This document describes how you can use the services of
One Identity Safeguard for Privileged Sessions (SPS) controls privileged access to remote IT systems, records activities in searchable, movie-like audit trails, and prevents malicious actions. SPS is a quickly deployable enterprise device, completely independent from clients and servers — integrating seamlessly into existing networks. It captures the activity data necessary for user profiling and enables full user session drill down for forensic investigations.
SPS acts as a central authentication gateway, enforcing strong authentication before users access sensitive IT assets. SPS can integrate with remote user directories to resolve the group memberships of users who access nonpublic information. Credentials for accessing information systems can be retrieved transparently from SPS's local Credential Store or a third-party password management system. This method protects the confidentiality of passwords as users can never access them. When used together with
SPS can interact with your
The integration adds an additional security layer to the gateway authentication performed on SPS. If the
SPS can interact with your RADIUS server and can automatically request strong multi-factor authentication for your privileged users who are accessing the servers and services protected by SPS.
The integration adds an additional security layer to the gateway authentication performed on SPS. Your RADIUS server can use any hardware or software token as long as it provides standard RADIUS interface.
ISO 27001, ISO 27018, SOC 2, and other regulations and industry standards include authentication-related requirements, (for example, Multi-Factor Authentication (MFA) for accessing production systems, and the logging of all administrative sessions). In addition to other requirements, using SPS and
PCI DSS 8.3: Secure all individual non-console administrative access and all remote access to the cardholder data environment (CDE) using MFA.
PART 500.12 Multi-Factor Authentication: Covered entities are required to apply MFA for:
Each individual accessing the covered entity’s internal systems.
Authorized access to database servers that allow access to nonpublic information.
Third parties accessing nonpublic information.
NIST 800-53 IA-2, Identification and Authentication, network access to privileged accounts: The information system implements MFA for network access to privileged accounts.
In order to successfully connect SPS with RADIUS server, you need the following components.
An RSA Authentication Manager deployed.
RADIUS access parameters, (for example, host, port, and an RSA shared secret). You will need it to configure the SPS plugin.
Your users must be enrolled in RSA Authentication Manager.
The users must be able to perform the authentication required for the factor (for example, possess the required RSA SecurID Hardware Token).
Only CHAP and PAP authentication methods are supported.
RADIUS access parameters, (for example, host, port, and a shared secret). You will need it to configure the SPS plugin.
Your users must be enrolled in the RADIUS server or its backend.
Only CHAP and PAP authentication methods are supported.
A One Identity Safeguard for Privileged Sessions appliance (virtual or physical), at least version 5 F11.
A copy of the SPS
SPS supports AA plugins in the RDP, SSH, and Telnet protocols.
In RDP, using an AA plugin together with Network Level Authentication in a Connection Policy has the same limitations as using Network Level Authentication without domain membership. For details, see "Network Level Authentication without domain membership" in the Administration Guide.
In RDP, using an AA plugin requires TLS-encrypted RDP connections. For details, see "Enabling TLS-encryption for RDP connections" in the Administration Guide.
Using custom plugins in SPS is recommended only if you are familiar with both Python and SPS. Product support applies only to SPS: that is, until the entry point of the Python code and passing the specified arguments to the Python code. One Identity is not responsible for the quality, resource requirements, or any bugs in the Python code, nor any crashes, service outages, or any other damage caused by the improper use of this feature, unless explicitly stated in a contract with One Identity. If you want to create a custom plugin, contact our Support Team for details and instructions.
Figure 1: How SPS and
A user attempts to log in to a protected server.
SPS receives the connection request and authenticates the user. SPS can authenticate the user to a number of external user directories, (for example, LDAP, Microsoft Active Directory, or RADIUS). This authentication is the first factor.
You can configure SPS using whitelists and blacklists to selectively require multi-factor authentication for your users, (for example, to create break-glass access for specific users).
If multi-factor authentication is not required, the user can start working, while SPS records the user's activities. The procedure ends here.
If multi-factor authentication is required, SPS continues the procedure with the next step.
For details on creating exemption lists, see [WHITELIST].
If the gateway usernames are different from the
If gateway authentication is successful, SPS connects to the RADIUS server. Then SPS requests the second authentication factor from the user and sends it to the RADIUS server for verification.
If multi-factor authentication is successful, the user can start working, while SPS records the user's activities. (Optionally, SPS can retrieve credentials from a local or external Credential Store or password vault, and perform authentication on the server with credentials that are not known to the user.)
Alternatively, the RADIUS server can request Access-Challenge response. The challenge is displayed to the user and they have to respond to the challenge. After a successful response, the user can start working. In RSA SecurID, this process is used for next token mode. This means that if the password is entered incorrectly several times, two subsequent RSA SecurID tokens have to be entered for a successful authentication.
If the user opens a new session within a short period, they can do so without having to perform multi-factor authentication again. After this configurable grace period expires, the user must perform multi-factor authentication to open the next session. For details, see [authentication_cache].
This section contains the notable features of this plugin.
To map the gateway usernames to the
The [WHITELIST] section allows configuring authentication whitelists and blacklists for example to create break-glass access for specific users to allow them to bypass
The [authentication_cache] section contains the settings that determine how soon after performing a
The [connection_limit by=client_ip_gateway_user] section contains the options related to limiting parallel sessions.
This plugin supports the RADIUS Access-Challenge response and therefore the RSA SecurID next token mode. For details, see How SPS and RADIUS work together in detail.