The Kemp LoadMaster is an Application Delivery Controller (ADC) that optimizes the performance and availability of servers delivering important content to end-users, delivering requests to the best network servers as quickly and efficiently as possible, and continually checking the performance and security of the workload.
The Kemp LoadMaster appliance has two approved means of access. The first method (Console Access) is typically used to set up the initial IP address for the management interface. The second access method, Web User Interface (WUI) is used to manage and configure the LoadMaster. You can also use the Console Access method to restore the LoadMaster to a default state. The Console method is used to configure the LoadMaster to communicate with other components and to be accessible using Internet Protocol (IP) addressing using Hypertext Transfer Protocol Secure (HTTPS). After the initial configuration is completed, all administrative tasks are performed using a web browser using HTTPS.
This document describes how to enhance the security of the LoadMaster and your applications by configuring the various features of the Kemp LoadMaster.
This section outlines some general hardening guidance to consider:
Always ensure that you are running the Long Term Support (LTS) firmware which has the latest security fixes and updates.
Under System Configuration > Miscellaneous Options > Network Options in the LoadMaster User Interface (UI) menu, ensure that Enforce Strict IP Routing is enabled. When set, the LoadMaster only accepts IP frames from a host over the interface where the routing algorithm would route frames to the host (strict source route validation).
Under System Configuration > Miscellaneous Options > Network Options, ensure that Enable TCP Timestamps is disabled.
Under System Configuration > Miscellaneous Options > L7 Configuration, ensure that Allow Empty POSTs is disabled.
Under System Configuration > Miscellaneous Options > L7 Configuration, ensure that Allow Empty HTTP Headers is disabled.
When performing re-encrypt Virtual Services, it is recommended to enable Force Real Server Certificate Checking under System Configuration > Miscellaneous Options > Network Options. This option forces the LoadMaster to verify that the certificate (including the intermediate certificate) on the Real Server is valid, that is, the certificate authority and expiration are OK.
This section outlines the configuration of a local password policy for user accounts on LoadMaster.
The Bal user is the default administrative user. The bal user should exist locally. Follow standard safekeeping practices for treating the bal user as an emergency account.
By default, there are no other local users. Local user accounts should be created for day-to-day operations.
Passwords or pass phrases should not be dictionary words and contain at least three of the following character types:
Uppercase (26 letters A - Z)
Lowercase (26 letters a - z)
Numbers (10 numbers 0 - 9)
Special characters (32 printable characters, such as !, $, and *)
Kemp recommends that any password is secure and in line with any organizational requirements.
Follow the steps below to set a password for the bal user:
1. In the main menu of the LoadMaster UI, go to System Configuration > System Administration > User Management.
2. Enter the Current Password for the bal user.
3. Enter a new complex password.
4. Re-enter the new complex password.
5. Click Set Password.
The bal user password is initially configured on first installation of the LoadMaster. You can subsequently change and update it.
Local user accounts are also configured under System Configuration > System Administration > User Management.
If the unit will be placed in High Availability (HA) mode, you should set the bal user password identically on both devices in the HA pair to prevent lockouts after fail over.
In the Certificates & Security > Remote Access menu, click WUI Authorization Options.
1. Ensure Local Users Use ONLY if other AAA Services fail is not selected.
2. Ensure the Local Users Authentication check box is not selected.
3. Add an LDAP Endpoint from the drop-down list.
4. Add Remote User Groups using the Select groups button.
5. Enter the full Domain name and click Set Domain.
6. Ensure the LDAP Authentication check box is selected.
7. Ensure the RADIUS Authentication and Authorization checkboxes are not selected.
In the LoadMaster UI, go to Certificates & Security > Remote Access and follow the steps below:
1. Disable Allow Remote SSH Access.
2. Enable Allow Web Administrative Access. Select the network interface to manage the LoadMaster from the Using drop-down list. Depending on your network architecture, this could be a dedicated management network/VLAN.
3. Enter the Admin Default Gateway (if the management interface is not on the same interface as your default gateway's network) and click Set Administrative Access.
4. The Allow Multi Interface Access check box should normally be disabled to force management traffic to only the management network.
5. Disable the Enable API Interface check box.
Using the Certificates & Security > Admin WUI Access menu, under WUI Access Options, ensure SSLv3, TLS1.1, and TLS1.0 are not selected. Ensure the WUI Cipher set is set to Best Practices.
Under SSL Certificates, import a certificate that can be used for access to the UI.
The settings referred to in the sections below are available under the Certificates & Security > Admin WUI Access menu, under WUI Session Management.
Kemp recommends leaving Failed Login Attempts at 3 and setting the Idle Session Timeout (seconds) to the value your organization requires.
Idle Session Timeout is the length of time (in seconds) a user can be idle (no activity recorded) before they are logged out of the session. Kemp recommends setting the Idle Session Timeout (seconds) to the value your organization requires.
Limit Concurrent Logins provides the ability to limit the number of concurrent users of the management UI. It is currently not possible to restrict the number of concurrent command-line users. Kemp recommends setting the number of concurrent logins to be in line with any organizational requirements.
Follow the steps below to configure an NTP service:
1. In the main menu of the LoadMaster UI, go to System Configuration > System Administration > Date/Time.
2. To enable NTPv3, select the Show NTP Authentication Parameters check box.
3. Ensure the NTP Key Type is set to SHA-1.
4. Set the NTP Shared Secret and NTP Key ID to the appropriate value(s) on the NTP Server.
5. In the NTP host(s) text box, specify the host(s) from which the LoadMaster will set its time. Click Set NTP host.
Multiple hosts can be specified in a space-separated list. The time is set from the first host that returns a valid answer.
Packet Routing Filter
If the packet routing filter is not activated, the LoadMaster also acts as a simple IP forwarder.
When the packet routing filter is activated, it restricts traffic to the LoadMaster but client access to services running on the interface addresses (SSH 22, HTTPS 443, SNMP 161, and DNS 53) is unaffected. Enabling SNAT prevents you from blocking traffic to a Virtual Service that has the same IP address as the LoadMaster's default gateway interface. This can affect Azure or any cloud platforms that use a single IP address.
The Reject/Drop blocked packets and Restrict traffic to Interfaces fields will not be displayed if the Packet Routing Filter is disabled.
Reject/Drop blocked packets
When an IP packet is received from a host, which is blocked using the Access Control Lists (ACLs), the request is normally ignored (dropped). The LoadMaster may be configured to return an ICMP reject packet, but for security reasons, it is recommended to drop any blocked packets silently.
Restrict traffic to Interfaces
This setting enforces restrictions upon routing between attached subnets. Kemp has this option disabled by default.
Include WUI in IP Access lists
If this option is enabled, access to the WUI is also controlled by the packet filter. The IP address of the client that enables the Include WUI in IP Access list option to the packet filter will still have access (and be on the whitelist internally) - a message appears next to the check box saying Access allowed from <IPAddress>. This protects you from locking yourself out of the WUI.
Enabling the Include WUI in IP Access lists option does not affect Virtual Service connectivity.
With the Include WUI in IP Access lists option disabled, access to the WUI is not affected by the packet filter.
Add Blocked Address(es)
The LoadMaster supports a “blacklist” Access Control List (ACL) system. Any host or network entered into the ACL will be blocked from accessing any service provided by the LoadMaster.
The ACL is only enabled when the Packet Filter is enabled. The whitelist allows a specific IP address or address range access. If the address or range is part of a larger range in the blacklist, the whitelist will take precedence for the specified addresses.
If a user does not have any addresses listed in their blacklist and only has addresses listed in their whitelist, then only connections from addresses listed on the whitelist are allowed and connections from all other addresses are blocked.
This option allows a user to add or delete a host or network IP address to the Access Control List. In addition to IPv4 addresses - IPv6 addresses are allowed in the lists if the system is configured with an IPv6 address family. Using a network specifier specifies a network.
For example, specifying the address 192.168.200.0/24 in the blacklist will block all hosts on the 192.168.200 network.
A static port Virtual Service, with an access list defined to block particular traffic, will not work correctly if you also have a wildcard Virtual Service on the same IP address. The wildcard Virtual Service will accept the traffic after the static port Virtual Service denies it.
It is recommended to use a separate IP address in this case to avoid unexpected behavior resulting from this interaction.
To meet requirements for persistent log storage and integration with Security Event and Incident Management (SEIM) systems, it is important to configure a Syslog connection to a log collector.
Using the System Configuration > Logging Options > Syslog Options menu, enter an IP address, or addresses, and select the severity level. The Syslog server receiving port and protocol for communication (UDP, TCP, TLS) can optionally be configured.
When the TLS protocol is selected, the LoadMaster can use OCSP to check the validity of the server certificates supplied by configured Syslog servers. If these checks fail, connections to the server are not permitted.
Six different error message levels are defined, and each message level may be sent to a different server. Notice messages are sent for information only; Emergency messages normally require immediate user action.
Up to ten individual IP addresses can be specified for each of the Syslog fields. The IP addresses must be differentiated using a space-separated list.
Examples of the type of message that you may see after setting up a Syslog server are below:
Emergency: Kernel-critical error messages
Critical: Unit one has failed and unit two is taking over as master (in a High Availability (HA) setup)
Error: Authentication failure for root from 192.168.1.1
Warn: Interface is up/down
Notice: Time has been synced
Info: Local advertised ethernet address
To enable a Syslog process on a remote Linux server to receive Syslog messages from the LoadMaster, the Syslog must be started with the "-r" flag.
Server Certificate Validation
This check box only appears when TLS is selected as the Remote Syslog Protocol.
When Server Certificate Validation is enabled, it ensures that the hostname or IP address that was used to initiate the secure connection resides in the Certificate Subject or Subject Alternative Names (SAN) of the certificate.
Server Certificate Validation is disabled by default.
To meet requirements related to management traffic restrictions to only dedicated management networks, it is necessary to configure at least two network interfaces and dedicate a network or VLAN to management. Ensure the hypervisor has allocated two virtual interfaces to the Virtual Machine created for the Kemp VLM and then follow the steps below using the VLM WUI to add the second interface. Using the System Configuration > Network Setup menu, follow the steps below:
1. In the Interfaces section, click eth1.
2. Enter the interface address (address[/CIDR notation]).
3. Click Set Address.
4. Configure any other settings as needed.
5. Repeat these steps for all other interfaces.
All management can be performed on a dedicated interface connected to a closed management VLAN. To change the default eth port for management, follow the steps below in the VLM WUI.
1. Using the Certificates & Security > Remote Access menu, select the relevant interface, for example, eth1, in the Allow Web Administrative Access drop-down list.
2. Enter the IP address of the desired default gateway in the Admin Default Gateway text box. Click Set Administrative Access.
These settings are not applied until Set Administrative Access is clicked.
3. When this is done, you must reconnect your web browser to the new IP address enabled as the management interface for the VLM.
The management interface should be connected to a closed Management VLAN.
To enable alternate gateway support, using the System Configuration > Miscellaneous Options > Network Options menu, ensure that the Enable Alternate GW support check box is selected.
By default, the LoadMaster DNSSEC client is disabled. This option should only be enabled if required and the DNS infrastructure supports DNSSEC capabilities.
DNSSEC helps protect against cache poisoning using a set of extensions that provide origin authentication of DNS data, data integrity, and authenticated denial of existence. DNSSEC provides a mechanism to sign requests and prove the validity of records in a given zone and does this through a process called zone signing.
DNSSEC adds four new resource record types:
Resource Record Signature (RRSIG)
DNS Public Key (DNSKEY)
Delegation Signer (DS)
Next Secure (NSEC)
These resource record types are described in RFC 4034.
There are also two new DNS header flags, which are:
Checking Disabled (CD)
Authenticated Data (AD)
Before configuring DNSSEC, a zone must be defined. You can configure the zone settings in the Global Balancing > Miscellaneous Params screen of the WUI. A zone is a single unique part of a DNS namespace hierarchy that serves as the authoritative source for information about a select set of DNS domain names.
To group FQDNs within a zone, the FQDN must be the sub-domain of the zone. Otherwise, each FQDN defines a zone.
To define a zone, go to Global Balancing > Miscellaneous Params and specify a Zone Name.
To enable DNSSEC in the LoadMaster, follow the steps below:
1. Go to Global Balancing > Configure DNSSEC to configure the DNSSEC options.
2. You can either import the Key Signing Keys (KSKs) or generate them. To import them, click Import and browse to and select the files. If generating, go to the next step.
A KSK is a type of DNSKEY that is used to sign the keys contained within a DNS zone and are leveraged to validate resolvers. The KSK also signs the Zone Signing Key (ZSK).
3. If generating the KSKs, click Generate. Select the Algorithm and Key Size and click Generate.
4. The KSK details are displayed.
5. Select the Enable DNSSEC check box.
There is no user interface for ZSK files. A ZSK is used to generate Resource Record Signatures (RRSIG) for each set of resource records in a zone and sign these records. GEO creates the ZSK files automatically when DNSSEC is enabled. The same algorithm is used as specified for the KSK files. A key size of 1024 is used. If DNSSEC is disabled, the KSK files are deleted.
Facilitate the connection to an Online Certificate Status Protocol (OCSP) service for certificate validation. Enabling OCSP increases the security of your system by requiring the LoadMaster to periodically check the revocation status of the SSL certificates being used by Virtual Services.
Using the Certificates & Security > OCSP Configuration menu, enter the IP address (or multiple addresses using spaces to separate each entry) of the OCSP service associated with the certificates you are going to use to log in to the LoadMaster. Ensure you click Set Address, Set Port, and Set Path (if needed) to apply the settings.
Using the Certificates & Security > Admin WUI Access menu, under Currently Active Users, all currently logged-in users and login times are displayed. An administrator can block or force the logout of users as required.
SIEM systems are designed to provide a holistic view of network and application security. Once implemented, a SIEM system can help identify attacks and breaches in real-time. This has obvious benefits for network security, compliance, and protection of an organization's reputation. It is better for an organization to respond quickly to any attack than to discover after the fact when the damage is done, and data has been compromised.
One aspect of a SIEM system is the deployment of tools to analyze network device logs in real-time. In this way, suspicious activity and known threats that leave well-known signatures in logs can be spotted, and system administrators alerted quickly. Automated responses can often be triggered to counter attacks in real-time.
Tune the SIEM to:
Look for successive logins without associated logout events to identify potential misuse in this area.
Look for suspicious activity in audit logs to identify potential misuse.
Send an alert when a new account is created on the LoadMaster.
Review log data from the Active Directory (AD) and LoadMaster and generate alerts based on any account changes associated with LoadMaster administrative accounts.
Send an alert when a LoadMaster account is deleted.
You should configure the SEIM, to use Syslogd information and report the results to the Security Manager. For further information on how to configure SEIM, refer to the relevant third-party product documentation.
This document was last updated on 19 September 2022.