This document provides a sample configuration of how to set up Remote
Access on IOS using the FlexVPN toolkit.
Remote Access VPN allows end-clients using various Operating Systems to
securely connect to their Corporate or Home networks through non-secure medium
such as the Internet. In the presented scenario, VPN tunnel is being terminated
on a Cisco IOS Router using IKEv2 protocol.
This document shows how to authenticate and authorize users using
Access Control Server (ACS) through EAP-MD5 method.
Cisco IOS Router has two interfaces - one towards ACS 5.3:
There are no specific requirements for this document.
The information in this document is based on these software and
Refer to the
Technical Tips Conventions for more information on document
In IKEv1 XAUTH is used in phase 1.5, you can do authentication of users
locally on an IOS router and remotely using RADIUS/TACACS+. IKEv2 does not
support XAUTH and phase 1.5 any more. It contains built-in EAP support, which
is done in phase IKE_AUTH. The biggest advantage of this is in IKEv2 design and
EAP is a well-known standard.
EAP supports two modes:
Tunneling—EAP-TLS,EAP/PSK, EAP-PEAP etc.
Non-tunneling—EAP-MSCHAPv2, EAP-GTC, EAP-MD5 etc.
In this example, EAP-MD5 in non-tunneling mode is used because it is
EAP outer authentication method supported currently in ACS 5.3.
EAP can be only used to authentication initiator (client) to responder
(IOS in this case).
First of all you need to create Certificate Authority (CA) and create
an identity certificate for the IOS Router. The client will verify the router's
identity based on that Certificate.
Configuration of CA on IOS looks like:
crypto pki server CA
eku server-auth client-auth
You need to remember about Extended Key Usage (Server-Auth needed for
EAP, for RSA-SIG you also need Client-Auth).
Enable CA using the no shutdown command in
crypto pki server CA.
Next, enable Simple Certificate Enrollment Protocol (SCEP) for
certificate and configure trustpoint.
ip http server
crypto pki trustpoint CA-self
enrollment url http://10.1.1.2:80
eku request server-auth client-auth
Then, authenticate and enroll the certificate:
(config)#crypto pki authenticate CA-self
Certificate has the following attributes:
Fingerprint MD5: 741C671C 3202B3AE 6E05161C 694CA53E
Fingerprint SHA1: 8C99513C 2198470F 7CB58FA2 32D8AA8D FC31D1ED
% Do you accept this certificate? [yes/no]: yes
Trustpoint CA certificate accepted.
R1(config)#crypto pki enroll CA-self
% Start certificate enrollment ..
% Create a challenge password. You will need to verbally provide this
password to the CA Administrator in order to revoke your certificate.
For security reasons your password will not be saved in the configuration.
Please make a note of it.
% The subject name in the certificate will include: cn=10.1.1.2,ou=TAC
% The subject name in the certificate will include: 10.1.1.2
% Include the router serial number in the subject name? [yes/no]: no
% The IP address in the certificate is 10.1.1.2
Request certificate from CA? [yes/no]: yes
% Certificate request sent to Certificate Authority
% The 'show crypto pki certificate verbose CA-self' command
will show the fingerprint.
*Dec 2 10:57:44.141: CRYPTO_PKI: Certificate Request Fingerprint MD5:
BF8EF4B6 87FA8162 9079F917 698A5F36
*Dec 2 10:57:44.141: CRYPTO_PKI: Certificate Request Fingerprint SHA1:
AC13FEA3 295F7AE6 7014EF60 784E33AF FD94C41D
*Dec 2 10:57:44.198: %PKI-6-CERTRET: Certificate received from
If you do not want to have prompt messages in AnyConnect remember that
cn needs to be equal to hostname/IP addresses configured in the AnyConnect
In this example, cn=10.1.1.2. Therefore, in AnyConnect 10.1.1.2 is
entered as IP address of the server in the AnyConnect xml profile.
You need to configure Radius and AAA authentication and authorization:
radius-server host 192.168.56.202 key cisco
aaa group server radius SERV
aaa authentication login eap-list group SERV
aaa authorization network eap-list group SERV
First, add the new Network Device in ACS (Network Resources >
Network Devices and AAA Clients > Create):
Add a user (Users and Identity Stores > Internal Identity Stores
> Users > Create):
Add a user for authorization. In this example, it is IKETEST. The
password needs to be "cisco" because it is the default sent by IOS.
Next, create an Authorization profile for the users (Policy elements
> Authorization and Permissions > Network Access > Authorization
Profiles > Create).
In this example, it is called POOL. In this example, Split-Tunnel AV
Pair (as a prefix) is entered and Framed-IP-Address as IP address that is going
to be assigned to the connected client. The list of all supported AV Pairs can
be found here:
Then, you need to turn on support of EAP-MD5 (for authentication) and
PAP/ASCII (for authorization) in Access Policy. The default is used in this
example (Access Policies > Default Network Access):
Create a condition for in Access Policy and assign the authorization
profile that was created. In this case a condition for NDG:Location in All
Locations is created, thus for all of Radius Authorizations request will
provide POOL Authorization Profile (Access Policies > Access Services >
Default Network Access):
You should be able to test on an IOS router if the user can
R1#test aaa group SERV user3 Cisco123 new-code
User successfully authenticated
username 0 "user3"
addr 0 192.168.100.200
route-set 0 "prefix 10.1.1.0/24"
You need to create IKEv2 proposal and policy (you might not have to,
refer to CSCtn59317 ). Policy is created only for one of the IP addresses
(10.1.1.2) in this example.
crypto ikev2 proposal PROP
crypto ikev2 policy 5
match address local 10.1.1.2
Then, create an IKEV2 profile and IPsec profile that will bind to
Make sure you are turning off http-url cert, as advised in the
crypto ikev2 profile PROF
match identity remote address 0.0.0.0
match identity remote key-id IKETEST
authentication remote eap query-identity
authentication local rsa-sig
pki trustpoint CA-self
aaa authentication eap eap-list
aaa authorization user eap list eap-list IKETEST
no crypto ikev2 http-url cert
crypto ipsec transform-set transform1 esp-3des esp-sha-hmac
crypto ipsec profile PROF
set transform-set transform1
set ikev2-profile PROF
interface Virtual-Template1 type tunnel
ip unnumbered Ethernet0/0
tunnel mode ipsec ipv4
tunnel protection ipsec profile PROF
In this example, authorization is set up based on user IKETEST, which
was created in the ACS configuration.
Export the CA certificate on IOS (make sure to export identity
certificate and take only the first part):
R1(config)#crypto pki export CA-self pem terminal
% CA certificate:
Copy the part between BEGIN CERTIFICATE and END CERTIFICATE and paste
it to Notepad in Windows and save as a file CA.crt.
You need to install it as in Trusted Root Authorities (double click on
file > Install Certificate > Place all certificates in the following
store > Trusted Root Certification Authorities):
In C:\ProgramData\Cisco\Cisco AnyConnect Secure Mobility Client\Profile
create a file "whatever.xml" and paste this:
<?xml version="1.0" encoding="UTF-8"?>
Make sure that the 10.1.1.2 entry is exactly the same as CN=10.1.1.2
that was entered for the identity certificate.
In this scenario SSL VPN is not used, so make sure the HTTP server is
disabled on IOS (no ip http server). Otherwise, you receive an error message in
AnyConnect that states, "Use a browser to gain access".
When connecting in AnyConnect, you should be prompted for a password.
In this example, it is User3 that was created
After that, the user is connected.
R1#show ip inter brief | i Virtual
Virtual-Access1 10.1.1.2 YES unset up up
Virtual-Template1 10.1.1.2 YES unset up down
R1# show ip route 192.168.100.200
Routing entry for 192.168.100.200/32
Known via "static", distance 1, metric 0 (connected)
Routing Descriptor Blocks:
* directly connected, via Virtual-Access1
Route metric is 0, traffic share count is 1
R1#show crypto ikev2 sa
IPv4 Crypto IKEv2 SA
Tunnel-id Local Remote fvrf/ivrf Status
1 10.1.1.2/4500 188.8.131.52/61021 none/none READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth sign: RSA, Auth verify: EAP
Life/Active Time: 86400/94 sec
IPv6 Crypto IKEv2 SA
R1#show crypto session detail
Crypto session current status
Code: C - IKE Configuration mode, D - Dead Peer Detection
K - Keepalives, N - NAT-traversal, T - cTCP encapsulation
X - IKE Extended Authentication, F - IKE Fragmentation
Session status: UP-ACTIVE
Peer: 192.168.56.1 port 61021 fvrf: (none) ivrf: (none)
IKEv2 SA: local 10.1.1.2/4500 remote 10.1.1.100/61021 Active
Capabilities:(none) connid:1 lifetime:23:55:54
IPSEC FLOW: permit ip 0.0.0.0/0.0.0.0 host 192.168.100.200
Active SAs: 2, origin: crypto map
Inbound: #pkts dec'ed 1 drop 0 life (KB/Sec) 4160122/3353
Outbound: #pkts enc'ed 0 drop 0 life (KB/Sec) 4160123/3353
You can perform a debug (debug crypto ikev2).
In the Advanced options of AnyConnect in VPN you can check Route
Details to see the Split Tunneling networks:
Remember when having SHA1 in signature hash and in integrity policy
in IKEv2 (refer to Cisco bug ID
(registered customers only)
CN in IOS identity certificate has to be equal hostname in the ACS
If you want to use Radius AV pairs passed during authentication and
not use authorization of the group at all, you can use this in IKEv2 profile:
aaa authorization user eap cached
Authorization is always using password "cisco" for group/users
authorization. This might be confusing while using
aaa authorization user eap list SERV (without any paramaters)
because it will try to authorize using the user passed in AnyConnect
as user and password "cisco", which is probably not the password for the user.
In case of any issues these are outputs that you can analyze and
provide to Cisco TAC:
If not using SSL VPN remember to disable ip http server (no ip http
server). Otherwise, AnyConnect will try to connect to the HTTP server and
receive the result, "Use a browser to gain access".
The above configuration is provided for reference to show a
minimalistic working configuration.
Cisco recommends using Next Generation Cryptography (NGC) where
Current recommendations for migration can be found here:
When choosing NGC configuration, make sure that both client software
and headend hardware support it. ISR generation 2 and ASR 1000 routers are
recommended as headends because of their hardware support for NGC.
On the AnyConnect side, as of the AnyConnect 3.1 version, NSA's Suite B
algorythm suite is supported.