Summary

• On September 27, 2022, the following vulnerabilities affecting Cisco products were disclosed by Cert/CC as part of VU855201, titled L2 network security controls can be bypassed using VLAN 0 stacking and/or 802.3 headers:

  • CVE-2021-27853: Layer 2 network filtering capabilities such as IPv6 RA guard or ARP inspection can be bypassed using a combination of VLAN 0 headers and LLC/SNAP headers.
  • CVE-2021-27854: Layer 2 network filtering capabilities such as IPv6 RA guard can be bypassed using a combination of VLAN 0 headers, LLC/SNAP headers in Ethernet to Wifi frame translation, and in the reverse—Wifi to Ethernet.
  • CVE-2021-27861: Layer 2 network filtering capabilities such as IPv6 RA guard can be bypassed using LLC/SNAP headers with invalid length (and optionally VLAN0 headers).
  • CVE-2021-27862: Layer 2 network filtering capabilities such as IPv6 RA guard can be bypassed using LLC/SNAP headers with invalid length and Ethernet to Wifi frame conversion (and optionally VLAN0 headers).

  Exploitation of these vulnerabilities could allow an adjacent attacker to bypass configured first-hop security (FHS) features on the affected Cisco products.

  For more information about these vulnerabilities, see the Details section of this advisory.

  This advisory is available at the following link: https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-VU855201-J3z8CKTX

Affected Products

• The Vulnerable Products section includes Cisco bug IDs for each affected product. The bugs are accessible through the Cisco Bug Search Tool and will contain additional platform-specific information, including workarounds (if available) and fixed software releases (if available).

  Any product or service not listed in the Vulnerable Products section of this advisory is to be considered not vulnerable.

  Vulnerable Products

  CVE-2021-27853

  The following table lists Cisco products that are affected by the vulnerability that is described in CVE-2021-27853. See the Details section of this advisory for more information about affected configurations.

  Note: End of life products have not been evaluated.

  Cisco Product	Cisco Bug ID	Additional Information
  Cisco IOS Software - Switches
  Catalyst 6500 and 6800 Series Switches	CSCwa06145	Fixed software will not be made available.
  Catalyst Digital Building Series Switches	CSCwa14942	Fixed software will not be made available.
  Industrial Ethernet Switches	CSCvw99743	Fixed software will not be made available.
  Micro Switches	CSCwa14271	Fixed software will not be made available.
  Cisco IOS XE Software - Switches
  Catalyst 4500 IOS-XE Switches	CSCwa18093	Fixed software will not be made available.
  IOS XE Switches	CSCvz91291 CSCwb01481	CSCvz91291 affects Cisco IOS XE Software releases 17.6.1 and later. A fix is available for all FHS features except Dynamic ARP inspection. CSCwb01481 is relevant for Dynamic ARP Inspection and impacts all releases. Fixed Software will not be made available.
  Cisco IOS XE Software - Routers
  IOS XE Routers configured with Ethernet virtual circuits	CSCvz96133	Fixed software will not be made available.
  Cisco IOS XR Software
  IOS XR Routers configured with L2 Transport services	CSCvz88705 CSCvz89602	Fixed software will not be made available.
  Cisco Meraki - Switches
  MS390	N/A	Impact is only for Dynamic ARP Inspection. Fixed software will not be made available.
  MS210 MS225 MS250 MS350 MS355 MS410 MS420 MS425 MS450	N/A	Fixed software will not be made available.
  Cisco NX-OS Software
  Nexus 3000 Series Switches	CSCvx33758	Fixed software will not be made available.
  Nexus 5500 Platform Switches Nexus 5600 Platform Switches Nexus 6000 Series Switches	CSCvx35087	Fixed software will not be made available.
  Nexus 7000 Series Switches	CSCvx35085	Fixed software will not be made available.
  Nexus 9000 Series Switches (Standalone Mode)	CSCvx33758	Fixed software will not be made available.
  Cisco Small Business Switches
  250 Series Smart Switches 350 Series Managed Switches 350X Series Stackable Managed Switches 550X Series Stackable Managed Switches Business 250 Series Smart Switches Business 350 Series Managed Switches	CSCvw92154	Fixed software will not be made available.

  CVE-2021-27854

  Cisco Access Points

  Cisco evaluated this vulnerability based on its impact on FHS features that are configured on Cisco Access Points. No impact was observed.

  As part of the investigation into the impact to Cisco Access Points, another vulnerability was found, and a companion advisory has been published: Cisco Access Points VLAN Bypass from Native VLAN Vulnerability.  

  CVE-2021-27861

  The following table lists Cisco products that are affected by the vulnerability that is described in CVE-2021-27861. See the Details section of this advisory for more information about affected configurations.  

  Note: End of life products have not been evaluated.

  Cisco Product	Cisco Bug ID	Additional Information
  Cisco IOS Software - Switches
  Catalyst 6500 and 6800 Series Switches	CSCwa06265	Fixed software will not be made available.
  Catalyst Digital Building Series Switches	CSCwa14950	Fixed software will not be made available.
  Micro Switches	CSCwa14282	Fixed software will not be made available.
  Cisco IOS XR Software
  IOS XR Routers configured with L2 Transport services	CSCwa04809	Fixed software will not be made available.
  Cisco Meraki - Switches
  MS210 MS225 MS250 MS350 MS355 MS410 MS420 MS425 MS450	N/A	Fixed software will not be made available.
  Cisco NX-OS Software
  Nexus 3000 Series Switches	CSCwa01097	Fixed software will not be made available.
  Nexus 5500 Platform Switches Nexus 5600 Platform Switches Nexus 6000 Series Switches	CSCwa18209	Fixed software will not be made available.
  Nexus 7000 Series Switches	CSCwa18310	Fixed software will not be made available.
  Nexus 9000 Series Switches (Standalone Mode)	CSCwa01097	Fixed software will not be made available.
  Cisco Small Business Switches
  250 Series Smart Switches 350 Series Managed Switches 350X Series Stackable Managed Switches 550X Series Stackable Managed Switches Business 250 Series Smart Switches Business 350 Series Managed Switches	CSCwa09081	Fixed software will not be made available.

  CVE-2021-27862

  Cisco evaluated this vulnerability based on its impact on FHS features that are configured on Cisco Access points. No impact was observed.

  Products Confirmed Not Vulnerable

  Only products listed in the Vulnerable Products section of this advisory are known to be affected by this vulnerability.

  CVE-2021-27853

  Cisco has confirmed that this vulnerability does not affect the following Cisco products:

  ONT Switches

  • Catalyst PON Series Switches

  IOS Switches

  • Catalyst 1000 Series Switches

  IOS XE Platforms

  • Catalyst 8000 Series Edge Platforms

  NX-OS Software
  

  • MDS 9000 Series Multilayer Switches
  • Nexus 1000V Series Switches
  • Nexus 9000 Series Fabric Switches in Application Centric Infrastructure (ACI) mode
  • UCS 6x00 Series Fabric Interconnects

  Meraki Switches

  • GS110 Switches
  • MS22 Switches
  • MS42 Switches
  • MS120 Switches
  • MS125 Switches
  • MS220 Switches
  • MS320 Switches

  CVE-2021-27854

  Cisco has confirmed that this vulnerability does not affect the following Cisco products:

  • Access Points
  • AireOS Access Points
  • Meraki Access Points

  CVE-2021-27861

  Cisco has confirmed that this vulnerability does not affect the following Cisco products:

  ONT Switches

  • Catalyst PON Series Switches

  IOS Switches

  • Catalyst 1000 Series Switches
  • Industrial Ethernet Switches

  IOS XE Routers

  • IOS XE Routers when configured with Ethernet virtual circuits

  IOS XE Software Switches

  • Catalyst 3650 Series Switches
  • Catalyst 3850 Series Switches
  • Catalyst 4500E and 4500X Series Switches
  • Catalyst 9000 Series Switches

  Meraki Switches

  • GS110 Switches
  • MS22 Switches
  • MS42 Switches
  • MS120 Switches
  • MS125 Switches
  • MS220 Switches
  • MS320 Switches
  • MS390 Switches

  NX-OS Software
  

  • MDS 9000 Series Multilayer Switches
  • Nexus 1000V Series Switches
  • Nexus 9000 Series Fabric Switches in Application Centric Infrastructure (ACI) mode
  • UCS 6x00 Series Fabric Interconnects

  CVE-2021-27862

  Cisco has confirmed that this vulnerability does not affect the following Cisco products:

  • Access Points
  • AireOS Access Points
  • Meraki Access Points

Details

• The vulnerabilities are not dependent on one another. Exploitation of one of the vulnerabilities is not required to exploit another vulnerability. In addition, a software release that is affected by one of the vulnerabilities may not be affected by the other vulnerabilities.

  CVE-2021-27853

  A vulnerability in the processing of stacked Ethernet tag headers of multiple Cisco products could allow an unauthenticated, adjacent attacker to bypass the FHS feature of an affected device.

  This vulnerability is due to the platforms forwarding frames when the upper-layer protocol cannot be determined to invoke a Layer 3 FHS feature. An attacker could exploit this vulnerability by sending packets with stacked VLAN Ethernet headers. A successful exploit could allow the attacker to bypass the FHS feature of an affected device.

  Cisco has not released software updates that address this vulnerability. There are workarounds that address this vulnerability.

  CVE ID: CVE-2021-27853
  Security Impact Rating (SIR): Medium 
  CVSS Base Score: 4.7
  CVSS Vector: CVSS:3.1/AV:A/AC:L/PR:N/UI:N/S:C/C:N/I:L/A:N

  CVE-2021-27853: Additional Details

  The IEEE Std 802.1Q-2018 standard incorporates a priority-tagged frame whose tag header carries priority information but no VLAN identification information. The VLAN identifier is set to 0 and is typically carried in a single 802.1Q header between the source MAC address and the Ethertype/size field.

  In networks where VLAN tagging is used, there is typically a single 802.1Q header between the source MAC address and the Ethertype/size field. IEEE 802.1AD has double tagging and includes the S-TAG and C-TAG headers between the source MAC address and the Ethertype/size field.

  The IEEE Std 802.1Q-2018 does not specify that there should be no more than two tags present, but Cisco products have a limit on how many tags can be inspected to establish the upper-layer protocols (determined by the Ethertype field), whether a packet is classified as IPv4 or IPv6, and whether it is subject to additional Layer 3 feature processing. If these things cannot be determined, the packet is forwarded based on the Layer 2 information, depending on the device configuration.

  Depending on the implementation of the next device that receives the frame, the frame may be dropped as invalid or the priority tags may be removed and processed. These actions are dependent on the implementation of the receiving host operating system.

  CVE-2021-27853: Cisco Network Operating Systems

  This section provides specific details about how the different affected Cisco network operating systems handle Ethernet frames with a VLAN ID 0 tag.

  Cisco IOS Software – Switches

  By default, all of the affected Cisco IOS Switches process inbound packets with the frame header that contains a VLAN ID 0 tag. Cisco products have a limit on how many tags can be inspected to establish the upper-layer protocols.

  Note: Cisco IOS Switches that have reached end of life have not been evaluated by the Cisco Product Security Incident Response Team (PSIRT).

  Cisco IOS XE Software – Switches

  By default, Cisco Catalyst 4500E Series switches process an inbound packet with the frame header that contains a VLAN ID 0 tag. Cisco products have a limit on how many tags can be inspected to establish the upper-layer protocols.

  The default behavior of a Cisco IOS XE Switch is to drop all traffic that has a frame header that contains a VLAN ID 0 tag. The switch only processes frames with a VLAN ID 0 tag if the access port is configured as follows:

  switchport voice vlan dot1p

  Cisco IOS XE Software – Routers

  Cisco IOS XE devices that are configured with service instances handle the VLAN ID 0 tag in accordance with their configurations. For VLAN-based services, the top one or two tags are inspected based on configuration and map to the appropriate service instance on the longest match rules.

  Service instance-based configurations that contain encapsulation dot1q priority-tagged, encapsulation dot1q priority-tagged exact, or encapsulation default are affected by this vulnerability.

  The order of matching a service instance for VLAN ID 0 is based on encapsulation dot1q priority-tagged first and then encapsulation default. Cisco IOS XE Software does not match on encapsulation dot1q any for VLAN ID 0 tags.

  Cisco IOS XR Software

  Cisco IOS XR Software running on Layer 2 Transport interfaces handles a VLAN ID 0 tag in accordance with the configurations applied to the device. For port-based services, the packets are forwarded with no inspection. For VLAN-based services, either the top tag or the top two tags are inspected based on configuration and map to the appropriate attachment circuit based on the longest match rules. Fore more information, see IOS XR L2VPN Services and Features.

  Configurations that contain encapsulation dot1q priority-tagged, encapsulation dot1q priority-tagged exact, or encapsulation default on Layer 2 Transport VLAN-based configurations are affected by this vulnerability.

  Cisco NX-OS Software

  By default, Cisco NX-OS Software processes an inbound packet with the frame header containing a VLAN ID 0 tag. The initial VLAN ID 0 tag is stripped and then processed in accordance with the rest of the packet contents. Cisco products have a limit on how many tags can be inspected to establish the upper-layer protocols.

  Cisco Small Business Switches

  By default, Cisco Small Business Switches process an inbound packet with the frame header that contains a VLAN ID 0 tag. Cisco products have a limit on how many tags can be inspected to establish the upper-layer protocols.

  CVE-2021-27854

  CVE-2021-27854 examines the way frames are converted between 802.11 and 802.3 with the injection of VLAN tags in the SNAP headers.

  Cisco evaluated this vulnerability for any impact to the security features on wireless access points when handling these frame conversions. Cisco found that no configured FHS features were bypassed.

  CVE ID: CVE-2021-27854
  Security Impact Rating (SIR): Medium 
  CVSS Base Score: 4.7
  CVSS Vector: CVSS:3.1/AV:A/AC:L/PR:N/UI:N/S:C/C:N/I:L/A:N

  CVE-2021-27861

  A vulnerability in the Ethernet processing of multiple Cisco products could allow an unauthenticated, adjacent attacker to bypass the FHS feature of an affected device.

  This vulnerability is due to insufficient validation of SNAP/LLC Ethernet frames. An attacker could exploit this vulnerability by sending packets with a crafted (or not crafted, depending on the product) SNAP/LLC Ethernet header. A successful exploit could allow the attacker to bypass the FHS feature of an affected device.

  Cisco has not released software updates that address this vulnerability. There are workarounds that address this vulnerability for some products.

  CVE ID: CVE-2021-27861
  Security Impact Rating (SIR): Medium 
  CVSS Base Score: 4.7
  CVSS Vector: CVSS:3.1/AV:A/AC:L/PR:N/UI:N/S:C/C:N/I:L/A:N

  CVE-2021-27861: Cisco Network Operating Systems

  This section provides specific details about how the different affected Cisco network operating systems handle SNAP/LLC Ethernet frames.

  Cisco IOS Software – Switches

  The affected Cisco IOS Software products forward SNAP/LLC frames without additional FHS feature inspection.

  Cisco IOS XR Software

  The affected Cisco IOS XR Software products forward SNAP/LLC frames without additional FHS feature inspection.

  Cisco NX-OS Software

  The affected Cisco NX-OS Software products forward SNAP/LLC frames without any additional FHS feature inspection.

  Cisco Small Business Switches

  The affected Cisco Small Business Switches correctly apply FHS features for SNAP/LLC frames with a length field of up to 1,500. However, SNAP/LLC frames with lengths of 1,501 through 1,535 are forwarded without additional FHS feature inspection.

  CVE-2021-27862

  CVE-2021-27862 examines the way frames are converted between 802.3 to 802.11 and the length field.

  Cisco evaluated this vulnerability for any impact to the security features on wireless access points when handling these frame conversions. Cisco found that no configured FHS features were bypassed.

  CVE ID: CVE-2021-27862
  Security Impact Rating (SIR): Medium 
  CVSS Base Score: 4.7
  CVSS Vector: CVSS:3.1/AV:A/AC:L/PR:N/UI:N/S:C/C:N/I:L/A:N

Workarounds

• There are workarounds that address some of these vulnerabilities. 

  CVE-2021-27853

  Administrators may drop packets that cannot have their ethertype detected using a Layer 2 access control list (ACL) or where tags are not expected to drop tagged traffic. If a single dot1P header is received, it will still be processed correctly if the network operating system supports it.

  The following are examples of Layer 2 ACLs that could be implemented on access ports where FHS has been configured:

  Cisco IOS Software – Switches

  !
  mac access-list extended CSCwa14271
   permit any any 0x86DD 0x0
   permit any any 0x800 0x0
   permit any any 0x806 0x0
   deny   any any
  !
  interface GigabitEthernet1/0/1
   switchport access vlan 5
   switchport voice vlan dot1p
   ipv6 nd raguard attach-policy HOSTS
   mac access-group CSCwa14271 in
  !

  Cisco IOS XE Software – Switches

  For Cisco IOS XE Software on switches, impact to all FHS features occurs on Cisco IOS Software releases 17.6.1 and later, but earlier than the first fixed release. The issue will not be seen if the access port VLAN also has an active switched virtual interface (SVI). If there are access ports in VLAN 5, for example, this issue will be observed only if interface vlan 5 is not configured. To mitigate this issue for vulnerable releases of Cisco IOS Software, administrators can ensure that each VLAN assigned to access ports has a corresponding SVI configured. 

  For Cisco IOS XE Software on switches, Dynamic ARP Inspection is affected on all releases. Administrators can configure static ARP entries for the default gateways and critical servers and hosts off the segments that are being protected to protect the critical assets in the environment.

  Cisco IOS XE Software – Routers

  For configurations that have a service instance with encapsulation priority-tagged and where the environment needs to examine only the first tag (depending on the platform), administrators can either add the keyword exact after the encapsulation priority-tagged or filter on the ethertype field with encapsulation priority-tagged etype ipv4 , ipv6.

  For environments that do not have encapsulation priority-tagged assigned to a service instance, to prevent packets that are tagged with dot1p at the front of the headers from being forwarded, administrators can configure a service instance that is not assigned to a bridge domain with encapsulation priority-tagged.

  Cisco IOS XR Software

  For configurations that have an l2transport sub interface configured with encapsulation dot1q|dot1ad priority-tagged and where the environment needs to examine only the first tag (depending on the platform), administrators can add the keyword exact after the encapsulation dot1q|dot1ad priority-tagged.

  For environments that do not have encapsulation dot1q|dot1ad priority-tagged assigned to an l2transport sub interface, to prevent packets that are tagged with dot1p at the front of the headers from being forwarded, administrators can configure l2transport sub interfaces that are not assigned to a bridge domain with encapsulation dot1q priority-tagged and encapsulation dot1ad priority-tagged.

  Cisco NX-OS Software

  !
  mac access-list drop_three_tags
   deny any any 0x8100
   deny any any 0x88a8
   permit any any 
  !
  interface ethernet 1/4
   mac port access-group drop_three_tags
  !
    

  Cisco Small Business Switches

  To ensure that FHS works correctly on access ports, install a MAC ACL to deny only tagged frames (because they are not to be expected on an access port) or to permit only ARP, IPv4, and IPv6 on all access ports. The following is an example from the Cisco Sx250, 350, and 550 Series Smart Switches and the Cisco Business 250 and 350 Series Smart Switches:

  mac access-list extended arp-ip-ip6
   permit any any 806 0000 ace-priority 1
   permit any any 800 0000 ace-priority 2
   permit any any 86dd 0000 ace-priority 3

   

  CVE-2021-27861

  The principle for mitigating CVE-2021-27861 is to drop any packets that cannot have their Layer 3 protocol detected using a Layer 2 ACL.

  The following are examples of Layer 2 ACLs that could be implemented on access ports where FHP has been configured:

  Cisco IOS Software – Switches

  No mitigations or workarounds.

  Cisco IOS XR Software

  No mitigations or workarounds.

  Cisco NX-OS Software

  !
  interface Ethernet1/3
    switchport
    switchport access vlan 5
    mac port access-group drop_non
    ipv6 nd raguard attach-policy HOSTS
  !
  interface Ethernet1/4
    switchport
    switchport access vlan 5
    mac port access-group drop_non
    ipv6 nd raguard attach-policy CSCvw92154
  !
  mac access-list drop_non
    10 permit any any 0x86dd
    20 permit any any ip
    30 permit any any 0x806
    35 permit any 0100.0ccc.cccc 0000.0000.0000
    40 deny any any
  !

  Cisco Small Business Switches

  No mitigations or workarounds.

  While these workarounds have been deployed and were proven successful in a test environment, customers should determine the applicability and effectiveness in their own environment and under their own use conditions. Customers should be aware that any workaround or mitigation that is implemented may negatively impact the functionality or performance of their network based on intrinsic customer deployment scenarios and limitations. Customers should not deploy any workarounds or mitigations before first evaluating the applicability to their own environment and any impact to such environment.

Fixed Software

• When considering software upgrades, customers are advised to regularly consult the advisories for Cisco products, which are available from the Cisco Security Advisories page, to determine exposure and a complete upgrade solution.

  In all cases, customers should ensure that the devices to be upgraded contain sufficient memory and confirm that current hardware and software configurations will continue to be supported properly by the new release. If the information is not clear, customers are advised to contact the Cisco Technical Assistance Center (TAC) or their contracted maintenance providers.

  Fixed Releases

  CVE-2021-27853

  At the time of publication, the release information in the following table was accurate. See the Details section in the bug ID(s) at the top of this advisory for the most complete and current information.

  Product	Cisco Bug ID	First Fixed Release
  Cisco IOS XE Switches	CSCvz91291	17.6.3 17.8.1

  CVE-2021-27854

  Cisco evaluated this vulnerability based on its impact on FHS features configured on the access points. No impact was observed.

  CVE-2021-27861

  At the time of publication, Cisco had not released updates that address this vulnerability for any Cisco product.

  CVE-2021-27862

  Cisco evaluated this vulnerability based on its impact on FHS features configured on the access points. No impact was observed.

  The Cisco PSIRT validates only the affected and fixed release information that is documented in this advisory.

Exploitation and Public Announcements

• The Cisco PSIRT is aware that proof-of-concept exploit code is available for the vulnerabilities that are described in this advisory.

  The Cisco PSIRT is not aware of any malicious use of the vulnerabilities that are described in this advisory.

Source

• Cisco would like to thank Etienne Champetier for reporting these vulnerabilities and Cert/CC for the coordination.

URL

• https://sec.cloudapps.cisco.com/security/center/content/CiscoSecurityAdvisory/cisco-sa-VU855201-J3z8CKTX

Revision History

• Version	Description	Section	Status	Date
  1.1	Corrected affected product information.	Details	Final	2022-OCT-05
  1.0	Initial public release.	—	Final	2022-SEP-27

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