Dell Force10 Z9000 Configuration Manual page 519

show crypto ipsec policy
Configuring IPsec Encryption for an OSPFv3 Area
To configure, remove, or display IPsec encryption in an OSPFv3 area, use the following commands.
Prerequisite: Before you enable IPsec encryption in an OSPFv3 area, first enable OSPFv3 globally on the router (refer to
Configuration Task List for OSPFv3 (OSPF for
The SPI value must be unique to one IPsec security policy (authentication or encryption) on the router. Configure the same
encryption policy (the same SPI and keys) on each interface in an OPSFv3 link.
NOTE: When you configure encryption using the area encryption command, you enable both IPsec encryption and
authentication. However, when you enable authentication on an area using the area authentication command, you
do not enable encryption at the same time.
If you have enabled IPsec authentication in an OSPFv3 area using the area authentication command, you cannot use the
area encryption command in the area at the same time.
The configuration of IPsec encryption on an interface-level takes precedence over an area-level configuration. If you remove an
interface configuration, an area encryption policy that has been configured is applied to the interface.
• Enable IPsec encryption for OSPFv3 packets in an area.
CONF-IPV6-ROUTER-OSPF mode
area area-id encryption ipsec spi number esp encryption-algorithm [key-encryption-type]
key authentication-algorithm [key-authentication-type] key
– area area-id: specifies the area for which OSPFv3 traffic is to be encrypted. For area-id, enter a number or an IPv6
prefix.
– spi number: is the security policy index (SPI) value. The range is from 256 to 4294967295.
– esp encryption-algorithm: specifies the encryption algorithm used with ESP. The valid values are 3DES, DES, AES-
CBC, and NULL. For AES-CBC, only the AES-128 and AES-192 ciphers are supported.
– key: specifies the text string used in the encryption. All neighboring OSPFv3 routers must share the same key to decrypt
information. The required lengths of a non-encrypted or encrypted key are: 3DES - 48 or 96 hex digits; DES - 16 or 32 hex
digits; AES-CBC - 32 or 64 hex digits for AES-128 and 48 or 96 hex digits for AES-192.
– key-encryption-type: (optional) specifies if the key is encrypted. Valid values: 0 (key is not encrypted) or 7 (key is
encrypted).
– authentication-algorithm: specifies the authentication algorithm to use for encryption. The valid values are MD5 or
SHA1.
– key: specifies the text string used in authentication. All neighboring OSPFv3 routers must share key to exchange
information. For MD5 authentication, the key must be 32 hex digits (non-encrypted) or 64 hex digits (encrypted). For SHA-1
authentication, the key must be 40 hex digits (non-encrypted) or 80 hex digits (encrypted).
– key-authentication-type: (optional) specifies if the authentication key is encrypted. The valid values are 0 or 7.
• Remove an IPsec encryption policy from an OSPFv3 area.
no area area-id encryption ipsec spi number
• Display the configuration of IPsec encryption policies on the router.
show crypto ipsec policy
Displaying OSPFv3 IPsec Security Policies
To display the configuration of IPsec authentication and encryption policies, use the following commands.
• Display the AH and ESP parameters configured in IPsec security policies, including the SPI number, key, and algorithms used.
EXEC Privilege mode
show crypto ipsec policy [name name]
IPv6)).
Open Shortest Path First (OSPFv2 and OSPFv3)
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