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Microsoft announced seven security bulletins that address 66 vulnerabilities as part of the monthly security bulletin release on June 10, 2014. A summary of these bulletins is on the Microsoft website at http://technet.microsoft.com/en-us/security/bulletin/ms14-jun. This document provides identification and mitigation techniques that administrators can deploy on Cisco network devices.
The vulnerabilities that have a client software attack vector, can be exploited locally on the vulnerable device, require user interaction, or can be exploited using web-based attacks (these include but are not limited to cross-site scripting, phishing, and web-based e-mail threats), or files stored on network shares are in the following list:
The vulnerabilities that have a network mitigation, including web and email security issues, are in the following list. Cisco devices provide several countermeasures for the vulnerabilities that have a network attack vector, which will be discussed in detail later in this document.
Information about affected and unaffected products is available in the respective Microsoft advisories and the Cisco Alerts that are referenced in Cisco Event Response: Microsoft Security Bulletin Release for June 2014.
In addition, multiple Cisco products use Microsoft operating systems as their base operating system. Cisco products that may be affected by the vulnerabilities described in the referenced Microsoft advisories are detailed in the "Associated Products" table in the "Product Sets" section.
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MS14-032, Vulnerability in Microsoft Lync Server Could Allow Information Disclosure (2969258): This vulnerability has been assigned Common Vulnerabilities and Exposures (CVE) identifier CVE-2014-1823. This vulnerability can be exploited remotely without authentication and requires user interaction. The attack vector is via cross-site scripting and phishing. Successful exploitation of this vulnerability may allow information disclosure, which enables an attacker to learn information about the affected device. The attack vector is the HTTP protocol using TCP port 80. Due to the nature of cross-site scripting vulnerabilities, no additional information will be presented in this bulletin.
For additional information about cross-site scripting attacks and the methods used to exploit these vulnerabilities, refer to the Cisco Applied Mitigation Bulletin Understanding Cross-Site Scripting (XSS) Threat Vectors.
MS14-033, Vulnerability in Microsoft XML Core Services Could Allow Information Disclosure(2966061): This vulnerability has been assigned Common Vulnerabilities and Exposures (CVE) identifier CVE-2014-1816. This vulnerability can be exploited remotely without authentication and require user interaction. Successful exploitation of this vulnerability may allow information disclosure. The attack vector for exploitation of this vulnerability is through HTTP and HTTPS packets that typically use TCP port 80 and port 443 but may also use TCP ports 3128, 8000, 8010, 8080, 8888, and 24326.
The Cisco ASA 5500 and 5500-X Series Adaptive Security Appliance, Cisco Catalyst 6500 Series ASA Services Module (ASASM), and Cisco Firewall Services Module (FWSM) for Cisco Catalyst 6500 Series Switches and Cisco 7600 Series Routers, the Cisco Web and Email Security Appliances, and Cisco Cloud Web Security provide protection for potential attempts to exploit this vulnerability. For configuration and use information see the Preventing ActiveX Exploits with Cisco Firewall Application Layer Protocol Inspection Cisco Security white paper.
The Cisco ACE Application Control Engine Appliance and Module provide protection for potential attempts to exploit these vulnerabilities. For configuration and use information see the Preventing ActiveX Exploits with Cisco Application Control Engine Application Layer Protocol Inspection Cisco Security white paper.
Cross-site scripting and phishing could also be used to exploit these vulnerabilities. For additional information about cross-site scripting attacks and the methods used to exploit these vulnerabilities, refer to the Cisco Applied Mitigation Bulletin Understanding Cross-Site Scripting (XSS) Threat Vectors.
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The vulnerabilities that have a client software attack vector, or require user interaction, or can be exploited using web-based attacks (these include but are not limited to cross-site scripting, phishing, and web-based e-mail threats) or e-mail attachments, or files stored on network shares are in the following list:
These vulnerabilities are mitigated most successfully at the endpoint through software updates, user education, desktop administration best practices, and endpoint protection software such as Host Intrusion Prevention Systems (HIPS) or antivirus products.
The vulnerability that has a network mitigation, including web and email security issues, are in the following list. Cisco devices provide several countermeasures for these vulnerabilities. This section of the document provides an overview of these techniques.
Effective means of exploit prevention can also be provided by Cisco ASA 5500 and 5500-X Series Adaptive Security Appliance, Cisco Catalyst 6500 Series ASA Services Module (ASASM), and the Firewall Services Module (FWSM) for Cisco Catalyst 6500 Series Switches and Cisco 7600 Series Routers using Application layer protocol inspection.
This protection mechanism filters and drops packets that are attempting to exploit the vulnerability that has a network attack vector.
Effective exploit prevention can also be provided by the Cisco ACE Application Control Engine Appliance and Module using application protocol inspection.
Effective use of Cisco Intrusion Prevention System (IPS) event actions provides visibility into and protection against attacks that attempt to exploit these vulnerabilities.
Effective use of Sourcefire Intrusion Prevention System(IPS) event actions provides visibility into and protection against attacks that attempt to exploit these vulnerabilities.
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Organizations are advised to follow their standard risk evaluation and mitigation processes to determine the potential impact of these vulnerabilities. Triage refers to sorting projects and prioritizing efforts that are most likely to be successful. Cisco has provided documents that can help organizations develop a risk-based triage capability for their information security teams. Risk Triage for Security Vulnerability Announcements and Risk Triage and Prototyping can help organizations develop repeatable security evaluation and response processes.
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Device-Specific Mitigation and Identification
Caution: The effectiveness of any mitigation technique depends on specific customer situations such as product mix, network topology, traffic behavior, and organizational mission. As with any configuration change, evaluate the impact of this configuration prior to applying the change.
Specific information about mitigation and identification is available for these devices:
Cisco ASA, Cisco ASASM, and Cisco FWSM Firewalls
Mitigation: Application Layer Protocol Inspection
Application layer protocol inspection is available beginning in Cisco IOS Software Release 7.2(1) for the Cisco ASA 5500 and 5500-X Series Adaptive Security Appliance, IOS Software Release 8.5 for the Cisco Catalyst 6500 Series ASA Services Module, and in IOS Software Release 4.0(1) for the Cisco Firewall Services Module. This advanced security feature performs deep packet inspection of traffic that transits the firewall. Administrators may construct an inspection policy for applications that require special handling through the configuration of inspection class maps and inspection policy maps, which are applied via a global or interface service policy. Application inspection will inspect both IPv4 and IPv6 packets matched in the class-map of the policy.
Additional information about application layer protocol inspection and the Modular Policy Framework (MPF) is in the Getting Started with Application Layer Protocol Inspection section of Book 2: Cisco ASA Series Firewall CLI Configuration Guide, 9.1.
Caution: Application layer protocol inspection will decrease firewall performance. Administrators are advised to test performance impact in a lab environment before this feature is deployed in production environments.
HTTP Application Inspection
For MS14-033, by using the HTTP inspection engine on the Cisco ASA 5500 and 5500-X Series Adaptive Security Appliances, Cisco 6500 Series ASA Services Modules, and the Cisco Firewall Services Module, administrators can configure regular expressions (regexes) for pattern matching and construct inspection class maps and inspection policy maps. These methods can help protect against specific vulnerabilities, such as the one described in this document, and other threats that may be associated with HTTP traffic. The following HTTP application inspection configuration uses the Cisco Modular Policy Framework (MPF) to create a policy for inspection of traffic on TCP ports 80, 3128, 8000, 8010, 8080, 8888, and 24326, which are the default ports for the Cisco IPS #WEBPORTS variable. The HTTP application inspection policy will drop connections where the HTTP response body contains any of the regexes that are configured to match the ActiveX control that is associated with these vulnerabilities.Caution: The configured regexes can match text strings at any location in the body of an HTML response. Care should be taken to ensure that legitimate business applications that use matching text strings without calling the ActiveX control are not affected. Additional information about regex syntax is in Creating a Regular Expression.
Additional information about ActiveX exploits and mitigations that leverage Cisco firewall technologies is available in the Preventing ActiveX Exploits with Cisco Firewall Application Layer Protocol Inspection Cisco Security white paper.
! !-- Configure regexes for the ActiveX Class ID's !-- MS14-033 ActiveX Class ID: !-- "f5078f39-c551-11d3-89b9-0000f81fe221" !-- MS14-033 ActiveX Class ID: !-- "f6d90f16-9c73-11d3-b32e-00c04f990bb4" !-- and MS14-033 ActiveX Program ID: "MSXML2.XMLHTTP.3.0" !-- that are associated with MS14-033 ! regex CLSID_MS14-033_1 "[fF]5078[fF]39[-][cC]551[-] 11[dD]3[-]89[bB]9[-]0000[fF]81[fF][eE]221" regex CLSID_MS14-033_2 "[fF]6[dD]90[fF]16[-]9[cC]73[-] 11[dD]3[-][bB]32[eE][-]00[cC]04[fF]990[bB][bB]4" regex ProgID_MS14-033 "[Mm][Ss][Xx][Mm][Ll]2\. [Xx][Mm][Ll][Hh][Tt][Tt][Pp]\.3\.0" ! !-- Configure a regex class to match on the regular !-- expressions that are configured above ! class-map type regex match-any MS14-033_regex_class match regex CLSID_MS14-033_1 match regex CLSID_MS14-033_2 match regex ProgID_MS14-033 ! !-- Configure an object group for the default ports that !-- are used by the Cisco IPS #WEBPORTS variable, which !-- are TCP ports 80 (www), 3128, 8000, 8010, 8080, 8888, !-- and 24326 ! object-group service WEBPORTS tcp port-object eq www port-object eq 3128 port-object eq 8000 port-object eq 8010 port-object eq 8080 port-object eq 8888 port-object eq 24326 ! !-- Configure an access list that uses the WEBPORTS object !-- group, which will be used to match TCP packets that !-- are destined to the #WEBPORTS variable that is used !-- by a Cisco IPS device ! access-list Webports_ACL extended permit tcp any any object-group WEBPORTS ! !-- Configure a class that uses the above-configured !-- access list to match TCP packets that are destined !-- to the ports that are used by the Cisco IPS #WEBPORTS !-- variable ! class-map Webports_Class match access-list Webports_ACL ! !-- Configure an HTTP application inspection policy that !-- identifies, drops, and logs connections that contain !-- the regexes that are configured above ! policy-map type inspect http MS_Jun_2014_policy parameters ! !-- "body-match-maximum" indicates the maximum number of !-- characters in the body of an HTTP message that !-- should be searched in a body match. The default value is !-- 200 bytes. A large number such as shown here may have an !-- impact on system performance. Administrators are advised !-- to test performance impact in a lab environment before !-- this command is deployed in production environments. ! body-match-maximum 1380 match response body regex class MS14-033_regex_class drop-connection log ! !-- Add the above-configured "Webports_Class" that matches !-- TCP packets that are destined to the default ports !-- that are used by the Cisco IPS #WEBPORTS variable to !-- the default policy "global_policy" and use it to !-- inspect HTTP traffic that transits the firewall ! policy-map global_policy class Webports_Class inspect http MS_Jun_2014_policy ! !-- By default, the policy "global_policy" is applied !-- globally, which results in the inspection of !-- traffic that enters the firewall from all interfaces ! service-policy global_policy global
For additional information about the configuration and use of object groups, reference the Adding Global Objects section of Book 1: Cisco ASA Series General Operations CLI Configuration Guide, 9.1.
Additional information about HTTP application inspection and the MPF is in the HTTP Inspection section of Book 2: Cisco ASA Series Firewall CLI Configuration Guide, 9.1.
For information on using the Cisco Firewall CLI to gauge the effectiveness of application inspection, please refer to the Cisco Security white paper Identification of Security Exploits with Cisco ASA, Cisco ASASM, and Cisco FWSM Firewalls.
Cisco ACE
Mitigation: Application Protocol Inspection
Application protocol inspection is available for the Cisco ACE Application Control Engine Appliance and Module. This advanced security feature performs deep packet inspection of traffic that transits the Cisco ACE device. Administrators can construct an inspection policy for applications that require special handling through the configuration of inspection class maps and inspection policy maps, which are applied via a global or interface service policy.
Additional information about application protocol inspection is in the Configuring Application Protocol Inspection section of the Security Guide vA5(1.0), Cisco ACE Application Control Engine.
HTTP Deep Packet Inspection
To conduct HTTP deep packet inspection for MS14-033, administrators can configure regular expressions (regexes) for pattern matching and construct inspection class maps and inspection policy maps. These methods can help protect against specific vulnerabilities, such as those described in this document, and other threats that may be associated with HTTP traffic. The following HTTP application protocol inspection configuration inspects traffic on TCP ports 80, 3128, 8000, 8010, 8080, 8888, and 24326, which are the default ports for the Cisco IPS #WEBPORTS variable. The HTTP application protocol inspection policy will drop connections where the HTTP content contains any of the regexes that are configured to match the ActiveX control that is associated with these vulnerabilities.
Caution: The configured regexes can match text strings at any location in the content of an HTML packet. Care should be taken to ensure that legitimate business applications that use matching text strings without calling the ActiveX control are not affected.
Additional information about ActiveX exploits and mitigations that leverage the Cisco ACE Application Control Engine Appliance and Module is available in the Preventing ActiveX Exploits with Cisco Application Control Engine Application Layer Protocol Inspection Cisco Security white paper.
! !-- Configure an HTTP application inspection class that !-- looks for HTTP packets that contain the regexes for the !-- ActiveX Class ID's !-- MS14-033 ActiveX Class ID: !-- "f5078f39-c551-11d3-89b9-0000f81fe221" !-- MS14-033 ActiveX Class ID: !-- "f6d90f16-9c73-11d3-b32e-00c04f990bb4" !-- and MS14-033 ActiveX Program ID: "MSXML2.XMLHTTP.3.0" !-- that are associated with MS14-033 ! class-map type http inspect match-any MS14-033_class match content ".*[fF]5078[fF]39[-][cC]551[-] 11[dD]3[-]89[bB]9[-]0000[fF]81[fF][eE]221.*" match content ".*[fF]6[dD]90[fF]16[-]9[cC]73[-] 11[dD]3[-][bB]32[eE][-]00[cC]04[fF]990[bB][bB]4.*" match content ".*[Mm][Ss][Xx][Mm][Ll]2\. [Xx][Mm][Ll][Hh][Tt][Tt][Pp]\.3\.0.*" ! !-- Configure an HTTP application inspection policy that !-- identifies, resets, and logs connections that contain !-- the regexes that are configured above ! policy-map type inspect http all-match MS_Jun_2014 class MS14-033_class reset log ! !-- Configure an access list that matches TCP packets !-- that are destined to the #WEBPORTS variable that is !-- used by a Cisco IPS device ! access-list WEBPORTS line 8 extended permit tcp any any eq www access-list WEBPORTS line 16 extended permit tcp any any eq 3128 access-list WEBPORTS line 24 extended permit tcp any any eq 8000 access-list WEBPORTS line 32 extended permit tcp any any eq 8010 access-list WEBPORTS line 40 extended permit tcp any any eq 8080 access-list WEBPORTS line 48 extended permit tcp any any eq 8888 access-list WEBPORTS line 56 extended permit tcp any any eq 24326 ! !-- Configure a Layer 4 class that uses the above-configured !-- access list to match TCP packets that are destined !-- to the ports that are used by the Cisco IPS #WEBPORTS !-- variable ! class-map match-all L4_http_class match access-list WEBPORTS ! !-- Configure a Layer 4 policy that applies the HTTP application !-- inspection policy configured above to TCP packets that !-- are destined to the ports that are used by the Cisco IPS !-- #WEBPORTS variable ! policy-map multi-match L4_MS_Jun_2014 class L4_http_class inspect http policy MS_Jun_2014 ! !-- Apply the configuration globally across all interfaces, !-- which results in the inspection of all traffic that enters !-- the ACE ! service-policy input L4_MS_Jun_2014
For information about to use the ACE CLI to gauge the effectiveness of application inspection, refer to the Cisco Security white paper Identification of Malicious Traffic Using Cisco ACE.
Cisco Intrusion Prevention System
Mitigation: Cisco IPS Signature Event Actions
Administrators can use the Cisco IPS appliances and services modules to provide threat detection and help prevent attempts to exploit several of the vulnerabilities described in this document. The following table provides an overview of CVE identifiers and the respective Cisco IPS signatures that will trigger events on potential attempts to exploit these vulnerabilities.
CVE ID Signature Release Signature ID Signature Name Enabled Severity Fidelity* CVE-2014-0282 S806 4301/0 Microsoft Internet Explorer Memory Corruption Vulnerability Yes High 85 CVE-2014-1762 S806 4394/0 Microsoft Internet Explorer Use After Free Remote code Execution Vulnerability Yes High 85 CVE-2014-1766 S806 4301/0 Microsoft Internet Explorer Memory Corruption Vulnerability Yes High 90 CVE-2014-1772 S806 4290/0 Microsoft Internet Explorer Memory Corruption Vulnerability Yes High 85 CVE-2014-1785 S806 4379-0 Microsoft Internet Explorer Use After Free Vulnerability Yes High 80 CVE-2014-1789 S806 4374/0 Microsoft Internet Explorer Memory Corruption Vulnerability Yes High 85 CVE-2014-1791 S806 4377/0 Microsoft Internet Explorer Use After Free Remote Code Execution Vulnerability Yes High 85 CVE-2014-1795 S806 4391/0 Microsoft Internet Explorer Remote Code Execution Vulnerability Yes High 90 CVE-2014-1797 S806 4372/0 Microsoft Internet Explorer Remote Code Execution Vulnerability Yes High 85 CVE-2014-1800 S806 4388/0 Microsoft Internet Explorer Use After Free Vulnerability Yes High 85 CVE-2014-1802 S806 4389/0 Microsoft Internet Explorer Memory Corruption Vulnerability Yes High 85 * Fidelity is also referred to as Signature Fidelity Rating (SFR) and is the relative measure of the accuracy of the signature (predefined). The value ranges from 0 through 100 and is set by Cisco Systems, Inc.
Administrators can configure Cisco IPS sensors to perform an event action when an attack is detected. The configured event action performs preventive or deterrent controls to help protect against an attack that is attempting to exploit the vulnerabilities listed in the preceding table.
Cisco IPS sensors are most effective when deployed in inline protection mode combined with the use of an event action. Automatic Threat Prevention for Cisco IPS 7.x and 6.x sensors that are deployed in inline protection mode provides threat prevention against an attack that is attempting to exploit the vulnerability that is described in this document. Threat prevention is achieved through a default override that performs an event action for triggered signatures with a riskRatingValue greater than 90.
For additional information about the risk rating and threat rating calculation, reference Risk Rating and Threat Rating: Simplify IPS Policy Management.
For information about using Cisco Security Manager to view the activity from a Cisco IPS sensor, see Identification of Malicious Traffic Using Cisco Security Manager white paper.
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Additional Information
THIS DOCUMENT IS PROVIDED ON AN "AS IS" BASIS AND DOES NOT IMPLY ANY KIND OF GUARANTEE OR WARRANTY, INCLUDING THE WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR USE. YOUR USE OF THE INFORMATION ON THE DOCUMENT OR MATERIALS LINKED FROM THE DOCUMENT IS AT YOUR OWN RISK. CISCO RESERVES THE RIGHT TO CHANGE OR UPDATE THIS DOCUMENT AT ANY TIME.
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Version Description Section Date 1 Initial Release 2014-June-10 17:57 GMT
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Cisco Security Procedures
Complete information about reporting security vulnerabilities in Cisco products, obtaining assistance with security incidents, and registering to receive security information from Cisco is available on Cisco.com at https://sec.cloudapps.cisco.com/security/center/resources/security_vulnerability_policy.html. This web page includes instructions for press inquiries regarding Cisco Security Advisories. All Cisco Security Advisories are available at http://www.cisco.com/go/psirt.
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The security vulnerability applies to the following combinations of products.
Primary Products Microsoft, Inc. Internet Explorer 6.0 (Base, SP1, SP2) | 7.0 (Base) | 8.0 (Base) | 9.0 (Base) | 10.0 (Base) | 11.0 (Base) Microsoft XML Core Services 3.0 (Base) | 6.0 (Base) Office 2007 (SP3) | 2010 (SP1, SP2) Office Compatibility Pack SP3 (Base) Windows 7 for 32-bit systems (SP1) | for x64-based systems (SP1) Windows 8 for 32-bit systems (Base) | for x64-based systems (Base) Windows 8.1 for 32-bit Systems (Base) | for x64-based Systems (Base) Windows RT Original Release (Base) | 8.1 (Base) Windows Server 2003 Datacenter Edition (SP2) | Datacenter Edition, 64-bit (Itanium) (SP2) | Datacenter Edition x64 (AMD/EM64T) (SP2) | Enterprise Edition (SP2) | Enterprise Edition, 64-bit (Itanium) (SP2) | Enterprise Edition x64 (AMD/EM64T) (SP2) | Standard Edition (SP2) | Standard Edition, 64-bit (Itanium) (SP2) | Standard Edition x64 (AMD/EM64T) (SP2) | Web Edition (SP2) Windows Server 2008 Datacenter Edition (SP2) | Datacenter Edition, 64-bit (SP2) | Itanium-Based Systems Edition (SP2) | Enterprise Edition (SP2) | Enterprise Edition, 64-bit (SP2) | Essential Business Server Standard (SP2) | Essential Business Server Premium (SP2) | Essential Business Server Premium, 64-bit (SP2) | Standard Edition (SP2) | Standard Edition, 64-bit (SP2) | Web Server (SP2) | Web Server, 64-bit (SP2) Windows Server 2008 R2 x64-Based Systems Edition (SP1) | Itanium-Based Systems Edition (SP1) Windows Server 2012 Original Release (Base) Windows Server 2012 R2 Original Release (Base) Windows Vista Home Basic (SP2) | Home Premium (SP2) | Business (SP2) | Enterprise (SP2) | Ultimate (SP2) | Home Basic x64 Edition (SP2) | Home Premium x64 Edition (SP2) | Business x64 Edition (SP2) | Enterprise x64 Edition (SP2) | Ultimate x64 Edition (SP2) Word 2007 (SP3) Lync 2010 (Base) | 2013 (Base) Lync Attendee 2010 (Base) Lync Basic 2013 (Base) Live Meeting 2007 (Base)
Associated Products Cisco Cisco Broadband Troubleshooter Original Release (Base) | 3.1 (Base) | 3.2 (Base) Cisco Building Broadband Service Manager (BBSM) Original Release (Base) | 2.5 (.1) | 3.0 (Base) | 4.0 (Base, .1) | 4.2 (Base) | 4.3 (Base) | 4.4 (Base) | 4.5 (Base) | 5.0 (Base) | 5.1 (Base) | 5.2 (Base) Cisco CNS Network Registrar 2.5 (Base) | 3.0 (Base) | 3.5 (Base, .1) | 5.0 (Base) | 5.5 (Base, .13) | 6.0 (.5, .5.2, .5.3, .5.4) | 6.1 (Base, .1, .1.1, .1.2, .1.3, .1.4) Cisco Collaboration Server Dynamic Content Adapter (DCA) Original Release (Base) | 1.0 (Base) | 2.0 (Base, (1)_SR2) Cisco Computer Telephony Integration (CTI) Option 4.7 ((0)_SR1, (0)_SR2, (0)_SR3, (0)_SR4) | 5.1 ((0)_SR1, (0)_SR2, (0)_SR3) | 6.0 ((0)_SR1, (0)_SR2, (0)_SR3, (0)_SR4, (0)_SR5) | 7.0 ((0)_SR1, (0)_SR2) | 7.1 ((2), (3), (4), (5)) Cisco Conference Connection 1.1 ((3), (3)spA) | 1.2 (Base, (1), (2), (2)SR1, (2)SR2) Cisco E-mail Manager Original Release (Base) | 4.0 (Base, .5i, .6) | 5.0 (Base, (0)_SR1, (0)_SR3, (0)_SR4, (0)_SR5, (0)_SR6, (0)_SR7) Cisco Emergency Responder 1.1 (Base, (3), (4)) | 1.2 (Base, (1), (1)SR1, (2), (2)sr1, (3)a, (3)SR1, (3a)SR2) | 1.3 (Base, (1a), (2)) Cisco Intelligent Contact Manager (ICM) Original Release (Base) | 4.6 ((2)_SR1, (2)_SR2, (2)_SR3, (2)_SR4, (2)_SR5, (2)_SR6) | 5.0 ((0), (0)_SR2, (0)_SR3, (0)_SR4, (0)_SR5, (0)_SR7, (0)_SR8, (0)_SR9, (0)_SR10, (0)_SR11, (0)_SR12, (0)_SR13) | 6.0 ((0)_SR1, (0)_SR2, (0)_SR3, (0)_SR4, (0)_SR5, (0)_SR6, (0)_SR7, (0)_SR8, (0)_SR9, (0)_SR10) | 7.0 ((0)_SR1, (0)_SR2, (0)_SR3, (0)_SR4) | 7.1 ((2), (3), (4), (5)) Cisco Unified Contact Center Enterprise Edition (Base, 4.6.2, 5.0, 6.0, 7.0, 7.1, 7.1.1, 7.1.3) | Express Edition (Base, 2.0, 2.0.2, 2.1, 2.1.1a, 2.1.2, 2.1.3, 2.2, 2.2.1, 2.2.2, 2.2.3b, 2.2.3b_spE, 3.0, 3.0.2, 3.0.3a_spA, 3.0.3a_spB, 3.0.3a_spC, 3.0.3a_spD, 3.1, 3.1(1)_SR1, 3.1(1)_SR2, 3.1(2)_SR1, 3.1(2)_SR2, 3.1(2)_SR3, 3.1(2)_SR4, 3.1(3)_SR2, 3.1(3)_SR3, 3.1(3)_SR4, 3.1(3)_SR5, 3.5, 3.5.1, 3.5(1)_SR1, 3.5(2)_SR1, 3.5(3), 3.5(3)_SR1, 3.5(3)_SR2, 3.5(3)_SR3, 3.5(4)_SR1, 3.5(4)_SR2, 4.0, 4.0(1)_SR1, 4.0(4)_SR1, 4.0(5)_SR1, 4.1, 4.1(1)_SR1, 4.5, 4.5(2)_SR1, 4.5(2)_SR2, 5.0(1)_SR1) | Hosted Edition (Base, 4.6.2, 5.0, 6.0, 7.0, 7.1, 7.1.1, 7.1.3) Cisco Unified IP IVR 2.0 (.2) | 2.1 (.1a, .2, .3) | 2.2 ((5), .1, .2, .3b, .3b_spE, .5, .4) | 3.0 (.1_spB, .2, .3a_spA, .3a_spB, .3a_spC, .3a_spD) | 3.1 ((1)_SR2, (2)_SR1, (2)_SR2, (2)_SR3, (3)_SR1, (3)_SR2, (3)_SR3, (3)_SR4, (3)_SR5) | 3.5 ((1)_SR1, (1)_SR2, (1)_SR3, (2)_SR1, (3)_SR1, (3)_SR2, (3)_SR3, (4)_SR1, (4)_SR2, .1, .3) | 4.0 ((1)_SR1, (4)_SR1) | 4.1 ((1)_SR1) | 4.5 ((2)_SR1, (2)_SR2) | 5.0 ((1)_SR1) Cisco IP Interoperability and Collaboration System (IPICS) 1.0 ((1.1)) Cisco IP Queue Manager 2.2 (Base) Cisco IP/VC 3540 Application Server Module 3.2 (.0.1, .138) | 3.5 (.0.8) Cisco IP/VC 3540 Rate Matching Module 3.0 (.9) Cisco Media Blender Original Release (Base) | 3.0 (Base) | 4.0 (Base) | 5.0 (Base, (0)_SR1, (0)_SR2) Cisco Networking Services for Active Directory Original Release (Base) Cisco Outbound Option Original Release (Base) Cisco Personal Assistant 1.0 (Base, (1)) | 1.1 (Base) | 1.3 (Base, .1, .2, .3, .4) | 1.4 (Base, .2, .3, .4, .5, .6) Cisco Remote Monitoring Suite Option 1.0 (Base) | 2.0 (Base, (0)_SR1) Cisco Secure Access Control Server (ACS) for Windows 2.6 (Base) | 2.6.3.2 (Base) | 2.6.4 (Base) | 2.6.4.4 (Base) | 3.0 (Base) | 3.0.1 (Base) | 3.0.1.40 (Base) | 3.0.2 (Base) | 3.0.3 (Base) | 3.0.3.6 (Base) | 3.0.4 (Base) | 3.1.1 (Base) | 3.1.1.27 (Base) | 3.1.2 (Base) | 3.2 (Base) | 3.2.1 (Base) | 3.2.3 (Base) | 3.3.1 (Base) | 3.3.2.2 (Base) | 3.3.1.16 (Base) | 3.3.3.11 (Base) | 4.0 (Base) | 4.0.1 (Base) | 4.0.1.27 (Base) | 4.1.1.23 (Base) Cisco Secure Access Control Server Solution Engine (ACSE) 3.1 (Base, .1) | 3.2 (Base, .1.20, .2.5, .3) | 3.3 (Base, .1, .1.16, .2.2, .3, .4, .4.12) | 4.0 (Base, .1, .1.42, .1.44, .1.49) | 4.1 (Base, .1.23, .1.23.3, .3, .3.12) Cisco Secure User Registration Tool (URT) Original Release (Base) | 1.2 (Base, .1) | 2.0 (Base, .7, .8) | 2.5 (Base, .1, .2, .3, .4, .5) Cisco SN 5420 Storage Router 1.1 (Base, .3, .4, .5, .7, .8) | 2.1 (.1, .2) Cisco SN 5428-2 Storage Router 3.2 (.1, .2) | 3.3 (.1, .2) | 3.4 (.1) | 3.5 (Base, .1, .2, .3, .4) Cisco Trailhead Original Release (Base) | 4.0 (Base) Cisco Unified Communications Manager Original Release (Base) | 1.0 (Base) | 2.0 (Base) | 3.0 (Base) | 3.0.3(a) (Base) | 3.1 (Base, .1, .2, .3a) | 3.1(1) (Base) | 3.1(2) (Base) | 3.1(2)SR3 (Base) | 3.1(3) (Base) | 3.1(3)SR2 (Base) | 3.1(3)SR4 (Base) | 3.2 (Base) | 3.2(3)SR3 (Base) | 3.3 (Base) | 3.3(2)SPc (Base) | 3.3(3) (Base) | 3.3(3)ES61 (Base) | 3.3(3)SR3 (Base) | 3.3(3)SR4a (Base) | 3.3(3a) (Base) | 3.3(4) (Base) | 3.3(4)ES25 (Base) | 3.3(4)SR2 (Base) | 3.3(4c) (Base) | 3.3(5) (Base) | 3.3(5)ES24 (Base) | 3.3(5)SR1 (Base) | 3.3(5)SR1a (Base) | 3.3(5)SR2 (Base) | 3.3(5)SR2a (Base) | 3.3(5)SR3 (Base) | 3.3(59) (Base) | 3.3(61) (Base) | 3.3(63) (Base) | 3.3(64) (Base) | 3.3(65) (Base) | 3.3(66) (Base) | 3.3(67.5) (Base) | 3.3(68.1) (Base) | 3.3(71.0) (Base) | 3.3(74.0) (Base) | 3.3(78) (Base) | 3.3(76) (Base) | 4.0 (.1, .2) | 4.0(2a)ES40 (Base) | 4.0(2a)ES56 (Base) | 4.0(2a)SR2b (Base) | 4.0(2a)SR2c (Base) | 4.1 (Base) | 4.1(2) (Base) | 4.1(2)ES33 (Base) | 4.1(2)ES50 (Base) | 4.1(2)SR1 (Base) | 4.1(3) (Base) | 4.1(3)ES (Base) | 4.1(3)ES07 (Base) | 4.1(3)ES24 (Base) | 4.1(3)SR (Base) | 4.1(3)SR1 (Base) | 4.1(3)SR2 (Base) | 4.1(3)SR3 (Base) | 4.1(3)SR3b (Base) | 4.1(3)SR3c (Base) | 4.1(3)SR4 (Base) | 4.1(3)SR4b (Base) | 4.1(3)SR4d (Base) | 4.1(3)SR5 (Base) | 4.1(4) (Base) | 4.1(9) (Base) | 4.1(17) (Base) | 4.1(19) (Base) | 4.1(22) (Base) | 4.1(23) (Base) | 4.1(25) (Base) | 4.1(26) (Base) | 4.1(27.7) (Base) | 4.1(28.2) (Base) | 4.1(30.4) (Base) | 4.1(36) (Base) | 4.1(39) (Base) | 4.2(1) (Base) | 4.2(1)SR1b (Base) | 4.2(1.02) (Base) | 4.2(1.05.3) (Base) | 4.2(1.06) (Base) | 4.2(1.07) (Base) | 4.2(3) (Base) | 4.2(3)SR1 (Base) | 4.2(3)SR2 (Base) | 4.2(3.08) (Base) | 4.2(3.2.3) (Base) | 4.2(3.3) (Base) | 4.2(3.13) (Base) | 4.3(1) (Base) | 4.3(1)SR (Base) | 4.3(1.57) (Base) Cisco Unified Customer Voice Portal (CVP) 3.0 ((0), (0)SR1, (0)SR2) | 3.1 ((0), (0)SR1, (0)SR2) | 4.0 ((0), (1), (1)SR1, (2)) Cisco Unified MeetingPlace 4.3 (Base) | 5.3 (Base) | 5.2 (Base) | 5.4 (Base) | 6.0 (Base) Cisco Unified MeetingPlace Express 1.1 (Base) | 1.2 (Base) | 2.0 (Base) Cisco Unity Original Release (Base) | 2.0 (Base) | 2.1 (Base) | 2.2 (Base) | 2.3 (Base) | 2.4 (Base) | 2.46 (Base) | 3.0 (Base, .1) | 3.1 (Base, .2, .3, .5, .6) | 3.2 (Base) | 3.3 (Base) | 4.0 (Base, .1, .2, .3, .3b, .4, .5) | 4.1 (Base, .1) | 4.2 (Base, .1, .1 ES27) | 5.0 ((1)) | 7.0 ((2)) Cisco Unity Express 1.0.2 (Base) | 1.1.1 (Base) | 1.1.2 (Base) | 2.0.1 (Base) | 2.0.2 (Base) | 2.1.1 (Base) | 2.1.2 (Base) | 2.1.3 (Base) | 2.2.0 (Base) | 2.2.1 (Base) | 2.2.2 (Base) | 2.3.0 (Base) | 2.3.1 (Base) Cisco Wireless Control System (WCS) Software 1.0 (Base) | 2.0 (Base, 44.14, 44.24) | 2.2 (.0, .111.0) | 3.0 (Base, .101.0, .105.0) | 3.1 (Base, .20.0, .33.0, .35.0) | 3.2 (Base, .23.0, .25.0, .40.0, .51.0, .64.0) | 4.0 (Base, .1.0, .43.0, .66.0, .81.0, .87.0, .96.0, .97.0) | 4.1 (Base, .83.0) CiscoWorks IP Telephony Environment Monitor (ITEM) 1.3 (Base) | 1.4 (Base) | 2.0 (Base) CiscoWorks LAN Management Solution (LMS) 1.3 (Base) | 2.2 (Base) | 2.5 (Base) | 2.6 (Base) CiscoWorks QoS Policy Manager (QPM) 2.0 (Base, .1, .2, .3) | 2.1 (.2) | 3.0 (Base, .1) | 3.1 (Base) | 3.2 (Base, .1, .2, .3) CiscoWorks Routed WAN Management Solution (RWAN) 1.0 (Base) | 1.1 (Base) | 1.2 (Base) | 1.3 (Base, .1) CiscoWorks Small Network Management Solution (SNMS) 1.0 (Base) | 1.5 (Base) CiscoWorks VPN/Security Management Solution (VMS) 1.0 (Base) | 2.0 (Base) | 2.1 (Base) | 2.2 (Base) | 2.3 (Base) Cisco Collaboration Server 3.0 (Base) | 3.01 (Base) | 3.02 (Base) | 4.0 (Base) | 5.0 (Base) Cisco DOCSIS CPE Configurator 1.0 (Base) | 1.1 (Base) | 2.0 (Base) Cisco Unified IP Interactive Voice Response (IVR) 2.0 (Base) | 2.1 (Base) Cisco Service Control Engine (SCE) 3.0 (Base) | 3.1 (Base) Cisco Transport Manager Original Release (Base) | 2.0 (Base) | 2.1 (Base) | 2.2 (Base, .1) | 3.0 (Base, .1, .2) | 3.1 (Base) | 3.2 (Base) | 4.0 (Base) | 4.1 (Base, .4, .6, .6.6.1) | 4.6 (Base) | 4.7 (Base) | 5.0 (Base, .0.867.2, .1.873.2, .2, .2.92.1, .2.99.1, .2.105.1, .2.110.1) | 6.0 (Base, .0.405.1, .0.407.1, .0.412.1) | 7.0 (Base, .0.370.1, .0.372.1, .0.377.1, .0.389.1, .0.400.1, .395.1) | 7.2 (Base, .0.199.1) Microsoft, Inc. Windows 7 for 32-bit systems (Base) | for x64-based systems (Base) Windows 8 for 32-bit systems | for x64-based systems Windows 8.1 for 32-bit Systems | for x64-based Systems Windows RT Original Release | 8.1 Windows Server 2003 Datacenter Edition | Datacenter Edition, 64-bit (Itanium) | Datacenter Edition x64 (AMD/EM64T) | Enterprise Edition | Enterprise Edition, 64-bit (Itanium) | Enterprise Edition x64 (AMD/EM64T) | Standard Edition | Standard Edition, 64-bit (Itanium) | Standard Edition x64 (AMD/EM64T) | Web Edition Windows Server 2008 Datacenter Edition | Datacenter Edition, 64-bit | Itanium-Based Systems Edition | Enterprise Edition | Enterprise Edition, 64-bit | Essential Business Server Standard | Essential Business Server Premium | Essential Business Server Premium, 64-bit | Standard Edition | Standard Edition, 64-bit | Web Server | Web Server, 64-bit Windows Server 2008 R2 x64-Based Systems Edition | Itanium-Based Systems Edition Windows Server 2012 Original Release Windows Server 2012 R2 Original Release Windows Vista Home Basic | Home Premium | Business | Enterprise | Ultimate | Home Basic x64 Edition | Home Premium x64 Edition | Business x64 Edition | Enterprise x64 Edition | Ultimate x64 Edition
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