ASA with FirePOWER Services Local Management Configuration Guide, Version 6.2.3

Understanding File and Intrusion Inspection Order

License: Protection or Malware

Note Traffic allowed by an Intrusion Prevention default action can be inspected for intrusions, but cannot be inspected for prohibited files or malware. You cannot associate a file policy with the access control default action.

You do not have to perform both file and intrusion inspection in the same rule. For a connection matching an Allow or Interactive Block rule:

• without a file policy, traffic flow is determined by the intrusion policy
• without an intrusion policy, traffic flow is determined by the file policy

Tip The system does not perform any kind of inspection on trusted traffic.

For any single connection handled by an access control rule, file inspection occurs before intrusion inspection. That is, the system does not inspect files blocked by a file policy for intrusions. Within file inspection, simple blocking by type takes precedence over malware inspection and blocking.

Note Until a file is detected and blocked in a session, packets from the session may be subject to intrusion inspection.

For example, consider a scenario where you normally want to allow certain network traffic as defined in an access control rule. However, as a precaution, you want to block the download of executable files, examine downloaded PDFs for malware and block any instances you find, and perform intrusion inspection on the traffic.

You create an access control policy with a rule that matches the characteristics of the traffic you want to provisionally allow, and associate it with both an intrusion policy and a file policy. The file policy blocks the download of all executables, and also inspects and blocks PDFs containing malware:

• First, the system blocks the download of all executables, based on simple type matching specified in the file policy. Because they are immediately blocked, these files are subject to neither malware cloud lookup nor intrusion inspection.
• Next, the system performs malware cloud lookups for PDFs downloaded to a host on your network. Any PDFs with a malware file disposition are blocked, and are not subject to intrusion inspection.
• Finally, the system uses the intrusion policy associated with the access control rule to inspect any remaining traffic, including files not blocked by the file policy.

Configuring an Access Control Rule to Perform AMP or File Control

License: Protection or Malware

An access control policy can have multiple access control rules associated with file policies. You can configure file inspection for any Allow or Interactive Block access control rule, which permits you to match different file and malware inspection profiles against different types of traffic on your network before it reaches its final destination.

When the system detects a prohibited file (including malware) according to the settings in the file policy, it automatically logs an event. If you do not want to log file or malware events, you can disable this logging on a per-access-control-rule basis. After you associate the file policy with the access control rule, clear the Log Files check box on the Logging tab of the access control rule editor. For more information, see Disabling File and Malware Event Logging for Allowed Connections.

The system also logs the end of the associated connection, regardless of the logging configuration of the invoking access control rule; see Connections Associated with File and Malware Events (Automatic).

To associate a file policy with an access control rule:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control .

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy where you want to configure AMP or file control using access control rules.

Step 3 Create a new rule or edit an existing rule; see Creating and Editing Access Control Rules.

The access control rule editor appears.

Step 4 Ensure the rule action is set to Allow , Interactive Block , or Interactive Block with reset .

Step 5 Select the Inspection tab.

The Inspection tab appears.

Step 6 Select a File Policy to inspect traffic that matches the access control rule, or select None to disable file inspection for matching traffic.

You can click the edit icon ( ) that appears to edit the policy; see Creating a File Policy.

Step 7 Click Add to save the rule.

Your rule is saved. You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Configuring an Access Control Rule to Perform Intrusion Prevention

License: Protection

An access control policy can have multiple access control rules associated with intrusion policies. You can configure intrusion inspection for any Allow or Interactive Block access control rule, which permits you to match different intrusion inspection profiles against different types of traffic on your network before it reaches its final destination.

Whenever the system uses an intrusion policy to evaluate traffic, it uses an associated variable set . Variables in a set represent values commonly used in intrusion rules to identify source and destination IP addresses and ports. You can also use variables in intrusion policies to represent IP addresses in rule suppressions and dynamic rule states.

Tip Even if you use system-provided intrusion policies, Cisco strongly recommends you configure the system’s intrusion variables to accurately reflect your network environment. At a minimum, modify default variables in the default set; see Optimizing Predefined Default Variables.

Although you can associate a different intrusion policy-variable set pair with each Allow and Interactive Block rule (as well as with the default action), you cannot apply an access control policy if the target devices have insufficient resources to perform inspection as configured. For more information, see Simplifying Rules to Improve Performance.

Understanding System-Provided and Custom Intrusion Policies

Cisco delivers several intrusion policies with the ASA FirePOWER module. By using system-provided intrusion policies, you can take advantage of the experience of the Cisco Vulnerability Research Team (VRT). For these policies, the VRT sets intrusion and preprocessor rule states, as well as provides the initial configurations for advanced settings. You can use system-provided policies as-is, or you can use them as the base for custom policies. Building custom policies can improve the performance of the system in your environment and provide a focused view of the malicious traffic and policy violations occurring on your network.

In addition to custom policies that you create, the system provides two custom policies: Initial Inline Policy and Initial Passive Policy. These two intrusion policies use the Balanced Security and Connectivity intrusion policy as their base. The only difference between them is their Drop When Inline setting, which enables drop behavior in the inline policy and disables it in the passive policy. For more information, see Comparing System-Provided with Custom Policies.

Connection and Intrusion Event Logging

When an intrusion policy invoked by an access control rule detects an intrusion, it generates an intrusion event. The system also automatically logs the end of the connection where the intrusion occurred, regardless of the logging configuration of the access control rule; see Connections Associated with Intrusions (Automatic).

To associate an intrusion policy with an access control rule:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy .

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy where you want to configure intrusion inspection using access control rules.

Step 3 Create a new rule or edit an existing rule; see Creating and Editing Access Control Rules.

The access control rule editor appears.

Step 4 Ensure the rule action is set to Allow , Interactive Block , or Interactive Block with reset .

Step 5 Select the Inspection tab.

The Inspection tab appears.

Step 6 Select a system-provided or custom Intrusion Policy , or select None to disable intrusion inspection for traffic that matches the access control rule.

If you select a custom intrusion policy, you can click the edit icon ( ) that appears to edit the policy; see Editing Intrusion Policies.

Step 7 Optionally, change the Variable Set associated with the intrusion policy.

You can click the edit icon ( ) that appears to edit the variable set; see Working with Variable Sets.

Step 8 Click Save to save the rule.

Your rule is saved. You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Limiting Pattern Matching for Intrusions

License: Protection

You can specify the number of packets to allow in the event queue. You can also, before and after stream reassembly, enable or disable inspection of packets that will be rebuilt into larger streams.

To configure event queue settings:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Performance Settings , then select the Pattern Matching Limits tab in the pop-up window that appears.

Step 5 You can modify the following options:

• Type a value for the maximum number of events to queue in the Maximum Pattern States to Analyze Per Packet field.
• To inspect packets which will be rebuilt into larger streams of data before and after stream reassembly, select Disable Content Checks on Traffic Subject to Future Reassembly . Inspection before and after reassembly requires more processing overhead and may decrease performance.
• To disable inspection of packets which will be rebuilt into larger streams of data before and after stream reassembly, clear Disable Content Checks on Traffic Subject to Future Reassembly . Disabling inspection decreases the processing overhead for inspection of stream inserts and may boost performance.

Step 6 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Overriding Regular Expression Limits for Intrusion Rules

License: Protection

You can override default match and recursion limits on PCRE that are used in intrusion rules to examine packet payload content. See Searching for Content Using PCRE for information on using the pcre keyword in intrusion rules. The default limits ensure a minimum level of performance. Overriding these limits could increase security, but could also significantly impact performance by permitting packet evaluation against inefficient regular expressions.

The following table describes the options you can configure to override the default limits.

To configure PCRE overrides:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Performance Settings , then select the Regular Expression Limits tab in the pop-up window that appears.

Step 5 You can modify any of the options in the Regular Expression Constraint Options table.

Step 6 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Limiting Intrusion Events Generated Per Packet

License: Protection

When the rules engine evaluates traffic against rules, it places the events generated for a given packet or packet stream in an event queue, then reports the top events in the queue to the user interface. You can elect to have the rules engine log more than one event per packet or packet stream when multiple events are generated. Logging these events allows you to collect information beyond the reported event. When configuring this option, you can specify how many events can be placed in the queue and how many are logged, and select the criteria for determining event order within the queue.

The following table describes the options you can configure to determine how many events are logged per packet or stream.

To configure how many events are logged per packet or stream:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Performance Settings , then select the Intrusion Event Logging Limits tab in the pop-up window that appears.

Step 5 You can modify any of the options in the Intrusion Event Logging Limits Options table.

Step 6 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Configuring Packet and Intrusion Rule Latency Thresholds

License: Protection

You can balance security with the need to maintain device latency at an acceptable level with packet and rule latency thresholding. For more information, see:

• Understanding Packet Latency Thresholding
• Configuring Packet Latency Thresholding
• Understanding Rule Latency Thresholding
• Configuring Rule Latency Thresholding

Understanding Packet Latency Thresholding

License: Protection

You can balance security with the need to maintain latency at an acceptable level by enabling packet latency thresholding. Packet latency thresholding measures the total elapsed time taken to process a packet by applicable decoders, preprocessors, and rules, and ceases inspection of the packet if the processing time exceeds a configurable threshold.

Packet latency thresholding measures elapsed time, not just processing time, in order to more accurately reflect the actual time required for the rule to process a packet. However, latency thresholding is a software-based latency implementation that does not enforce strict timing.

The trade-off for the performance and latency benefits derived from latency thresholding is that uninspected packets could contain attacks. However, packet latency thresholding gives you a tool you can use to balance security with connectivity.

A timer starts for each packet when decoder processing begins. Timing continues either until all processing ends for the packet or until the processing time exceeds the threshold at a timing test point.

As illustrated in the above figure, packet latency timing is tested at the following test points:

• after the completion of all decoder and preprocessor processing and before rule processing begins
• after processing by each rule

If the processing time exceeds the threshold at any test point, packet inspection ceases.

Tip Total packet processing time does not include routine TCP stream or IP fragment reassembly times.

Packet latency thresholding has no effect on events triggered by a decoder, preprocessor, or rule processing the packet. Any applicable decoder, preprocessor, or rule triggers normally until a packet is fully processed, or until packet processing ends because the latency threshold is exceeded, whichever comes first. If a drop rule detects an intrusion in an inline deployment, the drop rule triggers an event and the packet is dropped.

Note No packets are evaluated against rules after processing for that packet ceases because of a packet latency threshold violation. A rule that would have triggered an event cannot trigger that event, and for drop rules, cannot drop the packet.

For more information on drop rules, see Setting Rule States.

Packet latency thresholding can improve system performance in both passive and inline deployments, and can reduce latency in inline deployments, by stopping inspection of packets that require excessive processing time. These performance benefits might occur when, for example:

• for both passive and inline deployments, sequential inspection of a packet by multiple rules requires an excessive amount of time
• for inline deployments, a period of poor network performance, such as when someone downloads an extremely large file, slows packet processing

In a passive deployment, stopping the processing of packets might not contribute to restoring network performance because processing simply moves to the next packet.

Configuring Packet Latency Thresholding

License: Protection

The following table describes the options you can set to configure packet latency thresholding.

You can enable rule 134:3 to generate an event when the system stops inspecting a packet because the packet latency threshold is exceeded. See Setting Rule States for more information.

Many factors affect measurements of system performance and packet latency, such as CPU speed, data rate, packet size, and protocol type. For this reason, Cisco recommends that you use the threshold settings in the following table until your own calculations provide you with settings tailored to your network environment.

Determine the following when calculating your settings:

• average packets per second
• average microseconds per packet

Multiply the average microseconds per packet for your network by a significant safety factor to ensure that you do not unnecessarily discontinue packet inspections.

For example, the Minimum Packet Latency Threshold Settings table recommends a minimum packet latency threshold of 100 microseconds in a one gigabit environment. This minimum recommendation is based on test data showing an average of 250,000 packets per second, which is 0.25 packets per microsecond, or 4 microseconds per packet. Multiplying by a factor of twenty-five results in a recommended minimum threshold of 100 microseconds.

To configure packet latency thresholding:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Latency-Based Performance Settings , then select the Packet Handling tab in the pop-up window that appears.

Step 5 See the Minimum Packet Latency Threshold Settings table for recommended minimum Threshold settings.

Step 6 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Understanding Rule Latency Thresholding

License: Protection

You can balance security with the need to maintain latency at an acceptable level by enabling rule latency thresholding. Rule latency thresholding measures the elapsed time each rule takes to process an individual packet, suspends the violating rule along with a group of related rules for a specified time if the processing time exceeds the rule latency threshold a configurable consecutive number of times, and restores the rules when the suspension expires.

Rule latency thresholding measures elapsed time, not just processing time, in order to more accurately reflect the actual time required for the rule to process a packet. However, latency thresholding is a software-based latency implementation that does not enforce strict timing.

The trade-off for the performance and latency benefits derived from latency thresholding is that uninspected packets could contain attacks. However, rule latency thresholding gives you a tool you can use to balance security with connectivity.

A timer measures the processing time each time a packet is processed against a group of rules. Any time the rule processing time exceeds a specified rule latency threshold, the system increments a counter. If the number of consecutive threshold violations reaches a specified number, the system takes the following actions:

• suspends the rules for the specified period
• triggers an event indicating the rules have been suspended
• re-enables the rules when the suspension expires
• triggers an event indicating the rules have been re-enabled

The system zeroes the counter when the group of rules has been suspended, or when rule violations are not consecutive. Permitting some consecutive violations before suspending rules lets you ignore occasional rule violations that might have negligible impact on performance and focus instead on the more significant impact of rules that repeatedly exceed the rule latency threshold.

The following example shows five consecutive rule processing times that do not result in rule suspension.

In the above example, the time required to process each of the first three packets violates the rule latency threshold of 1000 microseconds, and the violations counter increments with each violation. Processing of the fourth packet does not violate the threshold, and the violations counter resets to zero. The fifth packet violates the threshold and the violations counter restarts at one.

The following example shows five consecutive rule processing times that do result in rule suspension.

In the second example, the time required to process each of the five packets violates the rule latency threshold of 1000 microseconds. The group of rules is suspended because the rule processing time of 1100 microseconds for each packet violates the threshold of 1000 microseconds for the specified five consecutive violations. Any subsequent packets, represented in the figure as packets 6 through n, are not examined against suspended rules until the suspension expires. If more packets occur after the rules are re-enabled, the violations counter begins again at zero.

Rule latency thresholding has no effect on intrusion events triggered by the rules processing the packet. A rule triggers an event for any intrusion detected in the packet, regardless of whether the rule processing time exceeds the threshold. If the rule detecting the intrusion is a drop rule in an inline deployment, the packet is dropped. When a drop rule detects an intrusion in a packet that results in the rule being suspended, the drop rule triggers an intrusion event, the packet is dropped, and that rule and all related rules are suspended. For more information on drop rules, see Setting Rule States.

Note Packets are not evaluated against suspended rules. A suspended rule that would have triggered an event cannot trigger that event and, for drop rules, cannot drop the packet.

Rule latency thresholding can improve system performance in both passive and inline deployments, and can reduce latency in inline deployments, by suspending rules that take the most time to process packets. Packets are not evaluated again against suspended rules until a configurable time expires, giving the overloaded device time to recover. These performance benefits might occur when, for example:

• hastily written, largely untested rules require an excessive amount of processing time
• a period of poor network performance, such as when someone downloads an extremely large file, causes slow packet inspection

Configuring Rule Latency Thresholding

License: Protection

You can modify the rule latency threshold, the suspension time for suspended rules, and the number of consecutive threshold violations that must occur before suspending rules.

Rule latency thresholding suspends rules for the time specified by Suspension Time when the time rules take to process a packet exceeds Threshold for the consecutive number of times specified by Consecutive Threshold Violations Before Suspending Rule .

You can enable rule 134:1 to generate an event when rules are suspended, and rule 134:2 to generate an event when suspended rules are enabled. See Setting Rule States for more information.

The following table further describes the options you can set to configure rule latency thresholding.

Many factors affect measurements of system performance, such as CPU speed, data rate, packet size, and protocol type. For this reason, Cisco recommends that you use the threshold settings in the following table until your own calculations provide you with settings tailored to your network environment.

Determine the following when calculating your settings:

• average packets per second
• average microseconds per packet

Multiply the average microseconds per packet for your network by a significant safety factor to ensure that you do not unnecessarily suspend rules.

To configure rule latency thresholding:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Latency-Based Performance Settings , then select the Rule Handling tab in the pop-up window that appears.

Step 5 You can configure any of the options in the Rule Latency Thresholding Options table.

See the Minimum Rule Latency Threshold Settings table for recommended minimum Threshold settings.

Step 6 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.

Configuring Intrusion Performance Statistic Logging

License: Protection

You can configure the basic parameters of how devices monitor and report their own performance. This allows you to specify the intervals at which the system updates performance statistics on your devices by configuring the following options.

Sample time (seconds) and Minimum number of packets

When the number of seconds specified elapses between performance statistics updates, the system verifies it has analyzed the specified number of packets. If it has, the system updates performance statistics. Otherwise, the system waits until it analyzes the specified number of packets.

Troubleshooting Options: Log Session/Protocol Distribution

Support might ask you during a troubleshooting call to log protocol distribution, packet length, and port statistics.

Troubleshooting Options: Summary

Support might ask you during a troubleshooting call to configure the system to calculate the performance statistics only when the Snort® process is shut down or restarted. To enable this option, you must also enable the Log Session/Protocol Distribution troubleshooting option.

To configure basic performance statistics parameters:

Step 1 Select Configuration > ASA FirePOWER Configuration > Policies > Access Control Policy.

The Access Control Policy page appears.

Step 2 Click the edit icon ( ) next to the access control policy you want to edit.

The access control policy editor appears.

Step 3 Select the Advanced tab.

The access control policy advanced settings page appears.

Step 4 Click the edit icon ( ) next to Performance Settings , then select the Performance Statistics tab in the pop-up window that appears.

Step 5 Modify the Sample time or Minimum number of packets as described above.

Step 6 Optionally, expand the Troubleshoot Options section and modify those options only if asked to do so by Support.

Step 7 Click OK .

You must save and apply the access control policy for your changes to take effect; see Deploying Configuration Changes.