qr code c# tutorial The ip name-server command can be used to assign both IPv4 and IPv6 DNS servers in Objective-C

Generation QR-Code in Objective-C The ip name-server command can be used to assign both IPv4 and IPv6 DNS servers

The ip name-server command can be used to assign both IPv4 and IPv6 DNS servers
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First, enable IPv6 with the ipv6 unicast-routing command Then create IPv6 addresses on the
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interfaces with the ipv6 address ipv6_address_pre x/pre x_length eui-64 command
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RIPng
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Enabling RIPng is a little bit different than enabling RIP for IPv4 First, you use the ipv6 router rip tag command to enable RIPng globally:
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Router(config)# ipv6 router rip tag
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24: IPv6
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This takes you into a subcommand mode, where you can change some of the global values for RIPng, such as disabling split horizon, the administrative distance, and timers The tag is a locally significant identifier used to differentiate between multiple RIP processes running on the router Unlike RIP for IPv6, there is no network command to include interfaces in RIPng Instead, you must enable RIPng on a per-interface basis with the ipv6 rip tag enable command:
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Router(config)# interface type [slot_#/]port_# Router(config-if)# ipv6 rip tag enable
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The tag parameter associates the interface with the correct RIPng routing process
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Use the ipv6 router rip tag command to enable RIPng
globally and the ipv6 rip tag enable command to enable it on an interface
To view the routing protocol configuration, use the show ipv6 rip command:
Router# show ipv6 rip RIP process "RIPPROC1", port 521, multicast-group FF02::9, pid 187 Administrative distance is 120 Maximum paths is 16 Updates every 30 seconds, expire after 180 Holddown lasts 0 seconds, garbage collect after 120 Split horizon is on; poison reverse is off Default routes are not generated Periodic updates 2, trigger updates 0 Interfaces: FastEthernet0/0 Redistribution: None
In this example, the tag is RIPPROC1 for the name of the RIPng routing process and RIPng is enabled on FastEthernet0/0 To view the IPv6 routing table for RIPng, use the show ipv6 route rip command
CertCam ON THE CD
2402The CD contains a multimedia demonstration of enabling and verifying RIPng on a router
Certi cation Summary
INSIDE THE EXAM
Necessity of IPv6
IPv6 is a new addition to the CCNA exam; at this point, expect only basic questions on addressing and types of routing, but in future updates of the exam, expect to see questions related to configuration of IPv6 on routers Remember that IPv6 addresses are 128 bits in length
Address Assignment
Be able to compare and contrast DHCPv6 and stateless autoconfiguration
Routing and IPv6
You should be able to compare and contrast RIP with IPv4 and IPv6 Be familiar with the transition options available when moving from IPv4 to IPv6, including dual stack and 6to4 tunneling
IPv6 Addressing
Be familiar with the format of an IPv6 address, including how sets of 0s can be summarized using double colons (::) one time in an IPv6 address Be able to compare and contrast the three kinds of addresses: anycast, multicast, and unicast Multicast addresses begin with FF Be able to pick out invalid, global, and private (FE80::/10) addresses The loopback address is ::1 Remember that IPv6 addresses have two components: subnet ID and interface ID The interface ID is commonly made up from part of the MAC address (EUI-64)
IPv6 Configuration
Remember that you must first execute the ipv6 unicast-routing command to enable IPv6 Know the command to create an EUI-64 address for a router s interface: ipv6 address Remember how to enable RIP: ipv6 router rip tag (global) and ipv6 rip tag enable (interface)
CERTIFICATION SUMMARY
This chapter focused on an introduction to IPv6 Because of the limited number of addresses left in IPv4, IPv6 was designed to bring the Internet into its next generation IPv6 addresses use eight sets of 4 hexadecimal addresses (16 bits in each set), separated by a colon (:), like this: xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx If you have successive fields of zeroes in an IPv6 address, you can represent them as :: However, you can only use this once in the address
24: IPv6
IPv6 addresses have three basic types: anycast, multicast and unicast An anycast address is very different from an IPv4 broadcast: it represents one-to-the-nearest interface, where many interfaces can share the same address A multicast address is similar to a multicast in IPv4: one-to-many A unicast address represents a single interface Global unicast addresses are 2000::/3 A loopback is ::1 Site-local private addresses range from FEC:: through FFF:: and link-local addresses range from FE8:: through FEB:: The most common way of assigning static addresses to an interface is to use the EUI-64 method DHCPv6 and stateless autoconfiguration allow a device to acquire an address dynamically Stateless autoconfiguration accomplishes this by requesting a router to give the subnet ID and the device using EUI-64 to acquire an interface ID dynamically Routing protocols supported in IPv6 include static, RIPng, OSPFv3, IS-IS for IPv6, MP-BGP4, and EIGRP for IPv6 RIPng uses UDP port 521 for its connections Its destination multicast address is FF02::9 The most common transition methods to move from IPv4 to IPv6 include dual stacking and 6to4 tunneling In dual stacking, a device runs both protocol stacks In 6to4 tunneling, IP6 packets are encapsulated in an IPv4 packet to move across an IPv4 backbone to another IPv6 network You must first execute the ipv6 unicast-routing command to enable IPv6 An address must be assigned to each interface, typically using the EUI-64 method, for it to process IPv6 packets RIPng must be configured globally and then enabled on a per-interface basis A tag is used to specify the RIPng routing process to which an interface belongs
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