Merge "SEBA-786 Update Helm chart documentation"
diff --git a/SUMMARY.md b/SUMMARY.md
index 68567e9..ee5862e 100644
--- a/SUMMARY.md
+++ b/SUMMARY.md
@@ -86,6 +86,7 @@
             * [Delete an OLT](profiles/seba/operate/olt-ops.md)
             * [Runtime configuration](profiles/seba/operate/config-ops.md)
             * [Add a cross-connect in the AGG switch](profiles/seba/operate/agg-ops.md)
+            * [Command-line Management Tools](profiles/seba/operate/cordctl.md)
             * [Try a new version of *](profiles/seba/operate/k8s-helm-ops.md)
         * [Known Issues](profiles/seba/known-issues.md)
         * Troubleshoot (FAQ)
@@ -108,9 +109,7 @@
     * [vRouter](vrouter/README.md)
     * [AT&T Workflow Driver](att-workflow-driver/README.md)
     * [Kubernetes](kubernetes-service/kubernetes-service.md)
-    * [OpenStack](openstack/openstack-service.md)
     * [SimpleExampleService](simpleexampleservice/simple-example-service.md)
-    * [VTN](vtn-service/README.md)
 * [Helm Reference](charts/helm.md)
     * [Base Kubernetes](charts/base-kubernetes.md)
     * [BBSim](charts/bbsim.md)
diff --git a/profiles/seba/operate/cordctl.md b/profiles/seba/operate/cordctl.md
new file mode 100644
index 0000000..0460a2c
--- /dev/null
+++ b/profiles/seba/operate/cordctl.md
@@ -0,0 +1,177 @@
+# Command-line management of a SEBA Pod
+
+SEBA includes a tool named `cordctl` that may be used for command-line management of the pod.
+
+## Installation and Configuration
+
+This tool is installed on the operator's computer as a single binary. Binaries are available for multiple platforms, including Linux (AMD and ARM), Darwin, and Windows. Start by finding the binary appropriate to your computer by visiting the [cordctl release page](https://github.com/opencord/cordctl/releases).
+
+
+![cordctl release page](./screenshots/cordctl-releases.png)
+
+One way to download the binary is by clicking the appropriate link in your web browser and saving the file. Another method is to copy the link and use `curl` in a shell session to download the binary. We will assume for the sake of this tutorial that you're using a Linux AMD64 workstation.
+
+```bash
+sudo curl -sSL https://github.com/opencord/cordctl/releases/download/1.1.2/cordctl-linux-amd64 -o /usr/local/bin/cordctl
+sudo chmod a+x /usr/local/bin/cordctl
+```
+
+You can verify the binary is installed correctly by using the `version` command:
+
+```bash
+$ cordctl version --client-only
+Client:
+ Version         1.1.2
+ Go version:     go1.12
+ Git commit:     1a86568
+ Git dirty:      false
+ Built:          2019-07-09T15:12:28Z
+ OS/Arch:        linux/amd64
+```
+
+Note that we used the `--client-only` flag because we have not yet configured `cordctl` with the address of our SEBA pod. We'll do that next. You'll need to know the IP address or hostname of your SEBA pod and the username and password used to access XOS on that pod. For the sake of this tutorial, we'll assume a hostname of `mysebapod`, a username of `admin@opencord.org` and a password of `letmein`.
+
+```bash
+$ cordctl -u admin@opencord.org -p letmein -s mysebapod:30011 version
+Client:
+ Version         1.1.2
+ Go version:     go1.12
+ Git commit:     1a86568
+ Git dirty:      false
+ Built:          2019-07-09T15:12:28Z
+ OS/Arch:        linux/amd64
+
+Server:
+ Version         3.3.1
+ Python version: 2.7.16
+ Django version: 1.11.22.final.0
+ Git commit:     bb1725739c7949a4ed0a86b18cdb6d707779244f
+ Built:          2019-07-09T15:
+```
+
+As we can see, `cordctl` has retrieved information about the server. This confirms that it is successfully talking to a SEBA pod. Rather than having to specify the username, password, and server for every `cordctl` command, we can create a config file that has this information in it:
+
+```bash
+mkdir -p ~/.cord
+cordctl -u admin@opencord.org -p letmein -s mysebapod:30011 config > ~/.cord/config
+```
+
+Once this is done, we no longer need to specify those arguments:
+
+```bash
+$ cordctl version
+Client:
+ Version         1.1.2
+ Go version:     go1.12
+ Git commit:     1a86568
+ Git dirty:      false
+ Built:          2019-07-09T15:12:28Z
+ OS/Arch:        linux/amd64
+
+Server:
+ Version         3.3.1
+ Python version: 2.7.16
+ Django version: 1.11.22.final.0
+ Git commit:     bb1725739c7949a4ed0a86b18cdb6d707779244f
+ Built:          2019-07-09T15:
+```
+
+## Listing the service directory
+
+A useful cordctl command is to see the set of services that are installed. For example,
+
+```bash
+$ cordctl service list
+NAME                   VERSION    STATE
+fabric                 2.2.2      present
+onos                   2.1.2      present
+kubernetes             1.3.1      present
+volt                   2.2.4      present
+att-workflow-driver    1.2.3      present
+fabric-crossconnect    1.2.2      present
+rcord                  1.3.2      present
+core                   3.3.1      present
+```
+
+We can see that a typical stack of XOS SEBA services are present, including the att-workflow-driver service, the volt service, and the rcord service. The services are all present, and the versions are listed.
+
+## Interacting with models
+
+`cordctl` has several commands for interacting with models. Let's see how we might accomplish a common SEBA workflow such as disabling an ONU using `cordctl`. First lets see what ONUs are known to the pod:
+
+```bash
+$ cordctl model list ONUDevice
+ID    ADMIN_STATE    DEVICE_TYPE    PON_PORT_ID    SERIAL_NUMBER    VENDOR
+1     ENABLED        ponsim_onu     1              PSMO00000000     ponsim
+```
+
+This particular pod is a Seba-in-a-Box pod and it has one ONU available, and that ONU has a serial number of `PSMO00000000`. Now let's disable that ONU:
+
+```bash
+$ cordctl model update ONUDevice --filter serial_number=PSMO00000000 --set-field admin_state=ADMIN_DISABLED
+ID    MESSAGE
+1     Updated
+```
+
+If we look at the ONU again, we can see it has been administratively disabled:
+
+```bash
+$ cordctl model list ONUDevice
+ID    ADMIN_STATE       DEVICE_TYPE    PON_PORT_ID    SERIAL_NUMBER    VENDOR
+1     ADMIN_DISABLED    ponsim_onu     1              PSMO00000000     ponsim
+```
+
+You can also create new objects using `cordctl`. For example, let's add a serial number to the white list. First we have to take a short side trip to get the service identifier of the AttWorkflowDriverService:
+
+```bash
+$ cordctl model list Service --filter name=att-workflow-driver
+ID    DESCRIPTION    KIND    NAME                   SERVICE_SPECIFIC_ID    VERSIONNUMBER
+1                    oss     att-workflow-driver
+```
+
+The ID is `1`, we'll need to specify that ID as the `owner_id` when creating our white list entry. We're now ready to create the white list entry:
+
+```bash
+$ cordctl model create AttWorkflowDriverWhiteListEntry --set-field pon_port_id=3,serial_number=1234,device_id=5678,owner_id=1
+ID    MESSAGE
+2     Created
+```
+
+Note that we invented a pon_port_id, serial_number, and device_id. In a real SEBA pod, use the actual values relevant to the ONU that you're intending to add to the white list.
+
+Deleting the white list entry is straightforward:
+
+```bash
+$ cordctl model delete AttWorkflowDriverWhiteListEntry --filter serial_number=1234
+ID    MESSAGE
+2     Deleted
+```
+
+## Backup and Restore
+
+It's possible to backup and restore the XOS data model using `cordctl`. To backup, do the following:
+
+```bash
+$ cordctl backup create mybackup
+Waiting for sync oooooooooooooooooooooooooooooooooooo........................................................................................................................................................................................................................................................................................................................
+Status: created
+URI file:///var/run/xos/backup/local/autogenerated-file-2019-07-09-21-03-41
+Downloading mybackup
+STATUS     CHECKSUM                                                                   CHUNKS    BYTES
+SUCCESS    sha256:e33122596821a138080f522c75ee72dbb5179310a53352fc10cdf9443dc38d91    6         375656
+```
+
+This will backup the data model and place that backup in a local file called `mybackup`. If you want to restore the backup at a later time, then use the following example:
+
+```bash
+$ cordctl backup restore mybackup
+Created backup file 4
+Created backup-restore operation id=4 uuid=b3d4db88-04ae-444e-be19-2d1f6d4ede56
+Waiting for completion ooooooooooooooooooo........................................................................................................................................................................................................................................................................................................................................................x
+STATUS     CHECKSUM                                                                   CHUNKS    BYTES
+SUCCESS    sha256:e33122596821a138080f522c75ee72dbb5179310a53352fc10cdf9443dc38d91    6         375656
+```
+
+## Getting more information
+
+This short tutorial only demonstrates part of `cordctl`'s functionality. For more information, see the [cordctl documentation](../../../cordctl).
diff --git a/profiles/seba/operate/onu-ops.md b/profiles/seba/operate/onu-ops.md
index a54b73e..0f0a53b 100644
--- a/profiles/seba/operate/onu-ops.md
+++ b/profiles/seba/operate/onu-ops.md
@@ -11,7 +11,9 @@
 ## Enable/Disable an ONU
 
 Once you are in the ONU details view, you can just change it's `Admin State`
-to enable or disable the device.
+to `ENABLED` if you wish the device to be enabled, or `ADMIN_DISABLED` if
+you wish the device to be administratively disabled. Avoid manunally setting
+the state to `DISABLED` as the workflow may toggle it back to `ENABLED`.
 
 ![ONU Detail view in XOS](./screenshots/onu_detail_view.png "ONU Detail view in XOS")
 
diff --git a/profiles/seba/operate/screenshots/cordctl-releases.png b/profiles/seba/operate/screenshots/cordctl-releases.png
new file mode 100644
index 0000000..226bc6f
--- /dev/null
+++ b/profiles/seba/operate/screenshots/cordctl-releases.png
Binary files differ