Manually joining an Amazon EC2 Linux instance to your AWS Managed Microsoft AD Active Directory - AWS Directory Service

Manually joining an Amazon EC2 Linux instance to your AWS Managed Microsoft AD Active Directory

In addition to Amazon EC2 Windows instances, you can also join certain Amazon EC2 Linux instances to your AWS Managed Microsoft AD Active Directory. The following Linux instance distributions and versions are supported:

  • Amazon Linux AMI 2018.03.0

  • Amazon Linux 2 (64-bit x86)

  • Amazon Linux 2023 AMI

  • Red Hat Enterprise Linux 8 (HVM) (64-bit x86)

  • Ubuntu Server 18.04 LTS & Ubuntu Server 16.04 LTS

  • CentOS 7 x86-64

  • SUSE Linux Enterprise Server 15 SP1

Note

Other Linux distributions and versions may work but have not been tested.

Join a Linux instance to your AWS Managed Microsoft AD

Before you can join either an Amazon Linux, CentOS, Red Hat, or Ubuntu instance to your directory, the instance must first be launched as specified in Seamlessly join your Linux instance.

Important

Some of the following procedures, if not performed correctly, can render your instance unreachable or unusable. Therefore, we strongly suggest you make a backup or take a snapshot of your instance before performing these procedures.

To join a Linux instance to your directory

Follow the steps for your specific Linux instance using one of the following tabs:

Amazon Linux
  1. Connect to the instance using any SSH client.

  2. Configure the Linux instance to use the DNS server IP addresses of the AWS Directory Service-provided DNS servers. You can do this either by setting it up in the DHCP Options set attached to the VPC or by setting it manually on the instance. If you want to set it manually, see How do I assign a static DNS server to a private Amazon EC2 instance in the AWS Knowledge Center for guidance on setting the persistent DNS server for your particular Linux distribution and version.

  3. Make sure your Amazon Linux - 64bit instance is up to date.

    sudo yum -y update
  4. Install the required Amazon Linux packages on your Linux instance.

    Note

    Some of these packages may already be installed.

    As you install the packages, you might be presented with several pop-up configuration screens. You can generally leave the fields in these screens blank.

    Amazon Linux
    sudo yum install samba-common-tools realmd oddjob oddjob-mkhomedir sssd adcli krb5-workstation
    Note

    For help with determining the Amazon Linux version you are using, see Identifying Amazon Linux images in the Amazon EC2 User Guide for Linux Instances.

  5. Join the instance to the directory with the following command.

    sudo realm join -U join_account@EXAMPLE.COM example.com --verbose
    join_account@EXAMPLE.COM

    An account in the example.com domain that has domain join privileges. Enter the password for the account when prompted. For more information about delegating these privileges, see Delegating directory join privileges for AWS Managed Microsoft AD.

    example.com

    The fully qualified DNS name of your directory.

    ... * Successfully enrolled machine in realm
  6. Set the SSH service to allow password authentication.

    1. Open the /etc/ssh/sshd_config file in a text editor.

      sudo vi /etc/ssh/sshd_config
    2. Set the PasswordAuthentication setting to yes.

      PasswordAuthentication yes
    3. Restart the SSH service.

      sudo systemctl restart sshd.service

      Alternatively:

      sudo service sshd restart
  7. After the instance has restarted, connect to it with any SSH client and add the AWS Delegated Administrators group to the sudoers list by performing the following steps:

    1. Open the sudoers file with the following command:

      sudo visudo
    2. Add the following to the bottom of the sudoers file and save it.

      ## Add the "AWS Delegated Administrators" group from the example.com domain. %AWS\ Delegated\ Administrators@example.com ALL=(ALL:ALL) ALL

      (The above example uses "\<space>" to create the Linux space character.)

CentOS
  1. Connect to the instance using any SSH client.

  2. Configure the Linux instance to use the DNS server IP addresses of the AWS Directory Service-provided DNS servers. You can do this either by setting it up in the DHCP Options set attached to the VPC or by setting it manually on the instance. If you want to set it manually, see How do I assign a static DNS server to a private Amazon EC2 instance in the AWS Knowledge Center for guidance on setting the persistent DNS server for your particular Linux distribution and version.

  3. Make sure your CentOS 7 instance is up to date.

    sudo yum -y update
  4. Install the required CentOS 7 packages on your Linux instance.

    Note

    Some of these packages may already be installed.

    As you install the packages, you might be presented with several pop-up configuration screens. You can generally leave the fields in these screens blank.

    sudo yum -y install sssd realmd krb5-workstation samba-common-tools
  5. Join the instance to the directory with the following command.

    sudo realm join -U join_account@example.com example.com --verbose
    join_account@example.com

    An account in the example.com domain that has domain join privileges. Enter the password for the account when prompted. For more information about delegating these privileges, see Delegating directory join privileges for AWS Managed Microsoft AD.

    example.com

    The fully qualified DNS name of your directory.

    ... * Successfully enrolled machine in realm
  6. Set the SSH service to allow password authentication.

    1. Open the /etc/ssh/sshd_config file in a text editor.

      sudo vi /etc/ssh/sshd_config
    2. Set the PasswordAuthentication setting to yes.

      PasswordAuthentication yes
    3. Restart the SSH service.

      sudo systemctl restart sshd.service

      Alternatively:

      sudo service sshd restart
  7. After the instance has restarted, connect to it with any SSH client and add the AWS Delegated Administrators group to the sudoers list by performing the following steps:

    1. Open the sudoers file with the following command:

      sudo visudo
    2. Add the following to the bottom of the sudoers file and save it.

      ## Add the "AWS Delegated Administrators" group from the example.com domain. %AWS\ Delegated\ Administrators@example.com ALL=(ALL:ALL) ALL

      (The above example uses "\<space>" to create the Linux space character.)

Red Hat
  1. Connect to the instance using any SSH client.

  2. Configure the Linux instance to use the DNS server IP addresses of the AWS Directory Service-provided DNS servers. You can do this either by setting it up in the DHCP Options set attached to the VPC or by setting it manually on the instance. If you want to set it manually, see How do I assign a static DNS server to a private Amazon EC2 instance in the AWS Knowledge Center for guidance on setting the persistent DNS server for your particular Linux distribution and version.

  3. Make sure the Red Hat - 64bit instance is up to date.

    sudo yum -y update
  4. Install the required Red Hat packages on your Linux instance.

    Note

    Some of these packages may already be installed.

    As you install the packages, you might be presented with several pop-up configuration screens. You can generally leave the fields in these screens blank.

    sudo yum -y install sssd realmd krb5-workstation samba-common-tools
  5. Join the instance to the directory with the following command.

    sudo realm join -v -U join_account example.com --install=/
    join_account

    The sAMAccountName for an account in the example.com domain that has domain join privileges. Enter the password for the account when prompted. For more information about delegating these privileges, see Delegating directory join privileges for AWS Managed Microsoft AD.

    example.com

    The fully qualified DNS name of your directory.

    ... * Successfully enrolled machine in realm
  6. Set the SSH service to allow password authentication.

    1. Open the /etc/ssh/sshd_config file in a text editor.

      sudo vi /etc/ssh/sshd_config
    2. Set the PasswordAuthentication setting to yes.

      PasswordAuthentication yes
    3. Restart the SSH service.

      sudo systemctl restart sshd.service

      Alternatively:

      sudo service sshd restart
  7. After the instance has restarted, connect to it with any SSH client and add the AWS Delegated Administrators group to the sudoers list by performing the following steps:

    1. Open the sudoers file with the following command:

      sudo visudo
    2. Add the following to the bottom of the sudoers file and save it.

      ## Add the "AWS Delegated Administrators" group from the example.com domain. %AWS\ Delegated\ Administrators@example.com ALL=(ALL:ALL) ALL

      (The above example uses "\<space>" to create the Linux space character.)

SUSE
  1. Connect to the instance using any SSH client.

  2. Configure the Linux instance to use the DNS server IP addresses of the AWS Directory Service-provided DNS servers. You can do this either by setting it up in the DHCP Options set attached to the VPC or by setting it manually on the instance. If you want to set it manually, see How do I assign a static DNS server to a private Amazon EC2 instance in the AWS Knowledge Center for guidance on setting the persistent DNS server for your particular Linux distribution and version.

  3. Make sure your SUSE Linux 15 instance is up to date.

    1. Connect the package repository.

      sudo SUSEConnect -p PackageHub/15.1/x86_64
    2. Update SUSE.

      sudo zypper update -y
  4. Install the required SUSE Linux 15 packages on your Linux instance.

    Note

    Some of these packages may already be installed.

    As you install the packages, you might be presented with several pop-up configuration screens. You can generally leave the fields in these screens blank.

    sudo zypper -n install realmd adcli sssd sssd-tools sssd-ad samba-client krb5-client
  5. Join the instance to the directory with the following command.

    sudo realm join -U join_account example.com --verbose
    join_account

    The sAMAccountName in the example.com domain that has domain join privileges. Enter the password for the account when prompted. For more information about delegating these privileges, see Delegating directory join privileges for AWS Managed Microsoft AD.

    example.com

    The fully-qualified DNS name of your directory.

    … realm: Couldn't join realm: Enabling SSSD in nsswitch.conf and PAM failed.

    Note that both of the following returns are expected.

    ! Couldn't authenticate with keytab while discovering which salt to use: ! Enabling SSSD in nsswitch.conf and PAM failed.
  6. Manually enable SSSD in PAM.

    sudo pam-config --add --sss
  7. Edit nsswitch.conf to enable SSSD in nsswitch.conf

    sudo vi /etc/nsswitch.conf
    passwd: compat sss group: compat sss shadow: compat sss
  8. Add the following line to /etc/pam.d/common-session to auto create a home directory at initial login

    sudo vi /etc/pam.d/common-session
    session optional pam_mkhomedir.so skel=/etc/skel umask=077
  9. Reboot the instance to complete the domain joined process.

    sudo reboot
  10. Reconnect to the instance using any SSH client to verify the domain join has completed successfully and finalize additional steps.

    1. To confirm the instance has been enrolled on the domain

      sudo realm list
      example.com type: kerberos realm-name: EXAMPLE.COM domain-name: example.com configured: kerberos-member server-software: active-directory client-software: sssd required-package: sssd-tools required-package: sssd required-package: adcli required-package: samba-client login-formats: %U@example.com login-policy: allow-realm-logins
    2. To verify the status of SSSD daemon

      systemctl status sssd
      sssd.service - System Security Services Daemon Loaded: loaded (/usr/lib/systemd/system/sssd.service; enabled; vendor preset: disabled) Active: active (running) since Wed 2020-04-15 16:22:32 UTC; 3min 49s ago Main PID: 479 (sssd) Tasks: 4 CGroup: /system.slice/sssd.service ├─479 /usr/sbin/sssd -i --logger=files ├─505 /usr/lib/sssd/sssd_be --domain example.com --uid 0 --gid 0 --logger=files ├─548 /usr/lib/sssd/sssd_nss --uid 0 --gid 0 --logger=files └─549 /usr/lib/sssd/sssd_pam --uid 0 --gid 0 --logger=files
  11. To permit a user access via SSH and console

    sudo realm permit join_account@example.com

    To permit a domain group access via SSH and console

    sudo realm permit -g 'AWS Delegated Administrators'

    Or to permit all users access

    sudo realm permit --all
  12. Set the SSH service to allow password authentication.

    1. Open the /etc/ssh/sshd_config file in a text editor.

      sudo vi /etc/ssh/sshd_config
    2. Set the PasswordAuthentication setting to yes.

      PasswordAuthentication yes
    3. Restart the SSH service.

      sudo systemctl restart sshd.service

      Alternatively:

      sudo service sshd restart
  13. 13. After the instance has restarted, connect to it with any SSH client and add the AWS Delegated Administrators group to the sudoers list by performing the following steps:

    1. Open the sudoers file with the following command:

      sudo visudo
    2. Add the following to the bottom of the sudoers file and save it.

      ## Add the "Domain Admins" group from the awsad.com domain. %AWS\ Delegated\ Administrators@example.com ALL=(ALL) NOPASSWD: ALL
Ubuntu
  1. Connect to the instance using any SSH client.

  2. Configure the Linux instance to use the DNS server IP addresses of the AWS Directory Service-provided DNS servers. You can do this either by setting it up in the DHCP Options set attached to the VPC or by setting it manually on the instance. If you want to set it manually, see How do I assign a static DNS server to a private Amazon EC2 instance in the AWS Knowledge Center for guidance on setting the persistent DNS server for your particular Linux distribution and version.

  3. Make sure your Ubuntu - 64bit instance is up to date.

    sudo apt-get update sudo apt-get -y upgrade
  4. Install the required Ubuntu packages on your Linux instance.

    Note

    Some of these packages may already be installed.

    As you install the packages, you might be presented with several pop-up configuration screens. You can generally leave the fields in these screens blank.

    sudo apt-get -y install sssd realmd krb5-user samba-common packagekit adcli
  5. Disable Reverse DNS resolution and set the default realm to your domain's FQDN. Ubuntu Instances must be reverse-resolvable in DNS before the realm will work. Otherwise, you have to disable reverse DNS in /etc/krb5.conf as follows:

    sudo vi /etc/krb5.conf
    [libdefaults] default_realm = EXAMPLE.COM rdns = false
  6. Join the instance to the directory with the following command.

    sudo realm join -U join_account example.com --verbose
    join_account@example.com

    The sAMAccountName for an account in the example.com domain that has domain join privileges. Enter the password for the account when prompted. For more information about delegating these privileges, see Delegating directory join privileges for AWS Managed Microsoft AD.

    example.com

    The fully qualified DNS name of your directory.

    ... * Successfully enrolled machine in realm
  7. Set the SSH service to allow password authentication.

    1. Open the /etc/ssh/sshd_config file in a text editor.

      sudo vi /etc/ssh/sshd_config
    2. Set the PasswordAuthentication setting to yes.

      PasswordAuthentication yes
    3. Restart the SSH service.

      sudo systemctl restart sshd.service

      Alternatively:

      sudo service sshd restart
  8. After the instance has restarted, connect to it with any SSH client and add the AWS Delegated Administrators group to the sudoers list by performing the following steps:

    1. Open the sudoers file with the following command:

      sudo visudo
    2. Add the following to the bottom of the sudoers file and save it.

      ## Add the "AWS Delegated Administrators" group from the example.com domain. %AWS\ Delegated\ Administrators@example.com ALL=(ALL:ALL) ALL

      (The above example uses "\<space>" to create the Linux space character.)

Restricting account login access

Since all accounts are defined in Active Directory, by default, all the users in the directory can log in to the instance. You can allow only specific users to log in to the instance with ad_access_filter in sssd.conf. For example:

ad_access_filter = (memberOf=cn=admins,ou=Testou,dc=example,dc=com)
memberOf

Indicates that users should only be allowed access to the instance if they are a member of a specific group.

cn

The common name of the group that should have access. In this example, the group name is admins.

ou

This is the organizational unit in which the above group is located. In this example, the OU is Testou.

dc

This is the domain component of your domain. In this example, example.

dc

This is an additional domain component. In this example, com.

You must manually add ad_access_filter to your /etc/sssd/sssd.conf.

Open the /etc/sssd/sssd.conf file in a text editor.

sudo vi /etc/sssd/sssd.conf

After you do this, your sssd.conf might look like this:

[sssd] domains = example.com config_file_version = 2 services = nss, pam [domain/example.com] ad_domain = example.com krb5_realm = EXAMPLE.COM realmd_tags = manages-system joined-with-samba cache_credentials = True id_provider = ad krb5_store_password_if_offline = True default_shell = /bin/bash ldap_id_mapping = True use_fully_qualified_names = True fallback_homedir = /home/%u@%d access_provider = ad ad_access_filter = (memberOf=cn=admins,ou=Testou,dc=example,dc=com)

In order for the configuration to take effect, you need to restart the sssd service:

sudo systemctl restart sssd.service

Alternatively, you could use:

sudo service sssd restart

Since all accounts are defined in Active Directory, by default, all the users in the directory can log in to the instance. You can allow only specific users to log in to the instance with ad_access_filter in sssd.conf.

For example:

ad_access_filter = (memberOf=cn=admins,ou=Testou,dc=example,dc=com)
memberOf

Indicates that users should only be allowed access to the instance if they are a member of a specific group.

cn

The common name of the group that should have access. In this example, the group name is admins.

ou

This is the organizational unit in which the above group is located. In this example, the OU is Testou.

dc

This is the domain component of your domain. In this example, example.

dc

This is an additional domain component. In this example, com.

You must manually add ad_access_filter to your /etc/sssd/sssd.conf.

  1. Open the /etc/sssd/sssd.conf file in a text editor.

    sudo vi /etc/sssd/sssd.conf
  2. After you do this, your sssd.conf might look like this:

    [sssd] domains = example.com config_file_version = 2 services = nss, pam [domain/example.com] ad_domain = example.com krb5_realm = EXAMPLE.COM realmd_tags = manages-system joined-with-samba cache_credentials = True id_provider = ad krb5_store_password_if_offline = True default_shell = /bin/bash ldap_id_mapping = True use_fully_qualified_names = True fallback_homedir = /home/%u@%d access_provider = ad ad_access_filter = (memberOf=cn=admins,ou=Testou,dc=example,dc=com)
  3. In order for the configuration to take effect, you need to restart the sssd service:

    sudo systemctl restart sssd.service

    Alternatively, you could use:

    sudo service sssd restart

ID Mapping

ID mapping can be performed by two methods to maintain a unified experience between UNIX/Linux User Identifier (UID) and Group Identifier (GID) and Windows and Active Directory Security Identifier (SID) identities.

  1. Centralized

  2. Distributed

Note

Centralized user identity mapping in Active Directory requires Portable Operating System Interface or POSIX.

Centralized user identity mapping

Active Directory or another Lightweight Directory Access Protocol (LDAP) service provides UID and GID to the Linux users. In Active Directory, these identifiers are stored in the users' attributes:

  • UID - The Linux username (String)

  • UID Number - The Linux User ID number (Integer)

  • GID Number - The Linux Group ID number (Integer)

To configure a Linux instance to use the UID and GID from Active Directory, set ldap_id_mapping = False in the sssd.conf file. Before setting this value, verify you have added a UID, UID number and GID number to the users and groups in Active Directory.

Distributed user identity mapping

If Active Directory doesn't have the POSIX extension or if you choose not to centrally manage identity mapping, Linux can calculate the UID and GID values. Linux uses the user's unique Security Identifier (SID) to maintain consistency.

To configure distributed user ID mapping, set ldap_id_mapping = True in the sssd.conf file.

Connect to the Linux instance

When a user connects to the instance using an SSH client, they are prompted for their username. The user can enter the username in either the username@example.com or EXAMPLE\username format. The response will appear similar to the following, depending on which Linux distribution you are using:

Amazon Linux, Red Hat Enterprise Linux, and CentOS Linux

login as: johndoe@example.com johndoe@example.com's password: Last login: Thu Jun 25 16:26:28 2015 from XX.XX.XX.XX

SUSE Linux

SUSE Linux Enterprise Server 15 SP1 x86_64 (64-bit) As "root" (sudo or sudo -i) use the: - zypper command for package management - yast command for configuration management Management and Config: https://www.suse.com/suse-in-the-cloud-basics Documentation: https://www.suse.com/documentation/sles-15/ Forum: https://forums.suse.com/forumdisplay.php?93-SUSE-Public-Cloud Have a lot of fun...

Ubuntu Linux

login as: admin@example.com admin@example.com@10.24.34.0's password: Welcome to Ubuntu 18.04.4 LTS (GNU/Linux 4.15.0-1057-aws x86_64) * Documentation: https://help.ubuntu.com * Management: https://landscape.canonical.com * Support: https://ubuntu.com/advantage System information as of Sat Apr 18 22:03:35 UTC 2020 System load: 0.01 Processes: 102 Usage of /: 18.6% of 7.69GB Users logged in: 2 Memory usage: 16% IP address for eth0: 10.24.34.1 Swap usage: 0%