This module provides Custom Puppet Provider to handle registration and consumption of RedHat subscriptions using subscription-manager as part of Katello or RedHat Satellite 6.
This module can be used with RedHat Subscription Access Manager (SAM) but is not primarily designed to inter-operate with SAM separate from a Katello or Satellite service.
You cannot use this module to switch between SAM and other products or to SAM from a different product because of the changes in the internal name for the CA certificates.
This module is a fork of the puppet-subscription_manager module by James Laska that was in turn derived from puppet-rhnreg_ks module by Gaël Chamoulaud. This fork provides an incompatible dedicated rhsm_config resource and separates repository management from control of the Yum overrides.
Due to various terminology differences between RHN Satellite, the upstream Katello project and the further upstream component projects of Candlepin, The Foreman, Puppet and Dogtag the names of properties and resources may be confusing.
- Katello Pools and Satellite Subscriptions are different things presented through the same underlying system resources. This module calls both 'pools.'
- Satellite, unlike Katello, will require attachment to subscriptions whenever paid-for RedHat Network Channels are made available through a repository view. This module does not manage those certificates.
- RedHat SAM is an installable RedHat supported version of the Candlepin service which uses "candlepin-cert-consumer-" package name instead of of the package name "katello-ca-consumer-". Options are provided to select this.
Apache License, Version 2.0. Read the LICENSE file for details of the licensing.
- puppet-boolean on GitHub
- puppetlabs-transition on GitHub
- A good source for subscription-manager and its dependencies like EPEL.
See CONTRIBUTORS.
This module provides the standard install-config-service pattern. It also wraps the provided native resources with a convenience class to enable simple or complex deployment.
It is expected that any users not making use of default top-level import of the module will be interested in the native types for customization.
Some custom facts are provided.
A family of facts, similar to the rhsm_repo type, summarize the subscription state. These can return lists of data under facter 2.0.
- rhsm_available_repos
- rhsm_disabled_repos
- rhsm_enabled_repos
The repo facts make use of a simple caching mechanism using the facts.d directory to limit connections to the Katello or Satellite server. Like the katello-agent these only pull data once a day.
The once-per day schedule is currently a hard-coded value. However the cache can be invalidated by finding and removing the cache files.
The cache files should appear as normal YAML format external fact files. These facts may actually linger on after removing the rhsm module itself. Beware that the location of external fact files is different between Puppet and facter for older versions of Puppet like 2 or 3 and facter 1.x.
The certificate authority is part of the rhsm_config type but is very useful for operations in involving subscription management. This differs slightly between Katelo, RedHat Satellte and RedHat SAM.
- rhsm_ca_name
Of course, a fact exists about the identity of the client as known locally.
- rhsm_identity
Setup to and register one CentOS 6 client to a Katello server using a public repository to obtain the agent.
# (Optionally) Place this code in a .pp file some where on your Puppet's modulepath
# such as a file named subscription_manager.pp in a module named repo.
# The autoloader will be triggered by the rhsm module to search for this class.
class repo::subscription_manager {
yumrepo { 'dgoodwin-subscription-manager':
ensure => 'present',
baseurl => 'https://copr-be.cloud.fedoraproject.org/results/dgoodwin/subscription-manager/epel-6-$basearch/',
descr => 'Copr repo for subscription-manager owned by dgoodwin',
enabled => '1',
gpgcheck => '1',
gpgkey => 'https://copr-be.cloud.fedoraproject.org/results/dgoodwin/subscription-manager/pubkey.gpg',
skip_if_unavailable => 'True',
}
}
# Place this this in either a raw .pp manifest, a profile-like module or
# classify the node to require subscription_manager with these parameters in
# your ENC.
# Notice the explict call for the optional package repository to include.
class { 'subscription_manager':
repo => 'repo::subscription_manager',
server_hostname => 'my_katello.example.com',
activationkey => '1-2-3-example.com-key',
force => true,
org => 'My_Example_Org',
}
}
Register a RedHat Enterprise 7 or CentOS 7 node to the RedHat Network with Satellite 6 using a password and username.
class { 'subscription_manager':
org => 'My_Company_Org_in_RHN',
username => 'some_rhn_special_user',
password => 'password123',
autosubscribe => true,
servicelevel => 'STANDARD',
}
Putting the explicit password in the code is a *bad* idea. Using hiera-gpg or
hiera-eyaml back-ends is strongly encouraged for this example.
Register a RedHat Enterprise 7 or CentOS 7 node to Satellite 6 using an activation key.
class { 'subscription_manager':
server_hostname => 'satellite.example.com',
org => 'My_Company_Org',
activationkey => '1234-key',
autosubscribe => true,
servicelevel => 'STANDARD',
config_hash => {
server_prefix => '/rhsm',
rhsm_baseurl => "https://satellite.example.com/pulp/repos",
rhsm_repo_ca_cert => '%(ca_cert_dir)s/katello-server-ca.pem',
},
service_name =>'rhsmcertd',
force => true,
}
Notice that the
rhsm_repo_ca_cert
must change to match the certificate provided by the katello-ca-consumer package on the Satellite server. This can be contained in the files searched by therhsm_ca_cert
fact. These are SSL certificates which do not take into account Subject Alternative Names. Only the primary name in the certificate is used to check if the client is registered to the correct server.
Register to a local RedHat SAM server.
class { 'subscription_manager':
server_hostname => 'sam.example.com',
org => 'My_Company_Org',
activationkey => '1234-key',
ca_package_prefix => 'candlepin-cert-consumer-', # note the trailing hypen
autosubscribe => true,
servicelevel => 'PREMIUM',
config_hash => {
rhsm_repo_ca_cert => '/etc/rhsm/ca/candlepin-local.pem',
},
service_name =>'rhsmcertd',
force => true,
}
For this example one can see that the
config_hash
only needs customized entries so there is no need to provide every default.
The module adds the following new types:
rhsm_register
for managing RedHat Subscriptionsrhsm_config
for configurating RedHat Subscriptionsrhsm_repo
for managing RedHat Subscriptions to Repositoriesrhsm_override
for managing the Subscrption yumrepo override cacherhsm_pool
for managing RedHat Entitlement Pools (Satellite Subscription Collections)
- server_hostname: Specify a registration server hostname such as subscription.rhn.redhat.com.
- org: provide an organization to join (defaults to the Default_Organization )
Either an activation key or a username and password combination is needed to register. Both cannot be provided and will cause an error.
- activationkey: The activation key to use when registering the system (cannot be used with username and password)
- password: The password to use when registering the system
- username: The username to use when registering the system
- pool: A specific license pool to attach the system to. Can include a default view using the formant pool-name/view-name.
- lifecycleenv: which lifecycle environment to join at registration time (incompatible with using activation keys)
- autosubscribe: Enable automatic subscription to repositories based on default Pool settings. Must be false when using an activation key unless specifying a service level.
- servicelevel: provide automatic attachment to a service level in Satellite. Not applicable to katello installations.
- force: Should the registration be forced. Use this option with caution, setting it true will cause the system to be unregistered before running 'subscription-manager register'. Default value
false
.
Register clients to RedHat Subscription Management using an activation key:
rhsm_register { 'satellite.example.com':
server_hostname => 'satellite.example.com',
activationkey => '1-myactivationkey',
}
Register clients to RedHat Subscription management using a username and password:
rhsm_register { 'subscription.rhn.example.com':
username => 'myusername',
password => 'mypassword',
autosubscribe => true,
force => true,
}
Register clients to RedHat Subscription management and attach to a specific license pool:
rhsm_register { 'subscription.rhn.example.com':
username => 'myusername',
password => 'mypassword',
pool => 'mypoolid',
}
Please see man(5) RHSM.CONF for your locally supported options. There are quite a few and they require specific inputs.
See the documentation at RedHat Support for RedHat provided details on the /etc/rhsm/rhsm.conf
file.
The most important settings are as follows. Specific support is made for them.
- server_hostname: Same as the title or name of the resource
- server_insecure: If HTTP is used or HTTPS with an untrusted certificate
- server_prefix: The subscription path. Usually
/subscription
for RHN and/rhsm
for a Katello installation. - rhsm_baseurl: The Content base URL in case the registration server has no content. An example would be https://cdn.redhat.com or https://katello.example.com/pulp/repos
rhsmcertd is not the same as Katello's goferd.
Other options can be rolled into a configuration hash and fed to the module as a whole. See init.pp and the following YAML example for details.
As a resource.
rhsm_config { 'katello.example.com':
server_hostname => 'katello.example.com',
server_insecure => false,
server_port => 443,
server_prefix => '/rhsm',
server_ssl_verify_depth => 3,
rhsm_baseurl => 'https://katello.example.com/pulp/repos',
rhsm_ca_cert_dir => '/etc/rhsm/ca/',
rhsm_consumercertdir => '/etc/pki/consumer',
rhsm_entitlementcertdir => '/etc/pki/entitlement',
rhsm_full_refresh_on_yum => true,
rhsm_manage_repos => true,
rhsm_pluginconfdir => '/etc/rhsm/pluginconf_d',
rhsm_plugindir => '/usr/share/rhsm-plugins',
rhsm_productcertdir => '/etc/pki/product',
rhsm_repo_ca_cert => '/etc/rhsm/ca/katello-server-ca.pem',
rhsm_report_package_profile => 1,
rhsmcertd_autoattachinterval => 1440,
server_proxy_hostname => 'proxy.example.com',
server_proxy_user => 'proxy_user',
server_proxy_password => 'proxy_password',
server_proxy_port => 4443,
}
As a hiera data source.
---
subscription_manager::config_hash:
server_hostname: 'katello.example.com'
server_insecure: false
server_prefix: '/rhsm'
server_port: 443
server_ssl_verify_depth: 3
rhsm_baseurl: 'https://katello.example.com/pulp/repos'
rhsm_ca_cert_dir: '/etc/rhsm/ca'
rhsm_repo_ca_cert: '%(ca_cert_dir)s/katello-server-ca.pem'
rhsm_productcertdir: '/etc/pki/product'
rhsm_entitlementcertdir: '/etc/pki/entitlement'
rhsm_consumercertdir: '/etc/pki/consumer'
rhsm_manage_repos: true
rhsmcertd_certcheckinterval: 240
rhsmcertd_autoattachinterval: 1440
Users should only need to provide the settings in config_hash
that differ
from any of the defaults which are used in the module.
If you are using the resource you will have to provide everything you want to set.
Un-setting a required default by providing a blank option will make the a subscription stop working.
The default_log_level
and basic module_name logging settings are available.
None of the sub-modules are available. A suggestion for those would be to ship
customized file-line resources to not conflict with changes created through the
subscription-manager
command.
If absolutely necessary the individual yum repositories can be filtered.
This cannot add new repositories, only filter existing subscribed repositories. If you require more repositories, edit your Content View(s) or Pool(s). Or just use the
yumrepo
native type that ships with Puppet.
- ensure: Valid values are
present
,absent
. Default value ispresent
. - name: The name of the repository registration to filter.
Example of a repository from the Server
rhsm_repo { 'rhel-6-server-java-rpms':
ensure => present, # equal to the enabled property
url => 'https://katello.example.com/pulp/repos/abc-corp/production/reg-key-1/content/dist/rhel/server/6/6Server/$basearch/java-repo/os',
content_label => 'rhel-6-java-rpms',
id => 'rhel-6-java-rpms',
name => 'RedHat Enterprise Linux 6 Server - Java (RPMs)',
repo_type => channel,
}
This is returned by the Puppet resource command but it not manageable in a meaningful way through the type.
rhsm_repo { 'rhel-server6-epel':
ensure => present, # equal to the enabled property
updated => 2015-07-17T14:26:35.064+0000,
created => 2015-07-17T14:26:35.064+0000,
content_label => 'rhel-server6-epel'
repo_type => override,
}
Subscriptions to use RHN are sold as either individual entitlements or a pools of entitlements. A given server registered to a Satellite 6 or Katello system will consume at least 1 entitlement from a Pool.
This subscription to the Pool is what enables the set of repositories to be made available on the server for further subscription.
While this type is mostly useful for exporting the registration information in detail it can also be used to force switch registrations for selected clients.
- name: Unique Textual description of the Pool
- ensure: Is this pool absent or present?
- provides: Textual information about the Pool, usually same as the name.
- sku: Stock Keeping Unit, usually for inventory tracking
- account: Account number for this Pool of Subscriptions
- contract: Contract details, if known
- serial: Any serial number that is associated with the pool
- id: ID Hash of the Pool
- active: Is this subscription in use at the moment?
- quantity_used: How many is used? Often licenses are sold by CPU or core so is it possible for a single server to consume several subscriptions.
- service_type: type of service, usually relevant to official RedHat Channels
- service_level: level of service such as STANDARD, PREMIUM or SELF-SUPPORT
- status_details: Status detail string
- subscription_type: Subscription - type
- starts: Earliest date and time the subscription is valid for
- ends: When does this subscription expire
- system_type: Is this a physical, container or virtual system?
rhsm_pool { '1a2b3c4d5e6f1234567890abcdef12345':
name => 'Extra Packages for Enterprise Linux',
ensure => present,
provides => 'EPEL',
sku => 1234536789012,
contract => 'Fancy Widgets, LTD',
account => '1234-12-3456-0001',
serial => 1234567890123456789,
id => 1a2b3c4d5e6f1234567890abcdef12345,
active => true,
quantity_used => 1,
service_level => 'STANDARD',
service_type => 'EOL',
status_details => 'expired',
subscription_type => 'permanent',
starts => 06/01/2015,
ends => 05/24/2045,
system_type => physical,
}
For released version the module can be installed with the Puppet module tool from the Puppet Forge. Or even added as a Puppetfile source with Puppet Enterprise or r10k or Puppet Librarian.
puppet module install waveclaw-subscription_manager
This will install adrian-boolean and puppetlabs-transition as dependencies.
For pre-release code the GitHub repository can be cloned.
In your puppet modules directory:
For the original module:
git clone https://github.com/jlaska/puppet-subscription_manager.git
For this module:
git clone https://github.com/waveclaw/puppet-subscription_manager.git
Ensure the module is present in your puppetmaster's own environment. The Puppet
Master node doesn't have to use the module or Satellite itself. Ensure that the
target node to register has pluginsync enabled. Run the agent on the target node
to cause the custom types to be synced to the local libdir
(puppet master --configprint libdir
).
Support for Ruby 1.8.7 and older is ad-hoc at best. Modern rake
and
json_pure
require newer releases.
The caching functions were pushed to a difference module on the forge,
waveclaw-facter_cachable
. Some of the tests do not run properly under
Travis CI. These are commended out in the code but can be run locally.
Acceptance tests require a working katello system, RedHat Satellite server or just a repo of pre-built dependent packages.
Customization of the spec/spec_acceptance_helper.rb
and specific tests is needed to
point the full tests at working servers. Otherwise some of the tests must fail.
Please file any issues or suggestions on on GitHub
Please follow the example42 development guidelines.
Pull requests and bug reports via GitHub are welcomed.
For Pull Requests please:
- puppet-lint code
- provide rSpec tests if possible: code that sets tests on fire won't be merged
- Follow the module style naming standards
- Add your name to CONTRIBUTORS if you are new
For a bug report please include or link:
- Code that triggers the error
- Output of
facter -p
from the system where the error occurs - Relevant error logs (e.g. from RHSM parts or
subscription-manager
output) - Of course, the basic 'how to ask a good question' information.
- What did you do (terminal session logs, etc)?
- What was expected?
- What actually happened?
- When did it start happening?
- Is it still happening?
- Does it happen all the time?
- Any other information needed to understand the error
None of this guarantees a solution. At the least a good bug report can warn others.