SG_R_A_RFC2408_5_9_2_2_C - [Responder Test] Invalid Certificate Payload (Certificate Data is incorrect) check
SGW
SG_R_A_RFC2408_5_9_2_2_C.seq [-tooloption ...] -pkt SG_R_A_RFC2408_5_9_2_2_C.def -tooloption : v6eval tool option
See also ike_common.def and ike_ipsec.def and ike_addr.def and ike_pkt_ph1_recv.def and ike_pkt_ph2_recv.def
HOST-2(TN)
|3ffe:501:ffff:104::11
|
Net-v --+------------------------+-------- 3ffe:501:ffff:104::/64
|
|
SGW-2(TN):initiator
|3ffe:501:ffff:103::11
|
Net-w --+--------+------------------------ 3ffe:501:ffff:103::/64
|
|
ROUTER-2(TN)
| 3ffe:501:ffff:102::11
|
Net-x --+--------+------------------------ 3ffe:501:ffff:102::/64
|
|3ffe:501:ffff:102::1
SGW-1(NUT):responder
|3ffe:501:ffff:101::1
|
Net-y --+--------+------------------------ 3ffe:501:ffff:101::/64
|
| 3ffe:501:ffff:101::11
ROUTER-1(TN)
|
|
Net-z -----------+---------------+-------- 3ffe:501:ffff:100::/64
|
|3ffe:501:ffff:100::13
HOST-1(TN)
Verification Points
Process the Certificate Data field. If the Certificate Data is
invalid or improperly formatted, the payload is discarded and the
following actions are taken:
(a) The event, INVALID CERTIFICATE, MAY be logged in the
appropriate system audit file.
(b) An Informational Exchange with a Notification payload
containing the INVALID-CERTIFICATE message type MAY be sent
to the transmitting entity. This action is dictated by a
system security policy.
Configuration
Initiator and Responder generate the public key and the secret key
Certificate Payload Format(HOST-2:Initiator)
Certificate Data field : 0 (invalid value)
Initiator and Responder IKE parameter
At least, following parameter must be included in proposal.
| Machine |
Src |
Dest |
Phase I |
Phase II |
| Ex mode |
Key Value |
Enc Alg |
Hash Alg |
Auth Method |
DH Group |
PH1 Lt |
IDx |
Proto ID |
Trans ID |
Mode |
Auth Alg |
PH2 Lt |
IDci |
IDcr |
Upper |
| SGW-1 |
SGW-1 addr |
SGW-2 addr |
Aggressive |
|
3DES |
SHA |
RSA signatures |
2 |
8 Hour |
SGW-1 addr |
PROTO_IPSEC_ESP |
ESP_3DES |
Tunnel |
HMAC-SHA |
8 Hour |
Net-v addr |
Net-z addr |
any |
| SGW-2 |
SGW-2 addr |
SGW-1 addr |
Aggressive |
|
3DES |
SHA |
RSA signatures |
2 |
8 Hour |
SGW-2 addr |
PROTO_IPSEC_ESP |
ESP_3DES |
Tunnel |
HMAC-SHA |
8 Hour |
Net-v addr |
Net-z addr |
any |
*Ex Mode = Exchange mode
*IDx = identity payload(FQDN or user FQDN can also be chosen as IDx)
*IDci = identity payload
*IDcr = identity payload
*Enc Alg = IKE Encryption Algorithm
*Hash Alg = IKE Authentication Algorithm
*Key Value = pre-shared key value
*PH1 Lt = Phase-1 Lifetime
*PH2 Lt = Phase-2 Lifetime
*Proto ID = Protocol Identifier
*Trans ID = Transform Identifier
*Mode = Encapsulation Mode
*Auth Alg = Authentication Algorithm
*Auth Method = Authentication Method
*DH Group = Diffie-Hellman Group
*Upper = Upper Layer Protocol
*SGW-1 addr = SGW-1 address
*SGW-2 addr = SGW-2 address
*Net-z = Net-z network address
*Net-v = Net-v network address
This test check is following.
AGGRESSIVE EXCHANGE
# Initiator(TN) Direction Responder(NUT)
(1) HDR; SA, KE, Ni, IDii ========>
CERT Req
(2) <======== HDR; SA, KE, Nr, IDir, SIG_R
CERT, CERT Req
(3) HDR[*]; SIG_I, CERT ========> <----Certificate Encoding field : 0 (invalid)
(4) <======== HDR*; HASH(1); N/D
(HDR; N/D)
Judgement (Check *1)
1. Send the first message from TN
In the first message (1), the initiator generates a proposal it
considers adequate to protect traffic for the given situation. The
Security Association, Proposal, and Transform payloads are included
in the Security Association payload (for notation purposes).
Keying material used to arrive at a common shared secret and random
information which is used to guarantee liveness and protect against
replay attacks are also transmitted. Additionally, the initiator
transmits identification information.
And the initiator send Certificate Request Payload.
2. Receive the second message from NUT
In the second message (2), the responder indicates the protection
suite it has accepted with the Security Association, Proposal, and
Transform payloads.
Keying material used to arrive at a common shared secret and random
information which is used to guarantee liveness and protect against
replay attacks is also transmitted.Additionally, the responder
transmits identification information and the signed data, SIG_R is
the result of the negotiated digital signature algorithm applied
to HASH_R.Additionally the responder send Certificate and Certificate
Request Payload
3. Send the third message from TN
In the third (3) message, the initiator send the signed data, SIG_I
is the result of the negotiated digital signature algorithm applied
to HASH_I.Additionally the initiator send Certificate Request Payload.
4. Receive the fourth message from NUT
In the second message (4), the responder indicates either an ISAKMP
Notify Payload or an ISAKMP delete Payload.
* PHASE II
QUICK MODE
# Initiator(TN) Direction Responder(NUT)
(1) HDR*, HASH(1),
SA, Ni ========>
(2) X <======== HDR*, HASH(2), SA, Nr <-----Must not transmit
Judgement (Check *2)
1. Send the first message from TN
In the first message (1), the initiator generates a proposal it
considers adequate to protect traffic for the given situation. The
Security Association, Proposal, and Transform payloads are included
in the Security Association payload (for notation purposes).
And initiator send HASH(1) and Nonce. HASH(1) is the prf over the
message id (M-ID) from the ISAKMP header concatenated with the entire
message that follows the hash including all payload headers,
but excluding any padding added for encryption. Nonce is random
information which is used to guarantee liveness.
2. Receive the second message from NUT
In the second message (2), the responder indicates the protection
suite it has accepted with the Security Association, Proposal, and
Transform payloads. And responder send HASH(2) and Nonce.
HASH(2) is identical to HASH(1) except the initiator's nonce-- Ni,
minus the payload header-- is added after M-ID but before the
complete message. Nonce is random
information which is used to guarantee liveness.
In AGGRESSIVE EXCHANGE, the first to the second message must be exchanged correctly.
The third message must not be accepted.
And must not establish ISAKMP SA(In QUICK MODE, the second message must not transmit(Check *2)
(* or INVALID-CERTIFICATE message(4) may be returned(Check *1)).)
*option : if you want to check the retruned Notify message.
Clean up SAD and SPD
RFC2408
5.9 Certificate Payload Processing
(omit)
When a Certificate payload is received, the receiving entity
(initiator or responder) MUST do the following:
1. Determine if the Certificate Encoding is supported. If the
Certificate Encoding is not supported, the payload is discarded
and the following actions are taken:
(a) The event, INVALID CERTIFICATE TYPE, MAY be logged in the
appropriate system audit file.
(b) An Informational Exchange with a Notification payload
containing the INVALID-CERT-ENCODING message type MAY be
sent to the transmitting entity. This action is dictated by
a system security policy.
2. Process the Certificate Data field. If the Certificate Data is
invalid or improperly formatted, the payload is discarded and the
following actions are taken:
(a) The event, INVALID CERTIFICATE, MAY be logged in the
appropriate system audit file.
(b) An Informational Exchange with a Notification payload
containing the INVALID-CERTIFICATE message type MAY be sent
to the transmitting entity. This action is dictated by a
system security policy.
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