T This docume H Issue Revis Prepa ent is a transl HP XP Se date: sion: ared by: lation of the P7 Stor ecurity evaluated an rage Sy Targe May. 23 2.2 Hewlett nd certified s ystem et 3, 2016 t Packar ecurity targe rd Enter et written in J rprise. Japanese. HP XP7 Storage System Security Target V2.2 Page ii Copyright Microsoft and Windows are registered trademarks of Microsoft Corp. in the United States and other countries. Solaris is the registered trademark or trademark of Sun Microsystems, Inc. in the United States and other countries. HP-UX is the registered trademark of Hewlett-Packard Company. RedHat is the registered trademark or trademark of RedHat, Inc. in the United States and other countries. Linux is the registered trademark or trademark of Linus Torvalds in the United States and other countries. AIX is the registered trademark or trademark of IBM Corporation. All other company names and product names are the registered trademark or trademark of their respective owners. HP XP7 Storage System Security Target V2.2 Page iii - Table of Contents - 1 ST OVERVIEW........................................................................................................................................... 1 1.1 ST REFERENCE........................................................................................................................................... 1 1.2 TOE REFERENCE........................................................................................................................................ 1 1.3 TOE OVERVIEW ......................................................................................................................................... 2 1.3.1 TOE type.......................................................................................................................................... 2 1.3.2 Environment where TOE is used ..................................................................................................... 2 1.3.3 Relevant personnel........................................................................................................................... 3 1.3.4 How to use TOE and major security feature ................................................................................... 4 1.3.5 TOE and other configuration components....................................................................................... 5 1.4 TOE DESCRIPTION ..................................................................................................................................... 7 1.4.1 Control system............................................................................................................................... 10 1.4.2 Administration system.................................................................................................................... 10 1.4.3 Other disk storage systems ............................................................................................................ 11 1.4.4 TOE functions................................................................................................................................ 11 1.4.4.1 Basic functions TOE provides..............................................................................................................11 1.4.4.2 Security functions TOE provides .........................................................................................................12 1.4.5 Guidance documentation............................................................................................................... 16 2 CONFORMANCE CLAIM ...................................................................................................................... 19 2.1 CC CONFORMANCE CLAIM....................................................................................................................... 19 2.2 PP CONFORMANCE ................................................................................................................................... 19 2.3 PACKAGE NAME CONFORMANT................................................................................................................ 19 3 SECURITY PROBLEM DEFINITION................................................................................................... 20 3.1 TOE ASSETS............................................................................................................................................. 20 3.2 THREATS.................................................................................................................................................. 20 3.3 ORGANIZATIONAL SECURITY POLICIES..................................................................................................... 20 3.4 ASSUMPTIONS.......................................................................................................................................... 21 4 SECURITY OBJECTIVES....................................................................................................................... 22 4.1 TOE SECURITY OBJECTIVES ..................................................................................................................... 22 4.2 OPERATIONAL ENVIRONMENT SECURITY OBJECTIVES.............................................................................. 23 4.3 SECURITY OBJECTIVE RATIONALE............................................................................................................ 24 4.3.1 Security objective rational for assumption .................................................................................... 24 4.3.2 Security objective rationale for threat........................................................................................... 25 4.3.3 Security objective rationale for organizational security policy..................................................... 27 5 EXTENDED COMPONENTS DEFINITION......................................................................................... 28 6 SECURITY REQUIREMENT ................................................................................................................. 29 6.1 SECURITY FUNCTIONAL REQUIREMENTS .................................................................................................. 29 6.2 SECURITY ASSURANCE REQUIREMENTS.................................................................................................... 46 6.3 SECURITY REQUIREMENT RATIONALE ...................................................................................................... 47 6.3.1 Security requirement rationale ...................................................................................................... 47 6.3.2 Security requirement internal consistency rationale ..................................................................... 54 6.3.3 Security requirement rationale ...................................................................................................... 56 7 TOE SUMMARY SPECIFICATION ...................................................................................................... 58 7.1 TOE SECURITY FUNCTION ....................................................................................................................... 58 7.1.1 SF.LM............................................................................................................................................ 59 7.1.2 SF.FCSP ........................................................................................................................................ 60 7.1.3 SF.SN............................................................................................................................................. 60 7.1.4 SF.ROLE........................................................................................................................................ 61 7.1.5 SF.HDD......................................................................................................................................... 62 7.1.6 SF.AUDIT...................................................................................................................................... 63 8 REFERENCE............................................................................................................................................. 67 8.1.1 Terms and definitions .................................................................................................................... 68 HP XP7 Storage System Security Target V2.2 Page iv 8.1.1.1 Glossary for ST....................................................................................................................................68 8.1.1.2 Abbreviation ........................................................................................................................................69 HP XP7 Storage System Security Target V2.2 Page v List of tables Table 1-1 Basic functions provided by TOE................................................................................................ 11 Table 1-2 Role category and operation ........................................................................................................ 13 Table 1-3 TOE components used for evaluation.......................................................................................... 16 Table 1-4 Physical components of HP XP7 Storage System used for evaluation........................................ 17 Table 1-5 Host for Evaluation...................................................................................................................... 17 Table 1-6 Management PC for Evaluation................................................................................................... 17 Table 1-7 Maintenance PC for Evaluation................................................................................................... 17 Table 1-8 External Authentication Server for Evaluation............................................................................ 17 Table 1-9 Fibre Channel Switch for Evaluation........................................................................................... 18 Table 1-10 Fibre Channel Connection Adapter for Evaluation ................................................................... 18 Table 4-1 Relationship between TOE security problem and security objective .......................................... 24 Table 4-2 Validity of the security objectives for the assumptions............................................................... 24 Table 4-3 Validity of the security objectives to cope with threats............................................................... 25 Table 4-4 Validity of the security objectives for organizational security policy ......................................... 27 Table 6-1 Individually defined items to be audited...................................................................................... 29 Table 6-2 Audit Information........................................................................................................................ 31 Table 6-3 Generation of encryption key ...................................................................................................... 33 Table 6-4 Encryption key destruction method ............................................................................................. 34 Table 6-5 Operations between subjects and objects..................................................................................... 34 Table 6-6 SFP-relevant security attribute..................................................................................................... 35 Table 6-7 Rules between subjects and objects............................................................................................. 35 Table 6-8 List of functions restricting operations for roles.......................................................................... 39 Table 6-9 Operations of storage administrator and maintenance personnel for security attributes of processing act for host ........................................................................................................................ 40 Table 6-10 Operations of storage administrator and maintenance personnel for security attribute (user group information) of processing act for Remote Web Console (storage management UI software) 40 Table 6-11 Operations of storage administrator and maintenance personnel for user account................... 41 Table 6-12 Operations of storage administrator and maintenance personnel for fibre channel switch authentication data .............................................................................................................................. 42 Table 6-13 Operations of storage administrator and maintenance personnel for encryption key for data encryption ........................................................................................................................................... 42 Table 6-14 Operations of storage administrator and maintenance personnel for user authentication method ............................................................................................................................................................ 42 Table 6-15 Correspondence between security objectives and security function requirements.................... 47 Table 6-16 Validity of security function requirements for TOE security objectives................................... 48 Table 6-17 Dependencies of security function requirements....................................................................... 54 Table 6-18 Consistency between security function requirements................................................................ 55 Table 7-1 Correspondence relation between TOE security functions and security function requirements . 58 Table 7-2 Encryption-relevant algorithm used by SSL................................................................................ 61 HP XP7 Storage System Security Target V2.2 Page vi Table 7-3 Output content of basic information............................................................................................ 63 Table 7-4 Output content of detailed information........................................................................................ 66 HP XP7 Storage System Security Target V2.2 Page vii List of figures Figure 1-1 General system configuration that contains disk storage system ................................................. 2 Figure 1-2 Disk storage system configuration ............................................................................................... 9 Figure 1-3 Relationship between user, user group, role and resource group ............................................... 13 HP XP7 Storage System Security Target V2.2 Page 1 1 ST overview This chapter describes Security Target (hereinafter referred to as “ST”) reference, TOE reference, TOE overview and TOE description. 1.1 ST reference This section describes ST identification information. Title : HP XP7 Storage System Security Target Version : 2.2 Issue date : May. 23, 2016 Created by : Hewlett Packard Enterprise. 1.2 TOE reference This section describes TOE identification information. TOE : HP XP7 Storage System Control program TOE version : 80-01-42-00/00 It consists of the following programs  DKCMAIN micro-program 80-01-42-00/00  SVP micro-program 80-01-42/00 (Including Remote Web Console program (Storage management user interface software))  JDK 1.7.0_21  Apache 2.4.4  Apache Tomcat 7.0.39  OpenSSL 1.0.1g  ActivePerl 5.16.2.1602  Flash Player 11.6.602.180 TOE consumer : TOE consumers are defined as people who purchase disk storage products including TOE. The distribution procedure until the products are provided to end-users is guaranteed. Keyword : Disk storage, SAN, RAID, Virtualization, Role-base access control Developed by : Hewlett Packard Enterprise. HP X 1.3 1.3. TO “HP 1.3. Th (1) a (2) c N s XP7 Storage S TOE ov 1 TOE ty OE is the con P XP7 Storage 2 Environm Fig he following Disk storage Normally th and exit are m SAN and hos Various op collectively as Network). SA system using SAN Host System Securi verview ype ntrol program e System” (he ment wher gure 1-1 Gen describes dev system he disk storag managed. st en-system ser s “hosts” in th AN is a netwo a fibre chann N Secu exter exit a ity Target V2. m (software) th ereinafter call e TOE is u neral system vices in the e ge system in w rvers, such as his ST) and d ork dedicated nel. Disk stora ure area: Gene rnal authentic are managed. Fib .2 hat runs the d led “XP7”). used configuratio environment s which TOE i s Windows, H disk storage s to storage sy age system erally disk sto cation server . bre channel sw disk storage s on that conta shown in Figu is installed is HP-UX, and S ystems are co ystem that con orage system are installed witch ystem of Hew ains disk stor ure 1-1. installed in a Solaris (Thes onnected via nnects hosts a Ma External auth , hosts, fibre in a secure ar wlett Packard rage system a secure area w se devices are SAN (Storag and the disk s anagement PC thentication s channel swit rea where ent LAN Page 2 d Enterprise., where entry e referred to ge Area storage C erver ch, and try and 2 HP XP7 Storage System Security Target V2.2 Page 3 To connect the host to SAN, it is necessary to install the fibre channel connection adapters (hardware, software) in the host. The disk storage system identifies the host by using the identification information in the fibre channel connection adapter. The identification information in the fibre channel connection adapter is set by the storage resource administrator (see 1.3.3) when connecting the host to the disk storage. Normally the host is installed in a secure area where entry and exit are managed. Also, if required based on the security policy of the organization, TOE can identify/authenticate the fibre channel switch that is connected with the disk storage system. In this case, the fibre channel switch needs to identify/authenticate the connected host. The disk storage system identifies the fibre channel switch by using the identification information in the fibre channel switch. The identification information in the fibre channel switch is set by the security administrator (see 1.3.3) when connecting the fibre channel switch to the disk storage system. Normally the fibre channel switch is installed in a secure area where entry and exit are managed. (3) Management PC The management PC is used to set the configuration information of disk storage system remotely. It runs the program to enable the administrator of the disk storage system to set the configuration information in the management PC. The management PC and the disk storage system are connected via LAN (Local Area Network). (4) External authentication server The external authentication server is used to identify/authenticate the user when the administrator of the disk storage system accesses the disk storage system. Just like the disk storage system and hosts, it is installed in a secure area where entry and exit are managed. 1.3.3 Relevant personnel The ST intends for the following users as relevant personnel to disk storage systems.  Security administrator: The security administrator can register, modify and delete administrator accounts using the storage management user interface (UI) software called Remote Web Console program (see 1.4.2). Also, the administrator can assign the management authority of the group of storage resources, called “resource group” to a specific user. In addition to the above, the administrator can make an identification setting of the host, make identification and authentication settings of the fibre channel switch, and perform an encryption operation of stored data.  Storage resource administrator: The administrator can manage resources assigned to the security administrator (such as port, cache memory, and disk) by using Remote Web Console program (Storage management UI software).  Audit log administrator: The audit log administrator can manage audit logs obtained in disk storage systems. The administrator can refer and download the audit logs and make setting related to syslog using the Remote Web Console program (Storage management UI software).  Maintenance personnel The maintenance personnel belong to an entity specialized in maintenance with whom customers who use the disk storage system sign contracts concerning maintenance. They are responsible for initial startup process in installing the disk storage system, changing settings required in maintenance activities such as parts replacement or addition, and disaster recovery. Maintenance personnel access PC called SVP PC (Management maintenance IF PC) (see 1.4.2) that HP XP7 Storage System Security Target V2.2 Page 4 provides interface for maintenance/management of disk storage system from a PC for maintenance person (maintenance PC) to perform maintenance operations. Only maintenance personnel can directly contact parts inside the disk storage system and operate devices connected to the internal LAN. All resources of the disk storage system are assigned to the maintenance personnel and they can perform operations allowed by maintenance role (see Table 1-2). The TOE recognizes person who uses an interface to access SVP PC (Management maintenance IF PC) from the maintenance PC (see 1.4.2) as “the maintenance personnel” role.  Storage user: It is a user of disk storage system (represents a host) who uses data stored in the disk storage system through the host connected to the disk storage system. The security administrator, storage resource administrator and the audit log administrator are hereinafter collectively called the storage administrator. 1.3.4 How to use TOE and major security feature XP7 is a disk storage system for companies that require multi-platform, high performance, high response and large capacity. It provides expandable connectivity, virtualization of external storages, logical resource partitioning, remote copy function and expandable disk capacity in environment of different system. To a disk storage system, many hosts of variety type of platforms will be connected via the SAN environment or the IP network environment (In this ST, how to operate the disk storage system using the SAN environment is described). If an unauthorized operation is done in this disk storage system connection, it may result in unintended accesses to user data in the disk storage system. For this, the access control is required for the user data in disk storage system. Under the condition that multiple storage resource administrators manage resources in a disk subsystem (such as port, cache memory and disk) a setting beyond the authority is made. The TOE therefore divides the port, disk (parity group (see 8.1.1)) and cache memory into multiple resource groups, and the multiple resource groups are assigned to each storage resource administrator. The assignment of authority for resource management allows each storage resource administrator to access the resource without affecting other resources. The control program for XP7, the TOE, consists of DKCMAIN micro-program, SVP program, Remote Web Console program (Storage management UI software), JDK, Apache, Apache Tomcat, OpenSSL, Flash player, and ActivePerl. The DKCMAIN micro-program controls resources in the disk storage system while the SVP program does authorities for administrators of disk storage system. The Remote Web Console program (Storage management UI software) is contained in the SVP program and can be used by downloading it from SVP PC (Management maintenance IF PC) to a management PC. Hereinafter the Remote Web Console program (Storage management UI software) is called Remote Web Console (Storage management UI software). JDK, Apache, Apache Tomcat, OpenSSL, Flash player, and ActivePerl are software (application/library) that are installed to realize the functions provided by SVP PC (Management maintenance IF PC). This ST describes the security features to protect confidentiality and integrity of user data on XP7 by providing functions to prevent unauthorized access to storage resources assigned to specific storage users from other storage users, and to encrypt and shred the user data in disk drive. (a) to (h) show the security features provided by the TOE. [Security features TOE provides] (a) Access control of storage administrator and maintenance personnel: Accounts of storage administrator and maintenance personnel who access the TOE belong to groups. More than one role (see 1.4.4.2.1) and more than one resource group are assigned to a group. The resource group is of divided storage resource into multiple groups, and each account can execute control operations allowed by the role for resource in the assigned resource group. HP XP7 Storage System Security Target V2.2 Page 5 (b) Host access control: It performs access control to LDEV (logical volume) in the disk storage system from the host. (c) Identification and authentication of fibre channel switch: It identifies and authenticates fibre channel switches to prevent accesses from an unauthorized host to the disk storage system. (d) Identification and authentication of storage administrator and maintenance personnel: It controls, identifies, and authenticates storage administrator and maintenance personnel who access the TOE. It also can identify and authenticate storage administrator and maintenance personnel by using an externally connected authentication server (external authentication server). (e) Encrypted communication between Remote Web Console (Storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server: It encrypts the communication between Remote Web Console (Storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server. (f) Encryption of stored data: It encrypts user data to be stored in the disk storage system. (g) Shredding: It shreds user data in the disk storage system. (h) Audit log: It collects, refers and manages logs of configuration change and update for the disk storage system. 1.3.5 TOE and other configuration components This section describes configuration components of hardware and software, and shows which one is included in the TOE or operating environment respectively. The hardware and software built in the disk storage system are installed at the factory shipment, and storage administrator and storage users (see 1.3.3) are not required to prepare or change them. HP XP7 Storage System Security Target V2.2 Page 6 1.3.5.1.1 Hardware components The table below shows necessary hardware components and whether each component is included in the TOE. The environment means that items are the component of other than TOE. TOE/ environment Configuration component Description Environment HP XP7 Storage System It is the name of the disk storage system and consists of hardware and software, such as TOE, that constitutes the disk storage system. Parts excluding TOE are used in the environment. Environment Host Computers that access the disk subsystem. Windows, HP-UX, Solaris, Linux and AIX are expected as host OS. Environment Fibre channel connection adapter An adapter equipped in computer to connect to SAN. Environment Fibre channel switch A switch to connect host with disk storage system, which constitutes the SAN. Connection between the hosts and the disk storage system equipped with TOE requires the fibre channel switch. Environment Management PC Computers to administer the TOE. Requirements for the computer are;  CPU: Pentium 4 640 3.2GHz and higher Recommended: Core 2 Duo E6540 2.33GHz and higher  RAM: 2GB or larger Recommended: 3GB  Available HDD capacity: 500 MB and larger  Monitor: True Color 32 bit and higher; Resolution: 1280x1024 and higher  LAN card: 100Base-T or 1000Base-T Environment SAN High speed network connecting disk storage system and computers by using fibre channel technology. Environment Other disk storage system Other disk storage system connected with the disk storage system equipped with TOE. The other disk storage system is limited to the one equipped with TOE. Environment Maintenance PC A computer used by maintenance personnel at maintenance, which is prepared by maintenance personnel. Environment External authentication server A server that identifies and authenticates users by using LDAP server, and RADIUS server. - LDAP server is equipped with LDAPv3 - RADIUS server conforms to RFC2865 Environment External LAN LAN to connect disk storage system, management PC and external authentication server. Environment Internal LAN LAN to connect package in the disk storage system and maintenance PC. 1.3.5.1.2 Software components The table below shows necessary software components and whether each component is included in the TOE. TOE/environ ment Configuration component Description TOE DKCMAIN micro-program Version 80-01-42-00/00 The TOE is embedded in the disk storage system at factory shipment. HP XP7 Storage System Security Target V2.2 Page 7 TOE/environ ment Configuration component Description TOE SVP program Version 80-01-42/00 It runs on SVP PC (Management maintenance IF PC) and Remote Web Console (storage management UI software) runs on management PC. The TOE is embedded in the disk storage system at factory shipment. TOE JDK Version 1.7.0_21 It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. TOE Apache Version 2.4.4 It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. TOE Apache Tomcat Version 7.0.39 It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. TOE OpenSSL Version 1.0.1g It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. TOE ActivePerl Version 5.16.2.1602 It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. TOE Flash Player Version 11.6.602.180 It runs on SVP PC (Management maintenance IF PC). The TOE is embedded in the disk storage system at factory shipment. Environment SVP PC (Management maintenance IF PC) OS SVP PC (Management maintenance IF PC) OS  Windows 7 US version (64bit version) SP1 It is embedded in the disk storage system at factory shipment. Environment Management PC OS OS of management PC.  Windows 7 (SP1) Environment OS of maintenance PC OS of maintenance PC.  Windows 7 (SP1) Environment Web browser Web browser works on management PC. The following browser is supported.  Internet Explorer 11 Environment Flash Player It operates on management PC as a plug-in of web browser. The following version is used.  Flash Player 12.0 Environment Java runtime environment Java runtime environment operates on management PC.  JRE 7.0 Update 51(1.7.0_51) 1.4 TOE description The TOE consists of DKCMAIN micro-program, SVP program, Remote Web Console (storage management UI software), “JDK”, “Apache”, “Apache Tomcat”, “OpenSSL”, “Flash player”, and “ActivePerl”. The DKCMAIN micro-program is installed on multiple MP packages (see 1.4.1) in a disk storage system and has a role of controlling data transfer between the disk storage system and a host connected with the disk storage system. The SVP program is a program to execute operations and maintenances of the disk storage system. Remote Web Console (storage management UI software) provides the user interface function of SVP program. HP XP7 Storage System Security Target V2.2 Page 8 Figure 1-2 illustrates hardware components constituting the disk storage system and shows that on which components the identified TOE sub set works. HP X Th cach adm outp the d Th swit othe man and XP7 Storage S he disk storag he memory (C ministration sy put to and from disk storage s he control ne ch) and admi er. This config nagement PC, memory devi System Securi ge system can CACHE), disk ystem that inc m memory de system. The c etwork (CHA, inistration net guration does and mainten ice. ity Target V2. Figure 1-2 D n be divided i k adapter (DK cludes SVP (s evice while th configuration , CACHE, DK twork (intern s not allow di nance PC conn .2 Disk storage into the contr KA), MP (mi service proce he administra n components KA, and MP nal LAN and e irect access fr nected either system confi rol system tha icroprocessor ssor). The co ation system d s are as follow PCB togethe external LAN rom SVP PC to the interna iguration at includes ch ) package, an ntrol system does mainten ws. er connected b N) are comple (Managemen al LAN or ex hannel adapte nd memory de controls data nance and man by high-speed etely indepen nt maintenanc xternal LAN, Page 9 er (CHA), evice, and a input and nagement of d crossbar dent each ce IF PC), to the cache 9 HP XP7 Storage System Security Target V2.2 Page 10 1.4.1 Control system (1) Channel adapter Channel adapter (CHA) processes a command from other disk storage system and hosts, which are connected through a fibre channel switch, to a local disk storage system and controls data transfer. Other disk storage system and a fibre channel switch are connected to a fibre port on the CHA. (2) Disk adapter Disk adapter (DKA) controls data transfer between the cache and memory device. The DKA is equipped with LSI to encrypt and decrypt the stored data as encryption function. (3) Cache memory Cache memory (CACHE) is located between CHA and DKA and is commonly accessible from DKCMAIN micro-program. The configuration information to access the data through CHA and DKA is stored in it to be used for data reading and writing. The configuration information on the memory can be accessed only through the DKCMAIN micro-program. (4) MP PCB One quad core CPU is equipped in one PCB for DKCMAIN micro-program to work. (5) Memory device Memory device consists of multiple disk drives and is used to store user data. In the memory device, an LDEV (logical volume) which is a volume to store user data is created. Access to the user data is controlled per LDEV (logical volume), and done via DKCMAIN micro-program. A part of or all data in the LDEV (logical volume) can be allocated to cache memory so as to enable high speed data access. An LU (logical unit), which is an access unit from a host, is mapped to one or more LDEV (logical volume). LDEVs (logical volumes) are created on a parity group in the memory device. The parity group is a series of disk drives handled as one data group, and composes RAID by storing the user data and parity information. This RAID configuration enables accesses to the user data even when one or more drive in the parity group is unavailable, which improves the reliability. CHA, CACHE, DKA and MP PCB are connected each other by the high-speed crossbar switch. 1.4.2 Administration system (1) SVP PC (Management maintenance IF PC) The SVP PC (Management maintenance IF PC) is PC that provides interface for maintenance/management for disk storage system. It operates as a service processor embedded in the disk storage system to manage the entire disk storage system, and SVP program, which is a part of TOE, runs on it. The SVP program is the software to manage configuration information and maintenance function of the disk storage system, and has a function to send DKCMAIN micro-program a command to set configuration information received from Remote Web Console (storage management UI software) that works on management PC. It also has a function related to operations of security function in the disk storage system. JDK, Apache, Apache Tomcat, OpenSSL, Flash player, and ActivePerl are software (application/library) installed to realize functions provided by SVP PC (Management maintenance IF PC). (2) Maintenance PC The maintenance PC is the PC used by maintenance personnel at maintenance. It is connected to the SVP PC (Management maintenance IF PC) by remote desktop function via internal LAN which is the network in the disk storage system. (3) Management PC Management PC is a customer’s PC used by the storage administrator (see 1.3.3) for disk storage system operations and maintenance. Remote Web Console (storage management UI software), which is a part of HP XP7 Storage System Security Target V2.2 Page 11 TOE, works on it. The management PC and the SVP PC (Management maintenance IF PC) are connected via the external LAN. (4) External authentication server The external authentication server identifies and authenticates users by a request from the SVP program when the storage administrator (see 1.3.3) accesses TOE using Remote Web Console (storage management UI software), and returns to the SVP program the authentication result and user group information (see 1.4.4.2.1) that is a basis of approval information when the authentication succeeds. The communication between the SVP PC (Management maintenance IF PC) and the external authentication server is encryption communication. (5) Remote Web Console program (storage management UI software) Remote Web Console (storage management UI software) is software used by the storage administrator (see 1.3.3) to manage configuration information of disk storage system. Remote Web Console (storage management UI software) consists of Flex application and Java applet. The Flex application executes operations specified from Web browser on the management PC on the SVP PC (Management maintenance IF PC), and displays the result on the Web browser of the management PC Java applet on the other hand downloads programs from the SVP PC (Management maintenance IF PC) to the management PC. The programs run on the management PC. The communication between the SVP PC (Management maintenance IF PC) and Remote Web Console (storage management UI software) uses SSL. The storage administrator interacts with Remote Web Console (storage management UI software) using the web browser of the management PC to perform setting operations of the disk storage system. In order to prevent unauthorized use of Remote Web Console (storage management UI software) by any malicious third party (see 3.2), Remote Web Console (storage management UI software) identifies and authenticates users in collaboration with the SVP program. 1.4.3 Other disk storage systems To a port of channel adapter mounted on the disk storage system, an external disk storage system can be connected other than hosts. Sending and receiving commands to and from another disk storage system via the channel adapter enables data copy and backup between disk storage systems. When data copy is executed on the data sending side, backup is executed on the data receiving side. Copy operations executed from another disk storage system is executed by a reliable storage resource administrator. In addition, as the disk storage system and another one shares their own data each other, a reliable storage resource administrator is essential. Therefore, other disk storage system connected with the disk storage system is limited to the one with the TOE installed. 1.4.4 TOE functions Basic function and security function the TOE provides are as follows. 1.4.4.1 Basic functions TOE provides Table 1-1 shows a part of the basic functions provided by the TOE. Table 1-1 Basic functions provided by TOE Function Description Customized volume size function The customized volume size function can regard multiple LDEVs (logical volumes) as free space and create multiple customized volumes in arbitrary size, which enables effective use of disk capacity. Cache memory management function Specific data in an LDEV (logical volume) is resident in cache memory. The resident data can always be accessed by memory access function. HP XP7 Storage System Security Target V2.2 Page 12 Function Description Performance information management function Monitoring Resource usage rate in disk subsystem, disk load and port load measurement are enabled. External storage management function The function realizes virtualization (virtualization technology) of disk storage. By using the external storage management function, multiple disk subsystems including XP7 can be handled as one disk subsystem. It also allows the system administrator to easily manage multiple disk storage systems in different types. Remote copy function In XP7, replica volumes can be created at remote site without passing through a server. The replica can be used for backup as a measure for not only local/regional but also large-scale disasters. Without passing through a host, by updating the replica volume in synchronization with update at the main site, remote copy between disk subsystems is realized. For the connection between disk subsystems, fibre channel is used. Asynchronous remote copy function This is an asynchronous remote copy function with a new technology. Adapting the technology to accumulate update records (journal) in a disk drive with capacity larger than cache can realize stable copy which is less affected by fluctuations of bandwidth and operation traffic. Local copy function Volume replication to create a replica of logical volume in a disk subsystem without passing through a host is enabled. Using the replica allows obtaining backup in the same database and concurrent processing such as batch processing while continuing online operation for the data base and minimizing the impact on operating performance. Virtual volume management function With the virtual volume management function, the data of volume in a pool is accessed via a virtual volume. For the virtual volume and pool volume, thresholds are set to continuously monitor overflow of the area, which eventually brings the following effects. - Cost reduction at implementation by reducing operating rate of volumes. - Prevention of increases in management cost and time period of no operation due to the stop of operation while establishing the system. 1.4.4.2 Security functions TOE provides 1.4.4.2.1 Access control function of storage administrator and maintenance personnel In an intensive environment with large-scale storage where data of multiple companies, departments, systems and applications exist in a disk subsystem, so-called Multi-tenancy function to manage storage operations individually by assigning storage resource administrators per company or department is required. The Multi-tenancy function promises cost reduction by effective use of resource and management simplification by dividing. In Multi-tenancy environment, a security mechanism not to destroy the data of other organization by mistake, not to leak the data to other organization, and not to affect operations by other storage resource administrator is necessary. Access control function of storage administrator and maintenance personnel is per user group. A role and a resource group, a group of resources which can be controlled by the role, are assigned to the user group. Figure 1-3 shows the relationship between user (administrator), user group, resource group and role. This function enables each user to perform flexible resource allocation and realizes the above security. HP XP7 Storage System Security Target V2.2 Page 13 Figure 1-3 Relationship between user, user group, role and resource group A user belongs to one or more user group. The user group is assigned roles and resource groups and uses them as approved information. The user group information is obtained from SVP PC (Management maintenance IF PC) or external authentication server to be used. Each account can execute management operation allowed by the assigned role for the assigned resource. (1) Role The security administrator creates a user account using Remote Web Console (storage management UI software) and registers it to a user group. Permission of which operation is assigned to a user is determined based on the role assigned to the user group. The role has categories as follows. Table 1-2 Role category and operation Role Allowed operation Security administrator role A role that is assigned to security administrator and can perform user management operations, resource management operations, identification and authentication setting operations of host and fibre channel switch, encryption of stored data, and management of external authentication server. Audit log administrator role A role that is assigned to audit log administrator and can execute operations related to audit logs. Storage administrator role A role that is assigned to storage resource administrator and can perform storage management operations in the permitted resource group. Maintenance role A role that is assigned to maintenance personnel and can perform maintenance operations of the disk storage system. (2) Resource group Dividing storage resource into multiple groups is called resource group (RSG). Each resource group is assigned a number (RSG number) for identification. Also, each resource group is assigned to a user group and each storage resource administrator can perform management operation within the range of resource group assigned to the user group the administrator belongs to. As all resource groups are assigned to maintenance personnel, they can perform maintenance for all storage resources. User1 User Group1 Role Resource Group .. 0..y 1..n 1 0..x HP XP7 Storage System Security Target V2.2 Page 14 1.4.4.2.2 Host access control LDEV (logical volume) that stores user data is created by using Remote Web Console (storage management UI software). In order to access the LDEV (logical volume) from a host, the LDEV (logical volume) needs to be associated with a port on CHA connected to the host. In particular, LU number is assigned to associate the host and the LDEV (logical volume) to be accessed to set LU path. Data reading and writing for the corresponding LDEV (logical volume) is enabled only from the host with the LU path setting. In other words, data reading and writing from hosts without LU path setting are not allowed. 1.4.4.2.3 Identification and authentication of fibre channel switch connected with hosts When connecting a host to SAN, the connection management is done in a customer operation to prevent unauthorized host connection. If the prevention of impersonation is required to further ensure safety based on the organization’s security policy, identification and authentication by the FC-SP function (see 8.1.1) is available for the communication between the fibre channel switch and the port of the disk subsystem. The port of the disk subsystem can identify and authenticate the fibre channel switch, and the fibre channel switch can identify and authenticate the disk subsystem port as well. For the fibre channel switch identification and authentication setting, a security administrator uses the access control function of the fibre channel switch and sets each fibre channel whether to identify and authenticate the fibre channel switch. Also, the security administrator registers to the disk subsystem the authentication data (WWN, secret) of the fibre channel switch to identify and authenticate. The secret is a password for authentication and consists of 12 to 32 characters of alphanumeric and symbols. 1.4.4.2.4 Identification and authentication of storage administrator and maintenance personnel Remote Web Console (storage management UI software) is used by customers to manage disk subsystem including security setting. The TOE executes user identification and authentication at disk subsystem management (configuration of each function and setting change) using Remote Web Console (storage management UI software) and remote desktop connection to SVP PC (Management maintenance IF PC) by maintenance personnel. If the identification and authentication fails three times in a row, the identification and authentication of the user is rejected for one minute. As user authentication, the following 2 methods are supported. (1) SVP PC (Management maintenance IF PC) internal authentication ID and password of users are registered in the SVP PC (Management maintenance IF PC), and the TOE authenticate. The password used for user authentication is 6 to 256 letters with a combination of alphanumeric characters and symbols. (The password of maintenance personnel is 127 letters) Management User Group (UG) 1 Recourse User Group 1 User Group 2 Resource group (RSG) Management Management Storage HP XP7 Storage System Security Target V2.2 Page 15 (2) External authentication server The SVP PC (Management maintenance IF PC) does not manage ID and password but the ID and the password are sent to an external authentication server and the authentication result is sent back. After the success of authentication by the external authentication server, the user group information is obtained from the server and used as approved information. As protocols for user authentication, LDAP (Encryption supports LDAPS, starttls), and RADIUS (authentication protocol is CHAP) are supported. 1.4.4.2.5 Encrypted communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server To prevent the falsification and leakage of communication data between disk storage system and the management PC, the communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) is encrypted by SSL. In addition, one of LDAPS, starttls, and RADIUS (authentication protocol is CHAP) protocols is employed for the communication between the SVP PC (Management maintenance IF PC) and the external authentication server to protect passwords of the storage administrator and maintenance personnel. 1.4.4.2.6 Encryption of stored data The TOE can encrypt the data stored in a volume in the storage system. For encryption and decryption, LSI mounted in DKA is used. Encrypting data can prevent the information from being leaked at replacement of disk drive in the storage system or when the data is stolen. In addition, the following key management functions are available.  Encryption key creation  Encryption key deletion  Encryption key backup and restoring Only security administrator with user account can operate the encryption of stored data function. 1.4.4.2.7 Shredding This is a function to disable to restore data by writing dummy data over all the data in a volume, so as to avoid data leakage and unauthorized use at reuse of the volume. When the Shredding is executed, dummy data is written in the volume containing user data and the user data cannot be restored. The function complies with DoD5220.22-M, recommends writing dummy data at least 3 times. The dummy data is overwritten 3 times in the volume as default setting. Only storage administrator with user account can operate the Shredding function. 1.4.4.2.8 Audit log The audit log function is provided by SVP program (including Remote Web Console (storage management UI software)) and DKCMAIN micro-program. Remote Web Console (storage management UI software) records events related to the security such as success/fail of login and configuration/setting change. The maximum number of letters in a line of audit log is 1,024 (single byte), and up to 250,000 lines information is stored on the HDD in SVP PC (Management maintenance IF PC). Remote Web Console (storage management UI software) provides the interface to refer audit logs. HP X 1.4. G (1)          (2)   1.5 Th fibre XP7 Storage S 5 Guidan Guidance docu Users guide f HPE XP7 St HP XP7 Rem HP XP7 DK HP XP7 Vo HP XP7 Au HP XP7 Ow HP XP7 Rem HP XP7 Pro HPE XP7 St Disk subsyst HPE XP7 St DKC810I M * DKC810I Evaluat he TOE eval e channel con System Securi nce docume uments for the for security fu torage System mote Web Co KA Encryptio lume Shredde dit Log User wner Guide H mote Web Co ovisioning for torage System tem maintena torage System Maintenance M is the model tion Envi luation enviro nnection adap ity Target V2. entation e TOE are as function m Obtaining I onsole User G n User Guide er for Open a and Referenc H6F56-96026 onsole Messa r Open System m ISO15408 U nce manual m ISO15408 Manual REV. name of XP7 ironment onment is as pters are used Table 1-3 TO Storage A .2 s follows. ISO15408 Ce Guide H6F56 e TK901-960 and Mainfram ce Guide H6 6 ages H6F56-9 ms User Guid User Guide 8 Obtaining Ce . 1 7 for overseas follows. The d in the TOE e OE componen Array (HP X ertification G 6-96031 001 me Systems U 6F56-96021 96030 de H6F56-96 862585-001 ertification M s. e following m evaluation. nts used for e XP7) uide 862586- User Guide H 6029 Maintenance G management valuation -001 H6F56-96035 Guide 862579 PC, fibre ch Page 16 9-001 hannel switch 6 h, HP XP7 Storage System Security Target V2.2 Page 17 No. Component Software/OS 1 HP XP7 Storage System Control Program DKCMAIN micro-program: 80-01-42-00/00 2 SVP SVP micro-program: 80-01-42/00 JDK: 1.7.0_21 Apache: 2.4.4 Apache Tomcat: 7.0.39 OpenSSL: 1.0.1g ActivePerl: 5.16.2.1602 Flash Player: 11.6.602.180 Table 1-4 Physical components of HP XP7 Storage System used for evaluation No. Component Number Description 1 HP XP7 Storage System 1 1-1 MP PCB 2 1-2 CHA 2 1-3 Encryption DKA 2 1-4 Cache 16G 4 1-5 2.5-inch Disk Drive 12 3 parity groups(RAID1(2D+2D)) Table 1-5 Host for Evaluation No. Host OS 1 Windows 2008 Server Table 1-6 Management PC for Evaluation No. Management PC OS Java runtime environment Web browser and Plug-in 1 Windows7(SP1) JRE 1.7.0_51 Internet Explorer 11.0 Flash Player 12.0 Table 1-7 Maintenance PC for Evaluation No. Maintenance PC OS Java runtime environment Web browser and Plug-in 1 Windows7 (SP1) JRE 1.7.0_51 Internet Explorer 11.0 Flash Player 12.0 Table 1-8 External Authentication Server for Evaluation HP XP7 Storage System Security Target V2.2 Page 18 No. External Authentication Server OS Software 1 Windows 2008 Server Active Directory LDAP v3 support RFC2865 compliant Table 1-9 Fibre Channel Switch for Evaluation No. Switch Model Name FW version 1 Brocade300 BR-360-0008 Fabric OS v6.4.1b 2 Brocade6505 ER-7000-0340 Fabric OS v7.2.0c Table 1-10 Fibre Channel Connection Adapter for Evaluation No. Fibre Channel Connection Adapter Model Driver Version 1 Emulex LightPulse Lpe12002-M- HI Storport Miniport Driver 7.2.20.6 2 Brocade 16G FC HBA BR-1860-2P00 bfa 3.2.1.0 3 Qlogic Fibre Channel Adapter QLE2564-CK Fibre Channel Adapter STOR miniport driver 9.1.4.6 HP XP7 Storage System Security Target V2.2 Page 19 2 Conformance claim 2.1 CC conformance claim This ST complies with the following standards. Common Criteria for Information Technology Security Evaluation Part1: Introduction and general model Version 3.1 Revision 4 Part2: Security functional components Version 3.1 Revision 4 Part3: Security assurance components Version 3.1 Revision 4 Security functional requirements: Part2 Security assurance requirements: Part3 2.2 PP conformance This ST does not claim compliance with any PP. 2.3 Package name conformant This ST complies with package: EAL2. Assurance component of ALC_FLR.1 is added. HP XP7 Storage System Security Target V2.2 Page 20 3 Security Problem Definition 3.1 TOE assets The most important asset for disk storage system is the user data of storage user stored in disk drives. In order to maintain integrity and confidentiality of the user data, the user data is protected from unauthorized access by a third party, and from setting change outside authority by the storage administrator. In addition, for sniffing of communication data between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) and between SVP PC (Management maintenance IF PC) and external authentication server by a third party who can connect to external LAN, TSF data (user ID and password) contained in the communication data must be protected by utilizing high reliable channel. In the ST, the user data of storage user exists in a resource group is the asset subject to protection in the environment of large-scale storage with data of multiple companies, departments, systems and applications in disk subsystem, and the asset is protected from unauthorized accesses by a third party. 3.2 Threats The TOE counters threats shown below. A third party in the following description means a person who is none of storage administrator, storage user, and maintenance personnel, and is not authorized to use the disk storage system. T.TSF_COMP A third party may impersonate the storage administrator by obtaining the communication data including ID and password of the storage administrator wrongly from external LAN to change disk storage system setting and may access the LDEV (logical volume) where user data is stored. T.LP_LEAK In a SAN environment where multiple hosts are connected to the same port, a third party may be able to leak, falsify, and delete user data by accessing LDEV (logical volume) of a specific host from other host. T.CHG_CONFIG A third party may be able to leak, falsify, and delete user data by wrongly changing the access setting for LDEV (logical volume) in the disk storage system. T.HDD_THEFT When returning a disk drive to the vendor for preventive maintenance or failure, the disk drive may be stolen while it is delivered, and the user data could be leaked. T.HDD_REUSE The user data in the disk drive may be leaked to a third party due to reuse of the disk storage system or reuse of the disk drive. 3.3 Organizational security policies P.MASQ If a customer requests identity authentication of a fibre channel switch that is connected to hosts, the fibre channel switch that is connected to hosts is identified and authenticated. HP XP7 Storage System Security Target V2.2 Page 21 3.4 Assumptions A.NOEVIL Within storage administrators, the security administrator and audit log administrator are assumed to be the qualified person who is capable of operating and managing the entire disk storage system, executes proper operations as specified by manuals, and never commit any wrongdoing. The storage resource administrator is assumed to be the qualified person who is capable of managing and operating a disk subsystem to the range permitted by the security administrator and executes proper operations as specified by manuals and never commits any wrongdoing. A.PHYSICAL_SEC The security administrator installs the disk storage system, host (including fibre channel connection adapter), devices that constitute the SAN environment (fibre channel switch, cable), other disk storage system, and external authentication server in a secure area where entry and exit are managed. Operation and management are performed, so that the setting values (such as WWN) that are set in each device and the connection status (connection status to SAN) would be maintained properly. A.MANAGE_SECRET The secret for fibre channel switch authentication that is set in the fibre channel switch connected to hosts is assumed to be controlled under the security administrator’s responsibility to protect it from the use by unauthorized person. A.MANAGEMENT_PC The storage administrator is assumed to install and manage the management PC at a secure area to protect it from unauthorized use. A.MAINTENANCE_PC When the responsible official of the organization signs a maintenance contract, accept maintenance personnel and the maintenance PC. Allow maintenance personnel in a secure area and permit maintenance personnel to install the maintenance PC. Also people other than maintenance personnel do not use the maintenance PC wrongly. A.CONNECT_STORAGE Other disk storage systems connected to TOE are assumed to be limited to those TOE is embedded. A.EXTERNAL_SERVER An external authentication server is assumed to be capable of using authentication protocol (LDAPS, starttls and RADIUS (authentication protocol is CHAP)) which can protect communication with SVP PC (Management maintenance IF PC) supported by the TOE, and registering and managing user identification information and user group information while keeping consistency with the TOE. HP XP7 Storage System Security Target V2.2 Page 22 4 Security objectives This chapter describes TOE security objective, operational environment security objective, and security objective rationale. 4.1 TOE security objectives The TOE security objectives are as follows. O.ADM_AUTH The TOE must succeed the identity authentication of storage administrator and maintenance personnel before the storage administrator and maintenance personnel execute the management operations of disk subsystem. O.ADM_ROLE The TOE must control the management operations done by the storage administrator and maintenance personnel as follows.  Security administrator can perform user management operation, resource management operation, host and fibre channel switch identification and authentication setting, encryption of stored data, and management operations of the external authentication server.  Audit log administrator can perform operations related to audit log.  Storage resource administrator can perform storage management operation within the permitted resource group.  Maintenance personnel can perform disk storage system maintenance operations. O.SEC_COMM The TOE must provide the communication function which is secured by the encrypted data on the channel between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server to protect from sniffing of the data from the communication path between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) and between SVP PC (Management maintenance IF PC) and external authentication server. O.SWITCH_AUTH The TOE must perform identity authentication of the fibre channel switch that is connected with hosts by the FC-SP function when the fibre channel switch is connected. O.HOST_ACCESS The TOE must identify hosts to control that only the host which is allowed to connect to the disk storage system can access the permitted LDEV (logical volume). O.HDD_ENC The TOE must manage encryption key to encrypt the stored data to prevent the user data from being leaked from the disk drive taken out of the disk storage system. O.HDD_SHRED The TOE must shred the user data to make sure that the user data does not remain in the disk drive when the disk drive in the disk storage system is replaced or stops to be used. O.AUD_GEN The TOE must track events regarding the security such as identity authentication and setting change operation. HP XP7 Storage System Security Target V2.2 Page 23 4.2 Operational environment security objectives The operational environment security objectives are as follows. OE.NOEVIL The representative of organization must assign person who is capable of managing and operating the entire disk storage system, executes proper operations as specified by manuals, and never commits any wrongdoing to security administrator and audit log administrator within storage administrators. The storage resource administrator must be assigned to the qualified person who has been trained to execute proper operations as specified by manuals and never commits any wrongdoing to manage and operate disk subsystem to the range permitted by the security administrator. OE.PHYSICAL_SEC The security administrator installs a disk storage system, host (including fibre channel connection adapter), devices that constitute a SAN environment (fibre channel switch, cable), other storage system and external authentication server in a secure area where only storage administrator and maintenance personnel are allowed. They must be completely protected from unauthorized setting changes and switching the connection target. OE.MANAGE_SECRET The security administrator must control the secret for fibre channel switch authentication set in the fibre channel switch to protect it from the use by unauthorized person. OE.MANAGEMENT_PC The storage administrator must properly install and manage the management PC to protect it from unauthorized use. OE.MAINTENANCE_PC Maintenance personnel install the maintenance PC in a secure area appropriately according to instructions of the responsible official of the organization. The maintenance PC must be protected, so that other people than maintenance personnel cannot use it. OE.CONNECT_STORAGE Other disk storage systems connected to the TOE must be limited to those with TOE embedded OE.EXTERNAL_SERVER The security administrator must use protocol (LDAPS, starttls, and RADIUS (authentication protocol is CHAP)) which can protect the communication with SVP PC (Management maintenance IF PC) supported by the TOE for external authentication server, and properly register and control the user identification information and user group information while keeping the consistency with TOE. OE.FC-SP_HBA When identification and authentication of fibre channel switch connected hosts is required, a fibre channel connection adapter with the FC-SP function and a fibre channel switch with the FC-SP function must be used. OE.HDD_ENC In operational environment, a disk storage system which is capable of encrypting user data by using LSI equipped in DKA must be used to prevent the user data from being leaked from disk drive. HP XP7 Storage System Security Target V2.2 Page 24 4.3 Security objective rationale The security objective must be to address to assumptions stipulated in Security problem definition, to counter threats or to realize organizational security policy. Table 4-1 shows relationships between security objective and corresponding assumption, threats to counter, and organizational security policy. Table 4-1 Relationship between TOE security problem and security objective Security objectives O.ADM AUTH O.ADM ROLE O.SEC COMM O.SWITCH AUTH O.HOST ACCESS O.AUD GEN O.HDD ENC O.HDD SHRED OE.NOEVIL OE.PHYSICAL SEC OE.MANAGE SECRET OE.MANAGEMENT PC OE.MAINTENANCE PC OE.CONNECT STORAGE OE EXTERNAL SERVER OE.FC-SP HBA OE.HDD ENC TOE security problem A.NOEVIL X A.PHYSICAL_SEC X A.MANAGE_SECRET X A.MANAGEMENT_PC X A.MAINTENANCE_PC X A.CONNECT_STORAGE X A.EXTERNAL_SERVER X T.TSF_COMP X X T.LP_LEAK X X T.CHG_CONFIG X X X T.HDD_THEFT X X T.HDD_REUSE X P.MASQ X X 4.3.1 Security objective rational for assumption Table 4-2 shows that the assumptions are addressed by the security objectives Table 4-2 Validity of the security objectives for the assumptions Assumptions Rationale that assumptions are addressed A.NOEVIL A.NOEVIL, as the description of OE. NOEVIL shows, assigns HP XP7 Storage System Security Target V2.2 Page 25 a reliable person to the security administrator and audit log administrator respectively for managing or operating the whole disk storage system. This can be realized by assigning a reliable person to the storage resource administrator for managing and operating the storage system in the ranged authorized by the administrator who has the authority. A.PHYSICAL_SEC A.PHYSICAL_SEC can be realized by ensuring that disk storage systems, host (including fibre channel connection adapter), devices that constitute a SAN environment (fibre channel switch, cable), other disk storage system and external authentication server are installed in a secure area where only security administrator, storage resource administrator, audit log administrator and maintenance personnel can access, and completely protected from unauthorized change of setting values and switching the connection target as the description of OE.PHYSICAL_SEC shows. A.MANAGE_SECRET A.MANAGE_SECRET can be realized by ensuring that the secret for authentication of the fibre channel switch connected with hosts is managed not to be used by a person who is not authorized by the security administrator as the description of OE.MANAGE_SECRET shows. A.MANAGEMENT_PC A.MANAGEMENT_PC can be realized by ensuring that the storage administrator correctly installs and manages the management PC to prevent unauthorized use as the description of OE.MANAGEMENT_PC shows. A.MAINTENANCE_PC A.MAINTENANCE_PC can be realized by managing the maintenance PC by maintenance personnel, so that people other than maintenance personnel cannot use it as the description of OE.MAINTENANCE_PC shows. A.CONNECT_STORAGE A.CONNECT_STORAGE can be realized by limiting that other disk storage system to be connected with the TOE must be the one consists of TOE as the description of OE.CONNECT_STORAGE shows. A.EXTERNAL_SERVER A.EXTERNAL_SERVER can be realized by ensuring that the external authentication server is capable of using authentication protocol that can protect the communication with SVP PC (Management maintenance IF PC) supported by the TOE and registering and managing user identification information and user group information correctly while keeping the consistency with the TOE as the description of OE.EXTERNAL_SERVER shows. 4.3.2 Security objective rationale for threat Table 4-3 shows that the security objectives can help to cope with threats. Table 4-3 Validity of the security objectives to cope with threats HP XP7 Storage System Security Target V2.2 Page 26 Threats Rationale that threats are being addressed T.TSF_COMP T.TSF_COMP is addressed by O.SEC_COMM and OE.EXTERNAL_SERVER as follows.  The encrypted communication is employed for the communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), which can reduce the threats, such as sniffing by connecting unauthorized devices.  The encrypted communication is employed for the communication between SVP PC (Management maintenance IF PC) and an external authentication server, which can reduce threats such as sniffing by connecting unauthorized devices.  One of LDAPS, starttls, and RADIUS (authentication protocol is CHAP) is used for the protocol of communication between SVP PC (Management maintenance IF PC) and an external authentication server to manage the user identity information and group information registered in the external authentication server while keeping consistency with the TOE, which can reduce the threats to leakage of storage administrator and maintenance personnel user ID and password, and of group information. T.LP_LEAK T.LP_LEAK is addressed by O.HOST_ACCESS and OE.PHYSICAL_SEC as follows.  The TOE identifies and controls host so to ensure that the authorized host only can access the authorized LDEV (logical volume), which can reduce threats.  Disk storage system, host (including fibre channel connection adapter), fibre channel switch, other disk storage system and external authentication server are installed in a secure area where only security administrator, storage resource administrator, audit log administrator and maintenance personnel are allowed to access and are completely protected from unauthorized physical access, which can reduce threats. T.CHG_CONFIG T.CHG_CONFIG is addressed by O.ADM_AUTH, O.ADM_ROLE, and O.AUD_GEN as follows.  The TOE authenticates Remote Web Console (storage management UI software) user before management operation of disk subsystem and reject them if the identity authentication fails, which reduces unauthorized accesses by the third party.  The TOE identifies and authenticates storage administrator and maintenance personnel and limits the management operations performed by storage administrator and maintenance personnel to reduce threats.  Security administrator is able to perform user management operations, resource management operations, identification and authentication setting operations of fibre channel switch and host, encryption operations of stored data, and operations of HP XP7 Storage System Security Target V2.2 Page 27 Threats Rationale that threats are being addressed external authentication server.  Audit log administrator is able to perform operations related to audit logs.  Storage resource administrator is able to perform storage management operations in the permitted resource group.  Maintenance personnel can perform maintenance operations of disk storage system.  The TOE can trace security related issues when the identity authentication fails, which can reduce unauthorized accesses by the third party. T.HDD_THEFT T.HDD_THEFT is addressed by O.HDD_ENC and OE.HDD_ENC as follows.  The TOE manages encryption key used to encrypt user data in a disk drive, which can reduce threats such as leakage of user data from the disk drive.  The user data is encrypted by using LSI equipped in DKA of disk storage system, which can reduce threats to user data leakage from the disk drive that is taken out of the disk storage system. T.HDD_REUSE T.HDD_REUSE is addressed by O.HDD_SHRED as follows.  The TOE shreds the user data in disk drive of disk storage system when the use of disk drive stops, which can reduce the threat to the user data leakage from the disk drive. 4.3.3 Security objective rationale for organizational security policy Table 4-4 shows that the organizational security policy is realized by the security objective. Table 4-4 Validity of the security objectives for organizational security policy Organizational security policy Rationale for the fact that organizational security policy is realized P.MASQ P.MASQ is realized by O.SWITCH_AUTH and OE.FC- SP_HBA as follows.  For identification and authentication of the fibre channel switch that is connected with a host, the fibre channel connection adapter with the FC-SP function needs to be installed in the host, the fibre channel switch with the FC- SP function needs to be used.  The TOE performs identity authentication of the fibre channel switch by the FC-SP function before the port is accessed through the fibre channel switch. HP XP7 Storage System Security Target V2.2 Page 28 5 Extended components definition This ST complies with CC Part2 and CC Part3, and does not define any extended components. HP XP7 Storage System Security Target V2.2 Page 29 6 Security requirement This section describes security requirements. 6.1 Security functional requirements Security requirements provided by the TOE are as follows. All the following components are included in CC Part 2. Notation system on the operation of functional requirements (selection, assignment and detailed) is described below. When selecting: [selection: Description of functional requirements]: Chosen contents. When assigning: [assignment: Description of functional requirements]: Assigned contents. When refining: [refinement: Description of functional requirements]: Refined contents. The letters at the end of duplicated defined functional requirements means as follows. a: The functional requirement related to access restriction, and identification and authentication of storage administrator and maintenance personnel. b: The functional requirements related to host access control and fibre channel switch identity authentication. - Security audit (FAU) FAU_GEN.1 Audit data generation Hierarchical to: No other components. Dependencies: FPT_STM.1 Reliable time stamps FAU_GEN.1.1 The TSF shall be able to generate an audit record of the following auditable events: a) Start-up and shutdown of the audit functions; b) All auditable events for the [selection, choose one of: minimum, basic, detailed, not specified] level of audit; and c) [assignment: other specifically defined auditable events]. FAU_GEN.1.2 The TSF shall record within each audit record at least the following information: a) Date and time of the event, type of event, subject identity (if applicable), and the outcome (success or failure) of the event; and b) For each audit event type, based on the auditable event definitions of the functional components included in the PP/ST, [assignment: other audit relevant information]. [selection, choose one of: minimum, basic, detailed, not specified]: Not specified. [assignment: other specifically defined auditable events]: Auditable event to be described in “Audit Items” on Table 6-1. [assignment: other audit relevant information]: None Table 6-1 Individually defined items to be audited Required functions Audit Items FAU_GEN.1 None. FAU_GEN.2 None. HP XP7 Storage System Security Target V2.2 Page 30 Required functions Audit Items FAU_SAR.1 None. FAU_STG.1 None. FAU_STG.3 None. FAU_STG.4 None. FCS_CKM.1  Record success or failure of the creation of encryption key for data encryption, in the log file. FCS_CKM.4  Record success or failure of the deletion of encryption key for data encryption, in the log file. FDP_ACC.1 None. FDP_ACF.1 None. FDP_RIP.1  Record success or failure of start or stop of user data shredding, in the log file. FIA_AFL.1 None. Reaching threshold of authentication try is not recorded in log file. FIA_ATD.1a None. FIA_ATD.1b None. FIA_SOS.1a None. Unmatched metric is not recorded. FIA_SOS.1b None. Unmatched metric is not recorded. FIA_UAU.2  Record the success or failure of identity authentication of storage administrator and maintenance personnel in the log file.  Record the result of identity authentication of the fibre channel switch that is connected with hosts by FC-SP in the log file. FIA_UID.2  Record the success or failure of identity authentication of storage administrator and maintenance personnel, in the log file.  Record the result of fibre channel switch identity authentication by FC-SP, in the log file. FIA_USB.1a None. FIA_USB.1b None. FMT_MOF.1  Record the enabled or disabled setting of stored data encryption function, in the log file.  Record the setting change of fibre channel switch authentication by FC-SP, in the log file.  Record the start or stop of shredding function, in the log file. FMT_MSA.1  Record LU path information creation and deletion, in the log file.  Record that user account is added to or deleted from user group, in the log file.  Record that role is added to or deleted from user group, in the log file.  Record that resource group is added to or deleted from user group, in the log file. FMT_MSA.3 None. FMT_MTD.1  Record creation or deletion of user ID for user account and change of password, in the log file.  Record fibre channel switch WWN, secret creation, change, or deletion, in the log file.  Record creation, deletion, backup or restore of encryption key for data encryption, in the log file.  Record the change of user authentication method, in the log file. FMT_MTD.3  Record that encryption key for data encryption is restored, in the log file. FMT_SMF.1  Record creation or deletion of user ID for user account, change of password, or change of belonged user group, in the log file.  Record creation, change, or deletion of fibre channel switch WWN or secret. FMT_SMR.1  Record change of user group where the user account belongs to, in the log file.  Record that role is added to or deleted from user group, in the log file. FPT_STM.1 None. FTP_ITC.1  Record the success or failure of identity authentication of storage administrator and maintenance personnel, in the log file. FTP_TRP.1  Record the success or failure of identity authentication of storage administrator HP XP7 Storage System Security Target V2.2 Page 31 Required functions Audit Items and maintenance personnel, in the log file. FAU_GEN.2 User identity association Hierarchical to: No other components. Dependencies: FAU_GEN.1 Audit data generation FIA_UID.1 Timing of identification FAU_GEN.2.1 For audit events resulting from actions of identified users, the TSF shall be able to associate each auditable event with the identity of the user that caused the event. FAU_SAR.1 Audit review Hierarchical to: No other components. Dependencies: FAU_GEN.1 Audit data generation FAU_SAR.1.1 The TSF shall provide [assignment: authorised users] with the capability to read [assignment: list of audit information] from the audit records. FAU_SAR.1.2 The TSF shall provide the audit records in a manner suitable for the user to interpret the information. [assignment: authorised users]: Audit log administrator [assignment: list of audit information]: It describes in the Audit Information on Table 6-2. Table 6-2 Audit Information Audit event Audit Information Identity authentication of storage administrator  Success or failure of the identity authentication of storage administrator, executed date and time of the identity authentication, user ID of the Remote Web Console (storage management UI software), IP address of the management PC. Identity authentication of the maintenance personnel  Success or failure of the identity authentication of maintenance personnel, executed data and time, user ID of the maintenance personnel, and IP address of maintenance PC. Creation, modification and deletion of user account of storage administrator and maintenance personnel  User ID of security administrator who creates or deletes a user ID of user account, executed date and time, user ID of the operation target, authentication method, operation (creation, modification, deletion), operation result (success or failure) Change of user account password of storage administrator and maintenance personnel  User ID of the storage administrator and maintenance personnel who change user account password, executed date and time, user ID of operation target and operation result (success or failure). Change of user group where the user account of storage administrator and maintenance personnel belongs to  User ID of the security administrator who changes user group, executed date and time, name of user group, name of role, name of resource group, operation (role addition, deletion, RSG # addition, and deletion), and operation results (success or failure). Creation and deletion of LU path information  User ID of the storage resource administrator who creates or deletes the LU path information, executed date and time, operation (creation or deletion), port number, host WWN, LU number, HP XP7 Storage System Security Target V2.2 Page 32 Audit event Audit Information LDEV (logical volume) number and operation result (success or failure). Addition, modification and deletion of fibre channel switch WWN and secret  User ID of the storage resource administrator, security administrator, or maintenance personnel who create, modify or delete the fibre channel switch WWN and secret (in this case security administrator only), executed date and time, port number, fibre channel switch WWN, operation (creation, modification, deletion) and operation result (success or failure). Setting change of existence or nonexistence of fibre channel switch identity authentication by FC-SP  User ID of the security administrator who changes existence or nonexistence of fibre channel switch identity authentication by FC- SP, executed date and time, fibre channel switch WWN, existence of authentication, operation (change), and operation result (success or failure). Fibre channel switch identity authentication by FC-SP  WWN of fibre channel switch whose identity is authenticated, executed date and time and authentication result. Setting for encryption of stored data  User ID of the administrator who per forms the setting to enable or disable encryption of stored data, executed date and time, parity group number, encryption setting status (enable/disable), the number of setting parity groups, and operation result (success or failure). Generation, deletion, backup and restoring of encryption key for encryption of stored data  User ID of the security administrator who performs generation, deletion, backup and restoring of encryption key for data encryption, executed date and time, operation (generation, deletion, backup or restoring), encryption key number, the number of operated encryption keys, and operation result (success or failure). Start or stop of shredding  User ID of the storage resource administrator who performs volume shredding, executed date and time, operation (start or stop), written data, the number of writing operations, target LDEV (logical volume) number, the number of target LDEVs (logical volumes), the execution order of shredding, and operation result (success or failure). FAU_STG.1 Protected audit trail storage Hierarchical to: No other components. Dependencies: FAU_GEN.1 Audit data generation FAU_STG.1.1 The TSF shall protect the stored audit records in the audit trail from unauthorised deletion. FAU_STG.1.2 The TSF shall be able to [selection, choose one of: prevent, detect] unauthorised modifications to the stored audit records in the audit trail. [Selection: choose one of: prevent, detect]: prevent FAU_STG.3 Action in case of possible audit data loss Hierarchical to: No other components. Dependencies: FAU_STG.1 Protected audit trail storage FAU_STG.3.1 The TSF shall [assignment: actions to be taken in case of possible audit storage failure] if the audit trail exceeds [assignment: pre-defined limit]. [assignment: pre-defined limit]: 175,000 lines HP XP7 Storage System Security Target V2.2 Page 33 [assignment: actions to be taken in case of possible audit storing failure]: Give a warning on Remote Web Console (storage management UI software) screen. FAU_STG.4 Prevention for audit data loss Hierarchical to: FAU_STG.3 Action in case of possible audit data loss. Dependencies: FAU_STG.1 Protected audit trail storage FAU_STG.4.1 The TSF shall [selection, choose one of: “ignore audited events”, “prevent audited events, except those taken by the authorised user with special rights”, “overwrite the oldest stored audit records”] and [assignment: other actions to be taken in case of audit storage failure] if the audit trail is full. [selection: choose one of: “ignore audit event”, “prevent audit events, except those taken by authorized user with special rights”, “overwrite the oldest stored audit records”]: overwrite the oldest stored audit records [assignment: actions to be taken when storing audit records fails]: None - Cryptographic support (FCS) FCS_CKM.1 Cryptographic key generation Hierarchical to: No other components. Dependencies: [FCS_CKM.2 Cryptographic key distribution, or FCS_COP.1 Cryptographic operation] FCS_CKM.4 Cryptographic key destruction FCS_CKM.1.1 The TSF shall generate cryptographic keys in accordance with a specified cryptographic key generation algorithm [assignment: cryptographic key generation algorithm] and specified cryptographic key sizes [assignment: cryptographic key sizes] that meet the following: [assignment: list of standards]. [refinement: cryptographic key]: Encryption key for data encryption [assignment: list of standard]: Shown in “Standard” on Table 6-3. [assignment: cryptographic key generation algorithm]: Shown in “Algorithm on Table 6-3. [assignment: cryptographic key sizes]: Shown in “Key size(bit) on Table 6-3. Table 6-3 Generation of encryption key Encryption key Standard Algorithm Key size(bit) Encryption key for data encryption FIPS PUB 197 AES 256 FCS_CKM.4 Cryptographic key destruction Hierarchical to: No other components. Dependencies: [FDP_ITC.1 Import of user data without security attributes, or FDP_ITC.2 Import of user data with security attributes, or FCS_CKM.1 Cryptographic key generation] FCS_CKM.4.1 The TSF shall destroy cryptographic keys in accordance with a specified HP XP7 Storage System Security Target V2.2 Page 34 cryptographic key destruction method [assignment: cryptographic key destruction method] that meets the following: [assignment: list of standards]. [refinement: cryptographic key]: Encryption key for data encryption [assignment: list of standards]: None [assignment: cryptographic key destruction method]: shown in “Encryption destruction method on Table 6-4. Encryption key destruction method. Table 6-4 Encryption key destruction method Encryption key Destruction method Encryption key for data encryption According to an instruction of security administrator, destroy the specified encryption key information and release the memory where the information is stored. - User data protection (FDP) FDP_ACC.1 Subset access control Hierarchical to: No other components. Dependencies: FDP_ACF.1 Security attribute based access control FDP_ACC.1.1 The TSF shall enforce the [assignment: access control SFP] on [assignment: list of subjects, objects, and operations among subjects and objects covered by the SFP]. [assignment: list of subjects, objects, and operations among subjects and objects covered by the SFP] Subject: Shown in “Subject” on Table 6-5. Object: Shown in “Object” on Table 6-5. List of operations between subjects and objects handled by SFP: Shown in “Operations between subjects and objects on Table 6-5. [assignment: access control SFP]: LM access control SFP Table 6-5 Operations between subjects and objects Subject Object Operation between subject and object Processing acts for host LDEV (logical volume)  Access to LDEV (logical volume) Processing acts for Remote Web Console (storage management UI software) LDEV (logical volume)  LDEV (logical volume) creation and deletion RSG  RSG creation and deletion FDP_ACF.1 Security attribute based access control Hierarchical to: No other components. Dependencies: FDP_ACC.1 Subset access control FMT_MSA.3 Static attribute initialisation FDP_ACF.1.1 The TSF shall enforce the [assignment: access control SFP] to objects based on the following: [assignment: list of subjects and objects controlled under the HP XP7 Storage System Security Target V2.2 Page 35 indicated SFP, and for each, the SFP-relevant security attributes, or named groups of SFP-relevant security attributes]. FDP_ACF.1.2 The TSF shall enforce the following rules to determine if an operation among controlled subjects and controlled objects is allowed: [assignment: rules governing access among controlled subjects and controlled objects using controlled operations on controlled objects]. FDP_ACF.1.3 The TSF shall explicitly authorise access of subjects to objects based on the following additional rules: [assignment: rules, based on security attributes, that explicitly authorise access of subjects to objects]. FDP_ACF.1.4 The TSF shall explicitly deny access of subjects to objects based on the following additional rules: [assignment: rules, based on security attributes, that explicitly deny access of subjects to objects]. [assignment: list of subjects and objects controlled under the indicated SFP, and for each, the SFP-relevant security attributes, or named groups of SFP-relevant security attributes]: Subjects: Processing acts for host, processing acts for Remote Web Console (storage management UI software) Objects: LDEV (logical volume), RSG The SFP-relevant security attribute or groups with name of SFP-relevant security attribute: Shown in “Security attribute of subject” and “Security attribute of object” on Table 6-6. Table 6-6 SFP-relevant security attribute Subject Security attribute of subject Security attribute of object Processing acts for host WWN, LU number LU path information (host WWN, LU number, LDEV (logical volume) number) Processing acts for Remote Web Console (storage management UI software) User group information (role, RSG number) Resource group information (RSG number) LU path information (host WWN, LU number, LDEV (logical volume) number) [assignment: access control SFP]: LM access control SFP [assignment: rules governing access among controlled subjects and controlled objects using controlled operations on controlled objects]: Rules described in “Rule” on Table 6-7. [assignment: rules, based on security attributes, that explicitly authorise access of subjects to objects]: None [assignment: rules, based on security attributes, that explicitly deny access of subjects to objects]: None Table 6-7 Rules between subjects and objects Subjects Rules Objects Processing acts for Allow access to objects if the WWN and LU number given from a host to the processing acts for host, and the LU path LDEV (logical HP XP7 Storage System Security Target V2.2 Page 36 Subjects Rules Objects host information that is the security attribute of corresponding objects match each o. Refuse access if the above do not match each other. volume) Processing acts for Remote Web Console (storage management UI software) Rule to create or delete the objects by the processing acts for Remote Web Console (storage management UI software). 1) In case of security administrator role Creation allows if RSG number is not duplicated, while deletion is allowed if RSG number exists. RSG Rule to create or delete objects by the processing acts for Remote Web Console (storage management UI software). 1) In case of storage administrator role Creation of the LDEV (logical volume) is allowed if a resource group of RSG number allocated to the storage resource administrator contains the LDEV (logical volume) number to be created. Deletion of the LDEV (logical volume) is allowed if a resource group or RSG number allocated to the storage resource administrator contains LDEV (logical volume) number to be deleted and the information of LU path associated with the LDEV (logical volume) does not exist. LDEV (logical volume) FDP_RIP.1 Subset residual information protection Hierarchical to: No other components. Dependencies: No dependencies. FDP_RIP.1.1 The TSF shall ensure that any previous information content of a resource is made unavailable upon the [selection: allocation of the resource to, deallocation of the resource from] the following objects: [assignment: list of objects]. [assignment: list of objects]: LDEV (logical volume) [selection: allocation of the resource to, deallocation of the resource from]: resource allocation release from - Identification and authentication (FIA) FIA_AFL.1 Authentication failure handling Hierarchical to: No other components. Dependencies: FIA_UAU.1 Timing of authentication FIA_AFL.1.1 The TSF shall detect when [selection: [assignment: positive integer number], an administrator configurable positive integer within[assignment: range of acceptable values]] unsuccessful authentication attempts occur related to [assignment: list of authentication events]. FIA_AFL.1.2 When the defined number of unsuccessful authentication attempts has been [selection: met, surpassed], the TSF shall [assignment: list of actions]. [assignment: list of authentication events]: Authentication by Remote Web Console (storage management UI software), or that when connecting to SVP PC (Management HP XP7 Storage System Security Target V2.2 Page 37 maintenance IF PC) via remote desktop. [refinement: administrator]: Security administrator [selection: [assignment: positive integer number], an administrator configurable positive integer within [assignment: range of acceptable values]]: 3 [selection: met, surpassed]: surpassed [assignment: list of actions]: refuse the login of the user for a minute, and then the number of unsuccessful authentication attempts cleared to be 0. FIA_ATD.1a User attribute definition Hierarchical to: No other components. Dependencies: No dependencies. FIA_ATD.1.1a The TSF shall maintain the following list of security attributes belonging to individual users: [assignment: list of security attributes]. [assignment: list of security attributes]: Role, RSG number FIA_ATD.1b User attribute definition Hierarchical to: No other components. Dependencies: No dependencies. FIA_ATD.1.1b The TSF shall maintain the following list of security attributes belonging to individual users: [assignment: list of security attributes]. [assignment: list of security attribute]: WWN, LU number FIA_SOS.1a Verification of secrets Hierarchical to: No other components. Dependencies: No dependencies. FIA_SOS.1.1a The TSF shall provide a mechanism to verify that secrets meet [assignment: a defined quality metric]. [assignment: a defined quality metric]: at least 6 characters and no more than 256 characters (password for maintenance personnel is 127 characters) containing one- byte upper-case alphabet, one-byte lower-case alphabet, one-byte number, and any of the following 32 symbols; !”#$%&’()*+,-./:;<=>?@[\]^_`{|}~. FIA_SOS.1b Verification of secrets Hierarchical to: No other components. Dependencies: No dependencies. FIA_SOS.1.1b The TSF shall provide a mechanism to verify that secrets meet [assignment: a defined quality metric]. [assignment: a defined quality metric]: at least 12 characters and no more than 32 characters containing one-byte upper-case alphabet, one-byte lower-case alphabet, one-byte number, one-byte space and any of the following 12 symbols;.-+@_=:/[],~. FIA_UAU.2 User authentication before any action HP XP7 Storage System Security Target V2.2 Page 38 Hierarchical to: FIA_UAU.1Timing of authentication Dependencies: FIA_UID.1Timing of identification FIA_UAU.2.1 The TSF shall require each user to be successfully authenticated before allowing any other TSF-mediated actions on behalf of that user. [refinement: user]: Storage administrator, maintenance personnel, or fibre channel switch FIA_UID.2 User identification before any action Hierarchical to: FIA_UID.1 Timing of identification Dependencies: No dependencies. FIA_UID.2.1 The TSF shall require each user to be successfully identified before allowing any other TSF-mediated actions on behalf of that user. [refinement: user]: Storage administrator, maintenance personnel, host, or fibre channel switch FIA_USB.1a User-subject binding Hierarchical to: No other components. Dependencies: FIA_ATD.1 User attribute definition FIA_USB.1.1a The TSF shall associate the following user security attributes with subjects acting on the behalf of that user: [assignment: list of user security attributes]. FIA_USB.1.2a The TSF shall enforce the following rules on the initial association of user security attributes with subjects acting on the behalf of users: [assignment: rules for the initial association of attributes]. FIA_USB.1.3a The TSF shall enforce the following rules governing changes to the user security attributes associated with subjects acting on the behalf of users: [assignment: rules for the changing of attributes]. [assignment: list of user security attributes]: Role, RSG number [assignment: rules for the initial association of attributes]: None [assignment: rules for the changing of attributes]: None FIA_USB.1b User-subject binding Hierarchical to: No other components. Dependencies: FIA_ATD.1 User attribute definition FIA_USB.1.1b The TSF shall associate the following user security attributes with subjects acting on the behalf of that user: [assignment: list of user security attributes]. FIA_USB.1.2b The TSF shall enforce the following rules on the initial association of user security attributes with subjects acting on the behalf of users: [assignment: rules for the initial association of attributes]. FIA_USB.1.3b The TSF shall enforce the following rules governing changes to the user security attributes associated with subjects acting on the behalf of users: [assignment: rules for the changing of attributes]. [assignment: list of user security attributes]: WWN, LU number [assignment: rules for the initial association of attributes]: None HP XP7 Storage System Security Target V2.2 Page 39 [assignment: rules for the changing of attributes]: None - Security management (FMT) FMT_MOF.1 Management of security functions behaviour Hierarchical to: No other components. Dependencies: FMT_SMR.1 Security roles FMT_SMF.1 Specification of management functions FMT_MOF.1.1 The TSF shall restrict the ability to [selection: determine the behaviour of, disable, enable, modify the behaviour of] the functions [assignment: list of functions] to [assignment: the authorised identified roles]. [assignment: list of functions]: Shown in “Function” on Table 6-8. [selection: determine the behaviour of, disable, enable, modify the behaviour of]: disable, enable [assignment: the authorised identified roles]: Shown in “Role” on Table 6-8. Table 6-8 List of functions restricting operations for roles No Roles Functions 1 Security administrator  Encryption of stored data function  FC-SP authentication function  External authentication server connection function 2 Storage resource administrator  Shredding function 3 Maintenance personnel --- FMT_MSA.1 Management of security attributes Hierarchical to: No other components. Dependencies: [FDP_ACC.1 Subset access control, or FDP_IFC.1 Subset information flow control] FMT_SMR.1 Security roles FMT_SMF.1 Specification of Management Functions FMT_MSA.1.1 The TSF shall enforce the [assignment: access control SFP(s), information flow control SFP(s)] to restrict the ability to [selection: change_default, query, modify, delete, [assignment: other operations]] the security attributes [assignment: list of security attributes] to [assignment: the authorised identified roles]. [assignment: list of security attributes]: LU path information, user group information [selection: change_default, query, modify, delete, [assignment: other operations]]: Operations described in “Operations for LU path information” on Table 6-9, and in “Operations for user group information” on Table 6-10. [assignment: the authorised identified roles]: Described in “Roles” on Table 6-9. HP XP7 Storage System Security Target V2.2 Page 40 [assignment: access control SFP(s), information flow control SFP(s)]: LM access control SFP Table 6-9 Operations of storage administrator and maintenance personnel for security attributes of processing act for host Roles Operations for LU path information RSG number n RSG number n host WWN LU number LDEV (Logical volume) number host WWN LU number LDEV (Logical volume) number Storage resource administrator (RSG number n) Query, creation, deletion Query, creation, deletion Query, creation, deletion - - - Security administrator - - - - - - Audit log administrator - - - - - - Maintenance personnel (All resource groups are assigned to maintenance personnel) Query, creation, deletion Query, creation, deletion Query, creation, deletion -: No operation Host WWN of LU path information is used for host identification. Table 6-10 Operations of storage administrator and maintenance personnel for security attribute (user group information) of processing act for Remote Web Console (storage management UI software) Roles Operations for user group information Roles RSG number Security administrator  Addition  Deletion  Query  Addition  Deletion  Query Storage resource administrator  (own) Query  (own) Query Audit log administrator  (own) Query  (own) Query Maintenance personnel  (own) Query  (own) Query FMT_MSA.3 Static attribute initialisation HP XP7 Storage System Security Target V2.2 Page 41 Hierarchical to: No other components. Dependencies: FMT_MSA.1 Management of security attributes FMT_SMR.1 Security roles FMT_MSA.3.1 The TSF shall enforce the [assignment: access control SFP, information flow control SFP] to provide [selection, choose one of: restrictive, permissive, [assignment: other property]] default values for security attributes that are used to enforce the SFP. FMT_MSA.3.2 The TSF shall allow the [assignment: the authorised identified roles] to specify alternative initial values to override the default values when an object or information is created. [selection, choose one of: restrictive, permissive, [assignment: other property]]: restrictive [assignment: access control SFP, information flow control SFP]: LM access control SFP [assignment: the authorized identified role]: None FMT_MTD.1 Management of TSF data Hierarchical to: No other components. Dependencies: FMT_SMR.1 Security roles FMT_SMF.1 Specification of Management Functions FMT_MTD.1.1 The TSF shall restrict the ability to [selection: change_default, query, modify, delete, clear, [assignment: other operations]] the [assignment: list of TSF data] to [assignment: the authorised identified roles]. [assignment: list of TSF data]: User ID and password of storage administrator and maintenance personnel Fibre channel switch WWN, secret Encryption key for data encryption User authentication method [selection: change_default, query, modify, delete, clear, [assignment: other operations]]: Operations for “User account” on Table 6-11, operations for “Fibre channel switch authentication data” on Table 6-12, operations for “Encryption key for data encryption” on Table 6-13, operations for “User authentication method” on Table 6-14. [assignment: the authorised identified roles]: Roles described in “Roles” on Table 6-11, Table 6-12, Table 6-13 and Table 6-14. Table 6-11 Operations of storage administrator and maintenance personnel for user account Roles User account of storage administrator and maintenance personnel User ID Password Security administrator Query, creation, deletion Modification Storage resource administrator (own) Query (own) Modification HP XP7 Storage System Security Target V2.2 Page 42 Roles User account of storage administrator and maintenance personnel User ID Password Audit log administrator (own) Query (own) Modification Maintenance personnel (own) Query (own) Modification Table 6-12 Operations of storage administrator and maintenance personnel for fibre channel switch authentication data Role fibre channel switch authentication data fibre channel switch WWN fibre channel switch secret Security administrator Query, creation, modification, deletion Creation, modification, deletion Storage resource administrator Query, creation, modification, deletion - Audit log administrator - - Maintenance personnel Query, creation, modification, deletion - -: No operation Table 6-13 Operations of storage administrator and maintenance personnel for encryption key for data encryption Roles Encryption key for data encryption Security administrator Creation, deletion, query, modification Storage resource administrator - Audit log administrator - Maintenance personnel - -: No operation Table 6-14 Operations of storage administrator and maintenance personnel for user authentication method HP XP7 Storage System Security Target V2.2 Page 43 Roles User authentication method Security administrator Query, modification Storage resource administrator - Audit log administrator - Maintenance personnel - -: No operation FMT_MTD.3 Secure TSF data Hierarchical to: No other components. Dependencies: FMT_MTD.1 Management of TSF data FMT_MTD.3.1 The TSF shall ensure that only secure values are accepted for [assignment: list of TSF data]. [assignment: list of TSF data]: Encryption key for data encryption FMT_SMF.1 Specification of Management Functions Hierarchical to: No other components. Dependencies: No dependencies. FMT_SMF.1.1 The TSF shall be capable of performing the following management functions: [assignment: list of management functions to be provided by the TSF]. [assignment: list of management functions to be provided by the TSF]: The following functions are provided.  Function to manage user ID of user account and host identification  Function to manage password for user ID of user account  Function to manage fibre channel switch authentication data  Function to manage role of user account  Function to manage security attribute of processing acting for fiber channel switch  Function to manage security attribute of processing acting for Remote Web Console (storage management UI software)  Function to manage operations by storage administrator and maintenance personnel for user account  Function to manage operations by storage administrator and maintenance personnel for authentication data of the fibre channel switch that is connected with the host  Function to manage operations by storage administrator and maintenance personnel for encryption key for data encryption  Function to stop and activate data encryption function  Function to stop and activate FC-SP authentication function HP XP7 Storage System Security Target V2.2 Page 44  Function to stop and activate shredding function  Function to stop and activate external authentication server connection function FMT_SMR.1 Security roles Hierarchical to: No other components. Dependencies: FIA_UID.1 Timing of identification FMT_SMR.1.1 The TSF shall maintain the roles [assignment: the authorised identified roles]. FMT_SMR.1.2 The TSF shall be able to associate users with roles. [assignment: the authorised identified roles]:  Security administrator  Storage resource administrator  Audit log administrator  Maintenance personnel  Storage user - Protection of the TSF (FPT) FPT_STM.1 Reliable time stamps Hierarchical to: No other components. Dependencies: No dependencies. FPT_STM.1.1 The TSF shall be able to provide reliable time stamps. - Trusted path/channels (FTP) FTP_ITC.1 Inter-TSF trusted channel Hierarchical to: No other components. Dependencies: No dependencies. FTP_ITC.1.1 The TSF shall provide a communication channel between itself and another trusted IT product that is logically distinct from other communication channels and provides assured identification of its end points and protection of the channel data from modification or disclosure. FTP_ITC.1.2 The TSF shall permit [selection: the TSF, another trusted IT product] to initiate communication via the trusted channel. FTP_ITC.1.3 The TSF shall initiate communication via the trusted channel for [assignment: list of functions for which a trusted channel is required]. [refinement: another trusted IT product]: External authentication server [selection: the TSF, another trusted IT product]: TSF [assignment: list of functions for which a trusted channel is required]: Sending password and user ID of user account used for identification and authentication (external authentication server method) of storage administrator and maintenance personnel. FTP_TRP.1 Trusted path Hierarchical to: No other components. Dependencies: No dependencies. HP XP7 Storage System Security Target V2.2 Page 45 FTP_TRP.1.1 The TSF shall provide a communication path between itself and [selection: remote, local] users that is logically distinct from other communication paths and provides assured identification of its end points and protection of the communicated data from [selection: modification, disclosure, [assignment: other types of integrity or confidentiality violation]]. FTP_TRP.1.2 The TSF shall permit [selection: the TSF, local users, remote users] to initiate communication via the trusted path. FTP_TRP.1.3 The TSF shall require the use of the trusted path for [selection: initial user authentication, [assignment: other services for which trusted path is required]]. [selection: remote, local]: remote [selection: modification, disclosure, [assignment: other types of integrity or confidentiality violation]]: disclosure [selection: the TSF, local users, remote users]: remote user [selection: initial user authentication, [assignment: other services for which trusted path is required]]: [assignment: other services the reliable path is required]: Communication using Remote Web Console (storage management UI software) HP XP7 Storage System Security Target V2.2 Page 46 6.2 Security assurance requirements The TOE security assurance requirements are as follows. The evaluation assurance level of the TOE is EAL2, and the added assurance component is ALC_FLR.1. All security assurance requirements directly use security assurance components stipulated in CC Part3. (1) Development (ADV) ADV_ARC.1 : Security architecture description ADV_FSP.2 : Security-enforcing functional specification ADV_TDS.1 : Basic design (2) Guidance document (AGD) AGD_OPE.1 : Operational user guidance AGD_PRE.1 : Preparative procedures (3) Life cycle support (ALC) ALC_CMC.2 : Use of a CM system ALC_CMS.2 : Parts of the TOE CM coverage ALC_DEL.1 : Delivery procedures ALC_FLR.1 : Basic flaw remediation (4) Security target evaluation (ASE) ASE_CCL.1 : Conformance claims ASE_ECD.1 : Extended components definition ASE_INT.1 : ST introduction ASE_OBJ.2 : Security objectives ASE_REQ.2 : Derived security requirements ASE_SPD.1 : Security problem definition ASE_TSS.1 : TOE summary specification (5) Test (ATE) ATE_COV.1 : Evidence of coverage ATE_FUN.1 : Functional testing ATE_IND.2 : Independent testing - sample (6) Vulnerability evaluation (AVA) AVA_VAN.2 : Vulnerability analysis HP XP7 Storage System Security Target V2.2 Page 47 6.3 Security requirement rationale 6.3.1 Security requirement rationale Table 6-15 shows correspondence relation between security function requirements and TOE security objectives. Each security function requirement corresponds to at least one TOE security objective. Table 6-15 Correspondence between security objectives and security function requirements TOE security objectives O.ADM_AUTH O.ADM_ROLE O.SEC_COMM O.SWITCH_AUTH O.HOST_ACCESS O_HDD_ENC O_HDD_SHRED O.AUD_GEN TOE security function requirements FAU_GEN.1 X FAU_GEN.2 X FAU_SAR.1 X FAU_STG.1 X FAU_STG.3 X FAU_STG.4 X FCS_CKM.1 X FCS_CKM.4 X FDP_ACC.1 X X FDP_ACF.1 X X FDP_RIP.1 X FIA_AFL.1 X FIA_ATD.1a X FIA_ATD.1b X FIA_SOS.1a X FIA_SOS.1b X FIA_UAU.2 X X FIA_UID.2 X X X FIA_USB.1a X FIA_USB.1b X FMT_MOF.1 X HP XP7 Storage System Security Target V2.2 Page 48 TOE security objectives O.ADM_AUTH O.ADM_ROLE O.SEC_COMM O.SWITCH_AUTH O.HOST_ACCESS O_HDD_ENC O_HDD_SHRED O.AUD_GEN FMT_MSA.1 X FMT_MSA.3 X FMT_MTD.1 X X FMT_MTD.3 X FMT_SMF.1 X FMT_SMR.1 X FPT_STM.1 X FTP_ITC.1 X FTP_TRP.1 X Table 6-16 shows that the TOE security objectives are realized by the TOE security function requirements. Table 6-16 Validity of security function requirements for TOE security objectives TOE security objectives Rationale that TOE security objectives are realized O.ADM_AUTH O.ADM_AUTH requires performing identification and authentication of Remote Web Console (storage management UI software) user before the Remote Web Console user performs management operation of disk subsystem. The details of necessary measures and required functions for the above request are as follows. a. Maintaining Remote Web Console (storage management UI software) user The TOE must define user accounts, associate users with the user accounts, and maintain them to identify Remote Web Console (storage management UI software) users. In other words, it enables identification of Remote Web Console (storage management UI software) users. The security requirements corresponding to the requirement are FIA_ATD.1a and FIA_USB.1a. b. Identity authentication of Remote Web Console (storage management UI software) user account before using the TOE Before the TOE is used, the TOE must identify user accounts. Therefore, performing identity authentication of user accounts before execution of any of all Remote Web Console (storage management UI software) functions is required. The security function requirements corresponding to the requirement are FIA_UID.2 and FIA_UAU.2. HP XP7 Storage System Security Target V2.2 Page 49 TOE security objectives Rationale that TOE security objectives are realized c. Managing password The password for the TOE to authenticate user accounts must be at least 6 characters and no more than 256 characters (the password for maintenance personnel is 127 characters) consist of combination of one-byte upper-case alphabet, one-byte lower-case alphabet, one-byte number, and any of the following 32 symbols; !”#$%&’()*+,- ./:;<=>?@[\]^_`{|}~. If authentication fails 3 times in a row due to entering incorrect password, login of the user ID is refused for a minute, which can decrease the possibility of breaking password. The security function requirements corresponding to the function are FIA_AFL.1 and FIA_SOS.1a. O.ADM_AUTH can be satisfied by achieving all of a, b, and C. And that is, meeting FIA_ATD.1a, FIA_USB.1a, FIA_AFL.1, FIA_SOS.1a, FIA_UAU.2, and FIA_UID.2, which are necessary security requirements, can realize O.ADM_AUTH. O.ADM_ROLE O.ADM_ROLE requires be able to restrict management operations by storage administrator and maintenance personnel based on roles of identified and authenticated user ID. The details of necessary measurement and required functions for the above request are as follows. a. Restricting operations of role and RSG number The TOE must restrict addition and deletion of role of user account and RSG number, and creation and deletion of RSG according to the role of user account. The TOE therefore restricts the change for user account based on the rule defined as [LM access control SFP]. The security function requirement corresponding to the requirement is FMT_MSA.1. b. Managing identity authentication information The TOE must restrict change of password and user ID of user account, authentication method, fibre channel switch WWN, and secret according to the role of user account. This can prevent unauthorized change of password and user ID of user account, authentication method, fibre channel switch WWN, and secret. The security function requirement corresponding to the requirement is FMT_MTD.1. c. Holding management function The TOE must have a function to manage Remote Web Console (storage management UI software) user account, role of user account, fibre channel switch identification and authentication information, LU path information, and user group information. The TOE must have a function to manage operations by storage administrator and maintenance personnel. Also, it must have a function to stop and activate the data encryption function, the FC-SP authentication function, the shredding function, and the external authentication server connection function. The security function requirement corresponding to the above requirements is FMT_SMF.1. d. Maintaining role The TOE must maintain the roles of security administrator, storage resource administrator, audit log administrator, maintenance personnel and storage user, and associate them with users. The security function requirement corresponding to the above requirement is FMT_SMR.1. e. Managing behavior of security function The TOE must restrict activation and stop of stored data encryption/decryption, fibre channel switch authentication, connection with external authentication server, and HP XP7 Storage System Security Target V2.2 Page 50 TOE security objectives Rationale that TOE security objectives are realized shredding function according to roles of user account. It can prevent unauthorized change to use or stop each function. The security function requirement corresponding to the above function is FMT_MOF.1. f. Defining and executing access control The TOE must create and delete RSG and LDEV in accordance with the rule defined as [LM access control SFP] for storage administrator and maintenance personnel. It enables the storage resource administrator to create and delete LDEVs (logical volumes) in the allocated RSG. Also, restrictive default value can be assigned as access attribute at LDEV (logical volume) creation. It means that accesses are limited because LU path information does not exist at the LDEV (logical volume) creation. The security function requirements corresponding to the above requirement are FDP_ACC.1, FDP_ACF.1 and FMT_MSA.3. O.ADM_ROLE is satisfied by achieving the above a, b, c, d, e, and f. And that is, achieving FMT_MSA.1, FMT_MSA.3, FMT_MTD.1, FMT_SMF.1, FMT_SMR.1, FMT_MOF.1, FDP_ACC.1, and FDP_ACF.1, which are necessary security function requirements for each measurement, can realize O.ADM_ROLE. O.SEC_COMM O.SEC_COMM requires providing a secure communication function by encrypting communication data between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server to prevent sniffing. The detail of necessary measurement and required function for the above request are as follows. a. Protecting communication data between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) Reliable path is used for the communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) to protect the data from sniffing. The security function requirement corresponding to the function is FTP_TRP.1. b. Protecting communication data between SVP PC (Management maintenance IF PC) and external authentication server When an external authentication server is used for identity authentication (the external authentication server method), reliable channel is used for the communication between SVP PC (Management maintenance IF PC) and the external authentication server. It can protect the communication data from sniffing. The security function requirement corresponding to the function is FTP_ITC.1. O.SEC_COMM can be satisfied by achieving all of the above a and b. And that is, achieving FTP_TRP.1 and FTP_ITC.1, which are the necessary security function requirements for each measurement, cam realize O.SEC_COMM. O.SWITCH_AUTH After the setting of fibre channel switch identification and authentication, O.SWITCH_AUTH requires identification and authentication of a fibre channel switch when the cable connection of the appropriately set fibre channel switch and TOE is detected. The details of necessary measurement and required function for the above requirement are as follows. a. Executing the FC-SP function The TOE sends the command of security authentication to a fibre channel switch and identifies and authenticates the fibre channel switch by using the DH-CHAP HP XP7 Storage System Security Target V2.2 Page 51 TOE security objectives Rationale that TOE security objectives are realized authentication code. The security requirements corresponding to the function are FIA_UID.2 and FIA_UAU.2. b. Managing secret A secret for the TOE to authenticate a fibre channel switch is at least 12 characters and no more than 32 characters containing one-byte upper-case alphabet, one-byte lower- case alphabet, one-byte number, one-byte space and any of the following 12 symbols; .- +@_=:/[],~. It can decrease the possibility of breaking password. The security function requirement corresponding to the function is FIA_SOS.1b. O.SWITCH_AUTH can be satisfied by achieving both of above a and b. And that is, achieving FIA_UID.2, FIA_UAU.2, and FIA_SOS.1b, which are the necessary security function requirements, can realize O.SWITCH_AUTH. O.HOST_ACCESS O.HOST_ACCESS requires performing identification of host and access control to allow the host to access only LDEVs (logical volumes) allocated to the host when the host accesses the user data of LU that is the protection target property of the TOE. The detail of necessary measurement and required functions for the above request are as follows. a. Maintaining host The TOE must define host attribute information (WWN, LU number), associate the attribute to the host, and maintain them. The security function requirements corresponding to the requirement are FIA_ATD.1b and FIA_USB.1b. b. Identifying host before using TOE Before the TOE is used, the TOE must identify host. The security function requirement corresponding to the request is FIA_UID2. c. Defining and executing access control For each host, the TOE determines access to LDEV (logical volume) according to the rule defined as [LM access control SFP] and must exactly perform the access control so that the host can access user data in allocated LDEVs (logical volumes). The security function requirements corresponding to the request are FDP_ACC.1 and FDP_ACF.1. O.HOST_ACCESS can be satisfied by achieving all of a, b, and c. And that is, achieving FIA_ATD.1b, FIA_USB.1b, FIA_UID2, FDP_ACC.1, and FDP_ACF.1 which are the necessary security function requirements can realize O.HOST_ACCESS. O.HDD_ENC O.HDD_ENC requires managing encryption key for data encryption to prevent user data in a disk drive taken out of disk storage system from being leaked. The detail of necessary measure and required function for the request are as follows. a. Generating and deleting encryption key for data encryption User data stored in a disk drive needs to be encrypted to prevent the user data from being leaked from the disk drive replaced as preventive maintenance. For encryption and decryption, LSI embedded in DKA is used. The TOE generates encryption keys to user for encryption and deletes them after user. The security function requirements corresponding to the above function are FCS_CKM.1, and FCS_CKM.4. b. Restricting operations for encryption key for data encryption The TOE needs to restrict operations for encryption keys according to user account HP XP7 Storage System Security Target V2.2 Page 52 TOE security objectives Rationale that TOE security objectives are realized roles. In addition, it manages encryption keys so that keys other than those with backup cannot be restored. This prevents unauthorized modification for encryption keys. The security function requirements corresponding to the request are FMT_MTD.1 and FMT_MTD.3. O.HDD_ENC can be satisfied by achieving all of the above a and b. And that is, achieving FCS_CKM.1, FCS_CKM.4, FMT_MTD.1, FMT_MTD.3 which are necessary security function requirements can realize O.HDD_ENC. O.HDD_SHRED O.HDD_ SHRED requires shredding old user data in a disk drive before re-using the disk drive of disk storage system to prevent the user data from being leaked. The detail of necessary measurement and required function for the request are as follows. a. Protecting user data in disk drive When a disk drive becomes disuse, the user data stored in the disk drive needs to be shred so as to protect the user data from being leaked from the disk drive. The security function requirement corresponding to the above function is FDP_RIP.1. O.HDD_ SHRED can be satisfied by achieving the measurement. And that is, achieving FDP_RIP.1 that is the necessary function requirement for the measurement can realize O.HDD_ SHRED. O.AUD_GEN O.AUD_GEN requires observing unauthorized creation, modification and deletion of security related information. The detail of necessary measurement and required function for the above request are as follows. a. Generating audit log of security function related issues If identity authentication by Remote Web Console (storage management UI software) or falsifications of user account, role, or RSG occurs, SVP PC (Management maintenance IF PC) must generate audit log of the issue for identification from the audit log if such information is incorrectly falsified. The security function requirement corresponding to the request is FAU_GEN.1. Because FAU_GEN.1 obtains audit logs of identity authentication issue, operating issues of setting change, encryption, and user data shredding, the security objective is satisfied. Items without audit item in Table 6-1 of FAU_GEN.1 have no problem if there are no items to be audited since no efficacy is expected from the trace, or they are included in other audit target and can be surely traced. In addition, in the state of no LU path information setting, because a host cannot recognize the corresponding LDEV (logical volume) as a logical device, therefore cannot access the LDEV (logical volume), not to obtain the audit issue related to the security function requirement of access from host to LDEV (logical volume) does not cause any problem. Because time stamps provided by FPT_STM.1 are those for SVP PC (Management maintenance IF PC) OS and cannot be modified by other than maintenance personnel, logs for issue such as time setting change do not need to be obtained. When generating audit log, the date and time the issue occurs and user ID of user who performs the operation need to be put in the audit log so that occurrence date and time and the user who operates can be identified. The security function requirements HP XP7 Storage System Security Target V2.2 Page 53 TOE security objectives Rationale that TOE security objectives are realized corresponding to the request are FAU_GEN.2 and FPT_STM.1. b. Restricting reference to audit log To refer audit records, the audit record in SVP PC (Management maintenance IF PC) needs to be downloaded from Remote Web Console (storage management UI software). Downloading the audit record is limited to a user account with audit log administrator role to protect the audit logs from unauthorized reference. The security function requirement corresponding to the request is FAU_SAR.1. c. Protecting the audit log from falsification The TOE must prevent deletion and falsification of audit logs by an unauthorized user. Downloading the audit logs is limited to a user account with audit log administrator role. The TOE itself does not have a function to modify the audit logs to protect the audit logs from unauthorized deletion or modification. The security function requirement corresponding to the request is FAU_STG.1. d. Warning risk of loss of audit log Up to 250,000 lines audit logs can be created but when the number of audit logs exceeds the maximum, the oldest audit log is erased. To avoid the loss of audit logs, when the number of audit logs goes over 175,000, a warning to indicate the exceedance is displayed on Remote Web Console (storage management UI software) window to persuade downloading the audit logs. The security function requirements corresponding to the request are FAU_STG.3 and FAU_STG.4. O.AUD_GEN can be satisfied by achieving all the above measurements a, b, c, and d. And that is, achieving FAU_GEN.1, FAU_GEN.2, FPT_STM.1, FAU_SAR.1, FAU_STG.1, FAU_STG.3, and FAU_STG.4 which are the security function requirements can realize O.AUD_GEN. HP XP7 Storage System Security Target V2.2 Page 54 6.3.2 Security requirement internal consistency rationale Table 6-17 shows dependencies of security requirement components. Table 6-17 Dependencies of security function requirements No TOE/IT environment Security function requirements Dependencies defined in CC Part2 Function requirement addressed by this ST 1 TOE FAU_GEN.1 FPT_STM.1 FPT_STM.1 2 TOE FAU_GEN.2 FAU_GEN.1 FAU_GEN.1 FIA_UID.1 FIA_UID.2 *1 3 TOE FAU_SAR.1 FAU_GEN.1 FAU_GEN.1 4 TOE FAU_STG.1 FAU_GEN.1 FAU_GEN.1 5 TOE FAU_STG.3 FAU_STG.1 FAU_STG.1 6 TOE FAU_STG.4 FAU_STG.1 FAU_STG.1 7 TOE FCS_CKM.1 FCS_CKM.2 or FCS_COP.1 None *3 FCS_CKM.4 FCS_CKM.4 8 TOE FCS_CKM.4 FDP_ITC.1 or FDP_ITC.2 or FCS_CKM.1 FCS_CKM.1 9 TOE FDP_ACC.1 FDP_ACF.1 FDP_ACF.1 10 TOE FDP_ACF.1 FDP_ACC.1 FDP_ACC.1 FMT_MSA.3 FMT_MSA.3 11 TOE FDP_RIP.1 None - 12 TOE FIA_AFL.1 FIA_UAU.1 FIA_UAU.2 *2 13 TOE FIA_ATD.1a None - 14 TOE FIA_ATD.1b None - 15 TOE FIA_SOS.1a None - 16 TOE FIA_SOS.1b None - 17 TOE FIA_UAU.2 FIA_UID.1 FIA_UID.2 *1 18 TOE FIA_UID.2 None - 19 TOE FIA_USB.1a FIA_ATD.1 FIA_ATD.1a 20 TOE FIA_USB.1b FIA_ATD.1 FIA_ATD.1b 21 22 TOE FMT_MOF.1 FMT_SMF.1 FMT_SMF.1 FMT_SMR.1 FMT_SMR.1 23 23 TOE FMT_MSA.1 FDP_ACC.1 or FDP_IFC.1 FDP_ACC.1 FMT_SMF.1 FMT_SMF.1 FMT_SMR.1 FMT_SMR.1 24 24 TOE FMT_MSA.3 FMT_MSA.1 FMT_MSA.1 FMT_SMR.1 FMT_SMR.1 25 25 TOE FMT_MTD.1 FMT_SMF.1 FMT_SMF.1 FMT_SMR.1 FMT_SMR.1 26 TOE FMT_MTD.3 FMT_MTD.1 FMT_MTD.1 26 TOE FMT_SMF.1 None - 27 TOE FMT_SMR.1 FIA_UID.1 FIA_UID.2 *1 28 TOE FPT_STM.1 None - 29 TOE FTP_ITC.1 None - 30 TOE FTP_TRP.1 None - *1: Dependency is satisfied by FIA_UID.2 which is the upper hierarchy to FIA_UID.1. *2: Dependency is satisfied by FIA_UAU.2 which is the upper hierarchy to FIA_UAU.1. *3: Because the TOE is software, and encryption and decryption are fulfilled by hardware, there is no corresponding function requirement. HP XP7 Storage System Security Target V2.2 Page 55 Table 6-18 shows the rationale that the definition maintains consistency of function requirements in the same category for each TOE security function requirements. Table 6-18 Consistency between security function requirements No Category Security function requirements Rationale of consistency 1 Access control FDP_ACC.1 FDP_ACF.1 FDP_RIP.1 Access control is defined based on these function requirements. Because they require applying the same SFP to the same object and subject, there is no confliction or inconsistency, but the whole contents are consistent. 2 Management FMT_MOF.1 FMT_MSA.1 FMT_MSA.3 FMT_MTD.1 FMT_MTD.3 FMT_SMF.1 FMT_SMR.1 Security management is defined based on these function requirements. There is no confliction or inconsistency for target security attribute or action and the whole contents are consistent. 3 Identification and authentication FIA_AFL.1 FIA_ATD.1a FIA_ATD.1b FIA_SOS.1a FIA_SOS.1b FIA_UAU.2 FIA_UID.2 FIA_USB.1a FIA_USB.1b These function requirements realize the identification and authentication. As TSF, (1) Remote Web Console (storage management UI software) user ID and password, (2) fibre channel switch WWN and secret, and (3) host WWN are separately defined, and there is no confliction or inconsistency. The whole contents are consistent. 4 Audit FAU_GEN.1 FAU_GEN.2 FAU_SAR.1 FAU_STG.1 FAU_STG.3 FAU_STG.4 Audit log is defined based on the function requirements, and there is no confliction or inconsistency. The whole contents are consistent. 5 Encryption key management and operation FCS_CKM.1 FCS_CKM.4 These function requirements define operations of encryption key used to encrypt stored data, and there is no confliction or inconsistency. The whole contents are consistent. 6 Reliable path/channel FTP_ITC.1 FTP_TRP.1 There function requirements define communication paths and channels between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), and between SVP PC (Management maintenance IF PC) and external authentication server, and there is no confliction or inconsistency. The whole contents are consistent. 7 Complementary FPT_STM.1 This function requirement is to complement other function requirements. From the fact that FPT_STM.1 is requirement for time stamp of audit log, it is obvious that there is no confliction or inconsistency between HP XP7 Storage System Security Target V2.2 Page 56 No Category Security function requirements Rationale of consistency function requirements in this category and the whole contents are consistent. 8 Between categories #1 - #2 Because requirements for access control defines the control for user data in LU which is protection target property, and the requirement for management is to define the management TSF data, there is no confliction or inconsistency between them. #1 - #3 #2 - #3 There is no confliction or inconsistency between identification requirement and access control or management requirement. #1 - #4 #2 - #4 #3 - #4 They are to record audit for requirements of access control, management, identification and authentication, and there is no confliction or inconsistency. #1 - #5 #2 - #5 #3 - #5 #4 - #5 There is no confliction or inconsistency between requirements for access control, management, identification and authentication, and audit log. #1 - #6 #2 - #6 #3 - #6 #4 - #6 #5 - #6 There is no confliction or inconsistency between requirements for access control, management, identification and authentication, audit log, and encryption key management and operation. #1 - #7 #2 - #7 #3 - #7 #4 - #7 #5 - #7 #6 - #7 FPT_STM.1is to provide FAU_GEN.1 with time information and there is no confliction or inconsistency with other requirements. As stated below, mutual support is established by security function requirements which do not have interdependence. - For FIA_UID.2 and FIA_UAU.2, FMT_MOF.1 limits operations to start or stop the security function according to roles, and operations can be allowed only from Remote Web Console (storage management UI software). The security function cannot be started or stopped by any other method to prevent deactivation. As aforementioned, IT security requirements described in the ST establish the whole with internal consistency by mutual support in integrated manner. 6.3.3 Security requirement rationale Disk storage system including the TOE is installed in a secure area and does not expect other than attack path using LAN. As shown in Section 3.2, attacks from communication path between Remote Web Console (storage management UI software) or management PC and disk storage system, and between the disk storage system and external authentication server. The attacks do not require special knowledge, skill and tool. Beside, as installation of unauthorized software on the management PC where Remote Web Console (storage management UI software) works is prohibited, potential threat based on the detailed interface to the disk storage system is excluded from supposition. Evaluating [certain vulnerability] can achieve the balance against the expected threat. Even though the TOE has a function to encrypt user data stored in a disk drive using LSI embedded in HP XP7 Storage System Security Target V2.2 Page 57 DKA, implementation of encryption key is done by a reliable security administrator at the installation. For this, there is no security characteristic such that not to handle as confidential leads to vulnerability of TOE. The TOE is software which can ensure to be able to counter expected threats by implementation of security functions based on design documents and evaluation by testing, accordingly classifying it in EAL2 of evaluation assurance level is reasonable. Note that by the distribution procedure of TOE, security is maintained in TOE distribution for consumers shown as TOE consumers in TOE reference. In addition, it is important to address security vulnerability issues these days. This product takes charge of important part that manages disk storage system and is required to track security defects and take actions for vulnerability immediately. It is important to provide assurance for security defects to secure reassurance for users, and thus ALC_FLR.1 component is applied. HP XP7 Storage System Security Target V2.2 Page 58 7 TOE summary specification This chapter describes summary specification of security functions provided by the TOE. 7.1 TOE Security function Table 7-1 shows correspondence relation between TOE security functions and security function requirements (SFR). As shown here, security functions explained in this section meet all SFRs described in section 6.1. Table 7-1 Correspondence relation between TOE security functions and security function requirements TOE IT security function SF.LM SF.FCSP SF.SN SF.ROLE SF.HDD SF.AUDIT TOE security function requirements FAU_GEN.1 X FAU_GEN.2 X FAU_SAR.1 X FAU_STG.1 X FAU_STG.3 X FAU_STG.4 X FCS_CKM.1 X FCS_CKM.4 X FDP_ACC.1 X FDP_ACF.1 X FDP_RIP.1 X FIA_AFL.1 X FIA_ATD.1a X FIA_ATD.1b X FIA_SOS.1a X FIA_SOS.1b X FIA_UAU.2 X X FIA_UID.2 X X X FIA_USB.1a X HP XP7 Storage System Security Target V2.2 Page 59 TOE IT security function SF.LM SF.FCSP SF.SN SF.ROLE SF.HDD SF.AUDIT FIA_USB.1b X FMT_MOF.1 X FMT_MSA.1 X FMT_MSA.3 X FMT_MTD.1 X X FMT_MTD.3 X FMT_SMF.1 X FMT_SMR.1 X FPT_STM.1 X FTP_ITC.1 X FTP_TRP.1 X The following states each TOE security functions and the specific method to realize SFR corresponding to the security functions. 7.1.1 SF.LM The TOE is connected with a host via SAN environment. SAN is the dedicated network for disk storage system that connects hosts and disk storage systems via the fibre channel. The TOE performs access control by SF.LM while the host accesses LDEVs (logical volumes) in the disk storage system. [Satisfied Requirements] FIA_ATD.1a, IA_USB.1a, FIA_ATD.1b, FIA_USB.1b, FIA_UID.2, FDP_ACC.1, FDP_ACF.1, and FMT_MSA.3 The TOE maintains user group information (such as role and RSG number) and associates them with processing acting for Remote Web Console (storage management UI software) (FIA_ATD.1a and FIA_USB.1a). The TOE maintains the attribute information of host (such as WWN and LU number) and associates them with processing acting for the host (FIA_ATD.1b and FIA_USB.1b). The TOE identifies the host before an operation of security function related to access from host using host WWN of LU path information. this operates after identity authentication of fibre channel switch when fibre channel switch identity authentication is required. (FIA_UID.2). The TOE performs [LM access control SFP] when the processing acting for a host accesses an LDEV (logical volume) or the processing acting for Remote Web Console (storage management UI software) creates or delete the LDEV (logical volume). [LM access control SFP] consists of the following rules (FDP_ACC.1, FDP_ACF.1, and FMT_MSA.3) HP XP7 Storage System Security Target V2.2 Page 60  When WWN and LU number passed over to the processing acting for the host are consistent with LU path that is the security attribute of the corresponding object, the access to the LDEV (logical volume) is allowed while it is rejected if the LU path information is not consistent.  When the processing acting for Remote Web Console (storage management UI software) creates or deletes RSG, only the security administrator can create or delete the RSG according to [User group information of Remote Web Console (storage management UI software)] (such as role and RSG) passed over to the processing acting for Remote Web Console (storage management UI software).  When the processing acting for Remote Web Console (storage management UI software) creates or deletes LDEV (logical volume), according to [User group information of Remote Web Console (storage management UI software)] (such as role and RSG) passed over to the processing acting for Remote Web Console (storage management UI software), the storage administrator can create or delete LDEV (logical volume) in a resource group only when RSG number assigned to the user group where the storage resource administrator belongs matches with the RSG number of the LDEV (logical volume).  Condition when deleting LDEV (logical volume): Delete an LDEV (logical volume) when there is no LU path associated with the LDEV (logical volume).  When storage resource administrator creates LDEV (logical volume), a restrictive default value is given as the access attribute. It means that the access from the host is restricted because there is no LU path information at the LDEV (logical volume) creation. (FMT_MSA.3) 7.1.2 SF.FCSP The TOE executes identity authentication of fibre channel switch if the organization’s security policy requires. DH-CHAP with NULL DH Group authentication is used for this authentication. [Satisfied requirements] FIA_SOS.1b,FIA_UID.2, FIA_UAU.2 If fibre channel switch authentication is required, the TOE performs identity authentication when the cable connection of the fibre channel switch and TOE is detected. The TOE checks whether the fibre channel switch requires the authentication or not. When it requires the authentication, the TOE identifies and authenticates the fibre channel switch by using DH-CHAP with fibre channel switch port's WWN and secret (FIA_UID.2, FIA_UAU.2). The connection between the fibre channel switch and the disk storage system is allowed when a secret received from the host matches a secret that the TOE has (FIA_UAU.2). The TOE restrict the entry of secret used for fibre channel switch identity authentication by FC-SP to be at least 12 characters and no more than 32 characters consists of one-byte upper-case alphabet, one-byte lower-case alphabet, one-byte number, one-byte space and any of the following 12 symbols; .-+@_=:/[],~. (FIA_SOS.1b) 7.1.3 SF.SN [Satisfied requirements] FIA_AFL.1, FIA_SOS.1a, FIA_UID.2, FIA_UAU.2, FTP_TRP.1, and FTP_ITC.1 The TOE executes identity authentication at remote desktop connection to Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) using user ID and password before any operations of other security functions. If the identity authentication fails 3 times in a row, the identity authentication of the user is refused for one minute. (FIA_UID.2, FIA_UAU.2, and FIA_AFL.1) The TOE restricts the entry for password used for storage administrator or maintenance personnel authentication to be at least 6 characters and no more than 256 characters (127 characters for maintenance personnel password) consists of one-byte upper-case alphabet, one-byte lower-case alphabet, one-byte number, any of the following 32 symbols; !”#$%&’()*+,-./:;<=>?@[\]^_`{|}~. (FIA_SOS.1a) The TOE employs SVP PC (Management maintenance IF PC) internal authentication method for HP XP7 Storage System Security Target V2.2 Page 61 identity authentication of storage administrator and maintenance personnel. If the entered user ID does not exist in the TOE, external authentication server method is used. When identity authentication of storage administrator and maintenance personnel is executed by the external authentication server method, TOE starts communication between SVP PC (Management maintenance IF PC) and external authentication server using one of LDAPS, starttls, and RADIUS (authentication protocol is CHAP) and sends user ID and password of user account to be used for identification and authentication of storage administrator and maintenance personnel. Using LDAPS, starttls, and RADIUS (authentication protocol is CHAP) for the communication between the SVP PC (Management maintenance IF PC) and the external authentication server can prevent TSF data from being sniffed. (FTP_ITC.1) The TOE allows starting communication when storage administrator activates Remote Web Console (storage management UI software) on management PC. For the communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC), SSL is used to prevent the TSF data from being sniffed. (FTP_TRP.1) The SSL used for the communication between Remote Web Console (storage management UI software) and SVP PC (Management maintenance IF PC) supports [TLSv1.0]. Table 7-2 shows Encryption-relevant algorithm used by SSL. Table 7-2 Encryption-relevant algorithm used by SSL Standard Algorithm Key size (bit) Encryption operation How to use ANSI X9.30 Part1- 1997 DSA 1024 Authentication To be used as certificate to prove SVP PC (Management maintenance IF PC) against management PC (server authentication) RSA Security Inc. Public-Key Cryptography Standards(PKCS)#1 v2.1 RSA 512 or more Authentication Key exchange To be used at session key exchange. FIPS PUB 197 AES 256 128 Communication data encryption and decryption To select algorithm used for session key by hand- shake protocol in version of [TLSv1.0] FIPS PUB 46-3 3DES 168 FIPS PUB 180-2 SHA-256 256 Hash To be used at hash value calculation IEEE P1363 G.7 SHA1PRNG 64 Random digit To be used as key information at session key creation 7.1.4 SF.ROLE [Satisfied requirements] FMT_MSA.1, FMT_MTD.1, FMT_SMF.1, FMT_SMR.1, and FMT_MOF.1 The TOE executes [LM access control SFP] for the access from the processing acting for Remote Web Console (storage management UI software) to SVP PC (Management maintenance IF PC). [LM access control SFP] consists of the following rules.  [LM access control SFP] restricts operations to create, delete and refer LU path information (host WWN, LU number, LDEV (logical volume) number) based on roles and RSG numbers. (FMT_MSA.1). Table 6-9 shows operations each role can perform for the LU path information. HP XP7 Storage System Security Target V2.2 Page 62  [LM access control SFP] restrict operations to add, delete and refer user group information (role and RSG number) based on roles (FMT_MSA.1). Table 6-10 shows operations each role can perform for the user group information. The TOE manages the following TSF data. (FMT_MTD.1)  The account management function of Remote Web Console (storage management UI software) manages user ID, password, role and RSG number of storage administrator and maintenance personnel. Table 6-10 and Table 6-11 show management operations each role can perform.  The FC-SP function of Remote Web Console (storage management UI software) manages WWN and secret which are authentication data of fibre channel switch. Table 6-12 shows management operations each role can perform.  The stored data encryption function of Remote Web Console (storage management UI software) manages encryption key used for user data encryption. Table 6-13 shows management operations each role can perform.  The access control function of Remote Web Console (storage management UI software) manages user authentication method. Table 6-14 shows management operations each role can perform. The TOE has the following management functions (FMT_SMF.1).  The function to manage user account of Remote Web Console (storage management UI software), role of user account, fibre channel switch authentication information, WWN authentication information, LU path information, and user group information.  The function to manage operations by storage administrator and maintenance personnel.  The function to manage functions for stored data encryption, FC-SP authentication function, shredding function, management function for starting or stopping connection to external authentication server. The TOE restricts an operation to set whether the fibre channel switch that is connected with the host is authenticated by FC-SP based on roles. Table 6-8 shows operations each role can perform (FMT_MOF.1). The TOE restricts setting operation to use or not to use the stored data encryption function based on roles. Table 6-8 shows operations each role can perform (FMT_MOF.1). The TOE restricts setting operation to user or not to use connecting function of external authentication server (including connection setting parameter) based on roles. Table 6-8 shows operations each role can perform (FMT_MOF.1). The TOE restricts operations to start and stop shredding function based on roles. Table 6-8 shows operations each role can perform (FMT_MOF.1). The TOE maintains and associate roles (security administrator, storage resource administrator, audit log administrator, maintenance personnel, and storage user). (FMT_SMR.1) 7.1.5 SF.HDD [Satisfied requirements] FCS_CKM.1, FCS_CKM.4, FMT_MTD.1, FMT_MTD.3, and FDP_RIP.1 The TOE encrypts user data when storing it in a disk drive. For encryption and decryption, LSI embedded in DKA is used. The TOE creates encryption key for data encryption. Table 6-3 shows the algorithm for encryption key generation and Table 6-4 shows method to remove encryption key (FCS_CKM.1, FCS_CKM.4). The TOE limits administrators who can perform operations for encryption key used for data encryption. Only security administrator can create, delete, backup (inquiry) and restore (inquiry and modification) the encryption keys (FMT_MTD.1). The TOE can make backup of encryption key for data encryption in management PC. It also can restore the backup encryption key from the management PC to disk storage system. At the restoring, a hash value set in the backup data at the backup is verifies with a hash value of data to be restored. Only when the hash HP XP7 Storage System Security Target V2.2 Page 63 values are consistent, the encryption key can be restored. As the hash value contains serial number of the disk storage system, the encryption key can be restored only in the backed up disk storage system. (FMT_MTD.3) The TOE shreds user data in LDEV (logical volume) which becomes disuse. (FDP_RIP.1) 7.1.6 SF.AUDIT [Satisfied requirements] FAU_GEN.1, FAU_GEN.2, FPT_STM.1, FAU_SAR.1, FAU_STG.1, FAU_STG.3 and FAU_STG.4 The TOE has the following audit functions.  When an audit issue related to the security function in the TOE occurs, an audit log is generated. The user ID of user account that causes each audit issue is added to the audit log. In addition, for the date used when the audit log is generated, the time managed by OS on SVP PC (Management maintenance IF PC) is used. Table 6-2 describes the audit information.  There is no role which can modify and delete audit logs.  Up to 250,000 lines audit logs can be created. When the number of audit logs exceeds the maximum, the oldest audit log is erased by returning to the line where the storing starts (wraparound method). When the number of audit logs goes over 175,000, a warning to indicate the exceedance is displayed on Remote Web Console (storage management UI software) window to persuade audit administrator to download the audit logs. If the audit logs are downloaded, the number of lines is reset and audit log starts at the first line.  Only audit log administrator can download audit logs.  Starting and ending audit function works in conjunction with TOE activation and termination. The audit logs the TOE obtains consists of basic information and detailed information. Table 7-3 and Table 7-4 show contents of output basic information and detailed information respectively. Table 7-3 Output content of basic information No Item Description 1 Date Date when issue occurs 2 Time Time when issue occurs 3 Time zone Time difference with GMT (Greenwich Mean Time) 4 User ID Remote Web Console (storage management UI software) user ID 5 Function name Character string indicates function which executes setting operation Function names Name of function for identity authentication of storage administrator and maintenance personnel Name of function to create, change and delete user account, to change password, and to change user group. Name of function to create and delete LU path information, to create, change and delete WWN and secret of fibre channel switch, and to change setting for fibre channel switch authentication by FC-SP. HP XP7 Storage System Security Target V2.2 Page 64 No Item Description Name of function for fibre channel switch authentication by FC-SP. Name of function to enable and disable data encryption, to create, delete, backup and restore encryption keys. Name of function for shredding 6 Operation name or issue name Abbreviation of operation name of each function Operation names Identity authentication of storage administrator and maintenance personnel User account creation User account change User account deletion User account password change Role addition to user group Role deletion from user group RSG number addition to user group RSG number deletion from user group Lu path information creation LU path information deletion Fibre channel switch WWN and secret creation Fibre channel switch WWN and secrete change Fibre channel switch WWN and secret deletion Setting change for host authentication by FC-SP Fibre channel switch authentication by FC-SP Setting to enable/disable data encryption Generation of encryption key for data encryption Deletion of encryption key for data encryption Backup of encryption key for data encryption Restoring encryption key for data encryption Starting shredding HP XP7 Storage System Security Target V2.2 Page 65 No Item Description Stopping shredding 7 Parameter Parameter for executed setting operation 8 Operation result Operation result 9 Identity information of source host IP address of management PC or maintenance PC In case of fibre channel switch authentication by FC-SP, fibre channel switch WWN is output. 10 Serial number of log information Serial number of log information stored HP XP7 Storage System Security Target V2.2 Page 66 Table 7-4 Output content of detailed information No Audit issue Detailed information 1 Identity authentication of storage administrator  None 2 Identity authentication of maintenance personnel  None 3 Creation, modification, deletion of user account of storage administrator and maintenance personnel  User ID of operation target, enable/disable setting information, authentication method, user group name, operation result (success or failure) 4 Password change of user account of storage administrator and maintenance personnel  User ID of operation target, operation result (success or failure) 5 Change of user group where storage administrator and maintenance personnel belong to  User ID of operation target, user group name, role, RSG number, operation result (success or failure) 6 Creation and deletion of LU path information  Port number, host WWN, LU number, LDEV (logical volume) number 7 Creation, modification, deletion of fibre channel switch WWN and secret  Port number, fibre channel switch WWN, the number of ports 8 Setting change of fibre channel switch authentication by FC-SP  Port number, port WWN, whether to execute authentication, operation (change), the number of ports 9 Fibre channel switch authentication by FC-SP  None 10 Setting to enable/disable data encryption  Parity group number, setting to enable/disable encryption, operated encryption key number, the number of setting parity group 11 Generation, deletion, backup, and restoring of encryption key for data encryption  Encryption key number, the number of operated encryption keys 12 Start or stop shredding  Written data , the number of writing, target LDEV (logical volume) number, the number of target LDEVs (logical volumes), execution order or shredding processing HP XP7 Storage System Security Target V2.2 Page 67 8 Reference  Common Criteria for Information Technology Security Evaluation Part1: Introduction and general model Version 3.1 Revision 4 CCMB-2012-09-001  Common Criteria for Information Technology Security Evaluation Part2: Security functional components Version 3.1 Revision 4 CCMB-2012-09-002  Common Criteria for Information Technology Security Evaluation Part3: Security assurance components Version 3.1 Revision 4 CCMB-2012-09-003  Common Methodology for Information Technology Security Evaluation Evaluation methodology Version 3.1 Revision 4 CCMB-2012-09-004  Common Criteria for Information Technology Security Evaluation Part 1: Introduction and general model, September 2012, Version 3.1, Revision 4 Final CCMB-2012-09-001, September 2012, Japanese translated version 1.0, November 2012, Information-Technology Promotion Agency, Japan  Common Criteria for Information Technology Security Evaluation Part 2: Security functional requirements, September 2012, Version3.1, Revision 4 Final CCMB-2012-09-002, Japanese translated version 1.0, November 2012 Final Information-Technology Promotion Agency, Japan Information-Technology Promotion Agency, Japan  Common Criteria for Information Technology Security Evaluation Part 3: Security assurance requirements, September 2012, Version 3.1, Revision 3 Final CCMB-2012-09-003 Japanese translated version 1.0 Final November 2012, Information-Technology Promotion Agency, Japan  Common Methodology for Information Technology Security Evaluation Evaluation methodology September 2012, Version3.1 Revision 4, Final CCMB-2012-09-004 Japanese translated version 1.0 Final November 2012 Information-Technology Promotion Agency, Japan HP XP7 Storage System Security Target V2.2 Page 68 8.1.1 Terms and definitions For CC terms used commonly, see CC Par1 Section 4. 8.1.1.1 Glossary for ST Terms Definition Disk subsystem Disk storage system, HP XP7 Storage System Redundant Array of Independent Disks (RAID) A technology which can recover damaged data by spreading or duplicating to multiple disk drives, improve the performance, and keep redundancy of data. There are RAID0 (data striping), RAID 1 (disk mirroring) and RAID5 (data striping with distributed parity added) as commonly used raid types. Remote Web Console The program which provides GUI for disk storage system setting. It consists of Flex application and Java applet, works on SVP PC (Management maintenance IF PC) and management PC. It is used by storage administrator and maintenance personnel. Parity group A group of disk drives to realize RAID system (see above). A parity group consists of multiple disk drives where user data and parity information are stored. The user data can be accessed even if one or more drive in the group becomes unavailable. SAN Abbreviation for Storage Area Network. It is a network dedicated to storage that connects a disk storage system and a host computer by using a fibre channel. High-speed/Highly-reliable data communications are available by fibre channels. Fibre channel High speed network technology to build Storage Area Network (SAN). Fibre channel switch A switch to connect each device of fibre channel interface. Using the fibre channel switch enables to build SAN (Storage Area Network) by connecting multiple hosts and disk storage systems in high speed. LDEV (Logical volume) Abbreviation of logical device and a unit of volume created in a user area in disk storage system. It is also called as logical volume. LDEV (Logical volume) number Unique number assigned to logical device at creation. Logical unit (LU) The LDEV (logical device) used from a host of Open system is called LU. On the Open system fibre channel interface, access to LU mapped with one or more LDEV (logical device) is enabled. LU path Data input/output channel connecting Open system host and LU. LU number (LUN) LDEV (logical device) which is associated with fibre channel port and accessible from host. Or it is an address allocated to volume for Open system. Port The end of fibre channel. Each port is identified by port number. Fibre Channel Security Protocol (FC-SP) A protocol to execute authentication each other at communication between host and fibre channel switch and fibre channel switch and disk storage system. DH- CHAP with NULL DH Group authentication is used. HP XP7 Storage System Security Target V2.2 Page 69 Terms Definition Connection setting parameter for external authentication server A parameter to be set in SVP PC (Management maintenance IF PC) for identification and authentication by using external authentication server. It contains the following information. Type of external authentication server (LDAP, RADIUS), address of external authentication server, certificate of external authentication server, protocol (LDAPS, starttls, CHAP), and port number and so on. starttls A protocol to encrypt TCP session connecting with LDAP. RADIUS A protocol to realize authentication and accounting. CHAP A protocol to encrypt password to be sent from client to server at authentication. DH-CHAP A protocol used for FC-SP. It uses CHAP protocol for key exchange. DKC810I Model name of HP XP7 Storage System for overseas. 8.1.1.2 Abbreviation In this document, the following abbreviations are used. CACHE CACHE memory CC Common Criteria CHA Channel Adapter CHAP Challenge Handshake Authentication Protocol DH-CHAP Diffie Hellman - Challenge Handshake Authentication Protocol DKA Disk Adapter DKC Disk Controller EAL Evaluation Assurance Level FC-SP Fibre Channel Security Protocol HDD Hard disk drive JRE Java Runtime Environment LAN Local Area Network LDAP Lightweight Directory Access Protocol LDAPS LDAP over TLS LDEV Logical Device LSI Large Scale Integration LU Logical unit LUN Logical Unit Number HP XP7 Storage System Security Target V2.2 Page 70 PC Personal Computer PP Protection Profile RADIUS Remote Authentication Dial In User Service RAID Redundant Array of Independent Disks SAN Storage Area Network SF Security Function SFP Security Function Policy SSL Secure Sockets Layer ST Security Target SVP Service Processor TLS Transport Layer Security TOE Target of Evaluation TSF TOE Security Functions XP7 Seventh Generation of HPE XP Storage System WWN World Wide Name