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***********************
Advanced Configurations
-***********************
\ No newline at end of file
+***********************
+
+.. contents:: On this page
+ :depth: 2
+ :local:
+ :backlinks: none
+
+=====================================================
+Network Operator Deployment with Admission Controller
+=====================================================
+
+The Admission Controller can be optionally included as part of the Network Operator installation process. It has the capability to validate supported Custom Resource Definitions (CRDs), which currently include NicClusterPolicy and HostDeviceNetwork.
+By default, the deployment of the admission controller is disabled. To enable it, you must set ``operator.admissionController.enabled`` to ``true``.
+
+Enabling the admission controller provides you with two options for managing certificates. You can either utilize the `cert-manager `_ for generating a self-signed certificate automatically, or, alternatively, provide your own self-signed certificate.
+
+To use cert-manager, ensure that ``operator.admissionController.useCertManager`` is set to ``true``. Additionally, make sure that you deploy the cert-manager before initiating the Network Operator deployment.
+
+If you prefer not to use the cert-manager, set ``operator.admissionController.useCertManager`` to ``false``, and then provide your custom certificate and key using ``operator.admissionController.certificate.tlsCrt`` and ``operator.admissionController.certificate.tlsKey``.
+
+.. warning::
+ When using your own certificate, the certificate must be valid for ``-webhook-service..svc``, e.g. ``network-operator-webhook-service.nvidia-network-operator.svc``.
+
+
+=======================================================
+Network Operator Deployment with Pod Security Admission
+=======================================================
+
+The `Pod Security admission `_ controller replaces PodSecurityPolicy, enforcing predefined Pod Security Standards by adding a label to a namespace.
+
+There are three levels defined by the `Pod Security Standards `_ : ``privileged`` , ``baseline`` and ``restricted``.
+
+.. warning::
+ In case you wish to enforce a PSA to the Network Operator namespace, the ``privileged`` level is required. Enforcing ``baseline`` or ``restricted`` levels will prevent the creation of required Network Operator pods.
+
+If required, enforce PSA privileged level on the Network Operator namespace by running:
+
+.. code-block:: bash
+
+ kubectl label --overwrite ns nvidia-network-operator pod-security.kubernetes.io/enforce=privileged
+
+In case that baseline or restricted levels are being enforced on the Network Operator namespace, events for pods creation failures will be triggered:
+
+.. code-block:: bash
+
+ kubectl get events -n nvidia-network-operator --field-selector reason=FailedCreate
+ LAST SEEN TYPE REASON OBJECT MESSAGE
+ 2m36s Warning FailedCreate daemonset/mofed-ubuntu22.04-ds Error creating: pods "mofed-ubuntu22.04-ds-rwmgs" is forbidden: violates PodSecurity "baseline:latest": host namespaces (hostNetwork=true), hostPath volumes (volumes "run-mlnx-ofed", "etc-network", "host-etc", "host-usr", "host-udev"), privileged (container "mofed-container" must not set securityContext.privileged=true)
+
+
+==================================================
+Network Operator Deployment in a Proxy Environment
+==================================================
+
+This section describes how to successfully deploy the Network Operator in clusters behind an HTTP Proxy. By default, the Network Operator requires internet access for the following reasons:
+
+ - Container images must be pulled during the NVIDIA Network Operator installation.
+ - The driver container must download several OS packages prior to the driver installation.
+
+To address these requirements, all Kubernetes nodes, as well as the driver container, must be properly configured in order to direct traffic through the proxy.
+
+This section demonstrates how to configure the NVIDIA Network Operator, so that the driver container could successfully download packages behind an HTTP proxy. Since configuring Kubernetes/container runtime components for proxy use is not specific to the Network Operator, those instructions are not detailed here.
+
+.. warning::
+ If you are not running OpenShift, please skip the section titled HTTP Proxy Configuration for OpenShift, as Openshift configuration instructions are different.
+
+-------------
+Prerequisites
+-------------
+
+Kubernetes cluster is configured with HTTP proxy settings (container runtime should be enabled with HTTP proxy).
+
+--------------------------------------
+HTTP Proxy Configuration for Openshift
+--------------------------------------
+
+For Openshift, it is recommended to use the cluster-wide Proxy object to provide proxy information for the cluster.
+Please follow the procedure described in `Configuring the Cluster-wide Proxy `_ via the Red Hat Openshift public documentation. The NVIDIA Network Operator will automatically inject proxy related ENV into the driver container, based on the information present in the cluster-wide Proxy object.
+
+------------------------
+HTTP Proxy Configuration
+------------------------
+
+Specify the ``ofedDriver.env`` in your ``values.yaml`` file with appropriate ``HTTP_PROXY``, ``HTTPS_PROXY``, and ``NO_PROXY`` environment variables (in both uppercase and lowercase).
+
+.. code-block:: yaml
+
+ ofedDriver:
+ env:
+ - name: HTTPS_PROXY
+ value: http://
+ - name: HTTP_PROXY
+ value: http://
+ - name: NO_PROXY
+ value:
+ - name: https_proxy
+ value: http://
+ - name: http_proxy
+ value: http://
+ - name: no_proxy
+ value:
+
+
+========================================================
+Network Operator Deployment in an Air-gapped Environment
+========================================================
+
+This section describes how to successfully deploy the Network Operator in clusters with restricted internet access.
+By default, the Network Operator requires internet access for the following reasons:
+
+ - The container images must be pulled during the Network Operator installation.
+ - The OFED driver container must download several OS packages prior to the driver installation.
+
+To address these requirements, it may be necessary to create a local image registry and/or a local package repository, so that the necessary images and packages will be available for your cluster.
+Subsequent sections of this document detail how to configure the Network Operator to use local image registries and local package repositories.
+If your cluster is behind a proxy, follow the steps listed in Network Operator Deployment in Proxy Environments.
+
+--------------------
+Local Image Registry
+--------------------
+
+Without internet access, the Network Operator requires all images to be hosted in a local image registry that is accessible to all nodes in the cluster.
+To allow Network Operator to work with a local registry, users can specify local repository, image, tag along with pull secrets in the ``values.yaml`` file.
+
+--------------------------------------------------------
+Pulling and Pushing Container Images to a Local Registry
+--------------------------------------------------------
+
+To pull the correct images from the NVIDIA registry, you can leverage the fields ``repository``, ``image`` and ``version`` specified in the ``values.yaml`` file.
+
+------------------------
+Local Package Repository
+------------------------
+
+.. warning::
+ The instructions below are provided as reference examples to set up a local package repository for NVIDIA Network Operator.
+
+The OFED driver container deployed as part of the Network Operator requires certain packages to be available for the driver installation. In restricted internet access or air-gapped installations, users are required to create a local mirror repository for their OS distribution, and make the following packages available:
+
+.. code-block::
+
+ ubuntu:
+ linux-headers-${KERNEL_VERSION}
+ linux-modules-${KERNEL_VERSION}
+ rhcos:
+ kernel-headers-${KERNEL_VERSION}
+ kernel-devel-${KERNEL_VERSION}
+ kernel-core-${KERNEL_VERSION}
+ createrepo
+ elfutils-libelf-devel
+ kernel-rpm-macros
+ numactl-libs
+
+
+For Ubuntu, these packages can be found at `archive.ubuntu.com `_, and be used as the mirror that must be replicated locally for your cluster. By using apt-mirror or apt-get download, you can create a full or a partial mirror to your repository server.
+
+For RHCOS, dnf reposync can be used to create the local mirror. This requires an active Red Hat subscription for the supported OpenShift version. For example:
+
+.. code-block:: bash
+
+ dnf --releasever=8.4 reposync --repo rhel-8-for-x86_64-appstream-rpms --download-metadata
+
+Once all the above required packages are mirrored to the local repository, repo lists must be created following distribution specific documentation. A ConfigMap containing the repo list file should be created in the namespace where the NVIDIA Network Operator is deployed.
+
+Following is an example of a repo list for Ubuntu 20.04 (access to a local package repository via HTTP):
+
+``custom-repo.list``:
+
+.. code-block::
+
+ deb [arch=amd64 trusted=yes] http:///ubuntu/mirror/archive.ubuntu.com/ubuntu focal main universe
+ deb [arch=amd64 trusted=yes] http:///ubuntu/mirror/archive.ubuntu.com/ubuntu focal-updates main universe
+ deb [arch=amd64 trusted=yes] http:///ubuntu/mirror/archive.ubuntu.com/ubuntu focal-security main universe
+
+
+Following is an example of a repo list for RHCOS (access to a local package repository via HTTP):
+
+``cuda.repo`` (a mirror of https://developer.download.nvidia.com/compute/cuda/repos/rhel8/x86_64):
+
+.. code-block::
+
+ [cuda]
+ name=cuda
+ baseurl=http:///cuda
+ priority=0
+ gpgcheck=0
+ enabled=1
+
+``redhat.repo``:
+
+.. code-block::
+
+ [baseos]
+ name=rhel-8-for-x86_64-baseos-rpms
+ baseurl=http:///rhel-8-for-x86_64-baseos-rpms
+ gpgcheck=0
+ enabled=1
+ [baseoseus]
+ name=rhel-8-for-x86_64-baseos-eus-rpms
+ baseurl=http:///rhel-8-for-x86_64-baseos-eus-rpms
+ gpgcheck=0
+ enabled=1
+ [rhocp]
+ name=rhocp-4.10-for-rhel-8-x86_64-rpms
+ baseurl=http:///rhocp-4.10-for-rhel-8-x86_64-rpms
+ gpgcheck=0
+ enabled=1
+ [apstream]
+ name=rhel-8-for-x86_64-appstream-rpms
+ baseurl=http:///rhel-8-for-x86_64-appstream-rpms
+ gpgcheck=0
+ enabled=1
+
+``ubi.repo``:
+
+.. code-block::
+
+ [ubi-8-baseos]
+ name = Red Hat Universal Base Image 8 (RPMs) - BaseOS
+ baseurl = http:///ubi-8-baseos
+ enabled = 1
+ gpgcheck = 0
+ [ubi-8-baseos-source]
+ name = Red Hat Universal Base Image 8 (Source RPMs) - BaseOS
+ baseurl = http:///ubi-8-baseos-source
+ enabled = 0
+ gpgcheck = 0
+ [ubi-8-appstream]
+ name = Red Hat Universal Base Image 8 (RPMs) - AppStream
+ baseurl = http:///ubi-8-appstream
+ enabled = 1
+ gpgcheck = 0
+ [ubi-8-appstream-source]
+ name = Red Hat Universal Base Image 8 (Source RPMs) - AppStream
+ baseurl = http:///ubi-8-appstream-source
+ enabled = 0
+ gpgcheck = 0
+
+
+Create the ConfigMap for Ubuntu:
+
+.. code-block:: bash
+
+ kubectl create configmap repo-config -n --from-file=
+
+Create the ConfigMap for RHCOS:
+
+.. code-block:: bash
+
+ kubectl create configmap repo-config -n --from-file=cuda.repo --from-file=redhat.repo --from-file=ubi.repo
+
+Once the ConfigMap is created using the above command, update the ``values.yaml`` file with this information to let the Network Operator mount the repo configuration within the driver container and pull the required packages. Based on the OS distribution, the Network Operator will automatically mount this ConfigMap into the appropriate directory.
+
+.. code-block:: yaml
+
+ ofedDriver:
+ deploy: true
+ repoConfg:
+ name: repo-config
+
+If self-signed certificates are used for an HTTPS based internal repository, a ConfigMap must be created for those certifications and provided during the Network Operator installation. Based on the OS distribution, the Network Operator will automatically mount this ConfigMap into the appropriate directory.
+
+.. code-block:: bash
+
+ kubectl create configmap cert-config -n --from-file= --from-file=
+
+
+.. code-block:: yaml
+
+ ofedDriver:
+ deploy: true
+ certConfg:
+ name: cert-config