IPv6 is the newest version of the IP protocol. IPv6 was developed to overcome many deficiencies of IPv4, most notably the problem of
IPv4 address exhaustion. Unlike IPv4, which has only about 4.3 billion i.e 2 32 available addresses, IPv6 allows for 2 128
1. IPv6 is 128 bit IP address.
2. It has a 8 field each of 16 bit i.e 16*8=128 bit. (Each feils has 4 hex value each of 4 bit size i.e 4*4=16)
3. IPv6 is represented in Hexa-decimal form.
4. Hexa Decimal value ranges from 0 to F i.e 0 1 2 3 4 5 6 7 8 9 a b c d e f
5. Each feild are seperated by Comma
6. Can use Double comma too but once in a address to hide unwanted field i.e unused field. example we have IPv6 ip 192:168:68:0:0:0:1:1 here underline field are empty and used so to hide or save space we can use double comma like this 192:168:68::1:1
Let's see the list of the most important features of IPv6:
Large address space: IPv6 uses 128-bit addresses in Hexa-decimal form, which means that for each person on the Earth there are 48,000,000,000,000,000,000,000,000,000 addresses!
No Need of Subnetting: IPV6 has large number of IP pool and enaough IP's are available.
Header improvements: The packed header used in IPv6 is simpler than the one used in IPv4. The IPv6 header is not protected by a checksum so routers do not need to calculate a checksum for every packet.
Enhanced security: IPSec is built into IPv6 as part of the protocol . This means that two devices can dynamically create a secure tunnel without user intervention.
Stateless address autoconfiguration: IPv6 devices can automatically configure themselves with an IPv6 address.
No need for NAT: since every device has a globally unique IPv6 address, there is no need for NAT.
In IPv6 we do not have ARP anymore. ARP is replaced with ICMP based NDP protocol. NDP or ND protocol uses special IPv6 ICMP messages to
find and resolve L2 neighbours IPv6 addresses.
It’s a simple way for hosts to learn IPv6 addresses of neighbours on L2 subnet around himself. That includes learning about other hosts
and routers on local network. That is the biggest difference between IPv4 and IPv6, there’s no ARP but ICMP takes the function.
NDP is defined in RFC 2461 and this article will introduce you to NDP functions, main features’ lists, and the related ICMPv6 message types.
- "As the most precise description of NDP is that it belongs to the Link layer of the Internet Protocol suite in TCP/IP model. We can say that Link layer of TCP/IP model is basically a direct combination of the data link layer and the physical layer in the OSI Open Systems Interconnection protocol stack. As in this blog I always try to use OSI model this article was inserted both to Data-link and Physical layer category."
The Neighbor Discovery Protocol is a protocol in the Internet protocol suite used with Internet Protocol Version 6.
It operates at the Network Layer of the Internet model, and is responsible for gathering various information required for
internet communication, including the configuration of local connections and the domain name servers and gateways used to
communicate with more distant systems.
The protocol defines five different ICMPv6 packet types to perform functions for IPv6 similar to the Address Resolution Protocol (ARP) and Internet Control Message Protocol (ICMP) Router Discovery and Router Redirect protocols for IPv4. However, it provides many improvements over its IPv4 counterparts. For example, it includes Neighbor Unreachability Detection (NUD), thus improving robustness of packet delivery in the presence of failing routers or links, or mobile nodes.
The IPv6 neighbor discovery process uses ICMP messages and solicited-node multicast addresses to determine the link-layer address of a
neighbor on the same network (local link), verify the reachability of a neighbor, and track neighboring devices.
The IPv6 static cache entry for neighbor discovery feature allows static entries to be made in the IPv6 neighbor cache. Static routing requires an administrator to manually enter IPv6 addresses, subnet masks, gateways, and corresponding Media Access Control (MAC) addresses for each interface of each device into a table. Static routing enables more control but requires more work to maintain the table. The table must be updated each time routes are added or changed.
IPv6 Neighbor Solicitation Message:
A value of 135 in the Type field of the ICMP packet header identifies a neighbor solicitation message. Neighbor solicitation messages are sent on the local link when a node wants to determine the link-layer address of another node on the same local link. When a node wants to determine the link-layer address of another node, the source address in a neighbor solicitation message is the IPv6 address of the node sending the neighbor solicitation message. The destination address in the neighbor solicitation message is the solicited-node multicast address that corresponds to the IPv6 address of the destination node. The neighbor solicitation message also includes the link-layer address of the source node.
After receiving the neighbor solicitation message, the destination node replies by sending a neighbor advertisement message, which has a value of 136 in the Type field of the ICMP packet header, on the local link. The source address in the neighbor advertisement message is the IPv6 address of the node (more specifically, the IPv6 address of the node interface) sending the neighbor advertisement message. The destination address in the neighbor advertisement message is the IPv6 address of the node that sent the neighbor solicitation message. The data portion of the neighbor advertisement message includes the link-layer address of the node sending the neighbor advertisement message.
After the source node receives the neighbor advertisement, the source node and destination node can communicate.
IPv6 Router Advertisement Message:
Router advertisement (RA) messages, which have a value of 134 in the Type field of the ICMP packet header, are periodically sent out each configured interface of an IPv6 router. For stateless autoconfiguration to work properly, the advertised prefix length in RA messages must always be 64 bits. The RA messages are sent to the all-nodes multicast address.
RAs are also sent in response to router solicitation messages. Router solicitation messages, which have a value of 133 in the Type field of the ICMP packet header, are sent by hosts at system startup so that the host can immediately autoconfigure without needing to wait for the next scheduled RA message. Given that router solicitation messages are usually sent by hosts at system startup, the source address in router solicitation messages is usually the unspecified IPv6 address (0:0:0:0:0:0:0:0). If the host has a configured unicast address, the unicast address of the interface sending the router solicitation message is used as the source address in the message. The destination address in router solicitation messages is the all-routers multicast address with a scope of the link. When an RA is sent in response to a router solicitation, the destination address in the RA message is the unicast address of the source of the router solicitation message.
IPv6 Neighbor Redirect Message:
A value of 137 in the type field of the ICMP packet header identifies an IPv6 neighbor redirect message. Devices send neighbor redirect messages to inform hosts of better first-hop nodes on the path to a destination.