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Creating an IPsec VPN using IOS command syntax. What is IPSec IPsec, Internet Protocol Security, is a set of protocols defined by the IETF, Internet Engineering.

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Presentation on theme: "Creating an IPsec VPN using IOS command syntax. What is IPSec IPsec, Internet Protocol Security, is a set of protocols defined by the IETF, Internet Engineering."— Presentation transcript:

1 Creating an IPsec VPN using IOS command syntax

2 What is IPSec IPsec, Internet Protocol Security, is a set of protocols defined by the IETF, Internet Engineering Task Force, to provide IP security at the network layer. An IPsec based VPN, is made up by two parts: Internet Key Exchange protocol (IKE) IPsec protocols (AH/ESP/both)

3 Internet Key Exchange protocol (IKE) This is the initial negotiation phase, where the two VPN endpoints agree on which methods will be used to provide security for the underlying IP traffic. IKE is used to manage connections, by defining a set of Security Associations, SAs, for each connection. SAs are unidirectional, so there will be at least two SAs per IPsec connection.

4 IPsec Protocols (ESP/AH). The other part is the actual IP data being transferred, using the encryption and authentication methods agreed upon in the IKE negotiation. This can be accomplished in a number of ways; by using IPsec protocols ESP, AH, or a combination of both. Encapsulation Security Payload - ESP Authentication Header - AH

5 Flow of events 1.IKE negotiates how IKE should be protected 2.IKE negotiates how IPsec should be protected 3.IPsec moves data in the VPN

6 IKE - Internet Key Exchange IKE has three main tasks: 1.Provide a means for the endpoints to authenticate each other 2.Establish new IPsec connections (create SA pairs) 3.Manage existing connections IKE keeps track of connections by assigning a bundle of Security Associations, SAs, to each connection.

7 IKE Negotiation IKE Phase-1 Negotiate how IKE should be protected IKE Phase-2 Negotiate how IPsec should be protected Derive some fresh keying material from the key exchange in phase-1, to provide session keys to be used in the encryption and authentication of the VPN data flow

8 IKE Phase-1 - IKE Security Negotiation The first phase, phase-1, is used to authenticate the two VPN gateways or VPN Clients to each other, by confirming that the remote gateway has a matching Pre-Shared Key. However since we do not want to publish too much of the negotiation in plain text, we first agree upon a way of protecting the rest of the IKE negotiation.

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12 1 -Create IKE Policies IKE will need to be enabled for IPsec to work. IKE is enabled by default on IOS images with cryptographic feature sets. (ISAKMP - Internet Security Association and Key Management Protocol) If it is disabled for some reason, you can enable it with the command crypto isakmp enable. R1(config)# crypto isakmp enable

13 Issue the crypto isakmp policy number command in global configuration mode. This initiates the ISAKMP policy configuration mode. Once in this mode, you can view the various IKE parameters available by typing ?. Enter into this configuration mode on R1 for policy 10, and view some of the possible settings. R1(config)# crypto isakmp policy 10 R1(config-isakmp)# ? ISAKMP commands: authentication – Set authentication method for protection suite default - Set a command to its defaults Encryption - Set encryption algorithm for protection suite exit - Exit from ISAKMP protection suite configuration mode group - Set the Diffie-Hellman group hash -Set hash algorithm for protection suite lifetime -Set lifetime for ISAKMP security association no - Negate a command or set its defaults

14 R1(config)# crypto isakmp policy 10 R1(config-isakmp)# authentication pre-share R1(config-isakmp)# encryption aes 256 R1(config-isakmp)# hash sha R1(config-isakmp)# group 5 R1(config-isakmp)# lifetime 3600 R3(config)# crypto isakmp policy 10 R3(config-isakmp)# authentication pre-share R3(config-isakmp)# encryption aes 256 R3(config-isakmp)# hash sha R3(config-isakmp)# group 5 R3(config-isakmp)# lifetime 3600

15 R1# show crypto isakmp policy Global IKE policy Protection suite of priority 10 encryption algorithm: AES - Advanced Encryption Standard (256 bit keys). hash algorithm: Secure Hash Standard authentication method: Pre-Shared Key Diffie-Hellman group: #5 (1536 bit) lifetime: 3600 seconds, no volume limit Default protection suite encryption algorithm: DES - Data Encryption Standard (56 bit keys). hash algorithm: Secure Hash Standard authentication method: Rivest-Shamir-Adleman Signature Diffie-Hellman group: #1 (768 bit) lifetime: 86400 seconds, no volume limit

16 2 -Configure Pre-Shared Keys We must configure a key on each router corresponding to the other VPN endpoint. These keys must match up for authentication to be successful and for the IKE peering to be completed. Each IP address that is used to configure the IKE peers are also referred to as the IP address of the remote VPN endpoint. R1(config)# crypto isakmp key cisco address 192.168.23.3 R3(config)# crypto isakmp key cisco address 192.168.12.1

17 3 - Configure the IPsec Transform Set and Lifetimes R1(config)# crypto ipsec transform-set 50 esp-aes 256 esp-sha-hmac ah-sha-hmac R3(config)# crypto ipsec transform-set 50 esp-aes 256 esp-sha-hmac ah-sha-hmac http://www.tekkom.dk/mediawiki/index.php/IPs ec_Cisco_IOS

18 4 - Define Interesting Traffic R1(config)# access-list 101 permit ip 172.16.1.0 0.0.0.255 172.16.3.0 0.0.0.255 R3(config)# access-list 101 permit ip 172.16.3.0 0.0.0.255 172.16.1.0 0.0.0.255

19 5- Create and Apply Crypto Maps A crypto map is a mapping that associates traffic matching an access list (like the one we created earlier) to a peer and various IKE and IPsec settings. R1(config)# crypto map MYMAP 10 ipsec-isakmp NOTE: This new crypto map will remain disabled until a peer and a valid access list have been configured R1(config-crypto-map)# match address 101

20 Use the set command R1(config-crypto-map)# set peer 192.168.23.3 R1(config-crypto-map)# set pfs group5 R1(config-crypto-map)# set transform-set 50 R1(config-crypto-map)# set security-association lifetime seconds 900 (Note do mirror image on R3)

21 6 - Apply the map to the interface R1(config)# interface fastethernet0/0 R1(config-if)# crypto map MYMAP *Jan 17 04:09:09.150: %CRYPTO-6- ISAKMP_ON_OFF: ISAKMP is ON

22 7- Verify IPsec Configuration – We already used the show crypto isakmp policy command to show the configured ISAKMP policies on the router. – Similarly, the show crypto ipsec transform-set command displays the configured IPsec policies in the form of the transport sets.

23 R1# show crypto ipsec transform-set Transform set 50: { ah-sha-hmac } will negotiate = { Tunnel, }, { esp-256-aes esp-sha-hmac } will negotiate = { Tunnel, },

24 R1# show crypto map Crypto Map "MYMAP" 10 ipsec-isakmp Peer = 192.168.23.3 Extended IP access list 101 access-list 101 permit ip 172.16.1.0 0.0.0.255 172.16.3.0 0.0.0.255 Current peer: 192.168.23.3 Security association lifetime: 4608000 kilobytes/900 seconds PFS (Y/N): Y DH group: group5 Transform sets={ 50, } Interfaces using crypto map MYMAP: FastEthernet0/0

25 8- Verify if encryption works R1# show crypto ipsec sa interface: FastEthernet0/0 Crypto map tag: MYMAP, local addr 192.168.12.1 protected vrf: (none) local ident (addr/mask/prot/port): (172.16.1.0/255.255.255.0/0/0) remote ident (addr/mask/prot/port): (172.16.3.0/255.255.255.0/0/0) current_peer 192.168.23.3 port 500 PERMIT, flags={origin_is_acl,} #pkts encaps: 4, #pkts encrypt: 4, #pkts digest: 4 #pkts decaps: 4, #pkts decrypt: 4, #pkts verify: 4 #pkts compressed: 0, #pkts decompressed: 0 #pkts not compressed: 0, #pkts compr. failed: 0 #pkts not decompressed: 0, #pkts decompress fail

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