I'm enabling IKEv2 digital signatures with rsa-pss on a FortiGate VPN Gateway:
config vpn ipsec phase1-interface
edit "xyz"
...
set digital-signature-auth enable
set signature-hash-alg sha1 sha2-256 sha2-384
set rsa-signature-format pss
next
end
When the peer sends an client certificate and an IKEv2 AUTH payload with an RSA-PSS SHA1 signature then everything works well:
ike 0:dbmas:187: certificate validation succeeded
ike 0:dbmas:187: signature verification succeeded using rsassa-pss-with-empty-params, oid=1.2.840.113549.1.1.10
ike 0:dbmas:187: auth verify done
ike 0:dbmas:187: responder AUTH continuation
ike 0:dbmas:187: authentication succeeded
When the IKEv2 AUTH payload contains an RSA-PSS SHA2-256 signature with a default salt size of 32 bytes then the following error occurs:
ike 0:dbmas:190: certificate validation succeeded
ike 0:dbmas:190: signature verification failed
A client certificate with an RSA-PSS SHA2-256 signature seems to be accepted, though, but the IKEv2 AUTH signature verification still fails:
ike 0:dbmas:193: certificate validation succeeded
ike 0:dbmas:193: signature verification failed
The FortiGate VPN gateway runs FortiOS v7.0.1 and the VPN client runs strongSwan 5.9.7.
Solved! Go to Solution.
As a workaround until Fortinet adds the alternative RSA-PSS algorithmIdentifiers for SHA256, SHA384, and SHA512, the strongswan.conf option
charon.rsa_pss_trailerfield = yes
will generate an algorithmIdentifier containing an explicit trailerfield entry. This feature will be available with strongSwan 5.9.8.
Ok, I found the reason for the RSA-PSS-SHA2_256 signature verification error. The FortiOS implements the default ASN.1 AlgorithmIdentifier defined in Appendix A.4.3 of RFC 7427:
0000 : SEQUENCE 0002 : OBJECT IDENTIFIER RSASSA-PSS (1.2.840.113549.1.1.10) 000d : SEQUENCE 000f : CONTEXT 0 0011 : SEQUENCE 0013 : OBJECT IDENTIFIER id-sha256 (2.16.840.1.101.3.4.2.1) 001e : NULL 0020 : CONTEXT 1 0022 : SEQUENCE 0024 : OBJECT IDENTIFIER 1.2.840.113549.1.1.8 002f : SEQUENCE 0031 : OBJECT IDENTIFIER id-sha256 (2.16.840.1.101.3.4.2.1) 003c : NULL 003e : CONTEXT 2 0040 : INTEGER 0x20 (6 bits) 0043 : CONTEXT 3 0045 : INTEGER 0x1 (1 bits) Name = RSASSA-PSS with sha-256, oid = 1.2.840.113549.1.1.10 Length = 72 0000: 3046 0609 2a86 4886 f70d 0101 0a30 39a0 0010: 0f30 0d06 0960 8648 0165 0304 0201 0500 0020: a11c 301a 0609 2a86 4886 f70d 0101 0830 0030: 0d06 0960 8648 0165 0304 0201 0500 a203 0040: 0201 20a3 0302 0101
Section 3.1 of RFC 4055 gives the complete ASN.1 definition as
RSASSA-PSS-params ::= SEQUENCE { hashAlgorithm [0] HashAlgorithm DEFAULT sha1Identifier, maskGenAlgorithm [1] MaskGenAlgorithm DEFAULT mgf1SHA1Identifier, saltLength [2] INTEGER DEFAULT 20, trailerField [3] INTEGER DEFAULT 1 }
All the CONTEXT fields have DEFAULT values. Our strongSwan implementation omits the trailerField, assuming a default value of 1. The notes in the Errata of RFC 7427 say explicitly:
Implementations that perform signature validation MUST recognize both a present trailerField field with value 1 and an absent trailerField field.
Thus it would be very helpful if FortiOS would recognize the second valid variant of
0000: 3041 0609 2A86 4886 F70D 0101 0A30 34A0
0010: 0F30 0D06 0960 8648 0165 0304 0201 0500
0020: A11C 301A 0609 2A86 4886 F70D 0101 0830
0030: 0D06 0960 8648 0165 0304 0201 0500 A203
0040: 0201 20
with a length of 67 bytes. The same applies accordingly to the RSA-PSS-SHA2_384 and RSA-PSS_SHA2_512 encodings.
As a workaround until Fortinet adds the alternative RSA-PSS algorithmIdentifiers for SHA256, SHA384, and SHA512, the strongswan.conf option
charon.rsa_pss_trailerfield = yes
will generate an algorithmIdentifier containing an explicit trailerfield entry. This feature will be available with strongSwan 5.9.8.
Select Forum Responses to become Knowledge Articles!
Select the “Nominate to Knowledge Base” button to recommend a forum post to become a knowledge article.
User | Count |
---|---|
1737 | |
1108 | |
752 | |
447 | |
240 |
The Fortinet Security Fabric brings together the concepts of convergence and consolidation to provide comprehensive cybersecurity protection for all users, devices, and applications and across all network edges.
Copyright 2024 Fortinet, Inc. All Rights Reserved.