Summary

• Cisco IOS^® Software contains a vulnerability in multiple features that could allow an attacker to cause a denial of service (DoS) condition on the affected device. A sequence of specially crafted TCP packets can cause the vulnerable device to reload.

  Cisco has released software updates that address this vulnerability.

  Several mitigation strategies are outlined in the workarounds section of this advisory.

  This advisory is posted at https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-tcp.

  Note: The March 25, 2009, Cisco IOS Security Advisory bundled publication includes eight Security Advisories. All of the advisories address vulnerabilities in Cisco IOS Software. Each advisory lists the releases that correct the vulnerability or vulnerabilities in the advisory.

  Individual publication links are listed below:

  • Cisco IOS cTCP Denial of Service Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-ctcp
    
    
  • Cisco IOS Software Multiple Features IP Sockets Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-ip
    
    
  • Cisco IOS Software Mobile IP and Mobile IPv6 Vulnerabilities
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-mobileip
    
    
  • Cisco IOS Software Secure Copy Privilege Escalation Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-scp
    
    
  • Cisco IOS Software Session Initiation Protocol Denial of Service Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-sip
    
    
  • Cisco IOS Software Multiple Features Crafted TCP Sequence Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-tcp
    
    
  • Cisco IOS Software Multiple Features Crafted UDP Packet Vulnerability
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-udp
    
    
  • Cisco IOS Software WebVPN and SSLVPN Vulnerabilities
    https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-webvpn

Affected Products

• Vulnerable Products

  Devices running affected versions of Cisco IOS Software and Cisco IOS XE Software are affected when configured to use any of the following features within Cisco IOS:

  • Airline Product Set (ALPS)
  • Serial Tunnel Code (STUN) and Block Serial Tunnel Code (BSTUN)
  • Native Client Interface Architecture support (NCIA)
  • Data-link switching (DLSw)
  • Remote Source-Route Bridging (RSRB)
  • Point to Point Tunneling Protocol (PPTP)
  • X.25 for Record Boundary Preservation (RBP)
  • X.25 over TCP (XOT)
  • X.25 Routing

  Information on how to determine whether an affected feature is enabled on a device are provided in the Details section of this advisory.

  To determine the Cisco IOS Software release that is running on a Cisco product, administrators can log in to the device and issue the "show version" command to display the system banner. The system banner confirms that the device is running Cisco IOS Software by displaying text similar to "Cisco Internetwork Operating System Software" or "Cisco IOS Software." The image name displays in parentheses, followed by "Version" and the Cisco IOS Software release name. Other Cisco devices do not have the "show version" command or may provide different output.

  The following example identifies a Cisco product that is running Cisco IOS Software Release 12.3(26) with an installed image name of C2500-IS-L:

  Router#show version
  Cisco Internetwork Operating System Software
  IOS (tm) 2500 Software (C2500-IS-L), Version 12.3(26), RELEASE SOFTWARE (fc2)
  Technical Support: http://www.cisco.com/techsupport
  Copyright (c) 1986-2008 by cisco Systems, Inc.
  Compiled Mon 17-Mar-08 14:39 by dchih
  
  <output truncated>

  The following example shows a product that is running Cisco IOS Software Release 12.4(20)T with an image name of C1841-ADVENTERPRISEK9-M:

  Router#show version
  Cisco IOS Software, 1841 Software (C1841-ADVENTERPRISEK9-M), Version 12.4(20)T, RELEASE SOFTWARE (fc3)
  Technical Support: http://www.cisco.com/techsupport
  Copyright (c) 1986-2008 by Cisco Systems, Inc.
  Compiled Thu 10-Jul-08 20:25 by prod_rel_team
  
  <output truncated>

  Additional information about Cisco IOS Software release naming conventions is available in "White Paper: Cisco IOS Reference Guide" at the following link: http://www.cisco.com/web/about/security/intelligence/ios-ref.html .

  Products Confirmed Not Vulnerable

  The following product and feature have been confirmed not vulnerable:

  • Cisco IOS XR Software
  • BGP is not affected

  No other Cisco products or features configured within Cisco IOS Software are currently known to be affected by this vulnerability.

Details

• Completion of the 3-way handshake to the associated TCP port number(s) of any of the features outlined below is required in order for the vulnerability to be successfully exploited.

  Airline Product Set (ALPS)

  Devices configured for ALPS are vulnerable. The default TCP listening ports for ALPS are 350 and 10000. The following example shows a vulnerable ALPS configuration:

  alps local-peer <ip address>

  Further information about ALPS is available in "Cisco IOS Bridging and IBM Networking Configuration Guide, Release 12.2 - Configuring the Airline Product Set" at the following link http://www.cisco.com/en/US/docs/ios/12_2/ibm/configuration/guide/bcfalps_ps1835_TSD_Products_Configuration_Guide_Chapter.html.

  Serial Tunnel Code (STUN) and Block Serial Tunneling (BSTUN)

  Devices configured for either STUN or BSTUN are vulnerable. The default listening TCP ports for STUN are 1990,1991 1992 and 1994. The default listening TCP ports for BSTUN are 1963, 1976, 1977, 1978 and 1979 The following example shows a vulnerable STUN configuration:

  interface serial 0/0/0
  encapsulation stun

  The following example shows a vulnerable BSTUN configuration:

  interface serial 0/0/0
  encapsulation bstun

  Further information about STUN and BSTUN is available in "Cisco IOS Bridging and IBM Networking Configuration Guide, Release 12.2 - Configuring Serial Tunnel and Block Serial Tunnel" at the following link http://www.cisco.com/en/US/docs/ios/12_2/ibm/configuration/guide/bcfstun_ps1835_TSD_Products_Configuration_Guide_Chapter.html.

  Native Client Interface Architecture support (NCIA)

  Devices configured for NCIA are vulnerable, because of the underlying transport they will use. The default listening TCP ports will be dependent on the protocol used with NCIA, such as RSRB or DSLw. The following examples shows a vulnerable configuration:

  ncia server 1 10.66.91.138 0000.1111.2222 2222.2222.2222 1

  Further information about NCIA is available in "Cisco IOS Bridging and IBM Networking Configuration Guide, Release 12.4 - Configuring NCIA Client/Server" at the following link http://www.cisco.com/en/US/docs/ios/bridging/configuration/guide/br_ncia_client_svr_ps6350_TSD_Products_Configuration_Guide_Chapter.html.

  Data-link switching (DLSw)

  Devices configured for DLSw are vulnerable. The default listening TCP ports for DSLw are 2065, 2067, 1981, 1982 and 1983. The following example shows a vulnerable configuration:

  dlsw local-peer peer-id <ip address>

  Devices configured with either FST Encapsulation or Direct Encapsulation are still vulnerable as the affected TCP ports are opened by the "dslw local-peer peer-id ip address" command.

  Further information about DLSw is available in "Cisco IOS Bridging and IBM Networking Configuration Guide, Release 12.4 - Configuring Data-Link Switching Plus" at the following link http://www.cisco.com/en/US/docs/ios/bridging/configuration/guide/br_dlsw_plus_ps6350_TSD_Products_Configuration_Guide_Chapter.html.

  Remote Source-Route Bridging (RSRB)

  Devices configured for RSRB Using IP Encapsulation over a TCP connection are vulnerable. The default listening TCP ports for RSRB are 1996,1987, 1988 and 1989. The following example shows a vulnerable configuration:

  source-bridge ring-group 10
  source-bridge remote-peer 10 tcp <ip address>

  Devices configured with either RSRB Using Direct Encapsulation or RSRB Using IP Encapsulation over an FST Connection are not affected.

  Further information about RSRB is available in "Cisco IOS Bridging and IBM Networking Configuration Guide, Release 12.2 - Configuring Remote Source-Route Bridging" at the following link http://www.cisco.com/en/US/docs/ios/12_2/ibm/configuration/guide/bcfrsrb_ps1835_TSD_Products_Configuration_Guide_Chapter.html.

  Point to Point Tunneling Protocol (PPTP)

  Devices configured for PPTP are vulnerable. The default listening TCP port for PPTP is 1723. The following examples shows a vulnerable configuration:

  vpdn enable
  !
  vpdn-group pptp
  ! Default PPTP VPDN group
   accept-dialin
    protocol pptp
    virtual-template 1

  Or

  vpdn enable
  !
  vpdn-group L2_Tunneling
  ! Default L2TP VPDN group
  ! Default PPTP VPDN group
   accept-dialin
    protocol any
    virtual-template 1
  

  Further information about PPTP is available in "Cisco IOS VPDN Configuration Guide, Release 12.4 - Configuring Client-Initiated Dial-In VPDN Tunneling" at the following link http://www.cisco.com/en/US/docs/ios/vpdn/configuration/guide/client_init_dial-in_ps6350_TSD_Products_Configuration_Guide_Chapter.html#wp1105140.

  X.25 Record Boundary Preservation (RBP)

  Devices configured for RBP are vulnerable. The listening TCP port is configured with the "local port port_number" CLI command, as shown in the next examples. The following examples shows vulnerable configurations. The first leverages switched virtual circuits (SVC):

  interface Serial1/0
     x25 map rbp 1111 local port <port_number>

  The second example, leverages a permanent virtual circuit (PVC):

  interface Serial1/0
     x25 map pvc <pvc_number> rbp local port <port_number>

  Further information about RBP is available in "Cisco IOS Wide-Area Networking Configuration Guide, Release 12.4 - X.25 Record Boundary Preservation for Data Communications Networks" at the following link http://www.cisco.com/en/US/docs/ios/wan/configuration/guide/wan_x25_rbp_dcn_ps6350_TSD_Products_Configuration_Guide_Chapter.html.

  X.25 over TCP (XOT)

  Devices configured for XOT are vulnerable. The default listening TCP port for XOT is 1998. The following example shows a vulnerable configuration.

  xot access-group 1
  
  and a corresponding access-list 1.

  Further information about XOT is available in "Cisco IOS Wide-Area Networking Configuration Guide, Release 12.4 - X.25 over TCP Profiles" at the following link http://www.cisco.com/en/US/docs/ios/wan/configuration/guide/wan_x25otcp_pro_ps6350_TSD_Products_Configuration_Guide_Chapter.html.

  X25 Routing

  Devices configured with X25 are vulnerable. The default listening TCP port for X25 Routing is 1998. The following example shows a vulnerable configuration.

  x25 routing

  Further information about X25 is available in "Cisco IOS Wide-Area Networking Configuration Guide, Release 12.4 - Configuring X.25 and LAPB" at the following link http://www.cisco.com/en/US/docs/ios/wan/configuration/guide/wan_cfg_x25_lapb_ps6350_TSD_Products_Configuration_Guide_Chapter.html.

  This vulnerability is documented in the following Cisco Bug ID: CSCsr29468 ( registered customers only) and has been assigned the Common Vulnerabilities and Exposures (CVE) identifier CVE-2009-0629.

Workarounds

• The following mitigations have been identified for this vulnerability, which may help protect an infrastructure until an upgrade to a fixed version of Cisco IOS software can be scheduled:

  Infrastructure Access Control Lists

  Although it is often difficult to block traffic that transits a network, it is possible to identify traffic that should never be allowed to target infrastructure devices and block that traffic at the border of networks. Infrastructure Access Control Lists (iACLs) are a network security best practice and should be considered as a long-term addition to good network security as well as a workaround for these specific vulnerabilities. The iACL example below should be included as part of the deployed infrastructure access-list which will protect all devices with IP addresses in the infrastructure IP address range:

  
  !---
  !--- Only sections pertaining to features enabled on the device
  !--- need be configured.
  !---
  !--- Feature: ALPS
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
      INFRASTRUCTURE_ADDRESSES WILDCARD eq 350
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
      INFRASTRUCTURE_ADDRESSES WILDCARD eq 10000
  
  
  !---
  !--- Deny ALPS TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 350
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 10000
  
  
  !---
  !--- Feature: STUN
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1994
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1990 1992
  
  
  !---
  !--- Deny STUN TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
      INFRASTRUCTURE_ADDRESSES WILDCARD eq 1994
  access-list 150 deny tcp any 
      INFRASTRUCTURE_ADDRESSES WILDCARD range 1990 1992
  
  
  !---
  !--- Feature: BSTUN
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1963
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1976 1979
  
  
  !---
  !--- Deny BSTUN TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1963
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1976 1979
  
  
  !---
  !--- Feature: NCIA
  !---
  
  !---
  !--- Leverage the underlying protocols, DLSw, RSRB, etc.
  !---
  
  !---
  !--- Feature: DLSW
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 2065
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 2067
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1981 1983
  
  
  !---
  !--- Deny DLSW TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 2065
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 2067
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1981 1983    
  
  
  !---
  !--- Feature: RSRB
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1987 1989
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1996
  
  
  !---
  !--- Deny RSRB TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD range 1987 1989
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1996
  
  
  !---
  !--- Feature: PPTP
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1723
  
  
  !---
  !--- Deny PPTP TCP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1723
  
  
  !---
  !--- Feature: RBP
  !---
  !--- RBP will listen for TCP connections on the configured port
  !--- as per "local port <port_number>". The following example
  !--- uses port 1055
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1055
  
  
  !---
  !--- Deny RBP traffic from all other sources destined
  !--- to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1055
  
  
  !---
  !--- Feature: XOT and X.25 Routing
  !---
  
  
  access-list 150 permit tcp TRUSTED_HOSTS WILDCARD
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1998
  
  
  !---
  !--- Deny XOT and X25 TCP traffic from all other sources 
  !--- destined to infrastructure addresses.
  !---
  
  
  access-list 150 deny tcp any 
       INFRASTRUCTURE_ADDRESSES WILDCARD eq 1998
  
  
  !---
  !--- Permit/deny all other Layer 3 and Layer 4 traffic in 
  !--- accordance with existing security policies and 
  !--- configurations Permit all other traffic to transit the
  !--- device.
  !---
  
  
  access-list 150 permit ip any any
  
  
  !---
  !--- Apply access-list to all interfaces (only one example
  !--- shown)
  !---
  
  
  interface serial 2/0
   ip access-group 150 in

  The white paper entitled "Protecting Your Core: Infrastructure Protection Access Control Lists" presents guidelines and recommended deployment techniques for infrastructure protection access lists. This white paper can be obtained at the following link: http://www.cisco.com/en/US/tech/tk648/tk361/technologies_white_paper09186a00801a1a55.shtml.

  Receive ACLs (rACL)

  For distributed platforms, Receive ACLs may be an option starting in Cisco IOS Software Versions 12.0(21)S2 for the 12000 (GSR), 12.0(24)S for the 7500, and 12.0(31)S for the 10720. The Receive ACL protects the device from harmful traffic before the traffic can impact the route processor. Receive ACLs are designed to only protect the device on which it is configured. On the 12000, 7500, and 10720, transit traffic is never affected by a receive ACL. Because of this, the destination IP address "any" used in the example ACL entries below only refer to the router's own physical or virtual IP addresses. Receive ACLs are considered a network security best practice, and should be considered as a long-term addition to good network security, as well as a workaround for this specific vulnerability. The white paper entitled "Protecting Your Core: Infrastructure Protection Access Control Lists" presents guidelines and recommended deployment techniques for infrastructure protection access lists. This white paper can be obtained at the following link http://www.cisco.com/en/US/tech/tk648/tk361/technologies_white_paper09186a00801a0a5e.shtml.

  The following is the receive path ACL written to permit this type of traffic from trusted hosts:

  
  !---
  !--- Only sections pertaining to features enabled on the device
  !--- need be configured.
  !---
  
  !---
  !--- Permit ALPS traffic from trusted hosts allowed to the RP.
  !--- 
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 350
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
      any eq 10000
  
  
  !---
  !--- Deny ALPS traffic from all other sources to the RP.
  !--- 
  
  
  access-list 150 deny tcp any any eq 350
  access-list 150 deny tcp any any eq 10000
  
  
  !---
  !--- Permit STUN traffic from trusted hosts allowed to the RP.
  !--- 
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1994
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any range 1990 1992
  
  
  !---
  !--- Deny STUN traffic from all other sources to the RP.
  !--- 
  
  
  access-list 150 deny tcp any any eq 1994
  access-list 150 deny tcp any any eq range 1990 1992
  
  
  !---
  !--- Permit BSTUN traffic from trusted hosts allowed to the RP.
  !--- 
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1963
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any range 1976 1979
  
  
  !---
  !--- Deny BSTUN traffic from all other sources to the RP.
  !--- 
  
  
  access-list 150 deny tcp any any eq 1963
  access-list 150 deny tcp any any eq range 1976 1979
  
  
  !---
  !--- Permit DLSw from trusted hosts allowed to the RP.
  !--- 
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 2065
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 2067
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any range 1981 1983
  
  
  !---
  !--- Deny DLSw all other sources to the RP.
  !--- 
  
  
  access-list 150 deny tcp any any eq 2065
  access-list 150 deny tcp any any eq 2067
  access-list 150 deny tcp any any range 1981 1983
  
  
  !---
  !--- Permit RSRB traffic from trusted hosts allowed to the RP.
  !---
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1996
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any range 1987 1989
  
  
  !---
  !--- Deny RSRB traffic from all other sources to the RP.
  !---
  
  
  access-list 150 deny tcp any any eq 1996
  access-list 150 deny tcp any any range 1987 1989
  
  
  !--- 
  !--- Permit PPTP traffic from trusted hosts allowed to the RP.
  !--- 
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1723
  
  
  !---
  !--- Deny PPTP traffic from all other sources to the RP.
  !--- 
  
  
  access-list 150 deny tcp any any eq 1723
  
  
  !---
  !--- Permit RBP traffic from trusted hosts allowed to the RP.
  !--- RBP will listen for TCP connections on the configured port
  !--- as per "local port <port_number>".  The following example
  !--- uses port 1055
  !---
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1055
  
  
  !---
  !--- Deny RBP traffic from all other sources to the RP.
  !---
  
  
  access-list 150 deny tcp any any eq 1055
  
  
  !---
  !--- Permit XOT and X.25 Routing traffic from trusted hosts allowed 
  !--- to the RP.
  !---
  
  
  access-list 150 permit tcp TRUSTED_SOURCE_ADDRESSES WILDCARD
       any eq 1998
  
  
  !---
  !--- Deny XOT and X.25 Routing traffic from all other sources to 
  !---  the RP.
  !---
  
  
  access-list 150 deny tcp any any  eq 1998
  
  
  !--- Permit all other traffic to the RP.
  !--- according to security policy and configurations.
  
  
  access-list 150 permit ip any any
  
  
  !--- Apply this access list to the 'receive' path.
  
  
  ip receive access-list 150

  Control Plane Policing

  Control Plane Policing (CoPP) can be used to block the affected features TCP traffic access to the device. Cisco IOS software releases 12.0S, 12.2SX, 12.2S, 12.3T, 12.4, and 12.4T support the CoPP feature. CoPP can be configured on a device to protect the management and control planes and minimize the risk and effectiveness of direct infrastructure attacks by explicitly permitting only authorized traffic that is sent to infrastructure devices in accordance with existing security policies and configurations. The CoPP example below should be included as part of the deployed CoPP that will protect all devices with IP addresses in the infrastructure IP address range.

  
  !---
  !--- Only sections pertaining to features enabled on the device
  !--- need be configured.
  !---
  !--- Feature: ALPS
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD any eq 350
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD any eq 10000
  
  
  !---
  !--- Permit ALPS traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 350
  access-list 150 permit tcp any any eq 10000
  
  
  !---
  !--- Feature: STUN
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD 
       any eq 1994
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any range 1990 1992
  
  
  !---
  !--- Permit STUN traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 1994
  access-list 150 permit tcp any any range 1990 1992
  
  
  !---
  !--- Feature: BSTUN
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 1963
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any range 1976 1979
  
  
  !---
  !--- Permit BSTUN traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 1963
  access-list 150 permit tcp any any range 1976 1979
  
  
  !---
  !--- Feature: NCIA
  !---
  !--- Leverage the underlying protocols, DLSw, RSRB, etc.
  !---
  
  !---
  !--- Feature: DLSW
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 2065
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 2067
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any range 1981 1983
  
  
  !---
  !--- Permit DLSW traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 2065
  access-list 150 permit tcp any any eq 2067
  access-list 150 permit tcp any any range 1981 1983
  
  
  !---
  !--- Feature: RSRB
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any range 1987 1989
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 1996
  
  
  !---
  !--- Permit RSRB traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any range 1987 1989
  access-list 150 permit tcp any any eq 1996
  
  
  !---
  !--- Feature: PPTP
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 1723
  
  
  !---
  !--- Permit PPTP traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 1723
  
  
  !---
  !--- Feature: RBP
  !---
  !--- RBP will listen for TCP connections on the configured port
  !--- as per "local port <port_number>".  The following example
  !--- uses port 1055
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 1055
  
  
  !---
  !--- Permit RBP traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 1055
  
  
  !---
  !--- Feature: XOT and X.25 Routing
  !---
  
  
  access-list 150 deny tcp TRUSTED_HOSTS WILDCARD
       any eq 1998
  
  
  !---
  !--- Permit XOT and X25 traffic sent to all IP addresses
  !--- configured on all interfaces of the affected device so 
  !--- that it will be policed and dropped by the CoPP feature
  !---
  
  
  access-list 150 permit tcp any any eq 1998
  
  
  !---
  !--- Permit (Police or Drop)/Deny (Allow) all other Layer3 and 
  !--- Layer4 traffic in accordance with existing security policies
  !--- configurations for traffic that is authorized to be sent
  !--- and to infrastructure devices
  !--- Create a Class-Map for traffic to be policed by
  !--- the CoPP feature
  !---
  
  
  class-map match-all drop-tcp-class
   match access-group 150
  
  
  !---
  !--- Create a Policy-Map that will be applied to the
  !--- Control-Plane of the device.
  !---
  
  
  policy-map drop-tcp-traffic
   class drop-tcp-class
    drop
  
  
  !---
  !--- Apply the Policy-Map to the 
  !--- Control-Plane of the device
  !---
  
  
  control-plane
   service-policy input drop-tcp-traffic

  In the above CoPP example, the access control list entries (ACEs) that match the potential exploit packets with the "permit" action result in these packets being discarded by the policy-map "drop" function, while packets that match the "deny" action (not shown) are not affected by the policy-map drop function. Please note that the policy-map syntax is different in the 12.2S and 12.0S Cisco IOS trains:

  policy-map drop-tcp-traffic
  class drop-tcp-class
  police 32000 1500 1500 conform-action drop exceed-action drop

  Additional information on the configuration and use of the CoPP feature can be found in the documents, "Control Plane Policing Implementation Best Practices" and "Cisco IOS Software Releases 12.2 S - Control Plane Policing" at the following links http://www.cisco.com/web/about/security/intelligence/coppwp_gs.html and http://www.cisco.com/en/US/docs/ios/12_3t/12_3t4/feature/guide/gtrtlimt.html.

  Additional mitigations that can be deployed on Cisco devices within the network are available in the "Cisco Applied Mitigation Bulletin" companion document for this advisory, at the following link https://sec.cloudapps.cisco.com/security/center/content/CiscoAppliedMitigationBulletin/cisco-amb-20090325-tcp-and-ip.

Fixed Software

• When considering software upgrades, also consult http://www.cisco.com/go/psirt and any subsequent advisories to determine exposure and a complete upgrade solution.

  In all cases, customers should exercise caution to be certain the devices to be upgraded contain sufficient memory and that current hardware and software configurations will continue to be supported properly by the new release. If the information is not clear, contact the Cisco Technical Assistance Center (TAC) or your contracted maintenance provider for assistance.

  Each row of the Cisco IOS software table (below) names a Cisco IOS release train. If a given release train is vulnerable, then the earliest possible releases that contain the fix (along with the anticipated date of availability for each, if applicable) are listed in the "First Fixed Release" column of the table. The "Recommended Release" column indicates the releases which have fixes for all the published vulnerabilities at the time of this Advisory. A device running a release in the given train that is earlier than the release in a specific column (less than the First Fixed Release) is known to be vulnerable. Cisco recommends upgrading to a release equal to or later than the release in the "Recommended Releases" column of the table.

  Major Release	Availability of Repaired Releases
  Affected 12.0-Based Releases	First Fixed Release	Recommended Release
  There are no affected 12.0 based releases
  Affected 12.1-Based Releases	First Fixed Release	Recommended Release
  There are no affected 12.1 based releases
  Affected 12.2-Based Releases	First Fixed Release	Recommended Release
  12.2	Not Vulnerable
  12.2B	Not Vulnerable
  12.2BC	Not Vulnerable
  12.2BW	Not Vulnerable
  12.2BX	Not Vulnerable
  12.2BY	Not Vulnerable
  12.2BZ	Not Vulnerable
  12.2CX	Not Vulnerable
  12.2CY	Not Vulnerable
  12.2CZ	Not Vulnerable
  12.2DA	Not Vulnerable
  12.2DD	Not Vulnerable
  12.2DX	Not Vulnerable
  12.2EW	Vulnerable; first fixed in 12.2SG	12.2(31)SGA9
  12.2EWA	Vulnerable; first fixed in 12.2SG	12.2(31)SGA9
  12.2EX	Releases prior to 12.2(44)EX are vulnerable, release 12.2(44)EX and later are not vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2EY	12.2(44)EY	12.2(44)SE6
  12.2EZ	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2FX	Not Vulnerable
  12.2FY	Not Vulnerable
  12.2FZ	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2IRA	Vulnerable; first fixed in 12.2SRC	12.2(33)SRC4
  12.2IRB	Vulnerable; first fixed in 12.2SRC	12.2(33)SRC4
  12.2IXA	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXB	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXC	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXD	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXE	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXF	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2IXG	Vulnerable; migrate to any release in 12.2IXH	12.2(18)IXH
  12.2JA	Not Vulnerable
  12.2JK	Not Vulnerable
  12.2MB	Not Vulnerable
  12.2MC	Not Vulnerable
  12.2S	Vulnerable; first fixed in 12.2SB	12.2(33)SB4
  12.2SB	12.2(33)SB3 12.2(28)SB13 12.2(31)SB14	12.2(33)SB4
  12.2SBC	Vulnerable; first fixed in 12.2SB	12.2(33)SB4
  12.2SCA	Vulnerable; first fixed in 12.2SCB	12.2(33)SCB1
  12.2SCB	12.2(33)SCB1	12.2(33)SCB1
  12.2SE	12.2(46)SE2 12.2(50)SE 12.2(44)SE5	12.2(44)SE6
  12.2SEA	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SEB	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SEC	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SED	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SEE	Vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SEF	Not Vulnerable
  12.2SEG	Releases prior to 12.2(25)SEG4 are vulnerable, release 12.2(25)SEG4 and later are not vulnerable; first fixed in 12.2SE	12.2(44)SE6
  12.2SG	12.2(50)SG	12.2(52)SG
  12.2SGA	12.2(31)SGA9	12.2(31)SGA9
  12.2SL	Not Vulnerable
  12.2SM	Vulnerable; contact TAC
  12.2SO	Vulnerable; contact TAC
  12.2SQ	Not Vulnerable
  12.2SRA	Vulnerable; first fixed in 12.2SRC	12.2(33)SRC4
  12.2SRB	Vulnerable; first fixed in 12.2SRC	12.2(33)SRB5a 12.2(33)SRC4 12.2(33)SRD1
  12.2SRC	12.2(33)SRC3	12.2(33)SRC4 12.2(33)SRD1
  12.2SRD	12.2(33)SRD1	12.2(33)SRD1
  12.2STE	Vulnerable; contact TAC
  12.2SU	Not Vulnerable
  12.2SV	Vulnerable; contact TAC
  12.2SVA	Vulnerable; contact TAC
  12.2SVC	Vulnerable; contact TAC
  12.2SVD	Vulnerable; contact TAC
  12.2SVE	Vulnerable; contact TAC
  12.2SW	Vulnerable; migrate to any release in 12.4SW
  12.2SX	Not Vulnerable
  12.2SXA	Not Vulnerable
  12.2SXB	Not Vulnerable
  12.2SXD	Vulnerable; first fixed in 12.2SXF	12.2(18)SXF16
  12.2SXE	Vulnerable; first fixed in 12.2SXF	12.2(18)SXF16
  12.2SXF	12.2(18)SXF16	12.2(18)SXF16
  12.2SXH	12.2(33)SXH5	12.2(33)SXH5
  12.2SXI	12.2(33)SXI1	12.2(33)SXI1
  12.2SY	Not Vulnerable
  12.2SZ	Vulnerable; first fixed in 12.2SB	12.2(33)SB4
  12.2T	Not Vulnerable
  12.2TPC	Not Vulnerable
  12.2XA	Not Vulnerable
  12.2XB	Not Vulnerable
  12.2XC	Not Vulnerable
  12.2XD	Not Vulnerable
  12.2XE	Not Vulnerable
  12.2XF	Not Vulnerable
  12.2XG	Not Vulnerable
  12.2XH	Not Vulnerable
  12.2XI	Not Vulnerable
  12.2XJ	Not Vulnerable
  12.2XK	Not Vulnerable
  12.2XL	Not Vulnerable
  12.2XM	Not Vulnerable
  12.2XN	Vulnerable; first fixed in 12.2SRC	12.2(33)SB4 12.2(33)SRD1
  12.2XNA	Vulnerable; first fixed in 12.2SRD	12.2(33)SRD1
  12.2XNB	12.2(33)XNB1	12.2(33)XNB3
  12.2XNC	Not Vulnerable
  12.2XO	12.2(46)XO	12.2(46)XO
  12.2XQ	Not Vulnerable
  12.2XR	Not Vulnerable
  12.2XS	Not Vulnerable
  12.2XT	Not Vulnerable
  12.2XU	Not Vulnerable
  12.2XV	Not Vulnerable
  12.2XW	Not Vulnerable
  12.2YA	Not Vulnerable
  12.2YB	Not Vulnerable
  12.2YC	Not Vulnerable
  12.2YD	Not Vulnerable
  12.2YE	Not Vulnerable
  12.2YF	Not Vulnerable
  12.2YG	Not Vulnerable
  12.2YH	Not Vulnerable
  12.2YJ	Not Vulnerable
  12.2YK	Not Vulnerable
  12.2YL	Not Vulnerable
  12.2YM	Not Vulnerable
  12.2YN	Not Vulnerable
  12.2YO	Not Vulnerable
  12.2YP	Not Vulnerable
  12.2YQ	Not Vulnerable
  12.2YR	Not Vulnerable
  12.2YS	Not Vulnerable
  12.2YT	Not Vulnerable
  12.2YU	Not Vulnerable
  12.2YV	Not Vulnerable
  12.2YW	Not Vulnerable
  12.2YX	Not Vulnerable
  12.2YY	Not Vulnerable
  12.2YZ	Not Vulnerable
  12.2ZA	Not Vulnerable
  12.2ZB	Not Vulnerable
  12.2ZC	Not Vulnerable
  12.2ZD	Not Vulnerable
  12.2ZE	Not Vulnerable
  12.2ZF	Not Vulnerable
  12.2ZG	Not Vulnerable
  12.2ZH	Not Vulnerable
  12.2ZJ	Not Vulnerable
  12.2ZL	Not Vulnerable
  12.2ZP	Not Vulnerable
  12.2ZU	Vulnerable; first fixed in 12.2SXH	12.2(33)SXH5
  12.2ZX	Vulnerable; first fixed in 12.2SB	12.2(33)SB4
  12.2ZY	Vulnerable; contact TAC
  12.2ZYA	12.2(18)ZYA1	12.2(18)ZYA1
  Affected 12.3-Based Releases	First Fixed Release	Recommended Release
  There are no affected 12.3 based releases
  Affected 12.4-Based Releases	First Fixed Release	Recommended Release
  12.4	Not Vulnerable
  12.4JA	Not Vulnerable
  12.4JDA	Not Vulnerable
  12.4JK	Not Vulnerable
  12.4JL	Not Vulnerable
  12.4JMA	Not Vulnerable
  12.4JMB	Not Vulnerable
  12.4JX	Not Vulnerable
  12.4MD	12.4(15)MD2 Releases prior to 12.4(11)MD6 are not vulnerable, releases 12.4(15)MD and later are vulnerable.	12.4(11)MD7
  12.4MR	12.4(19)MR1 Releases prior to 12.4(16)MR2 are not vulnerable, releases 12.4(19)MR and later are vulnerable	12.4(19)MR2
  12.4SW	Not Vulnerable
  12.4T	12.4(22)T 12.4(20)T2 Releases prior to 12.4(20)T are NOT vulnerable	12.4(22)T1 12.4(15)T9
  12.4XA	Not Vulnerable
  12.4XB	Not Vulnerable
  12.4XC	Not Vulnerable
  12.4XD	Not Vulnerable
  12.4XE	Not Vulnerable
  12.4XF	Not Vulnerable
  12.4XG	Not Vulnerable
  12.4XJ	Not Vulnerable
  12.4XK	Not Vulnerable
  12.4XL	Not Vulnerable
  12.4XM	Not Vulnerable
  12.4XN	Not Vulnerable
  12.4XP	Not Vulnerable
  12.4XQ	12.4(15)XQ2	12.4(15)XQ2
  12.4XR	12.4(15)XR4	12.4(22)T1 12.4(15)T9
  12.4XT	Not Vulnerable
  12.4XV	Not Vulnerable
  12.4XW	Not Vulnerable
  12.4XY	12.4(15)XY4	12.4(22)T1 12.4(15)T9
  12.4XZ	12.4(15)XZ2	12.4(15)XZ2
  12.4YA	12.4(20)YA2	12.4(20)YA3
  12.4YB	Not Vulnerable
  12.4YD	Not Vulnerable

Exploitation and Public Announcements

• The Cisco PSIRT is not aware of any public announcements or malicious use of the vulnerability described in this advisory.

  This vulnerability was found by Cisco internal testing.

URL

• https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-20090325-tcp

Revision History

• Revision 1.2	2009-July-06	Removed references to software availability dates.
  Revision 1.1	2009-June-26	Removed references to the March/09 combined fixed software table.
  Revision 1.0	2009-March-25	Initial public release

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