172.16.4.0 to any device on 172.16.3.0 & allows all other traffic.
Extended ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
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Module 11
Interface e0
ip access-group 101
access-list 101 deny tcp 172.16.4.0 0.0.0.255 172.16.3.0 0.0.0.255 eq 23
access-list 101 permit ip any any
What does this do?
Extended ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
Perrine modified by Brierley Page 4604/19/23
Module 11
Interface e0ip access-group 101
access-list 101 deny tcp 172.16.4.0 0.0.0.255 172.16.3.0 0.0.0.255 eq 23access-list 101 permit ip any any
Denies only telnet traffic from 172.16.4.0 to 172.16.3.0 network, and permits all other traffic thru e0 to any address.
Extended ACLs
172.16.3.0 172.16.4.0
Non-172.16.0.0
e0 e1
s0
172.16.4.13
server
CCNA2 Routing
Perrine modified by Brierley Page 4704/19/23
Module 11Extended/Standard ACL numbers for IP
NOTE:
Standard ACL numbers: 1-99; 1300-1999
Extended ACL numbers: 100-199; 2000-2699
CCNA2 Routing
Perrine modified by Brierley Page 4804/19/23
Module 11Standard/Extended ACL
You can not add ACL statements into the body of the access-list (ONLY at the end of the list).
Otherwise the access list must be deleted first, and then rewritten.
Therefore it is prudent to write your access-list in text format using “notepad”, and then transfer it to your router.
CCNA2 Routing
Perrine modified by Brierley Page 4904/19/23
Module 11Configuring Named ACLs
NOTE:
• A NAMED ACL is an alphanumeric string instead of the ACL number (1 - 199 )
• NAMED ACLs are not compatible with Cisco IOS release prior to Release 11.2
• Named ACLs can be used for either standard & extended
•You cannot configure the same name for multiple ACLs.
•use Name ACL when you want to intuitively identify ACLs
•use Name ACL when you have more than 99 standard & 100 extended ACLs have been configured on a router for a given protocol
CCNA2 Routing
Perrine modified by Brierley Page 5004/19/23
Module 11Configuring Named ACLs
Router(config)# ip access-list { standard | extended } name { deny | permit } { commands }
ip access-list standard internetfilter
deny 172.10.15.0 0.0.0.255
permit 128.88.0.0 0.0.255.255
permit 36.0.0.0 0.0.255.255
ip access-list extended marketing-group
permit tcp any 171.69.0.0 0.255.255.255 eq telnet
deny udp any 171.69.0.0 0.255.255.255 lt 1024
CCNA2 Routing
Perrine modified by Brierley Page 5104/19/23
Module 11Named ACL
A named ACL will allow the deletion of statements, but will only allow for the statements to be inserted a the end of the list.
CCNA2 Routing
Perrine modified by Brierley Page 5204/19/23
Module 11More Details
access-list 1 permit 172.16.0.0 0.0.255.255
10101100.00010000.00000000.00000000
00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010000.xxxxxxxx. xxxxxxxx Matched value
Incoming packet with address of 172.18.4.2. Will it be permitted?
Source : 10101100.00010010.00000100.00000010
Wildcard mask: 00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010010.xxxxxxxx. xxxxxxxx Result
CCNA2 Routing
Perrine modified by Brierley Page 5304/19/23
Module 11
access-list 1 permit 172.16.0.0 0.0.255.255
10101100.00010000.00000000.00000000
00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010000.xxxxxxxx. xxxxxxxx Match value
Incoming packet with address of 172.18.4.2. Will it be permitted?
Source : 10101100.00010010.00000100.00000010
Wildcard mask: 00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010010.xxxxxxxx. xxxxxxxx Result
Does the result equal the match value?
No! Hence the incoming packet will not be permitted.
CCNA2 Routing
Perrine modified by Brierley Page 5404/19/23
Module 11
access-list 1 permit 172.16.0.0 0.0.255.255
10101100.00010000.00000000.00000000
00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010000.xxxxxxxx. xxxxxxxx Match value
Incoming packet with address of 172.16.4.2. Will it be permitted?
Source : 10101100.00010000.00000100.00000010
Wildcard mask: 00000000.00000000.xxxxxxxx. xxxxxxxx
10101100.00010000.xxxxxxxx. xxxxxxxx Result
Does the result equal the match value?
Yes! Hence the incoming packet will be permitted.
CCNA2 Routing
Perrine modified by Brierley Page 5504/19/23
Module 11
access-list 1 permit 172.16.0.0 0.0.255.254
10101100.00010000.00000000.00000000
00000000.00000000.xxxxxxxx. xxxxxxx0
10101100.00010000.xxxxxxxx. xxxxxxx0 Matched value
Incoming packet with address of 172.16.4.1. Will it be permitted?
Source : 10101100.00010000.00000100.00000001
Wildcard mask: 00000000.00000000. xxxxxxxx. xxxxxxx0
10101100.00010000.xxxxxxxx. xxxxxxx1 Result
Incoming packet with address of 172.16.4.4. Will it be permitted?
Source : 10101100.00010000.00000100.00000100
Wildcard mask: 00000000.00000000. xxxxxxxx. xxxxxxx0
10101100.00010000. xxxxxxxx. xxxxxxx0 Result
CCNA2 Routing
Perrine modified by Brierley Page 5604/19/23
Module 11
access-list 1 permit 172.16.0.0 0.0.255.254
10101100.00010000.00000000.00000000
00000000.00000000.xxxxxxxx. xxxxxxx0
10101100.00010000.xxxxxxxx. xxxxxxx0 Matched value
Incoming packet with address of 172.16.4.5. Will it be permitted?
Source : 10101100.00010000.00000100.00000101
Wildcard mask: 00000000.00000000.xxxxxxxx. xxxxxxx0
10101100.00010000.xxxxxxxx. xxxxxxx1 Result
So the access list perform what operation? Permits 172.16.4.4, and denies 172.16.4.1 and 172.16.4.5
Permits all even addresses from the network 172.16.0.0
CCNA2 Routing
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Module 11Permit/Deny BLOCKS of addresses
One can permit or deny a block of addresses. However, the blocks must be a power of 2! (Example, 2, 4, 8, 16, 32, 64, 128, etc.)
When you need to specify a range of addresses, you choose the closet block size for your needs.
You want to block access to part of network that is in the range from 198.16.99.0 through 198.16.99.7. This is a block size of 8. Hence:
198.16.99.0 0.0.0.7
Also in this case for a block of 8, the beginning address must either start at 0, 8, 16, etc.
CCNA2 Routing
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Module 11
One has a subnet whose addresses range from 200.17.2.128 to 200.17.2.191. One wants to divide this network so the top half are permitted and the bottom half is denied to any other network. What is the access lists?
The block range is:
64
What is the access-list for the bottom?
access-list 101 deny ip 200.17.2.128 0.0.0.31 any
What is the access-list for the top?
access-list 101 permit ip 200.17.2.160 0.0.0.31 any
Permit/Deny BLOCKS of addresses
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Module 11
What does this do?
access-list 10 deny 200.16.88.64 0.0.0.63
Denies a block of 64 address starting at 200.16.88.64
Permit/Deny BLOCKS of addresses
CCNA2 Routing
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Module 11Virtual Terminal ACL
You can control access via the VTY ports controlling telnet sessions coming into the router.
You write the ACL as usual, but use access-class to apply it.
As an example:
Router(config t)# access-list 1 permit 172.16.1.0 0.0.0.255
Router(config t)# line vty 0 4
Router(config-line)# login
Router(config-line)# password cisco
Router(config-line)# access-class 1 in
Note: only numbered access lists can be applied to VTY virtual lines!
CCNA2 Routing
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Module 11Established option
The ‘establish’ option in an access-list used only with TCP datagrams. There are cases when you want to stop host B from initiating a connection with a host A while permitting A to initiate connections with B.
Macintosh SE¾
Macintosh SE¾
establish
response
establish
A B
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Module 11
Allow host 172.16.3.13 with Internet connection, but don’t allow the internet to initialize any sessions.
172.16.3.0
172.16.4.0
e0 e1
172.16.3.13
INTERNET
As a practical example:
Established option
CCNA2 Routing
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Module 11
Router(config)# int e1
Router(config-if)# ip access-group 101 in
Router(config)# access-list 101 permit tcp any 172.16.3.0 0.0.255.255 established
Established option
172.16.3.0
172.16.4.0
e0 e1
172.16.3.13
INTERNET
CCNA2 Routing
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Module 11
Router(config)# int e1
Router(config-if)# ip access-group 101 in
Router(config)# access-list 101 permit tcp any host 172.16.3.13 eq www established
Established option
172.16.3.0
172.16.4.0
e0 e1
172.16.3.13
INTERNET
CCNA2 Routing
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Module 11
Router(config)# int e1
Router(config-if)# ip access-group 101 in
Router(config)# access-list 101 permit tcp any 172.16.3.0 0.0.0.255 eq www established
Router(config)# access-list 101 permit icmp any any
Router(config)# access-list 101 permit udp any any eq 53
Note: established argument is limited to tcp which means UDP, ICMP and all other IP protocols will not match, and will be denied, unless specifically allowed. Hence
Established option
172.16.3.0
172.16.4.0
e0 e1
172.16.3.13
INTERNET
CCNA2 Routing
Perrine modified by Brierley Page 6604/19/23
Module 11Where to Place ACLs?
ACL Rules:
Standard ACL
Place the ACL as near the destination as possible.
Extended ACL
Put the ACL as close as possible to the source