Objects > Security Profiles > Mobile Network Protection
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11.0 (EoL)
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End-of-Life (EoL)
Objects > Security Profiles > Mobile Network Protection
The Mobile Network Protection profile enables the firewall
to inspect GTP and HTTP/2 in 5G Service Based Architecture (SBA)
traffic. To view this profile, you must enable GTP Security in Device
> Setup > Management.
Use the options in this profile to enable stateful inspection
of 5G HTTP/2, GTP v1-C, GTP v2-C, GTP-U, and PFCP, to enable protocol
validation for GTPv1-C, GTP v2-C, and GTP-U, and to enable GTP-U
content inspection to scan user data within GTP-U tunnels. It also enables
you to filter GTP sessions based on APN, IMSI/IMSI-Prefix, and RAT,
and to prevent end-user IP address spoofing.
GTP Inspection Profile Settings | |
---|---|
GTP Inspection | |
GTP-C |
|
GTP-U | Enabling stateful inspection for either
GTPv1-C and/or GTPv2-C automatically enables GTPU-U stateful inspection. You
can specify the following validity checks for GTP-U payloads.
In addition you can also
configure an allow, block or alert action for:
|
5G-C | For 5G, enable 5G-HTTP2 to
enable inspection of 5G HTTP/2 control packets, which can contain
subscriber IDs, equipment IDs, and network slice information. This
allows you to correlate subscriber ID (IMSI), equipment ID (IMEI),
and network slice ID information learned from HTTP/2 messages with
the IP traffic encapsulated in GTP-U packets. Enabling 5G-HTTP2 disables
GTP-C for the profile. |
PFCP | For Packet Forwarding Control Protocol (PFCP),
enable Stateful Inspection to inspect PFCP
traffic. When you enable stateful inspection for PFCP traffic, the
firewall inspects the traffic between the MEC and the remote or
central site to help prevent attacks such as Denial of Service (DOS)
or spoofing. If you enable this option, Actions for GTP-U
End User IP Address Spoofing are not available. You can
specify the following state checks:
You can then specify the Action (Allow, Alert,
or Block) you want the firewall to take when
the check is unsuccessful. You can also select if you want
the firewall to create a log at the beginning or ending of the PFCP
associations or sessions. |
Correlation | |
UEIP Correlation | Enables correlation and mapping of subscriber ID and equipment ID to the User Equipment (UE) IP
address. |
Source |
Select the source that you want the firewall to use to correlate the
control plane and user plane information for enforcement of
subscriber-level and equipment-level security policy. The firewall
inspects traffic for the source type you select to process and
extract 5G/4G identity information, such as subscriber ID (SUPI or
IMSI), equipment ID (PEI or IMEI) and the IP address of the user
equipment (UE), to correlate with 5G/4G subscriber IP traffic.
|
Log at UEIP Start | Log UEIP correlation events when the firewall allocates an IP address to the UE. |
Log at UEIP End | Log UEIP correlation events when the firewall
releases the allocated IP address. |
Filtering Options | |
RAT Filtering | All Radio Access Technologies (RAT) are
allowed by default. GTP-C Create-PDP-Request and Create-Session-Request
messages are filtered or allowed based on the RAT filter. You can
specify whether to allow, block or alert on the following RAT that
the user equipment uses to access the mobile core network:
The following RAT
are available when enabling 5G-HTTP2:
|
IMSI Filtering | IMSI (International Mobile Subscriber Identity)
is a unique identification associated with a subscriber in GSM,
UMTS and LTE networks that is provisioned in the Subscriber Identity
Module (SIM) card. An IMSI is usually presented as a 15-digit
number (8 bytes) but can be shorter. IMSI is composed of three parts:
The IMSI
Prefix combines the MCC and MNC and allows you to allow, block,
or alert GTP traffic from a specific PLMN.
By default all IMSI are allowed. You can either manually enter
or import a CSV file with IMSI or IMSI prefixes into the firewall.
The IMSI can include wildcards, for example, 310* or 240011*. The
firewall supports a maximum of 5,000 IMSI or IMSI prefixes. |
APN Filtering | The Access Point Name (APN) is a reference
to a GGSN/ PGW that user equipment requires to connect to the internet.
In 5G, one format of Data Network Name (DNN) is the APN. The APN
is composed of one or two identifiers:
All
APNs are allowed by default. The APN filter enables you to allow,
block, or alert GTP traffic based on the APN value. GTP-C Create-PDP-Request
and Create-Session-Request messages are filtered or allowed based
on the rules defined for APN filtering. You can manually add
or import an APN filtering list into the firewall. The value for
the APN must include the network ID or the domain name of the network
(for example, example.com) and, optionally, the operator ID. For
APN filtering, the wildcard '*' allows you to match for all APN.
A combination of '*' and other characters is not supported for wildcards.
For example, "internet.mnc* " is treated as a regular APN and will
not filter all entries that start with internet.mnc. The firewall
supports a maximum of 1,000 APN filters. |
GTP Tunnel Limit | |
Max Concurrent Tunnels Allowed per Destination | Allows you to limit the maximum number of
GTP-U tunnels to a destination IP address, for example to the GGSN
(range is 0 to 100,000,000 tunnels) |
Alert at Max Concurrent Tunnels per Destination | Specify the threshold at which the firewall
triggers an alert when the number of maximum GTP-U tunnels to a
destination have been established. A GTP log message of high severity
is generated when the configured tunnel limit is reached. |
Logging frequency | The number of events that the firewall counts
before it generates a log when the configured GTP tunnel limits
are exceeded. This setting allows you to reduce the volume to messages
logged (range is 0 to 100,000,000; default is 100). |
Overbilling Protection | Select the virtual system that serves as
the Gi/ SGi firewall on your firewall. The Gi/ SGi firewall inspects
the mobile subscriber IP traffic traversing over the Gi/ SGi interface
from the PGW/ GGSN to the external PDN (packet data network) such
as the internet and secures internet access for mobile subscribers. Overbilling
can occur when a GGSN assigns a previously used IP address from
the End User IP address pool to a mobile subscriber. When a malicious
server on the internet continues to send packets to this IP address
as it did not close the session initiated for the previous subscriber
and the session is still open on the Gi Firewall. To disallow data
from being delivered, whenever a GTP tunnel is deleted (detected by
delete-PDP or delete-session message) or timed-out, the firewall enabled
for overbilling protection notifies the Gi/ SGi firewall to delete all
the sessions that belong to the subscriber from the session table. GTP
Security and SGi/ Gi firewall should be configured on the same physical
firewall, but can be in different virtual systems. In order to delete
sessions based on GTP-C events, the firewall needs to have all the
relevant session information and this is possible only when you manage
traffic from the SGi + S11 or S5 interfaces for GTPv2 and Gi + Gn
interfaces for GTPv1 in the mobile core network. |
Other Log Settings By
default the firewall does not log allowed GTP or PFCP messages.
You can selectively enable logging of allowed GTP and PFCP messages
for troubleshooting when needed as it will generate high volume
of logs. In addition to allowed log messages, this tab also allows
you to selectively enable logging of user location information. | |
GTPv1-C Allowed Messages | Allows you to selectivity enable logging
of the allowed GTPv1-C messages, if you have enabled stateful inspection
for GTPv1?C. These messages generate logs to help you troubleshoot
issues as needed. By default, the firewall does not log allowed
messages. The logging options for allowed GTPv1-C messages are:
|
Log User Location | Enables you to include the user location
information, such as area code and Cell ID, in GTP logs. |
Packet Capture | Enables you to capture GTP events. |
GTPv2-C Allowed Messages | Enables you to selectively enable logging
of the allowed GTPv2-C messages if you enabled stateful inspection
for GTPv2-C. These messages generate logs to help you troubleshoot
issues as needed. By default, the firewall does not log allowed
messages. The logging options for allowed GTPv2-C messages are:
|
GTP-U Allowed Messages | Enables you to selectively enable logging
of the allowed GTP-U messages if you enabled stateful inspection
for GTPv2-C or GTPv1-C. These messages generate logs to help you
troubleshoot issues as needed. The logging options for allowed
GTP-U messages are:
|
G-PDU Packets Logged per New GTP-U Tunnel | Enable this option to verify that the firewall
is inspecting GTP-U PDUs. The firewall generates a log for the specified
number of G-PDU packets in each new GTP-U tunnel (range is 1 to
10; default is 1). |
5G-C Allowed Messages | Select N11 to selectively
enable logging of allowed N11 messages. N11 messages help you with troubleshooting
and provide deeper visibility into the HTTP/2 messages exchanged
over an N11 interface for different procedures. This field is available
only if you enabled 5G-HTTP2 on the 5G-C tab
in the Mobile Network Protection profile. |
PFCP Allowed Messages | Allows you to selectively enable logging
of the allowed PFCP messages if you enabled stateful inspection
for PFCP. These messages generate logs to help you troubleshoot
issues as needed. The logging options for allowed PFCP messages
are:
|