dd445d5c2a
* Whitelist .../templates/${resource} link for both RH-SSO 7.3 TP CD & RH-SSO 7.3 products, * Replace '[subs="verbatim,macros,attributes"]' with '[source,bash,subs="attributes+,macros+"]' The 'macros+' field is needed in order also constructs like 'pass:quotes[_user-name_]' got expanded correctly, * Replace deprecated 'oc env' command with its new "oc set env" equivalent, * Replace deprecated 'oadm' command with its new "oc adm" equivalent, * Escape selected https:// links, so they wouldn't end up rendered as <link xlink=...> Signed-off-by: Jan Lieskovsky <jlieskov@redhat.com>
563 lines
28 KiB
Text
563 lines
28 KiB
Text
== Advanced Concepts
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These cover additional configuration topics, such as seting up keystores and a truststore for the {project_name} server, creating an administrator account, an overview of available {project_name} client registration methods, and guidance on configuring clustering.
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=== Requirements and Deploying xref:../introduction/introduction.adoc#passthrough-templates[Passthrough TLS Termination] {project_name} Templates
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==== Preparing the Deployment
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Log in to the OpenShift CLI with a user that holds the _cluster:admin_ role.
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. Create a new project:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc new-project sso-app-demo
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----
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. Add the `view` role to the link:https://docs.openshift.com/container-platform/latest/dev_guide/service_accounts.html#default-service-accounts-and-roles[`default`] service account. This enables the service account to view all the resources in the sso-app-demo namespace, which is necessary for managing the cluster.
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc policy add-role-to-user view system:serviceaccount:$(oc project -q):default
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----
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[[advanced-concepts-Configuring-Keystores]]
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==== Creating HTTPS and JGroups Keystores, and Truststore for the {project_name} Server
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The {project_name} application templates using xref:../introduction/introduction.adoc#passthrough-templates[passthrough TLS termination] require:
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* An xref:create-https-keystore[HTTPS keystore] used for encryption of https traffic,
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* The xref:create-jgroups-keystore[JGroups keystore] used for encryption of JGroups communications between nodes in the cluster, and
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* xref:create-server-truststore[{project_name} server truststore] used for securing the {project_name} requests
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the {project_openshift_product_name} image to be deployed properly.
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[IMPORTANT]
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====
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The {project_name} application templates using xref:../introduction/introduction.adoc#reencrypt-templates[re-encryption TLS termination] do not *require* or *expect* the aforementioned HTTPS and JGroups keystores and {project_name} server truststore to be prepared beforehand. The templates use OpenShift's internal link:https://docs.openshift.com/container-platform/latest/dev_guide/secrets.html#service-serving-certificate-secrets[service serving x509 certificate secrets] to automatically create the HTTPS and JGroups keystores. The {project_name} server truststore is also created automatically, containing the */var/run/secrets/kubernetes.io/serviceaccount/service-ca.crt* CA certificate file, which is used to create these cluster certificates. Moreover, the truststore for the {project_name} server is pre-populated with the all known, trusted CA certificate files found in the Java system path.
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====
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The *_openssl_* toolkit is used in the following example to generate a CA certificate to sign the HTTPS keystore, and create a truststore for the {project_name} server. *_keytool_*, a package *included with the Java Development Kit*, is then utilized to the generate self-signed certificates for these keystores.
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[WARNING]
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====
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For production environments Red Hat recommends that you use your own SSL certificate purchased from a verified Certificate Authority (CA) for SSL-encrypted connections (HTTPS).
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See the https://access.redhat.com/documentation/en-us/jboss_enterprise_application_platform/6.1/html-single/security_guide/index#Generate_a_SSL_Encryption_Key_and_Certificate[JBoss Enterprise Application Platform Security Guide] for more information on how to create a keystore with self-signed or purchased SSL certificates.
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====
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[[create-https-keystore]]
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*_Create the HTTPS keystore:_*
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[[generate-ca-certificate]]
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.. Generate a CA certificate. Pick and remember the password. Provide identical password, when xref:signing-csr-with-ca-certificate[signing the certificate sign request with the CA certificate] below:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ openssl req -new -newkey rsa:4096 -x509 -keyout xpaas.key -out xpaas.crt -days 365 -subj "/CN=xpaas-sso-demo.ca"
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----
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.. Generate a CA certificate for the HTTPS keystore. Provide `mykeystorepass` as the keystore password:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -genkeypair -keyalg RSA -keysize 2048 -dname "CN=secure-sso-sso-app-demo.openshift.example.com" -alias jboss -keystore keystore.jks
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----
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.. Generate a certificate sign request for the HTTPS keystore. Provide `mykeystorepass` as the keystore password:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -certreq -keyalg rsa -alias jboss -keystore keystore.jks -file sso.csr
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----
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[[signing-csr-with-ca-certificate]]
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[start=4]
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.. Sign the certificate sign request with the CA certificate. Provide the same password that was used to xref:generate-ca-certificate[generate the CA certificate]:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ openssl x509 -req -CA xpaas.crt -CAkey xpaas.key -in sso.csr -out sso.crt -days 365 -CAcreateserial
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----
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.. Import the CA certificate into the HTTPS keystore. Provide `mykeystorepass` as the keystore password. Reply `yes` to `Trust this certificate? [no]:` question:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -import -file xpaas.crt -alias xpaas.ca -keystore keystore.jks
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----
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.. Import the signed certificate sign request into the HTTPS keystore. Provide `mykeystorepass` as the keystore password:
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -import -file sso.crt -alias jboss -keystore keystore.jks
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----
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[[create-jgroups-keystore]]
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*_Generate a secure key for the JGroups keystore:_*
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Provide `password` as the keystore password:
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -genseckey -alias secret-key -storetype JCEKS -keystore jgroups.jceks
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----
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[[create-server-truststore]]
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*_Import the CA certificate into a new {project_name} server truststore:_*
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Provide `mykeystorepass` as the truststore password. Reply `yes` to `Trust this certificate? [no]:` question:
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -import -file xpaas.crt -alias xpaas.ca -keystore truststore.jks
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----
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[[Configuring-Secrets]]
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==== Secrets
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OpenShift uses objects called link:https://docs.openshift.com/container-platform/latest/dev_guide/secrets.html[secrets] to hold sensitive information, such as passwords or keystores.
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. Create the secrets for the HTTPS and JGroups keystores, and {project_name} server truststore, generated in the xref:Configuring-Keystores[previous section].
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc secret new sso-app-secret keystore.jks jgroups.jceks truststore.jks
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----
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. Link these secrets to the link:https://docs.openshift.com/container-platform/latest/dev_guide/service_accounts.html#default-service-accounts-and-roles[default] service account, which is used to run {project_name} pods.
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+
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc secrets link default sso-app-secret
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----
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==== Deploying the Chosen {project_name} Passthrough TLS Template via OpenShift CLI
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After the aforementioned xref:Configuring-Keystores[keystores] and xref:Configuring-Secrets[secrets] are created, deploy some of the available xref:../introduction/introduction.adoc#passthrough-templates[passthrough TLS termination] as follows:
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[WARNING]
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====
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For simplicity, the values of *_SSO_ADMIN_USERNAME_*, *_SSO_ADMIN_PASSWORD_*, *_HTTPS_PASSWORD_*, *_JGROUPS_ENCRYPT_PASSWORD_*, and *_SSO_TRUSTSTORE_PASSWORD_* variables xref:advanced-topics-deploy-{project_templates_version}-https-template[in the following command] have been chosen to match the default values of the respective parameters of the *_{project_templates_version}-https_* {project_name} application template.
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For production environments, Red Hat recommends that you consult the on-site policy, specific to your organization for guidance on how to generate sufficiently strong user name and password for the administrator user account of the {project_name} server, and passwords for the HTTPS and JGroups keystores, and the truststore of the {project_name} server.
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Be aware that *the passwords provided when provisioning the template need to match the passwords provided when creating the keystores*. If using different username and passwords, modify the values of respective xref:advanced-topics-deploy-{project_templates_version}-https-template[template parameters] as appropriate for your environment.
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====
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[NOTE]
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====
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The following commands using the *_keytool_*, a package *included with the Java Development Kit*, can be used to determine the names associated with the certificate:
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -v -list -keystore keystore.jks | grep Alias
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Enter keystore password: mykeystorepass
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Alias name: xpaas.ca
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Alias name: jboss
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----
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[source,bash,subs="attributes+,macros+"]
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----
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$ keytool -v -list -keystore jgroups.jceks -storetype jceks | grep Alias
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Enter keystore password: password
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Alias name: secret-key
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----
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Finally, the *_SSO_ADMIN_USERNAME_*, *_SSO_ADMIN_PASSWORD_*, and the *_SSO_REALM_* template parameters in the following command are optional.
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====
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[[advanced-topics-deploy-{project_templates_version}-https-template]]
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc new-app --template={project_templates_version}-https \
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-p HTTPS_SECRET="sso-app-secret" \
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-p HTTPS_KEYSTORE="keystore.jks" \
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-p HTTPS_NAME="jboss" \
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-p HTTPS_PASSWORD="mykeystorepass" \
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-p JGROUPS_ENCRYPT_SECRET="sso-app-secret" \
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-p JGROUPS_ENCRYPT_KEYSTORE="jgroups.jceks" \
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-p JGROUPS_ENCRYPT_NAME="secret-key" \
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-p JGROUPS_ENCRYPT_PASSWORD="password" \
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-p SSO_ADMIN_USERNAME="admin" \
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-p SSO_ADMIN_PASSWORD="redhat" \
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-p SSO_REALM="demorealm" \
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-p SSO_TRUSTSTORE="truststore.jks" \
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-p SSO_TRUSTSTORE_PASSWORD="mykeystorepass" \
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-p SSO_TRUSTSTORE_SECRET="sso-app-secret"
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--> Deploying template "openshift/{project_templates_version}-https" to project sso-app-demo
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{project_name} {project_version} (Ephemeral with passthrough TLS)
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---------
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An example {project_name} 7 application. For more information about using this template, see \https://github.com/jboss-openshift/application-templates.
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A new {project_name} service has been created in your project. The admin username/password for accessing the master realm via the {project_name} console is admin/redhat. Please be sure to create the following secrets: "sso-app-secret" containing the keystore.jks file used for serving secure content; "sso-app-secret" containing the jgroups.jceks file used for securing JGroups communications; "sso-app-secret" containing the truststore.jks file used for securing {project_name} requests.
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* With parameters:
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* Application Name=sso
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* Custom http Route Hostname=
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* Custom https Route Hostname=
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* Server Keystore Secret Name=sso-app-secret
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* Server Keystore Filename=keystore.jks
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* Server Keystore Type=
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* Server Certificate Name=jboss
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* Server Keystore Password=mykeystorepass
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* Datasource Minimum Pool Size=
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* Datasource Maximum Pool Size=
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* Datasource Transaction Isolation=
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* JGroups Secret Name=sso-app-secret
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* JGroups Keystore Filename=jgroups.jceks
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* JGroups Certificate Name=secret-key
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* JGroups Keystore Password=password
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* JGroups Cluster Password=yeSppLfp # generated
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* ImageStream Namespace=openshift
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* {project_name} Administrator Username=admin
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* {project_name} Administrator Password=redhat
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* {project_name} Realm=demorealm
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* {project_name} Service Username=
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* {project_name} Service Password=
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* {project_name} Trust Store=truststore.jks
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* {project_name} Trust Store Password=mykeystorepass
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* {project_name} Trust Store Secret=sso-app-secret
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* Container Memory Limit=1Gi
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--> Creating resources ...
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service "sso" created
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service "secure-sso" created
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service "sso-ping" created
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route "sso" created
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route "secure-sso" created
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deploymentconfig "sso" created
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--> Success
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Run 'oc status' to view your app.
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----
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==== Accessing the Administrator Console of the {project_name} Pod
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After the template got deployed, identify the available routes:
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[source,bash,subs="attributes+,macros+"]
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----
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$ oc get routes
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----
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[cols="7",options="header"]
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|===
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|NAME |HOST/PORT |PATH |SERVICES |PORT |TERMINATION |WILDCARD
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|secure-sso
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|secure-sso-sso-app-demo.openshift.example.com
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|secure-sso
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|<all>
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|passthrough
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|None
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|sso
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|sso-sso-app-demo.openshift.example.com
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|
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|sso
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|<all>
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|None
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|===
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and access the {project_name} administrator console at:
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* *\https://secure-sso-sso-app-demo.openshift.example.com/auth/admin*
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* *\http://sso-sso-app-demo.openshift.example.com/auth/admin*
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using the xref:../advanced_concepts/advanced_concepts.adoc#advanced-concepts-sso-administrator-setup[administrator account].
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[[advanced-concepts-sso-hostname-spi-setup]]
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=== Customizing Hostname for the {project_name} Server
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The hostname SPI introduced a flexible way to configure the hostname for the {project_name} server. There are two built-in providers. The first is `request`, which uses the request headers to determine the hostname. This is the *default setting* for {project_openshift_product_name} image. The second is `fixed`, which allows configuring a fixed hostname. The latter makes sure that only valid hostnames can be used and allows internal applications to invoke {project_name} server through an alternative URL.
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Run the following commands to set the `fixed` hostname SPI provider for the {project_name} server:
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. Deploy the {project_openshift_product_name} image with *_SSO_HOSTNAME_* environment variable set to the desired hostname of the {project_name} server.
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+
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----
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$ oc new-app --template=sso-cd-x509-https \
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-p SSO_HOSTNAME="rh-sso-server.openshift.example.com"
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----
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. Identify the name of the route for the {project_name} service.
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+
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----
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$ oc get routes
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----
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+
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[cols="7",options="header"]
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|===
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|NAME
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|HOST/PORT
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|PATH
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|SERVICES
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|PORT
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|TERMINATION
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|WILDCARD
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|sso
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|sso-sso-app-demo.openshift.example.com
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|
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|sso
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|<all>
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|reencrypt
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|None
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|===
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. Change the `host:` field to match the hostname specified as the value of the *_SSO_HOSTNAME_* environment variable above.
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+
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[NOTE]
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====
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Adjust the `rh-sso-server.openshift.example.com` value in the following command as necessary.
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====
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+
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----
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$ oc patch route/sso --type=json -p '[{"op": "replace", "path": "/spec/host", "value": "rh-sso-server.openshift.example.com"}]'
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----
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+
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If successful, the previous command will return the following output:
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+
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----
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route "sso" patched
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----
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[[advanced-concepts-sso-administrator-setup]]
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=== Creating Administrator Account for Red Hat Single Sign-On Server
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Red Hat Single Sign-On does not provide any pre-configured management account out of the box. This administrator account is necessary for logging into the `master` realm's management console and perform server maintenance operations such as, creating realms or users, or registering applications intended to be secured by Red Hat Single Sign-On.
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The administrator account can be created:
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* By providing values for the xref:sso-admin-template-parameters[*_SSO_ADMIN_USERNAME_* and *_SSO_ADMIN_PASSWORD_* parameters], when deploying the {project_name} application template, or
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* By xref:sso-admin-remote-shell[a remote shell session to particular {project_name} pod], if the {project_openshift_product_name} image is deployed without an application template.
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[NOTE]
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====
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Red Hat Single Sign-On allows an initial administrator account to be created via the link:https://access.redhat.com/documentation/en-us/red_hat_single_sign-on/7.2/html-single/getting_started_guide/#creating_the_admin_account[Welcome Page] web form, but only if the Welcome Page is accessed from localhost; this method of administrator account creation is not applicable for the {project_openshift_product_name} image.
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====
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[[advanced-concepts-sso-admin-template-parameters]]
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==== Creating {project_name} Administrator Account via Template Parameters
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When deploying {project_name} application template, *_SSO_ADMIN_USERNAME_* and *_SSO_ADMIN_PASSWORD_* parameters denote the username and password of the {project_name} server's administrator account to be created for the `master` realm.
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[NOTE]
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====
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*Both of these parameters are required.* If not specified, they are auto generated and displayed as an OpenShift instructional message when the template is instantiated.
|
||
====
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||
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[IMPORTANT]
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||
====
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The lifespan of the {project_name} server's administrator account depends upon the storage type used to store the {project_name} server's database:
|
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* For an in-memory database mode (*_{project_templates_version}-https_* and *_{project_templates_version}-x509-https_* templates) the account exists throughout the lifecycle of the particular {project_name} pod (stored account data is lost upon pod destruction),
|
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* For an ephemeral database mode (*_{project_templates_version}-mysql_* and *_{project_templates_version}-postgresql_* templates) the account exists throughout the lifecycle of the database pod (even if the {project_name} pod is destructed, the stored account data is preserved under the assumption that the database pod is still running),
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* For persistent database mode (*_{project_templates_version}-mysql-persistent_*, *_{project_templates_version}-x509-mysql-persistent_*, *_{project_templates_version}-postgresql-persistent_*, and *_{project_templates_version}-x509-postgresql-persistent_* templates) the account exists throughout the lifecycle of the persistent medium used to hold the database data. This means that the stored account data is preserved even when both the {project_name} and the database pods are destructed.
|
||
|
||
It is a common practice to deploy an {project_name} application template to get the corresponding OpenShift deployment config for the application, and then reuse that deployment config multiple times (every time a new {project_name} application needs to be instantiated).
|
||
====
|
||
|
||
[WARNING]
|
||
====
|
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In the case of *ephemeral or persistent database mode*, after creating the RH_SSO server's administrator account, remove the *_SSO_ADMIN_USERNAME_* and *_SSO_ADMIN_PASSWORD_* variables from the deployment config before deploying new {project_name} applications.
|
||
====
|
||
|
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[IMPORTANT]
|
||
====
|
||
Run the following commands to prepare the previously created deployment config of the {project_name} application for reuse after the administrator account has been created:
|
||
|
||
. Identify the deployment config of the {project_name} application.
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+
|
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[source,bash,subs="attributes+,macros+"]
|
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----
|
||
$ oc get dc -o name
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deploymentconfig/sso
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||
deploymentconfig/sso-mysql
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||
----
|
||
. Clear the *_SSO_ADMIN_USERNAME_* and *_SSO_ADMIN_PASSWORD_* variables setting.
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+
|
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[source,bash,subs="attributes+,macros+"]
|
||
----
|
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$ oc set env dc/sso \
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-e SSO_ADMIN_USERNAME="" \
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-e SSO_ADMIN_PASSWORD=""
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----
|
||
====
|
||
|
||
[[advanced-concepts-sso-admin-remote-shell]]
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||
==== Creating {project_name} Administrator Account via Remote Shell Session to {project_name} Pod
|
||
|
||
Run following commands to create an administrator account for the `master` realm of the {project_name} server, when deploying the {project_openshift_product_name} image directly from the image stream (without the xref:../introduction/introduction.adoc#sso-templates[template]), after the {project_name} application pod has been started:
|
||
|
||
. Identify the {project_name} application pod.
|
||
+
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
$ oc get pods
|
||
NAME READY STATUS RESTARTS AGE
|
||
sso-12-pt93n 1/1 Running 0 1m
|
||
sso-mysql-6-d97pf 1/1 Running 0 2m
|
||
----
|
||
. Open a remote shell session to the {project_openshift_product_name} container.
|
||
+
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
$ oc rsh sso-12-pt93n
|
||
sh-4.2$
|
||
----
|
||
. Create the {project_name} server administrator account for the `master` realm at the command line with the `add-user-keycloak.sh` script.
|
||
+
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
sh-4.2$ cd /opt/eap/bin/
|
||
sh-4.2$ ./add-user-keycloak.sh -r master -u sso_admin -p sso_password
|
||
Added 'sso_admin' to '/opt/eap/standalone/configuration/keycloak-add-user.json', restart server to load user
|
||
----
|
||
+
|
||
[NOTE]
|
||
====
|
||
The `sso_admin`/`sso_password` credentials in the example above are for demonstration purposes only. Refer to the password policy applicable within your organization for guidance on how to create a secure user name and password.
|
||
====
|
||
. Restart the underlying JBoss EAP server instance to load the newly added user account. Wait for the server to restart properly.
|
||
+
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
sh-4.2$ ./jboss-cli.sh --connect ':reload'
|
||
{
|
||
"outcome" => "success",
|
||
"result" => undefined
|
||
}
|
||
----
|
||
+
|
||
[WARNING]
|
||
====
|
||
When restarting the server it is important to restart just the JBoss EAP process within the running {project_name} container, and not the whole container. This is because restarting the whole container will recreate it from scratch, without the {project_name} server administration account for the `master` realm.
|
||
====
|
||
. Log in to the `master` realm's administration console of the {project_name} server using the credentials created in the steps above. In the browser, navigate to *\http://sso-<project-name>.<hostname>/auth/admin* for the {project_name} web server, or to *\https://secure-sso-<project-name>.<hostname>/auth/admin* for the encrypted {project_name} web server, and specify the user name and password used to create the administrator user.
|
||
|
||
=== Deployment Process
|
||
|
||
Once deployed, the *_{project_templates_version}-https_* and *_{project_templates_version}-x509-https_* templates create a single pod that contains both the database and the {project_name} servers. The *_{project_templates_version}-mysql_*, *_{project_templates_version}-mysql-persistent_*, *_{project_templates_version}-x509-mysql-persistent_*, *_{project_templates_version}-postgresql_*, *_{project_templates_version}-postgresql-persistent_*, and *_{project_templates_version}-x509-postgresql-persistent_* templates create two pods, one for the database server and one for the {project_name} web server.
|
||
|
||
After the {project_name} web server pod has started, it can be accessed from its custom configured hostnames, or from the default hostnames:
|
||
|
||
* *\http://sso-_<project-name>_._<hostname>_/auth/admin*: for the {project_name} web server, and
|
||
* *\https://secure-sso-_<project-name>_._<hostname>_/auth/admin*: for the encrypted {project_name} web server.
|
||
|
||
Use the xref:../advanced_concepts/advanced_concepts.adoc#advanced-concepts-sso-administrator-setup[administrator user credentials] to log in into the `master` realm’s administration console.
|
||
|
||
[[advanced-concepts-SSO-Clients]]
|
||
=== {project_name} Clients
|
||
|
||
Clients are {project_name} entities that request user authentication. A client can be an application requesting {project_name} to provide user authentication, or it can make requests for access tokens to start services on behalf of an authenticated user. See the link:https://access.redhat.com/documentation/en-us/red_hat_single_sign-on/7.2/html/server_administration_guide/clients[Managing Clients chapter of the Red Hat Single Sign-On documentation] for more information.
|
||
|
||
{project_name} provides link:https://access.redhat.com/documentation/en-us/red_hat_single_sign-on/7.2/html/server_administration_guide/clients#oidc_clients[OpenID-Connect] and link:https://access.redhat.com/documentation/en-us/red_hat_single_sign-on/7.2/html/server_administration_guide/clients#saml_clients[SAML] client protocols. +
|
||
OpenID-Connect is the preferred protocol and utilizes three different access types:
|
||
|
||
- *public*: Useful for JavaScript applications that run directly in the browser and require no server configuration.
|
||
- *confidential*: Useful for server-side clients, such as EAP web applications, that need to perform a browser login.
|
||
- *bearer-only*: Useful for back-end services that allow bearer token requests.
|
||
|
||
It is required to specify the client type in the *<auth-method>* key of the application *web.xml* file. This file is read by the image at deployment. Set the value of *<auth-method>* element to:
|
||
|
||
* *KEYCLOAK* for the OpenID Connect client.
|
||
* *KEYCLOAK-SAML* for the SAML client.
|
||
|
||
The following is an example snippet for the application *web.xml* to configure an OIDC client:
|
||
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
...
|
||
<login-config>
|
||
<auth-method>KEYCLOAK</auth-method>
|
||
</login-config>
|
||
...
|
||
----
|
||
|
||
[[advanced-concepts-Auto-Man-Client-Reg]]
|
||
==== Automatic and Manual {project_name} Client Registration Methods
|
||
A client application can be automatically registered to an {project_name} realm by using credentials passed in variables specific to the *_eap64-sso-s2i_*, *_eap71-sso-s2i_*, and *_datavirt63-secure-s2i_* templates.
|
||
|
||
Alternatively, you can manually register the client application by configuring and exporting the {project_name} client adapter and including it in the client application configuration.
|
||
|
||
===== Automatic {project_name} Client Registration
|
||
|
||
Automatic {project_name} client registration is determined by {project_name} environment variables specific to the *_eap64-sso-s2i_*, *_eap71-sso-s2i_*, and *_datavirt63-secure-s2i_* templates. The {project_name} credentials supplied in the template are then used to register the client to the {project_name} realm during deployment of the client application.
|
||
|
||
The {project_name} environment variables included in the *_eap64-sso-s2i_*, *_eap71-sso-s2i_*, and *_datavirt63-secure-s2i_* templates are:
|
||
|
||
[cols="2*", options="header"]
|
||
|===
|
||
|Variable
|
||
|Description
|
||
|*_HOSTNAME_HTTP_*
|
||
|Custom hostname for http service route. Leave blank for default hostname of <application-name>.<project>.<default-domain-suffix>
|
||
|
||
|*_HOSTNAME_HTTPS_*
|
||
|Custom hostname for https service route. Leave blank for default hostname of <application-name>.<project>.<default-domain-suffix>
|
||
|
||
|*_SSO_URL_*
|
||
|The {project_name} web server authentication address: $$https://secure-sso-$$_<project-name>_._<hostname>_/auth
|
||
|
||
|*_SSO_REALM_*
|
||
|The {project_name} realm created for this procedure.
|
||
|
||
|*_SSO_USERNAME_*
|
||
|The name of the _realm management user_.
|
||
|
||
|*_SSO_PASSWORD_*
|
||
| The password of the user.
|
||
|
||
|*_SSO_PUBLIC_KEY_*
|
||
|The public key generated by the realm. It is located in the *Keys* tab of the *Realm Settings* in the {project_name} console.
|
||
|
||
|*_SSO_BEARER_ONLY_*
|
||
|If set to *true*, the OpenID Connect client is registered as bearer-only.
|
||
|
||
|*_SSO_ENABLE_CORS_*
|
||
|If set to *true*, the {project_name} adapter enables Cross-Origin Resource Sharing (CORS).
|
||
|===
|
||
|
||
If the {project_name} client uses the SAML protocol, the following additional variables need to be configured:
|
||
|
||
[cols="2*", options="header"]
|
||
|===
|
||
|Variable
|
||
|Description
|
||
|*_SSO_SAML_KEYSTORE_SECRET_*
|
||
|Secret to use for access to SAML keystore. The default is _sso-app-secret_.
|
||
|
||
|*_SSO_SAML_KEYSTORE_*
|
||
|Keystore filename in the SAML keystore secret. The default is _keystore.jks_.
|
||
|
||
|*_SSO_SAML_KEYSTORE_PASSWORD_*
|
||
|Keystore password for SAML. The default is _mykeystorepass_.
|
||
|
||
|*_SSO_SAML_CERTIFICATE_NAME_*
|
||
|Alias for keys/certificate to use for SAML. The default is _jboss_.
|
||
|===
|
||
|
||
See xref:Example-EAP-Auto[Example Workflow: Automatically Registering EAP Application in {project_name} with OpenID-Connect Client] for an end-to-end example of the automatic client registration method using an OpenID-Connect client.
|
||
|
||
===== Manual {project_name} Client Registration
|
||
|
||
Manual {project_name} client registration is determined by the presence of a deployment file in the client application's _../configuration/_ directory. These files are exported from the client adapter in the {project_name} web console. The name of this file is different for OpenID-Connect and SAML clients:
|
||
|
||
[horizontal]
|
||
*OpenID-Connect*:: _../configuration/secure-deployments_
|
||
*SAML*:: _../configuration/secure-saml-deployments_
|
||
|
||
These files are copied to the {project_name} adapter configuration section in the _standalone-openshift.xml_ at when the application is deployed.
|
||
|
||
There are two methods for passing the {project_name} adapter configuration to the client application:
|
||
|
||
* Modify the deployment file to contain the {project_name} adapter configuration so that it is included in the _standalone-openshift.xml_ file at deployment, or
|
||
* Manually include the OpenID-Connect _keycloak.json_ file, or the SAML _keycloak-saml.xml_ file in the client application's *../WEB-INF* directory.
|
||
|
||
See xref:Example-EAP-Manual[Example Workflow: Manually Configure an Application to Use {project_name} Authentication, Using SAML Client] for an end-to-end example of the manual {project_name} client registration method using a SAML client.
|
||
|
||
=== Limitations
|
||
OpenShift does not currently accept OpenShift role mapping from external providers. If {project_name} is used as an authentication gateway for OpenShift, users created in {project_name} must have the roles added using the OpenShift Administrator `oc adm policy` command.
|
||
|
||
For example, to allow an {project_name}-created user to view a project namespace in OpenShift:
|
||
[source,bash,subs="attributes+,macros+"]
|
||
----
|
||
$ oc adm policy add-role-to-user view <pass:quotes[_user-name_]> -n <pass:quotes[_project-name_]>
|
||
----
|