NOTE: UAS and UAI are deprecated in CSM 1.5.2 and will be removed in CSM 1.6
UAI Classes provide templates for the creation of UAIs. They permit precise configuration of the behavior, volumes, resources, and other elements of the UAI. When a UAI is created using a UAI Class, it is configured to use exactly what that UAI Class has in it at the time the UAI was created. UIA Classes permit Broker UAIs to create different kinds of UAIs based on the UAI Creation Class setting of the Broker UAI. UAI Classes also provide the foundation on which Broker UAIs are built, defining specific configuration options without which it would not be possible to construct a Broker UAI.
In the Legacy UAI Creation mode, default UAI classes allow the precise configuration of user-created UAIs. This is particularly useful with regard to volumes, since, without a default UAI Class, all user-created UAIs would simply try to attach all configured volumes. Finally, default UAI Classes enable the Legacy UAI Creation mode to access Resource Specifications and other configuration not normally available to user-created UAIs.
This topic describes the content and purpose of the fields in a UAI Class and gives guidance on setting those when creating UAI classes or various kinds.
The following is JSON-formatted example output from the cray uas admin config classes list command (see List Available UAI Classes).
This output contains examples of three UAI classes:
ncn-m001-cray uas admin config classes list --format json
Example output:
[
{
"class_id": "bdb4988b-c061-48fa-a005-34f8571b88b4",
"comment": "UAI Class to Create Brokered End-User UAIs",
"default": false,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"namespace": "user",
"opt_ports": [],
"priority_class_name": "uai-priority",
"public_ip": false,
"replicas": 1,
"resource_config": {
"comment": "Resource Specification to use with Brokered End-User UAIs",
"limit": "{\"cpu\": \"1\", \"memory\": \"1Gi\"}",
"request": "{\"cpu\": \"1\", \"memory\": \"1Gi\"}",
"resource_id": "f26ee12c-6215-4ad1-a15e-efe4232f45e6"
},
"resource_id": "f26ee12c-6215-4ad1-a15e-efe4232f45e6",
"service_account": null,
"timeout": {
"hard": "86400",
"soft": "1800",
"warning": "60"
},
"tolerations": null,
"uai_compute_network": true,
"uai_creation_class": null,
"uai_image": {
"default": true,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"imagename": "registry.local/cray/cray-uai-sles15sp2:1.2.4"
},
"volume_list": [
"11a4a22a-9644-4529-9434-d296eef2dc48",
"a3b149fd-c477-41f0-8f8d-bfcee87fdd0a"
],
"volume_mounts": [
{
"mount_path": "/etc/localtime",
"volume_description": {
"host_path": {
"path": "/etc/localtime",
"type": "FileOrCreate"
}
},
"volume_id": "11a4a22a-9644-4529-9434-d296eef2dc48",
"volumename": "timezone"
},
{
"mount_path": "/lus",
"volume_description": {
"host_path": {
"path": "/lus",
"type": "DirectoryOrCreate"
}
},
"volume_id": "a3b149fd-c477-41f0-8f8d-bfcee87fdd0a",
"volumename": "lustre"
}
]
},
{
"class_id": "d764c880-41b8-41e8-bacc-f94f7c5b053d",
"comment": "UAI broker class",
"default": false,
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"namespace": "uas",
"opt_ports": [],
"priority_class_name": "uai-priority",
"public_ip": true,
"replicas": 3,
"resource_config": null,
"resource_id": null,
"service_account": null,
"timeout": null,
"tolerations": null,
"uai_compute_network": false,
"uai_creation_class": "bdb4988b-c061-48fa-a005-34f8571b88b4",
"uai_image": {
"default": false,
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"imagename": "registry.local/cray/cray-uai-broker:1.2.4"
},
"volume_list": [
"11a4a22a-9644-4529-9434-d296eef2dc48",
"1ec36af0-d5b6-4ad9-b3e8-755729765d76",
"a3b149fd-c477-41f0-8f8d-bfcee87fdd0a"
],
"volume_mounts": [
{
"mount_path": "/etc/localtime",
"volume_description": {
"host_path": {
"path": "/etc/localtime",
"type": "FileOrCreate"
}
},
"volume_id": "11a4a22a-9644-4529-9434-d296eef2dc48",
"volumename": "timezone"
},
{
"mount_path": "/etc/sssd",
"volume_description": {
"secret": {
"default_mode": 384,
"secret_name": "broker-sssd-conf"
}
},
"volume_id": "1ec36af0-d5b6-4ad9-b3e8-755729765d76",
"volumename": "broker-sssd-config"
},
{
"mount_path": "/lus",
"volume_description": {
"host_path": {
"path": "/lus",
"type": "DirectoryOrCreate"
}
},
"volume_id": "a3b149fd-c477-41f0-8f8d-bfcee87fdd0a",
"volumename": "lustre"
}
]
},
{
"class_id": "5eb523ba-a3b7-4a39-ba19-4cfe7d19d296",
"comment": "UAI Class to Create Non-Brokered End-User UAIs",
"default": true,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"namespace": "user",
"opt_ports": [],
"priority_class_name": "uai-priority",
"public_ip": true,
"replicas": 1,
"resource_config": null,
"resource_id": null,
"service_account": null,
"timeout": {
"hard": "86400",
"soft": "1800",
"warning": "60"
},
"tolerations": null,
"uai_compute_network": true,
"uai_creation_class": null,
"uai_image": {
"default": true,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"imagename": "registry.local/cray/cray-uai-sles15sp2:1.2.4"
},
"volume_list": [
"11a4a22a-9644-4529-9434-d296eef2dc48",
"a3b149fd-c477-41f0-8f8d-bfcee87fdd0a"
],
"volume_mounts": [
{
"mount_path": "/etc/localtime",
"volume_description": {
"host_path": {
"path": "/etc/localtime",
"type": "FileOrCreate"
}
},
"volume_id": "11a4a22a-9644-4529-9434-d296eef2dc48",
"volumename": "timezone"
},
{
"mount_path": "/lus",
"volume_description": {
"host_path": {
"path": "/lus",
"type": "DirectoryOrCreate"
}
},
"volume_id": "a3b149fd-c477-41f0-8f8d-bfcee87fdd0a",
"volumename": "lustre"
}
]
}
]
The following selection is the core of a UAI Class configuration:
"class_id": "bdb4988b-c061-48fa-a005-34f8571b88b4",
"comment": "UAI Class to Create Brokered End-User UAIs",
"default": false,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"namespace": "user",
"opt_ports": [],
"priority_class_name": "uai-priority",
"public_ip": false,
"replicas": 1,
"resource_id": "f26ee12c-6215-4ad1-a15e-efe4232f45e6",
"service_account": null,
"timeout": {
"hard": "86400",
"soft": "1800",
"warning": "60"
},
"tolerations": null,
"uai_compute_network": true,
"uai_creation_class": null,
The following table explains each of these fields.
| Field | Description | Notes |
|---|---|---|
class_id |
The identifier used for this class when | This identifier is also used to create UAIs using this class with the cray uas admin uais create command, and by Broker UAI Classes to specify what kind of End-User UAIs to create |
| examining, updating, and deleting the class. | using the uai_creation_class field of Broker UAI Class. |
|
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
comment |
A free-form string describing the UAI class | |
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
default |
A boolean value (flag) indicating whether | When this field is set to true, this class overrides both the default UAI image and any specified image name when the cray uas create command is used to create an End-User UAI |
| this class is the default class. | for a user. Setting a class to "default": true, gives the administrator fine-grain ed control over the behavior of End-User UAIs that are created by authorized users in legacy mode. |
|
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
namespace |
The Kubernetes namespace in which this UAI | The default setting is user. Broker UAIs should be configured to run in the uas namespace. |
| will run. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
opt_ports |
An optional list of TCP port numbers that | This field controls whether services other than SSH can be run and reached publicly on the UAI. If this list is empty (as in this example), only SSH will be externally accessible. |
| will be opened on the external IP address of | In order for any service other than SSH to be publicly reachable the public_ip field must be set to true. |
|
| the UAI when it runs. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
priority_class_name |
The Kubernetes priority class of the UAI. | uai_priority is the default. Using other values affects both Kubernetes default resource limit and request assignments and the Kubernetes scheduling priority for the UAI. |
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
public_ip |
A boolean value that indicates whether the UAI | This field controls whether the UAI is reachable by SSH from external clients, but it also controls whether the ports in opt_ports are reachable. If this field is set to false, the |
| will be given an external IP address from the | UAI will have only an internal IP address, reachable from within the Kubernetes cluster. | |
LoadBalancer service. Such an address |
||
| enables clients outside the Kubernetes cluster | ||
| to reach the UAI. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
replicas |
The number of replica UAI pods to be created | This defaults to 1 and should not be set or should be set to 1 on End-User UAI Classes, since replica UAI pods for End-User UAIs only consume resources and potentially confuse the |
| when a UAI of this class is created. | Broker UAI mechanism. For Broker UAI Classes, however, setting replicas to a larger value establishes both a degree of Broker UAI resiliency and a degree of load balancing, both for |
|
| the purpose increasing network throughput on End-User UAI connections and for the purpose of avoiding overload of a single Broker UAI’s resources. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
resource_id |
The ID of the Resource Specification used by | By configuring a Resource Specification in a UAI Class the default resource requests and limits can be overridden when creating a UAI from that UAI Class. |
| this UAI Class. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
service_account |
An optional Kubernetes Service Account name to | This is normally not set on End-User UAIs or Broker UAIs. It can be used to confer specific Kubernetes Role Based Access Control (RBAC) permissions on UAIs created using a UAI Class. |
| be granted to UAIs using this class. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
timeout |
An optional specification of hard and soft |
If either timeout setting is omitted that timeout will never expire. When a soft timeout, expires, the UAI terminates and is removed if it is or becomes idle, defined as having no |
| timeouts used to control the life-cycle of | logged in user sessions. When a hard timeout expires the UAI is terminated and removed immediately regardless of logged in user sessions. A warning may also be configured, specifying | |
| UAIs created using this UAI Class | the number of seconds before a hard timeout that a warning will be sent to logged in users telling them of impending termination. The example here sets a hard timeout of 24 hours, a | |
| soft timeout of 30 minutes and a warning 60 seconds prior to arriving at the hard timeout. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
tolerations |
An optional list of Kubernetes tolerations | Tolerations and Taints can be used to designate certain Kubernetes Worker NCNs as hosts for UAIs and not for general management plane activities. They can also be used to specify that |
| that can be used in combination with “taints” | UAIs of a given class run only on nodes with specific resources. By default, all UAIs receive a toleration of uai_only=Exists meaning that all UAIs can run on nodes that are tainted |
|
| on Kubernetes worker nodes to permit only UAIs | with a uai_only setting. |
|
| of this class to run on those nodes. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
uai_compute_network |
A flag that indicates whether this UAI uses | This field must be true to support workload management from UAIs created by this class. It should be set to false on Broker UAIs. |
the macvlan mechanism to gain access to the |
||
| HPE Cray EX compute node network. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
uai_creation_class |
A field used in Broker UAI Classes to tell the | This field is not set in the preceding example. |
| Broker UAI what kind of UAI to create when | ||
| automatically creating a UAI. | ||
| ——————— | ———————————————- | —————————————————————————————————————————————————————————————- |
The following image description is provided as a convenience to allow the user to see the image information used when creating UAIs of this class:
"uai_image": {
"default": true,
"image_id": "1996c7f7-ca45-4588-bc41-0422fe2a1c3d",
"imagename": "registry.local/cray/cray-uai-sles15sp2:1.2.4"
},
The following Resource Specification description is provided as a convenience to allow the user to see the resource configuration used when creating UAIs of this UAI Class:
"resource_config": {
"comment": "Resource Specification to use with Brokered End-User UAIs",
"limit": "{\"cpu\": \"1\", \"memory\": \"1Gi\"}",
"request": "{\"cpu\": \"1\", \"memory\": \"1Gi\"}",
"resource_id": "f26ee12c-6215-4ad1-a15e-efe4232f45e6"
},
The following list of volume descriptions is provided as a convenience to allow the user to see the specific volume configuration used when creating UAIs of this class:
"volume_mounts": [
{
"mount_path": "/etc/localtime",
"volume_description": {
"host_path": {
"path": "/etc/localtime",
"type": "FileOrCreate"
}
},
"volume_id": "11a4a22a-9644-4529-9434-d296eef2dc48",
"volumename": "timezone"
},
{
"mount_path": "/lus",
"volume_description": {
"host_path": {
"path": "/lus",
"type": "DirectoryOrCreate"
}
},
"volume_id": "a3b149fd-c477-41f0-8f8d-bfcee87fdd0a",
"volumename": "lustre"
}
]
Refer to Elements of a UAI for a full explanation of UAI images, Resource Specifications and volumes.
In the preceding section of output, the End-User UAI inherits the timezone from the host node by importing /etc/localtime. This UAI also gains access to the Lustre file system mounted on the host node.
On the host node, the file system is mounted at /lus and the UAI mounts the file system at the same mount point as the host node.
Notice the following settings in the Broker UAI class example above:
"default": false,
...
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"namespace": "uas",
...
"public_ip": true,
"replicas": 3,
...
"timeout": null,
...
"uai_compute_network": false,
"uai_creation_class": "bdb4988b-c061-48fa-a005-34f8571b88b4",
"uai_image": {
"default": false,
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"imagename": "registry.local/cray/cray-uai-broker:1.2.4"
},
Usually a site will not want or need to set a Broker UAI’s default flag to true because Broker UAIs will be administratively launched, not launched through the legacy mode UAI management procedure.
A Broker UAI runs in a special image that knows how to authenticate multiple users, find or create End-User UAIs on behalf of those users, and forward SSH connections to those End-User UAIs. HPE provides a Broker UAI image with this logic built into it.
uasBroker UAIs run in the uas namespace which is configured to set up pods with access to the API gateway.
This is needed by Broker UAIs so that they can call UAS APIs to create, find and manage End-User UAIs.
Broker UAIs accept incoming SSH connections from external hosts, so they need to have a presence on an external network. Setting public_ip to true makes this work.
While it is not required to make the number of replicas for a Broker UAI greater than 1, setting a larger number makes the Broker UAI more resilient to node outages, resource starvation, and other possible issues. A larger replica count also reduces the networking and computational load on individual Broker UAI pods by permitting connections to be load balanced across the replicas. The replica count should not exceed the number of Kubernetes Worker Nodes permitted to host Broker UAIs.
Broker UAIs cannot time out (there is no timeout mechanism in them) so setting a timeout on Broker UAIs is meaningless.
Furthermore, since Broker UAIs are resources that should remain in place on a running system, putting a timeout on a Broker UAI would be counterproductive. Broker UAIs should have either no timeout specified or an empty timeout.
Broker UAIs do not need access to workload management services, so they should not run with UAI Compute Network access.
Setting this to true would consume IP addresses on the UAI Compute Network unnecessarily and reduce the number of End-User UAIs available on the system.
Notice the following settings in the Brokered End-User UAI Class:
"default": false,
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"namespace": "user",
...
"public_ip": false,
"replicas": 1,
...
"timeout": {
"hard": "86400",
"soft": "1800",
"warning": "60"
},
"uai_compute_network": true,
"uai_creation_class": null,
"uai_image": {
"default": false,
"image_id": "8f180ddc-37e5-4ead-b261-2b401914a79f",
"imagename": "registry.local/cray/cray-uai-broker:1.2.4"
},
default is FalseThe UAI Class used for Brokered End-User UAIs has characteristics that do not make it suitable for use as a Non-Brokered UAI, so a Brokered UAI Class should never be the default UAI Class.
In this example, the UAI image used is the HPE provided basic End-User UAI image. This could also be a custom End-User UAI image. The important thing for any End-User UAI Class is that the image is an End-User UAI image of some kind.
userIn this example the namespace setting is user. This is the default setting and causes UAIs created by this UAI Class to run in the user namespace.
The user namespace is isolated from Kubernetes resources in other namespaces and does not set up a connection to the API Gateway for pods running inside it.
This, or a similarly isolated namespace should always be used for End-User UAIs since it keeps End-User UAIs isolated from management plane activities even though they are running inside the Kubernetes cluster.
Brokered UAIs are always reached through Broker UAIs, so they do not need to and should not expose public IP access.
Using replica pods in an End-User UAI simply wastes UAI Compute Network IP addresses, thereby limiting the number of End-User UAIs that can be created. The default value of 1 should be used for replicas in all End-User UAI Classes.
While setting a timeout on End-User UAIs is not required, it is a good idea. Stale and idle UAIs consume resources that could be used by active fresh UAIs.
By setting, at least, a soft timeout on End-User UAI Classes, the administrator can ensure that resources are released to the system when a user’s UAI becomes idle for an extended time.
The above timeout specification will terminate the UAI, even if it is not idle, after 24 hours, with a 60 second warning. It will terminate an idle UAI after 30 minutes.
End-User UAIs generally require access to workload management, so they require access the compute node network. Setting uai_compute_network to true makes this work.
UAI Creation Class is only meaningful to UAIs that create other UAIs (specifically Broker UAIs).
Non-Brokered End-User UAIs are very similar to Brokered End-User UAIs, but Non-Brokered End-User UAIs have some special traits. Notice the specific settings in the Non-Brokered End-User UAI Class that are different from those in the Brokered End-User UAI Class:
"default": true,
"public_ip": true,
The UAI Class used for Non-Brokered End-User UAIs must be the default UAI Class. There is no way to create a UAI from a class in the Legacy Mode UAI Creation procedures.
Manually created UAIs must be reached by direct SSH from external hosts, so they need to have a presence on an external network. Setting public_ip to true makes this work.