X.509v3 Certificates for SSH Authentication

The X.509v3 Certificates for SSH Authentication feature uses public key algorithm (PKI) for server and user authentication, and allows the Secure Shell (SSH) protocol to verify the identity of the owner of a key pair via digital certificates, signed and issued by a Certificate Authority (CA).

This module describes how to configure server and user certificate profiles for a digital certificate.

Prerequisites for X.509v3 Certificates for SSH Authentication

The X.509v3 Certificates for SSH Authentication feature replaces the ip ssh server authenticate user command with the ip ssh server algorithm authentication command. Configure the default ip ssh server authenticate user command to remove the ip ssh server authenticate user command from the configuration. The IOS secure shell (SSH) server will start using the ip ssh server algorithm authentication command.

When you configure the ip ssh server authenticate user command, the following message is displayed:

Warning

SSH command accepted; but this CLI will be deprecated soon. Please move to new CLI ip ssh server algorithm authentication . Please configure the “default ip ssh server authenticate user ” to make the CLI ineffective.

Restrictions for X.509v3 Certificates for SSH Authentication

  • The X.509v3 Certificates for SSH Authentication feature implementation is applicable only on the Cisco IOS Secure Shell (SSH) server side.

  • The Cisco IOS SSH server supports only the x509v3-ssh-rsa algorithm-based certificate for server and user authentication.

Information About X.509v3 Certificates for SSH Authentication

X.509v3 Certificates for SSH Authentication Overview

The Secure Shell (SSH) protocol provides a secure remote access connection to network devices. The communication between the client and server is encrypted.

There are two SSH protocols that use public key cryptography for authentication. The Transport Layer Protocol, uses a digital signature algorithm (called the public key algorithm) to authenticate the server to the client. And the User Authentication Protocol uses a digital signature to authenticate (public key authentication) the client to the server.

The validity of the authentication depends upon the strength of the linkage between the public signing key and the identity of the signer. Digital certificates, such as those in X.509 Version 3 (X.509v3), are used to provide identity management. X.509v3 uses a chain of signatures by a trusted root certification authority and intermediate certificate authorities to bind a public signing key to a specific digital identity. This implementation allows the use of a public key algorithm for server and user authentication, and allows SSH to verify the identity of the owner of a key pair via digital certificates, signed and issued by a Certificate Authority (CA).

Server and User Authentication Using X.509v3

For server authentication, the Secure shell (SSH) server sends its own certificate to the SSH client for verification. This server certificate is associated with the trustpoint configured in the server certificate profile (ssh-server-cert-profile-server configuration mode).

For user authentication, the SSH client sends the user's certificate to the IOS SSH server for verification. The SSH server validates the incoming user certificate using public key infrastructure (PKI) trustpoints configured in the server certificate profile (ssh-server-cert-profile-user configuration mode).

By default, certificate-based authentication is enabled for server and user at the IOS SSH server end.

OCSP Response Stapling

The Online Certificate Status Protocol (OCSP) enables applications to determine the (revocation) state of an identified certificate. This protocol specifies the data that needs to be exchanged between an application checking the status of a certificate and the server providing that status. An OCSP client issues a status request to an OCSP responder and suspends acceptance of the certificate until a response is received. An OCSP response at a minimum consists of a responseStatus field that indicates the processing status of the a request.

For the public key algorithms, the key format consists of a sequence of one or more X.509v3 certificates followed by a sequence of zero or more OCSP responses.

The X.509v3 Certificate for SSH Authentication feature uses OCSP Response Stapling. By using OCSP response stapling, a device obtains the revocation information of its own certificate by contacting the OCSP server and then stapling the result along with its certificates and sending the information to the peer rather than having the peer contact the OCSP responder.

How to Configure X.509v3 Certificates for SSH Authentication

Configuring Digital Certificates for Server Authentication

Procedure

  Command or Action Purpose
Step 1

enable

Example:


Switch> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Switch# configure terminal

Enters global configuration mode.

Step 3

ip ssh server algorithm hostkey {x509v3-ssh-rsa [ssh-rsa] | ssh-rsa [x509v3-ssh-rsa]}

Example:


Switch(config)# ip ssh server algorithm hostkey x509v3-ssh-rsa

Defines the order of host key algorithms. Only the configured algorithm is negotiated with the Secure Shell (SSH) client.

Note 
The IOS SSH server must have at least one configured host key algorithm:
  • x509v3-ssh-rsa —certificate-based authentication
  • ssh-rsa —public key-based authentication
Step 4

ip ssh server certificate profile

Example:


Switch(config)# ip ssh server certificate profile

Configures server and user certificate profiles and enters SSH certificate profile configuration mode.

Step 5

server

Example:


Switch(ssh-server-cert-profile)# server
Configures server certificate profile and enters SSH server certificate profile server configuration mode.
  • The server profile is used to send out the certificate of the server to the SSH client during server authentication.

Step 6

trustpoint sign PKI-trustpoint-name

Example:


Switch(ssh-server-cert-profile-server)# trustpoint sign trust1
Attaches the public key infrastructure (PKI) trustpoint to the server certificate profile.
  • The SSH server uses the certificate associated with this PKI trustpoint for server authentication.
Step 7

ocsp-response include

Example:


Switch(ssh-server-cert-profile-server)# ocsp-response include

(Optional) Sends the Online Certificate Status Protocol (OCSP) response or OCSP stapling along with the server certificate.

Note 

By default, no OCSP response is sent along with the server certificate.

Step 8

end

Example:


Switch(ssh-server-cert-profile-server)# end

Exits SSH server certificate profile server configuration mode and returns to privileged EXEC mode.

Configuring Digital Certificates for User Authentication

Procedure

  Command or Action Purpose
Step 1

enable

Example:


Switch> enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Step 2

configure terminal

Example:


Switch# configure terminal

Enters global configuration mode.

Step 3

ip ssh server algorithm authentication {publickey | keyboard | password}

Example:


Switch(config)# ip ssh server algorithm authentication publickey

Defines the order of user authentication algorithms. Only the configured algorithm is negotiated with the Secure Shell (SSH) client.

Note 
  • The IOS SSH server must have at least one configured user authentication algorithm.
  • To use the certificate method for user authentication, the publickey keyword must be configured.
Step 4

ip ssh server algorithm publickey {x509v3-ssh-rsa [ssh-rsa] | ssh-rsa [x509v3-ssh-rsa]}

Example:


Switch(config)# ip ssh server algorithm publickey x509v3-ssh-rsa

Defines the order of public key algorithms. Only the configured algorithm is accepted by the SSH client for user authentication.

Note 
The IOS SSH client must have at least one configured public key algorithm:
  • x509v3-ssh-rsa —Certificate-based authentication
  • ssh-rsa —Public-key-based authentication
Step 5

ip ssh server certificate profile

Example:


Switch(config)# ip ssh server certificate profile

Configures server certificate profile and user certificate profile and enters SSH certificate profile configuration mode.

Step 6

user

Example:


Switch(ssh-server-cert-profile)# user

Configures user certificate profile and enters SSH server certificate profile user configuration mode.

Step 7

trustpoint verify PKI-trustpoint-name

Example:


Switch(ssh-server-cert-profile-user)# trustpoint verify trust2

Configures the public key infrastructure (PKI) trustpoint that is used to verify the incoming user certificate.

Note 

Configure multiple trustpoints by executing the same command multiple times. A maximum of 10 trustpoints can be configured.

Step 8

ocsp-response required

Example:


Switch(ssh-server-cert-profile-user)# ocsp-response required

(Optional) Mandates the presence of the Online Certificate Status Protocol (OCSP) response with the incoming user certificate.

Note 

By default, the user certificate is accepted without an OCSP response.

Step 9

end

Example:


Switch(ssh-server-cert-profile-user)# end

Exits SSH server certificate profile user configuration mode and returns to privileged EXEC mode.

Verifying the Server and User Authentication Using Digital Certificates

Procedure


Step 1

enable

Enables privileged EXEC mode.

  • Enter your password if prompted.

Example:


Device> enable

Step 2

show ip ssh

Displays the currently configured authentication methods. To confirm the use of certificate-based authentication, ensure that the x509v3-ssh-rsa algorithm is the configured host key algorithm.

Example:


Device# show ip ssh

SSH Enabled - version 1.99
Authentication methods:publickey,keyboard-interactive,password
Authentication Publickey Algorithms:x509v3-ssh-rsa,ssh-rsa
Hostkey Algorithms:x509v3-ssh-rsa,ssh-rsa
Authentication timeout: 120 secs; Authentication retries: 3
Minimum expected Diffie Hellman key size : 1024 bits


Configuration Examples for X.509v3 Certificates for SSH Authentication

Example: Configuring Digital Certificates for Server Authentication


Switch> enable
Switch# configure terminal
Switch(config)# ip ssh server algorithm hostkey x509v3-ssh-rsa 
Switch(config)# ip ssh server certificate profile
Switch(ssh-server-cert-profile)# server
Switch(ssh-server-cert-profile-server)# trustpoint sign trust1
Switch(ssh-server-cert-profile-server)# exit

Example: Configuring Digital Certificate for User Authentication


Switch> enable
Switch# configure terminal
Switch(config)# ip ssh server algorithm authentication publickey
Switch(config)# ip ssh server algorithm publickey x509v3-ssh-rsa 
Switch(config)# ip ssh server certificate profile
Switch(ssh-server-cert-profile)# user
Switch(ssh-server-cert-profile-user)# trustpoint verify trust2
Switch(ssh-server-cert-profile-user)# end

Additional References for X.509v3 Certificates for SSH Authentication

Related Documents

Related Topic Document Title

PKI configuration

Configuring and Managing a Cisco IOS Certificate Server for PKI Deployment

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Feature Information for X.509v3 Certificates for SSH Authentication

The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.

Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Table 1. Feature Information for X509v3 Certificates for SSH Authentication

Feature Name

Releases

Feature Information

X.509v3 Certificates for SSH Authentication

Cisco IOS 15.2(4)E1

The X.509v3 Certificates for SSH Authentication feature uses the X5.09v3 digital certificates in server and user authentication at the SSH server side.

The following commands were introduced or modified: ip ssh server algorithm hostkey , ip ssh server algorithm authentication , and ip ssh server certificate profile .

This feature was implemented on the following platforms:
  • Catalyst 2960C, 2960CX, 2960P, 2960X, and 2960XR Series Switches
  • Catalyst 3560CX and 3560X Series Switches
  • Catalyst 3750X Series Switches
  • Catalyst 4500E Sup7-E, Sup7L-E, Sup8-E, and 4500X Series Switches
  • Catalyst 4900M, 4900F-E Series Switches