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CCIE Sec Encryption Ipsec

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Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. 'key exchange is vulnerable to a man-in-the-middle attack. You can rectify this problem by allowing the two parties to authenticate themselves to each other with a shared secret key - digital signatures - or public-key certificates.'
DES
IPSEC BENEFIT
IKE
Difffie-Hellman

2. 'Digital signatures. Peer X encrypts a hash value with his private key and then sends the data to Peer Y. Peer Y obtains Peer X
RSA
'MD5 - SHA-1 - or RSA'
HMAC-MD5/HMAC-SHA
Difffie-Hellman

3. Message of arbitrary length is taken as input and produces as output a 128-bit fingerprint or message digest of the input.
MD5
DSA
Tunneling
'IPSEC (phase1 -step3)'

4. 'provides everything required to securely connect over a public media - such as the Internet.'
3DES
IPSEC
IPSEC (aggressive mode)
3DES

5. The DES algorithm that performs 3 times sequentially.
'MD5 - SHA-1 - or RSA'
AES
3DES
ISAKMP

6. Uses IKE for key exchange.
AH/ESP
Antireplay
IPSEC BENEFIT
ISAKMP

7. 'The messages are authenticated - and the mechanisms that provide such integrity checks based on a secret key are usually called'
message authentication codes (MAC).
Difffie-Hellman
3DES
IKE

8. 'It is not used for encryption or digital signatures; it is used to obtain a shared secret
IPSEC (aggressive mode)
IPSEC (aggressive mode)
Difffie-Hellman
RSA

9. RFC 2631 on the workings of the key generation/exchange process.
'IPSEC (phase1 -step1)'
Difffie-Hellman
'DES - 3DES - or AES.'
IKE

10. IPsec implements using a shim header between L2 and L3
IPSEC (aggressive mode)
IPSEC (main mode)
AH/ESP
'DES - 3DES - or AES.'

11. 'often called public-key algorithms - do not rely on a randomly generated shared encryption key; instead - they create two static keys. These static keys are completely different - but mathematically bound to each other; what one key encrypts - the o
Asymetric Encryption Protocols
hash-based message authentication codes (HMAC).
AES
DSA

12. 'has a Next Protocol field which identifies the next Layer 4 transport protocol in use - TCP or UDP'
IPSEC (aggressive mode)
IPSEC
AH/ESP
IKE

13. IPSEC Encryption is performed by

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14. 'Finally - the receiving devices decrypt the data with the first key.'
DES
'IPSEC (phase1 -step1)'
3DES
IPSEC (main mode)

15. Act of encapsulating a packet within another packet.
Tunneling
SHA
SHA
3DES

16. DoS attacks are more probable with this mode.
ISAKMP
MD5
IPSEC (aggressive mode)
hash algorithms

17. Does not provide payload encryption.
AH
Difffie-Hellman
3DES
'MD5 - SHA-1 - or RSA'

18. Can be implemented efficiently on a wide range of processors and in hardware.
3DES
AES
SHA
DES

19. Hybrid protocol that defines the mechanism to derive authenticated keying material and negotiation of security associations (SA).
IKE
AH
AH/ESP
Origin Auth (DH auth)

20. 'requires that the sender and receiver have key pairs. By combining the sender
IPSEC (aggressive mode)
Difffie-Hellman
RSA
'IPSEC (phase1 -step1)'

21. IPSEC tunnels data through IP using one of two protocols?
'DES - 3DES - or AES.'
SHA
AH/ESP
3DES

22. Has a trailer which identifies IPsec information and ESP integrity-check information.
ESP
IPSEC (aggressive mode)
IPSEC (aggressive mode)
IPSEC (phase2)

23. Verify whether the data has been altered.
3DES
RSA
SHA
Hashing

24. Takes variable-length clear-text data to produce fixed-length hashed data that is unreadable.
SHA
MD5
Hashing
AH/ESP

25. Negotiation of the ISAKMP policy by offering and acceptance of protection suites

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26. A
DSA
IKE
'IPSEC (phase1 -step2)'
Hashing

27. Where the original Layer 3 header and payload inside an IPsec packet is encapsulated. Tunnel mode does add overhead to each packet and uses some additional CPU resources.
ESP
Tunnel Mode (ipsec)
AH
IKE

28. That authenticate data packets and ensure that data is not tampered with or modified.
IPSEC (aggressive mode)
IKE
hash-based message authentication codes (HMAC).
hash algorithms

29. 'group 2 identifies a 1024-bit key - group 2 is more secure - but slower to execute.'
AH/ESP
ESP
3DES
Difffie-Hellman

30. 'establishes ISAKMP SA in three messages -because it negotiates a ISAKMP policy and a DJ nonce exchange together.'
SHA
IPSEC (aggressive mode)
'IPSEC (phase1 -step2)'
DES

31. Common key size is 1024 bits.
Difffie-Hellman
3DES
RSA
hash-based message authentication codes (HMAC).

32. 'DSA is roughly the same speed as RSA when creating signatures - but 10 to 40 times slower when verifying signatures. Because verification happens more frequently than creation - this issue is worth noting when deploying DSA in any environment.'
hash-based message authentication codes (HMAC).
DSA
3DES
MD5

33. 'The sending device decrypts the data with the second key - which is also 56 bits in length.'
IPSEC
MD5
3DES
SHA

34. The receiving device decrypts the data with the third key.
IPSEC (main mode)
3DES
IPSEC
Tunnel Mode (ipsec)

35. Main mode establishes ISAKMP security association in six messages and performs authenticated D-H exchange.
'IPSEC (phase1 -step3)'
AH/ESP
Hashing
IPSEC (main mode)

36. Uses protocol number 50.
Hashing
RSA
ESP
Difffie-Hellman

37. Uses the D-H algorithm to come to agreement over a public network.
AH
AES
RSA
IKE

38. 'including Internet Security Association and Key Management Protocol (ISAKMP) - Secure Key Exchange Mechanism for the Internet (SKEME) - and Oakley.'
AES
AH
RSA
IKE

39. 'group 1 identifies a 768-bit key - group 1 is faster to execute - but it is less secure -'
DSA
Difffie-Hellman
IPSEC BENEFIT
IKE

40. The receiving device then encrypts the data with the second key.
AH
ISAKMP
'DES - 3DES - or AES.'
3DES

41. Data integrity is the process of making sure data is not tampered with while it
3DES
DES
IPSEC BENEFIT
Difffie-Hellman

42. Is a two-phase protocol: The first phase establishes a secure authenticated channel and the second phase is where SAs are negotiated on behalf of the IPsec services.
RSA
IKE
GRE
ISAKMP

43. 'Created by NIST in 1994 - is the algorithm used for digital signatures but not for encryption.'
DSA
Tunneling
Difffie-Hellman
RSA

44. Turns clear-text data into cipher text with an encryption algorithm. The receiving station decrypts the data from cipher text into clear text. The encryption key is a shared secret key that encrypts and decrypts messages.
IPSEC (aggressive mode)
IKE
Difffie-Hellman
DES

45. 'Encryption - where Peer X uses Peer Y
MD5
HMAC-MD5/HMAC-SHA
RSA
'MD5 - SHA-1 - or RSA'

46. 'group 5 identifies a 1536-bit key - provides for highest security but is the slowest of all groups.'
3DES
AES
IPSEC BENEFIT
Difffie-Hellman

47. 'Three keys encrypt the data - which results in a 168-bit encryption key. The sending device encrypts the data with the first 56-bit key.'
3DES
RSA
Tunnel Mode (ipsec)
DES

48. A variable block- length and key-length cipher.
RSA
3DES
AES
DES

49. The sending device encrypts for a final time with another 56-bit key.
3DES
DSA
SHA
DES

50. You check it by hashing data and appending the hash value to the data as you send it across the network to a peer.
Hashing
ESP
AH
ISAKMP

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CCIE Sec Encryption Ipsec

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