Chapter 21 Configuring Cisco Intercompany Media Engine Proxy

Configuring Cisco Intercompany Media Engine Proxy

 

Command

Purpose

 

 

 

Step 1

hostname(config)# class-mapclass_map_name

Defines a class for the inbound Cisco Intercompany

 

Examples:

Media Engine SIP traffic.

 

hostname(config)# class-map ime-inbound-sip

 

 

 

 

Step 2

hostname(config-cmap)# match access-list

Identifies the SIP traffic to inspect.

 

access_list_name

Where the access_list_name is the ACL you

 

Examples:

 

hostname(config-cmap)# match access-list

created in Step 3, page 21-16of the task Creating

 

ime-inbound-sip

ACLs for Cisco Intercompany Media Engine Proxy.

 

 

 

Step 3

hostname(config-cmap)# exit

Exits from the class map configuration mode.

 

 

 

Step 4

hostname(config)# class-mapclass_map_name

Defines a class for the outbound SIP traffic from

 

Examples:

Cisco Intercompany Media Engine.

 

hostname(config)# class-map ime-outbound-sip

 

 

 

 

Step 5

hostname(config)# match access-listaccess_list_name

Identifies which outbound SIP traffic to inspect.

 

Examples:

Where the access_list_name is the ACL you

 

hostname(config-cmap)# match access-list

 

ime-outbound-sip

created in Step 4, page 21-16of the task Creating

 

 

ACLs for Cisco Intercompany Media Engine Proxy.

 

 

 

Step 6

hostname(config-cmap)# exit

Exits from the class map configuration mode.

 

 

 

Step 7

hostname(config)# policy-mapname

Defines the policy map to which to attach the actions

 

Examples:

for the class of traffic.

 

hostname(config)# policy-map ime-policy

 

 

 

 

Step 8

hostname(config-pmap)# class classmap_name

Assigns a class map to the policy map so that you

 

Examples:

can assign actions to the class map traffic.

 

hostname(config-pmap)# class ime-outbound-sip

Where classmap_name is the name of the SIP class

 

 

 

 

map that you created in Step 1 in this task.

 

 

 

Step 9

hostname(config-pmap-c)# inspect sip [sip_map]

Enables the TLS proxy and Cisco Intercompany

 

tls-proxyproxy_name uc-imeuc_ime_map

Media Engine Proxy for the specified SIP inspection

 

Examples:

session.

 

hostname(config-pmap-c)# inspect sip tls-proxy

 

 

 

local_to_remote-ent uc-ime local-ent-ime

 

 

 

 

Step 10

hostname(config-cmap-c)# exit

Exits from the policy map class configuration mode.

 

 

 

Step 11

hostname(config-pmap)# class class_map_name

Assigns a class map to the policy map so that you

 

Examples:

can assign actions to the class map traffic.

 

hostname(config-pmap)# class ime-inbound-sip

Where classmap_name is the name of the SIP class

 

 

 

 

map that you created in Step 4 in this task.

 

 

 

Step 12

hostname(config-pmap-c)# inspect sip [sip_map]

Enables the TLS proxy and Cisco Intercompany

 

tls-proxyproxy_name uc-imeuc_ime_map

Media Engine Proxy for the specified SIP inspection

 

Examples:

session.

 

hostname(config-pmap-c)# inspect sip tls-proxy

 

 

 

remote-to-local-ent uc-ime local-ent-ime

 

 

 

 

Step 13

hostname(config-pmap-c)# exit

Exits from the policy map class configuration mode.

 

 

 

Cisco ASA Series Firewall ASDM Configuration Guide

21-26

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Cisco Systems ASA 5580, ASA 5505, ASA 5545-X, ASA 5555-X, ASA 5585-X ACLs for Cisco Intercompany Media Engine Proxy, 21-26
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ASA Services Module, ASA 5555-X, ASA 5545-X, ASA 5585-X, ASA 5580 specifications

Cisco Systems has long been a leader in the field of network security, and its Adaptive Security Appliance (ASA) series is a testament to this expertise. Within the ASA lineup, models such as the ASA 5505, ASA 5580, ASA 5585-X, ASA 5545-X, and ASA 5555-X stand out for their unique features, capabilities, and technological advancements.

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For enterprises requiring a balance of performance and security, the ASA 5545-X presents a compelling option. This model features scalable performance metrics, high availability, and integrated advanced threat protection. Coupled with advanced endpoint protection and detailed monitoring capabilities, the ASA 5545-X enables organizations to manage their security posture effectively.

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Each of these Cisco ASA models brings specific advantages to varied environments. Their integrative capabilities enable businesses to enhance their security postures while benefiting from seamless scalability and management. As cybersecurity threats evolve, these advanced appliances play a vital role in protecting valuable digital assets.
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