Ospfv3 Authentication Using Ipsec - Dell S4048–ON Configuration Manual

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OSPFv3 Authentication Using IPsec

OSPFv3 uses IPsec to provide authentication for OSPFv3 packets. IPsec authentication ensures security in the transmission of
OSPFv3 packets between IPsec-enabled routers.
IPsec is a set of protocols developed by the internet engineering task force (IETF) to support secure exchange of packets at the IP
layer. IPsec supports two encryption modes: transport and tunnel.
• Transport mode — encrypts only the data portion (payload) of each packet, but leaves the header untouched.
• Tunnel mode — is more secure and encrypts both the header and payload. On the receiving side, an IPsec-compliant device
decrypts each packet.
NOTE: Dell Networking OS supports only Transport Encryption mode in OSPFv3 authentication with IPsec.
With IPsec-based authentication, Crypto images are used to include the IPsec secure socket application programming interface (API)
required for use with OSPFv3.
To ensure integrity, data origin authentication, detection and rejection of replays, and confidentiality of the packet, RFC 4302 and
RFC 4303 propose using two security protocols — authentication header (AH) and encapsulating security payload (ESP). For
OSPFv3, these two IPsec protocols provide interoperable, high-quality cryptographically-based security.
• HA — IPsec authentication header is used in packet authentication to verify that data is not altered during transmission and
ensures that users are communicating with the intended individual or organization. Insert the authentication header after the IP
header with a value of 51. AH provides integrity and validation of data origin by authenticating every OSPFv3 packet. For detailed
information about the IP AH protocol, refer to RFC 4302.
• ESP — encapsulating security payload encapsulates data, enabling the protection of data that follows in the datagram. ESP
provides authentication and confidentiality of every packet. The ESP extension header is designed to provide a combination of
security services for both IPv4 and IPv6. Insert the ESP header after the IP header and before the next layer protocol header in
Transport mode. It is possible to insert the ESP header between the next layer protocol header and encapsulated IP header in
Tunnel mode. However, Tunnel mode is not supported in Dell Networking OS. For detailed information about the IP ESP protocol,
refer to RFC 4303.
In OSPFv3 communication, IPsec provides security services between a pair of communicating hosts or security gateways using
either AH or ESP. In an authentication policy on an interface or in an OSPF area, AH and ESP are used alone; in an encryption policy,
AH and ESP may be used together. The difference between the two mechanisms is the extent of the coverage. ESP only protects IP
header fields if they are encapsulated by ESP.
You decide the set of IPsec protocols that are employed for authentication and encryption and the ways in which they are employed.
When you correctly implement and deploy IPsec, it does not adversely affect users or hosts. AH and ESP are designed to be
cryptographic algorithm-independent.
OSPFv3 Authentication Using IPsec: Configuration Notes
OSPFv3 authentication using IPsec is implemented according to the specifications in RFC 4552.
• To use IPsec, configure an authentication (using AH) or encryption (using ESP) security policy on an interface or in an OSPFv3
area. Each security policy consists of a security policy index (SPI) and the key used to validate OSPFv3 packets. After IPsec is
configured for OSPFv3, IPsec operation is invisible to the user.
– You can only enable one security protocol (AH or ESP) at a time on an interface or for an area. Enable IPsec AH with the
ipv6 ospf authentication command; enable IPsec ESP with the ipv6 ospf encryption command.
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Open Shortest Path First (OSPFv2 and OSPFv3)
: 10
: 6.16.192.66
: 100.1.1.1
: 0x80000001
: 0x1DF1
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: Switch to Redundant Processor