PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy                       Palo Alto Networks  Date: 3/14/2016  www.paloaltonetworks.com © 2016 Palo Alto Networks. This non‐proprietary security policy may be  reproduced only in its original entirety (without revision). Palo Alto Networks, PAN‐OS, and Panorama  are trademarks of Palo Alto Networks, Inc. All other trademarks are the property of their respective  owners.   Palo Alto Networks Change Record Table 1 - Change Record Revision Date Author Description of Change A 3/14/2016 Richard Bishop Initial authoring PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 2 of 37 Palo Alto Networks Contents Module Overview .................................................................................................................................................... 5 Security Level ........................................................................................................................................................ 10 Modes of Operation ............................................................................................................................................... 10 FIPS Approved Mode of Operation ........................................................................................................................... 10 Approved and Allowed Algorithms ............................................................................................................................ 11 Non-Approved, Non-Allowed Algorithms .................................................................................................................. 13 Ports and Interfaces ................................................................................................................................................ 13 Identification and Authentication Policy ............................................................................................................... 16 Assumption of Roles................................................................................................................................................... 16 Access Control Policy ............................................................................................................................................ 18 Roles and Services ..................................................................................................................................................... 18 Unauthenticated Services .......................................................................................................................................... 19 Definition of Critical Security Parameters (CSPs) .................................................................................................... 19 Definition of Public Keys ........................................................................................................................................... 21 Definition of CSPs Modes of Access .......................................................................................................................... 22 Operational Environment ....................................................................................................................................... 23 Security Rules ........................................................................................................................................................ 23 FIPS 140-2 Security Rules ......................................................................................................................................... 23 Physical Security Mechanisms .................................................................................................................................. 25 Operator Required Actions ........................................................................................................................................ 28 Mitigation of Other Attacks Policy ........................................................................................................................ 28 Definitions and Acronyms ..................................................................................................................................... 28 Reference Documents ............................................................................................................................................ 29 Appendix A - PA-3060 - FIPS Accessories/Tamper Seal Installation (8 Seals) ................................................... 30 Appendix B - PA-7080 - FIPS Accessories/Tamper Seal Installation (10 Seals) .................................................. 33 PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 3 of 37 Palo Alto Networks Tables Table 1 - Change Record ......................................................................................................................................... 2 Table 2 - Validated Version Information ................................................................................................................. 9 Table 3 - Module Security Level Specification ..................................................................................................... 10 Table 4 - FIPS Approved Algorithms Used in the Module ................................................................................... 11 Table 5 - FIPS Allowed Algorithms Used in the Module ...................................................................................... 12 Table 6 - Supported Protocols in FIPS Approved Mode ....................................................................................... 12 Table 7 - Non-Approved Mode of Operation ........................................................................................................ 13 Table 8- PA-3060 FIPS 140-2 Ports and Interfaces ............................................................................................... 13 Table 9 - PA-7080 FIPS 140-2 Ports and Interfaces .............................................................................................. 14 Table 10 - Roles and Required Identification and Authentication ......................................................................... 16 Table 11 - Strengths of Authentication Mechanisms ............................................................................................. 17 Table 12 - Authenticated Service Descriptions ...................................................................................................... 18 Table 13 - Authenticated Services ......................................................................................................................... 18 Table 14 - Unauthenticated Services ..................................................................................................................... 19 Table 15 - CSPs ..................................................................................................................................................... 19 Table 16 - Public Keys ........................................................................................................................................... 21 Table 17 - CSP Access Rights within Roles & Services ....................................................................................... 22 Table 18 - Inspection/Testing of Physical Security Mechanisms .......................................................................... 28 Figures Figure 1: - PA-3060 Front Image ............................................................................................................................. 7 Figure 2: - PA-3060 Back Image ............................................................................................................................. 7 Figure 3 - PA-3060 Front Opacity Shield and Side ................................................................................................. 7 Figure 4 - PA-3060 Rear Opacity Shield and Side .................................................................................................. 7 Figure 5 - PA-7080 Interfaces- ................................................................................................................................ 8 Figure 6 - PA-7080 Front with Opacity Shield ........................................................................................................ 8 Figure 7 - PA-7080 Rear .......................................................................................................................................... 8 Figure 8 - Logical Diagram ...................................................................................................................................... 9 Figure 9 – PA-3060 Right side .............................................................................................................................. 25 Figure 10 – PA-3060 Left side ............................................................................................................................... 26 Figure 11 – PA-3060 Front/Top Tamper Seal Placement ...................................................................................... 26 Figure 12 – PA-3060 Front/Bottom Tamper Seal Placement ................................................................................ 26 Figure 13 - PA-7080 Tamper Seal Placement for Rear (6) .................................................................................... 27 Figure 14 - PA-7080 Tamper Seal Placement on Front Fan Trays(2) ................................................................... 27 Figure 15 - PA-7080 Tamper Seal Placement on Left Side for Front Opacity Shield (1) ..................................... 27 Figure 16 - PA-7080 Tamper Seal Placement on Right Side for Front Opacity Shield (1) ................................... 27 PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 4 of 37 Palo Alto Networks Module Overview Palo Alto Networks offers a full line of next-generation security appliances that range from the PA-200, designed for enterprise remote offices, to the PA-7080, which is a modular chassis designed for high-speed datacenters. Our platform architecture is based on our single-pass software engine, PAN-OS, for networking, security, threat prevention, and management functionality that is consistent across all platforms. The devices differ only in capacities, performance, and physical configuration. The Palo Alto Networks PA-3060 and PA-7080 firewalls (hereafter referred to as the modules) are multi-chip standalone modules that provide network security by enabling enterprises to see and control applications, users, and content – not just ports, IP addresses, and packets – using three unique identification technologies: App-ID, User-ID, and Content-ID. These identification technologies, found in Palo Alto Networks' enterprise firewalls, enable enterprises to create business-relevant security policies – safely enabling organizations to adopt new applications, instead of the traditional “all-or-nothing” approach offered by traditional port-blocking firewalls used in many security infrastructures. Features and Benefits  Application visibility and control: Accurate identification of the applications traversing the network enables policy-based control over application usage at the firewall, the strategic center of the security infrastructure.  Visualization tools: Graphical visibility tools, customizable reporting and logging enables administrators to make a more informed decision on how to treat the applications traversing the network.  Application browser: Helps administrators quickly research what the application is, its’ behavioral characteristics and underlying technology resulting in a more informed decision making process on how to treat the application.  User-based visibility and control: Seamless integration with enterprise directory services (Active Directory, LDAP, eDirectory) facilitates application visibility and policy creation based on user and group information, not just IP address. In Citrix and terminal services environments, the identity of users sitting behind Citrix or terminal services can be used to enable policy-based visibility and control over applications, users and content. An XML API enables integration with other, 3rd party user repositories.  Real-time threat prevention: Detects and blocks application vulnerabilities, viruses, spyware, and worms; controls web activity; all in real-time, dramatically improving performance and accuracy.  File and data filtering: Taking full advantage of the in-depth application inspection being performed by App-ID, administrators can implement several different types of policies that reduce the risk associated with unauthorized file and data transfer. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 5 of 37 Palo Alto Networks  Legacy firewall support: Support for traditional inbound and outbound port-based firewall rules mixed with application-based rules smooth the transition to a Palo Alto Networks next generation firewall.  Networking architecture: Support for dynamic routing (OSPF, RIP, BGP), virtual wire mode and layer 2/layer 3 modes facilitates deployment in nearly any networking environment.  Policy-based Forwarding: Forward traffic based on policy defined by application, source zone/interface, source/destination address, source user/group, and service.  Virtual Systems: Create multiple virtual “firewalls” within a single device as a means of supporting specific departments or customers. Each virtual system can include dedicated administrative accounts, interfaces, networking configuration, security zones, and policies for the associated network traffic.  VPN connectivity: Secure site-to-site connectivity is enabled through standards-based IPSec VPN support while remote user access is delivered via SSL VPN connectivity.  Quality of Service (QoS): Deploy traffic shaping policies (guaranteed, maximum and priority) to enable positive policy controls over bandwidth intensive, non-work related applications such as streaming media while preserving the performance of business applications.  Real-time bandwidth monitor: View real-time bandwidth and session consumption for applications and users within a selected QoS class.  Purpose-built platform: combines single pass software with parallel processing hardware to deliver the multi-Gbps performance necessary to protect today’s high speed networks. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 6 of 37 Palo Alto Networks Note: Modules are shown in figures with no opacity shields included to demonstrate module interfaces and other physical characteristics. Pictures are included of each chassis with the opacity shields in place. Figure 1: - PA-3060 Front Image Figure 2: - PA-3060 Back Image Figure 3 - PA-3060 Front Opacity Shield and Figure 4 - PA-3060 Rear Opacity Shield and Side Side PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 7 of 37 Palo Alto Networks Figure 5 - PA-7080 Interfaces Figure 7 - PA-7080 Rear Figure 6 - PA-7080 Front with Opacity Shield PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 8 of 37 Palo Alto Networks The configurations for this validation are: Table 2 - Validated Version Information Module Part Number Hardware FIPS Kit Part FIPS Kit FW Version Number Hardware Version PA-3060 910-000104-00C Rev. C 920-000138-00A Rev. A 7.0.1-h4 and 7.0.3 PA-7080 * 910-000122-00A Rev. A 920-000119-00A Rev. A 7.0.1-h4 and 7.0.3 * Palo Alto Networks PA-7080 firewall is tested with two different Network Processing Cards (NPC) and either NPC may be configured for use in the approved mode of operation.  910-000028-00B: PAN-PA-7000-20G-NPC  910-000117-00A: PAN-PA-7000-20GQ-NPC Figure 8 depicts the logical block diagram for the modules. The cryptographic boundary includes all of the logical components of the modules and the boundary is the physical enclosure of the firewall. Figure 8 - Logical Diagram PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 9 of 37 Palo Alto Networks Security Level The cryptographic modules meet the overall requirements applicable to Level 2 security of FIPS 140-2. Table 3 - Module Security Level Specification Security Requirements Section Level Cryptographic Module Specification 2 Module Ports and Interfaces 2 Roles, Services and Authentication 3 Finite State Model 2 Physical Security 2 Operational Environment N/A Cryptographic Key Management 2 EMI/EMC 2 Self-Tests 2 Design Assurance 3 Mitigation of Other Attacks N/A Modes of Operation FIPS Approved Mode of Operation The modules support both a Common Criteria (CC) mode (FIPS Approved mode) and a non-CC mode (Non-Approved mode). The following procedure will put the modules into the FIPS-approved mode of operation:  Install FIPS kit opacity shields and tamper evidence seals according to the Physical Security Policy section. FIPS kits must be correctly installed to operate in the Approved mode of operation. The tamper evidence seals and opacity shields shall be installed for the module to operate in a FIPS Approved mode of operation.  During initial boot up, break the boot sequence via the console port connection (by pressing the maint button when instructed to do so) to access the main menu.  Select “Continue.”  Select the “Set CCEAL4 Mode” option to enter CC mode.  Select “Enable CCEAL4 Mode”.  When prompted, select “Reboot” and the module will re-initialize and continue into CC mode (FIPS mode).  The module will reboot.  In CC mode, the console port is available as a status output port. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 10 of 37 Palo Alto Networks  If using RADIUS or TACACS+, configure the service route via an IPSec tunnel. Otherwise, skip this step. The module will automatically indicate the FIPS Approved mode of operation in the following manner:  Status output interface will indicate “**** CCEAL4 MODE ENABLED ****” via the CLI session.  Status output interface will indicate “CCEAL4 mode enabled successfully” via the console port.  The module will display “CC” at all times in the status bar at the bottom of the web interface. Should one or more power-up self-tests fail, the FIPS Approved mode of operation will not be achieved. Feedback will consist of:  The module will output “CC EAL4 failure”  The module will reboot and enter a state in which the reason for the reboot can be determined.  To determine which self-test caused the system to reboot into the error state, connect the console cable and follow the on-screen instructions to view the self-test output. Approved and Allowed Algorithms The cryptographic modules support the following FIPS Approved algorithms. Table 4 - FIPS Approved Algorithms Used in the Module FIPS Approved Algorithm CAVP Cert. # AES: 3475 - ECB, CBC, CFB, OFB, CTR modes; Encrypt/Decrypt; 128, 192 and 256-bit AES-CCM - 128 bit AES-GCM - 128 and 256 bit Note: GCM is used compliant with SP 800-52 and used in accordance to Section 4 of RFC 5288 for TLS key establishment. GCM is also compliant with RFC 6071 for use in IPSec. ECDSA P-256 and P-384 713, CVL 566 - Key Pair Generation - Signature Generation - Signature Verification FIPS 186-4 RSA : 1782 - Key Generation: 2048 and 3072-bit - Signature Generation: 2048 and 3072-bit - Signature Verification: 1024, 2048 and 3072-bit HMAC-SHA-1, HMAC-SHA-256, HMAC-SHA-384 2220 SHA-1, SHA-256, SHA-384, SHA-512 2870 SP800-90a CTR DRBG AES 256 870 SP 800-56A Section 5.7.1.2 P-256, P-384 CVL 567 PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 11 of 37 Palo Alto Networks FIPS Approved Algorithm CAVP Cert. # SP 800-56A ECDHE except KDF P-256 CVL 564 SP 800-135 KDF – TLS 1.0/1.1/1.2, SNMPv3, SSH, IKEv1/v2 CVL 565 The cryptographic modules support the following non-FIPS Approved algorithms that are allowed for use in CC (FIPS) mode. Table 5 - FIPS Allowed Algorithms Used in the Module FIPS Allowed Algorithm EC Diffie-Hellman (CVL Cert. #567, key agreement; key establishment methodology provides 128 or 192 bits of encryption strength) Diffie-Hellman (key agreement; key establishment methodology provides 112 bits of encryption strength) AES (Cert. #3475 key wrapping; key establishment methodology provides 128 or 256 bits of encryption strength) RSA (key wrapping, key establishment methodology provides 112 or 128 bits of encryption strength) NDRNG (used to seed SP800-90 DRBG) MD5 (within TLS) Table 6 - Supported Protocols in FIPS Approved Mode Supported Protocols* TLSv1.0, 1.1 and v1.2 SSHv2 IPSec, IKEv1 and v2 SNMPv2/v3 *Note: these protocols were not reviewed or tested by the CMVP or CAVP. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 12 of 37 Palo Alto Networks Non-Approved, Non-Allowed Algorithms The cryptographic modules support the following non-Approved algorithms. No security claim is made in the current modules for any of the following non-Approved algorithms. Table 7 - Non-Approved Mode of Operation Non-Approved Algorithms in Non-FIPS mode Hashing: RIPEMD, MD5 Encrypt/Decrypt: Camellia, SEED, TDES, Blowfish, CAST, RC4 Message Authentication: UMAC, HMAC-MD5, HMAC-RIPEMD Digital Signatures (non-Approved strengths or SHA-1 in Signature Generation): RSA, ECDSA, DSA Key Exchange (non-Approved strengths): ECDH (sect571r1, sect571k1, secp521r1, sect409k1, sect409r1, sect283k1, sect283r1, secp256k1, sect239k1, sect233k1, sect233r1, secp224k1, secp224r1, sect193r1, sect193r2, secp192k1, secp192r1, sect163k1, sect163r1, sect163r2, secp160k1, secp160r1, secp160r2) DH (768, 1024 and 1536 bit) Ports and Interfaces The modules are multi-chip standalone modules with ports and interfaces as shown below. Table 8- PA-3060 FIPS 140-2 Ports and Interfaces Interface PA-3060 FIPS 140-2 Name and Qty Designation Description RJ45 1 Data input, control Console port input, data output, status output RJ45 1 Data input, control Out of band input, data output, management status output RJ45 2 Data input, control 10/100/1000 HA input, data output, Ethernet interface status output SFP+ 2 Data input, control Ethernet optical 10- input, data output, gigabit interface status output SFP 8 Data input, control Ethernet optical input, data output, gigabit interface status output RJ45 8 Data input, control 10/100/1000 input, data output, Ethernet interface PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 13 of 37 Palo Alto Networks Interface PA-3060 FIPS 140-2 Name and Qty Designation Description status output 100-240 V 2 Power input Power interface LEDs 6 Status output Status indicators USB 1 Disabled except for Future Use power Table 9 - PA-7080 FIPS 140-2 Ports and Interfaces Chassis(a) Interface 20G 20GQ FIPS 140-2 Designation Name and Description NPC (b) NPC Qty Qty Qty RJ45 1 N/A N/A Data input, control input, Console port data output, status output RJ45 1 N/A N/A Data input, control input, Out of band management data output, status output RJ45 N/A 12 N/A Data input, control input, 10/100/1000 Ethernet data output, status output Interfaces SFP N/A 8 N/A Data input, control input, Ethernet optical gigabit data output, status output interfaces SFP+ N/A 4 12 Data input, control input, Ethernet optical 10-gigabit data output, status output interface RJ45 2 N/A N/A Data input, control input, 10/100/1000 HA Ethernet data output, status output interface HSCI 2 N/A N/A Data input, control input, QSFP HA interface data output, status output QSFP N/A N/A 2 Data input, control input, IEEE 802.3ba interface data output, status output 100-240 4 N/A N/A Power input Power interface V 52(f) 52(c) 32(c) LEDs Status output Status indicators USB 1 N/A N/A Disabled except for power Used in manufacturing PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 14 of 37 Palo Alto Networks a. The PA-7000 series chassis includes two cards that are installed in the front slots of the chassis. These cards include the following: The Switch Management Card (SMC) provides management connectivity to the chassis and the Log Processing Card (LPC) handles all log processing and log storage for the firewall. b. NPC (Network Processing Card) - The PA-7080 may contain up to ten (10) NPC cards. At least one (1) Network Processing Cards (NPC) must be installed before the firewall can process data traffic. c. NPC - With the four (4) standard status LED, each networking interface contains two (2) LED the link status and activity LED. d. PA-7080 - Status LED count (40) includes the following; 4 for fan status, 12 for the LPC and 20 for the SMC, 16 for power supplies. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 15 of 37 Palo Alto Networks Identification and Authentication Policy Assumption of Roles The modules support four distinct operator roles, User and Cryptographic Officer (CO), Remote Access VPN, and Site-to-site VPN. The cryptographic modules enforce the separation of roles using unique authentication credentials associated with operator accounts. The modules support concurrent operators. The modules do not provide a maintenance role or bypass capability. Table 10 - Roles and Required Identification and Authentication Authentication Role Description Authentication Data Type CO This role has access to all Identity-based Username/password and/or configuration, show status and operator certificate based update services offered by the authentication authentication modules. Within the PAN-OS software, this role maps to the “Superuser” administrator role. User This role has limited access to Identity-based Username/password and/or services offered by the modules. operator certificate based This role does not have access to authentication authentication modify or view the passwords associated with other administrator accounts, it may not view CSPs of any type stored on the module. The User may change their own password. Within the PAN-OS software, this role maps to the “Superuser (read-only)” administrator role (also referred to as “Superreader”). Remote Remote user accessing the network Identity-based Username/password and/or Access via VPN. operator certificate based VPN authentication authentication (RA VPN) Site-to- Remote VPN device establishing a Identity-based IKE/IPSec Pre-shared keys - site VPN VPN session to facilitate access to operator Identification with the IP (S-S the network. authentication Address and authentication VPN) with the Pre-Shared Key or certificate based authentication PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 16 of 37 Palo Alto Networks Table 11 - Strengths of Authentication Mechanisms Authentication Mechanism Strength of Mechanism Username and Password Minimum length is 6 characters (95 possible characters). The probability that a random attempt will succeed or a false acceptance will occur is 1/(956) which is less than 1/1,000,000. The probability of successfully authenticating to the module within one minute is 10/(956), which is less than 1/100,000. The firewall’s configuration supports at most ten failed attempts to authenticate in a one-minute period. Certificate based The security modules support certificate-based authentication using RSA authentication 2048, RSA 3072, ECDSA P-256 or ECDSA P-384. For RSA, the minimum equivalent strength supported is 112 bits. The probability that a random attempt will succeed is 1/(2112) which is less than 1/1,000,000. The probability of successfully authenticating to the module within a one minute period is 3,600,000/(2112), which is less than 1/100,000. The firewall supports at most 60,000 new sessions per second to authenticate in a one-minute period. For ECDSA, the minimum equivalent strength supported is 128 bits. The probability that a random attempt will succeed is 1/(2128) which is less than 1/1,000,000. The probability of successfully authenticating to the module within a one minute period is 3,600,000/(2128), which is less than 1/100,000. The firewall supports at most 60,000 new sessions per second to authenticate in a one-minute period. The 160 bit key length supports 2160 different combinations. The IKE/IPSec pre-shared keys probability of successfully authenticating to the module is 1/(2160), which is less than 1/1,000,000. The number of authentication attempts is limited by the number of new connections per second supported (120,000) on the fastest platform of the Palo Alto Networks firewalls. The probability of successfully authenticating to the module within a one minute period is 7,200,000/(2160), which is less than 1/100,000. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 17 of 37 Palo Alto Networks Access Control Policy Roles and Services The Approved and non-Approved mode of operation provide identical services. While in the Approved mode of operation, all CO and User services are accessed via SSH or TLS sessions. Approved and allowed algorithms, relevant CSPs and public keys related to these protocols are accessed to support the following services. CSP access by services is further described in the following tables. The services listed below are also available in the non-Approved mode. In the Non-Approved mode SSH, TLS and VPN processes will use non-Approved Algorithms and Approved algorithms with non-approved strength. Table 12 - Authenticated Service Descriptions Service Description Security Configuring and managing cryptographic parameters and setting/modifying Configuration security policy, creating User accounts and additional CO accounts, as well as Management configuring usage of third party external HSMs. Other Configuration Networking parameter configuration, logging configuration, and other non- security relevant configuration. View Other Read-only of non-security relevant configuration (see above). Configuration Show Status View status via the web interface or command line interface. VPN Provide network access for remote users or site-to-site connections. Firmware update Provides a method to update the firmware on the firewall. Note: Additional information on the services the module provides can be found at https://www.paloaltonetworks.com/documentation.html Table 13 - Authenticated Services Crypto S-S Service User RA VPN Officer VPN Y(a) Security Configuration Management Y N N Other Configuration Y N N N View Other Configuration Y Y N N Show Status Y Y Y Y PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 18 of 37 Palo Alto Networks VPN N N Y Y Firmware update Y N N N a. The User role has use of this service only to change their own password Unauthenticated Services The cryptographic module supports the following unauthenticated services: Table 14 - Unauthenticated Services Service Description Zeroize The device will overwrite all CSPs. Self-Tests Run power up self-tests on demand by power cycling the module. Show Status (LEDs) View status of the module via the LEDs. The zeroization procedure is invoked when the operator exits CC (FIPS) mode. The procedure consists of overwriting keystore files, formatting the harddisk, and overwriting with a reinstalled firmware image. The operator must be in control of the module during the entire procedure to ensure that it has successfully completed. During the zeroization procedure, no other services are available. Definition of Critical Security Parameters (CSPs) The modules contain the following CSPs: Table 15 - CSPs CSP # CSP/Key Name Type Description 1 RSA Private Keys RSA RSA Private keys for verification of signatures, authentication or key establishment. (RSA 2048 or 3072 bits) 2 ECDSA Private key for verification of signatures and authentication ECDSA Private Keys ECDSA (P-256 or P-384) 3 TLS PreMaster Secret TLS Secret Secret value used to derive the TLS session keys 4 TLS DH Private DH Diffie-Hellman private FFC or EC Components component used in TLS (DHE 2048, ECDHE P-256, P-384) 5 TLS HMAC Keys HMAC TLS integrity and authentication session PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 19 of 37 Palo Alto Networks CSP # CSP/Key Name Type Description keys (SHA1, SHA256, SHA384) 6 TLS Encryption Keys AES TLS encryption session keys (128 and 256 CBC or GCM) 7 SSH Session Authentication HMAC Authentication keys used in all SSH Keys connections to the security module’s command line interface.(SHA1) 8 SSH Session Encryption AES Used in all SSH connections to the Keys security module’s command line interface. (128, 192, and 256 CBC or CTR) 9 SSH DH Private DH Diffie Hellman private component used in Components key establishment (DHE 2048) 10 S-S VPN IPSec/IKE HMAC (SHA1, SHA256, SHA384 or SHA 512) authentication Keys Used to authenticate the peer in an IKE/IPSec tunnel connection. 11 S-S VPN IPSec/IKE session AES Used to encrypt IKE/IPSec data. These Keys are AES (128, 192, and 256 CBC) IKE keys and (128, 192 and 256 CBC, 128 CCM, 128 and 256 GCM) IPSec keys 12 S-S VPN IPSec/IKE Diffie DH Diffie Hellman (Group 14, 19 and 20) Hellman Private private component used in key Components establishment 13 S-S VPN IPSEC pre-shared Part of HMAC Manually distributed by an administrator Keys in the CO role. Used in authentication. 14 RA VPN IPSec session AES (128 CBC, 128 and 256 GCM) Used to Keys encrypt remote access sessions utilizing IPSec. 15 RA VPN IPSec HMAC (SHA-1) Used in authentication of remote authentication HMAC access IPSec data. 16 Firmware code integrity HMAC Used to check the integrity of crypto- check related code. HMAC-SHA-256 17 Firmware Content AES-256 Used to decrypt firmware, software, and Encryption Key content. 18 Password Password Authentication string with a minimum length of 6 characters. 19 DRBG Seed /State DRBG Used by DRBG. The state includes the V and the Key. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 20 of 37 Palo Alto Networks CSP # CSP/Key Name Type Description 20 SNMPv3 Secrets SNMPv3 SNMPv3 Authentication Secret and Secrets Privacy Secret 21 SNMPv3 Keys SNMPv3 Keys AES Privacy key and HMAC-SHA-1 Authentication keys Note: The CSPs in Volatile memory locations are zeroized by overwrite with a pseudo random pattern followed by read-verify. Intermediate plaintext key material (CSP) is zeroized when it is copied from one to another memory location. All keys (CSPs) are zeroized when they expire. Session keys (CSPs) are zeroized as soon as the associated session has ended/timed out/ or been closed. Private keys (CSPs) are zeroized when their corresponding public keys (certificates) expire. Definition of Public Keys The modules contain the following public keys: Table 16 - Public Keys Key Name Description CA Certificates Used to extend trust for certificates ECDSA Public keys managed as certificates for the verification of signatures, establishment of TLS, operator ECDSA Public Keys / authentication and peer authentication. Certificates (ECDSA P-256 or P-384) RSA Public keys managed as certificates for the verification of signatures, establishment of TLS, operator RSA Public Keys / Certificates authentication and peer authentication. (RSA 2048 or 3072 bits) TLS DH public components Used in key agreement (DHE 2048, ECDHE P-256, P-384) SSH DH public components Used in key agreement (DHE 2048) SSH Host public key SSH Host public key (RSA 2048) SSH Client public key SSH Client RSA public key (RSA 2048) S-S VPN - IPSec/IKE Diffie Used in key agreement Hellman public component (DHE 2048, ECDHE P-256, P-384) Public Key for firmware Used to authenticate firmware and content to be installed content load test on the firewall (RSA 2048) PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 21 of 37 Palo Alto Networks Definition of CSPs Modes of Access Table 17 defines the relationship between access to CSPs and the different module services. The modes of access shown in the table are defined as:  R = Read: The module reads the CSP. The read access is typically performed before the module uses the CSP.  W = Write: The module writes the CSP. The write access is typically performed after a CSP is imported into the module, or the module generates a CSP, or the module overwrites an existing CSP.  Z = Zeroize: The module zeroizes the CSP. Table 17 - CSP Access Rights within Roles & Services Role Authorized Service Mode Cryptographic Key or CSP CO Security Configuration RW 1, 2, 3, 4, 5, 6, 7, 8, 9, 16, 17, Management 18, 19, 20, 21 CO Other Configuration RW 1, 2, 3, 4, 5, 6, 7, 8, 9 User Security Configuration W 18 (operator’s own password) Management User, CO Show Status R 1, 2, 3, 4, 5, 6, 7, 8, 9 Unauthenticated Zeroize Z All CSPs are zeroized. S-S VPN VPN R 10, 11, 12, 13 RA VPN VPN R 1, 2, 3, 4, 5, 6, 14, 15 CO Firmware Update RW 17 Unauthenticated Self-Tests N/A N/A Unauthenticated Show Status (LEDs) N/A N/A PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 22 of 37 Palo Alto Networks Operational Environment The FIPS 140-2 Area 6 Operational Environment requirements are not applicable because 7000 Firewalls do not contain modifiable operational environments. The operational environment is limited since the Module includes a firmware load service to support necessary updates. New firmware versions within the scope of this validation must be validated through the FIPS 140-2 CMVP. Any other firmware loaded into this module is out of the scope of this validation and require a separate FIPS 140-2 validation. Security Rules The module design corresponds to the module security rules. This section documents the security rules enforced by the cryptographic module to implement the security requirements of this FIPS 140-2 Level 2 module. FIPS 140-2 Security Rules 1. The cryptographic module shall provide four distinct operator roles. These are the User role, Remote Access VPN role, Site-to-site VPN role, and the Cryptographic Officer role. 2. The cryptographic module shall provide identity-based authentication. 3. The cryptographic module shall clear previous authentications on power cycle. 4. When the module has not been placed in a valid role, the operator shall not have access to any cryptographic services. 5. The cryptographic module shall perform the following tests A. Power up Self-Tests 1. Cryptographic algorithm tests a. AES Encrypt Known Answer Test b. AES Decrypt Known Answer Test c. AES GCM Encrypt Known Answer Test d. AES GCM Decrypt Known Answer Test e. AES CCM Encrypt Known Answer Test f. AES CCM Decrypt Known Answer Test g. RSA Sign Known Answer Test h. RSA Verify Known Answer Test i. ECDSA Sign Known Answer Test j. ECDSA Verify Known Answer Test k. HMAC-SHA-1 Known Answer Test l. HMAC-SHA-256 Known Answer Test m. HMAC-SHA-384 Known Answer Test n. SHA-1 Known Answer Test o. SHA-256 Known Answer Test p. SHA-384 Known Answer Test PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 23 of 37 Palo Alto Networks q. SHA-512 Known Answer Test r. DRBG SP800-90A Known Answer Tests s. SP 800-90A Section 11.3 Health Tests t. ECDH Known Answer Test 2. Firmware Integrity Test –verified with HMAC-SHA-256. B. Critical Functions Tests 1. N/A C. Conditional Self-Tests 1. Continuous Random Number Generator (RNG) test – performed on NDRNG and DRBG 2. RSA Pairwise Consistency Test (when a key generation fails, the error message displayed is “Cannot verify key and certificate.”) 3. ECDSA Pairwise Consistency Test (when a key generation fails, the error message displayed is “Cannot verify key and certificate.”) 4. Firmware Load Test – Verify RSA 2048 with SHA-256 signature on firmware at time of load 5. If any conditional test fails, the module will output a description of the error condition. 6. The operator shall be capable of commanding the module to perform the power-up self- test by cycling power of the module. 7. Power-up self-tests do not require any operator action. 8. Data output shall be inhibited during power-up self-tests, zeroization and error states. 9. Status information does not contain CSPs or sensitive data that if misused could lead to a compromise of the module. 10. There are no restrictions on which keys or CSPs are zeroized by the zeroization service. 11. The module maintains separation between concurrent operators. 12. The module does not support a maintenance interface or role. 13. The module does not have any external input/output devices used for entry/output of data. 14. The module does not enter or output plaintext CSPs. 15. The module does not output intermediate key generation values. Vendor imposed security rules: 1. If the cryptographic module remains inactive in any valid role for the administrator specified time interval, the module automatically logs out the operator. 2. The module enforces a timed access protection mechanism that supports at most ten authentication attempts per minute. After the administrator specified number of consecutive unsuccessful Password validation attempts have occurred, the cryptographic module shall enforce a wait period of at least one (1) minute before any more login attempts can be attempted. This wait period shall be enforced even if the module power is momentarily removed. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 24 of 37 Palo Alto Networks Physical Security Mechanisms The multi-chip standalone modules are production quality containing standard passivation. Chip components are protected by an opaque enclosure. There are tamper evident seals that are applied on the modules by the Crypto-Officer. All unused seals are to be controlled by the Crypto-Officer. The seals prevent removal of the opaque enclosure without evidence. The Crypto-Officer must ensure that the module surface is clean and dry. Tamper evident labels must be pressed firmly onto the adhering surfaces during installation and once applied the Crypto- Officer shall permit 24 hours of cure time for all tamper evident labels. The Crypto-Officer should inspect the seals and shields for evidence of tamper every 30 days. If the seals show evidence of tamper, the Crypto-Officer should assume that the modules have been compromised and contact Customer Support. Note: For ordering information, see Table 2 for FIPS kit part numbers and versions. Opacity shields are included in the FIPS kits. Refer to Appendix A and B for instructions on installation of the tamper seals and opacity shields. Refer to Appendix A for instructions on installation of the tamper seals and opacity shields for the PA-3060. The locations of the eight (8) tamper evident seals on the PA-3060 module are shown in Figure 9 through Figure 12. [1] [3] [2] Figure 9 – PA-3060 Right side PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 25 of 37 Palo Alto Networks [4] [5] [6] Figure 10 – PA-3060 Left side [7] Figure 11 – PA-3060 Front/Top Tamper Seal Placement [8] Figure 12 – PA-3060 Front/Bottom Tamper Seal Placement PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 26 of 37 Palo Alto Networks Refer to Appendix B for instructions on installation of the tamper seals and opacity shields for the PA- 7080. The locations of the ten (10) tamper evident seals implemented on the PA-7080 Series modules are shown in Figure through Figure below. [7] [2] [1] [8] [4] [3] [5] [6] Figure 13 - PA-7080 Tamper Seal Placement for Figure 14 - PA-7080 Tamper Seal Placement on Rear (6) Front Fan Trays(2) [9] [10] Figure 15 - PA-7080 Tamper Seal Placement on Figure 16 - PA-7080 Tamper Seal Placement on Left Side for Front Opacity Shield (1) Right Side for Front Opacity Shield (1) PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 27 of 37 Palo Alto Networks Operator Required Actions Table 18 - Inspection/Testing of Physical Security Mechanisms Physical Recommended Model Security Frequency of Inspection/Test Guidance Details Mechanisms Inspection/Test PA-3060 and PA- Tamper 30 days Verify integrity of tamper evident 7080 Evident Seals seals in the locations identified in the FIPS Kit Installation Guide. Seal integrity to be verified within the modules operating temperature range. PA-3060 Front and 30 days Verify that front and rear covers have Rear Covers not been deformed from their original shape, thereby reducing their effectiveness PA-7080 Front Cover, 30 days Verify that front cover, opacity lip Opacity Lip and cable management have not and Cable been deformed from their original Management shape, thereby reducing their effectiveness Mitigation of Other Attacks Policy The module has not been designed to mitigate any specific attacks outside of the scope of FIPS 140-2, so these requirements are not applicable. Definitions and Acronyms API – Application Programming Interface App-ID – Application Identification - Palo Alto Networks’ ability to identify applications and apply security policy based on the ID rather than the typical port and protocol-based classification. BGP – Border Gateway protocol – Dynamic routing protocol CA – Certificate authority Content-ID – Content Identification – Palo Alto Networks’ threat prevention features including Antivirus, Antispyware, and Intrusion Prevention. CO – Cryptographic Officer DB9 – Console port connector DLP – Data loss prevention PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 28 of 37 Palo Alto Networks Gbps – Gigabits per second HA – High Availability HSCI - High Speed Chassis Interconnect IKE – Internet Key Exchange IP – Internet Protocol IPSec – Internet Protocol Security LDAP – Lightweight Directory Access Protocol LED – Light Emitting Diode NDRNG – Non-deterministic random number generator OCSP – Online Certificate Status Protocol OSPF – Open Shortest Path First – Dynamic routing protocol PAN-OS – Palo Alto Networks’ Operating System QoS – Quality of Service QSFP - Quad Small Form-factor Pluggable RA VPN – Remote Access Virtual Private Network RIP – Routing Information Protocol – Dynamic routing protocol RJ45 – Networking Connector RNG –Random number generator S-S VPN – Site to site Virtual Private Network SFP – Small Form-factor Pluggable Transceiver SSL – Secure Sockets Layer TLS – Transport Layer Security USB – Universal Serial Bus User-ID – User Identification – Palo Alto Networks’ ability to apply security policy based on who initiates the traffic rather than the typical IP-based approach. VPN – Virtual Private Network XFP – 10 Gigabit Small Form Factor Pluggable Transceiver XML – Extensible Markup Language Reference Documents FIPS 140-2 - FIPS Publication 140-2 Security Requirements for Cryptographic Modules PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 29 of 37 Palo Alto Networks Appendix A - PA-3060 - FIPS Accessories/Tamper Seal Installation (8 Seals) 1. From the front of the PA-3060, attach the Left and Right Front Cover brackets using the screws provided. 2. Attach Front cover to the front of the PA-3060 using the brackets and the supplied bolts and nuts. Ensure the gap in the cover is positioned below the networking interfaces. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 30 of 37 Palo Alto Networks 3. Attach Rear Cover to the rear of the PA-3060. Ensure the gap in the cover is positioned below the power supplies. 4. Affix tamper evident labels as follows. A. Attach a tamper label to the top of the module overlapping the front opacity shield and the PA-3060. B. Attach three (3) labels to the right side of the PA-3060 covering each screw used to attach the front bracket and rear opacity cover. C. Attach three (3) labels to the left side of the PA-3060 covering each screw used to attach the front bracket and rear opacity cover. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 31 of 37 Palo Alto Networks 5. Viewing the bottom of the PA-3060. D. Attach a tamper label overlapping the front opacity shield and the PA-3060. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 32 of 37 Palo Alto Networks Appendix B - PA-7080 - FIPS Accessories/Tamper Seal Installation (10 Seals) 1. Using the supplied screws attach the Cable Manger Kit with upper opacity lip to the front of the PA- 7080, as shown. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 33 of 37 Palo Alto Networks 2. Using the supplied screws, attach the Left and Right Front Cover brackets to the sides of the PA-7080, as shown. 3. Using the supplied screws attach front opacity shield to the PA-7080 as shown. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 34 of 37 Palo Alto Networks 4. The final assembly for the PA-7080 with the FIPS kit is as shown. PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 35 of 37 Palo Alto Networks 5. Facing the front of the PA-7080: A. Affix one (1) label to the front and center of the exhaust fan tray. Ensure the label overlaps the seam with the front PA-7080 branding panel as shown. (1 total) B. Affix one (1) label to the left and right outer edge of mounting flanges for the front opacity shield. Labels should fold over the edge of the cover flange and mounting bracket onto the side of the PA- 7080. (2 total) C. Affix one (1) label to the front and center of the air intake fan tray. Ensure the label overlaps the seam with the PA-7080 electrostatic discharge port panel as shown. (1 total) PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 36 of 37 Palo Alto Networks 6. Facing the rear of the PA-7080; D. Affix one (1) label to the left and right outer edge of the upper back panel. Labels should be placed just below the rear exhaust vent as shown. Labels should wrap around onto the sides of the PA- 7080 (2 total). E. Affix one (1) label to the left and right outer edges of each power entry module as shown. Labels should wrap around onto the sides of the PA-7080 (4 total). PA-3060 and PA-7080 Firewalls Non-Proprietary Security Policy Page 37 of 37