FIPS 140-2 Security Policy LogRhythm 6.0.4 Log Manager LogRhythm 3195 Sterling Circle, Suite 100 Boulder CO, 80301 USA September 17, 2012 Document Version 1.0 Module Version 6.0.4 Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 1 of 23 © Copyright 2012 LogRhythm, Inc. All rights reserved This document may be reproduced only in its original entirety without revision. Warranty The information contained in this document is subject to change without notice. LogRhythm, Inc. makes no warranty of any kind with respect to this information. LogRhythm, Inc. specifically disclaims the implied warranty of the merchantability and fitness for a particular purpose. LogRhythm, Inc. shall not be liable for any direct, indirect, incidental, consequential, or other damage alleged in connection with the furnishing or use of this information. Trademark LogRhythm® is a trademark of LogRhythm, Inc. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 2 of 23 Table of Contents 1.  Introduction ........................................................................................................................ 4  2.  Overview ............................................................................................................................. 5  2.1.  Ports and Interfaces ...................................................................................................... 7  2.2.  Modes of Operation...................................................................................................... 8  2.3.  Module Validation Level .............................................................................................. 8  3.  Roles .................................................................................................................................. 10  4.  Services .............................................................................................................................. 11  4.1.  User Services ................................................................................................................ 11  4.2.  Crypto Officer Services .............................................................................................. 12  5.  Policies ............................................................................................................................... 14  5.1.  Security Rules ............................................................................................................... 14  5.2.  Identification and Authentication Policy ................................................................. 15  5.3.  Access Control Policy and SRDIs ............................................................................ 15  5.4.  Physical Security .......................................................................................................... 18  6.  Crypto Officer Guidance ................................................................................................ 19  6.1.  Secure Operation Initialization Rules ....................................................................... 19  6.2.  Approved Mode .......................................................................................................... 19  7.  Mitigation of Other Attacks ........................................................................................... 21  8.  Terminology and Acronyms ........................................................................................... 22  9.  References ......................................................................................................................... 23  Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 3 of 23 1. Introduction LogRhythm 6.0.4 is an integrated log management and security information event management (SIEM) solution. It is a distributed system containing several cryptographic modules, which support secure communication between components. A LogRhythm deployment is made up of System Monitor Agents, Log Managers, Advanced Intelligence (AI) Engine Servers, Event Manager, and Consoles. Each System Monitor Agent collects log data from network sources. Each Log Manager aggregates log data from System Monitor Agents, extracts metadata from the logs, and analyzes content of logs and metadata. A Log Manager may forward log metadata to an AI Engine Server and may forward significant events to Event Manager. An AI Engine Server analyzes log metadata for complex events, which it may forward to Event Manager. Event Manager analyzes events and provides notification and reporting. LogRhythm Console provides a graphical user interface (GUI) to view log messages, events, and alerts. Console also is used to manage LogRhythm deployments. LogRhythm relies on Microsoft SQL Server. LogRhythm stores log data in SQL Server databases on Log Manager and Event Manager. It stores configuration information in SQL Server databases on Event Manager. System Monitor Agent, Log Manager, AI Engine Server, Event Manager, and Console each include a cryptographic module. This document describes the security policy for the LogRhythm 6.0.4 Log Manager cryptographic module. It covers the secure operation of the Log Manager cryptographic module including initialization, roles, and responsibilities for operating the product in a secure, FIPS-compliant manner. This module is validated at Security Level 1 as a multi-chip standalone module. The module relies on the Microsoft Windows Server 2008 R2 Cryptographic Primitives Library (bcryptprimitives.dll) (certificate #1336) cryptographic module. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 4 of 23 2. Overview The LogRhythm 6.0.4 Log Manager cryptographic module provides cryptographic services to a Log Manager. In particular, these services support secure communication with other LogRhythm components (System Monitor Agents and AI Engine Servers) and SQL Server databases. A Log Manager is a server running the LogRhythm Mediator Server service and Microsoft SQL Server 2008 R2. The Mediator Server service processes log messages. The Log Manager SQL Server stores log messages as well as metadata the Mediator extracts from logs. Log Manager runs on a general purpose computer (GPC). The Log Manager operating system is Windows Server 2008 R2 SP1. The Log Manager cryptographic module was tested on an x64 processor. The Log Manager cryptographic module is a software module. Its physical boundary is the enclosure of the standalone GPC on which the Log Manager runs. The software within the logical cryptographic boundary consists of all software assemblies for the Mediator Server service. The Mediator Server software consists of the following files in “C:\Program Files\LogRhythm\LogRhythm Log Manager”: • lrgeoip.dll • lrhmcommgr.dll • nsoftware.IPWorks.dll • nsoftware.IPWorksSSH.dll • nsoftware.IPWorksSSL.dll • nsoftware.IPWorksSSNMP.dll • nsoftware.System.dll • Xceed.Compression.dll • Xceed.Compression.Formats.dll • Xceed.FileSystem.dll • Xceed.GZip.dll • Xceed.Tar.dll • sccscomn.dll • scmedeng.dll • scmedsvr.exe • scmedsvr.hsh • scmessage.dll • scmpeeng.dll • scopsec.dll • scshared.dll • scvbcomn.dll Other files and subdirectories of “C:\Program Files\LogRhythm\LogRhythm Log Manager” are outside the logical cryptographic boundary. The excluded files are: Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 5 of 23 • EULA.rtf • lrconfig.exe • lrmedperf.dll • scmedsvr.exe.config • sccsuicomn.dll • Infragistics2.Shared.v9.2.dll • Infragistics2.Win.Misc.v9.2.dll • Infragistics2.Win.UltraWinDataSource.v9.2.dll • Infragistics2.Win.UltraWinEditors.v9.2.dll • Infragistics2.Win.UltraWinGrid.v9.2.dll • Infragistics2.Win.UltraWinTabControl.v9.2.dll • Infragistics2.Win.UltraWinToolbars.v9.2.dll • Infragistics2.Win.v9.2.dll The excluded directories (along with their subdirectories) are: • config • logs • state The Log Manager cryptographic module relies on a cryptographic service provider from the operating system, namely BCRYPTPRIMITIVES.DLL. The cryptographic service provider from the operating system is the following FIPS 140-2 validated cryptographic module: Microsoft Windows Server 2008 R2 Cryptographic Primitives Library Certificate #1336 Figure 1 Cryptographic Module Boundaries illustrates the relationship between the Log Manager cryptographic module and the Log Manager as a whole. It shows physical and logical cryptographic boundaries of the module. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 6 of 23 Physical Boundary (General Purpose Computer) Microsoft Windows Server 2008 R2 Operating System Logical Cryptographic Boundary Log Manager SQL Server Event Manager SQL Server LogRhythm Mediator Server AI Engine Server System Monitor System Monitor Agents Agent bcrypt- Windows File primitives.DLL System Figure 1 Cryptographic Module Boundaries 2.1. Ports and Interfaces The Log Manager cryptographic module ports consist of one or more network interface cards (NIC) on the Log Manager GPC. NIC are RJ45 Ethernet adapters, which are connected to IP network(s). All data enters the Log Manager Server physically through the NIC and logically through the GPC’s network driver interface to the module. Hence, the NIC correspond to the data input, data output, control input, and status output interfaces defined in [FIPS 140- 2]. Although located on the same GPC as the cryptographic module, the Windows operating system file system and Windows Event Log are outside the logical cryptographic boundary. Hence, the file system and Windows Event Log also present data input, data output, control input, and status output logical interfaces. Data input to Log Manager is made up of log messages. System Monitor Agents collect log messages and send them to the Log Manager over a TLS socket connection. Log Manager can archive log data to the Windows file system. Data output from Log Manager comprises log data sent to AI Engine Server and to SQL Servers as well as data written to the local file system. Log Manager sends log data to the AI Engine Server over a TLS socket connection. Log Manager sends raw log data to the Log Manager SQL Server and event data to the Event Manager SQL Server using TLS connections. Log data output to the local file system consists of archive plain text log data, suspense log files, and unprocessed logs. The Console provides a graphical interface to configure the Log Manager cryptographic module, Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 7 of 23 but configuration information reaches the module indirectly through the Event Manager SQL Server. (The Console is a separate and distinct component of a LogRhythm deployment.) The Console connects to Event Manager SQL Server and stores configurations in a database. The Mediator service retrieves the configuration information from the database. Hence, the TLS connection to the Event Manager SQL Server serves as the control input interface. The status output interface comprises the TLS connection to the Event Manager SQL Server, the local file system, and the Windows Event Log. The Log Manager sends status information to Event Manager SQL Server using TLS, which makes it available to the Console. The Log Manager writes status information to log files in the file system and the Windows Event Log. 2.2. Modes of Operation The Log Manager cryptographic module has two modes of operation: Approved and non-Approved. Approved mode is a FIPS-compliant mode of operation. The module provides the cryptographic functions listed in Table 1 and Table 2 below. While the functions in Table 2 are not FIPS Approved, they are allowed in Approved mode of operation. Table 1 FIPS Approved Cryptographic Functions Label Approved Cryptographic Function Standard AES Advanced Encryption Algorithm FIPS 197 HMAC-SHA-1 Keyed-Hash Message Authentication FIPS 198 Code SHA-1 DRBG Deterministic Random Bit Generator SP 800-90 RNG Random Number Generator FIPS 186-2 x-General Purpose RSA Rivest Shamir Adleman Signature FIPS 186-2 (PKCS#1 v2.1 and Algorithm ANSI X9.31-1998) SHA-1 Secure Hash Algorithm FIPS 180-3 Table 2 FIPS Non-Approved Cryptographic Functions Label Non-Approved Cryptographic Function MD5 Message-Digest Algorithm 5 HMAC-MD5 Keyed Hash Message Authentication Code MD5 The Log Manager cryptographic module does not implement a bypass capability. 2.3. Module Validation Level The module meets an overall FIPS 140-2 compliance of Security Level 1. Table 3 LogRhythm 6.0.4 Log Manager Security Levels Security Requirements Section Level Cryptographic Module Specification 1 Cryptographic Module Ports and Interfaces 1 Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 8 of 23 Roles, Services, and Authentication 1 Finite State Model 1 Physical Security N/A Cryptographic Key Management 1 Electromagnetic Interference/Electromagnetic Compatibility (EMI/EMC) 1 Self-Tests 1 Design Assurance 1 Mitigation of Other Attacks N/A Operational Environment 1 Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 9 of 23 3. Roles In Approved mode, Log Manager cryptographic module supports two roles: User and Crypto Officer. Roles are assumed implicitly, since the module does not provide user authentication. 1. User Role: Operators with the User role are other components of a LogRhythm deployment configured to interact with the Log Manager. These are: System Monitor Agents, AI Engine Server, Log Manager SQL Server, and Event Manager SQL Server. 2. Crypto Officer Role: Operators with the Crypto Officer role have direct access to the cryptographic module. Responsibilities of the Crypto Officer role include initial configuration, on-demand self test, and status review. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 10 of 23 4. Services In Approved mode, the services available to an operator depend on the operator’s role. Roles are assumed implicitly. 4.1. User Services 4.1.1. Agent Write Log Data This service provides a protected communication channel to transfer log data collected by the System Monitor Agent to a Log Manager. The channel is established in accordance with the Log Manager configuration. (See service Write Log Manager Configuration.) The connection uses TLS 1.0 with cipher suite based on RSA key agreement with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS_RSA_WITH_AES- _128_CBC_SHA). 4.1.2. Read Agent Configuration This service provides a protected communication channel to transfer configuration data from a Log Manager to the System Monitor Agent. The channel is established in accordance with the Log Manager configuration. (See service Write Log Manager Configuration.) The connection uses TLS 1.0 with cipher suite based on RSA key agreement with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS_RSA_WITH_AES- _128_CBC_SHA). 4.1.1. AI Engine Server Read Log Data This service provides a protected communication channel to transfer log data from Log Manager to an AI Engine Server. The channel is established in accordance with the Log Manager configuration set. (See service Write Log Manager Configuration.) The connection uses TLS 1.0 with cipher suite based on RSA key agreement with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS_RSA_WITH_AES_128_CBC- _SHA). 4.1.2. Event Manager Read Log Data This service provides a protected communication channel to transfer log data from the Log Manager to Event Manager SQL Server. An operator in the Crypto Officer role sets up communication between the Log Manager and the Event Manager SQL Server. (See service Configure Log Manager Communication.) The channel is established in accordance with the Log Manager configuration. (See service Write Log Manager Configuration.) The connection uses TLS 1.0 with cipher suite based on RSA key agreement with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS_RSA_WITH_AES_128_CBC- _SHA). 4.1.3. Log Manager Read/Write Log Data The Mediator Server service stores log data and metadata in Log Manager SQL Server databases. This service provides a protected communication channel to transfer log data between the Log Manager and Log Manager SQL Server. The channel is established in accordance with the Log Manager configuration. (See service Write Log Manager Configuration.) The connection uses TLS 1.0 with cipher suite based on RSA key agreement Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 11 of 23 with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS- _RSA_WITH_AES_128_CBC_SHA). 4.1.4. Write Log Manager Configuration This service provides a protected communication channel to transfer configuration information from the Event Manager SQL Server to the Log Manager. An operator in the Crypto Officer role sets up communication between the Log Manager and the Event Manager SQL Server. (See service Configure Log Manager Communication.) After set up, an operator in the User role (that is, the Event Manager SQL Server) uses this service to propagate configuration changes to the Log Manager. The connection uses TLS 1.0 with cipher suite based on RSA key agreement with AES 128-bit encryption for confidentiality and SHA-1 for integrity protection (TLS_RSA_WITH_AES_128_CBC_SHA). Note that a Log Manager’s configuration originates from the Console. The Console transfers the configuration information to the Event Manager SQL Server. 4.1.5. Seal Archive File The Log Manager can archive log data to a file in the file system. In a process called sealing, the Log Manager computes and stores a cryptographic hash of an archive file. Log Manager uses SHA-1 for the cryptographic hash. It stores the hash value in an Event Manager SQL Server database. The Log Manager performs the Archive Sealing service in accordance with the Log Manager configuration. (See service Write Log Manager Configuration.) 4.2. Crypto Officer Services 4.2.1. Configure Log Manager Communication After the Log Manager has been installed, this service provides an operator in the Crypto Officer role with the capability to configure the Log Manager to communicate with Event Manager. This consists of setting the IP address for the Event Manager. Log Manager authenticates the AI Engine Server for TLS sessions. Optionally, a Crypto Officer may pre- place a user-provided certificate on the Log Manager for mutual authentication of TLS sessions with the AI Engine Server. The Event Manager SQL Server provides all other configuration information. (See service Write Log Manager Configuration.) 4.2.2. Perform Self-Tests Log Manager module performs a (start-up) power-on software integrity test to verify the integrity of the component software. If the module fails a software integrity test, it reports status indicating which failure occurred and transitions to an error state, in which the module ceases to continue processing. The Log Manager will not be able to receive logs and cannot output data to SQL Server databases when it is in an error state. An operator can run the software integrity test on demand by stopping and starting the module. The system integrity test will always run at startup regardless of FIPS Mode. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 12 of 23 4.2.3. Show FIPS Status Log Manager provides status information about the cryptographic module mode of operation through Log Manager log file. When the Log Manager component is started, the Mediator service writes a message to the log indicating the mode of operation, for example: Mediator running in FIPS mode: YES To determine whether Log Manager is in Approved mode, an operator in the Crypto Officer role checks the Mediator Server service log, scmedsvr.log. Similarly, LogRhythm provides information about communication encryption through Log Manager log files. When the Log Manager component is started, the Mediator service writes a message to the log file indicating whether encryption is being used, for example. Mediator using encryption for SQL Server communications: YES To determine whether Log Manager is encrypting communication, check the Mediator Server service log, scmedsvr.log. The Log Manager cryptographic module must be encrypting communication in order to be considered operating in Approved mode. The Log Manager cryptographic module may enter an error state and stop (for example, when a power-up integrity test fails). An operator in the Crypto Officer role checks the Mediator log file (scmedsvr.log) and the Windows Event Log for error messages to determine the cause of the cryptographic module’s error state. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 13 of 23 5. Policies 5.1. Security Rules In order to operate the Log Manager cryptographic module securely, the operator should be aware of the security rules enforced by the module. Operators should adhere to rules required for physical security of the module and for secure operation. The Log Manager cryptographic module enforces the following security rules when operating in Approved mode (its FIPS compliant mode of operation). These rules include both security rules that result from the security requirements of FIPS 140-2 and security rules that LogRhythm has imposed. 1. Approved mode is supported on Window Server 2008 R2 SP1 in a single-user environment. 2. The Log Manager cryptographic module operates in Approved mode only when used with the FIPS approved version of Microsoft Windows Server 2008 R2 Cryptographic Primitives Library (bcryptprimitives.dll) validated to FIPS 140-2 under certificate #1336 operating in FIPS mode. 3. The Log Manager cryptographic module is in Approved mode only when it operates in the environment of BCRYPTPRIMITIVES, namely: i) FIPS approved security functions are used and Windows is booted normally, meaning Debug mode is disabled and Driver Signing enforcement is enabled; ii) One of the following DWORD registry values is set to 1: (1) HKLM\SYSTEM\CurrentControlSet\Control\Lsa\FIPSAlgorithmPolicy\- Enabled (2) HKLM\SYSTEM\CurrentControlSet\Policies\Microsoft\Cryptography\- Configuration\SelfTestAlgorithms 4. When installed on a system where FIPS is enabled, Log Manager runs in a FIPS- compliant mode of operation. When communicating with other LogRhythm components, the Log Manager encrypts communication including: • Module to System Monitor Agent • Module to Log Manager SQL Server • Module to Event Manager SQL Server • Module to AI Engine Server 5. The Log Manager cryptographic module operates in Approved mode only when using pre-placed, user-provided certificates for TLS communication with the Mediator service. Dynamically-generated, self-signed certificate for the Mediator Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 14 of 23 service shall not be used in Approved mode. See [Help] section “Configure LogRhythm to use Specific User Provided TLS Certificates” for detailed configuration instructions. [Help] section “Common Access Card (CAC) Use” covers operational requirements for user-provided certificates (for example, extended key usage values). 6. In accordance with [SP 800-57 P3] and [SP 800-131A] (key length transition recommendations), the size of TLS public/private keys provided for Log Manager, Windows System Monitor Agents, AI Engine Server, and SQL Servers shall be at least 1024 bits through 2013. After 2013, the size of TLS public/private keys provided for Log Manager, Windows System Monitor Agents, AI Engine Server, and SQL Servers shall be at least 2048 bits. 7. In accordance with [SP 800-57 P3] (key length transition recommendations), the size of public/private keys for the CA issuing Log Manager, Windows System Monitor Agents, AI Engine Server, and SQL Server certificates shall be at least 2048 bits. 8. The module does not support unidirectional System Monitor Agents in Approved mode. 5.2. Identification and Authentication Policy The Log Manager cryptographic module does not provide operator authentication. Roles are assumed implicitly. Operating system and SQL Server authentication mechanisms were not within the scope of the validation. 5.3. Access Control Policy and SRDIs This section specifies the LogRhythm Log Manager’s Security Relevant Data Items (SRDI) as well as the access control policy enforced by the LogRhythm. 5.3.1. Cryptographic Keys, CSPs, and SRDIs While operating in a FIPS-compliant manner, the LogRhythm Log Manager contains the following security relevant data items: Zeroization ID Key type Size Description Origin Storage Method Secret and Private Keys  TLS private  RSA  1024‐bits,  Used for TLS session  N/A (entered  Volatile  As per  key  1536‐bits,  establishment  through Windows  memory and  guidance for  2048‐bits,  operating system)  the  bound module   3072‐bits,  operating  [Win BCRYPT]  4096‐bits  system  and Windows  operating  system  guidance  Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 15 of 23 Zeroization ID Key type Size Description Origin Storage Method TLS session  AES  128 bits  Used for TLS  Generated through  Plaintext in  As per  encryption  communication  TLS handshake  volatile  guidance for  keys  memory  bound module   [Win BCRYPT]  TLS session  HMAC‐ 160 bits  Used for TLS  Generated through  Plaintext in  As per  integrity  SHA1  communication  TLS handshake  volatile  guidance for  keys  memory  bound module   [Win BCRYPT]  Public  Keys  TLS public  RSA  1024‐bits,  Used for TLS  N/A (entered  Volatile  As per  key  1536‐bits,  communication with  through Windows  memory and  guidance for  2048‐bits,  AI Engine Server,  operating system)  the  bound module   3072‐bits,  Windows System  operating  [Win BCRYPT]  4096‐bits  Monitor Agents, and  system  and Windows  SQL Servers  operating  system  guidance  Windows  RSA  1024‐bits,  Used for TLS  N/A (entered  Volatile  As per  System  1536‐bits,  communication with  through TLS  memory  guidance for  Monitor  2048‐bits,  Windows System  handshake)  bound module   Agent  3072‐bits,  Monitor Agents  [Win BCRYPT]  public keys  4096‐bits  AI Engine  RSA  1024‐bits,  Used for TLS  N/A (entered  Volatile  As per  Server  1536‐bits,  communication with  through TLS  memory  guidance for  public key  2048‐bits,  AI Engine Server  handshake)  bound module   3072‐bits,  [Win BCRYPT]  4096‐bits  CA public  RSA  1024‐bits,  Used for TLS  N/A (entered  Volatile  As per  key  1536‐bits,  communication with  through Windows  memory and  guidance for  2048‐bits,  AI Engine Server,  operating system)  the  bound module   3072‐bits,  Windows System  operating  [Win BCRYPT]  4096‐bits  Monitor Agents, and  system  and Windows  SQL Servers  operating  system  guidance  SQL Server  RSA  1024‐bits,  Used for TLS  N/A (entered  Volatile  As per  public keys  1536‐bits,  communication with  through TLS  memory  guidance for  2048‐bits,  Log Manager SQL  handshake)  bound module   3072‐bits,  Server and Event  [Win BCRYPT]  4096‐bits  Manager SQL Server  Other Keys/CSPs    HMAC‐ 160 bits  Used to verify integrity  Preplaced in module  Obscured in  Re‐initialize  Power‐up  SHA1  of cryptographic  by LogRhythm  volatile  module  integrity  module image on  memory  Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 16 of 23 Zeroization ID Key type Size Description Origin Storage Method test key  power up  5.3.2. Access Control Policy The Log Manager allows controlled access to the SRDIs contained within it. The following table defines the access that an operator or application has to each SRDI while operating the Log Manager in a given role performing a specific Log Manager service. The permissions are categorized as a set of four separate permissions: read, write, execute, delete (r, w, x, and d, respectively, in the table). If no permission is listed, then an operator outside the Log Manager has no access to the SRDI. Windows System Monitor Agent  LogRhythm Log Manager  Security Relevant  Data Item  Server   TLS Session encryption keys  Power‐up integrity test key  AI Engine Server public key  TLS Session Integrity seys  Access Policy  SQL Server public keys    [Key:  TLS private key    r: read  TLS public key  CA public key    w: write  public keys    x: execute    d: delete]  Role/Service                      User Role                      Agent Write Log Data    x  x  w,x,d    x    w,x,d  w,x,d    Read Agent Configuration    x  x  w,x,d    x    w,x,d  w,x,d    AI Engine Server Read Log    x  x    w,x,d  x    w,x,d  w,x,d    Data  Event Manager Read Log    x  x      x  w,x,d  w,x,d  w,x,d    Data  Log Manager Read/Write    x  x      x  w,x,d  w,x,d  w,x,d    Log Data  Write Log Manager    x  x      x  w,x,d  w,x,d  w,x,d    Configuration  Seal Archive File    x  x      x  w,x,d  w,x,d  w,x,d    Crypto‐officer Role                      Configure Log Manager    r,w,d  r,w,d      r,w,d          Communication  Perform Self Tests                    x  Show FIPS Status                      Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 17 of 23 5.4. Physical Security This section is not applicable. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 18 of 23 6. Crypto Officer Guidance 6.1. Secure Operation Initialization Rules The LogRhythm software is delivered with the LogRhythm Appliance or standalone as part of the LogRhythm Solution Software (LRSS). LRSS is the software-only solution for installation and configuration on your own dedicated custom hardware or a supported virtualization platform. Follow the instructions in [Help] section “Installing the Components” to install LogRhythm, including a Log Manager. Once Log Manager is installed, enable Approve mode as described below. See the LogRhythm Solution Software Installation Guide for more details. The LogRhythm Log Manager provides the cryptographic functions listed in section Modes of Operation above. The following table identifies the FIPS algorithm certificates for the Approved cryptographic functions along with modes and sizes. Algorithm Type Modes/Mod sizes Cert No. BCRYPTPRIMITIVES.DLL Algorithms Cert. #1168 AES CBC, 128 and 256-bit keys Cert. #686 HMAC SHA-1 Cert. #1081 SHS SHA-1 Cert. #23 DRBG SP 800-90 CTR_DRBG (AES-256) Cert. #649 RNG FIPS 186-2 x-General Purpose Cert. #559 RSA ANSI X9.31 1998: 1024, 1536, 2048, 3072, 4096- bit modulus; SHS: SHA-1 and #567 PKCS #1 v2.1: 1024, 1536, 2048, 3072, 4096- bit modulus; SHS: SHA-1 6.2. Approved Mode 6.2.1. Establishing Approved Mode Establishing Approved mode entails: 1. Enabling Windows FIPS security policy on the GPC hosting the Log Manager. 2. Providing public key certificate for the Mediator service to support encrypted communication. 3. Enabling encrypted communication between LogRhythm components. Enabling Windows FIPS security policy affects other LogRhythm components installed on the same GPC as the Log Manager. Hence, Windows FIPS security policy should be configured initially for all LogRhythm cryptographic modules in a deployment at the same time. [Help] sections “Running FIPS” and “Enabling FIPS Security Policy” cover the procedures for establishing Windows FIPS security policy across a LogRhythm deployment, including the Log Manager cryptographic module. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 19 of 23 [Help] section “Public Key Enabled (PKE)” covers providing public key certificates as well as configuring Log Manager to use the certificate. Section “When FIPS mode is enabled on a host, all LogRhythm services will connect to SQL Server using Windows Integrated Security regardless of what is configured in their INI files. See [Help] section “Using Integrated Security 6.0” for steps to enable Integrated Security. TLS Configuration” below describes how to enable encrypted communication When FIPS mode is enabled on a host, all LogRhythm services will connect to SQL Server using Windows Integrated Security regardless of what is configured in their INI files. See [Help] section “Using Integrated Security 6.0” for steps to enable Integrated Security. 6.2.2. TLS Configuration The cryptographic module supports protected communication between the Log Manager and other LogRhythm components. Protection is provided by TLS. In particular, the Log Manager module supports TLS between itself and the following external components: • System Monitor Agents, • AI Engine Server , • Log Manager SQL Server, and • Event Manager SQL Server. In Approved mode, TLS communication is required between all components. Enable TLS communication for the Log Manager cryptographic module: 1. Open the Log Manager Local Configuration Manager from where the Log Manager resides by clicking Start > All Programs > LogRhythm > Log Manager Configuration Manager. 2. Select the General tab and check ‘Encrypt all communication.’ 3. To restart the Log Manager when the Local Configuration Manager exits, select the Windows Service tab and check ‘Start (or restart) the service when the configuration is saved.’ 4. Click OK to save the settings and exit. The TLS communication is not enabled and the module is not in Approved mode until the module is restarted. 6.2.3. Starting and Stopping the Cryptographic Module The Log Manager cryptographic module runs as a Windows service scmedsvr. Starting service scmedsvr starts the Log Manager cryptographic module. Similarly, stopping service scmedsvr stops the cryptographic module. Use the LogRhythm Console, Windows Service Control Manager (SCM), or Windows command line to start or stop the cryptographic module. [Help] section “Starting, Stopping, and Restarting Log Manager Services” describes Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 20 of 23 Console operation. The Windows commands for starting and stopping the module are ‘net start’ and ‘net stop,’ respectively. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 21 of 23 7. Mitigation of Other Attacks This section is not applicable. Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 22 of 23 8. Terminology and Acronyms Term/Acronym Description AIE Advanced Intelligence Engine CSP Critical Security Parameter EM Event Manager GPC general purpose computer GUI graphical user interface LM Log Manager Mediator Server service System Monitor Agents collect logs and send them to a Mediator Server service, which processes the logs SIEM security information event management SRDI security relevant data item TLS transport layer security Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 23 of 23 9. References [FIPS 140-2] Federal Information Processing Standards Publication: Security Requirements for Cryptographic Modules, Information Technology Laboratory National Institute of Standards and Technology, 25 May 2001. [FIPS 140-2 IG] Implementation Guidance for FIPS PUB 140-2 and the Cryptographic Module Validation Program, National Institute of Standards and Technology Communications Security Establishment, 03 March 2011. [Help] LogRhythm Help, Version 6.0.4, March 2012. [SP 800-57 P3] NIST Special Publication 800-57 Recommendation for Key Management Part 3: Application-Specific Key Management Guidance, National Institute of Standards and Technology, August 2008 [SP 800-131A] NIST Special Publication 800-131A Transitions: Recommendation for Transitioning the Use of Cryptographic Algorithms and Key Lengths, National Institute of Standards and Technology, January 2011 [Win BCRYPT] Microsoft Windows Server 2008 R2 Cryptographic Primitives Library (bcryptprimitives.dll) Security Policy Document, Document Version 2.3, 8 June 2011 Non-proprietary security policy May be reproduced only in its original entirety without revision. Page 24 of 24