Old one: https://www.juniper.net/documentation/en_US/junose15.1/topics/concept/nat-traversal-overview.html
IPsec VPN: https://www.juniper.net/documentation/en_US/day-one-books/DO_IPsec_VPNs_2018.pdf
Payload encapsulation | |
---|---|
Signaling | in ISAKMP ( IKE phase1 ) |
1st/2nd packet | |
in the 3rd and 4th packet | payload: NAT-Discovery |
AO- Example 2: Initiator ------> NAT1 ---------> NAT2 -------> Responder ^ ^ ^ ^ Iaddr Nat1Pub Nat2Pub (Raddr) Initiator <------ NAT1 <--------- NAT2 <------- Responder ^ ^ ^ ^ (Iaddr) Nat1Pub Nat2Pub Raddr Here, NAT2 "publishes" Nat2Pub for Responder and forwards all traffic to that address to Responder. Initiator: NAT-OAi = Iaddr NAT-OAr = Nat2Pub ( responder of the IPsec public IP address ) Responder: NAT-OAi = Nat1Pub ( initiator of the IPsec public IP address ) NAT-OAr = Raddr |
NAT-T for IKE peer: NAT-T is used when there is a network device between the two tunnel end-points that enforce NAT.
all the IPSEC tunnerl to traverse the NATing equipement
Challenge: Any changes to the IP addressing, which is the function of NAT, causes IKE to discard packets
Solution: ESP over UDP/4500
After detecting one or more NAT devices ( by the firwall) along the datapath during Phase 1 exchanges,
>> NAT-T adds a layer of User Datagram Protocol (UDP) encapsulation to IPsec packets so they are not discarded after address translation.
edit security ike gateway gateway-name
[edit security ike gateway IKE-GW1]
root@srx3200# set no-nat-traversal