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IPv6 Questions 2

July 20th, 2017 in ROUTE 300-101 Go to comments

Question 1

Question 2

Question 3

Explanation

Address Family Translation (AFT) using NAT64 technology can be achieved by either stateless or stateful means:
+ Stateless NAT64 is a translation mechanism for algorithmically mapping IPv6 addresses to IPv4 addresses, and IPv4 addresses to IPv6 addresses. Like NAT44, it does not maintain any bindings or session state while performing translation, and it supports both IPv6-initiated and IPv4-initiated communications.
+ Stateful NAT64 is a stateful translation mechanism for translating IPv6 addresses to IPv4 addresses, and IPv4 addresses to IPv6 addresses. Like NAT44, it is called stateful because it creates or modifies bindings or session state while performing translation. It supports both IPv6-initiated and IPv4-initiated communications using static or manual mappings.

Reference: http://www.cisco.com/c/en/us/products/collateral/ios-nx-os-software/enterprise-ipv6-solution/white_paper_c11-676278.html

Question 4

Question 5

Explanation

When a change is made to one of the IP header fields in the IPv6 pseudo-header checksum (such as one of the IP addresses), the checksum field in the transport layer header may become invalid. Fortunately, an incremental change in the area covered by the Internet standard checksum [RFC1071] will result in a well-defined change to the checksum value [RFC1624]. So, a checksum change caused by modifying part of the area covered by the checksum can be corrected by making a complementary change to a different 16-bit field covered by the same checksum.

Reference: https://tools.ietf.org/html/rfc6296

Question 6

Question 7

Explanation

Link-local addresses are always configured with the FE80::/64 prefix. Most routing protocols use the link-local address for a next-hop.

Question 8

Explanation

A link-local address is an IPv6 unicast address that can be automatically configured on any interface using the link-local prefix FE80::/10 (1111 1110 10) and the interface identifier in the modified EUI-64 format. Link-local addresses are not necessarily bound to the MAC address (configured in a EUI-64 format). Link-local addresses can also be manually configured in the FE80::/10 format using the ipv6 address link-local command.

Reference: http://www.cisco.com/c/en/us/support/docs/ip/ip-version-6-ipv6/113328-ipv6-lla.html

Question 9

Explanation

Stateless Address Auto Configuration (SLAAC) is a method in which the host or router interface is assigned a 64-bit prefix, and then the last 64 bits of its address are derived by the host or router with help of EUI-64 process.

Question 10

Question 11

Explanation

The components of IPv6 header is shown below:

IPv6_header.jpg

The Traffic Class field (8 bits) is where quality of service (QoS) marking for Layer 3 can be identified. In a nutshell, the higher the value of this field, the more important the packet. Your Cisco routers (and some switches) can be configured to read this value and send a high-priority packet sooner than other lower ones during times of congestion. This is very important for some applications, especially VoIP.

The Flow Label field (20 bits) is originally created for giving real-time applications special service. The flow label when set to a non-zero value now serves as a hint to routers and switches with multiple outbound paths that these packets should stay on the same path so that they will not be reordered. It has further been suggested that the flow label be used to help detect spoofed packets.

The Hop Limit field (8 bits) is similar to the Time to Live field in the IPv4 packet header. The value of the Hop Limit field specifies the maximum number of routers that an IPv6 packet can pass through before the packet is considered invalid. Each router decrements the value by one. Because no checksum is in the IPv6 header, the router can decrease the value without needing to recalculate the checksum, which saves processing resources.

Comments
  1. kaunglay
    July 12th, 2016

    Please give me a answer in the following IPv6 Question .

    Which two statements are true about 6to4 tunnels? (Choose two.)

    A. In a 6to4 tunnel, the first two bytes of the IPv6 address will be 0?002 and the next four bytes will be the hexadecimal equivalent of the IPv4 address.
    B. In a 6to4 tunnel, the first two bytes of the IPv6 address will be locally derived and the next two bytes will be the hexadecimal equivalent of the IPv4 address.
    C. In a 6to4 tunnel, the IPv4 address 192.168.99.1 would be converted to the 2002:c0a8:6301::/48 IPv6 address.
    D. In a 6to4 tunnel, the IPv4 address 192.168.99.1 would be converted to the 2002:c0a8:6301::/16 IPv6 address.
    E. In a 6to4 tunnel, the IPv4 address 192.168.99.1 would be converted to the 2002:1315:4463:1::/64 IPv6 address.

  2. Anonymous
    August 11th, 2016

    the answer is 2002:c0a8:6301::/48 because convert 192 i.e. it becomes 11000000 now divide it into 2 groups …. 1100 0000 now put the power starting from right separately for the two groups. i.e. 1100 —- 1(power8) 1(power 4) 0(power2) 0(power1) now when you get the result its 8 4 0 0 add them up its 12. What is 12 in hex ? 12 = c you have your c there now do this for all else of the ipv4.

  3. Mina
    August 15th, 2016

    I’d verntue that this article has saved me more time than any other.

  4. cahh
    September 9th, 2016

    For Q11 I think it refers to the fact that what are the headers that can be matched for IPv6 that can not also be matched for IPv4.

    So knowing that Traffic Class, Source Address, Flow Label, Hop Limit and Dest. Address are valid IPv6 Headers, then the only ones that are different from IPV4 headers and exclusive for IPv6 are Traffic Class, Flow Label and Hop Limit.

    Source Address and Dest. Address are also IPv4 headers.

    Hope this helps.

  5. cahh
    September 9th, 2016

    forgot to add a reference from Cisco to see the headers from both IPV4 and IPV6 for comparison:

    http://www.cisco.com/en/US/technologies/tk648/tk872/technologies_white_paper0900aecd8054d37d.html

  6. ASM
    September 13th, 2016

    If You need more hands on Lab on IPv6 OSPF (V3) ; please check out this link with Video and PDF of the commands. http://asmed.com/cisco-ccna-ospf-ipv6-configuration/ . Good Luck on your exam.

  7. Fumiko80
    June 18th, 2017

    Hello, Question 11. What’s the correct answer?
    BCE or ACD.

    @DigitalTut, I need to resolv this.

  8. hafiz jalal
    July 25th, 2017

    question no 11 is correct answer is A,C,D

  9. Dassh
    August 5th, 2017

    HI

  10. cl
    September 28th, 2017

    Q11 correct is BCE. To filter packets in a ACL you won’t use hop limit or traffic class but flow label and IPv6 source and destination addresses.

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