View STIG - Juniper SRX Services Gateway VPN Security Technical Implementation Guide V2R2

b

The Juniper SRX Services Gateway VPN must limit the number of concurrent sessions for user accounts to one (1) and administrative accounts to three (3), or set to an organization-defined number.

AC-10 - Medium - CCI-000054 - V-214668 - SV-214668r382774_rule

RMF Control

AC-10

Severity

Medium

CCI

CCI-000054

Version

JUSX-VN-000001

Vuln IDs

V-214668
V-66629

Rule IDs

SV-214668r382774_rule
SV-81119

Network element management includes the ability to control the number of users and user sessions that utilize a network element. Limiting the number of allowed users and sessions per user is helpful in limiting risks related to DoS attacks. This requirement addresses concurrent sessions for information system accounts and does not address concurrent sessions by single users via multiple system accounts. The maximum number of concurrent sessions should be defined based upon mission needs and the operational environment for each system. The intent of this policy is to ensure the number of concurrent sessions is deliberately set to a number based on the site's mission and not left unlimited.

Checks: C-15869r297591_chk

Verify the VPN Internet Key Exchange (IKE) gateway limits concurrent sessions. [edit] show security ike View the value for the connections-limit. If the VPN IKE gateway does not limit the number of concurrent sessions for user accounts to one (1) and administrative accounts to three (3), or is set to an organization-defined number, this is a finding.

Fix: F-15867r297592_fix

Configure the VPN IKE gateway to limit concurrent sessions. The following is an example. [edit] set security ike gateway <VPN-GATEWAY> dynamic connections-limit 1 [edit] set security ike gateway <VPN-GATEWAY> dynamic connections-limit 3

b

The Juniper SRX Services Gateway VPN must renegotiate the IPsec security association after 8 hours or less.

AC-12 - Medium - CCI-002361 - V-214669 - SV-214669r856572_rule

RMF Control

AC-12

Severity

Medium

CCI

CCI-002361

Version

JUSX-VN-000002

Vuln IDs

V-214669
V-66631

Rule IDs

SV-214669r856572_rule
SV-81121

The IPsec SA and its corresponding key will expire either after the number of seconds or amount of traffic volume has exceeded the configured limit. A new SA is negotiated before the lifetime threshold of the existing SA is reached to ensure that a new SA is ready for use when the old one expires. The longer the lifetime of the IPsec SA, the longer the lifetime of the session key used to protect IP traffic. The SA is less secure with a longer lifetime because an attacker has a greater opportunity to collect traffic encrypted by the same key and subject it to cryptanalysis. However, a shorter lifetime causes IPsec peers to renegotiate Phase II more often resulting in the expenditure of additional resources.

Checks: C-15870r856571_chk

Review all IPsec security associations configured globally or within IPsec profiles on the VPN gateway and examine the configured idle time. The default is 3600. [edit] show security ipsec proposal View the value of the lifetime-seconds option. If the IPsec proposal lifetime-seconds are not renegotiated after 8 hours or less of idle time, this is a finding. If the IPsec proposal lifetime-seconds is not configured, this is a finding.

Fix: F-15868r297595_fix

Set the lifetime (in seconds) of the IPsec proposal to 8 hours or less. Example: [edit] set security ipsec proposal <P2-PROPOSAL-NAME> lifetime-seconds 28800

b

The Juniper SRX Services Gateway VPN must renegotiate the IKE security association after 24 hours or less.

AC-12 - Medium - CCI-002361 - V-214670 - SV-214670r856574_rule

RMF Control

AC-12

Severity

Medium

CCI

CCI-002361

Version

JUSX-VN-000003

Vuln IDs

V-214670
V-66643

Rule IDs

SV-214670r856574_rule
SV-81133

When a VPN gateway creates an IPsec Security Association (SA), resources must be allocated to maintain the SA. These resources are wasted during periods of IPsec endpoint inactivity, which could result in the gateway’s inability to create new SAs for other endpoints, thereby preventing new sessions from connecting. The Internet Key Exchange (IKE) idle timeout may also be set to allow SAs associated with inactive endpoints to be deleted before the SA lifetime has expired, although this setting is not recommended at this time. The value of one hour or less is a common best practice.

Checks: C-15871r856573_chk

Review all IPsec security associations configured globally or within IPsec profiles on the VPN gateway and examine the configured idle time. The idle time value must be one hour or less. If idle time is not configured, determine the default used by the gateway. The default value is 28800 seconds which is compliant. [edit] show security ike proposal View the value of the lifetime-seconds option. If the IKE security associations are not renegotiated after 24 hours or less of idle time, this is a finding.

Fix: F-15869r297598_fix

Specify the lifetime (in seconds) of an IKE security association (SA). When the SA expires, it is replaced by a new SA, the security parameter index (SPI), or terminated if the peer cannot be contacted for renegotiation. Example: [edit] set security ike proposal <P1-PROPOSAL-NAME> lifetime-seconds 86400

b

The Juniper SRX Services Gateway VPN device also fulfills the role of IDPS in the architecture, the device must inspect the VPN traffic in compliance with DoD IDPS requirements.

AC-17 - Medium - CCI-000067 - V-214671 - SV-214671r382780_rule

RMF Control

AC-17

Severity

Medium

CCI

CCI-000067

Version

JUSX-VN-000004

Vuln IDs

V-214671
V-66645

Rule IDs

SV-214671r382780_rule
SV-81135

Remote access devices, such as those providing remote access to network devices and information systems, which lack automated, capabilities increase risk and makes remote user access management difficult at best. Remote access is access to DoD non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network. Automated monitoring of remote access sessions allows organizations to detect cyber attacks and also ensure ongoing compliance with remote access policies by auditing connection activities of remote access capabilities, from a variety of information system components (e.g., servers, workstations, notebook computers, smart phones, and tablets).

Checks: C-15872r297600_chk

Obtain documentation from the site representative that the Juniper SRX is configured in compliance with the Juniper SRX Services Gateway IDPS STIG. If the device has not been configured to comply with DoD IDPS requirements, this is a finding.

Fix: F-15870r297601_fix

Perform a security review using the Juniper SRX Services Gateway IDPS STIG.

c

The Juniper SRX Services Gateway VPN must use AES encryption for the IPsec proposal to protect the confidentiality of remote access sessions.

AC-17 - High - CCI-000068 - V-214672 - SV-214672r382783_rule

RMF Control

AC-17

Severity

High

CCI

CCI-000068

Version

JUSX-VN-000005

Vuln IDs

V-214672
V-66021

Rule IDs

SV-214672r382783_rule
SV-80511

Without confidentiality protection mechanisms, unauthorized individuals may gain access to sensitive information via a remote access session. The Advance Encryption Standard (AES) encryption is critical to ensuring the privacy of the IPsec session; it is imperative that AES is used for encryption operations. Remote access is access to DoD-non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network. Remote access methods include broadband and wireless connections. While there is much debate about the security and performance of AES, there is a consensus that AES is significantly more secure than other algorithms currently supported by IPsec implementations. AES is available in three key sizes: 128, 192, and 256 bits, versus the 56 bit DES. Therefore, there are approximately 1021 times more AES 128-bit keys than DES 56-bit keys. In addition, AES uses a block size of 128 bits—twice the size of DES or 3DES.

Checks: C-15873r297603_chk

Verify all Internet Key Exchange (IKE) proposals are set to use the AES encryption algorithm. [edit] show security ipsec View the value of the encryption algorithm for each defined proposal. If the value of the encryption algorithm for any IPsec proposal is not set to use an AES algorithm, this is a finding.

Fix: F-15871r297604_fix

The following example commands configure the IPsec (phase 2) proposals. The option may also be configured to use the aes-128-cbc, aes-192-cbc, or aes-256-cbc algorithms. [edit] set security ipsec proposal <IPSEC-PROPOSAL-NAME> encryption-algorithm aes-256-cbc

c

The Juniper SRX Services Gateway VPN must use AES encryption for the Internet Key Exchange (IKE) proposal to protect the confidentiality of remote access sessions.

AC-17 - High - CCI-000068 - V-214673 - SV-214673r382783_rule

RMF Control

AC-17

Severity

High

CCI

CCI-000068

Version

JUSX-VN-000006

Vuln IDs

V-214673
V-66617

Rule IDs

SV-214673r382783_rule
SV-81107

Without confidentiality protection mechanisms, unauthorized individuals may gain access to sensitive information via a remote access session. The Advance Encryption Standard (AES) algorithm is critical to ensuring the privacy of the IKE session responsible for establishing the security association and key exchange for an IPsec tunnel. AES is used for encryption operations. Remote access is access to DoD-non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network. Remote access methods include broadband and wireless connections. While there is much debate about the security and performance of AES, there is a consensus that AES is significantly more secure than other algorithms currently supported by IPsec implementations. AES is available in three key sizes: 128, 192, and 256 bits, versus the 56 bit DES. Therefore, there are approximately 1021 times more AES 128-bit keys than DES 56-bit keys. In addition, AES uses a block size of 128 bits—twice the size of DES or 3DES.

Checks: C-15874r297606_chk

Verify all IKE proposals are set to use the AES encryption algorithm. [edit] show security ike View the value of the encryption algorithm for each defined proposal. If the value of the encryption algorithm for any IKE proposal is not set to use an AES algorithm, this is a finding.

Fix: F-15872r297607_fix

The following example commands configure the IKE (phase 1) proposals. The option may also be configured to use the aes-128-cbc, aes-192-cbc, or aes-256-cbc algorithms. [edit] set security ike proposal <IKE-PROPOSAL-NAME> encryption-algorithm aes-256-cbc

b

The Juniper SRX Services Gateway VPN must implement a FIPS-140-2 validated Diffie-Hellman (DH) group.

AC-17 - Medium - CCI-000068 - V-214674 - SV-214674r382783_rule

RMF Control

AC-17

Severity

Medium

CCI

CCI-000068

Version

JUSX-VN-000007

Vuln IDs

V-214674
V-66647

Rule IDs

SV-214674r382783_rule
SV-81137

Use of an approved DH algorithm ensures the Internet Key Exchange (IKE) (phase 1) proposal uses FIPS-validated key management techniques and processes in the production, storage, and control of private/secret cryptographic keys. The security of the DH key exchange is based on the difficulty of solving the discrete logarithm in which the key was derived from. Hence, the larger the modulus, the more secure the generated key is considered to be.

Checks: C-15875r297609_chk

Verify all IKE proposals are set to use a FIPS-validated dh-group. [edit] show security ike <P1-PROPOSAL-NAME> View the IKE options dh-group option. If the IKE option is not set to a FIPS-140-2 validated dh-group, this is a finding.

Fix: F-15873r297610_fix

The following command is an example of how to configure the IKE (phase 1) proposals. The following groups are allowed for use in DoD: DH Groups 14 (2048-bit MODP) - 19 (256-bit Random ECP), 20 (384-bit Random ECP), 5 (1536-bit MODP), 24 (2048-bit MODP with 256-bit POS). Example: [edit] set security ike proposal <P1-PROPOSAL-NAME> dh-group group14

b

The Juniper SRX Services Gateway VPN must be configured to use IPsec with SHA1 or greater to negotiate hashing to protect the integrity of remote access sessions.

AC-17 - Medium - CCI-001453 - V-214675 - SV-214675r382846_rule

RMF Control

AC-17

Severity

Medium

CCI

CCI-001453

Version

JUSX-VN-000008

Vuln IDs

V-214675
V-66649

Rule IDs

SV-214675r382846_rule
SV-81139

Without strong cryptographic integrity protections, information can be altered by unauthorized users without detection. Remote access VPN provides access to DoD non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network.

Checks: C-15876r297612_chk

Verify all IPSec proposals are set to use the sha-256 hashing algorithm. [edit] show security ipsec proposal <IPSEC-PROPOSAL-NAME> View the value of the encryption algorithm for each defined proposal. If the value of the encryption algorithm option for all defined proposals is not set to use SHA1 or greater, this is a finding.

Fix: F-15874r297613_fix

The following example commands configure the IPSec proposal. set security ipsec proposal <IPSEC-PROPOSAL-NAME> authentication-algorithm <hmac-sha-256-128 | hmac-sha-256-96 | hmac-sha1-96>

b

The Juniper SRX Services Gateway VPN must ensure inbound and outbound traffic is configured with a security policy in compliance with information flow control policies.

AC-4 - Medium - CCI-001414 - V-214676 - SV-214676r382735_rule

RMF Control

AC-4

Severity

Medium

CCI

CCI-001414

Version

JUSX-VN-000009

Vuln IDs

V-214676
V-66651

Rule IDs

SV-214676r382735_rule
SV-81141

Remote access devices, such as those providing remote access to network devices and information systems, which lack automated, capabilities increase risk and makes remote user access management difficult at best. Remote access is access to DoD non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network. Automated monitoring of remote access sessions allows organizations to detect cyber attacks and also ensure ongoing compliance with remote access policies by auditing connection activities of remote access capabilities, from a variety of information system components (e.g., servers, workstations, notebook computers, smart phones, and tablets). In phase-2, another negotiation is performed, detailing the parameters for the IPsec connection. New keying material using the Diffie-Hellman key exchange established in phase-1 is used to provide session keys used to protecting the VPN data flow. If Perfect-Forwarding-Secrecy (PFS) is used, a new Diffie-Hellman exchange is performed for each phase-2 negotiation. While this is slower, it makes sure that no keys are dependent on any other previously used keys; no keys are extracted from the same initial keying material. This is to make sure that, in the unlikely event that some key was compromised; no subsequent keys can be derived.

Checks: C-15877r297615_chk

Verify an IPsec policy is configured and used to control the VPN information flow. [edit] show security ipsec Inspect the security policy. If VPN traffic is not configured and controlled using an IPsec policy, this is a finding.

Fix: F-15875r297616_fix

The following example command is an example of an IPsec policy. [edit] set security ipsec policy <IPSEC-POLICY> perfect-forward-secrecy keys group14 set security ipsec policy <IPSEC-POLICY> proposals <IPSEC-PROPOSAL> The following command is an example of how to define an IPsec VPN using the IPsec policy and a secure tunnel interface. Alternatively, administrators can configure on-traffic tunnel establishment. [edit] set security ipsec vpn <VPN> bind-interface st0.0 set security ipsec vpn <VPN> ike gateway <IKE-PEER> set security ipsec vpn <VPN> ike ipsec-policy <IPSEC-POLICY> set security ipsec vpn <VPN> establish-tunnels immediately For site-to-site VPN implementation, the SRX device is configured to route traffic over the IPsec VPN’s secure tunnel interface by establishing a route with the next-hop specified as the secure tunnel interface. The following commands configure an IPv4 and IPv6 static route for their respective secure tunnels. set routing-options static route <IPv4 network/netmask> next-hop st0.0 set routing-options rib inet6.0 static route <IPv6 network/netmask> next-hop st0.1

c

The Juniper SRX Services Gateway VPN must use Internet Key Exchange (IKE) for IPsec VPN Security Associations (SAs).

CM-6 - High - CCI-000366 - V-214677 - SV-214677r385561_rule

RMF Control

CM-6

Severity

High

CCI

CCI-000366

Version

JUSX-VN-000010

Vuln IDs

V-214677
V-66619

Rule IDs

SV-214677r385561_rule
SV-81109

Without IKE, the SPI is manually specified for each security association. IKE peers will negotiate the encryption algorithm and authentication or hashing methods as well as generate the encryption keys. An IPsec SA is established using either Internet Key Exchange (IKE) or manual configuration. When using IKE, the security associations are established when needed and expire after a period of time or volume of traffic threshold. If manually configured, they are established as soon as the configuration is complete at both end points and they do not expire. When using IKE, the Security Parameter Index (SPI) for each security association is a pseudo-randomly derived number. With manual configuration of the IPsec security association, both the cipher key and authentication key are static. Hence, if the keys are compromised, the traffic being protected by the current IPsec tunnel can be decrypted as well as traffic in any future tunnels established by this SA. Furthermore, the peers are not authenticated prior to establishing the SA, which could result in a rogue device establishing an IPsec SA with either of the VPN end points. IKE provides primary authentication to verify the identity of the remote system before negotiation begins. This feature is lost when the IPsec security associations are manually configured, which results in a non-terminating session using static pre-shared keys.

Checks: C-15878r297618_chk

Verify the IKE protocol is specified for all IPsec VPNs. [edit] show security ipsec vpn If the IKE protocol is not specified as an option on all VPN gateways, this is a finding.

Fix: F-15876r297619_fix

The following example commands configure an IPsec VPN to use the IKE gateway information. [edit] set security ipsec vpn <VPN-GWY-NAME> ike gateway <IKE-PEER-NAME>

b

If IDPS inspection is performed separately from the Juniper SRX Services Gateway VPN device, the VPN must route sessions to an IDPS for inspection.

CM-6 - Medium - CCI-000366 - V-214678 - SV-214678r864169_rule

RMF Control

CM-6

Severity

Medium

CCI

CCI-000366

Version

JUSX-VN-000011

Vuln IDs

V-214678
V-66653

Rule IDs

SV-214678r864169_rule
SV-81143

Remote access devices, such as those providing remote access to network devices and information systems, which lack automated, capabilities increase risk and makes remote user access management difficult at best. Remote access is access to DoD non-public information systems by an authorized user (or an information system) communicating through an external, non-organization-controlled network. Automated monitoring of remote access sessions allows organizations to detect cyber attacks and also ensure ongoing compliance with remote access policies by auditing connection activities of remote access capabilities, from a variety of information system components (e.g., servers, workstations, notebook computers, smart phones, and tablets).

Checks: C-15879r864167_chk

Inspect the Juniper SRX configuration or the site's architecture drawings to verify all inbound VPN traffic is routed to the site's intrusion detection system. If all inbound VPN traffic is not inspected by the site's IDPS prior to being routed to its destination, this is a finding.

Fix: F-15877r864168_fix

Configure the Juniper SRX to route traffic to the port attached to intrusion detection system or configure to route all inbound traffic to the sites intrusion detection system using the IP address of the IPS/IDS.

c

The Juniper SRX Services Gateway VPN must not accept certificates that have been revoked when using PKI for authentication.

CM-6 - High - CCI-000366 - V-214679 - SV-214679r385561_rule

RMF Control

CM-6

Severity

High

CCI

CCI-000366

Version

JUSX-VN-000012

Vuln IDs

V-214679
V-66621

Rule IDs

SV-214679r385561_rule
SV-81111

Situations may arise in which the certificate issued by a Certificate Authority (CA) may need to be revoked before the lifetime of the certificate expires. For example, the certificate is known to have been compromised. To achieve this, a list of certificates that have been revoked, known as a Certificate Revocation List (CRL), is sent periodically from the CA to the IPsec gateway. When an incoming Internet Key Exchange (IKE) session is initiated for a remote client or peer whose certificate is revoked, the CRL will be checked to see if the certificate is valid; if the certificate is revoked, IKE will fail and an IPsec security association will not be established for the remote endpoint.

Checks: C-15880r297624_chk

Examine the CA trust point defined on the VPN gateway to determine if it references a CRL and that revocation check has been enabled. An alternate mechanism for checking the validity of a certificate is the use of the Online Certificate Status Protocol (OCSP). Unlike CRLs, which provide only periodic certificate status checks, OCSP can provide timely information regarding the status of a certificate. If revoked certificates are accepted for PKI authentication, this is a finding.

Fix: F-15878r297625_fix

Configure the CA trust point to enable certificate revocation check by referencing a CRL or via OCSP.

b

The Juniper SRX Services Gateway VPN must specify Perfect Forward Secrecy (PFS).

CM-6 - Medium - CCI-000366 - V-214680 - SV-214680r385561_rule

RMF Control

CM-6

Severity

Medium

CCI

CCI-000366

Version

JUSX-VN-000013

Vuln IDs

V-214680
V-66655

Rule IDs

SV-214680r385561_rule
SV-81145

PFS generates each new encryption key independently from the previous key. Without PFS, compromise of one key will compromise all communications. The phase 2 (Quick Mode) Security Association (SA) is used to create an IPsec session key. Hence, its rekey or key regeneration procedure is very important. The phase 2 rekey can be performed with or without Perfect Forward Secrecy (PFS). With PFS, every time a new IPsec Security Association is negotiated during the Quick Mode, a new Diffie-Hellman (DH) exchange occurs. The new DH shared secret will be included with original keying material (SYKEID_d, initiator nonce, and responder nonce from phase 1) for generating a new IPsec session key. If PFS is not used, the IPsec session key will always be completely dependent on the original keying material from the Phase-1. Hence, if an older key is compromised at any time, it is possible that all new keys may be compromised. The DH exchange is performed in the same manner as was done in phase 1 (Main or Aggressive Mode). However, the phase 2 exchange is protected by encrypting the phase 2 packets with the key derived from the phase 1 negotiation. Because DH negotiations during phase 2 are encrypted, the new IPsec session key has an added element of secrecy.

Checks: C-15881r297627_chk

Examine all IPsec profiles to verify PFS is enabled. [edit] show security ipsec policy If PFS is not configured, this is a finding.

Fix: F-15879r297628_fix

Configure the VPN gateway to ensure PFS is enabled. The following commands configure an IPsec policy, enabling PFS using Diffie-Hellman group 14 and associates the IPsec proposal configured in the previous example. [edit] set security ipsec policy <IPSEC-POLICY> perfect-forward-secrecy keys group14 set security ipsec policy <IPSEC-POLICY> proposals <IPSEC-PROPOSAL>

b

The Juniper SRX Services Gateway VPN must use Encapsulating Security Payload (ESP) in tunnel mode.

CM-6 - Medium - CCI-000366 - V-214681 - SV-214681r385561_rule

RMF Control

CM-6

Severity

Medium

CCI

CCI-000366

Version

JUSX-VN-000014

Vuln IDs

V-214681
V-66657

Rule IDs

SV-214681r385561_rule
SV-81147

ESP provides confidentiality, data origin authentication, integrity, and anti-replay services within the IPsec suite of protocols. ESP in tunnel mode ensures a secure path for communications for site-to-site VPNs and gateway to endpoints, including header information. ESP can be deployed in either transport or tunnel mode. Transport mode is used to create a secured session between two hosts. It can also be used when two hosts simply want to authenticate each IP packet with IPsec authentication header (AH). With ESP transport mode, only the payload (transport layer) is encrypted, whereas with tunnel mode, the entire IP packet is encrypted and encapsulated with a new IP header. Tunnel mode is used to encrypt traffic between secure IPsec gateways or between an IPsec gateway and an end-station running IPsec software. Hence, it is the only method to provide a secured path to transport traffic between remote sites or end-stations and the central site.

Checks: C-15882r297630_chk

Review all IPsec profiles and zones to verify ESP tunnel mode has been specified. [edit] show security ipsec proposal show security zones security-zone untrust If all IPsec proposals are not configured for the ESP protocol, this is a finding. If an Internet Key Exchange (IKE) is not bound to an external host-inbound service to direct all inbound VPN traffic to the VPN interface configured for IKE, this is a finding.

Fix: F-15880r297631_fix

Configure Phase 2 for ESP and allow IKE as a host-inbound service within the security zone associated with the IKE gateway’s external interface configuration. Any traffic that you wish to encrypt is routed to this tunnel interface. Example: [edit set security ipsec proposal IPSEC-PROPOSAL protocol esp Assumes the external interface is associated with the “untrust” zone. [edit] set security ike gateway <IKE-PEER> external-interface <EXTERNAL-INTERFACE-NAME> set security zones security-zone untrust host-inbound-traffic system-services ike

b

The Juniper SRX Services Gateway must disable or remove unnecessary network services and functions that are not used as part of its role in the architecture.

CM-7 - Medium - CCI-000381 - V-214682 - SV-214682r382903_rule

RMF Control

CM-7

Severity

Medium

CCI

CCI-000381

Version

JUSX-VN-000015

Vuln IDs

V-214682
V-66659

Rule IDs

SV-214682r382903_rule
SV-81149

Network devices are capable of providing a wide variety of functions (capabilities or processes) and services. Some of these functions and services are installed and enabled by default. The organization must determine which functions and services are required to perform the content filtering and other necessary core functionality for each component of the SRX. These unnecessary capabilities or services are often overlooked and therefore may remain unsecured. They increase the risk to the platform by providing additional attack vectors. Services that may be related security-related, but based on the role of the device in the architecture do not need to be installed. For example, the Juniper SRX can have an Antivirus, Web filter, IDS, or ALG license. However, if these functions are not part of the documented role of the SRX in the enterprise or branch architecture, then these the software and licenses should not be installed on the device. This mitigates the risk of exploitation of unconfigured services or services that are not kept updated with security fixes. If left unsecured, these services may provide a threat vector. Only remove unauthorized services. This control is not intended to restrict the use of Juniper SRX devices with multiple authorized roles.

Checks: C-15883r297633_chk

Review the documentation and architecture for the device. <root> show system license If unneeded services and functions are installed on the device, but are not part of the documented role of the device, this is a finding.

Fix: F-15881r297634_fix

Remove unnecessary services and functions. From operational mode, display the licenses available to be deleted and enter the following commands. request system license delete license-identifier-list ? request system license delete <license-identifier> Note: Only remove unauthorized services. This control is not intended to restrict the use of Juniper SRX devices with multiple authorized roles.

b

The Juniper SRX Services Gateway VPN must use IKEv2 for IPsec VPN security associations.

CM-7 - Medium - CCI-000382 - V-214683 - SV-214683r385486_rule

RMF Control

CM-7

Severity

Medium

CCI

CCI-000382

Version

JUSX-VN-000016

Vuln IDs

V-214683
V-66661

Rule IDs

SV-214683r385486_rule
SV-81151

Use of IKEv2 leverages DoS protections because of improved bandwidth management and leverages more secure encryption algorithms.

Checks: C-15884r297636_chk

Verify only IKEv2 is used for the IKE security configuration on all configured gateways. Use of IKEv1 mitigates the risk to a CAT III finding. Show security ike gateway <VPN-GATEWAY> If IKEv2 is not used for IKE associations, this is a finding.

Fix: F-15882r297637_fix

For site-to-site VPNs, configure the Juniper SRX to use IKEv2 only. [edit] set security ike gateway <VPN-GATEWAY> address <GW-IP-ADDRESS> set security ike gateway <VPN-GATEWAY> version v2-only

b

The Juniper SRX Services Gateway VPN must be configured to prohibit or restrict the use of functions, ports, protocols, and/or services, as defined in the PPSM CAL and vulnerability assessments.

CM-7 - Medium - CCI-000382 - V-214684 - SV-214684r385486_rule

RMF Control

CM-7

Severity

Medium

CCI

CCI-000382

Version

JUSX-VN-000017

Vuln IDs

V-214684
V-66663

Rule IDs

SV-214684r385486_rule
SV-81153

In order to prevent unauthorized connection of devices, unauthorized transfer of information, or unauthorized tunneling (i.e., embedding of data types within data types); organizations must disable or restrict unused or unnecessary physical and logical ports/protocols on information systems. DoD continually assesses the ports, protocols, and services that can be used for network communications. Some ports, protocols or services have known exploits or security weaknesses. Network traffic using these ports, protocols, and services must be prohibited or restricted in accordance with DoD policy. The PPSM CAL and vulnerability assessments provide an authoritative source for ports, protocols, and services that are unauthorized or restricted across boundaries on DoD networks. The Juniper SRX must be configured to prevent or restrict the use of prohibited ports, protocols, and services throughout the network by filtering the network traffic and disallowing or redirecting traffic as necessary. Default and updated policy filters from the vendors will disallow older version of protocols and applications and will address most known non-secure ports, protocols, and/or services.

Checks: C-15885r297639_chk

Entering the following commands from the configuration level of the hierarchy. [edit] show security services If functions, ports, protocols, and services identified on the PPSM CAL are not disabled, this is a finding.

Fix: F-15883r297640_fix

Ensure functions, ports, protocols, and services identified on the PPSM CAL are not used for system services configuration. [edit] show security services Compare the services that are enabled, including the port, services, protocols, and functions. Consult the Juniper knowledge base and configuration guides to determine the commands for disabling each port, protocols, services, or functions that is not in compliance with the PPSM CAL and vulnerability assessments.

b

The Juniper SRX Services Gateway VPN must uniquely identify and authenticate organizational users (or processes acting on behalf of organizational users).

IA-2 - Medium - CCI-000764 - V-214685 - SV-214685r385489_rule

RMF Control

IA-2

Severity

Medium

CCI

CCI-000764

Version

JUSX-VN-000018

Vuln IDs

V-214685
V-66665

Rule IDs

SV-214685r385489_rule
SV-81155

To assure accountability and prevent unauthenticated access, organizational users must be identified and authenticated to prevent potential misuse and compromise of the system. Organizational users include organizational employees or individuals the organization deems to have equivalent status of employees (e.g., contractors). Organizational users (and any processes acting on behalf of users) must be uniquely identified and authenticated for all accesses except the following. (i) Accesses explicitly identified and documented by the organization. Organizations document specific user actions that can be performed on the information system without identification or authentication; and (ii) Accesses that occur through authorized use of group authenticators without individual authentication. Organizations may require unique identification of individuals in group accounts (e.g., shared privilege accounts) or for detailed accountability of individual activity. This requirement only applies to components where this is specific to the function of the device or has the concept of an organizational user (e.g., VPN or proxy capability). This does not apply to authentication for the purpose of configuring the device itself (i.e., device management).

Checks: C-15886r297642_chk

Ask the site to identify the VPN access profile. Verify the access profile uses LDAP, not password configuration, for user remote access to the network. Ask the site representative if group accounts are allowed or configured. [edit] show security access profile <VPN-LDAP-PROFILE-NAME> If an access profile that uses LDAP is not configured as the first option in the authentication order, this is a finding. If group accounts are allowed for VPN logon, this is a finding.

Fix: F-15884r297643_fix

Configure the LDAP access profile. The LDAP server must use DoD PKI for authentication of users. [edit] set access profile <VPN-LDAP-PROFILE-NAME> authentication-order ldap set access profile <VPN-LDAP-PROFILE-NAME> address-assignment pool dyn-vpn-pool set access profile <VPN-LDAP-PROFILE-NAME> ldap-options base-distinguished-name CN=Users, DC=firewall, DC=com (Location from where LDAP will start searching for users) set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search search-filter sAMAccountName= set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search admin-search distinguished-name CN=Administrator, CN=Users, DC=firewall, DC=com (User who is authorized to search the ldap tree) set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search admin-search password <Administrator Password> set access profile <VPN-LDAP-PROFILE-NAME> ldap-server <AD Server IP address> port 389/636 set access firewall-authentication pass-through default-profile <VPN-LDAP-PROFILE-NAME> set access firewall-authentication web-authentication default-profile <VPN-LDAP-PROFILE-NAME> Note: To find the user or administrator base DN, use any LDAP browser. On an Internet search engine, search for ldp.exe, which is a very basic LDAP browser. When using LDAP groups to authenticate a user, or a user belonging to a group in the active directory, include the following statement: set access profile <VPN-LDAP-PROFILE-NAME> session-options client-group <group-name> Note: Without the above statement, users are not searched based on the group name or group string. The IP address pool configuration is as follows (the user will be assigned the IP from this pool): set access address-assignment pool dyn-vpn-pool family inet network <IP Network for Dynamic-VPN User> (e.g.. 192.168.100.0/24) set access address-assignment pool dyn-vpn-pool family inet range dyn-vpn-pool-range low <Starting IP address for Dynamic-VPN User> (e.g.. 192.168.100.1) set access address-assignment pool dyn-vpn-pool family inet range dyn-vpn-pool-range high <ending IP address for Dynamic-VPN User> (e.g.. 192.168.100.100) Note: The IP network used for dynamic VPN users should be different from the IP network of the external interface used in the IKE configuration. The access profile is linked to the xauth of the gateway for dynamic VPN. set security ike gateway <VPN-GATEWAY> xauth access-profile <VPN-LDAP-PROFILE-NAME> Under security >> dynamic-vpn, add all the users that are going to use the dynamic VPN. The command is as follows: set security dynamic-vpn clients all user Note: For users who are going to use dynamic VPN, this will be the AD user logon name for each user.

c

The Juniper SRX Services Gateway VPN must use multifactor authentication (e.g., DoD PKI) for network access to non-privileged accounts.

IA-2 - High - CCI-000766 - V-214686 - SV-214686r385492_rule

RMF Control

IA-2

Severity

High

CCI

CCI-000766

Version

JUSX-VN-000019

Vuln IDs

V-214686
V-66623

Rule IDs

SV-214686r385492_rule
SV-81113

To assure accountability and prevent unauthenticated access, non-privileged users must utilize multifactor authentication to prevent potential misuse and compromise of the system. Multifactor authentication uses two or more factors to achieve authentication. Use of password for user remote access for non-privileged account is not authorized. Factors include: (i) Something you know (e.g., password/PIN); (ii) Something you have (e.g., cryptographic identification device, token); or (iii) Something you are (e.g., biometric). A non-privileged account is any information system account with authorizations of a non-privileged user. Network access is any access to an application by a user (or process acting on behalf of a user) where said access is obtained through a network connection. The DoD CAC with DoD-approved PKI is an example of multifactor authentication.

Checks: C-15887r297645_chk

Ask the site to identify the VPN access profile. Verify the access profile uses LDAP, not password configuration, for user remote access to the network. Ask the site if the LDAP server used authenticates users through PKI authentication. [edit] show security access profile <dynamic-profile-name> If an access profile that uses LDAP is not configured as the first option in the authentication order, this is a finding. If password access is configured for VPN user access, this is a finding. If the LDAP server used does not use PKI authentication, this is a finding.

Fix: F-15885r297646_fix

Configure multifactor authentication by configuring an access profile for an authentication server or services to authenticate VPN users upon logon using DoD PKI. Example: [edit] set access profile dyn-vpn-ldap-xauth authentication-order ldap set access profile dyn-vpn-ldap-xauth address-assignment pool dyn-vpn-pool set access profile dyn-vpn-ldap-xauth ldap-options base-distinguished-name CN=Users, DC=firewall, DC=com (Location from where LDAP will start searching for users) set access profile dyn-vpn-ldap-xauth ldap-options search search-filter sAMAccountName= set access profile dyn-vpn-ldap-xauth ldap-options search admin-search distinguished-name CN=Administrator, CN=Users, DC=firewall, DC=com (User who is authorized to search the ldap tree) set access profile dyn-vpn-ldap-xauth ldap-options search admin-search password <Administrator Password> set access profile dyn-vpn-ldap-xauth ldap-server <AD Server IP address> port 389/636 set access firewall-authentication pass-through default-profile dyn-vpn-ldap-xauth set access firewall-authentication web-authentication default-profile dyn-vpn-ldap-xauth The access profile is linked to the xauth of the gateway for dynamic VPN. set security ike gateway dyn-vpn-local-gw xauth access-profile dyn-vpn-ldap-xauth Note: Under security >> dynamic-vpn, add all the users that are going to use the dynamic VPN. The command is as follows: set security dynamic-vpn clients all user Note: For users who are going to use dynamic VPN, this will be the AD user logon name for each user.

b

The Juniper SRX Services Gateway VPN must use FIPS 140-2 compliant mechanisms for authentication to a cryptographic module.

IA-7 - Medium - CCI-000803 - V-214687 - SV-214687r385516_rule

RMF Control

IA-7

Severity

Medium

CCI

CCI-000803

Version

JUSX-VN-000020

Vuln IDs

V-214687
V-66667

Rule IDs

SV-214687r385516_rule
SV-81157

Unapproved mechanisms that are used for authentication to the cryptographic module are not verified, and therefore cannot be relied upon to provide confidentiality or integrity and DoD data may be compromised. Network elements utilizing encryption are required to use FIPS compliant mechanisms for authenticating to cryptographic modules. FIPS 140-2 is the current standard for validating that mechanisms used to access cryptographic modules utilize authentication that meets DoD requirements.

Checks: C-15888r297648_chk

Verify IPsec is defined and configured using FIPS-complaint protocols. [edit] show security ipsec vpn If the IPSEC policy and VP are not configured to use FIPS 140-2 compliant mechanisms for authentication to a cryptographic module, this is a finding.

Fix: F-15886r297649_fix

After configuring the Internet Key Exchange (IKE) gateway and IPsec policy, the following commands configure an IPsec policy, enabling Perfect Forward Secrecy (PFS) using Diffie-Hellman group 14 and associating the IPsec proposal configured in the previous example. set security ipsec policy IPSEC-POLICY perfect-forward-secrecy keys group14 set security ipsec policy IPSEC-POLICY proposals IPSEC-PROPOSAL The following commands define an IPsec VPN using a secure tunnel interface, specifying the IKE gateway information, IPsec policy, and tunnel establishment policy. Alternatively, administrators can configure on-traffic tunnel establishment. [edit] set security ipsec vpn VPN bind-interface st0.0 set security ipsec vpn VPN ike gateway IKE-PEER set security ipsec vpn VPN ike ipsec-policy IPSEC-POLICY set security ipsec vpn VPN establish-tunnels immediately

b

The Juniper SRX Services Gateway VPN must uniquely identify and authenticate non-organizational users (or processes acting on behalf of non-organizational users).

IA-8 - Medium - CCI-000804 - V-214688 - SV-214688r385519_rule

RMF Control

IA-8

Severity

Medium

CCI

CCI-000804

Version

JUSX-VN-000021

Vuln IDs

V-214688
V-66669

Rule IDs

SV-214688r385519_rule
SV-81159

Lack of authentication and identification enables non-organizational users to gain access to the network or possibly a network element that provides opportunity for intruders to compromise resources within the network infrastructure. This requirement only applies to components where this is specific to the function of the device or has the concept of a non-organizational user.

Checks: C-15889r297651_chk

Verify that groups are not used for authentication. [edit] show security access profile <dynamic-profile-name> If LDAP is not configured as the first authentication-order, this is a finding.

Fix: F-15887r297652_fix

Configure the LDAP access profile. The LDAP server must use DoD PKI for authentication of users. [edit] set access profile <VPN-LDAP-PROFILE-NAME> authentication-order ldap set access profile <VPN-LDAP-PROFILE-NAME> address-assignment pool dyn-vpn-pool set access profile <VPN-LDAP-PROFILE-NAME> ldap-options base-distinguished-name CN=Users, DC=firewall, DC=com (Location from where LDAP will start searching for users) set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search search-filter sAMAccountName= set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search admin-search distinguished-name CN=Administrator, CN=Users, DC=firewall, DC=com (User who is authorized to search the ldap tree) set access profile <VPN-LDAP-PROFILE-NAME> ldap-options search admin-search password <Administrator Password> set access profile <VPN-LDAP-PROFILE-NAME> ldap-server <AD Server IP address> port 389/636 set access firewall-authentication pass-through default-profile <VPN-LDAP-PROFILE-NAME> set access firewall-authentication web-authentication default-profile <VPN-LDAP-PROFILE-NAME> Note: To find the user or administrator base DN, use any LDAP browser. On an Internet search engine, search for ldp.exe, which is a very basic LDAP browser. When using LDAP groups to authenticate a user, or a user belonging to a group in the active directory, include the following statement: set access profile <VPN-LDAP-PROFILE-NAME> session-options client-group <group-name> Note: Without the above statement, users are not searched based on the group name or group string. The IP address pool configuration is as follows (the user will be assigned the IP from this pool): set access address-assignment pool dyn-vpn-pool family inet network <IP Network for Dynamic-VPN User> (e.g.. 192.168.100.0/24) set access address-assignment pool dyn-vpn-pool family inet range dyn-vpn-pool-range low <Starting IP address for Dynamic-VPN User> (e.g.. 192.168.100.1) set access address-assignment pool dyn-vpn-pool family inet range dyn-vpn-pool-range high <ending IP address for Dynamic-VPN User> (e.g.. 192.168.100.100) Note: The IP network used for dynamic VPN users should be different from the IP network of the external interface used in the IKE configuration. The access profile is linked to the xauth of the gateway for dynamic VPN. set security ike gateway <VPN-GATEWAY> xauth access-profile <VPN-LDAP-PROFILE-NAME> Under security >> dynamic-vpn, add all the users that are going to use the dynamic VPN. The command is as follows: set security dynamic-vpn clients all user Note: Users who are going to use dynamic VPN. This will be the AD user logon name for each user.

a

The Juniper SRX Services Gateway VPN must terminate all network connections associated with a communications session at the end of the session.

SC-10 - Low - CCI-001133 - V-214689 - SV-214689r695324_rule

RMF Control

SC-10

Severity

Low

CCI

CCI-001133

Version

JUSX-VN-000022

Vuln IDs

V-214689
V-66681

Rule IDs

SV-214689r695324_rule
SV-81171

Idle TCP sessions can be susceptible to unauthorized access and hijacking attacks. By default, routers do not continually test whether a previously connected TCP endpoint is still reachable. If one end of a TCP connection idles out or terminates abnormally, the opposite end of the connection may still believe the session is available. These “orphaned” sessions use up valuable router resources and can also be hijacked by an attacker. To mitigate this risk, routers must be configured to send periodic keep alive messages to check that the remote end of a session is still connected. If the remote device fails to respond to the TCP keep alive message, the sending router will clear the connection and free resources allocated to the session. The TCP keep-alive for remote access is implemented in the Juniper SRX Firewall STIG.

Checks: C-15890r695323_chk

Ask the site representative which proposal implements Suite B. [edit] show security ike gateway <ike-peer-name> View the configured options. If the dead-peer-detection is not configured, this is a finding.

Fix: F-15888r297655_fix

For site-to-site VPN, configure an Internet Key Exchange (IKE) gateway that includes dead-peer-detection parameters such as in the following example. set security ike gateway IKE-PEER ike-policy IKE-POLICY set security ike gateway IKE-PEER address <Peer IP Address> set security ike gateway IKE-PEER dead-peer-detection always-send set security ike gateway IKE-PEER dead-peer-detection interval 10 set security ike gateway IKE-PEER dead-peer-detection threshold 2 set security ike gateway IKE-PEER local-identity inet <IPv4 Address in Certificate> set security ike gateway IKE-PEER remote-identity inet <IPv4 Address in Remote Certificate> set security ike gateway IKE-PEER external-interface <interface name> set security ike gateway IKE-PEER version v2-only For dynamic (remote access) VPN, the TCP keep-alive for remote access is implemented in the Juniper SRX Firewall STIG.

c

The Juniper SRX Services Gateway VPN Internet Key Exchange (IKE) must use cryptography that is compliant with Suite B parameters when transporting classified traffic across an unclassified network.

SC-13 - High - CCI-002450 - V-214690 - SV-214690r856575_rule

RMF Control

SC-13

Severity

High

CCI

CCI-002450

Version

JUSX-VN-000023

Vuln IDs

V-214690
V-66625

Rule IDs

SV-214690r856575_rule
SV-81115

Use of weak or untested encryption algorithms undermines the purposes of utilizing encryption to protect data. The network element must implement cryptographic modules adhering to the higher standards approved by the federal government since this provides assurance they have been tested and validated. RFC 6379 Suite B Cryptographic Suites for IPsec defines four cryptographic user interface suites for deploying IPsec. Each suite provides choices for Encapsulating Security Payload (ESP) and IKE. The four suites are differentiated by the choice of IKE authentication and key exchange, cryptographic algorithm strengths, and whether ESP is to provide both confidentiality and integrity or integrity only. The suite names are based on the Advanced Encryption Standard (AES) mode and AES key length specified for ESP. Two suites are defined for transporting classified information up to SECRET level—one for both confidentiality and integrity and one for integrity only. There are also two suites defined for transporting classified information up to TOP SECRET level.

Checks: C-15891r297657_chk

Ask the site representative which proposal implements Suite B. [edit] show security ike <suiteb-proposal-name> View the configured options. If the value of the authentication-method and other options are not set for Suite B compliance, this is a finding.

Fix: F-15889r297658_fix

The following example commands configure the IKE (phase 1) Suite B proposal. Note that SRX must have Junos 12.1X46 or later to support SuiteB. [edit] set security ike proposal suiteb-proposal set ike proposal suiteb-proposal authentication-method ecdsa-signatures-384 set ike proposal suiteb-proposal dh-group group20 set ike proposal suiteb-proposal authentication-algorithm sha-384 set ike proposal suiteb-proposal encryption-algorithm aes-256-cbc

b

The Juniper SRX Services Gateway VPN IKE must use NIST FIPS-validated cryptography to implement encryption services for unclassified VPN traffic.

SC-13 - Medium - CCI-002450 - V-214691 - SV-214691r856576_rule

RMF Control

SC-13

Severity

Medium

CCI

CCI-002450

Version

JUSX-VN-000024

Vuln IDs

V-214691
V-66671

Rule IDs

SV-214691r856576_rule
SV-81161

Use of weak or untested encryption algorithms undermines the purposes of utilizing encryption to protect data. The network element must implement cryptographic modules adhering to the higher standards approved by the federal government since this provides assurance they have been tested and validated.

Checks: C-15892r297660_chk

Verify all Internet Key Exchange (IKE) proposals are set to use the AES encryption algorithm. [edit] show security ike View the value of the encryption algorithm for each defined proposal. If the value of the authentication method and other options are not set to use FIPS-compliant values, this is a finding.

Fix: F-15890r297661_fix

The following example commands configure the IKE (phase 1) proposal. [edit] set security ike proposal <P1-PROPOSAL> authentication-method rsa-signatures set security ike proposal p1-proposal dh-group group14 set security ike proposal p1-proposal authentication-algorithm sha-256 set security ike proposal p1-proposal encryption-algorithm aes-256-cbc set security ike proposal p1-proposal lifetime-seconds 86400

c

The Juniper SRX Services Gateway VPN must configure Internet Key Exchange (IKE) with SHA1 or greater to protect the authenticity of communications sessions.

SC-23 - High - CCI-001184 - V-214692 - SV-214692r383107_rule

RMF Control

SC-23

Severity

High

CCI

CCI-001184

Version

JUSX-VN-000025

Vuln IDs

V-214692
V-66641

Rule IDs

SV-214692r383107_rule
SV-81131

Authenticity protection provides protection against man-in-the-middle attacks/session hijacking and the insertion of false information into sessions. This requirement focuses on communications protection for the application session rather than for the network packet and establishes grounds for confidence at both ends of communications sessions in ongoing identities of other parties and in the validity of information transmitted. Depending on the required degree of confidentiality and integrity, web services/SOA will require the use of mutual authentication (two-way/bidirectional). An IPsec Security Associations (SA) is established using either IKE or manual configuration.

Checks: C-15893r297663_chk

View all IKE proposals using in the VPN configuration. [edit] show security ike proposal If the authentication algorithm in all IKE proposals is not set to SHA1 or higher, this is a finding.

Fix: F-15891r297664_fix

Include the SHA1 or higher authentication algorithm in the IKE proposal. The following is an example command. [edit] set security ike proposal <P1-PROPOSAL-NAME> authentication-algorithm sha-256

b

The Juniper SRX Services Gateway VPN must only allow the use of DoD PKI established certificate authorities for verification of the establishment of protected sessions.

SC-23 - Medium - CCI-002470 - V-214693 - SV-214693r856577_rule

RMF Control

SC-23

Severity

Medium

CCI

CCI-002470

Version

JUSX-VN-000026

Vuln IDs

V-214693
V-66673

Rule IDs

SV-214693r856577_rule
SV-81163

Untrusted certificate authorities (CA) can issue certificates, but they may be issued by organizations or individuals that seek to compromise DoD systems or by organizations with insufficient security controls. If the CA used for verifying the certificate is not a DoD-approved CA, trust of this CA has not been established. The DoD will only accept PKI certificates obtained from a DoD-approved internal or external certificate authority. Reliance on CAs for the establishment of secure sessions includes, for example, the use of Internet Key Exchange (IKE) authentication certificates. This requirement focuses on communications protection for the application session rather than for the network packet. Network elements that perform these functions must be able to identify which session identifiers were generated when the sessions were established.

Checks: C-15894r297666_chk

Verify the all IKE proposals are set to use the AES encryption algorithm. [edit] show security ike View the value of the authentication-method for each defined proposal. If the value of the authentication-method for each defined proposal is not set to use AES, this is a finding.

Fix: F-15892r297667_fix

The following example commands configure the IKE (phase 1) proposals. Use certificates instead of pre-shared keys to establish the IKE phase 1 tunnel. This proposal requires AES 256-bit encryption set security ike proposal p1-proposal authentication-method rsa-signatures

b

The Juniper SRX Services Gateway VPN must only allow incoming VPN communications from organization-defined authorized sources routed to organization-defined authorized destinations.

SC-7 - Medium - CCI-002403 - V-214694 - SV-214694r856578_rule

RMF Control

SC-7

Severity

Medium

CCI

CCI-002403

Version

JUSX-VN-000027

Vuln IDs

V-214694
V-66675

Rule IDs

SV-214694r856578_rule
SV-81165

Unrestricted traffic may contain malicious traffic which poses a threat to an enclave or to other connected networks. Additionally, unrestricted traffic may transit a network, which uses bandwidth and other resources. Access control policies and access control lists implemented on devices, such as firewalls, that control the flow of network traffic, ensure the flow of traffic is only allowed from authorized sources to authorized destinations. Networks with different levels of trust (e.g., the Internet) must be kept separated.

Checks: C-15895r297669_chk

Request documentation of the Juniper SRX configuration drawings to determine which ports are configured for external/outbound traffic. Verify outbound interfaces have been configured with DoS screens. [edit] show security zones <security-zone-name> If the VPN zone(s) is configured to allow unauthorized/untrusted traffic to unauthorized zones, this is a finding.

Fix: F-15893r297670_fix

The SRX device will route traffic over the IPsec VPN’s secure tunnel interface if there is a route with the next-hop specified as the secure tunnel interface. The following example commands configure an IPv4 and IPv6 static route for their respective secure tunnels. set routing-options static route <IPv4 network/netmask> next-hop st0.0 set routing-options rib inet6.0 static route <IPv6 network/mask> next-hop st0.1 set security policies from-zone untrust to-zone trust policy group-sec-policy then permit tunnel ipsec-vpn groupvpn Note: For the SRX device to transmit traffic over the IPsec tunnel, you must configure the secure tunnel interface (st0 in this case), associate it with a security zone, and create a static route entry for the remote network’s address space.

b

The Juniper SRX Services Gateway VPN must disable split-tunneling for remote clients VPNs.

SC-7 - Medium - CCI-002397 - V-214695 - SV-214695r856579_rule

RMF Control

SC-7

Severity

Medium

CCI

CCI-002397

Version

JUSX-VN-000028

Vuln IDs

V-214695
V-66677

Rule IDs

SV-214695r856579_rule
SV-81167

Split tunneling would in effect allow unauthorized external connections, making the system more vulnerable to attack and to exfiltration of organizational information. A VPN hardware or software client with split tunneling enabled provides an unsecured backdoor to the enclave from the Internet. With split tunneling enabled, a remote client has access to the Internet while at the same time has established a secured path to the enclave via an IPsec tunnel. A remote client connected to the Internet that has been compromised by an attacker in the Internet, provides an attack base to the enclave’s private network via the IPsec tunnel. Hence, it is imperative that the VPN gateway enforces a no split-tunneling policy to all remote clients. Traffic to the protected resource will go through the specified dynamic VPN tunnel and will therefore be protected by the Juniper SRX firewall’s security policies.

Checks: C-15896r297672_chk

Verify split-tunneling is disabled. [edit] show security dynamic-vpn access-profile <dynamic-vpn-access-profile> If split-tunneling is not disabled, this is a finding.

Fix: F-15894r297673_fix

Configure the VPN tunnel to control what is sent out in clear text. The “remote-protected-resources” command defines what is routed through the tunnel. The “remote-exceptions” command defines what traffic is sent out in clear text. The following is an example. [edit] set security dynamic-vpn access-profile <dynamic-vpn-access-profile> set security dynamic-vpn clients all ipsec-vpn <ipsec-vpn-name> set security dynamic-vpn clients all remote-protected-resources <IP-address/mask> set security dynamic-vpn clients all remote-exceptions 0.0.0.0/0

b

The Juniper SRX Services Gateway VPN must use anti-replay mechanisms for security associations.

IA-2 - Medium - CCI-001942 - V-214696 - SV-214696r856580_rule

RMF Control

IA-2

Severity

Medium

CCI

CCI-001942

Version

JUSX-VN-000031

Vuln IDs

V-214696
V-66679

Rule IDs

SV-214696r856580_rule
SV-81169

Anti-replay is an IPsec security mechanism at a packet level which helps to avoid unwanted users from intercepting and modifying an ESP packet. The SRX adds a sequence number to the ESP encapsulation which is verified by the VPN peer so packets are received within a correct sequence. This will cause issues if packets are not received in the order in which they were sent out. By default the SRX has a replay window of 64 or 32, depending on the platform. The SRX drops packets received out of order that are not received within this window. However, this default may be overridden by setting the option no-anti-replay as follows: set security vpn name ike no-anti-replay.

Checks: C-15897r297675_chk

Verify anti-replay service is enabled. [edit] show security ipsec security-associations index 16384 detail If anti-replay service is not enabled, this is a finding.

Fix: F-15895r297676_fix

Remove the no-anti-replay Internet Key Exchange (IKE) option from the VPN configuration. By default the SRX has a replay window of 64 or 32, depending on the platform. Example: [edit] delete security vpn name ike no-anti-replay