1.1 Filesystem Configuration Directories that are used for system-wide functions can be further protected by placing them on separate partitions. This provides protection for resource exhaustion and enables the use of mounting options that are applicable to the directory's intended use. Users' data can be stored on separate partitions and have stricter mount options. A user partition is a filesystem that has been established for use by the users and does not contain software for system operations. The recommendations in this section are easier to perform during initial system installation. If the system is already installed, it is recommended that a full backup be performed before repartitioning the system. Note: If you are repartitioning a system that has already been installed, make sure the data has been copied over to the new partition, unmount it and then remove the data from the directory that was in the old partition. Otherwise it will still consume space in the old partition that will be masked when the new filesystem is mounted. For example, if a system is in single-user mode with no filesystems mounted and the administrator adds a lot of data to the/tmp directory, this data will still consume spa/eonce the /tmpfilesystem is mounted unless it is removed first. 1.1.1 Disable unused filesystems A number of uncommon filesystem types are supported under Linux. Removing support for unneeded filesystem types reduces the local attack surface of the system. If a filesystem type is not needed it should be disabled. Native Linux file systems are designed to ensure that built-in security controls function as expected. Non-native filesystems can lead to unexpected consequences to both the security and functionality of the system and should be used with caution. Many filesystems are created for niche use cases and are not maintained and supported as the operating systems are updated and patched. Users of non-native filesystems should ensure that there is attention and ongoing support for them, especially in light of frequent operating system changes. Standard network connectivity and Internet access to cloud storage may make the use of non-standard filesystem formats to directly attach heterogeneous devices much less attractive. Note: This should not be considered a comprehensive list of filesystems. You may wish to consider additions to those listed here for your environment. 1.1.1.1 Ensure mounting of cramfs filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The cramfs filesystem type is a compressed read-only Linux filesystem embedded in small footprint systems. A cramfs image can be used without having to first decompress the image. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the server. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v cramfs install /bin/true # lsmod | grep cramfs Remediation: Edit or create the fil/etc/modprobe.d/CIS.conf and add the following line: install cramfs /bin/true 1.1.1.2 Ensure mounting of freevxfs filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The freevxfs filesystem type is a free version of the Veritas type filesystem. This is the primary filesystem type for HP-UX operating systems. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v freevxfs install /bin/true # lsmod | grep freevxfs Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install freevxfs /bin/true 1.1.1.3 Ensure mounting of jffs2 filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The jffs2 (journaling flash filesystem 2) filesystem type is a log-structured filesystem used in flash memory devices. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v jffs2 install /bin/true # lsmod | grep jffs2 Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install jffs2 /bin/true 1.1.1.4 Ensure mounting of hfs filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The hfs filesystem type is a hierarchical filesystem that allows you to mount Mac OS filesystems. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v hfs install /bin/true # lsmod | grep hfs Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install hfs /bin/true 1.1.1.5 Ensure mounting of hfsplus filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The hfsplus filesystem type is a hierarchical filesystem designed to replhfs that allows you to mount Mac OS filesystems. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v hfsplus install /bin/true # lsmod | grep hfsplus Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install hfsplus /bin/true 1.1.1.6 Ensure mounting of squashfs filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The squashfs filesystem type is a compressed read-only Linux filesystem embedded in small footprint systems (similar tocramfs). Asquashfs image can be used without having to first decompress the image. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v squashfs install /bin/true # lsmod | grep squashfs Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install squashfs /bin/true 1.1.1.7 Ensure mounting of udf filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The udf filesystem type is the universal disk format used to implement ISO/IEC 13346 and ECMA-167 specifications. This is an open vendor filesystem type for data storage on a broad range of media. This filesystem type is necessary to support writing DVDs and newer optical disc formats. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v udf install /bin/true # lsmod | grep udf Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install udf /bin/true 1.1.1.8 Ensure mounting of FAT filesystems is disabled (Scored) Profile Applicability: Level 1 - Server Level 2 - Workstation Description: The FAT filesystem format is primarily used on older windows systems and portable USB drives or flash modules. It comes in three typesFAT12 ,FAT16 , andFAT32 all of which are supported by the vfat kernel module. Rationale: Removing support for unneeded filesystem types reduces the local attack surface of the system. If this filesystem type is not needed, disable it. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v vfat install /bin/true # lsmod | grep vfat Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install vfat /bin/true Impact: FAT filesystems are often used on portable USB sticks and other flash media are commonly used to transfer files between workstations, removing VFAT support may prevent the ability to transfer files in this way. 1.1.2 Ensure separate partition exists for /tmp (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The /tmp directory is a world-writable directory used for temporary storage by all users and some applications. Rationale: Since the /tmp directory is intended to be world-writable, there is a risk of resource exhaustion if it is not bound to a separate partition. In addition, mak/tmp its own file system allows an administrator to set the noexec option on the mount, making /tmp useless for an attacker to install executable code. It would also prevent an attacker from establishing a hardlink to a systemsetuid program and wait for it to be updated. Once the program was updated, the hardlink would be broken and the attacker would have his own copy of the program. If the program happened to have a security vulnerability, the attacker could continue to exploit the known flaw. Audit: Run the following command and verify output shows /tmp is mounted: # mount | grep /tmp tmpfs on /tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/tmp . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. References: 1. AJ Lewis, "LVM HOWTO", http://tldp.org/HOWTO/LVM-HOWTO/ Notes: systemd includes the tmp.mount service which should be used instead of configuring /etc/fstab . 1.1.3 Ensure nodev option set on /tmp partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nodev mount option specifies that the filesystem cannot contain special devices. Rationale: Since the /tmp filesystem is not intended to support devices, set this option to ensure that users cannot attempt to create block or character special devices i/tmp . Audit: If a/tmp partition exists run the following command and verify that thenodev option is set on /tmp: # mount | grep /tmp tmpfs on /tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnodev to the fourth field (mounting options) for the /tmp partition. See thfstab(5) manual page for more information. Run the following command to remount /tmp : # mount -o remount,nodev /tmp Notes: systemd includes the tmp.mount service which should be used instead of configuring /etc/fstab . Mounting options are configured in the Options setting in/etc/systemd/system/tmp.mount . 1.1.4 Ensure nosuid option set on /tmp partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nosuid mount option specifies that the filesystem cannot contain setuid files. Rationale: Since the /tmp filesystem is only intended for temporary file storage, set this option to ensure that users cannot create setuid files i/tmp . Audit: If a/tmp partition exists run the following command and verify that the nosuid option is set on /tmp: # mount | grep /tmp tmpfs on /tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnosuid to the fourth field (mounting options) for the /tmp partition. See thefstab(5) manual page for more information. Run the following command to remount /tmp: # mount -o remount,nosuid /tmp Notes: systemd includes the tmp.mount service which should be used instead of configuring /etc/fstab . Mounting options are configured in the Options setting in/etc/systemd/system/tmp.mount . 1.1.5 Ensure separate partition exists for /var (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The /var directory is used by daemons and other system services to temporarily store dynamic data. Some directories created by these processes may be world-writable. Rationale: Since the /var directory may contain world-writable files and directories, there is a risk of resource exhaustion if it is not bound to a separate partition. Audit: Run the following command and verify output shows /var is mounted: # mount | grep /var /dev/xvdg1 on /var type ext4 (rw,relatime,data=ordered) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/var . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. References: 1. AJ Lewis, "LVM HOWTO", http://tldp.org/HOWTO/LVM-HOWTO/ 1.1.6 Ensure separate partition exists for /var/tmp (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The /var/tmp directory is a world-writable directory used for temporary storage by all users and some applications. Rationale: Since the /var/tmp directory is intended to be world-writable, there is a risk of resource exhaustion if it is not bound to a separate partition. In addition, maki/var/tmp its own file system allows an administrator to set thnoexec option on the mount, making /var/tmp useless for an attacker to install executable code. It would also prevent an attacker from establishing a hardlink to a systemsetuid program and wait for it to be updated. Once the program was updated, the hardlink would be broken and the attacker would have his own copy of the program. If the program happened to have a security vulnerability, the attacker could continue to exploit the known flaw. Audit: Run the following command and verify output shows /var/tmp is mounted: # mount | grep /var/tmp tmpfs on /var/tmp type ext4 (rw,nosuid,nodev,noexec,relatime) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/var/tmp . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. 1.1.7 Ensure nodev option set on /var/tmp partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nodev mount option specifies that the filesystem cannot contain special devices. Rationale: Since the /var/tmp filesystem is not intended to support devices, set this option to ensure that users cannot attempt to create block or character special devices in/var/tmp . Audit: If a/var/tmp partition exists run the following command and verify that the nodev option is set on /var/tmp . # mount | grep /var/tmp tmpfs on /var/tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnodev to the fourth field (mounting options) for the /var/tmp partition. See thefstab(5) manual page for more information. Run the following command to remount /var/tmp : # mount -o remount,nodev /var/tmp 1.1.8 Ensure nosuid option set on /var/tmp partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nosuid mount option specifies that the filesystem cannot contain setuid files. Rationale: Since the /var/tmp filesystem is only intended for temporary file storage, set this option to ensure that users cannot create setuid files i/var/tmp . Audit: If a/var/tmp partition exists run the following command and verify that the nosuid option is set on/var/tmp . # mount | grep /var/tmp tmpfs on /var/tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnosuid to the fourth field (mounting options) for the /var/tmp partition. See thefstab(5) manual page for more information. Run the following command to remount /var/tmp : # mount -o remount,nosuid /var/tmp 1.1.9 Ensure noexec option set on /var/tmp partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The noexec mount option specifies that the filesystem cannot contain executable binaries. Rationale: Since the /var/tmp filesystem is only intended for temporary file storage, set this option to ensure that users cannot run executable binaries from /var/tmp . Audit: If a/var/tmp partition exists run the following command and verify that the noexec option is set on/var/tmp . # mount | grep /var/tmp tmpfs on /var/tmp type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnoexec to the fourth field (mounting options) for the /var/tmp partition. See thefstab(5) manual page for more information. Run the following command to remount /var/tmp : # mount -o remount,noexec /var/tmp 1.1.10 Ensure separate partition exists for /var/log (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The /var/log directory is used by system services to store log data . Rationale: There are two important reasons to ensure that system logs are stored on a separate partition: protection against resource exhaustion (since logs can grow quite large) and protection of audit data. Audit: Run the following command and verify output shows /var/log is mounted: # mount | grep /var/log /dev/xvdh1 on /var/log type ext4 (rw,relatime,data=ordered) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/var/log . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. References: 1. AJ Lewis, "LVM HOWTO", http://tldp.org/HOWTO/LVM-HOWTO/ 1.1.11 Ensure separate partition exists for /var/log/audit (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The auditing daemon, auditd , stores log data in t/var/log/audit directory. Rationale: There are two important reasons to ensure that data gathered by auditd is stored on a separate partition: protection against resource exhaustion (since theaudit.log file can grow quite large) and protection of audit data. The audit daemon calculates how much free space is left and performs actions based on the results. If other processes (such syslog ) consume space in the same partition as auditd , it may not perform as desired. Audit: Run the following command and verify output shows /var/log/audit is mounted: # mount | grep /var/log/audit /dev/xvdi1 on /var/log/audit type ext4 (rw,relatime,data=ordered) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/var/log/audit . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. References: 1. AJ Lewis, "LVM HOWTO", http://tldp.org/HOWTO/LVM-HOWTO/ 1.1.12 Ensure separate partition exists for /home (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The /home directory is used to support disk storage needs of local users. Rationale: If the system is intended to support local users, create a separate partition for /home directory to protect against resource exhaustion and restrict the type of files that can be stored under /home. Audit: Run the following command and verify output shows /home is mounted: # mount | grep /home /dev/xvdf1 on /home type ext4 (rw,nodev,relatime,data=ordered) Remediation: For new installations, during installation create a custom partition setup and specify a separate partition for/home . For systems that were previously installed, create a new partition and configure /etc/fstab as appropriate. Impact: Resizing filesystems is a common activity in cloud-hosted servers. Separate filesystem partitions may prevent successful resizing, or may require the installation of additional tools solely for the purpose of resizing operations. The use of these additional tools may introduce their own security considerations. References: 1. AJ Lewis, "LVM HOWTO", http://tldp.org/HOWTO/LVM-HOWTO/ 1.1.13 Ensure nodev option set on /home partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nodev mount option specifies that the filesystem cannot contain special devices. Rationale: Since the user partitions are not intended to support devices, set this option to ensure that users cannot attempt to create block or character special devices. Audit: If a/home partition exists run the following command and verify that thenodev option is set on /home . # mount | grep /home /dev/xvdf1 on /home type ext4 (rw,nodev,relatime,data=ordered) Remediation: Edit the/etc/fstab file and addnodev to the fourth field (mounting options) for the /home partition. See thefstab(5) manual page for more information. # mount -o remount,nodev /home Notes: The actions in this recommendation refer to the /home partition, which is the default user partition that is defined in many distributions. If you have created other user partitions, it is recommended that the Remediation and Audit steps be applied to these partitions as well. 1.1.14 Ensure nodev option set on /dev/shm partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nodev mount option specifies that the filesystem cannot contain special devices. Rationale: Since the /run/shm filesystem is not intended to support devices, set this option to ensure that users cannot attempt to create special devices i/dev/shm partitions. Audit: Run the following command and verify that the nodev option is set o/dev/shm . # mount | grep /dev/shm tmpfs on /dev/shm type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnodev to the fourth field (mounting options) for the /dev/shm partition. See thfstab(5) manual page for more information. Run the following command to remount /dev/shm : # mount -o remount,nodev /dev/shm 1.1.15 Ensure nosuid option set on /dev/shm partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nosuid mount option specifies that the filesystem cannot contain setuid files. Rationale: Setting this option on a file system prevents users from introducing privileged programs onto the system and allowing non-root users to execute them. Audit: Run the following command and verify that the no suid option is set on/dev/shm . tmpfs on /dev/shm type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnosuid to the fourth field (mounting options) for the /dev/shm partition. See thfstab(5) manual page for more information. Run the following command to remount /dev/shm : # mount -o remount,nosuid /dev/shm 1.1.16 Ensure noexec option set on /dev/shm partition (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The noexec mount option specifies that the filesystem cannot contain executable binaries. Rationale: Setting this option on a file system prevents users from executing programs from shared memory. This deters users from introducing potentially malicious software on the system. Audit: Run the following command and verify that the noexec option is set on/run/shm . tmpfs on /dev/shm type tmpfs (rw,nosuid,nodev,noexec,relatime) Remediation: Edit the/etc/fstab file and addnoexec to the fourth field (mounting options) for the /dev/shm partition. See thfstab(5) manual page for more information. Run the following command to remount /dev/shm : # mount -o remount,noexec /dev/shm 1.1.17 Ensure nodev option set on removable media partitions (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nodev mount option specifies that the filesystem cannot contain special devices. Rationale: Removable media containing character and block special devices could be used to circumvent security controls by allowing non-root users to access sensitive device files such as /dev/kmem or the raw disk partitions. Audit: Run the following command and verify that the nodev option is set on all removable media partitions. # mount Remediation: Edit the/etc/fstab file and adnodev to the fourth field (mounting options) of all removable media partitions. Look for entries that have mount points that contain words such as floppy or cdrom. See thefstab(5) manual page for more information. 1.1.18 Ensure nosuid option set on removable media partitions (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The nosuid mount option specifies that the filesystem cannot containsetuid files. Rationale: Setting this option on a file system prevents users from introducing privileged programs onto the system and allowing non-root users to execute them. Audit: Run the following command and verify that the nosuid option is set on all removable media partitions. # mount Remediation: Edit the/etc/fstab file and addnosuid to the fourth field (mounting options) of all removable media partitions. Look for entries that have mount points that contain words such as floppy or cdrom. See thefstab(5) manual page for more information. 1.1.19 Ensure noexec option set on removable media partitions (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The noexec mount option specifies that the filesystem cannot contain executable binaries. Rationale: Setting this option on a file system prevents users from executing programs from the removable media. This deters users from being able to introduce potentially malicious software on the system. Audit: Run the following command and verify that the noexec option is set on all removable media partitions. # mount Remediation: Edit the/etc/fstab file and adnoexec to the fourth field (mounting options) of all removable media partitions. Look for entries that have mount points that contain words such as floppy or cdrom. See thefstab(5) manual page for more information. 1.1.20 Ensure sticky bit is set on all world-writable directories (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Setting the sticky bit on world writable directories prevents users from deleting or renaming files in that directory that are not owned by them. Rationale: This feature prevents the ability to delete or rename files in world writable directories (such as /tmp) that are owned by another user. Audit: Run the following command to verify no world writable directories exist without the sticky bit set: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -type d \( -perm -0002 -a ! -perm -1000 \) 2>/dev/null No output should be returned. Remediation: Run the following command to set the sticky bit on all world writable directories: -perm -0002 2>/dev/null | chmod a+tprint $6'} | xargs -I '{}' find '{}' -xdev -type d 1.1.21 Disable Automounting (Scored) Profile Applicability: Level 1 - Server Level 2 - Workstation Description: autofs allows automatic mounting of devices, typically including CD/DVDs and USB drives. Rationale: With automounting enabled anyone with physical access could attach a USB drive or disc and have its contents available in system even if they lacked permissions to mount it themselves. Audit: Run the following command to verify autofs is not enabled: # systemctl is-enabled autofs disabled Verify result is not "enabled". Remediation: Run the following command to disable autofs : # systemctl disable autofs Impact: The use portable hard drives is very common for workstation users. If your organization allows the use of portable storage or media on workstations and physical access controls to workstations is considered adequate there is little value add in turning off automounting. Notes: This control should align with the tolerance of the use of portable drives and optical media in the organization. On a server requiring an admin to manually mount media can be part of defense-in-depth to reduce the risk of unapproved software or information being introduced or proprietary software or information being exfiltrated. If admins commonly use flash drives and Server access has sufficient physical controls, requiring manual mounting may not increase security. 1.2 Configure Software Updates Ubuntu Linux uses apt to install and update software packages. Patch management procedures may vary widely between enterprises. Large enterprises may choose to install a local updates server that can be used in place of Ubuntu's servers, whereas a single deployment of a system may prefer to get updates directly. Updates can be performed automatically or manually, depending on the site's policy for patch management. Many large enterprises prefer to test patches on a non-production system before rolling out to production. For the purpose of this benchmark, the requirement is to ensure that a patch management system is configured and maintained. The specifics on patch update procedures are left to the organization. 1.2.1 Ensure package manager repositories are configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Systems need to have package manager repositories configured to ensure they receive the latest patches and updates. Rationale: If a system's package repositories are misconfigured important patches may not be identified or a rogue repository could introduce compromised software. Audit: Run the following command and verify package repositories are configured correctly: # apt-cache policy Remediation: Configure your package manager repositories according to site policy. 1.2.2 Ensure GPG keys are configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Most packages managers implement GPG key signing to verify package integrity during installation. Rationale: It is important to ensure that updates are obtained from a valid source to protect against spoofing that could lead to the inadvertent installation of malware on the system. Audit: Run the following command and verify GPG keys are configured correctly for your package manager: # apt-key list Remediation: Update your package manager GPG keys in accordance with site policy. 1.3 Filesystem Integrity Checking AIDE is a file integrity checking tool, similar in nature to Tripwire. While it cannot prevent intrusions, it can detect unauthorized changes to configuration files by alerting when the files are changed. When setting up AIDE, decide internally what the site policy will be concerning integrity checking. Review the AIDE quick start guide and AIDE documentation before proceeding. 1.3.1 Ensure AIDE is installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: AIDE takes a snapshot of filesystem state including modification times, permissions, and file hashes which can then be used to compare against the current state of the filesystem to detect modifications to the system. Rationale: By monitoring the filesystem state compromised files can be detected to prevent or limit the exposure of accidental or malicious misconfigurations or modified binaries. Audit: Run the following command and verify AIDE is installed: # dpkg -s aide Remediation: Run the following command to install AIDE: # apt-get install aide Configure AIDE as appropriate for your environment. Consult the AIDE documentation for options. Initialize AIDE: # aide --init References: 1. AIDE stable manual: http://aide.sourceforge.net/stable/manual.html Notes: The prelinking feature can interfere with AIDE because it alters binaries to speed up their start up times. Run prelink -ua to restore the binaries to their prelinked state, thus avoiding false positives from AIDE. 1.3.2 Ensure filesystem integrity is regularly checked (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Periodic checking of the filesystem integrity is needed to detect changes to the filesystem. Rationale: Periodic file checking allows the system administrator to determine on a regular basis if critical files have been changed in an unauthorized fashion. Audit: Run the following commands to determine if there is a cron job scheduled to run the aide check. # grep -r aide /etc/cron.* /etc/crontab Ensure a cron job in compliance with site policy is returned. Remediation: Run the following command: # crontab -u root -e Add the following line to the crontab: 0 5 * * * /usr/bin/aide --check Notes: The checking in this recommendation occurs every day at 5am. Alter the frequency and time of the checks in compliance with site policy. 1.4 Secure Boot Settings The recommendations in this section focus on securing the bootloader and settings involved in the boot process directly. 1.4.1 Ensure permissions on bootloader config are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The grub configuration file contains information on boot settings and passwords for unlocking boot options. The grub configuration is usuallgrub.cfg stored in/boot/grub. Rationale: Setting the permissions to read and write for root only prevents non-root users from seeing the boot parameters or changing them. Non-root users who read the boot parameters may be able to identify weaknesses in security upon boot and be able to exploit them. Audit: Run the following command and verify Uid and Gid are both 0/root and Access does not grant permissions to group orother : # stat /boot/grub/grub.cfg Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on your grub configuration: # chown root:root /boot/grub/grub.cfg # chmod og-rwx /boot/grub/grub.cfg Notes: This recommendation is designed around the grub bootloader, if LILO or another bootloader is in use in your environment enact equivalent settings. 1.4.2 Ensure bootloader password is set (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Setting the boot loader password will require that anyone rebooting the system must enter a password before being able to set command line boot parameters Rationale: Requiring a boot password upon execution of the boot loader will prevent an unauthorized user from entering boot parameters or changing the boot partition. This prevents users from weakening security (e.g. turning off SELinux at boot time). Audit: Run the following commands and verify output matches: set superusers=""oot/grub/grub.cfg # grep "^password" /boot/grub/grub.cfg password_pbkdf2 Remediation: Create an encrypted password with grub-mkpasswd-pbkdf2 : # grub-mkpasswd-pbkdf2 Enter password: Reenter password: Your PBKDF2 is Add the following into/etc/grub.d/00_header or a custom /etc/grub.d configuration file: cat < EOF Run the following command to update the grub2 configuration: # update-grub Notes: This recommendation is designed around the grub bootloader, if LILO or another bootloader is in use in your environment enact equivalent settings. 1.4.3 Ensure authentication required for single user mode (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Single user mode is used for recovery when the system detects an issue during boot or by manual selection from the bootloader. Rationale: Requiring authentication in single user mode prevents an unauthorized user from rebooting the system into single user to gain root privileges without credentials. Audit: Perform the following to determine if a password is set for throot user: # grep ^root:[*\!]: /etc/shadow No results should be returned. Remediation: Run the following command and follow the prompts to set a password for the root user: # passwd root 1.5 Additional Process Hardening 1.5.1 Ensure core dumps are restricted (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: A core dump is the memory of an executable program. It is generally used to determine why a program aborted. It can also be used to glean confidential information from a core file. The system provides the ability to set a soft limit for core dumps, but this can be overridden by the user. Rationale: Setting a hard limit on core dumps prevents users from overriding the soft variable. If core dumps are required, consider setting limits for user groups (seelimits.conf(5) ). In addition, setting thefs.suid_dumpable variable to 0 will prevent setuid programs from dumping core. Audit: Run the following commands and verify output matches: # grep "hard core" /etc/security/limits.conf /etc/security/limits.d/* * hard core 0 # sysctl fs.suid_dumpable fs.suid_dumpable = 0 Remediation: Add the following line to the/etc/security/limits.conf file or a /etc/security/limits.d/* file: * hard core 0 Set the following parameter in the /etc/sysctl.conf file: fs.suid_dumpable = 0 Run the following command to set the active kernel parameter: # sysctl -w fs.suid_dumpable=0 1.5.2 Ensure XD/NX support is enabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Recent processors in the x86 family support the ability to prevent code execution on a per memory page basis. Generically and on AMD processors, this ability is called No Execute (NX), while on Intel processors it is called Execute Disable (XD). This ability can help prevent exploitation of buffer overflow vulnerabilities and should be activated whenever possible. Extra steps must be taken to ensure that this protection is enabled, particularly on 32-bit x86 systems. Other processors, such as Itanium and POWER, have included such support since inception and the standard kernel for those platforms supports the feature. Rationale: Enabling any feature that can protect against buffer overflow attacks enhances the security of the system. Audit: Run the following command and verify your kernel has identified and activated NX/XD protection. # dmesg | grep NX NX (Execute Disable) protection: active Remediation: On 32 bit systems install a kernel with PAE support, no installation is required on 64 bit systems: If necessary configure your bootloader to load the new kernel and reboot the system. You may need to enable NX or XD support in your bios. Notes: Ensure your system supports the XD or NX bit and has PAE support before implementing this recommendation as this may prevent it from booting if these are not supported by your hardware. 1.5.3 Ensure address space layout randomization (ASLR) is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Address space layout randomization (ASLR) is an exploit mitigation technique which randomly arranges the address space of key data areas of a process. Rationale: Randomly placing virtual memory regions will make it difficult to write memory page exploits as the memory placement will be consistently shifting. Audit: Run the following command and verify output matches: # sysctl kernel.randomize_va_space kernel.randomize_va_space = 2 Remediation: Set the following parameter in the/etc/sysctl.conf file: kernel.randomize_va_space = 2 Run the following command to set the active kernel parameter: # sysctl -w kernel.randomize_va_space=2 1.5.4 Ensure prelink is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: prelink is a program that modifies ELF shared libraries and ELF dynamically linked binaries in such a way that the time needed for the dynamic linker to perform relocations at startup significantly decreases. Rationale: The prelinking feature can interfere with the operation of AIDE, because it changes binaries. Prelinking can also increase the vulnerability of the system if a malicious user is able to compromise a common library such as libc. Audit: Run the following command and verify prelink is not installed: # dpkg -s prelink Remediation: Run the following command to restore binaries to normal: # prelink -ua Run the following command to uninstall prelink : # apt-get remove prelink 1.6 Mandatory Access Control Mandatory Access Control (MAC) provides an additional layer of access restrictions to processes on top of the base Discretionary Access Controls. By restricting how processes can access files and resources on a system the potential impact from vulnerabilities in the processes can be reduced. Impact: Mandatory Access Control limits the capabilities of applications and daemons on a system, while this can prevent unauthorized access the configuration of MAC can be complex and difficult to implement correctly preventing legitimate access from occurring. Note: Apparmor is the default MAC provided with Ubuntu systems. 1.6.1 Configure SELinux SELinux provides a Mandatory Access Control (MAC) system that greatly augments the default Discretionary Access Control (DAC) model. Under SELinux, every process and every object (files, sockets, pipes) on the system is assigned a security context, a label that includes detailed type information about the object. The kernel allows processes to access objects only if that access is explicitly allowed by the policy in effect. The policy defines transitions, so that a user can be allowed to run software, but the software can run under a different context than the user's default. This automatically limits the damage that the software can do to files accessible by the calling user. The user does not need to take any action to gain this benefit. For an action to occur, both the traditional DAC permissions must be satisfied as well as the SELinux MAC rules. The action will not be allowed if either one of these models does not permit the action. In this way, SELinux rules can only make a system's permissions more restrictive and secure. SELinux requires a complex policy to allow all the actions required of a system under normal operation. Three such policies have been available for use with Ubuntu and are included with the system: ubuntu ,default , strict , and mls. These are described as follows: ubuntu : targeted rules developed for ubuntu specifically default : targeted rules developed and maintained by Debian. Consists mostly of Type Enforcement (TE) rules, and a small number of Role-Based Access Control (RBAC) rules. Targeted restricts the actions of many types of programs, but leaves interactive users largely unaffected. strict : also uses TE and RBAC rules, but on more programs and more aggressively. mls : implements Multi-Level Security (MLS), which introduces even more kinds of labels (sensitivity and category) and rules that govern access based on these. This section provides guidance for the configuration of the targeted policy. Note: This section only applies if SELinux is in use on the system. Recommendations for AppArmor are also included, and additional Mandatory Access Control systems exist beyond these two. AppArmor is the standard MAC system for Ubuntu systems. References: 1. NSA SELinux resources: 1. http://www.nsa.gov/research/selinux 2. http://www.nsa.gov/research/selinux/list.shtml 2. Fedora SELinux resources: 1. FAQ: http://docs.fedoraproject.org/selinux-faq 2. User Guide: http://docs.fedoraproject.org/selinux-user-guide 3. Managing Services Guide: http://docs.fedoraproject.org/selinux-managing- confined-services-guide 3. SELinux Project web page and wiki: 1. http://www.selinuxproject.org 4. Chapters 43-45 of Red Hat Enterprise Linux 5: Deployment Guide (Frank Mayer, Karl MacMillan and David Caplan), 5. SELinux by Example: Using Security Enhanced Linux (Prentice Hall, August 6, 2006) 1.6.1.1 Ensure SELinux is not disabled in bootloader configuration (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Configure SELINUX to be enabled at boot time and verify that it has not been overwritten by the grub boot parameters. Rationale: SELinux must be enabled at boot time in your grub configuration to ensure that the controls it provides are not overridden. Audit: Run the following command and verify that no linux line has theselinux=0 or enforcing=0 parameters set: # grep "^\s*linux" /boot/grub/grub.cfg Remediation: Edit/etc/default/grub and remove all instances ofselinux=0 and enforcing=0 from all CMDLINE_LINUX parameters: GRUB_CMDLINE_LINUX_DEFAULT="quiet" GRUB_CMDLINE_LINUX="" Run the following command to update the grub2 configuration: # update-grub Notes: This recommendation is designed around the grub bootloader, if LILO or another bootloader is in use in your environment enact equivalent settings. 1.6.1.2 Ensure the SELinux state is enforcing (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Set SELinux to enable when the system is booted. Rationale: SELinux must be enabled at boot time in to ensure that the controls it provides are in effect at all times. Audit: Run the following commands and ensure output matches: SELINUX=enforcingforcing /etc/selinux/config # sestatus SELinux status: enabled Current mode: enforcing Mode from config file: enforcing Remediation: Edit the/etc/selinux/config file to set the SELINUX parameter: SELINUX=enforcing 1.6.1.3 Ensure SELinux policy is configured (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Configure SELinux to meet or exceed the default targeted policy, which constrains daemons and system software only. Rationale: Security configuration requirements vary from site to site. Some sites may mandate a policy that is stricter than the default policy, which is perfectly acceptable. This item is intended to ensure that at least the default recommendations are met. Audit: Run the following commands and ensure output matches " ubuntu ", default " or "mls": # grep SELINUXTYPE= /etc/selinux/config SELINUXTYPE=ubuntu Policy from config file: ubuntu Remediation: Edit the/etc/selinux/config file to set the SELINUXTYPE parameter: SELINUXTYPE=ubuntu Notes: If your organization requires stricter policies, ensure that they are set in the /etc/selinux/config file. 1.6.1.4 Ensure no unconfined daemons exist (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Daemons that are not defined in SELinux policy will inherit the security context of their parent process. Rationale: Since daemons are launched and descend from the init process, they will inherit the security context labelinitrc_t . This could cause the unintended consequence of giving the process more permission than it requires. Audit: Run the following command and verify not output is produced: # ps -eZ | egrep "initrc" | egrep -vw "tr|ps|egrep|bash|awk" | tr ':' ' ' | awk '{ print $NF }' Remediation: Investigate any unconfined daemons found during the audit action. They may need to have an existing security context assigned to them or a policy built for them. Notes: Occasionally certain daemons such as backup or centralized management software may require running unconfined. Any such software should be carefully analyzed and documented before such an exception is made. 1.6.2 Configure AppArmor AppArmor provides a Mandatory Access Control (MAC) system that greatly augments the default Discretionary Access Control (DAC) model. Under AppArmor MAC rules are applied by file paths instead of by security contexts as in other MAC systems. As such it does not require support in the filesystem and can be applied to network mounted filesystems for example. AppArmor security policies define what system resources applications can access and what privileges they can do so with. This automatically limits the damage that the software can do to files accessible by the calling user. The user does not need to take any action to gain this benefit. For an action to occur, both the traditional DAC permissions must be satisfied as well as the AppArmor MAC rules. The action will not be allowed if either one of these models does not permit the action. In this way, AppArmor rules can only make a system's permissions more restrictive and secure. Note: This section only applies if AppArmor is in use on the system. Recommendations for SELinux are also included, and additional Mandatory Access Control systems exist beyond these two. References: 1. AppArmor Documentation: http://wiki.apparmor.net/index.php/Documentation 2. Ubuntu AppArmor Documentation: https://help.ubuntu.com/community/AppArmor 3. SUSE AppArmor Documentation: https://www.suse.com/documentation/apparmor/ 1.6.2.1 Ensure AppArmor is not disabled in bootloader configuration (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Configure AppArmor to be enabled at boot time and verify that it has not been overwritten by the bootloader boot parameters. Rationale: AppArmor must be enabled at boot time in your bootloader configuration to ensure that the controls it provides are not overridden. Audit: Run the following command and verify that no linux line theapparmor=0 parameter set: # grep "^\s*linux" /boot/grub/grub.cfg Remediation: Edit /etc/default/grub and remove all instances ofapparmor=0 from all CMDLINE_LINUX parameters: GRUB_CMDLINE_LINUX_DEFAULT="quiet" GRUB_CMDLINE_LINUX="" Run the following command to update the grub2 configuration: # update-grub Notes: This recommendation is designed around the grub bootloader, if LILO or another bootloader is in use in your environment enact equivalent settings. 1.6.2.2 Ensure all AppArmor Profiles are enforcing (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: AppArmor profiles define what resources applications are able to access. Rationale: Security configuration requirements vary from site to site. Some sites may mandate a policy that is stricter than the default policy, which is perfectly acceptable. This item is intended to ensure that any policies that exist on the system are activated. Audit: Run the following command and verify that profiles are loaded, no profiles are in complain mode, and no processes are unconfined: # apparmor_status apparmor module is loaded. 17 profiles are loaded. 17 profiles are in enforce mode. /bin/ping /sbin/klogd /sbin/syslog-ng /sbin/syslogd /usr/lib/PolicyKit/polkit-explicit-grant-helper /usr/lib/PolicyKit/polkit-grant-helper /usr/lib/PolicyKit/polkit-grant-helper-pam /usr/lib/PolicyKit/polkit-read-auth-helper /usr/lib/PolicyKit/polkit-resolve-exe-helper /usr/lib/PolicyKit/polkit-revoke-helper /usr/lib/PolicyKit/polkitd /usr/sbin/avahi-daemon /usr/sbin/identd /usr/sbin/mdnsd /usr/sbin/nscd /usr/sbin/ntpd /usr/sbin/traceroute 0 profiles are in complain mode. 1 processes have profiles defined. 1 processes are in enforce mode : /usr/sbin/nscd (3979) 0 processes are in complain mode. 0 processes are unconfined but have a profile defined. Remediation: Run the following command to set all profiles to enforce mode: # aa-enforce /etc/apparmor.d/* Any unconfined processes may need to have a profile created or activated for them and then be restarted. 1.6.3 Ensure SELinux or AppArmor are installed (Not Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: SELinux and AppArmor provide Mandatory Access Controls. Rationale: Without a Mandatory Access Control system installed only the default Discretionary Access Control system will be available. Audit: Run the following commands and verify either SELinux or AppArmor is installed: # dpkg -s selinux # dpkg -s apparmor Remediation: Run one of the following commands to install SELinux or apparmor: # apt-get install apparmor 1.7 Warning Banners Presenting a warning message prior to the normal user login may assist in the prosecution of trespassers on the computer system. Changing some of these login banners also has the side effect of hiding OS version information and other detailed system information from attackers attempting to target specific exploits at a system. Guidelines published by the US Department of Defense require that warning messages include at least the name of the organization that owns the system, the fact that the system is subject to monitoring and that such monitoring is in compliance with local statutes, and that use of the system implies consent to such monitoring. It is important that the organization's legal counsel review the content of all messages before any system modifications are made, as these warning messages are inherently site-specific. More information (including citations of relevant case law) can be found at http://www.justice.gov/criminal/cybercrime/ Note: The text provided in the remediation actions for these items is intended as an example only. Please edit to include the specific text for your organization as approved by your legal department. 1.7.1 Command Line Warning Banners The /etc/motd ,/etc/issue , and/etc/issue.net files govern warning banners for standard command line logins for both local and remote users. 1.7.1.1 Ensure message of the day is configured properly (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/motd file are displayed to users after login and function as a message of the day for authenticated users. Unix-based systems have typically displayed information about the OS release and patch level upon logging in to the system. This information can be useful to developers who are developing software for a particular OS platform. Imingetty(8) supports the following options, they display operating system information: \m - machine architecture \r - operating system release \s - operating system name \v - operating system version Rationale: Warning messages inform users who are attempting to login to the system of their legal status regarding the system and must include the name of the organization that owns the system and any monitoring policies that are in place. Displaying OS and patch level information in login banners also has the side effect of providing detailed system information to attackers attempting to target specific exploits of a system. Authorized users can easily get this information by running theuname -a " command once they have logged in. Audit: Run the following command and verify that the contents match site policy: # cat /etc/motd Run the following command and verify no results are returned: # egrep '(\\v|\\r|\\m|\\s)' /etc/motd Remediation: Edit the /etc/motd file with the appropriate contents according to your site policy, remove any instances of \m ,\r,\s , or\v. 1.7.1.2 Ensure local login warning banner is configured properly (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/issue file are displayed to users prior to login for local terminals. Unix-based systems have typically displayed information about the OS release and patch level upon logging in to the system. This information can be useful to developers who are developing software for a particular OS platform. Imingetty(8) supports the following options, they display operating system information: \m - machine architecture \r - operating system release \s - operating system name \v - operating system version Rationale: Warning messages inform users who are attempting to login to the system of their legal status regarding the system and must include the name of the organization that owns the system and any monitoring policies that are in place. Displaying OS and patch level information in login banners also has the side effect of providing detailed system information to attackers attempting to target specific exploits of a system. Authorized users can easily get this information by running theuname -a " command once they have logged in. Audit: Run the following command and verify that the contents match site policy: # cat /etc/issue Run the following command and verify no results are returned: # egrep '(\\v|\\r|\\m|\\s)' /etc/issue Remediation: Edit the /etc/issue file with the appropriate contents according to your site policy, remove any instances of \m,\r ,\s, or\v : # echo "Authorized uses only. All activity may be monitored and reported." > /etc/issue 1.7.1.3 Ensure remote login warning banner is configured properly (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/issue.net file are displayed to users prior to login for remote connections from configured services. Unix-based systems have typically displayed information about the OS release and patch level upon logging in to the system. This information can be useful to developers who are developing software for a particular OS platform. Imingetty(8) supports the following options, they display operating system information: \m - machine architecture \r - operating system release \s - operating system name \v - operating system version Rationale: Warning messages inform users who are attempting to login to the system of their legal status regarding the system and must include the name of the organization that owns the system and any monitoring policies that are in place. Displaying OS and patch level information in login banners also has the side effect of providing detailed system information to attackers attempting to target specific exploits of a system. Authorized users can easily get this information by running theuname -a " command once they have logged in. Audit: Run the following command and verify that the contents match site policy: # cat /etc/issue.net Run the following command and verify no results are returned: # egrep '(\\v|\\r|\\m|\\s)' /etc/issue.net Remediation: Edit the /etc/issue.net file with the appropriate contents according to your site policy, remove any instances of \m,\r ,\s, or\v : # echo "Authorized uses only. All activity may be monitored and reported." > /etc/issue.net 1.7.1.4 Ensure permissions on /etc/motd are configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/motd file are displayed to users after login and function as a message of the day for authenticated users. Rationale: If the/etc/motd file does not have the correct ownership it could be modified by unauthorized users with incorrect or misleading information. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : # stat /etc/motd Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on /etc/motd : # chown root:root /etc/motd # chmod 644 /etc/motd 1.7.1.5 Ensure permissions on /etc/issue are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/issue file are displayed to users prior to login for local terminals. Rationale: If the/etc/issue file does not have the correct ownership it could be modified by unauthorized users with incorrect or misleading information. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on /etc/issue : # chown root:root /etc/issue # chmod 644 /etc/issue 1.7.1.6 Ensure permissions on /etc/issue.net are configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The contents of the/etc/issue.net file are displayed to users prior to login for remote connections from configured services. Rationale: If the/etc/issue.net file does not have the correct ownership it could be modified by unauthorized users with incorrect or misleading information. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : # stat /etc/issue.net Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on /etc/issue.net : # chown root:root /etc/issue.net # chmod 644 /etc/issue.net 1.7.2 Ensure GDM login banner is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: GDM is the GNOME Display Manager which handles graphical login for GNOME based systems. Rationale: Warning messages inform users who are attempting to login to the system of their legal status regarding the system and must include the name of the organization that owns the system and any monitoring policies that are in place. Audit: If GDM is installed on the system verify th/etc/dconf/profile/gdm exists and contains the following: user-db:user system-db:gdm file-db:/usr/share/gdm/greeter-dconf-defaults Then verify the banner-message-enable and banner-message-text options are configured in/etc/dconf/db/gdm.d/01-banner-message : [org/gnome/login-screen] banner-message-enable=true banner-message-text='' Remediation: Create the /etc/dconf/profile/gdm file with the following contents: user-db:user system-db:gdm file-db:/usr/share/gdm/greeter-dconf-defaults Create or edit thebanner-message-enable and banner-message-text options in/etc/dconf/db/gdm.d/01-banner-message : [org/gnome/login-screen] banner-message-enable=true banner-message-text='Authorized uses only. All activity may be monitored and reported.' Run the following command to update the system databases: # dconf update Notes: Additional options and sections may appear in the /etc/dconf/db/gdm.d/01-banner- message file. If a different GUI login service is in use, consult your documentation and apply an equivalent banner. 1.8 Ensure updates, patches, and additional security software are installed (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Periodically patches are released for included software either due to security flaws or to include additional functionality. Rationale: Newer patches may contain security enhancements that would not be available through the latest full update. As a result, it is recommended that the latest software patches be used to take advantage of the latest functionality. As with any software installation, organizations need to determine if a given update meets their requirements and verify the compatibility and supportability of any additional software against the update revision that is selected. Audit: Run the following command and verify there are no updates or patches to install: # apt-get -s upgrade Remediation: Use your package manager to update all packages on the system according to site policy. Notes: Site policy may mandate a testing period before install onto production systems for available updates. 2 Services While applying system updates and patches helps correct known vulnerabilities, one of the best ways to protect the system against as yet unreported vulnerabilities is to disable all services that are not required for normal system operation. This prevents the exploitation of vulnerabilities discovered at a later date. If a service is not enabled, it cannot be exploited. The actions in this section of the document provide guidance on some services which can be safely disabled and under which circumstances, greatly reducing the number of possible threats to the resulting system. Additionally some services which should remain enabled but with secure configuration are covered as well as insecure service clients. 2.1 inetd Services inetd is a super-server daemon that provides internet services and passes connections to configured services. While not commonly used inetd and any unneeded inetd based services should be disabled if possible. 2.1.1 Ensure chargen services are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: chargen is a network service that responds with 0 to 512 ASCII characters for each connection it receives. This service is intended for debugging and testing purposes. It is recommended that this service be disabled. Rationale: Disabling this service will reduce the remote attack surface of the system. Audit: Verify thechargen service is not enabled. Run the following command and verify results are as indicated: grep -R "^chargen" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify alchargen services have disable = yes set. Remediation: Comment out or remove any lines starting with chargen from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on allchargen services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.2 Ensure daytime services are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: daytime is a network service that responds with the server's current date and time. This service is intended for debugging and testing purposes. It is recommended that this service be disabled. Rationale: Disabling this service will reduce the remote attack surface of the system. Audit: Verify thedaytime service is not enabled. Run the following command and verify results are as indicated: grep -R "^daytime" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify aldaytime services have disable = yes set. Remediation: Comment out or remove any lines starting with daytime from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alldaytime services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.3 Ensure discard services are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: discard is a network service that simply discards all data it receives. This service is intended for debugging and testing purposes. It is recommended that this service be disabled. Rationale: Disabling this service will reduce the remote attack surface of the system. Audit: Verify thediscard service is not enabled. Run the following command and verify results are as indicated: grep -R "^discard" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify aldiscard services have disable = yes set. Remediation: Comment out or remove any lines starting with discard from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alldiscard services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.4 Ensure echo services are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: echo is a network service that responds to clients with the data sent to it by the client. This service is intended for debugging and testing purposes. It is recommended that this service be disabled. Rationale: Disabling this service will reduce the remote attack surface of the system. Audit: Verify theecho service is not enabled. Run the following command and verify results are as indicated: grep -R "^echo" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify alecho services have disable = yes set. Remediation: Comment out or remove any lines starting with echo from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on allecho services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.5 Ensure time services are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: time is a network service that responds with the server's current date and time as a 32 bit integer. This service is intended for debugging and testing purposes. It is recommended that this service be disabled. Rationale: Disabling this service will reduce the remote attack surface of the system. Audit: Verify thetime service is not enabled. Run the following command and verify results are as indicated: grep -R "^time" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify altime services have disable = yes set. Remediation: Comment out or remove any lines starting with time from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alltime services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.6 Ensure rsh server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Berkeley rsh-server (rsh ,rlogin ,rexec ) package contains legacy services that exchange credentials in clear-text. Rationale: These legacy services contain numerous security exposures and have been replaced with the more secure SSH package. Audit: Verify the rsh services are not enabled. Run the following commands and verify results are as indicated: grep -R "^shell" /etc/inetd.* grep -R "^login" /etc/inetd.* grep -R "^exec" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify allrsh ,rlogin , and rexec services have disable = yes set. Remediation: Comment out or remove any lines starting with shell ,login , or exec from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on allrsh ,rlogin , and rexec services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.7 Ensure talk server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The talk software makes it possible for users to send and receive messages across systems through a terminal session. The talk client (allows initiate of talk sessions) is installed by default. Rationale: The software presents a security risk as it uses unencrypted protocols for communication. Audit: Verify thetalk service is not enabled. Run the following commands and verify results are as indicated: grep -R "^ntalk" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify all talk services havdisable = yes set. Remediation: Comment out or remove any lines starting with talk or ntalk from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alltalk services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.8 Ensure telnet server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The telnet-server package contains the telnet daemon, which accepts connections from users from other systems via thetelnet protocol. Rationale: The telnet protocol is insecure and unencrypted. The use of an unencrypted transmission medium could allow a user with access to sniff network traffic the ability to steal credentials. Thessh package provides an encrypted session and stronger security. Audit: Verify thetelnet service is not enabled. Run the following command and verify results are as indicated: grep -R "^telnet" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify alltelnet services have disable = yes set. Remediation: Comment out or remove any lines starting with telnet from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alltelnet services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.9 Ensure tftp server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Trivial File Transfer Protocol (TFTP) is a simple file transfer protocol, typically used to automatically transfer configuration or boot machines from a boot server. The packages tftp and atftp are both used to define and support a TFTP server. Rationale: TFTP does not support authentication nor does it ensure the confidentiality or integrity of data. It is recommended that TFTP be removed, unless there is a specific need for TFTP. In that case, extreme caution must be used when configuring the services. Audit: Verify thetftp service is not enabled. Run the following command and verify results are as indicated: grep -R "^tftp" /etc/inetd.* No results should be returned check /etc/xinetd.conf and /etc/xinetd.d/* and verify altftp services have disable = yes set. Remediation: Comment out or remove any lines starting with tftp from /etc/inetd.conf and /etc/inetd.d/* . Set disable = yes on alltftp services in/etc/xinetd.conf and /etc/xinetd.d/* . 2.1.10 Ensure xinetd is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The eXtended InterNET Daemon ( xinetd ) is an open source super daemon that replaced the originalinetd daemon. The xinetd daemon listens for well known services and dispatches the appropriate daemon to properly respond to service requests. Rationale: If there are nxinetd services required, it is recommended that the daemon be disabled. Audit: Run the following command to verify xinetd is not enabled: # systemctl is-enabled xinetd disabled Verify result is not "enabled". Remediation: Run the following command to disable xinetd : # systemctl disable xinetd Notes: Additional methods of disabling a service exist. Consult your distribution documentation for appropriate methods. 2.2 Special Purpose Services This section describes services that are installed on systems that specifically need to run these services. If any of these services are not required, it is recommended that they be disabled or deleted from the system to reduce the potential attack surface. 2.2.1 Time Synchronization It is recommended that physical systems and virtual guests lacking direct access to the physical host's clock be configured to synchronize their time using a service such as NTP or chrony. 2.2.1.1 Ensure time synchronization is in use (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: System time should be synchronized between all systems in an environment. This is typically done by establishing an authoritative time server or set of servers and having all systems synchronize their clocks to them. Rationale: Time synchronization is important to support time sensitive security mechanisms like Kerberos and also ensures log files have consistent time records across the enterprise, which aids in forensic investigations. Audit: On physical systems or virtual systems where host based time synchronization is not available run the following commands and verify either NTP or chrony is installed: # dpkg -s ntp # dpkg -s chrony On virtual systems where host based time synchronization is available consult your virtualization software documentation and verify that host based synchronization is in use. Remediation: On physical systems or virtual systems where host based time synchronization is not available install NTP or chrony using one of the following commands: # apt-get install ntp # apt-get install chrony On virtual systems where host based time synchronization is available consult your virtualization software documentation and setup host based synchronization. 2.2.1.2 Ensure ntp is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: ntp is a daemon which implements the Network Time Protocol (NTP). It is designed to synchronize system clocks across a variety of systems and use a source that is highly accurate. More information on NTP can be found at http://www.ntp.org. ntp can be configured to be a client and/or a server. This recommendation only applies if ntp is in use on the system. Rationale: If ntp is in use on the system proper configuration is vital to ensuring time synchronization is working properly. Audit: Run the following command and verify output matches: # grep "^restrict" /etc/ntp.conf restrict -4 default kod nomodify notrap nopeer noquery restrict -6 default kod nomodify notrap nopeer noquery The -4 in the first line is optional and options adefault can appear in any order. Additional restriction lines may exist. Run the following command and verify remote server is configured properly: # grep "^server" /etc/ntp.conf server Multiple servers may be configured. Verify thatntp is configured to run as thntp user by running the following command: # grep "RUNASUSER=ntp" /etc/init.d/ntp RUNASUSER=ntp Remediation: Add or edit restrict lines i/etc/ntp.conf to match the following: restrict -4 default kod nomodify notrap nopeer noquery restrict -6 default kod nomodify notrap nopeer noquery Add or edit server lines to/etc/ntp.conf as appropriate: server Configure ntp to run as the ntp user by adding or editing the following file: /etc/init.d/ntp : RUNASUSER=ntp 2.2.1.3 Ensure chrony is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: chrony is a daemon which implements the Network Time Protocol (NTP) is designed to synchronize system clocks across a variety of systems and use a source that is highly accurate. More information on chrony can be found at http://chrony.tuxfamily.org/. chrony can be configured to be a client and/or a server. Rationale: If chrony is in use on the system proper configuration is vital to ensuring time synchronization is working properly. This recommendation only applies if chrony is in use on the system. Audit: Run the following command and verify remote server is configured properly: # grep "^server" /etc/chrony/chrony.conf server Multiple servers may be configured. Run the following command and verify the first field for thechronyd process is chrony : # ps -ef | grep chronyd _chrony 491 1 0 20:32 ? 00:00:00 /usr/sbin/chronyd Remediation: Add or edit server lines to/etc/chrony/chrony.conf as appropriate: server Configure chrony to run as thechrony user by configuring the appropriate startup script for your distribution. Startup scripts are typically stored /etc/init.d or /etc/systemd . 2.2.2 Ensure X Window System is not installed (Scored) Profile Applicability: Level 1 - Server Description: The X Window System provides a Graphical User Interface (GUI) where users can have multiple windows in which to run programs and various add on. The X Windows system is typically used on workstations where users login, but not on servers where users typically do not login. Rationale: Unless your organization specifically requires graphical login access via X Windows, remove it to reduce the potential attack surface. Audit: Run the following command and verify X Windows System is not installed: dpkg -l xserver-xorg* Remediation: Run the following command to remove the X Windows System packages: apt-get remove xserver-xorg* 2.2.3 Ensure Avahi Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Avahi is a free zeroconf implementation, including a system for multicast DNS/DNS-SD service discovery. Avahi allows programs to publish and discover services and hosts running on a local network with no specific configuration. For example, a user can plug a computer into a network and Avahi automatically finds printers to print to, files to look at and people to talk to, as well as network services running on the machine. Rationale: Automatic discovery of network services is not normally required for system functionality. It is recommended to disable the service to reduce the potential attach surface. Audit: Run the following command to verify avahi-daemon is not enabled: # systemctl is-enabled avahi-daemon disabled Verify result is not "enabled". Remediation: Run the following command to disable avahi-daemon : # systemctl disable avahi-daemon 2.2.4 Ensure CUPS is not enabled (Scored) Profile Applicability: Level 1 - Server Level 2 - Workstation Description: The Common Unix Print System (CUPS) provides the ability to print to both local and network printers. A system running CUPS can also accept print jobs from remote systems and print them to local printers. It also provides a web based remote administration capability. Rationale: If the system does not need to print jobs or accept print jobs from other systems, it is recommended that CUPS be disabled to reduce the potential attack surface. Audit: Run the following command to verify cups is not enabled: # systemctl is-enabled cups disabled Verify result is not "enabled". Remediation: Run the following command to disable cups: # systemctl disable cups Impact: Disabling CUPS will prevent printing from the system, a common task for workstation systems. References: 1. More detailed documentation on CUPS is available at the project homepage at http://www.cups.org. 2.2.5 Ensure DHCP Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Dynamic Host Configuration Protocol (DHCP) is a service that allows machines to be dynamically assigned IP addresses. Rationale: Unless a system is specifically set up to act as a DHCP server, it is recommended that this service be deleted to reduce the potential attack surface. Audit: Run the following commands to verify dhcpd is not enabled: # systemctl is-enabled isc-dhcp-server disabled # systemctl is-enabled isc-dhcp-server6 disabled Verify both results are not "enabled". Remediation: Run the following commands to disable dhcpd: # systemctl disable isc-dhcp-server # systemctl disable isc-dhcp-server6 References: 1. More detailed documentation on DHCP is available at http://www.isc.org/software/dhcp. 2.2.6 Ensure LDAP server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Lightweight Directory Access Protocol (LDAP) was introduced as a replacement for NIS/YP. It is a service that provides a method for looking up information from a central database. Rationale: If the system will not need to act as an LDAP server, it is recommended that the software be disabled to reduce the potential attack surface. Audit: Run the following command to verify slapd is not enabled: # systemctl is-enabled slapd disabled Verify result is not "enabled". Remediation: Run the following command to disable slapd : # systemctl disable slapd References: 1. For more detailed documentation on OpenLDAP, go to the project homepage at http://www.openldap.org. 2.2.7 Ensure NFS and RPC are not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Network File System (NFS) is one of the first and most widely distributed file systems in the UNIX environment. It provides the ability for systems to mount file systems of other servers through the network. Rationale: If the system does not export NFS shares or act as an NFS client, it is recommended that these services be disabled to reduce remote attack surface. Audit: Run the following command to verify nfs is not enabled: # systemctl is-enabled nfs-kernel-server disabled Verify result is not "enabled". Run the following command to verify rpcbind is not enabled: # systemctl is-enabled rpcbind disabled Verify result is not "enabled". Remediation: Run the following commands to disable nfs and rpcbind : # systemctl disable nfs-kernel-server # systemctl disable rpcbind 2.2.8 Ensure DNS Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Domain Name System (DNS) is a hierarchical naming system that maps names to IP addresses for computers, services and other resources connected to a network. Rationale: Unless a system is specifically designated to act as a DNS server, it is recommended that the package be deleted to reduce the potential attack surface. Audit: Run one of the following commands to verify named is not enabled: # systemctl is-enabled bind9 disabled Verify result is not "enabled". Remediation: Run the following command to disable named : # systemctl disable bind9 2.2.9 Ensure FTP Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The File Transfer Protocol (FTP) provides networked computers with the ability to transfer files. Rationale: FTP does not protect the confidentiality of data or authentication credentials. It is recommended sftp be used if file transfer is required. Unless there is a need to run the system as a FTP server (for example, to allow anonymous downloads), it is recommended that the package be deleted to reduce the potential attack surface. Audit: Run the following command to verify vsftpd is not enabled: # systemctl is-enabled vsftpd disabled Verify result is not "enabled". Remediation: Run the following command to disable vsftpd : # systemctl disable vsftpd Notes: Additional FTP servers also exist and should be audited. 2.2.10 Ensure HTTP server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: HTTP or web servers provide the ability to host web site content. Rationale: Unless there is a need to run the system as a web server, it is recommended that the package be deleted to reduce the potential attack surface. Audit: Run the following command to verify apache2 is not enabled: # systemctl is-enabled apache2 disabled Verify result is not "enabled". Remediation: Run the following command to disable apache2 : # systemctl disable apache2 2.2.11 Ensure IMAP and POP3 server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: dovecot is an open source IMAP and POP3 server for Linux based systems. Rationale: Unless POP3 and/or IMAP servers are to be provided by this system, it is recommended that the service be deleted to reduce the potential attack surface. Audit: Run the following command to verify dovecot is not enabled: # systemctl is-enabled dovecot disabled Verify result is not "enabled". Remediation: Run the following command to disable dovecot : # systemctl disable dovecot Notes: Several IMAP/POP3 servers exist and can use other service names. exim and cyrus- imap are example services that provide an HTTP server. These and other services should also be audited. 2.2.12 Ensure Samba is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Samba daemon allows system administrators to configure their Linux systems to share file systems and directories with Windows desktops. Samba will advertise the file systems and directories via the Small Message Block (SMB) protocol. Windows desktop users will be able to mount these directories and file systems as letter drives on their systems. Rationale: If there is no need to mount directories and file systems to Windows systems, then this service can be deleted to reduce the potential attack surface. Audit: Run the following command to verify smbd is not enabled: # systemctl is-enabled smbd disabled Verify result is not "enabled". Remediation: Run the following command to disable smbd : # systemctl disable smbd 2.2.13 Ensure HTTP Proxy Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Squid is a standard proxy server used in many distributions and environments. Rationale: If there is no need for a proxy server, it is recommended that the squid proxy be deleted to reduce the potential attack surface. Audit: Run the following command to verify squid is not enabled: disabledctl is-enabled squid Verify result is not "enabled". Remediation: Run the following command to disable squid : # systemctl disable squid 2.2.14 Ensure SNMP Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Simple Network Management Protocol (SNMP) server is used to listen for SNMP commands from an SNMP management system, execute the commands or collect the information and then send results back to the requesting system. Rationale: The SNMP server communicates using SNMP v1, which transmits data in the clear and does not require authentication to execute commands. Unless absolutely necessary, it is recommended that the SNMP service not be used. Audit: Run the following command to verify snmpd is not enabled: # systemctl is-enabled snmpd disabled Verify result is not "enabled". Remediation: Run the following command to disable snmpd : # systemctl disable snmpd 2.2.15 Ensure mail transfer agent is configured for local-only mode (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Mail Transfer Agents (MTA), such as sendmail and Postfix, are used to listen for incoming mail and transfer the messages to the appropriate user or mail server. If the system is not intended to be a mail server, it is recommended that the MTA be configured to only process local mail. Rationale: The software for all Mail Transfer Agents is complex and most have a long history of security issues. While it is important to ensure that the system can process local mail messages, it is not necessary to have the MTA's daemon listening on a port unless the server is intended to be a mail server that receives and processes mail from other systems. Audit: Run the following command and verify that the MTA is not listening on any non-loopback address (127.0.0.1 or ::1): # netstat -an | grep LIST | grep ":25[[:space:]]" tcp 0 0 127.0.0.1:25 0.0.0.0:* LISTEN Remediation: Edit /etc/postfix/main.cf and add the following line to the RECEIVING MAIL section. If the line already exists, change it to look like the line below: inet_interfaces = localhost Restart postfix: # service postfix restart Notes: This recommendation is designed around the postfix mail server, depending on your environment you may have an alternative MTA installed such as sendmail. If this is the case consult the documentation for your installed MTA to configure the recommended state. 2.2.16 Ensure rsync service is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The rsyncd service can be used to synchronize files between systems over network links. Rationale: The rsyncd service presents a security risk as it uses unencrypted protocols for communication. Audit: Run the following command to verify rsync is not enabled: # systemctl is-enabled rsync disabled Verify result is not "enabled". Remediation: Run the following command to disable rsync: # systemctl disable rsync 2.2.17 Ensure NIS Server is not enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Network Information Service (NIS) (formally known as Yellow Pages) is a client-server directory service protocol for distributing system configuration files. The NIS server is a collection of programs that allow for the distribution of configuration files. Rationale: The NIS service is inherently an insecure system that has been vulnerable to DOS attacks, buffer overflows and has poor authentication for querying NIS maps. NIS generally been replaced by such protocols as Lightweight Directory Access Protocol (LDAP). It is recommended that the service be disabled and other, more secure services be used Audit: Run the following command to verify nis is not enabled: disabledctl is-enabled nis Verify result is not "enabled". Remediation: Run the following command to disable nis : # systemctl disable nis 2.3 Service Clients A number of insecure services exist. While disabling the servers prevents a local attack against these services, it is advised to remove their clients unless they are required. Note: This should not be considered a comprehensive list of insecure service clients. You may wish to consider additions to those listed here for your environment. 2.3.1 Ensure NIS Client is not installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Network Information Service (NIS), formerly known as Yellow Pages, is a client-server directory service protocol used to distribute system configuration files. The NIS client (ypbind ) was used to bind a machine to an NIS server and receive the distributed configuration files. Rationale: The NIS service is inherently an insecure system that has been vulnerable to DOS attacks, buffer overflows and has poor authentication for querying NIS maps. NIS generally has been replaced by such protocols as Lightweight Directory Access Protocol (LDAP). It is recommended that the service be removed. Audit: Run the following command and verify nis is not installed: dpkg -s nis Remediation: Run the following command to uninstall nis: apt-get remove nis Impact: Many insecure service clients are used as troubleshooting tools and in testing environments. Uninstalling them can inhibit capability to test and troubleshoot. If they are required it is advisable to remove the clients after use to prevent accidental or intentional misuse. 2.3.2 Ensure rsh client is not installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The rsh package contains the client commands for the rsh services. Rationale: These legacy clients contain numerous security exposures and have been replaced with the more secure SSH package. Even if the server is removed, it is best to ensure the clients are also removed to prevent users from inadvertently attempting to use these commands and therefore exposing their credentials. Note that removing the rsh package removes the clients forrsh,rcp and rlogin . Audit: Run the following commands and verify rsh is not installed: dpkg -s rsh-redone-client Remediation: Run the following command to uninstall rsh : apt-get remove rsh-client rsh-redone-client Impact: Many insecure service clients are used as troubleshooting tools and in testing environments. Uninstalling them can inhibit capability to test and troubleshoot. If they are required it is advisable to remove the clients after use to prevent accidental or intentional misuse. 2.3.3 Ensure talk client is not installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The talk software makes it possible for users to send and receive messages across systems through a terminal session. The talk client, which allows initialization of talk sessions, is installed by default. Rationale: The software presents a security risk as it uses unencrypted protocols for communication. Audit: Run the following command and verify talk is not installed: dpkg -s talk Remediation: Run the following command to uninstall talk : apt-get remove talk Impact: Many insecure service clients are used as troubleshooting tools and in testing environments. Uninstalling them can inhibit capability to test and troubleshoot. If they are required it is advisable to remove the clients after use to prevent accidental or intentional misuse. 2.3.4 Ensure telnet client is not installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The telnet package contains the telnet client, which allows users to start connections to other systems via the telnet protocol. Rationale: The telnet protocol is insecure and unencrypted. The use of an unencrypted transmission medium could allow an unauthorized user to steal credentials. The ssh package provides an encrypted session and stronger security and is included in most Linux distributions. Audit: Run the following command and verify telnet is not installed: # dpkg -s telnet Remediation: Run the following command to uninstall telnet : # apt-get remove telnet Impact: Many insecure service clients are used as troubleshooting tools and in testing environments. Uninstalling them can inhibit capability to test and troubleshoot. If they are required it is advisable to remove the clients after use to prevent accidental or intentional misuse. 2.3.5 Ensure LDAP client is not installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Lightweight Directory Access Protocol (LDAP) was introduced as a replacement for NIS/YP. It is a service that provides a method for looking up information from a central database. Rationale: If the system will not need to act as an LDAP client, it is recommended that the software be removed to reduce the potential attack surface. Audit: Run the following command and verify ldap-utils is not installed: # dpkg -s ldap-utils Remediation: Uninstallldap-utils using the appropriate package manager or manual installation: # apt-get remove ldap-utils Impact: Removing the LDAP client will prevent or inhibit using LDAP for authentication in your environment. 3 Network Configuration This section provides guidance on for securing the network configuration of the system through kernel parameters, access list control, and firewall settings. 3.1 Network Parameters (Host Only) The following network parameters are intended for use if the system is to act as a host only. A system is considered host only if the system has a single interface, or has multiple interfaces but will not be configured as a router. 3.1.1 Ensure IP forwarding is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The net.ipv4.ip_forward flag is used to tell the system whether it can forward packets or not. Rationale: Setting the flag to 0 ensures that a system with multiple interfaces (for example, a hard proxy), will never be able to forward packets, and therefore, never serve as a router. Audit: Run the following command and verify output matches: # sysctl net.ipv4.ip_forward net.ipv4.ip_forward = 0 Remediation: Set the following parameter in the/etc/sysctl.conf file: net.ipv4.ip_forward = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.route.flush=1 3.1.2 Ensure packet redirect sending is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: ICMP Redirects are used to send routing information to other hosts. As a host itself does not act as a router (in a host only configuration), there is no need to send redirects. Rationale: An attacker could use a compromised host to send invalid ICMP redirects to other router devices in an attempt to corrupt routing and have users access a system set up by the attacker as opposed to a valid system. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.send_redirects net.ipv4.conf.all.send_redirects = 0 # sysctl net.ipv4.conf.default.send_redirects net.ipv4.conf.default.send_redirects = 0 Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv4.conf.all.send_redirects = 0 net.ipv4.conf.default.send_redirects = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.default.send_redirects=0 # sysctl -w net.ipv4.route.flush=1 3.2 Network Parameters (Host and Router) The following network parameters are intended for use on both host only and router systems. A system acts as a router if it has at least two interfaces and is configured to perform routing functions. 3.2.1 Ensure source routed packets are not accepted (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: In networking, source routing allows a sender to partially or fully specify the route packets take through a network. In contrast, non-source routed packets travel a path determined by routers in the network. In some cases, systems may not be routable or reachable from some locations (e.g. private addresses vs. Internet routable), and so source routed packets would need to be used. Rationale: Settingnet.ipv4.conf.all.accept_source_route and net.ipv4.conf.default.accept_source_route to 0 disables the system from accepting source routed packets. Assume this system was capable of routing packets to Internet routable addresses on one interface and private addresses on another interface. Assume that the private addresses were not routable to the Internet routable addresses and vice versa. Under normal routing circumstances, an attacker from the Internet routable addresses could not use the system as a way to reach the private address systems. If, however, source routed packets were allowed, they could be used to gain access to the private address systems as the route could be specified, rather than rely on routing protocols that did not allow this routing. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.accept_source_route net.ipv4.conf.all.accept_source_route = 0 # sysctl net.ipv4.conf.default.accept_source_route net.ipv4.conf.default.accept_source_route = 0 Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv4.conf.all.accept_source_route = 0 net.ipv4.conf.default.accept_source_route = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.all.accept_source_route=0 # sysctl -w net.ipv4.conf.default.accept_source_route=0 # sysctl -w net.ipv4.route.flush=1 3.2.2 Ensure ICMP redirects are not accepted (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: ICMP redirect messages are packets that convey routing information and tell your host (acting as a router) to send packets via an alternate path. It is a way of allowing an outside routing device to update your system routing tables. By setting net.ipv4.conf.all.accept_redirects to 0, the system will not accept any ICMP redirect messages, and therefore, won't allow outsiders to update the system's routing tables. Rationale: Attackers could use bogus ICMP redirect messages to maliciously alter the system routing tables and get them to send packets to incorrect networks and allow your system packets to be captured. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.accept_redirects net.ipv4.conf.all.accept_redirects = 0 net.ipv4.conf.default.accept_redirects = 0rects Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv4.conf.all.accept_redirects = 0 net.ipv4.conf.default.accept_redirects = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.all.accept_redirects=0 # sysctl -w net.ipv4.conf.default.accept_redirects=0 # sysctl -w net.ipv4.route.flush=1 3.2.3 Ensure secure ICMP redirects are not accepted (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Secure ICMP redirects are the same as ICMP redirects, except they come from gateways listed on the default gateway list. It is assumed that these gateways are known to your system, and that they are likely to be secure. Rationale: It is still possible for even known gateways to be compromised. Setting net.ipv4.conf.all.secure_redirects to 0 protects the system from routing table updates by possibly compromised known gateways. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.secure_redirects net.ipv4.conf.all.secure_redirects = 0 # sysctl net.ipv4.conf.default.secure_redirects net.ipv4.conf.default.secure_redirects = 0 Remediation: Set the following parameters in the/etc/sysctl.conf file: net.ipv4.conf.all.secure_redirects = 0 net.ipv4.conf.default.secure_redirects = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.all.secure_redirects=0 # sysctl -w net.ipv4.conf.default.secure_redirects=0 # sysctl -w net.ipv4.route.flush=1 3.2.4 Ensure suspicious packets are logged (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: When enabled, this feature logs packets with un-routable source addresses to the kernel log. Rationale: Enabling this feature and logging these packets allows an administrator to investigate the possibility that an attacker is sending spoofed packets to their system. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.log_martians net.ipv4.conf.all.log_martians = 1 # sysctl net.ipv4.conf.default.log_martians net.ipv4.conf.default.log_martians = 1 Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv4.conf.all.log_martians = 1 net.ipv4.conf.default.log_martians = 1 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.all.log_martians=1 # sysctl -w net.ipv4.conf.default.log_martians=1 # sysctl -w net.ipv4.route.flush=1 3.2.5 Ensure broadcast ICMP requests are ignored (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Setting net.ipv4.icmp_echo_ignore_broadcasts to 1 will cause the system to ignore all ICMP echo and timestamp requests to broadcast and multicast addresses. Rationale: Accepting ICMP echo and timestamp requests with broadcast or multicast destinations for your network could be used to trick your host into starting (or participating) in a Smurf attack. A Smurf attack relies on an attacker sending large amounts of ICMP broadcast messages with a spoofed source address. All hosts receiving this message and responding would send echo-reply messages back to the spoofed address, which is probably not routable. If many hosts respond to the packets, the amount of traffic on the network could be significantly multiplied. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.icmp_echo_ignore_broadcasts net.ipv4.icmp_echo_ignore_broadcasts = 1 Remediation: Set the following parameter in the /etc/sysctl.conf file: net.ipv4.icmp_echo_ignore_broadcasts = 1 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.icmp_echo_ignore_broadcasts=1 # sysctl -w net.ipv4.route.flush=1 3.2.6 Ensure bogus ICMP responses are ignored (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Setting icmp_ignore_bogus_error_responses to 1 prevents the kernel from logging bogus responses (RFC-1122 non-compliant) from broadcast reframes, keeping file systems from filling up with useless log messages. Rationale: Some routers (and some attackers) will send responses that violate RFC-1122 and attempt to fill up a log file system with many useless error messages. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.icmp_ignore_bogus_error_responses net.ipv4.icmp_ignore_bogus_error_responses = 1 Remediation: Set the following parameter in the/etc/sysctl.conf file: net.ipv4.icmp_ignore_bogus_error_responses = 1 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.icmp_ignore_bogus_error_responses=1 # sysctl -w net.ipv4.route.flush=1 3.2.7 Ensure Reverse Path Filtering is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Setting net.ipv4.conf.all.rp_filter and net.ipv4.conf.default.rp_filter to 1 forces the Linux kernel to utilize reverse path filtering on a received packet to determine if the packet was valid. Essentially, with reverse path filtering, if the return packet does not go out the same interface that the corresponding source packet came from, the packet is dropped (and logged if log_martians is set). Rationale: Setting these flags is a good way to deter attackers from sending your system bogus packets that cannot be responded to. One instance where this feature breaks down is if asymmetrical routing is employed. This would occur when using dynamic routing protocols (bgp, ospf, etc) on your system. If you are using asymmetrical routing on your system, you will not be able to enable this feature without breaking the routing. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.conf.all.rp_filter net.ipv4.conf.all.rp_filter = 1 net.ipv4.conf.default.rp_filter = 1ilter Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv4.conf.all.rp_filter = 1 net.ipv4.conf.default.rp_filter = 1 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.conf.all.rp_filter=1 # sysctl -w net.ipv4.conf.default.rp_filter=1 # sysctl -w net.ipv4.route.flush=1 3.2.8 Ensure TCP SYN Cookies is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: When tcp_syncookies is set, the kernel will handle TCP SYN packets normally until the half-open connection queue is full, at which time, the SYN cookie functionality kicks in. SYN cookies work by not using the SYN queue at all. Instead, the kernel simply replies to the SYN with a SYN|ACK, but will include a specially crafted TCP sequence number that encodes the source and destination IP address and port number and the time the packet was sent. A legitimate connection would send the ACK packet of the three way handshake with the specially crafted sequence number. This allows the system to verify that it has received a valid response to a SYN cookie and allow the connection, even though there is no corresponding SYN in the queue. Rationale: Attackers use SYN flood attacks to perform a denial of service attacked on a system by sending many SYN packets without completing the three way handshake. This will quickly use up slots in the kernel's half-open connection queue and prevent legitimate connections from succeeding. SYN cookies allow the system to keep accepting valid connections, even if under a denial of service attack. Audit: Run the following commands and verify output matches: # sysctl net.ipv4.tcp_syncookies net.ipv4.tcp_syncookies = 1 Remediation: Set the following parameter in the/etc/sysctl.conf file: net.ipv4.tcp_syncookies = 1 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv4.tcp_syncookies=1 # sysctl -w net.ipv4.route.flush=1 3.3 IPv6 IPv6 is a networking protocol that supersedes IPv4. It has more routable addresses and has built in security. If IPv6 is to be used, follow this section of the benchmark to configure IPv6, otherwise disable IPv6. 3.3.1 Ensure IPv6 router advertisements are not accepted (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: This setting disables the system's ability to accept IPv6 router advertisements. Rationale: It is recommended that systems not accept router advertisements as they could be tricked into routing traffic to compromised machines. Setting hard routes within the system (usually a single default route to a trusted router) protects the system from bad routes. Audit: Run the following commands and verify output matches: # sysctl net.ipv6.conf.all.accept_ra net.ipv6.conf.all.accept_ra = 0 # sysctl net.ipv6.conf.default.accept_ra net.ipv6.conf.default.accept_ra = 0 Remediation: Set the following parameters in the/etc/sysctl.conf file: net.ipv6.conf.default.accept_ra = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv6.conf.all.accept_ra=0 # sysctl -w net.ipv6.conf.default.accept_ra=0 # sysctl -w net.ipv6.route.flush=1 3.3.2 Ensure IPv6 redirects are not accepted (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: This setting prevents the system from accepting ICMP redirects. ICMP redirects tell the system about alternate routes for sending traffic. Rationale: It is recommended that systems not accept ICMP redirects as they could be tricked into routing traffic to compromised machines. Setting hard routes within the system (usually a single default route to a trusted router) protects the system from bad routes. Audit: Run the following commands and verify output matches: # sysctl net.ipv6.conf.all.accept_redirects net.ipv6.conf.all.accept_redirect = 0 # sysctl net.ipv6.conf.default.accept_redirects net.ipv6.conf.default.accept_redirect = 0 Remediation: Set the following parameters in the /etc/sysctl.conf file: net.ipv6.conf.all.accept_redirects = 0 net.ipv6.conf.default.accept_redirects = 0 Run the following commands to set the active kernel parameters: # sysctl -w net.ipv6.conf.default.accept_redirects=0 # sysctl -w net.ipv6.route.flush=1 3.3.3 Ensure IPv6 is disabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Although IPv6 has many advantages over IPv4, few organizations have implemented IPv6. Rationale: If IPv6 is not to be used, it is recommended that it be disabled to reduce the attack surface of the system. Audit: Run the following command and verify that each linux line has the 'ipv6.disable=1' parameter set: # grep "^\s*linux" /boot/grub/grub.cfg Remediation: Edit/etc/default/grub and add 'ipv6.disable=1' to GRUB_CMDLINE_LINUX: GRUB_CMDLINE_LINUX="ipv6.disable=1" Run the following command to update the grub2 configuration: # update-grub 3.4 TCP Wrappers 3.4.1 Ensure TCP Wrappers is installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: TCP Wrappers provides a simple access list and standardized logging method for services capable of supporting it. In the past, services that were calledinetd and xinetd supported the use of tcp wrappers. Asinetd and xinetd have been falling in disuse, any service that can support tcp wrappers will have thlibwrap.so library attached to it. Rationale: TCP Wrappers provide a good simple access list mechanism to services that may not have that support built in. It is recommended that all services that can support TCP Wrappers, use it. Audit: Run the following command and verify TCP Wrappers is installed: dpkg -s tcpd Remediation: Run the following command to install TCP Wrappers: apt-get install tcpd Notes: To verify if a service supports TCP Wrappers, run the following command: # ldd | grep libwrap.so If there is any output, then the service supports TCP Wrappers. 3.4.2 Ensure /etc/hosts.allow is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/hosts.allow file specifies which IP addresses are permitted to connect to the host. It is intended to be used in conjunction with t/etc/hosts.deny file. Rationale: The /etc/hosts.allow file supports access control by IP and helps ensure that only authorized systems can connect to the system. Audit: Run the following command and verify the contents of the /etc/hosts.allow file: # cat /etc/hosts.allow Remediation: Run the following command to create /etc/hosts.allow : # echo "ALL: /, /, ..." >/etc/hosts.allow where each / combination (for example, "192.168.1.0/255.255.255.0") represents one network block in use by your organization that requires access to this system. Notes: Contents of the /etc/hosts.allow file will vary depending on your network configuration. 3.4.3 Ensure /etc/hosts.deny is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/hosts.deny file specifies which IP addresses are not permitted to connect to the host. It is intended to be used in conjunction with t/etc/hosts.allow file. Rationale: The /etc/hosts.deny file serves as a failsafe so that any host not specified in /etc/hosts.allow is denied access to the system. Audit: Run the following command and verify the contents of the /etc/hosts.deny file: # cat /etc/hosts.deny ALL: ALL Remediation: Run the following command to create /etc/hosts.deny : # echo "ALL: ALL" >> /etc/hosts.deny Notes: Contents of the/etc/hosts.deny file may include additional options depending on your network configuration. 3.4.4 Ensure permissions on /etc/hosts.allow are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/hosts.allow file contains networking information that is used by many applications and therefore must be readable for these applications to operate. Rationale: It is critical to ensure that /etc/hosts.allow file is protected from unauthorized write access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : # stat /etc/hosts.allow Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on /etc/hosts.allow : # chown root:root /etc/hosts.allow # chmod 644 /etc/hosts.allow 3.4.5 Ensure permissions on /etc/hosts.deny are 644 (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/hosts.deny file contains network information that is used by many system applications and therefore must be readable for these applications to operate. Rationale: It is critical to ensure that /etc/hosts.deny file is protected from unauthorized write access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set permissions on /etc/hosts.deny : # chown root:root /etc/hosts.deny # chmod 644 /etc/hosts.deny 3.5 Uncommon Network Protocols The Linux kernel modules support several network protocols that are not commonly used. If these protocols are not needed, it is recommended that they be disabled in the kernel. Note: This should not be considered a comprehensive list of uncommon network protocols, you may wish to consider additions to those listed here for your environment. 3.5.1 Ensure DCCP is disabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Datagram Congestion Control Protocol (DCCP) is a transport layer protocol that supports streaming media and telephony. DCCP provides a way to gain access to congestion control, without having to do it at the application layer, but does not provide in- sequence delivery. Rationale: If the protocol is not required, it is recommended that the drivers not be installed to reduce the potential attack surface. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v dccp install /bin/true # lsmod | grep dccp Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install dccp /bin/true 3.5.2 Ensure SCTP is disabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Stream Control Transmission Protocol (SCTP) is a transport layer protocol used to support message oriented communication, with several streams of messages in one connection. It serves a similar function as TCP and UDP, incorporating features of both. It is message-oriented like UDP, and ensures reliable in-sequence transport of messages with congestion control like TCP. Rationale: If the protocol is not being used, it is recommended that kernel module not be loaded, disabling the service to reduce the potential attack surface. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v sctp install /bin/true # lsmod | grep sctp Remediation: Edit or create the fil/etc/modprobe.d/CIS.conf and add the following line: install sctp /bin/true 3.5.3 Ensure RDS is disabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Reliable Datagram Sockets (RDS) protocol is a transport layer protocol designed to provide low-latency, high-bandwidth communications between cluster nodes. It was developed by the Oracle Corporation. Rationale: If the protocol is not being used, it is recommended that kernel module not be loaded, disabling the service to reduce the potential attack surface. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v rds install /bin/true # lsmod | grep rds Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install rds /bin/true 3.5.4 Ensure TIPC is disabled (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Transparent Inter-Process Communication (TIPC) protocol is designed to provide communication between cluster nodes. Rationale: If the protocol is not being used, it is recommended that kernel module not be loaded, disabling the service to reduce the potential attack surface. Audit: Run the following commands and verify the output is as indicated: # modprobe -n -v tipc install /bin/true # lsmod | grep tipc Remediation: Edit or create the fi/etc/modprobe.d/CIS.conf and add the following line: install tipc /bin/true 3.6 Firewall Configuration IPtables is an application that allows a system administrator to configure the IPv4 tables, chains and rules provided by the Linux kernel firewall. While several methods of configuration exist this section is intended only to ensure the resulting IPtables rules are in place, not how they are configured. If IPv6 is in use in your environment, similar settings should be applied to the IP6tables as well. Note: This section broadly assumes starting with an empty IPtables firewall ruleset (established by flushing the rules withiptables -F ). Remediation steps included only affect the live system, you will also need to configure your default firewall configuration to apply on boot. Configuration of a live systems firewall directly over a remote connection will often result in being locked out. It is advised to have a known good firewall configuration set to run on boot and to configure an entire firewall structure in a script that is then run and tested before saving to boot. The following script will implement the firewall rules of this section and open port 22(ssh) from anywhere: #!/bin/bash # Flush IPtables rules iptables -F # Ensure default deny firewall policy iptables -P OUTPUT DROP iptables -P FORWARD DROP # Ensure loopback traffic is configured iptables -A INPUT -i lo -j ACCEPT iptables -A OUTPUT -o lo -j ACCEPT iptables -A INPUT -s 127.0.0.0/8 -j DROP # Ensure outbound and established connections are configured iptables -A OUTPUT -p tcp -m state --state NEW,ESTABLISHED -j ACCEPT iptables -A OUTPUT -p udp -m state --state NEW,ESTABLISHED -j ACCEPT iptables -A OUTPUT -p icmp -m state --state NEW,ESTABLISHED -j ACCEPT iptables -A INPUT -p tcp -m state --state ESTABLISHED -j ACCEPT iptables -A INPUT -p udp -m state --state ESTABLISHED -j ACCEPT iptables -A INPUT -p icmp -m state --state ESTABLISHED -j ACCEPT # Open inbound ssh(tcp port 22) connections iptables -A INPUT -p tcp --dport 22 -m state --state NEW -j ACCEPT Ubuntu is distributed with the UFW service which acts as a front end to iptables. The default configuration of UFW implements a configuration very similar to that recommended here. IPTables configuration allows for far more complex implementations than those listed here which may satisfy the intent of these recommendations without strictly matching the examples provided. Note: UFW may interfere with sysctl settings. 3.6.1 Ensure iptables is installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: iptables allows configuration of the IPv4 tables in the linux kernel and the rules stored within them. Most firewall configuration utilities operate as a front end to iptables . Rationale: iptables is required for firewall management and configuration. Audit: Run the following command and verify iptables is installed: # dpkg -s iptables Remediation: Run the following command to install iptables : # apt-get install iptables 3.6.2 Ensure default deny firewall policy (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: A default deny all policy on connections ensures that any unconfigured network usage will be rejected. Rationale: With a default accept policy the firewall will accept any packet that is not configured to be denied. It is easier to white list acceptable usage than to black list unacceptable usage. Audit: Run the following command and verify that the policy for the INPUT ,OUTPUT , and FORWARD chains isDROP orREJECT : # iptables -L Chain INPUT (policy DROP) Chain FORWARD (policy DROP) Chain OUTPUT (policy DROP) Remediation: Run the following commands to implement a default DROP policy: # iptables -P INPUT DROP # iptables -P OUTPUT DROP # iptables -P FORWARD DROP Notes: Changing firewall settings while connected over network can result in being locked out of the system. Remediation will only affect the active system firewall, be sure to configure the default policy in your firewall management to apply on boot as well. 3.6.3 Ensure loopback traffic is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Configure the loopback interface to accept traffic. Configure all other interfaces to deny traffic to the loopback network (127.0.0.0/8). Rationale: Loopback traffic is generated between processes on machine and is typically critical to operation of the system. The loopback interface is the only place that loopback network (127.0.0.0/8) traffic should be seen, all other interfaces should ignore traffic on this network as an anti-spoofing measure. Audit: Run the following commands and verify output includes the listed rules in order (packet and byte counts may differ): # iptables -L INPUT -v -n Chain INPUT (policy DROP 0 packets, 0 bytes) pkts bytes target prot opt in out source destination 0 0 ACCEPT all -- lo * 0.0.0.0/0 0.0.0.0/0 0 0 DROP all -- * * 127.0.0.0/8 0.0.0.0/0 # iptables -L OUTPUT -v -n Chain OUTPUT (policy DROP 0 packets, 0 bytes) pkts bytes target prot opt in out source destination 0 0 ACCEPT all -- * lo 0.0.0.0/0 0.0.0.0/0 Remediation: Run the following commands to implement the loopback rules: # iptables -A INPUT -i lo -j ACCEPT # iptables -A OUTPUT -o lo -j ACCEPT # iptables -A INPUT -s 127.0.0.0/8 -j DROP Notes: Changing firewall settings while connected over network can result in being locked out of the system. Remediation will only affect the active system firewall, be sure to configure the default policy in your firewall management to apply on boot as well. 3.6.4 Ensure outbound and established connections are configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Configure the firewall rules for new outbound, and established connections. Rationale: If rules are not in place for new outbound, and established connections all packets will be dropped by the default policy preventing network usage. Audit: Run the following command and verify all rules for new outbound, and established connections match site policy: # iptables -L -v -n Remediation: Configure iptables in accordance with site policy. The following commands will implement a policy to allow all outbound connections and all established connections: # iptables -A OUTPUT -p tcp -m state --state NEW,ESTABLISHED -j ACCEPT # iptables -A OUTPUT -p udp -m state --state NEW,ESTABLISHED -j ACCEPT # iptables -A OUTPUT -p icmp -m state --state NEW,ESTABLISHED -j ACCEPT # iptables -A INPUT -p tcp -m state --state ESTABLISHED -j ACCEPT # iptables -A INPUT -p udp -m state --state ESTABLISHED -j ACCEPT # iptables -A INPUT -p icmp -m state --state ESTABLISHED -j ACCEPT Notes: Changing firewall settings while connected over network can result in being locked out of the system. Remediation will only affect the active system firewall, be sure to configure the default policy in your firewall management to apply on boot as well. 3.6.5 Ensure firewall rules exist for all open ports (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Any ports that have been opened on non-loopback addresses need firewall rules to govern traffic. Rationale: Without a firewall rule configured for open ports default firewall policy will drop all packets to these ports. Audit: Run the following command to determine open ports: # netstat -ln Active Internet connections (only servers) Proto Recv-Q Send-Q Local Address Foreign Address State tcp 0 0 0.0.0.0:22 0.0.0.0:* LISTEN Run the following command to determine firewall rules: # iptables -L INPUT -v -n Chain INPUT (policy DROP 0 packets, 0 bytes) pkts bytes target prot opt in out source destination 0 0 ACCEPT all -- lo * 0.0.0.0/0 0.0.0.0/0 0 0 DROP all -- * * 127.0.0.0/8 0.0.0.0/0 0 0 ACCEPT tcp -- * * 0.0.0.0/0 0.0.0.0/0 tcp dpt:22 state NEW Verify all open ports listening on non-localhost addresses have at least one firewall rule. The last line identified by the "tcp dpt:22 state NEW" identifies it as a firewall rule for new connections on tcp port 22. Remediation: For each port identified in the audit which does not have a firewall rule establish a proper rule for accepting inbound connections: # iptables -A INPUT -p --dport -m state --state NEW -j ACCEPT Notes: Changing firewall settings while connected over network can result in being locked out of the system. Remediation will only affect the active system firewall, be sure to configure the default policy in your firewall management to apply on boot as well. The remediation command opens up the port to traffic from all sources. Consult iptables documentation and set any restrictions in compliance with site policy. 3.7 Ensure wireless interfaces are disabled (Not Scored) Profile Applicability: Level 1 - Server Level 2 - Workstation Description: Wireless networking is used when wired networks are unavailable. Ubuntu contains a wireless tool kit to allow system administrators to configure and use wireless networks. Rationale: If wireless is not to be used, wireless devices can be disabled to reduce the potential attack surface. Audit: Run the following command to determine wireless interfaces on the system: # iwconfig Run the following command and verify wireless interfaces are active: # ip link show up Remediation: Run the following command to disable any wireless interfaces: # ip link set down Disable any wireless interfaces in your network configuration. Impact: Many if not all laptop workstations and some desktop workstations will connect via wireless requiring these interfaces be enabled. 4 Logging and Auditing The items in this section describe how to configure logging, log monitoring, and auditing, using tools included in most distributions. It is recommended that rsyslog be used for logging (withlogwatch providing summarization) and auditd be used for auditing (witaureport providing summarization) to automatically monitor logs for intrusion attempts and other suspicious system behavior. In addition to the local log files created by the steps in this section, it is also recommended that sites collect copies of their system logs on a secure, centralized log server via an encrypted connection. Not only does centralized logging help sites correlate events that may be occurring on multiple systems, but having a second copy of the system log information may be critical after a system compromise where the attacker has modified the local log files on the affected system(s). If a log correlation system is deployed, configure it to process the logs described in this section. Because it is often necessary to correlate log information from many different systems (particularly after a security incident) it is recommended that the time be synchronized among systems and devices connected to the local network. The standard Internet protocol for time synchronization is the Network Time Protocol (NTP), which is supported by most network-ready devices. See the ntpd(8) manual page for more information on configuring NTP. It is important that all logs described in this section be monitored on a regular basis and correlated to determine trends. A seemingly innocuous entry in one log could be more significant when compared to an entry in another log. Note on log file permissions: There really isn't a "one size fits all" solution to the permissions on log files. Many sites utilize group permissions so that administrators who are in a defined security group, such as "wheel" do not have to elevate privileges to root in order to read log files. Also, if a third party log aggregation tool is used, it may need to have group permissions to read the log files, which is preferable to having it run setuid to root. Therefore, there are two remediation and audit steps for log file permissions. One is for systems that do not have a secured group method implemented that only permits root to read the log filesroot:root 600 ). The other is for sites that do have such a setup and are designated as root:securegrp 640 where securegrp is the defined security group (in some cases wheel ). 4.1 Configure System Accounting (auditd) System auditing, through auditd , allows system administrators to monitor their systems such that they can detect unauthorized access or modification of data. By default, auditd will audit SELinux AVC denials, system logins, account modifications, and authentication events. Events will be logged to/var/log/audit/audit.log . The recording of these events will use a modest amount of disk space on a system. If significantly more events are captured, additional on system or off system storage may need to be allocated. The recommendations in this section implement an audit policy that produces large quantities of logged data. In some environments it can be challenging to store or process these logs and as such they are marked as Level 2 for both Servers and Workstations. Note: For 64 bit systems that have arch as a rule parameter, you will need two rules: one for 64 bit and one for 32 bit systems. For 32 bit systems, only one rule is needed. Note: Once all configuration changes have been made to /etc/audit/audit.rules , the auditd configuration must be reloaded: # service auditd reload 4.1.1 Configure Data Retention When auditing, it is important to carefully configure the storage requirements for audit logs. By default, auditd will max out the log files at 5MB and retain only 4 copies of them. Older versions will be deleted. It is possible on a system that the 20 MBs of audit logs may fill up the system causing loss of audit data. While the recommendations here provide guidance, check your site policy for audit storage requirements. 4.1.1.1 Ensure audit log storage size is configured (Not Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Configure the maximum size of the audit log file. Once the log reaches the maximum size, it will be rotated and a new log file will be started. Rationale: It is important that an appropriate size is determined for log files so that they do not impact the system and audit data is not lost. Audit: Run the following command and ensure output is in compliance with site policy: # grep max_log_file /etc/audit/auditd.conf max_log_file = Remediation: Set the following parameter in /etc/audit/auditd.conf in accordance with site policy: max_log_file = Notes: The max_log_file parameter is measured in megabytes. 4.1.1.2 Ensure system is disabled when audit logs are full (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The auditd daemon can be configured to halt the system when the audit logs are full. Rationale: In high security contexts, the risk of detecting unauthorized access or nonrepudiation exceeds the benefit of the system's availability. Audit: Run the following commands and verify output matches: space_left_action = email/etc/audit/auditd.conf # grep action_mail_acct /etc/audit/auditd.conf action_mail_acct = root # grep admin_space_left_action /etc/audit/auditd.conf admin_space_left_action = halt Remediation: Set the following parameters in/etc/audit/auditd.conf: space_left_action = email action_mail_acct = root admin_space_left_action = halt 4.1.1.3 Ensure audit logs are not automatically deleted (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The max_log_file_action setting determines how to handle the audit log file reaching the max file size. A value okeep_logs will rotate the logs but never delete old logs. Rationale: In high security contexts, the benefits of maintaining a long audit history exceed the cost of storing the audit history. Audit: Run the following command and verify output matches: # grep max_log_file_action /etc/audit/auditd.conf max_log_file_action = keep_logs Remediation: Set the following parameter in/etc/audit/auditd.conf: max_log_file_action = keep_logs 4.1.2 Ensure auditd service is enabled (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Turn on the auditd daemon to record system events. Rationale: The capturing of system events provides system administrators with information to allow them to determine if unauthorized access to their system is occurring. Audit: Run the following command to verify auditd is enabled: enabledmctl is-enabled auditd Verify result is "enabled". Remediation: Run the following command to enable auditd : # systemctl enable auditd 4.1.3 Ensure auditing for processes that start prior to auditd is enabled (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Configure grub so that processes that are capable of being audited can be audited even if they start up prior tauditd startup. Rationale: Audit events need to be captured on processes that start up prior tauditd , so that potential malicious activity cannot go undetected. Audit: Run the following command and verify that each linux line has theaudit=1 parameter set: # grep "^\s*linux" /boot/grub/grub.cfg Remediation: Edit /etc/default/grub and add audit=1 to GRUB_CMDLINE_LINUX: GRUB_CMDLINE_LINUX="audit=1" Run the following command to update the grub2 configuration: # update-grub Notes: This recommendation is designed around the grub bootloader, if LILO or another bootloader is in use in your environment enact equivalent settings. 4.1.4 Ensure events that modify date and time information are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Capture events where the system date and/or time has been modified. The parameters in this section are set to determine if tadjtimex (tune kernel clock),settimeofday (Set time, using timeval and timezone structures) stime (using seconds since 1/1/1970) or clock_settime (allows for the setting of several internal clocks and timers) system calls have been executed and always write an audit record to the /var/log/audit.log file upon exit, tagging the records with the identifier "time-change" Rationale: Unexpected changes in system date and/or time could be a sign of malicious activity on the system. Audit: On a 32 bit system run the following command and verify the output matches: -a always,exit -F arch=b32 -S adjtimex -S settimeofday -S stime -k time-change -a always,exit -F arch=b32 -S clock_settime -k time-change -w /etc/localtime -p wa -k time-change On a 64 bit system run the following command and verify the output matches: # grep time-change /etc/audit/audit.rules -a always,exit -F arch=b64 -S adjtimex -S settimeofday -k time-change -a always,exit -F arch=b32 -S adjtimex -S settimeofday -S stime -k time-change -a always,exit -F arch=b64 -S clock_settime -k time-change -a always,exit -F arch=b32 -S clock_settime -k time-change -w /etc/localtime -p wa -k time-change Remediation: For 32 bit systems add the following lines to th/etc/audit/audit.rules file: -a always,exit -F arch=b32 -S adjtimex -S settimeofday -S stime -k time-change -a always,exit -F arch=b32 -S clock_settime -k time-change -w /etc/localtime -p wa -k time-change For 64 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b64 -S adjtimex -S settimeofday -k time-change -a always,exit -F arch=b32 -S adjtimex -S settimeofday -S stime -k time-change -a always,exit -F arch=b64 -S clock_settime -k time-change -a always,exit -F arch=b32 -S clock_settime -k time-change -w /etc/localtime -p wa -k time-change 4.1.5 Ensure events that modify user/group information are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Record events affecting the group,passwd (user IDs),shadow and gshadow (passwords) or /etc/security/opasswd (old passwords, based on remember parameter in the PAM configuration) files. The parameters in this section will watch the files to see if they have been opened for write or have had attribute changes (e.g. permissions) and tag them with the identifier "identity" in the audit log file. Rationale: Unexpected changes to these files could be an indication that the system has been compromised and that an unauthorized user is attempting to hide their activities or compromise additional accounts. Audit: Run the following command and verify output matches: # grep identity /etc/audit/audit.rules -w /etc/group -p wa -k identity -w /etc/passwd -p wa -k identity -w /etc/gshadow -p wa -k identity -w /etc/shadow -p wa -k identity -w /etc/security/opasswd -p wa -k identity Remediation: Add the following lines to the/etc/audit/audit.rules file: -w /etc/group -p wa -k identity -w /etc/passwd -p wa -k identity -w /etc/gshadow -p wa -k identity -w /etc/shadow -p wa -k identity -w /etc/security/opasswd -p wa -k identity 4.1.6 Ensure events that modify the system's network environment are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Record changes to network environment files or system calls. The below parameters monitor the sethostname (set the systems host name) or setdomainname (set the systems domainname) system calls, and write an audit event on system call exit. The other parameters monitor the /etc/issue and /etc/issue.net files (messages displayed pre- login),/etc/hosts (file containing host names and associated IP addresses) and /etc/sysconfig/network (directory containing network interface scripts and configurations) files. Rationale: Monitoring sethostname and setdomainname will identify potential unauthorized changes to host and domainname of a system. The changing of these names could potentially break security parameters that are set based on those names. The /etc/hosts file is monitored for changes in the file that can indicate an unauthorized intruder is trying to change machine associations with IP addresses and trick users and processes into connecting to unintended machines. Monitoring /etc/issue and /etc/issue.net is important, as intruders could put disinformation into those files and trick users into providing information to the intruder. Monitoring/etc/sysconfig/network is important as it can show if network interfaces or scripts are being modified in a way that can lead to the machine becoming unavailable or compromised. All audit records will be tagged with the identifier "system-locale." Audit: On a 32 bit system run the following command and verify the output matches: # grep system-locale /etc/audit/audit.rules -a always,exit -F arch=b32 -S sethostname -S setdomainname -k system-locale -w /etc/issue -p wa -k system-locale -w /etc/issue.net -p wa -k system-locale -w /etc/hosts -p wa -k system-locale -w /etc/network -p wa -k system-locale -w /etc/networks -p wa -k system-locale On a 64 bit system run the following command and verify the output matches: # grep system-locale /etc/audit/audit.rules -a always,exit -F arch=b64 -S sethostname -S setdomainname -k system-locale -a always,exit -F arch=b32 -S sethostname -S setdomainname -k system-locale -w /etc/issue -p wa -k system-locale -w /etc/issue.net -p wa -k system-locale -w /etc/hosts -p wa -k system-locale -w /etc/network -p wa -k system-locale -w /etc/networks -p wa -k system-locale Remediation: For 32 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b32 -S sethostname -S setdomainname -k system-locale -w /etc/issue -p wa -k system-locale -w /etc/issue.net -p wa -k system-locale -w /etc/hosts -p wa -k system-locale -w /etc/network -p wa -k system-locale -w /etc/networks -p wa -k system-locale For 64 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b64 -S sethostname -S setdomainname -k system-locale -a always,exit -F arch=b32 -S sethostname -S setdomainname -k system-locale -w /etc/issue -p wa -k system-locale -w /etc/issue.net -p wa -k system-locale -w /etc/hosts -p wa -k system-locale -w /etc/network -p wa -k system-locale -w /etc/networks -p wa -k system-locale 4.1.7 Ensure events that modify the system's Mandatory Access Controls are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor SELinux/AppArmor mandatory access controls. The parameters below monitor any write access (potential additional, deletion or modification of files in the directory) or attribute changes to the /etc/selinux or /etc/apparmor and /etc/apparmor.d directories. Rationale: Changes to files in these directories could indicate that an unauthorized user is attempting to modify access controls and change security contexts, leading to a compromise of the system. Audit: On systems using SELinux run the following command and verify output matches: # grep MAC-policy /etc/audit/audit.rules -w /etc/selinux/ -p wa -k MAC-policy On systems using AppArmor run the following command and verify output matches: # grep MAC-policy /etc/audit/audit.rules -w /etc/apparmor/ -p wa -k MAC-policy -w /etc/apparmor.d/ -p wa -k MAC-policy Remediation: On systems using SELinux add the following line to the /etc/audit/audit.rules file: -w /etc/selinux/ -p wa -k MAC-policy On systems using AppArmor add the following line to the /etc/audit/audit.rules file: -w /etc/apparmor/ -p wa -k MAC-policy -w /etc/apparmor.d/ -p wa -k MAC-policy 4.1.8 Ensure login and logout events are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor login and logout events. The parameters below track changes to files associated with login/logout events. The file/var/log/faillog tracks failed events from login. The file/var/log/lastlog maintain records of the last time a user successfully logged in. The file/var/log/tallylog maintains records of failures via thepam_tally2 module Rationale: Monitoring login/logout events could provide a system administrator with information associated with brute force attacks against user logins. Audit: Run the following command and verify output matches: # grep logins /etc/audit/audit.rules -w /var/log/faillog -p wa -k logins -w /var/log/lastlog -p wa -k logins -w /var/log/tallylog -p wa -k logins Remediation: Add the following lines to the/etc/audit/audit.rules file: -w /var/log/faillog -p wa -k logins -w /var/log/tallylog -p wa -k logins 4.1.9 Ensure session initiation information is collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor session initiation events. The parameters in this section track changes to the files associated with session events. The fil/var/run/utmp file tracks all currently logged in users. The /var/log/wtmp file tracks logins, logouts, shutdown, and reboot events. All audit records will be tagged with the identifier "session." The /var/log/btmp keeps track of failed login attempts and can be read by entering the command /usr/bin/last -f /var/log/btmp . All audit records will be tagged with the identifier "logins." Rationale: Monitoring these files for changes could alert a system administrator to logins occurring at unusual hours, which could indicate intruder activity (i.e. a user logging in at a time when they do not normally log in). Audit: Run the following command and verify output matches: # grep session /etc/audit/audit.rules -w /var/run/utmp -p wa -k session -w /var/log/wtmp -p wa -k session -w /var/log/btmp -p wa -k session Remediation: Add the following lines to th/etc/audit/audit.rules file: -w /var/run/utmp -p wa -k session -w /var/log/wtmp -p wa -k session -w /var/log/btmp -p wa -k session Notes: The last command can be used to read /var/log/wtmp (last with no parameters) and /var/run/utmp (last -f /var/run/utmp ) 4.1.10 Ensure discretionary access control permission modification events are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor changes to file permissions, attributes, ownership and group. The parameters in this section track changes for system calls that affect file permissions and attributes. The chmod ,fchmod and fchmodat system calls affect the permissions associated with a file. The chown ,fchown ,fchownat and lchown system calls affect owner and group attributes on a file. Thesetxattr ,lsetxattr , fsetxattr (set extended file attributes) andremovexattr , lremovexattr ,fremovexattr (remove extended file attributes) control extended file attributes. In all cases, an audit record will only be written for non-system user ids (auid >= 1000) and will ignore Daemon events (auid = 4294967295). All audit records will be tagged with the identifier "perm_mod." Rationale: Monitoring for changes in file attributes could alert a system administrator to activity that could indicate intruder activity or policy violation. Audit: On a 32 bit system run the following command and verify the output matches: # grep perm_mod /etc/audit/audit.rules -a always,exit -F arch=b32 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F -a always,exit -F arch=b32 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod On a 64 bit system run the following command and verify the output matches: # grep perm_mod /etc/audit/audit.rules -a always,exit -F arch=b64 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b64 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b64 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod Remediation: For 32 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b32 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod For 64 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b64 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S chmod -S fchmod -S fchmodat -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b64 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S chown -S fchown -S fchownat -S lchown -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b64 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod -a always,exit -F arch=b32 -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr -S fremovexattr -F auid>=1000 -F auid!=4294967295 -k perm_mod 4.1.11 Ensure unsuccessful unauthorized file access attempts are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor for unsuccessful attempts to access files. The parameters below are associated with system calls that control creation creat ), opening (open ,openat ) and truncation (truncate , ftruncate ) of files. An audit log record will only be written if the user is a non- privileged user (auid > = 1000), is not a Daemon event (auid=4294967295) and if the system call returned EACCES (permission denied to the file) or EPERM (some other permanent error associated with the specific system call). All audit records will be tagged with the identifier "access." Rationale: Failed attempts to open, create or truncate files could be an indication that an individual or process is trying to gain unauthorized access to the system. Audit: On a 32 bit system run the following command and verify the output matches: -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access On a 64 bit system run the following command and verify the output matches: # grep access /etc/audit/audit.rules -a always,exit -F arch=b64 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b64 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access Remediation: For 32 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access For 64 bit systems add the following lines to the/etc/audit/audit.rules file: -a always,exit -F arch=b64 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EACCES -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b64 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access -a always,exit -F arch=b32 -S creat -S open -S openat -S truncate -S ftruncate -F exit=-EPERM -F auid>=1000 -F auid!=4294967295 -k access 4.1.12 Ensure use of privileged commands is collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor privileged programs (those that have the setuid and/or setgid bit set on execution) to determine if unprivileged users are running these commands. Rationale: Execution of privileged commands by non-privileged users could be an indication of someone trying to gain unauthorized access to the system. Audit: Run the following command replacing with a list of partitions where programs can be executed from on your system: # find -xdev \( -perm -4000 -o -perm -2000 \) -type f | awk '{print \ "-a always,exit -F path=" $1 " -F perm=x -F auid>=1000 -F auid!=4294967295 \ -k privileged" }' Verify all resulting lines are in /etc/audit/audit.rules file. Remediation: To remediate this issue, the system administrator will have to execute a find command to locate all the privileged programs and then add an audit line for each one of them. The audit parameters associated with this are as follows: -F path=" $1 " - will populate each file name found through the find command and processed by awk. -F perm=x - will write an audit record if the file is executed. -F auid>=1000 - will write a record if the user executing the command is not a privileged user. -F auid!= 4294967295 - will ignore Daemon events All audit records should be tagged with the identifier "privileged". Run the following command replacing with a list of partitions where programs can be executed from on your system: "-a always,exit -F path=" $1 " -F perm=x -F auid>=1000 -F auid!=4294967295 \int \ -k privileged" }' Add all resulting lines to the/etc/audit/audit.rules file. 4.1.13 Ensure successful file system mounts are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor the use of themount system call. The mount (and umount ) system call controls the mounting and unmounting of file systems. The parameters below configure the system to create an audit record when the mount system call is used by a non-privileged user Rationale: It is highly unusual for a non privileged user mount file systems to the system. While tracking mount commands gives the system administrator evidence that external media may have been mounted (based on a review of the source of the mount and confirming it's an external media type), it does not conclusively indicate that data was exported to the media. System administrators who wish to determine if data were exported, would also have to track successfulopen ,creat and truncate system calls requiring write access to a file under the mount point of the external media file system. This could give a fair indication that a write occurred. The only way to truly prove it, would be to track successful writes to the external media. Tracking write system calls could quickly fill up the audit log and is not recommended. Recommendations on configuration options to track data export to media is beyond the scope of this document. Audit: On a 32 bit system run the following command and verify the output matches: # grep mounts /etc/audit/audit.rules -a always,exit -F arch=b32 -S mount -F auid>=1000 -F auid!=4294967295 -k mounts On a 64 bit system run the following command and verify the output matches: # grep mounts /etc/audit/audit.rules -a always,exit -F arch=b32 -S mount -F auid>=1000 -F auid!=4294967295 -k mounts Remediation: For 32 bit systems add the following lines to th/etc/audit/audit.rules file: -a always,exit -F arch=b32 -S mount -F auid>=1000 -F auid!=4294967295 -k mounts For 64 bit systems add the following lines to the /etc/audit/audit.rules file: -a always,exit -F arch=b64 -S mount -F auid>=1000 -F auid!=4294967295 -k mounts -a always,exit -F arch=b32 -S mount -F auid>=1000 -F auid!=4294967295 -k mounts Notes: This tracks successful and unsuccessful mount commands. File system mounts do not have to come from external media and this action still does not verify write (e.g. CD ROMS). 4.1.14 Ensure file deletion events by users are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor the use of system calls associated with the deletion or renaming of files and file attributes. This configuration statement sets up monitoring for theunlink (remove a file), unlinkat (remove a file attribute)rename (rename a file) and renameat (rename a file attribute) system calls and tags them with the identifier "delete". Rationale: Monitoring these calls from non-privileged users could provide a system administrator with evidence that inappropriate removal of files and file attributes associated with protected files is occurring. While this audit option will look at all events, system administrators will want to look for specific privileged files that are being deleted or altered. Audit: On a 32 bit system run the following command and verify the output matches: # grep delete /etc/audit/audit.rules -a always,exit -F arch=b32 -S unlink -S unlinkat -S rename -S renameat -F auid>=1000 - F auid!=4294967295 -k delete On a 64 bit system run the following command and verify the output matches: # grep delete /etc/audit/audit.rules -a always,exit -F arch=b64 -S unlink -S unlinkat -S rename -S renameat -F auid>=1000 - F auid!=4294967295 -k delete F auid!=4294967295 -k deleteS unlink -S unlinkat -S rename -S renameat -F auid>=1000 - Remediation: For 32 bit systems add the following lines to the/etc/audit/audit.rules file: F auid!=4294967295 -k deleteS unlink -S unlinkat -S rename -S renameat -F auid>=1000 - For 64 bit systems add the following lines to the /etc/audit/audit.rules file: -a always,exit -F arch=b64 -S unlink -S unlinkat -S rename -S renameat -F auid>=1000 - F auid!=4294967295 -k delete -a always,exit -F arch=b32 -S unlink -S unlinkat -S rename -S renameat -F auid>=1000 - F auid!=4294967295 -k delete Notes: At a minimum, configure the audit system to collect file deletion events for all users and root. 4.1.15 Ensure changes to system administration scope (sudoers) is collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor scope changes for system administrations. If the system has been properly configured to force system administrators to log in as themselves first and then use the sudo command to execute privileged commands, it is possible to monitor changes in scope. The file/etc/sudoers will be written to when the file or its attributes have changed. The audit records will be tagged with the identifier "scope." Rationale: Changes in the /etc/sudoers file can indicate that an unauthorized change has been made to scope of system administrator activity. Audit: Run the following command and verify output matches: # grep scope /etc/audit/audit.rules -w /etc/sudoers -p wa -k scope -w /etc/sudoers.d -p wa -k scope Remediation: Add the following line to th/etc/audit/audit.rules file: -w /etc/sudoers -p wa -k scope -w /etc/sudoers.d -p wa -k scope 4.1.16 Ensure system administrator actions (sudolog) are collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor the sudo log file. If the system has been properly configured to disable the use of the su command and force all administrators to have to log in first and then ussudo to execute privileged commands, then all administrator commands will be logged to /var/log/sudo.log . Any time a command is executed, an audit event will be triggered as the /var/log/sudo.log file will be opened for write and the executed administration command will be written to the log. Rationale: Changes in /var/log/sudo.log indicate that an administrator has executed a command or the log file itself has been tampered with. Administrators will want to correlate the events written to the audit trail with the records written/var/log/sudo.log to verify if unauthorized commands have been executed. Audit: Run the following command and verify output matches: # grep actions /etc/audit/audit.rules -w /var/log/sudo.log -p wa -k actions Remediation: Add the following lines to th/etc/audit/audit.rules file: -w /var/log/sudo.log -p wa -k actions Notes: The system must be configured with su disabled (See Item 5.6 Ensure access to the su command is restricted) to force all command execution through sudo. This will not be effective on the console, as administrators can log in as root. 4.1.17 Ensure kernel module loading and unloading is collected (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Monitor the loading and unloading of kernel modules. The programs insmod (install a kernel module), rmmod (remove a kernel module), and modprobe (a more sophisticated program to load and unload modules, as well as some other features) control loading and unloading of modules. The init_module (load a module) and delete_module (delete a module) system calls control loading and unloading of modules. Any execution of the loading and unloading module programs and system calls will trigger an audit record with an identifier of "modules". Rationale: Monitoring the use ofinsmod ,rmmod and modprobe could provide system administrators with evidence that an unauthorized user loaded or unloaded a kernel module, possibly compromising the security of the system. Monitoring of theinit_module and delete_module system calls would reflect an unauthorized user attempting to use a different program to load and unload modules. Audit: On a 32 bit system run the following command and verify the output matches: # grep modules /etc/audit/audit.rules -w /sbin/insmod -p x -k modules -w /sbin/rmmod -p x -k modules -w /sbin/modprobe -p x -k modules -a always,exit arch=b32 -S init_module -S delete_module -k modules On a 64 bit system run the following command and verify the output matches: # grep modules /etc/audit/audit.rules -w /sbin/insmod -p x -k modules -w /sbin/rmmod -p x -k modules -w /sbin/modprobe -p x -k modules -a always,exit arch=b64 -S init_module -S delete_module -k modules Remediation: For 32 bit systems add the following lines to the /etc/audit/audit.rules file: -w /sbin/insmod -p x -k modules -w /sbin/rmmod -p x -k modules -w /sbin/modprobe -p x -k modules -a always,exit arch=b32 -S init_module -S delete_module -k modules For 64 bit systems add the following lines to the /etc/audit/audit.rules file: -w /sbin/insmod -p x -k modules -w /sbin/rmmod -p x -k modules -w /sbin/modprobe -p x -k modules -a always,exit arch=b64 -S init_module -S delete_module -k modules 4.1.18 Ensure the audit configuration is immutable (Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: Set system audit so that audit rules cannot be modified withauditctl . Setting the flag "-e 2" forces audit to be put in immutable mode. Audit changes can only be made on system reboot. Rationale: In immutable mode, unauthorized users cannot execute changes to the audit system to potentially hide malicious activity and then put the audit rules back. Users would most likely notice a system reboot and that could alert administrators of an attempt to make unauthorized audit changes. Audit: Run the following command and verify output matches: # grep "^\s*[^#]" /etc/audit/audit.rules | tail -1 -e 2 Remediation: Add the following line to the end of th/etc/audit/audit.rules file. -e 2 4.2 Configure Logging Logging services should be configured to prevent information leaks and to aggregate logs on a remote server so that they can be reviewed in the event of a system compromise and ease log analysis. 4.2.1 Configure rsyslog The rsyslog software is recommended as a replacement for the syslogd daemon and provides improvements over syslogd , such as connection-oriented (i.e. TCP) transmission of logs, the option to log to database formats, and the encryption of log data en route to a central logging server. Note: This section only applies irsyslog is installed on the system. 4.2.1.1 Ensure rsyslog Service is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Once the rsyslog package is installed it needs to be activated. Rationale: If thersyslog service is not activated the system may default to tsyslogd service or lack logging instead. Audit: Run the following command to verify rsyslog is enabled: # systemctl is-enabled rsyslog enabled Verify result is "enabled". Remediation: Run the following command to enable rsyslog : # systemctl enable rsyslog 4.2.1.2 Ensure logging is configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/rsyslog.conf file specifies rules for logging and which files are to be used to log certain classes of messages. Rationale: A great deal of important security-related information is sent virsyslog (e.g., successful and failed su attempts, failed login attempts, root login attempts, etc.). Audit: Review the contents of the /etc/rsyslog.conf file to ensure appropriate logging is set. In addition, run the following command and verify that the log files are logging information: # ls -l /var/log/ Remediation: Edit the following lines in th/etc/rsyslog.conf file as appropriate for your environment: *.emerg :omusrmsg:* mail.* -/var/log/mail mail.info -/var/log/mail.info mail.warning -/var/log/mail.warn mail.err /var/log/mail.err news.crit -/var/log/news/news.crit news.err -/var/log/news/news.err news.notice -/var/log/news/news.notice *.=warning;*.=err -/var/log/warn *.crit /var/log/warn *.*;mail.none;news.none -/var/log/messages local0,local1.* -/var/log/localmessages local2,local3.* -/var/log/localmessages local4,local5.* -/var/log/localmessages local6,local7.* -/var/log/localmessages Run the following command to restart rsyslogd : # pkill -HUP rsyslogd References: 1. See the rsyslog.conf(5) man page for more information. 4.2.1.3 Ensure rsyslog default file permissions configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: rsyslog will create logfiles that do not already exist on the system. This setting controls what permissions will be applied to these newly created files. Rationale: It is important to ensure that log files have the correct permissions to ensure that sensitive data is archived and protected. Audit: Run the following command and verify that $FileCreateMode is0640 or more restrictive: # grep ^\$FileCreateMode /etc/rsyslog.conf Remediation: Edit the /etc/rsyslog.conf and set$FileCreateMode to0640 or more restrictive: $FileCreateMode 0640 References: 1. See the rsyslog.conf(5) man page for more information. Notes: You should also ensure this is not overridden with less restrictive settings in any /etc/rsyslog.d/* conf file. 4.2.1.4 Ensure rsyslog is configured to send logs to a remote log host (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The rsyslog utility supports the ability to send logs it gathers to a remote log host running syslogd(8) or to receive messages from remote hosts, reducing administrative overhead. Rationale: Storing log data on a remote host protects log integrity from local attacks. If an attacker gains root access on the local system, they could tamper with or remove log data that is stored on the local system Audit: Review the /etc/rsyslog.conf file and verify that logs are sent to a central host (where loghost.example.com is the name of your central log host): # grep "^*.*[^I][^I]*@" /etc/rsyslog.conf *.* @@loghost.example.com Remediation: Edit the/etc/rsyslog.conf file and add the following line (where loghost.example.com is the name of your central log host). *.* @@loghost.example.com Run the following command to restart rsyslog : # pkill -HUP rsyslogd References: 1. See the rsyslog.conf(5) man page for more information. Notes: The double "at" sign @@ ) directrsyslog to use TCP to send log messages to the server, which is a more reliable transport mechanism than the default UDP protocol. 4.2.1.5 Ensure remote rsyslog messages are only accepted on designated log hosts. (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: By default,rsyslog does not listen for log messages coming in from remote systems. The ModLoad tellsrsyslog to load theimtcp.so module so it can listen over a network via TCP. The InputTCPServerRun option instructsrsyslogd to listen on the specified TCP port. Rationale: The guidance in the section ensures that remote log hosts are configured to only accept rsyslog data from hosts within the specified domain and that those systems that are not designed to be log hosts do not accept any remote rsyslog messages. This provides protection from spoofed log data and ensures that system administrators are reviewing reasonably complete syslog data in a central location. Audit: Run the following commands and verify the resulting lines are uncommented on designated log hosts and commented or removed on all others: # grep '$ModLoad imtcp.so' /etc/rsyslog.conf $ModLoad imtcp.so # grep '$InputTCPServerRun' /etc/rsyslog.conf $InputTCPServerRun 514 Remediation: For hosts that are designated as log hosts, edit t/etc/rsyslog.conf file and un- comment or add the following lines: $ModLoad imtcp.so $InputTCPServerRun 514 For hosts that are not designated as log hosts, edit t/etc/rsyslog.conf file and comment or remove the following lines: # $ModLoad imtcp.so # $InputTCPServerRun 514 Run the following command to restart rsyslogd : # pkill -HUP rsyslogd References: 1. See the rsyslog(8) man page for more information. 4.2.2 Configure syslog-ng The syslog-ng software is recommended as a replacement for the syslogd daemon and provides improvements over syslogd , such as connection-oriented (i.e. TCP) transmission of logs, the option to log to database formats, and the encryption of log data en route to a central logging server. Note: This section only applies isyslog-ng is installed on the system. 4.2.2.1 Ensure syslog-ng service is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Once the syslog-ng package is installed it needs to be activated. Rationale: If thesyslog-ng service is not activated the system may default to thsyslogd service or lack logging instead. Audit: Run the following command to verify syslog-ng is enabled: # systemctl is-enabled syslog-ng enabled Verify result is "enabled". Remediation: Run the following command to enable syslog-ng : # update-rc.d syslog-ng enable 4.2.2.2 Ensure logging is configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/syslog-ng/syslog-ng.conf file specifies rules for logging and which files are to be used to log certain classes of messages. Rationale: A great deal of important security-related information is sent visyslog-ng (e.g., successful and failed su attempts, failed login attempts, root login attempts, etc.). Audit: Review the contents of the /etc/syslog-ng/syslog-ng.conf file to ensure appropriate logging is set. In addition, run the following command and ensure that the log files are logging information: # ls -l /var/log/ Remediation: Edit the log lines in t/etc/syslog-ng/syslog-ng.conf file as appropriate for your environment: log { source(src); source(chroots); filter(f_console); destination(console); }; log { source(src); source(chroots); filter(f_console); destination(xconsole); }; log { source(src); source(chroots); filter(f_newscrit); destination(newscrit); }; log { source(src); source(chroots); filter(f_newserr); destination(newserr); }; log { source(src); source(chroots); filter(f_newsnotice); destination(newsnotice); }; log { source(src); source(chroots); filter(f_mailinfo); destination(mailinfo); }; log { source(src); source(chroots); filter(f_mailwarn); destination(mailwarn); }; log { source(src); source(chroots); filter(f_mailerr); destination(mailerr); }; log { source(src); source(chroots); filter(f_mail); destination(mail); }; log { source(src); source(chroots); filter(f_acpid); destination(acpid); flags(final); }; log { source(src); source(chroots); filter(f_acpid_full); destination(devnull); flags(final); }; log { source(src); source(chroots); filter(f_acpid_old); destination(acpid); log { source(src); source(chroots); filter(f_netmgm); destination(netmgm); flags(final); }; log { source(src); source(chroots); filter(f_local); destination(localmessages); }; log { source(src); source(chroots); filter(f_messages); destination(messages); }; log { source(src); source(chroots); filter(f_iptables); destination(firewall); }; log { source(src); source(chroots); filter(f_warn); destination(warn); }; Run the following command to restart syslog-ng: # pkill -HUP syslog-ng References: 1. See the syslog-ng man page for more information. 4.2.2.3 Ensure syslog-ng default file permissions configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: syslog-ng will create logfiles that do not already exist on the system. This setting controls what permissions will be applied to these newly created files. Rationale: It is important to ensure that log files exist and have the correct permissions to ensure that sensitivesyslog-ng data is archived and protected. Audit: Run the following command and verify the perm option is0640 or more restrictive: # grep ^options /etc/syslog-ng/syslog-ng.conf options { chain_hostnames(off); flush_lines(0); perm(0640); stats_freq(3600); threaded(yes); }; Remediation: Edit the/etc/syslog-ng/syslog-ng.conf and set perm option to 0640 or more restrictive: options { chain_hostnames(off); flush_lines(0); perm(0640); stats_freq(3600); threaded(yes); }; References: 1. See the syslog-ng man pages for more information. 4.2.2.4 Ensure syslog-ng is configured to send logs to a remote log host (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The syslog-ng utility supports the ability to send logs it gathers to a remote log host or to receive messages from remote hosts, reducing administrative overhead. Rationale: Storing log data on a remote host protects log integrity from local attacks. If an attacker gains root access on the local system, they could tamper with or remove log data that is stored on the local system Audit: Review the /etc/syslog-ng/syslog-ng.conf file and verify that logs are sent to a central host (where logfile.example.com is the name of your central log host): destination logserver { tcp("logfile.example.com" port(514)); }; log { source(src); destination(logserver); }; Remediation: Edit the/etc/syslog-ng/syslog-ng.conf file and add the following lines (where logfile.example.com is the name of your central log host). destination logserver { tcp("logfile.example.com" port(514)); }; log { source(src); destination(logserver); }; Run the following command to restart syslog-ng: # pkill -HUP syslog-ng References: 1. See the rsyslog.conf(5) man page for more information. 4.2.2.5 Ensure remote syslog-ng messages are only accepted on designated log hosts (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: By default,syslog-ng does not listen for log messages coming in from remote systems. Rationale: The guidance in the section ensures that remote log hosts are configured to only accept syslog-ng data from hosts within the specified domain and that those systems that are not designed to be log hosts do not accept any remote syslog-ng messages. This provides protection from spoofed log data and ensures that system administrators are reviewing reasonably complete syslog data in a central location. Audit: Review the /etc/syslog-ng/syslog-ng.conf file and verify the following lines are configured appropriately on designated log hosts: source net{ tcp(); }; destination remote { file("/var/log/remote/${FULLHOST}-log"); }; log { source(net); destination(remote); }; Remediation: On designated log hosts edit the/etc/syslog-ng/syslog-ng.conf file and configure the following lines are appropriately: source net{ tcp(); }; destination remote { file("/var/log/remote/${FULLHOST}-log"); }; log { source(net); destination(remote); }; On non designated log hosts edit the/etc/syslog-ng/syslog-ng.conf file and remove or edit any sources that accept network sourced log messages. Run the following command to restart syslog-ng : # pkill -HUP syslog-ng References: 1. See the rsyslog(8) man page for more information. 4.2.3 Ensure rsyslog or syslog-ng is installed (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The rsyslog and syslog-ng software are recommended replacements to the original syslogd daemon which provide improvements over syslogd , such as connection-oriented (i.e. TCP) transmission of logs, the option to log to database formats, and the encryption of log data en route to a central logging server. Rationale: The security enhancements of rsyslog and syslog-ng such as connection-oriented (i.e. TCP) transmission of logs, the option to log to database formats, and the encryption of log data en route to a central logging server) justify installing and configuring the package. Audit: Verify either rsyslog or syslog-ng is installed. Depending on the package management in use one of the following command groups may provide the needed information: # dpkg -s rsyslog # dpkg -s syslog-ng Remediation: Install rsyslog osyslog-ng using one of the following commands: # apt-get install rsyslog # apt-get install syslog-ng 4.2.4 Ensure permissions on all logfiles are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Log files stored in /var/log/ contain logged information from many services on the system, or on log hosts others as well. Rationale: It is important to ensure that log files have the correct permissions to ensure that sensitive data is archived and protected. Audit: Run the following command and verify that other has no permissions on any files and group does not have write or execute permissions on any files: # find /var/log -type f -ls Remediation: Run the following command to set permissions on all existing log files: # chmod -R g-wx,o-rwx /var/log/* Notes: You may also need to change the configuration for your logging software or services for any logs that had incorrect permissions. 4.3 Ensure logrotate is configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The system includes the capability of rotating log files regularly to avoid filling up the system with logs or making the logs unmanageable large. The file /etc/logrotate.d/syslog is the configuration file used to rotate log files created by syslog or rsyslog . Rationale: By keeping the log files smaller and more manageable, a system administrator can easily archive these files to another system and spend less time looking through inordinately large log files. Audit: Review /etc/logrotate.conf and /etc/logrotate.d/ * and verify logs are rotated according to site policy. Remediation: Edit /etc/logrotate.conf and /etc/logrotate.d/ * to ensure logs are rotated according to site policy. 5 Access, Authentication and Authorization 5.1 Configure cron 5.1.1 Ensure cron daemon is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The cron daemon is used to execute batch jobs on the system. Rationale: While there may not be user jobs that need to be run on the system, the system does have maintenance jobs that may include security monitoring that have to run, andcron is used to execute them. Audit: Run the following command to verify cron is enabled: # systemctl is-enabled crond enabled Verify result is "enabled". Remediation: Run the following command to enable cron : # systemctl enable crond 5.1.2 Ensure permissions on /etc/crontab are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/crontab file is used bcron to control its own jobs. The commands in this item make sure that root is the user and group owner of the file and that only the owner can access the file. Rationale: This file contains information on what system jobs are run by cron. Write access to these files could provide unprivileged users with the ability to elevate their privileges. Read access to these files could provide users with the ability to gain insight on system jobs that run on the system and could provide them a way to gain unauthorized privileged access. Audit: Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions to group or other: # stat /etc/crontab Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/crontab : # chown root:root /etc/crontab # chmod og-rwx /etc/crontab 5.1.3 Ensure permissions on /etc/cron.hourly are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: This directory contains system cron jobs that need to run on an hourly basis. The files in this directory cannot be manipulated by the crontab command, but are instead edited by system administrators using a text editor. The commands below restrict read/write and search access to user and group root, preventing regular users from accessing this directory. Rationale: Granting write access to this directory for non-privileged users could provide them the means for gaining unauthorized elevated privileges. Granting read access to this directory could give an unprivileged user insight in how to gain elevated privileges or circumvent auditing controls. Audit: Run the following command and verify Uid and Gid are both 0/root and Access does not grant permissions to group or other : # stat /etc/cron.hourly Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/cron.hourly : # chown root:root /etc/cron.hourly # chmod og-rwx /etc/cron.hourly 5.1.4 Ensure permissions on /etc/cron.daily are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/cron.daily directory contains system cron jobs that need to run on a daily basis. The files in this directory cannot be manipulated by tcrontab command, but are instead edited by system administrators using a text editor. The commands below restrict read/write and search access to user and group root, preventing regular users from accessing this directory. Rationale: Granting write access to this directory for non-privileged users could provide them the means for gaining unauthorized elevated privileges. Granting read access to this directory could give an unprivileged user insight in how to gain elevated privileges or circumvent auditing controls. Audit: Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions to group or other: # stat /etc/cron.daily Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/cron.daily : # chown root:root /etc/cron.daily # chmod og-rwx /etc/cron.daily 5.1.5 Ensure permissions on /etc/cron.weekly are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/cron.weekly directory contains system cron jobs that need to run on a weekly basis. The files in this directory cannot be manipulated by tcrontab command, but are instead edited by system administrators using a text editor. The commands below restrict read/write and search access to user and group root, preventing regular users from accessing this directory. Rationale: Granting write access to this directory for non-privileged users could provide them the means for gaining unauthorized elevated privileges. Granting read access to this directory could give an unprivileged user insight in how to gain elevated privileges or circumvent auditing controls. Audit: Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions to group or other: # stat /etc/cron.weekly Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/cron.weekly : # chown root:root /etc/cron.weekly # chmod og-rwx /etc/cron.weekly 5.1.6 Ensure permissions on /etc/cron.monthly are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/cron.monthly directory contains system cron jobs that need to run on a monthly basis. The files in this directory cannot be manipulated by tcrontab command, but are instead edited by system administrators using a text editor. The commands below restrict read/write and search access to user and group root, preventing regular users from accessing this directory. Rationale: Granting write access to this directory for non-privileged users could provide them the means for gaining unauthorized elevated privileges. Granting read access to this directory could give an unprivileged user insight in how to gain elevated privileges or circumvent auditing controls. Audit: Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions to group or other: # stat /etc/cron.monthly Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/cron.monthly : # chown root:root /etc/cron.monthly # chmod og-rwx /etc/cron.monthly 5.1.7 Ensure permissions on /etc/cron.d are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/cron.d directory contains system cron jobs that need to run in a similar manner to the hourly, daily weekly and monthly jobs from/etc/crontab , but require more granular control as to when they run. The files in this directory cannot be manipulated by the crontab command, but are instead edited by system administrators using a text editor. The commands below restrict read/write and search access to user and group root, preventing regular users from accessing this directory. Rationale: Granting write access to this directory for non-privileged users could provide them the means for gaining unauthorized elevated privileges. Granting read access to this directory could give an unprivileged user insight in how to gain elevated privileges or circumvent auditing controls. Audit: Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions to group or other: # stat /etc/cron.d Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/cron.d : # chown root:root /etc/cron.d # chmod og-rwx /etc/cron.d 5.1.8 Ensure at/cron is restricted to authorized users (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Configure /etc/cron.allow and /etc/at.allow to allow specific users to use these services. I/etc/cron.allow or/etc/at.allow do not exist, the/etc/at.deny and /etc/cron.deny are checked. Any user not specifically defined in those files is allowed to use at and cron. By removing the files, only users/etc/cron.allow and /etc/at.allow are allowed to use at and cron. Note that even though a given user is not listed in cron.allow , cron jobs can still be run as that user.cron.allow file only controls administrative access to the crontab command for scheduling and modifying cron jobs. Rationale: On many systems, only the system administrator is authorized to schedulecron jobs. Using the cron.allow file to control who can rucron jobs enforces this policy. It is easier to manage an allow list than a deny list. In a deny list, you could potentially add a user ID to the system and forget to add it to the deny files. Audit: Run the following commands and ensure /etc/cron.deny and /etc/at.deny do not exist: # stat /etc/cron.deny stat: cannot stat `/etc/cron.deny': No such file or directory # stat /etc/at.deny stat: cannot stat `/etc/at.deny': No such file or directory Run the following command and verify Uid and Gid are both0/root and Access does not grant permissions togroup orother for both /etc/cron.allow and /etc/at.allow : # stat /etc/cron.allow Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) # stat /etc/at.allow Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to remove /etc/cron.deny and /etc/at.deny and create and set permissions and ownership for /etc/cron.allow and /etc/at.allow : # rm /etc/cron.deny # rm /etc/at.deny # touch /etc/cron.allow # touch /etc/at.allow # chmod og-rwx /etc/cron.allow # chmod og-rwx /etc/at.allow # chown root:root /etc/cron.allow # chown root:root /etc/at.allow 5.2 SSH Server Configuration SSH is a secure, encrypted replacement for common login services such as telnet ,ftp , rlogin ,rsh, and rcp. It is strongly recommended that sites abandon older clear-text login protocols and use SSH to prevent session hijacking and sniffing of sensitive data off the network. Note: The recommendations in this section only apply if the SSH daemon is installed on the system, if remote access is not required the SSH daemon can be removed and this section skipped. Note: Once all configuration changes have been made to /etc/ssh/sshd_config , the sshd configuration must be reloaded: # service sshd reload 5.2.1 Ensure permissions on /etc/ssh/sshd_config are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/ssh/sshd_config file contains configuration specifications sshd . The command below sets the owner and group of the file to root. Rationale: The /etc/ssh/sshd_config file needs to be protected from unauthorized changes by non- privileged users. Audit: Run the following command and verify Uid and Gid are both 0/root and Access does not grant permissions to group or other : # stat /etc/ssh/sshd_config Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following commands to set ownership and permissions on /etc/ssh/sshd_config : # chown root:root /etc/ssh/sshd_config # chmod og-rwx /etc/ssh/sshd_config 5.2.2 Ensure SSH Protocol is set to 2 (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: SSH supports two different and incompatible protocols: SSH1 and SSH2. SSH1 was the original protocol and was subject to security issues. SSH2 is more advanced and secure. Rationale: SSH v1 suffers from insecurities that do not affect SSH v2. Audit: Run the following command and verify that output matches: # grep "^Protocol" /etc/ssh/sshd_config Protocol 2 Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: Protocol 2 5.2.3 Ensure SSH LogLevel is set to INFO (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The INFO parameter specifies that login and logout activity will be logged. Rationale: SSH provides several logging levels with varying amounts of verbosity. DEBUG is specifically not recommended other than strictly for debugging SSH communications since it provides so much data that it is difficult to identify important security informatINFO level is the basic level that only records login activity of SSH users. In many situations, such as Incident Response, it is important to determine when a particular user was active on a system. The logout record can eliminate those users who disconnected, which helps narrow the field. Audit: Run the following command and verify that output matches: # grep "^LogLevel" /etc/ssh/sshd_config LogLevel INFO Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: LogLevel INFO 5.2.4 Ensure SSH X11 forwarding is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The X11Forwarding parameter provides the ability to tunnel X11 traffic through the connection to enable remote graphic connections. Rationale: Disable X11 forwarding unless there is an operational requirement to use X11 applications directly. There is a small risk that the remote X11 servers of users who are logged in via SSH with X11 forwarding could be compromised by other users on the X11 server. Note that even if X11 forwarding is disabled, users can always install their own forwarders. Audit: Run the following command and verify that output matches: # grep "^X11Forwarding" /etc/ssh/sshd_config X11Forwarding no Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: X11Forwarding no 5.2.5 Ensure SSH MaxAuthTries is set to 4 or less (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The MaxAuthTries parameter specifies the maximum number of authentication attempts permitted per connection. When the login failure count reaches half the number, error messages will be written to thesyslog file detailing the login failure. Rationale: Setting theMaxAuthTries parameter to a low number will minimize the risk of successful brute force attacks to the SSH server. While the recommended setting is 4, set the number based on site policy. Audit: Run the following command and verify that output MaxAuthTries is 4 or less: # grep "^MaxAuthTries" /etc/ssh/sshd_config MaxAuthTries 4 Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: MaxAuthTries 4 5.2.6 Ensure SSH IgnoreRhosts is enabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The IgnoreRhosts parameter specifies that.rhosts and .shosts files will not be used in RhostsRSAAuthentication orHostbasedAuthentication . Rationale: Setting this parameter forces users to enter a password when authenticating with ssh. Audit: Run the following command and verify that output matches: IgnoreRhosts yeshosts" /etc/ssh/sshd_config Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: IgnoreRhosts yes 5.2.7 Ensure SSH HostbasedAuthentication is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The HostbasedAuthentication parameter specifies if authentication is allowed through trusted hosts via the user o.rhosts , o/etc/hosts.equiv , along with successful public key client host authentication. This option only applies to SSH Protocol Version 2. Rationale: Even though the .rhosts files are ineffective if support is disabled/etc/pam.conf , disabling the ability to us.rhosts files in SSH provides an additional layer of protection . Audit: Run the following command and verify that output matches: # grep "^HostbasedAuthentication" /etc/ssh/sshd_config HostbasedAuthentication no Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: HostbasedAuthentication no 5.2.8 Ensure SSH root login is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PermitRootLogin parameter specifies if the root user can log in using ssh(1). The default is no. Rationale: Disallowing root logins over SSH requires system admins to authenticate using their own individual account, then escalating to root vsudo or su. This in turn limits opportunity for non-repudiation and provides a clear audit trail in the event of a security incident Audit: Run the following command and verify that output matches: # grep "^PermitRootLogin" /etc/ssh/sshd_config PermitRootLogin no Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: PermitRootLogin no 5.2.9 Ensure SSH PermitEmptyPasswords is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PermitEmptyPasswords parameter specifies if the SSH server allows login to accounts with empty password strings. Rationale: Disallowing remote shell access to accounts that have an empty password reduces the probability of unauthorized access to the system Audit: Run the following command and verify that output matches: # grep "^PermitEmptyPasswords" /etc/ssh/sshd_config PermitEmptyPasswords no Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: PermitEmptyPasswords no 5.2.10 Ensure SSH PermitUserEnvironment is disabled (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PermitUserEnvironment option allows users to present environment options to the ssh daemon. Rationale: Permitting users the ability to set environment variables through the SSH daemon could potentially allow users to bypass security controls (e.g. setting an execution path that has ssh executing trojan'd programs) Audit: Run the following command and verify that output matches: # grep PermitUserEnvironment /etc/ssh/sshd_config PermitUserEnvironment no Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: PermitUserEnvironment no 5.2.11 Ensure only approved MAC algorithms are used (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: This variable limits the types of MAC algorithms that SSH can use during communication. Rationale: MD5 and 96-bit MAC algorithms are considered weak and have been shown to increase exploitability in SSH downgrade attacks. Weak algorithms continue to have a great deal of attention as a weak spot that can be exploited with expanded computing power. An attacker that breaks the algorithm could take advantage of a MiTM position to decrypt the SSH tunnel and capture credentials and information Audit: Run the following command and verify that output does not contain any unlisted MAC algorithms: # grep "MACs" /etc/ssh/sshd_config MACs hmac-sha2-512-etm@openssh.com,hmac-sha2-256-etm@openssh.com,umac-128- etm@openssh.com,hmac-sha2-512,hmac-sha2-256,umac-128@openssh.com,curve25519- sha256@libssh.org,diffie-hellman-group-exchange-sha256 Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: MACs hmac-sha2-512-etm@openssh.com,hmac-sha2-256-etm@openssh.com,umac-128- etm@openssh.com,hmac-sha2-512,hmac-sha2-256,umac-128@openssh.com References: 1. More information on SSH downgrade attacks can be found here: http://www.mitls.org/pages/attacks/SLOTH Notes: Some organizations may have stricter requirements for approved ciphers. Ensure that MACs used are in compliance with site policy. 5.2.12 Ensure SSH Idle Timeout Interval is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The two options ClientAliveInterval and ClientAliveCountMax control the timeout of ssh sessions. When the ClientAliveInterval variable is set, ssh sessions that have no activity for the specified length of time are terminated. When thClientAliveCountMax variable is setsshd will send client alive messages at everClientAliveInterval interval. When the number of consecutive client alive messages are sent with no response from the client, thssh session is terminated. For example, if thClientAliveInterval is set to 15 seconds and the ClientAliveCountMax is set to 3, the clissh session will be terminated after 45 seconds of idle time. Rationale: Having no timeout value associated with a connection could allow an unauthorized user access to another user'sssh session (e.g. user walks away from their computer and doesn't lock the screen). Setting a timeout value at least reduces the risk of this happening.. While the recommended setting is 300 seconds (5 minutes), set this timeout value based on site policy. The recommended setting for ClientAliveCountMax is 0. In this case, the client session will be terminated after 5 minutes of idle time and no keepalive messages will be sent. Audit: Run the following commands and verify ClientAliveInterval is 300 or less and ClientAliveCountMax is 3 or less: # grep "^ClientAliveInterval" /etc/ssh/sshd_config # grep "^ClientAliveCountMax" /etc/ssh/sshd_config ClientAliveCountMax 0 Remediation: Edit the/etc/ssh/sshd_config file to set the parameters as follows: ClientAliveInterval 300 ClientAliveCountMax 0 5.2.13 Ensure SSH LoginGraceTime is set to one minute or less (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The LoginGraceTime parameter specifies the time allowed for successful authentication to the SSH server. The longer the Grace period is the more open unauthenticated connections can exist. Like other session controls in this session the Grace Period should be limited to appropriate organizational limits to ensure the service is available for needed access. Rationale: Setting theLoginGraceTime parameter to a low number will minimize the risk of successful brute force attacks to the SSH server. It will also limit the number of concurrent unauthenticated connections While the recommended setting is 60 seconds (1 Minute), set the number based on site policy. Audit: Run the following command and verify that output LoginGraceTime is 60 or less: # grep "^LoginGraceTime" /etc/ssh/sshd_config LoginGraceTime 60 Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: LoginGraceTime 60 5.2.14 Ensure SSH access is limited (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: There are several options available to limit which users and group can access the system via SSH. It is recommended that at least one of the following options be leveraged: AllowUsers The AllowUsers variable gives the system administrator the option of allowing specific users tossh into the system. The list consists of comma separated user names. Numeric user IDs are not recognized with this variable. If a system administrator wants to restrict user access further by only allowing the allowed users to log in from a particular host, the entry can be specified in the form of user@host. AllowGroups The AllowGroups variable gives the system administrator the option of allowing specific groups of users tossh into the system. The list consists of comma separated group names. Numeric group IDs are not recognized with this variable. DenyUsers The DenyUsers variable gives the system administrator the option of denying specific users tossh into the system. The list consists of comma separated user names. Numeric user IDs are not recognized with this variable. If a system administrator wants to restrict user access further by specifically denying a user's access from a particular host, the entry can be specified in the form of user@host. DenyGroups The DenyGroups variable gives the system administrator the option of denying specific groups of users tossh into the system. The list consists of comma separated group names. Numeric group IDs are not recognized with this variable. Rationale: Restricting which users can remotely access the system via SSH will help ensure that only authorized users access the system. Audit: Run the following commands and verify that output matches for at least one: # grep "^AllowUsers" /etc/ssh/sshd_config AllowUsers # grep "^AllowGroups" /etc/ssh/sshd_config AllowGroups # grep "^DenyUsers" /etc/ssh/sshd_config DenyUsers # grep "^DenyGroups" /etc/ssh/sshd_config DenyGroups Remediation: Edit the/etc/ssh/sshd_config file to set one or more of the parameter as follows: AllowUsers AllowGroups DenyUsers DenyGroups 5.2.15 Ensure SSH warning banner is configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The Banner parameter specifies a file whose contents must be sent to the remote user before authentication is permitted. By default, no banner is displayed. Rationale: Banners are used to warn connecting users of the particular site's policy regarding connection. Presenting a warning message prior to the normal user login may assist the prosecution of trespassers on the computer system. Audit: Run the following command and verify that output matches: # grep "^Banner" /etc/ssh/sshd_config Banner /etc/issue.net Remediation: Edit the/etc/ssh/sshd_config file to set the parameter as follows: Banner /etc/issue.net 5.3 Configure PAM PAM (Pluggable Authentication Modules) is a service that implements modular authentication modules on UNIX systems. PAM is implemented as a set of shared objects that are loaded and executed when a program needs to authenticate a user. Files for PAM are typically located in th/etc/pam.d directory. PAM must be carefully configured to secure system authentication. While this section covers some of PAM, please consult other PAM resources to fully understand the configuration capabilities. 5.3.1 Ensure password creation requirements are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The pam_pwquality.so module checks the strength of passwords. It performs checks such as making sure a password is not a dictionary word, it is a certain length, contains a mix of characters (e.g. alphabet, numeric, other) and more. The following are definitions of the pam_pwquality.so options. try_first_pass - retrieve the password from a previous stacked PAM module. If not available, then prompt the user for a password. retry=3 - Allow 3 tries before sending back a failure. The following options are set in the/etc/security/pwquality.conf file: minlen=14 - password must be 14 characters or more dcredit=-1 - provide at least one digit ucredit=-1 - provide at least one uppercase character ocredit=-1 - provide at least one special character lcredit=-1 - provide at least one lowercase character The settings shown above are one possible policy. Alter these values to conform to your own organization's password policies. Rationale: Strong passwords protect systems from being hacked through brute force methods. Audit: Run the following commands and verify all password requirements are as listed or stricter: # grep pam_pwquality.so /etc/pam.d/common-password password requisite pam_pwquality.so try_first_pass retry=3 # grep ^minlen /etc/security/pwquality.conf minlen=14 # grep ^dcredit /etc/security/pwquality.conf dcredit=-1 # grep ^lcredit /etc/security/pwquality.conf lcredit=-1 # grep ^ocredit /etc/security/pwquality.conf ocredit=-1 # grep ^ucredit /etc/security/pwquality.conf ucredit=-1 Remediation: Run the following command to install the pam_pwquality module: apt-get install libpam-pwquality Edit the/etc/pam.d/common-passwd file to include the appropriate options forpam_pwquality.so and to conform to site policy: password requisite pam_pwquality.so try_first_pass retry=3 Edit /etc/security/pwquality.conf to add or update the following settings to conform to site policy: minlen=14 dcredit=-1 ucredit=-1 ocredit=-1 lcredit=-1 Notes: Additional module options may be set, recommendation only covers those listed here. 5.3.2 Ensure lockout for failed password attempts is configured (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Lock out users after n unsuccessful consecutive login attempts. The first sets of changes are made to the PAM configuration files. The second set of changes are applied to the program specific PAM configuration file. The second set of changes must be applied to each program that will lock out users. Check the documentation for each secondary program for instructions on how to configure them to work with PAM. Set the lockout number to the policy in effect at your site. Rationale: Locking out user IDs after n unsuccessful consecutive login attempts mitigates brute force password attacks against your systems. Audit: Perform the following to determine the current settings for user lockout. # grep "pam_tally2" /etc/pam.d/common-auth auth required pam_tally2.so onerr=fail audit silent deny=5 unlock_time=900 Remediation: Edit the/etc/pam.d/common-auth file and add the auth line below: auth required pam_tally2.so onerr=fail audit silent deny=5 unlock_time=900 Note: If a user has been locked out because they have reached the maximum consecutive failure count defined bydeny= in thepam_tally2.so module, the user can be unlocked by issuing the command /sbin/pam_tally2 -u --reset . This command sets the failed count to 0, effectively unlocking the user. 5.3.3 Ensure password reuse is limited (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/security/opasswd file stores the users' old passwords and can be checked to ensure that users are not recycling recent passwords. Rationale: Forcing users not to reuse their past 5 passwords make it less likely that an attacker will be able to guess the password. Note that these change only apply to accounts configured on the local system. Audit: Run the following commands and ensure the remember option is 5' or more and included in all results: # egrep '^password\s+sufficient\s+pam_unix.so' /etc/pam.d/common-password password sufficient pam_unix.so remember=5 Remediation: Edit the/etc/pam.d/common-password file to include tremember option and conform to site policy as shown: password sufficient pam_unix.so remember=5 Notes: Additional module options may be set, recommendation only covers those listed here. 5.3.4 Ensure password hashing algorithm is SHA-512 (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The commands below change password encryption from md5 tosha512 (a much stronger hashing algorithm). All existing accounts will need to perform a password change to upgrade the stored hashes to the new algorithm. Rationale: The SHA-512 algorithm provides much stronger hashing than MD5, thus providing additional protection to the system by increasing the level of effort for an attacker to successfully determine passwords. Note that these change only apply to accounts configured on the local system. Audit: Run the following commands and ensure the sha512 option is included in all results: # egrep '^password\s+\S+\s+pam_unix.so' /etc/pam.d/common-password password sufficient pam_unix.so sha512 Remediation: Edit the/etc/pam.d/common-password file to include tsha512 option for pam_unix.so as shown: password [success=1 default=ignore] pam_unix.so sha512 Notes: Additional module options may be set, recommendation only covers those listed here. If it is determined that the password algorithm being used is not SHA-512, once it is changed, it is recommended that all user ID's be immediately expired and forced to change their passwords on next login. To accomplish that, the following commands can be used. Any system accounts that need to be expired should be carefully done separately by the system administrator to prevent any potential problems. # cat /etc/passwd | awk -F: '( $3 >= 1000 && $1 != "nfsnobody" ) { print $1 }' | xargs -n 1 chage -d 0 5.4 User Accounts and Environment This section provides guidance on setting up secure defaults for system and user accounts and their environment. 5.4.1 Set Shadow Password Suite Parameters While a majority of the password control parameters have been moved to PAM, some parameters are still available through the shadow password suite. Any changes made to /etc/login.defs will only be applied if thusermod command is used. If user IDs are added a different way, use thechage command to effect changes to individual user IDs. 5.4.1.1 Ensure password expiration is 90 days or less (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PASS_MAX_DAYS parameter in /etc/login.defs allows an administrator to force passwords to expire once they reach a defined age. It is recommended that the PASS_MAX_DAYS parameter be set to less than or equal to 90 days. Rationale: The window of opportunity for an attacker to leverage compromised credentials or successfully compromise credentials via an online brute force attack is limited by the age of the password. Therefore, reducing the maximum age of a password also reduces an attacker's window of opportunity. Audit: Run the following command and verify PASS_MAX_DAYS is 90 or less: # grep PASS_MAX_DAYS /etc/login.defs PASS_MAX_DAYS 90 Verify all users with a password have their maximum days between password change set to 90 or less: [^\!*] /etc/shadow | cut -d: -f1 # chage --list Maximum number of days between password change : 90 Remediation: Set thePASS_MAX_DAYS parameter to 90 in/etc/login.defs : PASS_MAX_DAYS 90 Modify user parameters for all users with a password set to match: # chage --maxdays 90 Notes: You can also check this setting in/etc/shadow directly. The 5th field should be 90 or less for all users with a password. 5.4.1.2 Ensure minimum days between password changes is 7 or more (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PASS_MIN_DAYS parameter in /etc/login.defs allows an administrator to prevent users from changing their password until a minimum number of days have passed since the last time the user changed their password. It is recommended thatPASS_MIN_DAYS parameter be set to 7 or more days. Rationale: By restricting the frequency of password changes, an administrator can prevent users from repeatedly changing their password in an attempt to circumvent password reuse controls. Audit: Run the following command and verify PASS_MIN_DAYS is 7 or more: # grep PASS_MIN_DAYS /etc/login.defs PASS_MIN_DAYS 7 Verify all users with a password have their minimum days between password change set to 7 or more: # egrep ^[^:]+:[^\!*] /etc/shadow | cut -d: -f1 # chage --list Minimum number of days between password change : 7 Remediation: Set thePASS_MIN_DAYS parameter to 7 in /etc/login.defs : PASS_MIN_DAYS 7 Modify user parameters for all users with a password set to match: # chage --mindays 7 Notes: You can also check this setting in /etc/shadow directly. The 5th field should be 7 or more for all users with a password. 5.4.1.3 Ensure password expiration warning days is 7 or more (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The PASS_WARN_AGE parameter in /etc/login.defs allows an administrator to notify users that their password will expire in a defined number of days. It is recommended that the PASS_WARN_AGE parameter be set to 7 or more days. Rationale: Providing an advance warning that a password will be expiring gives users time to think of a secure password. Users caught unaware may choose a simple password or write it down where it may be discovered. Audit: Run the following command and verify PASS_WARN_AGE is 7 or more: PASS_WARN_AGE 7N_AGE /etc/login.defs Verify all users with a password have their number of days of warning before password expires set to 7 or more: [^\!*] /etc/shadow | cut -d: -f1 # chage --list Number of days of warning before password expires : 7 Remediation: Set thePASS_WARN_AGE parameter to 7 in /etc/login.defs : PASS_WARN_AGE 7 Modify user parameters for all users with a password set to match: # chage --warndays 7 Notes: You can also check this setting i/etc/shadow directly. The 6th field should be 7 or more for all users with a password. 5.4.1.4 Ensure inactive password lock is 30 days or less (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: User accounts that have been inactive for over a given period of time can be automatically disabled. It is recommended that accounts that are inactive for 30 days after password expiration be disabled. Rationale: Inactive accounts pose a threat to system security since the users are not logging in to notice failed login attempts or other anomalies. Audit: Run the following command and verify INACTIVE is 30 or less: INACTIVE=35D | grep INACTIVE Verify all users with a password have Password inactive no more than 30 days after password expires: # egrep ^[^:]+:[^\!*] /etc/shadow | cut -d: -f1 # chage --list Password inactive : Remediation: Run the following command to set the default password inactivity period to 30 days: # useradd -D -f 30 Modify user parameters for all users with a password set to match: # chage --inactive 30 Notes: You can also check this setting i/etc/shadow directly. The 7th field should be 30 or less for all users with a password. 5.4.2 Ensure system accounts are non-login (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: There are a number of accounts provided with Ubuntu that are used to manage applications and are not intended to provide an interactive shell. Rationale: It is important to make sure that accounts that are not being used by regular users are prevented from being used to provide an interactive shell. By default, Ubuntu sets the password field for these accounts to an invalid string, but it is also recommended that the shell field in the password file be set /sbin/nologin . This prevents the account from potentially being used to run any commands. Audit: Run the following script and verify no results are returned: $1!="halt" && $3<1000 && $7!="/usr/sbin/nologin" && $7!="/bin/false") {print}'wn" && Remediation: Set the shell for any accounts returned by the audit script t/usr/sbin/nologin : # usermod -s /usr/sbin/nologin The following script will automatically set all user shells required /usr/sbin/nologin and lock the sync ,shutdown , andhalt users: #!/bin/bash for user in `awk -F: '($3 < 1000) {print $1 }' /etc/passwd`; do if [ $user != "root" ]; then if [ $user != "sync" ] && [ $user != "shutdown" ] && [ $user != "halt" ]; then usermod -s /usr/sbin/nologin $user fi fi done 5.4.3 Ensure default group for the root account is GID 0 (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The usermod command can be used to specify which group the root user belongs to. This affects permissions of files that are created by the root user. Rationale: Using GID 0 for the root account helps prevent root-owned files from accidentally becoming accessible to non-privileged users. Audit: Run the following command and verify the result is 0: # grep "^root:" /etc/passwd | cut -f4 -d: 0 Remediation: Run the following command to set the root user default group to GID 0: # usermod -g 0 root 5.4.4 Ensure default user umask is 027 or more restrictive (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The default umask determines the permissions of files created by users. The user creating the file has the discretion of making their files and directories readable by others via the chmod command. Users who wish to allow their files and directories to be readable by others by default may choose a different default umask by inserting theumask command into the standard shell configuration file.profile ,.bashrc , etc.) in their home directories. Rationale: Setting a very secure default value foumask ensures that users make a conscious choice about their file permissions. A defaulumask setting of077 causes files and directories created by users to not be readable by any other user on the system. Aumask of027 would make files and directories readable by users in the same Unix group, while umask of 022 would make files readable by every user on the system. Audit: Run the following commands and verify all umask lines returned are 027 or more restrictive. # grep "^umask" /etc/bash.bashrc umask 027 umask 027umask" /etc/profile Remediation: Edit the/etc/bash.bashrc and /etc/profile files (and the appropriate files for any other shell supported on your system) and add or edit any umask parameters as follows: umask 027 Notes: The audit and remediation in this recommendation apply to bash and shell. If other shells are supported on the system, it is recommended that their configuration files also are checked. Other methods of setting a default user umask exist however the shell configuration files are the last run and will override other settings if they exist therefore our recommendation is to configure in the shell configuration files. If other methods are in use in your environment they should be audited and the shell configs should be verified to not override. 5.5 Ensure root login is restricted to system console (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The file/etc/securetty contains a list of valid terminals that may be logged in directly as root. Rationale: Since the system console has special properties to handle emergency situations, it is important to ensure that the console is in a physically secure location and that unauthorized consoles have not been defined. Audit: # cat /etc/securetty Remediation: Remove entries for any consoles that are not in a physically secure location. 5.6 Ensure access to the su command is restricted (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The su command allows a user to run a command or shell as another user. The program has been superseded by sudo , which allows for more granular control over privileged access. Normally, thesu command can be executed by any user. By uncommenting the pam_wheel.so statement in /etc/pam.d/su , thsu command will only allow users in the wheel group to execute su . Rationale: Restricting the use osu, and usingsudo in its place, provides system administrators better control of the escalation of user privileges to execute privileged commands. The sudo utility also provides a better logging and audit mechanism, as it can log each command executed viasudo , whereas su can only record that a user executed thesu program. Audit: Run the following command and verify output includes matching line: # grep pam_wheel.so /etc/pam.d/su auth required pam_wheel.so use_uid Run the following command and verify users in wheel group match site policy: # grep wheel /etc/group wheel:x:10:root, Remediation: Add the following line to th/etc/pam.d/su file: auth required pam_wheel.so use_uid Create a comma separated list of users in the wheel statement in th/etc/group file: wheel:x:10:root, 6 System Maintenance Recommendations in this section are intended as maintenance and are intended to be checked on a frequent basis to ensure system stability. Many recommendations do not have quick remediations and require investigation into the cause and best fix available and may indicate an attempted breach of system security. 6.1 System File Permissions This section provides guidance on securing aspects of system files and directories. 6.1.1 Audit system file permissions (Not Scored) Profile Applicability: Level 2 - Server Level 2 - Workstation Description: The Debian package manager has a number of useful options. One of these, the -- verify option, can be used to verify that system packages are correctly installed. --e verify option can be used to verify a particular package or to verify all system packages. If no output is returned, the package is installed correctly. The following table describes the meaning of output from the verify option: Code Meaning S File size differs. M File mode differs (includes permissions and file type). 5 The MD5 checksum differs. D The major and minor version numbers differ on a device file. U The file ownership differs.. G The file group owner differs. T The file time (mtime) differs. The dpkg -S command can be used to determine which package a particular file belongs to. For example the following commands determines which package the /bin/bash file belongs to: # dpkg -S /bin/bash bash: /bin/bash To verify the settings for the package that controls /bin/bash file, run the following: # dpkg --verify bash ??5 c /etc/bash.bashrc Rationale: It is important to confirm that packaged system files and directories are maintained with the permissions they were intended to have from the OS vendor. Audit: Run the following command to review all installed packages. Note that this may be very time consuming and may be best scheduled via the cron utility. It is recommended that the output of this command be redirected to a file that can be reviewed later. # dpkg --verify > Remediation: Correct any discrepancies found and rerun the audit until output is clean or risk is mitigated or accepted. References: 1. http://docs.fedoraproject.org/en- US/Fedora_Draft_Documentation/0.1/html/RPM_Guide/index.html Notes: Since packages and important files may change with new updates and releases, it is recommended to verify everything, not just a finite list of files. This can be a time consuming task and results may depend on site policy therefore it is not a scorable benchmark item, but is provided for those interested in additional security measures. Some of the recommendations of this benchmark alter the state of files audited by this recommendation. The audit command will alert for all changes to a file permissions even if the new state is more secure than the default. 6.1.2 Ensure permissions on /etc/passwd are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/passwd file contains user account information that is used by many system utilities and therefore must be readable for these utilities to operate. Rationale: It is critical to ensure that /etc/passwd file is protected from unauthorized write access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644 : # stat /etc/passwd Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/passwd : # chown root:root /etc/passwd # chmod 644 /etc/passwd 6.1.3 Ensure permissions on /etc/shadow are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/shadow file is used to store the information about user accounts that is critical to the security of those accounts, such as the hashed password and other security information. Rationale: If attackers can gain read access to th/etc/shadow file, they can easily run a password cracking program against the hashed password to break it. Other security information that is stored in the/etc/shadow file (such as expiration) could also be useful to subvert the user accounts. Audit: Run the following command and verify Uid is0/root ,Gid is /shadow , andAccess is 640 or more restrictive: # stat /etc/shadow Access: (0640/-rw-r-----) Uid: ( 0/ root) Gid: ( 42/ shadow) Remediation: Run the one following commands to set permissions on /etc/shadow : # chown root:shadow /etc/shadow # chmod o-rwx,g-wx /etc/shadow 6.1.4 Ensure permissions on /etc/group are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/group file contains a list of all the valid groups defined in the system. The command below allows read/write access for root and read access for everyone else. Rationale: The /etc/group file needs to be protected from unauthorized changes by non-privileged users, but needs to be readable as this information is used with many non-privileged programs. Audit: Run the following command and verify Uid and Gid are both 0/root and Access is644: Access: (0644/-rw-r--r--) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/group : # chown root:root /etc/group # chmod 644 /etc/group 6.1.5 Ensure permissions on /etc/gshadow are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/gshadow file is used to store the information about groups that is critical to the security of those accounts, such as the hashed password and other security information. Rationale: If attackers can gain read access to th/etc/gshadow file, they can easily run a password cracking program against the hashed password to break it. Other security information that is stored in th/etc/gshadow file (such as group administrators) could also be useful to subvert the group. Audit: Run the following command and verify verifyUid is0/root, Gid is/shadow, and Access is640 or more restrictive: Access: (0640/-rw-r-----) Uid: ( 0/ root) Gid: ( 42/ shadow) Remediation: Run the following commands to set permissions on /etc/gshadow : # chown root:shadow /etc/gshadow # chmod o-rwx,g-rw /etc/gshadow 6.1.6 Ensure permissions on /etc/passwd- are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/passwd- file contains backup user account information. Rationale: It is critical to ensure that/etc/passwd- file is protected from unauthorized access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both0/root and Access is600 or more restrictive: Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/passwd- : # chown root:root /etc/passwd- # chmod 600 /etc/passwd- 6.1.7 Ensure permissions on /etc/shadow- are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/shadow- file is used to store backup information about user accounts that is critical to the security of those accounts, such as the hashed password and other security information. Rationale: It is critical to ensure that/etc/shadow- file is protected from unauthorized access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both0/root and Access is600 or more restrictive: # stat /etc/shadow- Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/shadow- : # chown root:root /etc/shadow- # chmod 600 /etc/shadow- 6.1.8 Ensure permissions on /etc/group- are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/group- file contains a backup list of all the valid groups defined in the system. Rationale: It is critical to ensure that/etc/group- file is protected from unauthorized access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both0/root and Access is600 or more restrictive: Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/group- : # chown root:root /etc/group- # chmod 600 /etc/group- 6.1.9 Ensure permissions on /etc/gshadow- are configured (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The /etc/gshadow- file is used to store backup information about groups that is critical to the security of those accounts, such as the hashed password and other security information. Rationale: It is critical to ensure that/etc/gshadow- file is protected from unauthorized access. Although it is protected by default, the file permissions could be changed either inadvertently or through malicious actions. Audit: Run the following command and verify Uid and Gid are both0/root and Access is600 or more restrictive: # stat /etc/gshadow- Access: (0600/-rw-------) Uid: ( 0/ root) Gid: ( 0/ root) Remediation: Run the following command to set permissions on /etc/gshadow- : # chown root:root /etc/gshadow- # chmod 600 /etc/gshadow- 6.1.10 Ensure no world writable files exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Unix-based systems support variable settings to control access to files. World writable files are the least secure. See thchmod(2) man page for more information. Rationale: Data in world-writable files can be modified and compromised by any user on the system. World writable files may also indicate an incorrectly written script or program that could potentially be the cause of a larger compromise to the system's integrity. Audit: Run the following command and verify no files are returned: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -type f -perm -0002 The command above only searches local filesystems, there may still be compromised items on network mounted partitions. Additionally the --local option to dfis not universal to all versions, it can be omitted to search all filesystems on a system including network mounted filesystems or the following command can be run manually for each partition: # find -xdev -type f -perm -0002 Remediation: Removing write access for the "other" category (chmod o-w ) is advisable, but always consult relevant vendor documentation to avoid breaking any application dependencies on a given file. 6.1.11 Ensure no unowned files or directories exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Sometimes when administrators delete users from the password file they neglect to remove all files owned by those users from the system. Rationale: A new user who is assigned the deleted user's user ID or group ID may then end up "owning" these files, and thus have more access on the system than was intended. Audit: Run the following command and verify no files are returned: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -nouser The command above only searches local filesystems, there may still be compromised items on network mounted partitions. Additionally the --local option to dfis not universal to all versions, it can be omitted to search all filesystems on a system including network mounted filesystems or the following command can be run manually for each partition: # find -xdev -nouser Remediation: Locate files that are owned by users or groups not listed in the system configuration files, and reset the ownership of these files to some active user on the system as appropriate. 6.1.12 Ensure no ungrouped files or directories exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Sometimes when administrators delete users or groups from the system they neglect to remove all files owned by those users or groups. Rationale: A new user who is assigned the deleted user's user ID or group ID may then end up "owning" these files, and thus have more access on the system than was intended. Audit: Run the following command and verify no files are returned: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -nogroup The command above only searches local filesystems, there may still be compromised items on network mounted partitions. Additionally the --local option to dfis not universal to all versions, it can be omitted to search all filesystems on a system including network mounted filesystems or the following command can be run manually for each partition: # find -xdev -nogroup Remediation: Locate files that are owned by users or groups not listed in the system configuration files, and reset the ownership of these files to some active user on the system as appropriate. 6.1.13 Audit SUID executables (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The owner of a file can set the file's permissions to run with the owner's or group's permissions, even if the user running the program is not the owner or a member of the group. The most common reason for a SUID program is to enable users to perform functions (such as changing their password) that require root privileges. Rationale: There are valid reasons for SUID programs, but it is important to identify and review such programs to ensure they are legitimate. Audit: Run the following command to list SUID files: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -type f -perm -4000 The command above only searches local filesystems, there may still be compromised items on network mounted partitions. Additionally the --local option to dfis not universal to all versions, it can be omitted to search all filesystems on a system including network mounted filesystems or the following command can be run manually for each partition: # find -xdev -type f -perm -4000 Remediation: Ensure that no rogue SUID programs have been introduced into the system. Review the files returned by the action in the Audit section and confirm the integrity of these binaries. 6.1.14 Audit SGID executables (Not Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The owner of a file can set the file's permissions to run with the owner's or group's permissions, even if the user running the program is not the owner or a member of the group. The most common reason for a SGID program is to enable users to perform functions (such as changing their password) that require root privileges. Rationale: There are valid reasons for SGID programs, but it is important to identify and review such programs to ensure they are legitimate. Review the files returned by the action in the audit section and check to see if system binaries have a different md5 checksum than what from the package. This is an indication that the binary may have been replaced. Audit: Run the following command to list SGID files: # df --local -P | awk {'if (NR!=1) print $6'} | xargs -I '{}' find '{}' -xdev -type f -perm -2000 The command above only searches local filesystems, there may still be compromised items on network mounted partitions. Additionally the --local option todf is not universal to all versions, it can be omitted to search all filesystems on a system including network mounted filesystems or the following command can be run manually for each partition: # find -xdev -type f -perm -2000 Remediation: Ensure that no rogue SGID programs have been introduced into the system. Review the files returned by the action in the Audit section and confirm the integrity of these binaries. 6.2 User and Group Settings This section provides guidance on securing aspects of the users and groups. 6.2.1 Ensure password fields are not empty (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: An account with an empty password field means that anybody may log in as that user without providing a password. Rationale: All accounts must have passwords or be locked to prevent the account from being used by an unauthorized user. Audit: Run the following command and verify that no output is returned: # cat /etc/shadow | awk -F: '($2 == "" ) { print $1 " does not have a password "}' Remediation: If any accounts in th/etc/shadow file do not have a password, run the following command to lock the account until it can be determined why it does not have a password: # passwd -l Also, check to see if the account is logged in and investigate what it is being used for to determine if it needs to be forced off. 6.2.2 Ensure no legacy "+" entries exist in /etc/passwd (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The character + in various files used to be markers for systems to insert data from NIS maps at a certain point in a system configuration file. These entries are no longer required on most systems, but may exist in files that have been imported from other platforms. Rationale: These entries may provide an avenue for attackers to gain privileged access on the system. Audit: Run the following command and verify that no output is returned: # grep '^+:' /etc/passwd Remediation: Remove any legacy '+' entries from /etc/passwd if they exist. 6.2.3 Ensure no legacy "+" entries exist in /etc/shadow (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The character + in various files used to be markers for systems to insert data from NIS maps at a certain point in a system configuration file. These entries are no longer required on most systems, but may exist in files that have been imported from other platforms. Rationale: These entries may provide an avenue for attackers to gain privileged access on the system. Audit: Run the following command and verify that no output is returned: # grep '^+:' /etc/shadow Remediation: Remove any legacy '+' entries from /etc/shadow if they exist. 6.2.4 Ensure no legacy "+" entries exist in /etc/group (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The character + in various files used to be markers for systems to insert data from NIS maps at a certain point in a system configuration file. These entries are no longer required on most systems, but may exist in files that have been imported from other platforms. Rationale: These entries may provide an avenue for attackers to gain privileged access on the system. Audit: Run the following command and verify that no output is returned: # grep '^+:' /etc/group Remediation: Remove any legacy '+' entries from /etc/group if they exist. 6.2.5 Ensure root is the only UID 0 account (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Any account with UID 0 has superuser privileges on the system. Rationale: This access must be limited to only the defaulroot account and only from the system console. Administrative access must be through an unprivileged account using an approved mechanism as noted in Item 5.6 Ensure access to the su command is restricted. Audit: Run the following command and verify that only "root" is returned: # cat /etc/passwd | awk -F: '($3 == 0) { print $1 }' root Remediation: Remove any users other than root with UID 0 or assign them a new UID if appropriate. 6.2.6 Ensure root PATH Integrity (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The root user can execute any command on the system and could be fooled into executing programs unintentionally if thePATH is not set correctly. Rationale: Including the current working directory (.) or other writable directory root 's executable path makes it likely that an attacker can gain superuser access by forcing an administrator operating as root to execute a Trojan horse program. Audit: Run the following script and verify no results are returned: #!/bin/bash if [ "`echo $PATH | grep :: `" != "" ]; then echo "Empty Directory in PATH (::)" fi if [ "`echo $PATH | grep :$`" != "" ]; then echo "Trailing : in PATH" fi p=`echo $PATH | sed -e 's/::/:/' -e 's/:$//' -e 's/:/ /g'` set -- $p while [ "$1" != "" ]; do if [ "$1" = "." ]; then echo "PATH contains ." shift continue fi if [ -d $1 ]; then dirperm=`ls -ldH $1 | cut -f1 -d" "` if [ `echo $dirperm | cut -c6 ` != "-" ]; then echo "Group Write permission set on directory $1" fi if [ `echo $dirperm | cut -c9 ` != "-" ]; then echo "Other Write permission set on directory $1" fi dirown=`ls -ldH $1 | awk '{print $3}'` if [ "$dirown" != "root" ] ; then echo $1 is not owned by root fi else echo $1 is not a directory fi doneift Remediation: Correct or justify any items discovered in the Audit step. 6.2.7 Ensure all users' home directories exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Users can be defined in /etc/passwd without a home directory or with a home directory that does not actually exist. Rationale: If the user's home directory does not exist or is unassigned, the user will be placed in "/" and will not be able to write any files or have local environment variables set. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/passwd | awk -F: '{ print $1 " " $3 " " $6 }' | while read user uid dir; do if [ $uid -ge 1000 -a ! -d "$dir" -a $user != "nfsnobody" ]; then echo "The home directory ($dir) of user $user does not exist." fi done Remediation: If any users' home directories do not exist, create them and make sure the respective user owns the directory. Users without an assigned home directory should be removed or assigned a home directory as appropriate. 6.2.8 Ensure users' home directories permissions are 750 or more restrictive (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: While the system administrator can establish secure permissions for users' home directories, the users can easily override these. Rationale: Group or world-writable user home directories may enable malicious users to steal or modify other users' data or to gain another user's system privileges. Audit: Run the following script and verify no results are returned: #!/bin/bash "/usr/sbin/nologin") { print $6 }'`; dov '(root|halt|sync|shutdown)' | awk -F: '($7 != dirperm=`ls -ld $dir | cut -f1 -d" "` if [ `echo $dirperm | cut -c6 ` != "-" ]; then echo "Group Write permission set on directory $dir" fi if [ `echo $dirperm | cut -c8 ` != "-" ]; then echo "Other Read permission set on directory $dir" fi if [ `echo $dirperm | cut -c9 ` != "-" ]; then echo "Other Write permission set on directory $dir" fi if [ `echo $dirperm | cut -c10 ` != "-" ]; then echo "Other Execute permission set on directory $dir" fi done Remediation: Making global modifications to user home directories without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report user file permissions and determine the action to be taken in accordance with site policy. 6.2.9 Ensure users own their home directories (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The user home directory is space defined for the particular user to set local environment variables and to store personal files. Rationale: Since the user is accountable for files stored in the user home directory, the user must be the owner of the directory. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/passwd | awk -F: '{ print $1 " " $3 " " $6 }' | while read user uid dir; do if [ $uid -ge 1000 -a -d "$dir" -a $user != "nfsnobody" ]; then owner=$(stat -L -c "%U" "$dir") echo "The home directory ($dir) of user $user is owned by $owner." fi fi done Remediation: Change the ownership of any home directories that are not owned by the defined user to the correct user. 6.2.10 Ensure users' dot files are not group or world writable (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: While the system administrator can establish secure permissions for users' "dot" files, the users can easily override these. Rationale: Group or world-writable user configuration files may enable malicious users to steal or modify other users' data or to gain another user's system privileges. Audit: Run the following script and verify no results are returned: #!/bin/bash for dir in `cat /etc/passwd | egrep -v '(root|sync|halt|shutdown)' | awk -F: '($7 != "/usr/sbin/nologin") { print $6 }'`; do for file in $dir/.[A-Za-z0-9]*; do if [ ! -h "$file" -a -f "$file" ]; then fileperm=`ls -ld $file | cut -f1 -d" "` if [ `echo $fileperm | cut -c6 ` != "-" ]; then echo "Group Write permission set on file $file" fi if [ `echo $fileperm | cut -c9 ` != "-" ]; then echo "Other Write permission set on file $file" fi fi done done Remediation: Making global modifications to users' files without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report user dot file permissions and determine the action to be taken in accordance with site policy. 6.2.11 Ensure no users have .forward files (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The .forward file specifies an email address to forward the user's mail to. Rationale: Use of the.forward file poses a security risk in that sensitive data may be inadvertently transferred outside the organization. The.forward file also poses a risk as it can be used to execute commands that may perform unintended actions. Audit: Run the following script and verify no results are returned: #!/bin/bash for dir in `cat /etc/passwd |\ awk -F: '{ print $6 }'`; do if [ ! -h "$dir/.forward" -a -f "$dir/.forward" ]; then echo ".forward file $dir/.forward exists" fi done Remediation: Making global modifications to users' files without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report use.forward files and determine the action to be taken in accordance with site policy. 6.2.12 Ensure no users have .netrc files (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The .netrc file contains data for logging into a remote host for file transfers via FTP. Rationale: The .netrc file presents a significant security risk since it stores passwords in unencrypted form. Even if FTP is disabled, user accounts may have brought over .netrc files from other systems which could pose a risk to those systems. Audit: Run the following script and verify no results are returned: #!/bin/bash for dir in `cat /etc/passwd |\ awk -F: '{ print $6 }'`; do if [ ! -h "$dir/.netrc" -a -f "$dir/.netrc" ]; then echo ".netrc file $dir/.netrc exists" fi done Remediation: Making global modifications to users' files without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report use.netrc files and determine the action to be taken in accordance with site policy. 6.2.13 Ensure users' .netrc Files are not group or world accessible (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: While the system administrator can establish secure permissions for users' .netrc files, the users can easily override these. Rationale: .netrc files may contain unencrypted passwords that may be used to attack other systems. Audit: Run the following script and verify no results are returned: #!/bin/bash for dir in `cat /etc/passwd | egrep -v '(root|sync|halt|shutdown)' | awk -F: '($7 != "/usr/sbin/nologin") { print $6 }'`; do for file in $dir/.netrc; do if [ ! -h "$file" -a -f "$file" ]; then fileperm=`ls -ld $file | cut -f1 -d" "` if [ `echo $fileperm | cut -c5 ` != "-" ]; then echo "Group Read set on $file" fi if [ `echo $fileperm | cut -c6 ` != "-" ]; then echo "Group Write set on $file" fi if [ `echo $fileperm | cut -c7 ` != "-" ]; then echo "Group Execute set on $file" fi if [ `echo $fileperm | cut -c8 ` != "-" ]; then echo "Other Read set on $file" fi if [ `echo $fileperm | cut -c9 ` != "-" ]; then echo "Other Write set on $file" fi if [ `echo $fileperm | cut -c10 ` != "-" ]; then echo "Other Execute set on $file" fi fi done done Remediation: Making global modifications to users' files without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report user .netrc file permissions and determine the action to be taken in accordance with site policy. Notes: While the complete removal of .netrc files is recommended if any are required on the system secure permissions must be applied. 6.2.14 Ensure no users have .rhosts files (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: While no .rhosts files are shipped by default, users can easily create them. Rationale: This action is only meaningful i.rhosts support is permitted in the fil/etc/pam.conf . Even though the .rhosts files are ineffective if support is disabled/etc/pam.conf , they may have been brought over from other systems and could contain information useful to an attacker for those other systems. Audit: Run the following script and verify no results are returned: #!/bin/bash for dir in `cat /etc/passwd | egrep -v '(root|halt|sync|shutdown)' | awk -F: '($7 != "/usr/sbin/nologin") { print $6 }'`; do for file in $dir/.rhosts; do if [ ! -h "$file" -a -f "$file" ]; then echo ".rhosts file in $dir" done done Remediation: Making global modifications to users' files without alerting the user community can result in unexpected outages and unhappy users. Therefore, it is recommended that a monitoring policy be established to report user.rhosts files and determine the action to be taken in accordance with site policy. 6.2.15 Ensure all groups in /etc/passwd exist in /etc/group (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Over time, system administration errors and changes can lead to groups being defined in /etc/passwd but not in/etc/group . Rationale: Groups defined in the /etc/passwd file but not in th/etc/group file pose a threat to system security since group permissions are not properly managed. Audit: Run the following script and verify no results are returned: #!/bin/bash for i in $(cut -s -d: -f4 /etc/passwd | sort -u ); do grep -q -P "^.*?:[^:]*:$i:" /etc/group if [ $? -ne 0 ]; then echo "Group $i is referenced by /etc/passwd but does not exist in /etc/group" fi done Remediation: Analyze the output of the Audit step above and perform the appropriate action to correct any discrepancies found. 6.2.16 Ensure no duplicate UIDs exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Although the useradd program will not let you create a duplicate User ID (UID), it is possible for an administrator to manually edit the/etc/passwd file and change the UID field. Rationale: Users must be assigned unique UIDs for accountability and to ensure appropriate access protections. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/passwd | cut -f3 -d":" | sort -n | uniq -c | while read x ; do [ -z "${x}" ] && break set - $x if [ $1 -gt 1 ]; then users=`awk -F: '($3 == n) { print $1 }' n=$2 /etc/passwd | xargs` fiecho "Duplicate UID ($2): ${users}" done Remediation: Based on the results of the audit script, establish unique UIDs and review all files owned by the shared UIDs to determine which UID they are supposed to belong to. 6.2.17 Ensure no duplicate GIDs exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Although the groupadd program will not let you create a duplicate Group ID (GID), it is possible for an administrator to manually edit the/etc/group file and change the GID field. Rationale: User groups must be assigned unique GIDs for accountability and to ensure appropriate access protections. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/group | cut -f3 -d":" | sort -n | uniq -c | while read x ; do [ -z "${x}" ] && break set - $x if [ $1 -gt 1 ]; then groups=`awk -F: '($3 == n) { print $1 }' n=$2 /etc/group | xargs` fiecho "Duplicate GID ($2): ${groups}" done Remediation: Based on the results of the audit script, establish unique GIDs and review all files owned by the shared GID to determine which group they are supposed to belong to. Notes: You can also use the grpck command to check for other inconsistencies in the /etc/group file. 6.2.18 Ensure no duplicate user names exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Although the useradd program will not let you create a duplicate user name, it is possible for an administrator to manually edit the/etc/passwd file and change the user name. Rationale: If a user is assigned a duplicate user name, it will create and have access to files with the first UID for that username in/etc/passwd . For example, if "test4" has a UID of 1000 and a subsequent "test4" entry has a UID of 2000, logging in as "test4" will use UID 1000. Effectively, the UID is shared, which is a security problem. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/passwd | cut -f1 -d":" | sort -n | uniq -c | while read x ; do [ -z "${x}" ] && break set - $x if [ $1 -gt 1 ]; then uids=`awk -F: '($1 == n) { print $3 }' n=$2 /etc/passwd | xargs` echo "Duplicate User Name ($2): ${uids}" fi done Remediation: Based on the results of the audit script, establish unique user names for the users. File ownerships will automatically reflect the change as long as the users have unique UIDs. 6.2.19 Ensure no duplicate group names exist (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: Although the groupadd program will not let you create a duplicate group name, it is possible for an administrator to manually edit the/etc/group file and change the group name. Rationale: If a group is assigned a duplicate group name, it will create and have access to files with the first GID for that group i/etc/group . Effectively, the GID is shared, which is a security problem. Audit: Run the following script and verify no results are returned: #!/bin/bash cat /etc/group | cut -f1 -d":" | sort -n | uniq -c | while read x ; do [ -z "${x}" ] && break set - $x if [ $1 -gt 1 ]; then gids=`gawk -F: '($1 == n) { print $3 }' n=$2 /etc/group | xargs` echo "Duplicate Group Name ($2): ${gids}" fi done Remediation: Based on the results of the audit script, establish unique names for the user groups. File group ownerships will automatically reflect the change as long as the groups have unique GIDs. 6.2.20 Ensure shadow group is empty (Scored) Profile Applicability: Level 1 - Server Level 1 - Workstation Description: The shadow group allows system programs which require access the ability to read the /etc/shadow file. No users should be assigned to the shadow group. Rationale: Any users assigned to the shadow group would be granted read access to the /etc/shadow file. If attackers can gain read access to /etc/shadow file, they can easily run a password cracking program against the hashed passwords to break them. Other security information that is stored in th/etc/shadow file (such as expiration) could also be useful to subvert additional user accounts. Audit: Run the following commands and verify no results are returned: # grep ^shadow:[^:]*:[^:]*:[^:]+ /etc/group # awk -F: '($4 == "") { print }' /etc/passwd Remediation: Remove all users from the shadow group, and change the primary group of any users with shadow as their primary group.