Merge "Move TLS documentation to its own page"
This commit is contained in:
Zuul
Gerrit Code Review
commit
da1d14b186
@ -72,130 +72,7 @@ all RabbitMQ Cluster hosts can resolve each others hostname beforehand.
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TLS Configuration
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~~~~~~~~~~~~~~~~~
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An additional endpoint configuration option is to enable or disable
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TLS protection for the internal and/or external VIP. TLS allows a client to
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authenticate the OpenStack service endpoint and allows for encryption of the
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requests and responses.
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The configuration variables that control TLS networking are:
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- kolla_enable_tls_external
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- kolla_external_fqdn_cert
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- kolla_enable_tls_internal
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- kolla_internal_fqdn_cert
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.. note::
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If TLS is enabled only on the internal or the external network
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the kolla_internal_vip_address and kolla_external_vip_address must
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be different.
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If there is only a single network configured in your network topology
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(opposed to configuring seperate internal and external networks), TLS
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can be enabled using only the internal network configuration variables.
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The default for TLS is disabled, to enable TLS networking:
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.. code-block:: yaml
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kolla_enable_tls_external: "yes"
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kolla_external_fqdn_cert: "{{ kolla_certificates_dir }}/mycert.pem"
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and/or
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kolla_enable_tls_internal: "yes"
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kolla_internal_fqdn_cert: "{{ kolla_certificates_dir }}/mycert-internal.pem"
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.. note::
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TLS authentication is based on certificates that have been
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signed by trusted Certificate Authorities. Examples of commercial
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CAs are Comodo, Symantec, GoDaddy, and GlobalSign. Letsencrypt.org
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is a CA that will provide trusted certificates at no charge. Many
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company's IT departments will provide certificates within that
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company's domain. If using a trusted CA is not possible for your
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situation, you can use `OpenSSL <https://www.openssl.org>`__
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to create your own company's domain or see the section below about
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kolla generated self-signed certificates.
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Two certificate files are required to use TLS securely with authentication.
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These two files will be provided by your Certificate Authority. These
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two files are the server certificate with private key and the CA certificate
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with any intermediate certificates. The server certificate needs to be
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installed with the kolla deployment and is configured with the
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``kolla_external_fqdn_cert`` or ``kolla_internal_fqdn_cert`` parameter.
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If the server certificate provided is not already trusted by the client,
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then the CA certificate file will need to be distributed to the client.
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When using TLS to connect to a public endpoint, an OpenStack client will
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have settings similar to this:
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.. code-block:: shell
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export OS_PROJECT_DOMAIN_ID=default
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export OS_USER_DOMAIN_ID=default
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export OS_PROJECT_NAME=demo
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export OS_USERNAME=demo
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export OS_PASSWORD=demo-password
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export OS_AUTH_URL=https://mykolla.example.net:5000
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# os_cacert is optional for trusted certificates
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export OS_CACERT=/etc/pki/ca/mykolla-cacert.crt
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export OS_IDENTITY_API_VERSION=3
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Self-Signed Certificates
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~~~~~~~~~~~~~~~~~~~~~~~~
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.. note::
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Self-signed certificates should never be used in production.
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It is not always practical to get a certificate signed by a well-known
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trust CA, for example a development or internal test kolla deployment. In
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these cases it can be useful to have a self-signed certificate to use.
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For convenience, the ``kolla-ansible`` command will generate the necessary
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certificate files based on the information in the ``globals.yml``
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configuration file:
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.. code-block:: console
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kolla-ansible certificates
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The certificate file haproxy.pem will be generated and stored in the
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``/etc/kolla/certificates/`` directory, and the CA cert will be in the
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``/etc/kolla/certificates/ca/`` directory.
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Adding CA Certificates to the Service Containers
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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To copy CA certificate files to the service containers
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.. code-block:: yaml
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kolla_copy_ca_into_containers: "yes"
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When ``kolla_copy_ca_into_containers`` is configured to "yes", the
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CA certificate files in /etc/kolla/certificates/ca will be copied into
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service containers to enable trust for those CA certificates. This is required
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for any certificates that are either self-signed or signed by a private CA,
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and are not already present in the service image trust store.
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All certificate file names will have the "kolla-customca-" prefix prepended to
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it when it is copied into the containers. For example, if a certificate file is
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named "internal.crt", it will be named "kolla-customca-internal.crt" in the
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containers.
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For Debian and Ubuntu containers, the certificate files will be copied to
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the ``/usr/local/share/ca-certificates/`` directory.
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For Centos and Red Hat Linux containers, the certificate files will be copied
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to the ``/etc/pki/ca-trust/source/anchors/`` directory.
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In addition, the ``openstack_cacert`` should be configured with the path to
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the cacert in the container. For example, if the self-signed certificate task
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was used and the deployment is on ubuntu, the path would be:
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"/etc/pki/ca-trust/source/anchors/kolla-customca-haproxy-internal.crt"
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Configuration of TLS is now covered :doc:`here <tls>`.
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.. _service-config:
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@ -6,6 +6,7 @@ Admin Guides
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:maxdepth: 2
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advanced-configuration
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tls
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mariadb-backup-and-restore
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production-architecture-guide
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deployment-philosophy
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128
doc/source/admin/tls.rst
Normal file
128
doc/source/admin/tls.rst
Normal file
@ -0,0 +1,128 @@
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===
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TLS
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===
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An additional endpoint configuration option is to enable or disable
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TLS protection for the internal and/or external VIP. TLS allows a client to
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authenticate the OpenStack service endpoint and allows for encryption of the
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requests and responses.
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The configuration variables that control TLS networking are:
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- kolla_enable_tls_external
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- kolla_external_fqdn_cert
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- kolla_enable_tls_internal
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- kolla_internal_fqdn_cert
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.. note::
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If TLS is enabled only on the internal or the external network
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the kolla_internal_vip_address and kolla_external_vip_address must
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be different.
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If there is only a single network configured in your network topology
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(opposed to configuring seperate internal and external networks), TLS
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can be enabled using only the internal network configuration variables.
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The default for TLS is disabled, to enable TLS networking:
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|
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.. code-block:: yaml
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kolla_enable_tls_external: "yes"
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kolla_external_fqdn_cert: "{{ kolla_certificates_dir }}/mycert.pem"
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and/or
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kolla_enable_tls_internal: "yes"
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kolla_internal_fqdn_cert: "{{ kolla_certificates_dir }}/mycert-internal.pem"
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.. note::
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TLS authentication is based on certificates that have been
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signed by trusted Certificate Authorities. Examples of commercial
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CAs are Comodo, Symantec, GoDaddy, and GlobalSign. Letsencrypt.org
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is a CA that will provide trusted certificates at no charge. Many
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company's IT departments will provide certificates within that
|
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company's domain. If using a trusted CA is not possible for your
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situation, you can use `OpenSSL <https://www.openssl.org>`__
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to create your own company's domain or see the section below about
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kolla generated self-signed certificates.
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Two certificate files are required to use TLS securely with authentication.
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These two files will be provided by your Certificate Authority. These
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two files are the server certificate with private key and the CA certificate
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with any intermediate certificates. The server certificate needs to be
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installed with the kolla deployment and is configured with the
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``kolla_external_fqdn_cert`` or ``kolla_internal_fqdn_cert`` parameter.
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If the server certificate provided is not already trusted by the client,
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then the CA certificate file will need to be distributed to the client.
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When using TLS to connect to a public endpoint, an OpenStack client will
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have settings similar to this:
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.. code-block:: shell
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export OS_PROJECT_DOMAIN_ID=default
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export OS_USER_DOMAIN_ID=default
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export OS_PROJECT_NAME=demo
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export OS_USERNAME=demo
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export OS_PASSWORD=demo-password
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export OS_AUTH_URL=https://mykolla.example.net:5000
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# os_cacert is optional for trusted certificates
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export OS_CACERT=/etc/pki/ca/mykolla-cacert.crt
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export OS_IDENTITY_API_VERSION=3
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Self-Signed Certificates
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~~~~~~~~~~~~~~~~~~~~~~~~
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.. note::
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Self-signed certificates should never be used in production.
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It is not always practical to get a certificate signed by a well-known
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trust CA, for example a development or internal test kolla deployment. In
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these cases it can be useful to have a self-signed certificate to use.
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|
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For convenience, the ``kolla-ansible`` command will generate the necessary
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certificate files based on the information in the ``globals.yml``
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configuration file:
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.. code-block:: console
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kolla-ansible certificates
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The certificate file haproxy.pem will be generated and stored in the
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``/etc/kolla/certificates/`` directory, and the CA cert will be in the
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``/etc/kolla/certificates/ca/`` directory.
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|
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Adding CA Certificates to the Service Containers
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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|
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To copy CA certificate files to the service containers
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|
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.. code-block:: yaml
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kolla_copy_ca_into_containers: "yes"
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When ``kolla_copy_ca_into_containers`` is configured to "yes", the
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CA certificate files in /etc/kolla/certificates/ca will be copied into
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service containers to enable trust for those CA certificates. This is required
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for any certificates that are either self-signed or signed by a private CA,
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and are not already present in the service image trust store.
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|
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All certificate file names will have the "kolla-customca-" prefix prepended to
|
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it when it is copied into the containers. For example, if a certificate file is
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named "internal.crt", it will be named "kolla-customca-internal.crt" in the
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containers.
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For Debian and Ubuntu containers, the certificate files will be copied to
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the ``/usr/local/share/ca-certificates/`` directory.
|
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|
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For Centos and Red Hat Linux containers, the certificate files will be copied
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to the ``/etc/pki/ca-trust/source/anchors/`` directory.
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|
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In addition, the ``openstack_cacert`` should be configured with the path to
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the cacert in the container. For example, if the self-signed certificate task
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||||
was used and the deployment is on ubuntu, the path would be:
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"/etc/pki/ca-trust/source/anchors/kolla-customca-haproxy-internal.crt"
|
||||
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