Deploy a Virtual Container Host with a Volume Store and vSphere Integrated Containers Registry Access

It is possible deploy a very basic virtual container host (VCH) with a minimal configuration for testing purposes. For example, configuring access to an image registry or designating a volume store is not mandatory when you deploy a VCH. For an example of the most minimal possible deployment, without registry access or a volume store, see Deploy a VCH to an ESXi Host with No vCenter Server.

However, in real-world deployments, you usually need to access private registries, and commonly used container images very often need to create volumes. Consequently, to create a useful test VCH, you should configure it for private registry access and add at least one volume store. In environments in which DHCP is not available, you must also configure a static IP address for the VCH endpoint VM on at least the public network.

This example shows how to use both the Create Virtual Container Host wizard and vic-machine to create a VCH with the following configuration:

  • A static IP address for the VCH endpoint VM on the public network.
  • A volume store named default, in which containers can create anonymous volumes.
  • Access to a vSphere Integrated Containers Registry instance, from which to pull images.

For simplicity, this example deploys a VCH without client certificate verification, so that container application developers do not need to use a TLS certificate to connect a Docker client to the VCH. However, the connection between the VCH and the registry still requires certificate authentication, so you must download the root certificate for vSphere Integrated Containers Registry and upload it to the VCH.

NOTE: If this is the first time that you are deploying a VCH, it is recommended to use the Create Virtual Container Host wizard rather than vic-machine.

Prerequisites

Create VCH Wizard

  1. Log in to the HTML5 vSphere Client, click the vSphere Client logo in the top left corner, and click vSphere Integrated Containers.
  2. Click vSphere Integrated Containers in the main panel, select the Virtual Container Hosts tab, and click + New Virtual Container Host.
  3. On the General Settings page, enter a name for the VCH, for example, test_vch, and click Next.
  4. On the Compute Capacity page, expand the Compute resource inventory hierarchy, select the cluster on to which to deploy the VCH, and click Next.
  5. On the Storage Capacity page, select a datastore to use as the Image Datastore.
  6. Remain on the Storage Capacity page and configure the volume datastore. 1. Set the Enable anonymous volumes switch to the green ON position. 2. Select a datastore to use as a volume datastore. This does not have to be the same datastore as you used for the image store. 3. Optionally provide the path to a folder in that datastore. 4. Click Next.

  7. On the Configure Networks page, select the existing vic-bridge and vic-public port groups for use as the bridge and public networks.

  8. Remain on the Configure Networks page and configure a static IP address for the VCH endpoint VM on the public network. 1. Select the Static radio button. 2. Enter an IP address with a network mask in the IP Address text box, for example 192.168.1.10/24. 3. Enter the IP address of the gateway in the Gateway text box, for example 192.168.0.1. 4. Enter a comma-separated list of DNS server addresses in the DNS server text box, for example 192.168.10.10,192.168.10.11. 5. Click Next.

  9. On the Security page, for simplicity, set the Client Certificates switch to the gray OFF position to disable client certificate verification, leave the default options for automatic server certificate generation, and click Next.

  10. On the Registry Access page, under Additional registry certificates, click Select to upload the certificate for vSphere Integrated Containers Registry, then click Next.
  11. On the Operations User page, enter the user name and password for an existing vSphere account, select the Grant this user any necessary permissions check box, and click Next.
  12. On the Summary page, scroll down to view the generated vic-machine create command, and optionally copy it for future use.
  13. Click Finish.

Result

At the end of a successful deployment, the Virtual Container Hosts tab displays connection information for the new VCH.

vic-machine Command

  1. Open a terminal on the system on which you downloaded and unpacked the vSphere Integrated Containers Engine binary bundle.
  2. Navigate to the directory that contains the vic-machine utility:
  3. Run the vic-machine create command that corresponds to your working system.

    In these examples, the user name is wrapped in quotes because it contains @. The password is also wrapped in quotes because passwords usually contain special characters. Note that you use single quotes on Linux and Mac OS, and double quotes on Windows.

    • Linux:
      vic-machine-linux create \
      --target vcenter_server_address/dc1 \
      --user 'Administrator@vsphere.local' \
      --password 'p@ssword123!' \
      --compute-resource cluster1 \
      --image-store datastore1 \
      --bridge-network vch-bridge \
      --public-network vic-public \
      --public-network-ip 192.168.1.10/24 \
      --public-network-gateway 192.168.0.1 \
      --dns-server 192.168.10.10 \
      --dns-server 192.168.10.11 \
      --name test_vch \
      --thumbprint vcenter_server_certificate_thumbprint \
      --no-tlsverify \
      --registry-ca cert_path/ca.crt \
      --volume-store datastore2:default
      </pre>
      
    • Windows:
      vic-machine-windows create ^
      --target vcenter_server_address/dc1 ^ 
      --user "Administrator@vsphere.local" ^ 
      --password "p@ssword123!" ^ 
      --compute-resource cluster1 ^
      --image-store datastore1 ^
      --bridge-network vch-bridge ^
      --public-network vic-public ^
      --public-network-ip 192.168.1.10/24 ^
      --public-network-gateway 192.168.0.1 ^
      --dns-server 192.168.10.10 ^
      --dns-server 192.168.10.11 ^
      --name test_vch ^
      --thumbprint vcenter_server_certificate_thumbprint ^
      --no-tlsverify ^
      --registry-ca cert_path/ca.crt ^
      --volume-store datastore2:default
      </pre>
      
    • Mac OS:
      vic-machine-darwin create \
      --target vcenter_server_address/dc1 \
      --user 'Administrator@vsphere.local' \
      --password 'p@ssword123!' \
      --compute-resource cluster1
      --image-store datastore1
      --bridge-network vch-bridge
      --public-network vic-public
      --public-network-ip 192.168.1.10/24 \
      --public-network-gateway 192.168.0.1 \
      --dns-server 192.168.10.10 \
      --dns-server 192.168.10.11 \
      --name test_vch \
      --thumbprint vcenter_server_certificate_thumbprint \
      --no-tlsverify \
      --registry-ca cert_path/ca.crt \
      --volume-store datastore2:default
      </pre>
      

The vic-machine create command in this example specifies the following options:

  • The address of the vCenter Server instance on which to deploy the VCH and datacenter dc1 in the --target option.
  • The vCenter Single Sign-On user and password for a vSphere administrator account in the --user and --password options.
  • The cluster cluster1, as the location in the vCenter Server inventory in which to deploy the VCH.
  • The port group named vic-bridge, for use as the container bridge network.
  • The port group named vic-public, for use as the public network.
  • A static IP address with a network mask for the VCH endpoint VM on the public network in the --public-network-ip option, along with the addresses for the gateway and two DNS servers in the --public-network-gateway and --dns-server options.
  • The shared datastore named datastore1, for use as the image store, in which to store container images, in the --image-store option.
  • For simplicity, disables the verification of client certificates by specifying the --no-tlsverify option.
  • Names the VCH test_vch in the --name option.
  • The thumbprint of the vCenter Server host certificate by specifying the --thumbprint option.
  • The path to the certificate for vSphere Integrated Containers Registry in the --registry-ca option
  • A volume store named default in the --volume-store option. In this example, the datastore to use as the volume store is datastore2 that is not the same datastore as is used for the image store.

You could also specify --volume-store nfs://nfs_server/path_to_share_point:default to designate an NFS share point as the default volume store.

Result

At the end of a successful deployment, vic-machine displays information about the new VCH:

Initialization of appliance successful
VCH ID: vch_id
VCH Admin Portal:
https://vch_address:2378
Published ports can be reached at:
vch_address
Docker environment variables:
DOCKER_HOST=vch_address:2376
Environment saved in test_vch/test_vch.env
Connect to docker:
docker -H vch_address:2376 --tls info
Installer completed successfully

Now you can Test the Deployment of the VCH.

Troubleshooting

If you see errors during deployment, see Troubleshoot Virtual Container Host Deployment.

For information about how to access VCH logs, including the deployment log, see Access Virtual Container Host Log Bundles.

Test the Deployment of the VCH

After you deploy a VCH, you can pull container images from a public repository, such as Docker Hub, and deploy container VMs from them in the VCH. In this way, you can see how deploying and running container VMs affects your vSphere environment.

You can also use vSphere Integrated Containers Management Portal and Registry to test your VCH. This version of vSphere Integrated Containers includes an image repository named dch-photon, that is pre-loaded in the default-project in vSphere Integrated Containers Registry. The dch-photon image requires that the VCHs on which it is deployed have a specific minimum configuration:

  • The VCH must be able to pull the dch-photon image from the vSphere Integrated Containers Registry instance. You must provide the registry's CA certificate to the VCH so that it can connect to the registry.
  • A dch-photon container creates an anonymous volume, and as such requires a volume store named default.

The VCH that you deployed in the Example above meets these requirements, so you can use the dch-photon image to test it.

This example uses the dch-photon image for demonstration purposes only. For information about how container developers can actually use dch-photon, see Building and Pushing Images with the dch-photon Docker Engine in Developing Applications with vSphere Integrated Containers.

vSphere Integrated Containers 1.5.x supports dch-photon version 17.06.

Procedure

  1. Log in to the vSphere Client, go to Hosts and Clusters, and select the cluster on which you deployed the VCH.

    You should see a resource pool with the name that you set for the VCH. The resource pool contains the VCH endpoint VM.

  2. In a Docker client, run the docker info command to confirm that you can connect to the VCH.

    docker -H vch_address:2376 --tls info

    You should see confirmation that the Storage Driver is vSphere Integrated Containers Backend Engine.

  3. In your Docker client terminal, pull a Docker container image from Docker Hub into the VCH.

    For example, pull the BusyBox container image.

    docker -H vch_address:2376 --tls pull busybox

  4. In the vSphere Client, go to Storage, right-click the datastore that you designated as the image store, and select Browse Files.

    You should see that vSphere Integrated Containers Engine has created a folder that has the same name as the VCH. This folder contains the VCH endpoint VM files and a folder named VIC. Expand this folder and navigate to the images folder. The images folder contains folders for each container image that you pull into the VCH. The folders contain the container image files.

  5. In your Docker client terminal, run the container that you pulled into the VCH.

    docker -H vch_address:2376 --tls run --name test busybox

  6. In the vSphere Client, go to Hosts and Clusters and expand the VCH resource pool.

    You should see a VM named test-container_id. This is the container VM that you created from the BusyBox image.

  7. In the vSphere Client, go to Storage and select the datastore that you designated as the image store.

    At the top-level of the datastore, you should see a folder that uses the container ID as its name. The folder contains the files for the container VM that you just created.

  8. In a browser, log in to the vSphere Integrated Containers Management Portal at https://vic_appliance_address with a vSphere administrator, Management Portal administrator, or DevOps administrator user account.

  9. Select Home and make sure that the Project drop-down menu is set to default-project.
  10. Under Infrastructure, select Container Hosts and click +Container Host to register the VCH with the management portal.

    1. Enter a name for the VCH, for example, test-vch.
    2. Leave Type set to VCH.
    3. For URL, enter the address of the VCH in the format https://vch_ip_address:2376, click Save, and click Yes to accept the VCH certificate.
  11. Under Deployments, select Containers and click +Container. 1. Type dch in the Image search box and select the dch-photon image that is pre-loaded in vSphere Integrated Containers Registry:

    vic_appliance_address:443/default-project/dch-photon
    2. Click in the Search for tags box and select 17.06. 3. Enter a name for the container VM, for example dch-photon-test, and click Provision.

    If the dch-photon-test container deploys correctly, it shows up as running in the Containers view, alongside the stopped test container that you ran in the VCH from the Docker client.

  12. Go back to the vSphere Client, navigate to the vSphere Integrated Containers view, and select the Containers tab.

    You should see the dch-photon-test container in the list of container VMs that are running in this vCenter Server instance.

  13. Go to Hosts and Clusters and expand the resource pool for the test_vch VCH.

    You should see the dch-photon-test container VM running in the resource pool.

  14. Go back to Storage, right-click the datastore that you designated as the volume store, and select Browse Files.

    You should see that vSphere Integrated Containers Engine has created a folder named VIC at the top level of the datastore. This folder contains a subfolder named volumes, that contains folders for the volumes created by the dch-photon container VM. These folders contain the VDMK files for those volumes.

What to Do Next

The VCH and the dch-photon container VM are ready for container developers to use. For information about how developers connect to vSphere Integrated Containers Registry from Docker clients, and how they can use dch-photon, see the following topics in Developing Applications with vSphere Integrated Containers:

results matching ""

    No results matching ""