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Installing Capsule Server

Red Hat Satellite 6.11

Installing Red Hat Satellite Capsule Server

Red Hat Satellite Documentation Team

satellite-doc-list@redhat.com

Abstract

This guide describes how to install Red Hat Satellite Capsule Server, perform initial configuration, and configure external services.

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Chapter 1. Preparing your Environment for Installation

1.1. System Requirements

The following requirements apply to the networked base operating system:

x86_64 architecture
The latest version of Red Hat Enterprise Linux 8 or Red Hat Enterprise Linux 7 Server
4-core 2.0 GHz CPU at a minimum
A minimum of 12 GB RAM is required for Capsule Server to function. In addition, a minimum of 4 GB RAM of swap space is also recommended. Capsule running with less RAM than the minimum value might not operate correctly.
A unique host name, which can contain lower-case letters, numbers, dots (.) and hyphens (-)
A current Red Hat Satellite subscription
Administrative user (root) access
A system umask of 0022
Full forward and reverse DNS resolution using a fully-qualified domain name

Satellite only supports UTF-8 encoding. If your territory is USA and your language is English, set en_US.utf-8 as the system-wide locale settings. For more information about configuring system locale in Red Hat Enterprise Linux, see Configuring System Locale guide.

Your Satellite must have the Red Hat Satellite Infrastructure Subscription manifest in your Customer Portal. Satellite must have satellite-capsule-6.x repository enabled and synced. To create, manage, and export a Red Hat Subscription Manifest in the Customer Portal, see Creating and managing manifests for a connected Satellite Server in Subscription Central.

Satellite Server and Capsule Server do not support shortnames in the hostnames. When using custom certificates, the Common Name (CN) of the custom certificate must be a fully qualified domain name (FQDN) instead of a shortname. This does not apply to the clients of a Satellite.

Before you install Capsule Server, ensure that your environment meets the requirements for installation.

Warning

The version of Capsule must match with the version of Satellite installed. It should not be different. For example, the Capsule version 6.11 cannot be registered with the Satellite version 6.10.

Capsule Server must be installed on a freshly provisioned system that serves no other function except to run Capsule Server. The freshly provisioned system must not have the following users provided by external identity providers to avoid conflicts with the local users that Capsule Server creates:

apache
foreman-proxy
postgres
pulp
puppet
qdrouterd
redis

For more information on scaling your Capsule Servers, see Capsule Server Scalability Considerations.

Certified hypervisors

Capsule Server is fully supported on both physical systems and virtual machines that run on hypervisors that are supported to run Red Hat Enterprise Linux. For more information about certified hypervisors, see Certified Guest Operating Systems in Red Hat OpenStack Platform, Red Hat Virtualization, Red Hat OpenShift Virtualization and Red Hat Enterprise Linux with KVM.

SELinux Mode

SELinux must be enabled, either in enforcing or permissive mode. Installation with disabled SELinux is not supported.

FIPS Mode

You can install Satellite on a Red Hat Enterprise Linux system that is operating in FIPS mode. You cannot enable FIPS mode after the installation of Satellite. For more information, see Installing a RHEL 8 system with FIPS mode enabled in the Red Hat Enterprise Linux Security Hardening Guide. For more information about FIPS on Red Hat Enterprise Linux 7 systems, see Enabling FIPS Mode in the Red Hat Enterprise Linux Security Guide.

Note

Satellite supports DEFAULT and FIPS crypto-policies. The FUTURE crypto-policy is not supported for Satellite and Capsule installations.

1.2. Storage Requirements

The following table details storage requirements for specific directories. These values are based on expected use case scenarios and can vary according to individual environments.

The runtime size was measured with Red Hat Enterprise Linux 6, 7, and 8 repositories synchronized.

The size of the PostgreSQL database on your Capsule Server can grow significantly with an increasing number of lifecycle environments, content views, or repositories that are synchronized from your Satellite Server. In the largest Satellite environments, the size of the PostgreSQL directory on Capsule Server can grow to double or triple the size of the PostgreSQL directory on your Satellite Server.

1.2.1. Red Hat Enterprise Linux 8

Table 1.1. Storage Requirements for Capsule Server Installation

Directory	Installation Size	Runtime Size
/var/lib/pulp	1 MB	300 GB
/var/lib/pgsql	100 MB	20 GB
/usr	3 GB	Not Applicable
/opt/puppetlabs	500 MB	Not Applicable

1.2.2. Red Hat Enterprise Linux 7

Table 1.2. Storage Requirements for Capsule Server Installation

Directory	Installation Size	Runtime Size
/var/lib/pulp	1 MB	300 GB
/var/opt/rh/rh-postgresql12/lib/pgsql	100 MB	20 GB
/usr	3 GB	Not Applicable
/opt	3 GB	Not Applicable
/opt/puppetlabs	500 MB	Not Applicable

1.3. Storage Guidelines

Consider the following guidelines when installing Capsule Server to increase efficiency.

If you mount the /tmp directory as a separate file system, you must use the exec mount option in the /etc/fstab file. If /tmp is already mounted with the noexec option, you must change the option to exec and re-mount the file system. This is a requirement for the puppetserver service to work.
Because most Capsule Server data is stored in the /var directory, mounting /var on LVM storage can help the system to scale.
The /var/lib/qpidd/ directory uses slightly more than 2 MB per Content Host managed by the goferd service. For example, 10 000 Content Hosts require 20 GB of disk space in /var/lib/qpidd/.
Use high-bandwidth, low-latency storage for the /var/lib/pulp/ directories. As Red Hat Satellite has many operations that are I/O intensive, using high latency, low-bandwidth storage causes performance degradation. Ensure your installation has a speed in the range 60 – 80 Megabytes per second.

You can use the storage-benchmark script to get this data. For more information on using the storage-benchmark script, see Impact of Disk Speed on Satellite Operations.

File System Guidelines

Do not use the GFS2 file system as the input-output latency is too high.

Log File Storage

Log files are written to /var/log/messages/, /var/log/httpd/, and /var/lib/foreman-proxy/openscap/content/. You can manage the size of these files using logrotate. For more information, see Log Rotation in the Red Hat Enterprise Linux 7 System Administrator’s Guide.

The exact amount of storage you require for log messages depends on your installation and setup.

SELinux Considerations for NFS Mount

When the /var/lib/pulp directory is mounted using an NFS share, SELinux blocks the synchronization process. To avoid this, specify the SELinux context of the /var/lib/pulp directory in the file system table by adding the following lines to /etc/fstab:

nfs.example.com:/nfsshare  /var/lib/pulp  nfs  context="system_u:object_r:var_lib_t:s0"  1 2

If NFS share is already mounted, remount it using the above configuration and enter the following command:

# restorecon -R /var/lib/pulp

Duplicated Packages

Packages that are duplicated in different repositories are only stored once on the disk. Additional repositories containing duplicate packages require less additional storage. The bulk of storage resides in the /var/lib/pulp/ directory. These end points are not manually configurable. Ensure that storage is available on the /var file system to prevent storage problems.

Software Collections

Software collections are installed in the /opt/rh/ and /opt/theforeman/ directories.

Write and execute permissions by the root user are required for installation to the /opt directory.

Symbolic links

You cannot use symbolic links for /var/lib/pulp/.

Synchronized RHEL ISO

If you plan to synchronize RHEL content ISOs to Satellite, note that all minor versions of Red Hat Enterprise Linux also synchronize. You must plan to have adequate storage on your Satellite to manage this.

1.4. Supported Operating Systems

You can install the operating system from a disc, local ISO image, kickstart, or any other method that Red Hat supports. Red Hat Capsule Server is supported on the latest versions of Red Hat Enterprise Linux 8, and Red Hat Enterprise Linux 7 Server that are available at the time when Capsule Server is installed. Previous versions of Red Hat Enterprise Linux including EUS or z-stream are not supported.

The following operating systems are supported by the installer, have packages, and are tested for deploying Satellite:

Table 1.3. Operating Systems supported by satellite-installer

Operating System	Architecture	Notes
Red Hat Enterprise Linux 8	x86_64 only
Red Hat Enterprise Linux 7	x86_64 only

Before you install Satellite, apply all operating system updates if possible.

Red Hat Capsule Server requires a Red Hat Enterprise Linux installation with the @Base package group with no other package-set modifications, and without third-party configurations or software not directly necessary for the direct operation of the server. This restriction includes hardening and other non-Red Hat security software. If you require such software in your infrastructure, install and verify a complete working Capsule Server first, then create a backup of the system before adding any non-Red Hat software.

Install Capsule Server on a freshly provisioned system.

Do not register Capsule Server to the Red Hat Content Delivery Network (CDN).

Red Hat does not support using the system for anything other than running Capsule Server.

1.5. Ports and Firewalls Requirements

For the components of Satellite architecture to communicate, ensure that the required network ports are open and free on the base operating system. You must also ensure that the required network ports are open on any network-based firewalls.

The installation of a Capsule Server fails if the ports between Satellite Server and Capsule Server are not open before installation starts.

Use this information to configure any network-based firewalls. Note that some cloud solutions must be specifically configured to allow communications between machines because they isolate machines similarly to network-based firewalls. If you use an application-based firewall, ensure that the application-based firewall permits all applications that are listed in the tables and known to your firewall. If possible, disable the application checking and allow open port communication based on the protocol.

Integrated Capsule

Satellite Server has an integrated Capsule and any host that is directly connected to Satellite Server is a Client of Satellite in the context of this section. This includes the base operating system on which Capsule Server is running.

Clients of Capsule

Hosts which are clients of Capsules, other than Satellite’s integrated Capsule, do not need access to Satellite Server. For more information on Satellite Topology, see Capsule Networking in Planning for Red Hat Satellite.

Required ports can change based on your configuration.

The following tables indicate the destination port and the direction of network traffic:

Table 1.4. Capsule incoming traffic

Destination Port	Protocol	Service	Source	Required For	Description
53	TCP and UDP	DNS	DNS Servers and clients	Name resolution	DNS (optional)
67	UDP	DHCP	Client	Dynamic IP	DHCP (optional)
69	UDP	TFTP	Client	TFTP Server (optional)
443, 80	TCP	HTTPS, HTTP	Client	Content Retrieval	Content
443, 80	TCP	HTTPS, HTTP	Client	Content Host Registration	Capsule CA RPM installation
443	TCP	HTTPS	Red Hat Satellite	Content Mirroring	Management
443	TCP	HTTPS	Red Hat Satellite	Capsule API	Smart Proxy functionality
443	TCP	HTTPS	Client	Content Host registration	Initiation Uploading facts Sending installed packages and traces
5647	TCP	AMQP	Client	goferd message bus	Forward message to client (optional) Katello agent to communicate with Qpid dispatcher
8000	TCP	HTTP	Client	Provisioning templates	Template retrieval for client installers, iPXE or UEFI HTTP Boot
8000	TCP	HTTP	Client	PXE Boot	Installation
8140	TCP	HTTPS	Client	Puppet agent	Client updates (optional)
8443	TCP	HTTPS	Client	Content Host registration	Deprecated and only needed for Client hosts deployed before upgrades
9090	TCP	HTTPS	Client	Register Endpoint	Client registration with an external Capsule Server
9090	TCP	HTTPS	Client	OpenSCAP	Configure Client
9090	TCP	HTTPS	Discovered Node	Discovery	Host discovery and provisioning
9090	TCP	HTTPS	Red Hat Satellite	Capsule API	Capsule functionality

Any managed host that is directly connected to Satellite Server is a client in this context because it is a client of the integrated Capsule. This includes the base operating system on which a Capsule Server is running.

A DHCP Capsule performs ICMP ping and TCP echo connection attempts to hosts in subnets with DHCP IPAM set to find out if an IP address considered for use is free. This behavior can be turned off using satellite-installer --foreman-proxy-dhcp-ping-free-ip=false.

Table 1.5. Capsule outgoing traffic

Destination Port	Protocol	Service	Destination	Required For	Description
	ICMP	ping	Client	DHCP	Free IP checking (optional)
7	TCP	echo	Client	DHCP	Free IP checking (optional)
22	TCP	SSH	Target host	Remote execution	Run jobs
53	TCP and UDP	DNS	DNS Servers on the Internet	DNS Server	Resolve DNS records (optional)
53	TCP and UDP	DNS	DNS Server	Capsule DNS	Validation of DNS conflicts (optional)
68	UDP	DHCP	Client	Dynamic IP	DHCP (optional)
443	TCP	HTTPS	Satellite	Capsule	Capsule Configuration management Template retrieval OpenSCAP Remote Execution result upload
443	TCP	HTTPS	Red Hat Portal	SOS report	Assisting support cases (optional)
443	TCP	HTTPS	Satellite	Content	Sync
443	TCP	HTTPS	Satellite	Client communication	Forward requests from Client to Satellite
443	TCP	HTTPS	Infoblox DHCP Server	DHCP management	When using Infoblox for DHCP, management of the DHCP leases (optional)
623			Client	Power management	BMC On/Off/Cycle/Status
5646	TCP	AMQP	Satellite Server	Katello agent	Forward message to Qpid dispatch router on Capsule (optional)
7911	TCP	DHCP, OMAPI	DHCP Server	DHCP	The DHCP target is configured using `--foreman-proxy-dhcp-server` and defaults to localhost ISC and `remote_isc` use a configurable port that defaults to 7911 and uses OMAPI
8443	TCP	HTTPS	Client	Discovery	Capsule sends reboot command to the discovered host (optional)

Note

ICMP to Port 7 UDP and TCP must not be rejected, but can be dropped. The DHCP Capsule sends an ECHO REQUEST to the Client network to verify that an IP address is free. Any response will prevent IP addresses being allocated.

1.6. Enabling Connections from Capsule Server to Satellite Server

On Satellite Server, you must enable the incoming connection from Capsule Server to Satellite Server and make this rule persistent across reboots.

Prerequisites

Ensure that the firewall rules on Satellite Server are configured to enable connections for client to Satellite communication, because Capsule Server is a client of Satellite Server. For more information, see Enabling Connections from a Client to Satellite Server in Installing Satellite Server in a Connected Network Environment.

Procedure

On Satellite Server, enter the following command to open the port for Capsule to Satellite communication:
```
# firewall-cmd --add-port="5646/tcp"
```
Make the changes persistent:
```
# firewall-cmd --runtime-to-permanent
```

1.7. Enabling Connections from Satellite Server and Clients to a Capsule Server

On the base operating system on which you want to install Capsule, you must enable incoming connections from Satellite Server and clients to Capsule Server and make these rules persistent across reboots.

Procedure

On the base operating system on which you want to install Capsule, enter the following command to open the ports for Satellite Server and clients communication to Capsule Server:

# firewall-cmd \
--add-port="53/udp" --add-port="53/tcp" \
--add-port="67/udp" \
--add-port="69/udp" \
--add-port="80/tcp" --add-port="443/tcp" \
--add-port="5647/tcp" \
--add-port="8140/tcp" \
--add-port="8443/tcp" \
--add-port="8000/tcp" --add-port="9090/tcp"

Make the changes persistent:
```
# firewall-cmd --runtime-to-permanent
```

Verification

Enter the following command:
```
# firewall-cmd --list-all
```

For more information, see Using and Configuring firewalld in the Red Hat Enterprise Linux 8 Security Guide, and Getting Started with firewalld in the Red Hat Enterprise Linux 7 Security Guide.

Chapter 2. Installing Capsule Server

Before you install Capsule Server, you must ensure that your environment meets the requirements for installation. For more information, see Preparing your Environment for Installation.

2.1. Registering to Satellite Server

Use this procedure to register the base operating system on which you want to install Capsule Server to Satellite Server.

Red Hat Subscription Manifest Prerequisites

On Satellite Server, a manifest must be installed and it must contain the appropriate repositories for the organization you want Capsule to belong to.
The manifest must contain repositories for the base operating system on which you want to install Capsule, as well as any clients that you want to connect to Capsule.
The repositories must be synchronized.

For more information on manifests and repositories, see Managing Red Hat Subscriptions in the Red Hat Satellite Content Management Guide.

Proxy and Network Prerequisites

The Satellite Server base operating system must be able to resolve the host name of the Capsule base operating system and vice versa.
Ensure HTTPS connection using client certificate authentication is possible between Capsule Server and Satellite Server. HTTP proxies between Capsule Server and Satellite Server are not supported.
You must configure the host and network-based firewalls accordingly. For more information, see Ports and Firewalls Requirements. You can register hosts with Satellite using the host registration feature, the Satellite API, or Hammer CLI.

Procedure

In the Satellite web UI, navigate to Hosts > Register Host.
Click Generate to create the registration command.
Click on the files icon to copy the command to your clipboard.
Log in to the host you want register and run the previously generated command.
Check the /etc/yum.repos.d/redhat.repo file and ensure that the appropriate repositories have been enabled.

CLI procedure

Generate the host registration command using the Hammer CLI:
```
# hammer host-registration generate-command \
--activation-keys "My_Activation_Key"
```
If your hosts do not trust the SSL certificate of Satellite Server, you can disable SSL validation by adding the --insecure flag to the registration command.
```
# hammer host-registration generate-command \
--activation-keys "My_Activation_Key" \
--insecure true
```
Log in to the host you want register and run the previously generated command.
Check the /etc/yum.repos.d/redhat.repo file and ensure that the appropriate repositories have been enabled.

API procedure

Generate the host registration command using the Satellite API:
```
# curl -X POST https://satellite.example.com/api/registration_commands \
--user "My_User_Name" \
-H 'Content-Type: application/json' \
-d '{ "registration_command": { "activation_keys": ["My_Activation_Key_1, My_Activation_Key_2"] }}'
```
If your hosts do not trust the SSL certificate of Satellite Server, you can disable SSL validation by adding the --insecure flag to the registration command.
```
# curl -X POST https://satellite.example.com/api/registration_commands \
--user "My_User_Name" \
-H 'Content-Type: application/json' \
-d '{ "registration_command": { "activation_keys": ["My_Activation_Key_1, My_Activation_Key_2"], "insecure": true }}'
```
Use an activation key to simplify specifying the environments. For more information, see Managing Activation Keys in the Content Management guide.
To enter a password as command line argument, use username:password syntax. Keep in mind this can save the password in the shell history.
For more information about registration see Registering a Host to Red Hat Satellite in Managing Hosts.
Log in to the host you want register and run the previously generated command.
Check the /etc/yum.repos.d/redhat.repo file and ensure that the appropriate repositories have been enabled.

2.2. Attaching the Satellite Infrastructure Subscription

Note

Skip this step if you have SCA enabled on Satellite. There is no requirement of attaching the Red Hat Satellite Infrastructure Subscription to the Capsule Server using subscription-manager. For more information about SCA, see Simple Content Access.

After you have registered Capsule Server, you must identify your subscription Pool ID and attach an available subscription. The Red Hat Satellite Infrastructure subscription provides access to the Red Hat Satellite and Red Hat Enterprise Linux content. For Red Hat Enterprise Linux 7, it also provides access to Red Hat Software Collections (RHSCL). This is the only subscription required.

Red Hat Satellite Infrastructure is included with all subscriptions that include Satellite, formerly known as Smart Management. For more information, see Satellite Infrastructure Subscriptions MCT3718 MCT3719 in the Red Hat Knowledgebase.

Subscriptions are classified as available if they are not already attached to a system. If you are unable to find an available Satellite subscription, see the Red Hat Knowledgebase solution How do I figure out which subscriptions have been consumed by clients registered under Red Hat Subscription Manager? to run a script to see if another system is consuming your subscription.

Procedure

Identify the Pool ID of the Satellite Infrastructure subscription:

# subscription-manager list --all --available --matches 'Red Hat Satellite Infrastructure Subscription'

The command displays output similar to the following:

Subscription Name:   Red Hat Satellite Infrastructure Subscription
Provides:            Red Hat Satellite
                      Red Hat Software Collections (for RHEL Server)
                      Red Hat CodeReady Linux Builder for x86_64
                      Red Hat Ansible Engine
                      Red Hat Enterprise Linux Load Balancer (for RHEL Server)
                      Red Hat
                      Red Hat Software Collections (for RHEL Server)
                      Red Hat Enterprise Linux Server
                      Red Hat Satellite Capsule
                      Red Hat Enterprise Linux for x86_64
                      Red Hat Enterprise Linux High Availability for x86_64
                      Red Hat Satellite
                      Red Hat Satellite 5 Managed DB
                      Red Hat Satellite 6
                      Red Hat Discovery
SKU:                 MCT3719
Contract:            11878983
Pool ID:             8a85f99968b92c3701694ee998cf03b8
Provides Management: No
Available:           1
Suggested:           1
Service Level:       Premium
Service Type:        L1-L3
Subscription Type:   Standard
Ends:                03/04/2020
System Type:         Physical

Make a note of the subscription Pool ID. Your subscription Pool ID is different from the example provided.
Attach the Satellite Infrastructure subscription to the base operating system that your Capsule Server is running on. If SCA is enabled on Satellite Server, you can skip this step:
```
# subscription-manager attach --pool=pool_id
```
The command displays output similar to the following:
```
Successfully attached a subscription for: Red Hat Satellite Infrastructure Subscription
```
Optional: Verify that the Satellite Infrastructure subscription is attached:
```
# subscription-manager list --consumed
```

2.3. Configuring Repositories

Use this procedure to enable the repositories that are required to install Capsule Server. Select the option that corresponds with operating system and version you want to install on:

Red Hat Enterprise Linux 8
Red Hat Enterprise Linux 7

2.3.1. Red Hat Enterprise Linux 8

Disable all repositories:

# subscription-manager repos --disable "*"

Enable the following repositories:

# subscription-manager repos --enable=rhel-8-for-x86_64-baseos-rpms \
--enable=rhel-8-for-x86_64-appstream-rpms \
--enable=satellite-capsule-6.11-for-rhel-8-x86_64-rpms \
--enable=satellite-maintenance-6.11-for-rhel-8-x86_64-rpms

Enable the module:
```
# dnf module enable satellite-capsule:el8
```
Note
Enablement of the module satellite:el8 warns about a conflict with postgresql:10 and ruby:2.5 as these modules are set to the default module versions on Red Hat Enterprise Linux 8. The module satellite:el8 has a dependency for the modules postgresql:12 and ruby:2.7 that will be enabled with the satellite:el8 module. These warnings do not cause installation process failure, hence can be ignored safely. For more information about modules and lifecycle streams on Red Hat Enterprise Linux 8, see Red Hat Enterprise Linux Application Streams Life Cycle.

2.3.2. Red Hat Enterprise Linux 7

Disable all repositories:

# subscription-manager repos --disable "*"

Enable the following repositories:
```
# subscription-manager repos --enable=rhel-7-server-rpms \
--enable=rhel-7-server-satellite-capsule-6.11-rpms \
--enable=rhel-7-server-satellite-maintenance-6.11-rpms \
--enable=rhel-server-rhscl-7-rpms \
--enable=rhel-7-server-ansible-2.9-rpms
```
Note
If you are installing Capsule Server as a virtual machine hosted on Red Hat Virtualization, you must also enable the Red Hat Common repository, and install Red Hat Virtualization guest agents and drivers. For more information, see Installing the Guest Agents and Drivers on Red Hat Enterprise Linux in the Virtual Machine Management Guide.
Clear any metadata:
```
# yum clean all
```
Optional: Verify that the required repositories are enabled:
```
# yum repolist enabled
```

2.4. Installing Capsule Server Packages

Before installing Capsule Server packages, you must update all packages that are installed on the base operating system.

Red Hat Enterprise Linux 7
Red Hat Enterprise Linux 8

Procedure

To install Capsule Server, complete the following steps:

2.4.1. Red Hat Enterprise Linux 7

Update all packages:
```
# yum update
```
Install the Satellite Server packages:
```
# yum install satellite-capsule
```

2.4.2. Red Hat Enterprise Linux 8

Update all packages:
```
# yum update
```
Install the Satellite Server packages:
```
# dnf install satellite-capsule
```

2.5. Synchronizing the System Clock With chronyd

To minimize the effects of time drift, you must synchronize the system clock on the base operating system on which you want to install Capsule Server with Network Time Protocol (NTP) servers. If the base operating system clock is configured incorrectly, certificate verification might fail.

For more information about the chrony suite, see Using the Chrony suite to configure NTP in Red Hat Enterprise Linux 8 Configuring basic system settings, and Configuring NTP Using the chrony Suite in the Red Hat Enterprise Linux 7 System Administrator’s Guide.

Procedure

Install the chrony package:
```
# yum install chrony
```

Start and enable the chronyd service:

# systemctl start chronyd
# systemctl enable chronyd

2.6. Configuring Capsule Server with SSL Certificates

Red Hat Satellite uses SSL certificates to enable encrypted communications between Satellite Server, external Capsule Servers, and all hosts. Depending on the requirements of your organization, you must configure your Capsule Server with a default or custom certificate.

If you use a default SSL certificate, you must also configure each external Capsule Server with a distinct default SSL certificate. For more information, see Section 2.6.1, “Configuring Capsule Server with a Default SSL Certificate”.
If you use a custom SSL certificate, you must also configure each external Capsule Server with a distinct custom SSL certificate. For more information, see Section 2.6.2, “Configuring Capsule Server with a Custom SSL Certificate”.

2.6.1. Configuring Capsule Server with a Default SSL Certificate

Use this section to configure Capsule Server with an SSL certificate that is signed by Satellite Server default Certificate Authority (CA).

Prerequisites

Capsule Server is registered to Satellite Server. For more information, see Registering to Satellite Server.
Capsule Server packages are installed. For more information, see Installing Capsule Server Packages.

Procedure

On Satellite Server, to store all the source certificate files for your Capsule Server, create a directory that is accessible only to the root user, for example /root/capsule_cert:
```
# mkdir /root/capsule_cert
```

On Satellite Server, generate the /root/capsule_cert/capsule.example.com-certs.tar certificate archive for your Capsule Server:

# capsule-certs-generate \
--foreman-proxy-fqdn capsule.example.com \
--certs-tar /root/capsule_cert/capsule.example.com-certs.tar

Retain a copy of the satellite-installer command that the capsule-certs-generate command returns for deploying the certificate to your Capsule Server.

Example output of capsule-certs-generate

output omitted
satellite-installer --scenario capsule \
--certs-tar-file "/root/capsule_cert/capsule.example.com-certs.tar" \
--foreman-proxy-register-in-foreman "true" \
--foreman-proxy-foreman-base-url "https://satellite.example.com" \
--foreman-proxy-trusted-hosts "satellite.example.com" \
--foreman-proxy-trusted-hosts "capsule.example.com" \
--foreman-proxy-oauth-consumer-key "s97QxvUAgFNAQZNGg4F9zLq2biDsxM7f" \
--foreman-proxy-oauth-consumer-secret "6bpzAdMpRAfYaVZtaepYetomgBVQ6ehY"

On Satellite Server, copy the certificate archive file to your Capsule Server:

# scp /root/capsule_cert/capsule.example.com-certs.tar \
root@capsule.example.com:/root/capsule.example.com-certs.tar

On Capsule Server, to deploy the certificate, enter the satellite-installer command that the capsule-certs-generate command returns.
When network connections or ports to Satellite are not yet open, you can set the --foreman-proxy-register-in-foreman option to false to prevent Capsule from attempting to connect to Satellite and reporting errors. Run the installer again with this option set to true when the network and firewalls are correctly configured.
Important
Do not delete the certificate archive file after you deploy the certificate. It is required, for example, when upgrading Capsule Server.

2.6.2. Configuring Capsule Server with a Custom SSL Certificate

If you configure Satellite Server to use a custom SSL certificate, you must also configure each of your external Capsule Servers with a distinct custom SSL certificate.

To configure your Capsule Server with a custom certificate, complete the following procedures on each Capsule Server:

Section 2.6.2.1, “Creating a Custom SSL Certificate for Capsule Server”
Section 2.6.2.2, “Deploying a Custom SSL Certificate to Capsule Server”
Section 2.6.2.3, “Deploying a Custom SSL Certificate to Hosts”

2.6.2.1. Creating a Custom SSL Certificate for Capsule Server

On Satellite Server, create a custom certificate for your Capsule Server. If you already have a custom SSL certificate for Capsule Server, skip this procedure.

Procedure

To store all the source certificate files, create a directory that is accessible only to the root user:
```
# mkdir /root/capsule_cert
```
Create a private key with which to sign the certificate signing request (CSR).
Note that the private key must be unencrypted. If you use a password-protected private key, remove the private key password.
If you already have a private key for this Capsule Server, skip this step.
```
# openssl genrsa -out /root/capsule_cert/capsule_cert_key.pem 4096
```

Create the /root/capsule_cert/openssl.cnf configuration file for the CSR and include the following content:

[ req ]
req_extensions = v3_req
distinguished_name = req_distinguished_name
x509_extensions = usr_cert
prompt = no

[ req_distinguished_name ]
CN = capsule.example.com

[ v3_req ]
basicConstraints = CA:FALSE
keyUsage = digitalSignature, nonRepudiation, keyEncipherment, dataEncipherment
extendedKeyUsage = serverAuth, clientAuth, codeSigning, emailProtection
subjectAltName = @alt_names

[ usr_cert ]
basicConstraints=CA:FALSE
nsCertType = client, server, email
keyUsage = nonRepudiation, digitalSignature, keyEncipherment
extendedKeyUsage = serverAuth, clientAuth, codeSigning, emailProtection
nsComment = "OpenSSL Generated Certificate"
subjectKeyIdentifier=hash
authorityKeyIdentifier=keyid,issuer

[ alt_names ]
DNS.1 = capsule.example.com

Generate CSR:

# openssl req -new \
-key /root/capsule_cert/capsule_cert_key.pem \ 1
-config /root/capsule_cert/openssl.cnf \ 2
-out /root/capsule_cert/capsule_cert_csr.pem 3

1: Path to the private key.
2: Path to the configuration file.
3: Path to the CSR to generate.

Send the certificate signing request to the certificate authority (CA). The same CA must sign certificates for Satellite Server and Capsule Server.
When you submit the request, specify the lifespan of the certificate. The method for sending the certificate request varies, so consult the CA for the preferred method. In response to the request, you can expect to receive a CA bundle and a signed certificate, in separate files.

2.6.2.2. Deploying a Custom SSL Certificate to Capsule Server

Use this procedure to configure your Capsule Server with a custom SSL certificate signed by a Certificate Authority. The satellite-installer command, which the capsule-certs-generate command returns, is unique to each Capsule Server. Do not use the same command on more than one Capsule Server.

Prerequisites

Satellite Server is configured with a custom certificate. For more information, see Configuring Satellite Server with a Custom SSL Certificate in Installing Satellite Server in a Connected Network Environment.
Capsule Server is registered to Satellite Server. For more information, see Registering to Satellite Server.
Capsule Server packages are installed. For more information, see Installing Capsule Server Packages.

Procedure

On Satellite Server, validate the custom SSL certificate input files:

# katello-certs-check \
-t capsule -c /root/capsule_cert/capsule_cert.pem \      1
-k /root/capsule_cert/capsule_cert_key.pem \  2
-b /root/capsule_cert/ca_cert_bundle.pem      3

1: Path to Capsule Server certificate file that is signed by a Certificate Authority.
2: Path to the private key that was used to sign Capsule Server certificate.
3: Path to the Certificate Authority bundle.

If you set a wildcard value * for the certificate’s Common Name CN = in the /root/capsule_cert/openssl.cnf configuration file, you must add the -t capsule option to the katello-certs-check command.

If the command is successful, it returns two capsule-certs-generate commands, one of which you must use to generate the certificate archive file for your Capsule Server.

Example output of katello-certs-check

Validation succeeded.

To use them inside a NEW $CAPSULE, run this command:

capsule-certs-generate --foreman-proxy-fqdn "$CAPSULE" \
    --certs-tar  "~/$CAPSULE-certs.tar" \
    --server-cert "/root/capsule_cert/capsule_cert.pem" \
    --server-key "/root/capsule_cert/capsule_cert_key.pem" \
    --server-ca-cert "/root/capsule_cert/ca_cert_bundle.pem" \

To use them inside an EXISTING $CAPSULE, run this command INSTEAD:

  capsule-certs-generate --foreman-proxy-fqdn "$CAPSULE" \
    --certs-tar "~/$CAPSULE-certs.tar" \
    --server-cert "/root/capsule_cert/capsule_cert.pem" \
    --server-key "/root/capsule_cert/capsule_cert_key.pem" \
    --server-ca-cert "/root/capsule_cert/ca_cert_bundle.pem" \
    --certs-update-server

On Satellite Server, from the output of the katello-certs-check command, depending on your requirements, enter the capsule-certs-generate command that generates a certificate for a new or existing Capsule.
In this command, change $CAPSULE to the FQDN of your Capsule Server.

Retain a copy of the satellite-installer command that the capsule-certs-generate command returns for deploying the certificate to your Capsule Server.

Example output of capsule-certs-generate

output omitted
satellite-installer --scenario capsule \
--certs-tar-file "/root/capsule.example.com-certs.tar" \
--foreman-proxy-register-in-foreman "true" \
--foreman-proxy-foreman-base-url "https://satellite.example.com" \
--foreman-proxy-trusted-hosts "satellite.example.com" \
--foreman-proxy-trusted-hosts "capsule.example.com" \
--foreman-proxy-oauth-consumer-key "s97QxvUAgFNAQZNGg4F9zLq2biDsxM7f" \
--foreman-proxy-oauth-consumer-secret "6bpzAdMpRAfYaVZtaepYetomgBVQ6ehY"

On Satellite Server, copy the certificate archive file to your Capsule Server:

# scp /root/capsule_cert/capsule.example.com-certs.tar \
root@capsule.example.com:/root/capsule.example.com-certs.tar

On Capsule Server, to deploy the certificate, enter the satellite-installer command that the capsule-certs-generate command returns.
When network connections or ports to Satellite are not yet open, you can set the --foreman-proxy-register-in-foreman option to false to prevent Capsule from attempting to connect to Satellite and reporting errors. Run the installer again with this option set to true when the network and firewalls are correctly configured.
Important
Do not delete the certificate archive file after you deploy the certificate. It is required, for example, when upgrading Capsule Server.

2.6.2.3. Deploying a Custom SSL Certificate to Hosts

After you configure Capsule Server to use a custom SSL certificate, you must also install the katello-ca-consumer package on every host that is registered to this Capsule Server.

Procedure

On each host, install the katello-ca-consumer package:

# yum localinstall \
http://capsule.example.com/pub/katello-ca-consumer-latest.noarch.rpm

2.7. Assigning the Correct Organization and Location to Capsule Server in the Satellite web UI

After installing Capsule Server packages, if there is more than one organization or location, you must assign the correct organization and location to Capsule to make Capsule visible in the Satellite web UI.

Note

Assigning a Capsule to the same location as your Satellite Server with an embedded Capsule prevents Red Hat Insights from uploading the Insights inventory. To enable the inventory upload, synchronize SSH keys for both Capsules.

Procedure

Log into the Satellite web UI.
From the Organization list in the upper-left of the screen, select Any Organization.
From the Location list in the upper-left of the screen, select Any Location.
In the Satellite web UI, navigate to Hosts > All Hosts and select Capsule Server.
From the Select Actions list, select Assign Organization.
From the Organization list, select the organization where you want to assign this Capsule.
Click Fix Organization on Mismatch.
Click Submit.
Select Capsule Server. From the Select Actions list, select Assign Location.
From the Location list, select the location where you want to assign this Capsule.
Click Fix Location on Mismatch.
Click Submit.
In the Satellite web UI, navigate to Administer > Organizations and click the organization to which you have assigned Capsule.
Click Capsules tab and ensure that Capsule Server is listed under the Selected items list, then click Submit.
In the Satellite web UI, navigate to Administer > Locations and click the location to which you have assigned Capsule.
Click Capsules tab and ensure that Capsule Server is listed under the Selected items list, then click Submit.

Verification

Optionally, you can verify if Capsule Server is correctly listed in the Satellite web UI.

Select the organization from the Organization list.
Select the location from the Location list.
In the Satellite web UI, navigate to Hosts > All Hosts.
In the Satellite web UI, navigate to Infrastructure > Capsules.

Chapter 3. Performing Additional Configuration on Capsule Server

Use this chapter to configure additional settings on your Capsule Server.

3.1. Configuring Capsule for Host Registration and Provisioning

Use this procedure to configure Capsule so that you can register and provision hosts using your Capsule Server instead of your Satellite Server.

Procedure

On Satellite Server, add the Capsule to the list of trusted proxies.
This is required for Satellite to recognize hosts' IP addresses forwarded over the X-Forwarded-For HTTP header set by Capsule. For security reasons, Satellite recognizes this HTTP header only from localhost by default. You can enter trusted proxies as valid IPv4 or IPv6 addresses of Capsules, or network ranges.
Warning
Do not use a network range that is too wide, because that poses a potential security risk.
Enter the following command. Note that the command overwrites the list that is currently stored in Satellite. Therefore, if you have set any trusted proxies previously, you must include them in the command as well:
```
# satellite-installer \
--foreman-trusted-proxies "127.0.0.1/8" \
--foreman-trusted-proxies "::1" \
--foreman-trusted-proxies "My_IP_address" \
--foreman-trusted-proxies "My_IP_range"
```
The localhost entries are required, do not omit them.

Verification

List the current trusted proxies using the full help of Satellite installer:
```
# satellite-installer --full-help | grep -A 2 "trusted-proxies"
```
The current listing contains all trusted proxies you require.

3.2. Enabling Katello Agent on External Capsules

Remote Execution is the primary method of managing packages on Content Hosts. To be able to use the deprecated Katello Agent it must be enabled on each Capsule.

Procedure

To enable Katello Agent infrastructure, enter the following command:

# satellite-installer --scenario capsule \
--foreman-proxy-content-enable-katello-agent=true

3.3. Enabling OpenSCAP on Capsule Servers

On Satellite Server and the integrated Capsule of your Satellite Server, OpenSCAP is enabled by default. To use the OpenSCAP plug-in and content on external Capsules, you must enable OpenSCAP on each Capsule.

Procedure

To enable OpenSCAP, enter the following command:
```
# satellite-installer --scenario capsule \
--enable-foreman-proxy-plugin-openscap \
--foreman-proxy-plugin-openscap-puppet-module true
```
If you want to use Puppet to deploy compliance policies, you must enable it first. For more information, see Managing Configurations Using Puppet Integration in Red Hat Satellite.

3.4. Adding Life Cycle Environments to Capsule Servers

If your Capsule Server has the content functionality enabled, you must add an environment so that Capsule can synchronize content from Satellite Server and provide content to host systems.

Do not assign the Library lifecycle environment to your Capsule Server because it triggers an automated Capsule sync every time the CDN updates a repository. This might consume multiple system resources on Capsules, network bandwidth between Satellite and Capsules, and available disk space on Capsules.

You can use Hammer CLI on Satellite Server or the Satellite web UI.

Procedure

In the Satellite web UI, navigate to Infrastructure > Capsules, and select the Capsule that you want to add a life cycle to.
Click Edit and click the Life Cycle Environments tab.
From the left menu, select the life cycle environments that you want to add to Capsule and click Submit.
To synchronize the content on the Capsule, click the Overview tab and click Synchronize.
Select either Optimized Sync or Complete Sync.
For definitions of each synchronization type, see Recovering a Repository.

CLI procedure

To display a list of all Capsule Servers, on Satellite Server, enter the following command:
```
# hammer capsule list
```
Note the Capsule ID of the Capsule that you want to add a life cycle to.
Using the ID, verify the details of your Capsule:
```
# hammer capsule info --id capsule_id
```
To view the life cycle environments available for your Capsule Server, enter the following command and note the ID and the organization name:
```
# hammer capsule content available-lifecycle-environments --id capsule_id
```

Add the life cycle environment to your Capsule Server:

# hammer capsule content add-lifecycle-environment \
--id capsule_id --organization "My_Organization" \
--lifecycle-environment-id lifecycle-environment_id

Repeat for each life cycle environment you want to add to Capsule Server.

Synchronize the content from Satellite to Capsule.
- To synchronize all content from your Satellite Server environment to Capsule Server, enter the following command:
```
# hammer capsule content synchronize --id capsule_id
```
- To synchronize a specific life cycle environment from your Satellite Server to Capsule Server, enter the following command:
```
# hammer capsule content synchronize --id external_capsule_id \
--lifecycle-environment-id lifecycle-environment_id
```

3.5. Enabling Power Management on Managed Hosts

To perform power management tasks on managed hosts using the intelligent platform management interface (IPMI) or a similar protocol, you must enable the baseboard management controller (BMC) module on Capsule Server.

Prerequisites

All managed hosts must have a network interface of BMC type. Capsule Server uses this NIC to pass the appropriate credentials to the host. For more information, see Adding a Baseboard Management Controller (BMC) Interface in the Managing Hosts guide.

Procedure

To enable BMC, enter the following command:

# satellite-installer --scenario capsule \
--foreman-proxy-bmc "true" \
--foreman-proxy-bmc-default-provider "freeipmi"

3.6. Configuring DNS, DHCP, and TFTP on Capsule Server

To configure the DNS, DHCP, and TFTP services on Capsule Server, use the satellite-installer command with the options appropriate for your environment. To view a complete list of configurable options, enter the satellite-installer --scenario satellite --help command.

Any changes to the settings require entering the satellite-installer command again. You can enter the command multiple times and each time it updates all configuration files with the changed values.

To use external DNS, DHCP, and TFTP services instead, see Chapter 4, Configuring Capsule Server with External Services.

Adding Multihomed DHCP details

If you want to use Multihomed DHCP, you must inform the installer.

Prerequisites

You must have the correct network name (dns-interface) for the DNS server.
You must have the correct interface name (dhcp-interface) for the DHCP server.
Contact your network administrator to ensure that you have the correct settings.

Procedure

Enter the satellite-installer command with the options appropriate for your environment. The following example shows configuring full provisioning services:

# satellite-installer --scenario capsule \
--foreman-proxy-dns true \
--foreman-proxy-dns-managed true \
--foreman-proxy-dns-interface eth0 \
--foreman-proxy-dns-zone example.com \
--foreman-proxy-dns-reverse 2.0.192.in-addr.arpa \
--foreman-proxy-dhcp true \
--foreman-proxy-dhcp-managed true \
--foreman-proxy-dhcp-interface eth0 \
--foreman-proxy-dhcp-additional-interfaces eth1 \
--foreman-proxy-dhcp-additional-interfaces eth2 \
--foreman-proxy-dhcp-range "192.0.2.100 192.0.2.150" \
--foreman-proxy-dhcp-gateway 192.0.2.1 \
--foreman-proxy-dhcp-nameservers 192.0.2.2 \
--foreman-proxy-tftp true \
--foreman-proxy-tftp-managed true \
--foreman-proxy-tftp-servername 192.0.2.3

For more information about configuring DHCP, DNS, and TFTP services, see Configuring Network Services in the Provisioning guide.

Chapter 4. Configuring Capsule Server with External Services

If you do not want to configure the DNS, DHCP, and TFTP services on Capsule Server, use this section to configure your Capsule Server to work with external DNS, DHCP and TFTP services.

4.1. Configuring Capsule Server with External DNS

You can configure Capsule Server with external DNS. Capsule Server uses the nsupdate utility to update DNS records on the remote server.

To make any changes persistent, you must enter the satellite-installer command with the options appropriate for your environment.

Prerequisites

You must have a configured external DNS server.
This guide assumes you have an existing installation.

Procedure

Copy the /etc/rndc.key file from the external DNS server to Capsule Server:
```
# scp root@dns.example.com:/etc/rndc.key /etc/foreman-proxy/rndc.key
```

Configure the ownership, permissions, and SELinux context:

# restorecon -v /etc/foreman-proxy/rndc.key
# chown -v root:foreman-proxy /etc/foreman-proxy/rndc.key
# chmod -v 640 /etc/foreman-proxy/rndc.key

To test the nsupdate utility, add a host remotely:

# echo -e "server DNS_IP_Address\n \
update add aaa.example.com 3600 IN A Host_IP_Address\n \
send\n" | nsupdate -k /etc/foreman-proxy/rndc.key
# nslookup aaa.example.com DNS_IP_Address
# echo -e "server DNS_IP_Address\n \
update delete aaa.example.com 3600 IN A Host_IP_Address\n \
send\n" | nsupdate -k /etc/foreman-proxy/rndc.key

Enter the satellite-installer command to make the following persistent changes to the /etc/foreman-proxy/settings.d/dns.yml file:

# satellite-installer --foreman-proxy-dns=true \
--foreman-proxy-dns-managed=false \
--foreman-proxy-dns-provider=nsupdate \
--foreman-proxy-dns-server="DNS_IP_Address" \
--foreman-proxy-keyfile=/etc/foreman-proxy/rndc.key

In the Satellite web UI, navigate to Infrastructure > Capsules.
Locate the Capsule Server and select Refresh from the list in the Actions column.
Associate the DNS service with the appropriate subnets and domain.

4.2. Configuring Capsule Server with External DHCP

To configure Capsule Server with external DHCP, you must complete the following procedures:

Section 4.2.1, “Configuring an External DHCP Server to Use with Capsule Server”
Section 4.2.2, “Configuring Satellite Server with an External DHCP Server”

4.2.1. Configuring an External DHCP Server to Use with Capsule Server

To configure an external DHCP server running Red Hat Enterprise Linux to use with Capsule Server, you must install the ISC DHCP Service and Berkeley Internet Name Domain (BIND) or its utility packages. You must also share the DHCP configuration and lease files with Capsule Server. The example in this procedure uses the distributed Network File System (NFS) protocol to share the DHCP configuration and lease files.

Note

If you use dnsmasq as an external DHCP server, enable the dhcp-no-override setting. This is required because Satellite creates configuration files on the TFTP server under the grub2/ subdirectory. If the dhcp-no-override setting is disabled, clients fetch the bootloader and its configuration from the root directory, which might cause an error.

Procedure

On your Red Hat Enterprise Linux host, install the ISC DHCP Service and BIND packages or its utility packages depending on your host version.
- For Red Hat Enterprise Linux 7 host:
```
# yum install dhcp bind
```
- For Red Hat Enterprise Linux 8 host:
```
# yum install dhcp-server bind-utils
```
Generate a security token:
```
# dnssec-keygen -a HMAC-MD5 -b 512 -n HOST omapi_key
```
As a result, a key pair that consists of two files is created in the current directory.

Copy the secret hash from the key:

# grep ^Key Komapi_key.+*.private | cut -d ' ' -f2

Edit the dhcpd configuration file for all subnets and add the key. The following is an example:

# cat /etc/dhcp/dhcpd.conf
default-lease-time 604800;
max-lease-time 2592000;
log-facility local7;

subnet 192.168.38.0 netmask 255.255.255.0 {
	range 192.168.38.10 192.168.38.100;
	option routers 192.168.38.1;
	option subnet-mask 255.255.255.0;
	option domain-search "virtual.lan";
	option domain-name "virtual.lan";
	option domain-name-servers 8.8.8.8;
}

omapi-port 7911;
key omapi_key {
	algorithm HMAC-MD5;
	secret "jNSE5YI3H1A8Oj/tkV4...A2ZOHb6zv315CkNAY7DMYYCj48Umw==";
};
omapi-key omapi_key;

Note that the option routers value is the Satellite or Capsule IP address that you want to use with an external DHCP service.

Delete the two key files from the directory that they were created in.
On Satellite Server, define each subnet. Do not set DHCP Capsule for the defined Subnet yet.
To prevent conflicts, set up the lease and reservation ranges separately. For example, if the lease range is 192.168.38.10 to 192.168.38.100, in the Satellite web UI define the reservation range as 192.168.38.101 to 192.168.38.250.

Configure the firewall for external access to the DHCP server:

# firewall-cmd --add-service dhcp \
&& firewall-cmd --runtime-to-permanent

On Satellite Server, determine the UID and GID of the foreman user:
```
# id -u foreman
993
# id -g foreman
990
```
On the DHCP server, create the foreman user and group with the same IDs as determined in a previous step:
```
# groupadd -g 990 foreman
# useradd -u 993 -g 990 -s /sbin/nologin foreman
```

To ensure that the configuration files are accessible, restore the read and execute flags:

# chmod o+rx /etc/dhcp/
# chmod o+r /etc/dhcp/dhcpd.conf
# chattr +i /etc/dhcp/ /etc/dhcp/dhcpd.conf

Start the DHCP service:
```
# systemctl start dhcpd
```

Export the DHCP configuration and lease files using NFS:

# yum install nfs-utils
# systemctl enable rpcbind nfs-server
# systemctl start rpcbind nfs-server nfs-lock nfs-idmapd

Create directories for the DHCP configuration and lease files that you want to export using NFS:
```
# mkdir -p /exports/var/lib/dhcpd /exports/etc/dhcp
```

To create mount points for the created directories, add the following line to the /etc/fstab file:

/var/lib/dhcpd /exports/var/lib/dhcpd none bind,auto 0 0
/etc/dhcp /exports/etc/dhcp none bind,auto 0 0

Mount the file systems in /etc/fstab:
```
# mount -a
```

Ensure the following lines are present in /etc/exports:

/exports 192.168.38.1(rw,async,no_root_squash,fsid=0,no_subtree_check)

/exports/etc/dhcp 192.168.38.1(ro,async,no_root_squash,no_subtree_check,nohide)

/exports/var/lib/dhcpd 192.168.38.1(ro,async,no_root_squash,no_subtree_check,nohide)

Note that the IP address that you enter is the Satellite or Capsule IP address that you want to use with an external DHCP service.

Reload the NFS server:
```
# exportfs -rva
```

Configure the firewall for DHCP omapi port 7911:

# firewall-cmd --add-port=7911/tcp
# firewall-cmd --runtime-to-permanent

Optional: Configure the firewall for external access to NFS. Clients are configured using NFSv3.

# firewall-cmd --zone public --add-service mountd \
&& firewall-cmd --zone public --add-service rpc-bind \
&& firewall-cmd --zone public --add-service nfs \
&& firewall-cmd --runtime-to-permanent

4.2.2. Configuring Satellite Server with an External DHCP Server

You can configure Capsule Server with an external DHCP server.

Prerequisite

Ensure that you have configured an external DHCP server and that you have shared the DHCP configuration and lease files with Capsule Server. For more information, see Section 4.2.1, “Configuring an External DHCP Server to Use with Capsule Server”.

Procedure

Install the nfs-utils utility:
```
# yum install nfs-utils
```

Create the DHCP directories for NFS:

# mkdir -p /mnt/nfs/etc/dhcp /mnt/nfs/var/lib/dhcpd

Change the file owner:
```
# chown -R foreman-proxy /mnt/nfs
```
Verify communication with the NFS server and the Remote Procedure Call (RPC) communication paths:
```
# showmount -e DHCP_Server_FQDN
# rpcinfo -p DHCP_Server_FQDN
```

Add the following lines to the /etc/fstab file:

DHCP_Server_FQDN:/exports/etc/dhcp /mnt/nfs/etc/dhcp nfs
ro,vers=3,auto,nosharecache,context="system_u:object_r:dhcp_etc_t:s0" 0 0

DHCP_Server_FQDN:/exports/var/lib/dhcpd /mnt/nfs/var/lib/dhcpd nfs
ro,vers=3,auto,nosharecache,context="system_u:object_r:dhcpd_state_t:s0" 0 0

Mount the file systems on /etc/fstab:
```
# mount -a
```

To verify that the foreman-proxy user can access the files that are shared over the network, display the DHCP configuration and lease files:

# su foreman-proxy -s /bin/bash
bash-4.2$ cat /mnt/nfs/etc/dhcp/dhcpd.conf
bash-4.2$ cat /mnt/nfs/var/lib/dhcpd/dhcpd.leases
bash-4.2$ exit

Enter the satellite-installer command to make the following persistent changes to the /etc/foreman-proxy/settings.d/dhcp.yml file:

# satellite-installer --foreman-proxy-dhcp=true \
--foreman-proxy-dhcp-provider=remote_isc \
--foreman-proxy-plugin-dhcp-remote-isc-dhcp-config /mnt/nfs/etc/dhcp/dhcpd.conf \
--foreman-proxy-plugin-dhcp-remote-isc-dhcp-leases /mnt/nfs/var/lib/dhcpd/dhcpd.leases \
--foreman-proxy-plugin-dhcp-remote-isc-key-name=omapi_key \
--foreman-proxy-plugin-dhcp-remote-isc-key-secret=jNSE5YI3H1A8Oj/tkV4...A2ZOHb6zv315CkNAY7DMYYCj48Umw== \
--foreman-proxy-plugin-dhcp-remote-isc-omapi-port=7911 \
--enable-foreman-proxy-plugin-dhcp-remote-isc \
--foreman-proxy-dhcp-server=DHCP_Server_FQDN

Restart the foreman-proxy service:
```
# systemctl restart foreman-proxy
```
In the Satellite web UI, navigate to Infrastructure > Capsules.
Locate the Capsule Server and select Refresh from the list in the Actions column.
Associate the DHCP service with the appropriate subnets and domain.

4.3. Configuring Capsule Server with External TFTP

You can configure Capsule Server with external TFTP services.

Procedure

Create the TFTP directory for NFS:
```
# mkdir -p /mnt/nfs/var/lib/tftpboot
```

In the /etc/fstab file, add the following line:

TFTP_Server_IP_Address:/exports/var/lib/tftpboot /mnt/nfs/var/lib/tftpboot nfs rw,vers=3,auto,nosharecache,context="system_u:object_r:tftpdir_rw_t:s0" 0 0

Mount the file systems in /etc/fstab:
```
# mount -a
```
Enter the satellite-installer command to make the following persistent changes to the /etc/foreman-proxy/settings.d/tftp.yml file:
```
# satellite-installer --foreman-proxy-tftp=true \
--foreman-proxy-tftp-root /mnt/nfs/var/lib/tftpboot
```
If the TFTP service is running on a different server than the DHCP service, update the tftp_servername setting with the FQDN or IP address of the server that the TFTP service is running on:
```
# satellite-installer --foreman-proxy-tftp-servername=TFTP_Server_FQDN
```
In the Satellite web UI, navigate to Infrastructure > Capsules.
Locate the Capsule Server and select Refresh from the list in the Actions column.
Associate the TFTP service with the appropriate subnets and domain.

4.4. Configuring Capsule Server with External IdM DNS

When Satellite Server adds a DNS record for a host, it first determines which Capsule is providing DNS for that domain. It then communicates with the Capsule that is configured to provide DNS service for your deployment and adds the record. The hosts are not involved in this process. Therefore, you must install and configure the IdM client on the Satellite or Capsule that is currently configured to provide a DNS service for the domain you want to manage using the IdM server.

Capsule Server can be configured to use a Red Hat Identity Management (IdM) server to provide DNS service. For more information about Red Hat Identity Management, see the Linux Domain Identity, Authentication, and Policy Guide.

To configure Capsule Server to use a Red Hat Identity Management (IdM) server to provide DNS service, use one of the following procedures:

Section 4.4.1, “Configuring Dynamic DNS Update with GSS-TSIG Authentication”
Section 4.4.2, “Configuring Dynamic DNS Update with TSIG Authentication”

To revert to internal DNS service, use the following procedure:

Section 4.4.3, “Reverting to Internal DNS Service”

Note

You are not required to use Capsule Server to manage DNS. When you are using the realm enrollment feature of Satellite, where provisioned hosts are enrolled automatically to IdM, the ipa-client-install script creates DNS records for the client. Configuring Capsule Server with external IdM DNS and realm enrollment are mutually exclusive. For more information about configuring realm enrollment, see External Authentication for Provisioned Hosts in the Administering Red Hat Satellite guide.

4.4.1. Configuring Dynamic DNS Update with GSS-TSIG Authentication

You can configure the IdM server to use the generic security service algorithm for secret key transaction (GSS-TSIG) technology defined in RFC3645. To configure the IdM server to use the GSS-TSIG technology, you must install the IdM client on the Capsule Server base operating system.

Prerequisites

You must ensure the IdM server is deployed and the host-based firewall is configured correctly. For more information, see Port Requirements in the Linux Domain Identity, Authentication, and Policy Guide.
You must contact the IdM server administrator to ensure that you obtain an account on the IdM server with permissions to create zones on the IdM server.
You should create a backup of the answer file. You can use the backup to restore the answer file to its original state if it becomes corrupted. For more information, see Configuring Satellite Server.

Procedure

To configure dynamic DNS update with GSS-TSIG authentication, complete the following steps:

Creating a Kerberos Principal on the IdM Server

Obtain a Kerberos ticket for the account obtained from the IdM administrator:
```
# kinit idm_user
```
Create a new Kerberos principal for Capsule Server to use to authenticate on the IdM server.
```
# ipa service-add capsule.example.com
```

Installing and Configuring the IdM Client

On the base operating system of either the Satellite or Capsule that is managing the DNS service for your deployment, install the ipa-client package:
```
# satellite-maintain packages install ipa-client
```
Configure the IdM client by running the installation script and following the on-screen prompts:
```
# ipa-client-install
```
Obtain a Kerberos ticket:
```
# kinit admin
```
Remove any preexisting keytab:
```
# rm /etc/foreman-proxy/dns.keytab
```
Obtain the keytab for this system:
```
# ipa-getkeytab -p capsule/satellite.example.com@EXAMPLE.COM \
-s idm1.example.com -k /etc/foreman-proxy/dns.keytab
```
Note
When adding a keytab to a standby system with the same host name as the original system in service, add the r option to prevent generating new credentials and rendering the credentials on the original system invalid.

For the dns.keytab file, set the group and owner to foreman-proxy:

# chown foreman-proxy:foreman-proxy /etc/foreman-proxy/dns.keytab

Optional: To verify that the keytab file is valid, enter the following command:

# kinit -kt /etc/foreman-proxy/dns.keytab \
capsule/satellite.example.com@EXAMPLE.COM

Configuring DNS Zones in the IdM web UI

Create and configure the zone that you want to manage:
1. Navigate to Network Services > DNS > DNS Zones.
2. Select Add and enter the zone name. For example, example.com.
3. Click Add and Edit.
4. Click the Settings tab and in the BIND update policy box, add the following to the semi-colon separated list:
```
grant capsule/047satellite.example.com@EXAMPLE.COM wildcard * ANY;
```
5. Set Dynamic update to True.
6. Enable Allow PTR sync.
7. Click Save to save the changes.
Create and configure the reverse zone:
1. Navigate to Network Services > DNS > DNS Zones.
2. Click Add.
3. Select Reverse zone IP network and add the network address in CIDR format to enable reverse lookups.
4. Click Add and Edit.
5. Click the Settings tab and in the BIND update policy box, add the following to the semi-colon separated list:
```
grant capsule\047satellite.example.com@EXAMPLE.COM wildcard * ANY;
```
6. Set Dynamic update to True.
7. Click Save to save the changes.

Configuring the Satellite or Capsule Server that Manages the DNS Service for the Domain

Use the satellite-installer command to configure the Satellite or Capsule that manages the DNS Service for the domain:

On Satellite, enter the following command:

satellite-installer --scenario satellite \
--foreman-proxy-dns=true \
--foreman-proxy-dns-managed=false \
--foreman-proxy-dns-provider=nsupdate_gss \
--foreman-proxy-dns-server="idm1.example.com" \
--foreman-proxy-dns-tsig-principal="capsule/satellite.example.com@EXAMPLE.COM" \
--foreman-proxy-dns-tsig-keytab=/etc/foreman-proxy/dns.keytab

On Capsule, enter the following command:

satellite-installer --scenario capsule \
--foreman-proxy-dns=true \
--foreman-proxy-dns-managed=false \
--foreman-proxy-dns-provider=nsupdate_gss \
--foreman-proxy-dns-server="idm1.example.com" \
--foreman-proxy-dns-tsig-principal="capsule/satellite.example.com@EXAMPLE.COM" \
--foreman-proxy-dns-tsig-keytab=/etc/foreman-proxy/dns.keytab

After you run the satellite-installer command to make any changes to your Capsule configuration, you must update the configuration of each affected Capsule in the Satellite web UI.

Updating the Configuration in the Satellite web UI

In the Satellite web UI, navigate to Infrastructure > Capsules, locate the Capsule Server, and from the list in the Actions column, select Refresh.
Configure the domain:
1. In the Satellite web UI, navigate to Infrastructure > Domains and select the domain name.
2. In the Domain tab, ensure DNS Capsule is set to the Capsule where the subnet is connected.
Configure the subnet:
1. In the Satellite web UI, navigate to Infrastructure > Subnets and select the subnet name.
2. In the Subnet tab, set IPAM to None.
3. In the Domains tab, select the domain that you want to manage using the IdM server.
4. In the Capsules tab, ensure Reverse DNS Capsule is set to the Capsule where the subnet is connected.
5. Click Submit to save the changes.

4.4.2. Configuring Dynamic DNS Update with TSIG Authentication

You can configure an IdM server to use the secret key transaction authentication for DNS (TSIG) technology that uses the rndc.key key file for authentication. The TSIG protocol is defined in RFC2845.

Prerequisites

You must ensure the IdM server is deployed and the host-based firewall is configured correctly. For more information, see Port Requirements in the Linux Domain Identity, Authentication, and Policy Guide.
You must obtain root user access on the IdM server.
You must confirm whether Satellite Server or Capsule Server is configured to provide DNS service for your deployment.
You must configure DNS, DHCP and TFTP services on the base operating system of either the Satellite or Capsule that is managing the DNS service for your deployment.
You must create a backup of the answer file. You can use the backup to restore the answer file to its original state if it becomes corrupted. For more information, see Configuring Satellite Server.

Procedure

To configure dynamic DNS update with TSIG authentication, complete the following steps:

Enabling External Updates to the DNS Zone in the IdM Server

On the IdM Server, add the following to the top of the /etc/named.conf file:

########################################################################

include "/etc/rndc.key";
controls  {
inet _IdM_Server_IP_Address_ port 953 allow { _Satellite_IP_Address_; } keys { "rndc-key"; };
};
########################################################################

Reload the named service to make the changes take effect:
```
# systemctl reload named
```
In the IdM web UI, navigate to Network Services > DNS > DNS Zones and click the name of the zone. In the Settings tab, apply the following changes:
1. Add the following in the BIND update policy box:
```
grant "rndc-key" zonesub ANY;
```
2. Set Dynamic update to True.
3. Click Update to save the changes.
Copy the /etc/rndc.key file from the IdM server to the base operating system of your Satellite Server. Enter the following command:
```
# scp /etc/rndc.key root@satellite.example.com:/etc/rndc.key
```
To set the correct ownership, permissions, and SELinux context for the rndc.key file, enter the following command:
```
# restorecon -v /etc/rndc.key
# chown -v root:named /etc/rndc.key
# chmod -v 640 /etc/rndc.key
```
Assign the foreman-proxy user to the named group manually. Normally, satellite-installer ensures that the foreman-proxy user belongs to the named UNIX group, however, in this scenario Satellite does not manage users and groups, therefore you need to assign the foreman-proxy user to the named group manually.
```
# usermod -a -G named foreman-proxy
```

On Satellite Server, enter the following satellite-installer command to configure Satellite to use the external DNS server:

# satellite-installer --scenario satellite \
--foreman-proxy-dns=true \
--foreman-proxy-dns-managed=false \
--foreman-proxy-dns-provider=nsupdate \
--foreman-proxy-dns-server="IdM_Server_IP_Address" \
--foreman-proxy-keyfile=/etc/rndc.key \
--foreman-proxy-dns-ttl=86400

Testing External Updates to the DNS Zone in the IdM Server

Ensure that the key in the /etc/rndc.key file on Satellite Server is the same key file that is used on the IdM server:
```
key "rndc-key" {
        algorithm hmac-md5;
        secret "secret-key==";
};
```
On Satellite Server, create a test DNS entry for a host. For example, host test.example.com with an A record of 192.168.25.20 on the IdM server at 192.168.25.1.
```
# echo -e "server 192.168.25.1\n \
update add test.example.com 3600 IN A 192.168.25.20\n \
send\n" | nsupdate -k /etc/rndc.key
```

On Satellite Server, test the DNS entry:

# nslookup test.example.com 192.168.25.1
Server:		192.168.25.1
Address:	192.168.25.1#53

Name:	test.example.com
Address: 192.168.25.20

To view the entry in the IdM web UI, navigate to Network Services > DNS > DNS Zones. Click the name of the zone and search for the host by name.

If resolved successfully, remove the test DNS entry:

# echo -e "server 192.168.25.1\n \
update delete test.example.com 3600 IN A 192.168.25.20\n \
send\n" | nsupdate -k /etc/rndc.key

Confirm that the DNS entry was removed:
```
# nslookup test.example.com 192.168.25.1
```
The above nslookup command fails and returns the SERVFAIL error message if the record was successfully deleted.

4.4.3. Reverting to Internal DNS Service

You can revert to using Satellite Server and Capsule Server as your DNS providers. You can use a backup of the answer file that was created before configuring external DNS, or you can create a backup of the answer file. For more information about answer files, see Configuring Satellite Server.

Procedure

On the Satellite or Capsule Server that you want to configure to manage DNS service for the domain, complete the following steps:

Configuring Satellite or Capsule as a DNS Server

If you have created a backup of the answer file before configuring external DNS, restore the answer file and then enter the satellite-installer command:
```
# satellite-installer
```
If you do not have a suitable backup of the answer file, create a backup of the answer file now. To configure Satellite or Capsule as DNS server without using an answer file, enter the following satellite-installer command on Satellite or Capsule:
```
# satellite-installer \
--foreman-proxy-dns=true \
--foreman-proxy-dns-managed=true \
--foreman-proxy-dns-provider=nsupdate \
--foreman-proxy-dns-server="127.0.0.1"
```
For more information,see Configuring DNS, DHCP, and TFTP on Capsule Server.

After you run the satellite-installer command to make any changes to your Capsule configuration, you must update the configuration of each affected Capsule in the Satellite web UI.

Updating the Configuration in the Satellite web UI

In the Satellite web UI, navigate to Infrastructure > Capsules.
For each Capsule that you want to update, from the Actions list, select Refresh.
Configure the domain:
1. In the Satellite web UI, navigate to Infrastructure > Domains and click the domain name that you want to configure.
2. In the Domain tab, set DNS Capsule to the Capsule where the subnet is connected.
Configure the subnet:
1. In the Satellite web UI, navigate to Infrastructure > Subnets and select the subnet name.
2. In the Subnet tab, set IPAM to DHCP or Internal DB.
3. In the Domains tab, select the domain that you want to manage using Satellite or Capsule.
4. In the Capsules tab, set Reverse DNS Capsule to the Capsule where the subnet is connected.
5. Click Submit to save the changes.

Chapter 5. Managing DHCP Using Capsule

Satellite can integrate with a DHCP service using your Capsule. A Capsule has multiple DHCP providers that you can use to integrate Satellite with your existing DHCP infrastructure or deploy a new one. You can use the DHCP module of Capsule to query for available IP addresses, add new, and delete existing reservations. Note that your Capsule cannot manage subnet declarations.

Available DHCP providers

dhcp_infoblox – For more information, see Using Infoblox as DHCP and DNS Providers in Provisioning Hosts.
dhcp_isc – ISC DHCP server over OMAPI. For more information, see Configuring DNS, DHCP, and TFTP on Capsule Server in Installing Capsule Server.
dhcp_remote_isc – ISC DHCP server over OMAPI with leases mounted through networking. For more information, see Configuring an External DHCP Server to Use with Capsule Server in Installing Capsule Server.

5.1. Securing the dhcpd API

Capsule interacts with DHCP daemon using the dhcpd API to manage DHCP. By default, the dhcpd API listens to any host without access control. You can add an omapi_key to provide basic security.

Procedure

Install the required packages:
```
# yum install bind-utils
```

Generate a key:

# dnssec-keygen -r /dev/urandom -a HMAC-MD5 -b 512 -n HOST omapi_key
# cat Komapi_key.+*.private | grep ^Key|cut -d ' ' -f2-

Use satellite-installer to secure the dhcpd API:

# satellite-installer \
--foreman-proxy-dhcp-key-name "My_Name" \
--foreman-proxy-dhcp-key-secret "My_Secret"

Chapter 6. Managing DNS Using Capsule

Satellite can manage DNS records using your Capsule. DNS management contains updating and removing DNS records from existing DNS zones. A Capsule has multiple DNS providers that you can use to integrate Satellite with your existing DNS infrastructure or deploy a new one.

After you have enabled DNS, your Capsule can manipulate any DNS server that complies with RFC 2136 using the dns_nsupdate provider. Other providers provide more direct integration, such as dns_infoblox for Infoblox.

Available DNS Providers

dns_infoblox – For more information, see Using Infoblox as DHCP and DNS Providers in Provisioning Hosts.
dns_nsupdate – Dynamic DNS update using nsupdate. For more information, see Using Infoblox as DHCP and DNS Providers in Provisioning Hosts.
dns_nsupdate_gss – Dynamic DNS update with GSS-TSIG. For more information, see Section 4.4.1, “Configuring Dynamic DNS Update with GSS-TSIG Authentication”.

Appendix A. Capsule Server Scalability Considerations

The maximum number of Capsule Servers that Satellite Server can support has no fixed limit. The tested limit is 17 Capsule Servers with 2 vCPUs on a Satellite Server with Red Hat Enterprise Linux 7. However, scalability is highly variable, especially when managing Puppet clients.

Capsule Server scalability when managing Puppet clients depends on the number of CPUs, the run-interval distribution, and the number of Puppet managed resources. Capsule Server has a limitation of 100 concurrent Puppet agents running at any single point in time. Running more than 100 concurrent Puppet agents results in a 503 HTTP error.

For example, assuming that Puppet agent runs are evenly distributed with less than 100 concurrent Puppet agents running at any single point during a run-interval, a Capsule Server with 4 CPUs has a maximum of 1250 – 1600 Puppet clients with a moderate workload of 10 Puppet classes assigned to each Puppet client. Depending on the number of Puppet clients required, the Satellite installation can scale out the number of Capsule Servers to support them.

If you want to scale your Capsule Server when managing Puppet clients, the following assumptions are made:

There are no external Puppet clients reporting directly to the Satellite integrated Capsule.
All other Puppet clients report directly to an external Capsule.
There is an evenly distributed run-interval of all Puppet agents.

Note

Deviating from the even distribution increases the risk of overloading Satellite Server. The limit of 100 concurrent requests applies.

The following table describes the scalability limits using the recommended 4 CPUs.

Table A.1. Puppet Scalability Using 4 CPUs

Puppet Managed Resources per Host	Run-Interval Distribution
1	3000 – 2500
10	2400 – 2000
20	1700 – 1400

The following table describes the scalability limits using the minimum 2 CPUs.

Table A.2. Puppet Scalability Using 2 CPUs

Puppet Managed Resources per Host	Run-Interval Distribution
1	1700 – 1450
10	1500 – 1250
20	850 – 700

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Language and Page Formatting Options

Installing Capsule Server

Installing Red Hat Satellite Capsule Server

Red Hat Satellite Documentation Team

Providing Feedback on Red Hat Documentation

Chapter 1. Preparing your Environment for Installation

1.1. System Requirements

1.2. Storage Requirements

1.2.1. Red Hat Enterprise Linux 8

1.2.2. Red Hat Enterprise Linux 7

1.3. Storage Guidelines

1.4. Supported Operating Systems

1.5. Ports and Firewalls Requirements

1.6. Enabling Connections from Capsule Server to Satellite Server

1.7. Enabling Connections from Satellite Server and Clients to a Capsule Server

Chapter 2. Installing Capsule Server

2.1. Registering to Satellite Server

2.2. Attaching the Satellite Infrastructure Subscription

2.3. Configuring Repositories

2.3.1. Red Hat Enterprise Linux 8

2.3.2. Red Hat Enterprise Linux 7

2.4. Installing Capsule Server Packages

2.4.1. Red Hat Enterprise Linux 7

2.4.2. Red Hat Enterprise Linux 8

2.5. Synchronizing the System Clock With chronyd

2.6. Configuring Capsule Server with SSL Certificates

2.6.1. Configuring Capsule Server with a Default SSL Certificate

2.6.2. Configuring Capsule Server with a Custom SSL Certificate

2.6.2.1. Creating a Custom SSL Certificate for Capsule Server

2.6.2.2. Deploying a Custom SSL Certificate to Capsule Server

2.6.2.3. Deploying a Custom SSL Certificate to Hosts

2.7. Assigning the Correct Organization and Location to Capsule Server in the Satellite web UI

Chapter 3. Performing Additional Configuration on Capsule Server

3.1. Configuring Capsule for Host Registration and Provisioning

3.2. Enabling Katello Agent on External Capsules

3.3. Enabling OpenSCAP on Capsule Servers

3.4. Adding Life Cycle Environments to Capsule Servers

3.5. Enabling Power Management on Managed Hosts

3.6. Configuring DNS, DHCP, and TFTP on Capsule Server

Chapter 4. Configuring Capsule Server with External Services

4.1. Configuring Capsule Server with External DNS

4.2. Configuring Capsule Server with External DHCP

4.2.1. Configuring an External DHCP Server to Use with Capsule Server

4.2.2. Configuring Satellite Server with an External DHCP Server

4.3. Configuring Capsule Server with External TFTP

4.4. Configuring Capsule Server with External IdM DNS

4.4.1. Configuring Dynamic DNS Update with GSS-TSIG Authentication

4.4.2. Configuring Dynamic DNS Update with TSIG Authentication

4.4.3. Reverting to Internal DNS Service

Chapter 5. Managing DHCP Using Capsule

5.1. Securing the dhcpd API

Chapter 6. Managing DNS Using Capsule

Appendix A. Capsule Server Scalability Considerations

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