Intrusion Prevention Performance Tuning

The following topics describe how to refine intrusion prevention performance:

About Intrusion Prevention Performance Tuning

Cisco provides several features for improving the performance of your system as it analyzes traffic for attempted intrusions. 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.

  • override default match and recursion limits on PCRE that are used in intrusion rules to examine packet payload content.

  • elect to have the rules engine log more than one event per packet or packet stream when multiple events are generated, allowing you to collect information beyond the reported event.

  • balance security with the need to maintain device latency at an acceptable level with packet and rule latency thresholding.

  • 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.

You configure these performance settings on a per-access-control-policy basis, and they apply to all intrusion policies invoked by that parent access control policy.

License Requirements for Intrusion Prevention Performance Tuning

FTD License

Threat

Classic License

Protection

Requirements and Prerequisites for Intrusion Prevention Performance Tuning

Model Support

Any.

Supported Domains

Any

User Roles

  • Admin

  • Access Admin

  • Network Admin

Limiting Pattern Matching for Intrusions

Procedure


Step 1

In the access control policy editor, click Advanced.

Step 2

Click Edit (edit icon) next to Performance Settings.

If View (view button) appears instead, settings are inherited from an ancestor policy, or you do not have permission to modify the settings.If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 3

Click Pattern Matching Limits in the Performance Settings pop-up window.

Step 4

Enter a value for the maximum number of events to queue in the Maximum Pattern States to Analyze Per Packet field.

Step 5

To disable the inspection of packets that will be rebuilt into larger streams of data before and after stream reassembly, check the Disable Content Checks on Traffic Subject to Future Reassembly check box. Inspection before and after reassembly requires more processing overhead and may decrease performance.

Step 6

Click OK.

Step 7

Click Save to save the policy.


What to do next

Regular Expression Limits Overrides for Intrusion Rules

The default regular expression 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.


Caution


Do not override default PCRE limits unless you are an experienced intrusion rule writer with knowledge of the impact of degenerative patterns.


Table 1. Regular Expression Constraint Options

Option

Description

Match Limit State

Specifies whether to override Match Limit. You have the following options:

  • select Default to use the value configured for Match Limit

  • select Unlimited to permit an unlimited number of attempts

  • select Custom to specify either a limit of 1 or greater for Match Limit, or to specify 0 to completely disable PCRE match evaluations

Match Limit

Specifies the number of times to attempt to match a pattern defined in a PCRE regular expression.

Match Recursion Limit State

Specifies whether to override Match Recursion Limit. You have the following options:

  • select Default to use the value configured for Match Recursion Limit

  • select Unlimited to permit an unlimited number of recursions

  • select Custom to specify either a limit of 1 or greater for Match Recursion Limit, or to specify 0 to completely disable PCRE recursions

Note that for Match Recursion Limit to be meaningful, it must be smaller than Match Limit.

Match Recursion Limit

Specifies the number of recursions when evaluating a PCRE regular expression against the packet payload.

Overriding Regular Expression Limits for Intrusion Rules

Procedure


Step 1

In the access control policy editor, click Advanced.

Step 2

Click Edit (edit icon) next to Performance Settings.

If View (view button) appears instead, settings are inherited from an ancestor policy, or you do not have permission to modify the settings.If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 3

Click Regular Expression Limits in the Performance Settings pop-up window.

Step 4

You can modify any of the options as described in Regular Expression Limits Overrides for Intrusion Rules.

Step 5

Click OK.

Step 6

Click Save to save the policy.


What to do next

Per Packet Intrusion Event Generation Limits

When the intrusion 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. When configuring the intrusion event logging limits, 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.

Table 2. Intrusion Event Logging Limits Options

Option

Description

Maximum Events Stored Per Packet

The maximum number of events that can be stored for a given packet or packet stream.

Maximum Events Logged Per Packet

The number of events logged for a given packet or packet stream. This cannot exceed the Maximum Events Stored Per Packet value.

Prioritize Event Logging By

The value used to determine event ordering within the event queue. The highest ordered event is reported through the user interface. You can select from:

  • priority, which orders events in the queue by the event priority.

  • content_length, which orders events by the longest identified content match. When events are ordered by content length, rule events always take precedence over decoder and preprocessor events.

Limiting Intrusion Events Generated Per Packet

Procedure


Step 1

In the access control policy editor, click Advanced.

Step 2

Click Edit (edit icon) next to Performance Settings.

If View (view button) appears instead, settings are inherited from an ancestor policy, or you do not have permission to modify the settings.If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 3

Click Intrusion Event Logging Limits in the Performance Settings pop-up window.

Step 4

You can modify any of the options in Per Packet Intrusion Event Generation Limits.

Step 5

Click OK.

Step 6

Click Save to save the policy.


What to do next

Packet and Intrusion Rule Latency Threshold Configuration

Each access control policy has latency-based settings that use thresholding to manage packet and rule processing performance.

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.

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.

Packet Latency Thresholding

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. 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.

Packet Latency diagram

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.


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.

Packet Latency Thresholding Notes

Table 3. Packet Latency Thresholding Option

Option

Description

Threshold (microseconds)

Specifies the time, in microseconds, when inspection of a packet ceases.

You can enable rule 134:3 to generate an event and, in an inline deployment, drop offending packets when the system stops inspecting a packet because the packet latency threshold is exceeded. For more information, see Intrusion Rule State Options.

Configuring Packet Latency Thresholding

Procedure

Step 1

In the access control policy editor, click Advanced.

Step 2

Click Edit (edit icon) next to Latency-Based Performance Settings.

System > Monitoring > Statistics

Step 3

If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 4

Click Packet Handling in the Latency-Based Performance Settings pop-up window.

Step 5

See Packet Latency Thresholding Notes for recommended minimum Threshold settings.

Step 6

Click OK.

Step 7

Click Save to save the policy.


What to do next

Rule Latency Thresholding

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. 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.

Example diagram

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.

Example diagram

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.


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

Rule Latency Thresholding Notes

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 Intrusion Rule State Options.

Table 4. Rule Latency Thresholding Options

Option

Description

Threshold

Specifies the time in microseconds that rules should not exceed when examining a packet.

Consecutive Threshold Violations Before Suspending Rule

Specifies the consecutive number of times rules can take longer than the time set for Threshold to inspect packets before rules are suspended.

Suspension Time

Specifies the number of seconds to suspend a group of rules.

Configuring Rule Latency Thresholding

Procedure

Step 1

In the access control policy editor, click Advanced.

Step 2

Click Edit (edit icon) next to Latency-Based Performance Settings.

If View (view button) appears instead, settings are inherited from an ancestor policy, or you do not have permission to modify the settings. If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 3

Click Rule Handling in the Latency-Based Performance Settings pop-up window.

Step 4

You can configure any of the options in Rule Latency Thresholding Notes.

Step 5

Click OK.

Step 6

Click Save to save the policy.


What to do next

Intrusion Performance Statistic Logging Configuration

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.


Caution


Do not enable Log Session/Protocol Distribution unless instructed to by Support. Note that enabling or disabling Log Session/Protocol Distribution restarts the Snort process when you deploy configuration changes, temporarily interrupting traffic inspection. Whether traffic drops during this interruption or passes without further inspection depends on how the target device handles traffic. See SnortĀ® Restart Traffic Behavior for more information.


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.


Caution


Do not enable Summary unless instructed to do so by Support.


Configuring Intrusion Performance Statistic Logging

Procedure


Step 1

In the access control policy editor, click Advanced, then click Edit (edit icon) next to Performance Settings.

If View (view button) appears instead, settings are inherited from an ancestor policy, or you do not have permission to modify the settings.If the configuration is unlocked, uncheck Inherit from base policy to enable editing.

Step 2

Click Performance Statistics in the pop-up window that appears.

Step 3

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

Step 4

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

Caution

 

Enabling or disabling Log Session/Protocol Distribution restarts the Snort process when you deploy configuration changes, temporarily interrupting traffic inspection. Whether traffic drops during this interruption or passes without further inspection depends on how the target device handles traffic. See SnortĀ® Restart Traffic Behavior for more information.

Step 5

Click OK.


What to do next