Best Practices for Securing Your Network from Layer 4 and Layer 7 Evasions
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Best Practices for Securing Your Network from Layer 4 and Layer 7 Evasions

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Best Practices for Securing Your Network from Layer 4 and Layer 7 Evasions

To monitor and protect your network from most Layer 4 and Layer 7 attacks, here are a few recommendations.
  • Upgrade to the most current PAN-OS software version and content release version to ensure that you have the latest security updates. See Install Content and Software Updates.
  • Enable DNS Security (requires a Threat Prevention and DNS Security subscription license) to sinkhole malicious DNS requests. Palo Alto Networks recommends using the following DNS Security category configuration settings in your Anti-Spyware profile:
    • For the log severity settings, use the default settings:
    • For the policy action, set all signature sources to sinkhole.
    • For packet capture, set Command and Control Domains to extended-capture. Leave all other categories to default settings.
    For more information on related anti-spyware settings, see Best Practice Internet Gateway Anti-Spyware Profile.
  • Set up the firewall to act as a DNS proxy and enable evasion signatures:
    DNS proxy is not part of the firewall security policy engine; instead, it directs the firewall to resolve DNS hostnames, while maintaining domain to IP mapping, which is crucial for preventing TLS/HTTP evasion.
    • When acting as a DNS proxy, the firewall resolves DNS requests and caches hostname-to-IP address mappings to quickly and efficiently resolve future DNS queries.
    • Evasion signatures that detect crafted HTTP or TLS requests can send alerts when clients connect to a domain other than the domain specified in the original DNS request. Make sure to configure DNS proxy before you enable evasion signatures. Without DNS proxy, evasion signatures can trigger alerts when a DNS server in the DNS load balancing configuration returns different IP addresses—for servers hosting identical resources—to the firewall and client in response to the same DNS request.
  • For servers, create Security policy rules to allow only the application(s) that you sanction on each server. Verify that the standard port for the application matches the listening port on the server. For example, to ensure that only SMTP traffic is allowed to your email server, set the Application to smtp and set the Service to application-default. If your server uses only a subset of the standard ports (for example, if your SMTP server uses only port 587 while the SMTP application has standard ports defined as 25 and 587), create a new custom service that includes only port 587 and use that new service in your security policy rule instead of application-default. Additionally, make sure you restrict access to specific source and destinations zones and sets of IP addresses.
  • Block all unknown applications and traffic using the Security policy. Typically, the only applications classified as unknown traffic are internal or custom applications on your network and potential threats. Unknown traffic can be either non-compliant applications or protocols that are anomalous or abnormal or it can be known applications that are using non-standard ports, both of which should be blocked. See Manage Custom or Unknown Applications.
  • Set Up File Blocking to block Portable Executable (PE) file types for internet-based SMB (Server Message Block) traffic from traversing trust to untrust zones (ms-ds-smb applications).
  • Block malicious variants of PE (portable executables), ELF and MS Office files, and PowerShell and shell scripts in real-time. Enabling WildFire Inline ML allows you to dynamically analyze files using machine learning on the firewall. This additional layer of antivirus protection complements the WildFire-based signatures to provide extended coverage for files of which signatures do not already exist.
  • Create a Zone Protection profile that is configured to protect against packet-based attacks (NetworkNetwork ProfilesZone Protection):
    • Select the option to drop Malformed IP packets (Packet Based Attack ProtectionIP Drop).
    • Enable the drop Mismatched overlapping TCP segment option (Packet Based Attack ProtectionTCP Drop).
      By deliberately constructing connections with overlapping but different data in them, attackers attempt to cause misinterpretation of the intent of the connection and deliberately induce false positives or false negatives. Attackers also use IP spoofing and sequence number prediction to intercept a user's connection and inject their own data into that connection. Selecting the Mismatched overlapping TCP segment option specifies that PAN-OS discards frames with mismatched and overlapping data. Received segments are discarded when they are contained within another segment, when they overlap with part of another segment, or when they contain another complete segment.
    • Enable the drop TCP SYN with Data and drop TCP SYNACK with Data options (Packet Based Attack ProtectionTCP Drop).
      Dropping SYN and SYN-ACK packets that contain data in the payload during a three-way handshake increases security by blocking malware contained in the payload and preventing it from extracting unauthorized data before the TCP handshake is completed.
    • Strip TCP timestamps from SYN packets before the firewall forwards the packet (Packet Based Attack ProtectionTCP Drop).
      When you enable the Strip TCP Options - TCP Timestamp option, the TCP stack on both ends of the TCP connection will not support TCP timestamps. This prevents attacks that use different timestamps on multiple packets for the same sequence number.
  • If you configure IPv6 addresses on your network hosts, be sure to enable support for IPv6 if not already enabled (NetworkInterfacesEthernet > IPv6).
    Enabling support for IPv6 allows access to IPv6 hosts and also filters IPv6 packets encapsulated in IPv4 packets, which prevents IPv6 over IPv4 multicast addresses from being leveraged for network reconnaissance.
  • Enable support for multicast traffic so that the firewall can enforce policy on multicast traffic (NetworkVirtual RouterMulticast).
  • Disable the options to Forward datagrams exceeding UDP content inspection queue and Forward segments exceeding TCP content inspection queue (DeviceSetupContent-IDContent-ID Settings).
    By default, when the TCP or UDP content inspection queues are full, the firewall skips content inspection for TCP segments or UDP datagrams that exceed the queue limit of 64. Disabling this option ensures content inspection for all TCP and UDP datagrams that the firewall allows. Only under specific circumstances—for example, if the firewall platform is not sized appropriately to align with a use case—could disabling this setting impact performance.
  • Disable the Allow HTTP partial response (DeviceSetupContent-IDContent-ID Settings).
    The HTTP partial response option allows a client to fetch only part of a file. When a next-generation firewall in the path of a transfer identifies and drops a malicious file, it terminates the TCP session with an RST packet. If the web browser implements the HTTP header range option, it can start a new session to fetch only the remaining part of the file, which prevents the firewall from triggering the same signature again due to the lack of context into the initial session and, at the same time, allows the web browser to reassemble the file and deliver the malicious content. Disabling this option prevents this from happening.
    Allow HTTP partial response is enabled on the firewall by default. This provides maximum availability but increases the risk of a successful cyberattack. For maximum security, disable this option to prevent the web browser from starting a new session to fetch the rest of a file after the firewall terminates the original session due to malicious activity. Disabling HTTP partial response affects HTTP-based data transfers which use the RANGE header, which may cause service anomalies for certain applications. After you disable HTTP partial response, validate the operation of your business-critical applications.
    If you experience HTTP data transfer disruption on a business-critical application, you can create an Application Override policy for that specific application. Because Application Override bypasses App-ID (including threat and content inspection), create an Application Override policy for only the specific business-critical application, and specify sources and destinations to limit the rule (principle of least privilege access). Do not create Application Override policy unless you must. For information about Application Override policies, refer to https://knowledgebase.paloaltonetworks.com/KCSArticleDetail?id=kA10g000000ClVLCA0.
  • Create a Vulnerability Protection Profile that blocks protocol anomalies and all vulnerabilities with low and high severities.
    A protocol anomaly occurs when a protocol behavior deviates from standard and compliant usage. For example, a malformed packet, poorly written application, or an application running on a non-standard port would all be considered protocol anomalies, and could be used as evasion tools.
    If yours is a mission-critical network, where the business’s highest priority is application availability, you should begin by alerting on protocol anomalies for a period of time to ensure that no critical internal applications are using established protocols in a non-standard way. If you find that certain critical applications trigger protocol anomaly signatures, you can then exclude those applications from protocol anomaly enforcement. To do this, add another rule to the Vulnerability Protection Profile that allows protocol anomalies and attach the profile to the security policy rule that enforces traffic to and from the critical applications.
    Make sure that Vulnerability Protection Profile rules and security policy rules that allow protocol anomalies for critical internal applications are listed above rules that block protocol anomalies. Traffic is evaluated against security policy rules and associated Vulnerability Protection Profiles rules from top to bottom, and is enforced based on the first matching rule.
    • Begin by alerting on protocol anomalies:
      Create a Vulnerability Protection Profile rule with the Action set to Alert, the Category set to protocol-anomaly, and the Severity set to Any. Monitor your traffic to determine if any critical internal applications are using established protocols in non-standard ways. If you find this to be true, continue to allow protocol anomalies for those applications, and then block protocol anomalies for all other applications.
    • Block protocol anomalies:
      Create a Vulnerability Protection Profile rule with the Category set to protocol-anomaly, the rule Action set to Reset Both, and the Severity set to Any.
    • Optionally allow protocol anomalies for critical applications that use established protocols in a non-standard way. To do this, create a Vulnerability Protection Profile rule that allows protocol anomalies: set the rule Action to Allow, the Category to protocol-anomaly, and the Severity to any. Attach the Vulnerability Protection Profile rule to the security policy rule that enforces traffic to and from critical applications.
    • Add another rule to the Vulnerability Protection profile to block all vulnerabilities with low and higher severity. This rule must be listed after the rule that blocks protocol anomalies.
  • Continue to attach the following security profiles to your Security policy rules to provide signature-based protection:
    • An Anti-Spyware profile to block all spyware with severity low and higher.
    • An Antivirus profile to block all content that matches an antivirus signature.