Replace Application Profiles.
const url = 'https://example-corp.console.ves.volterra.io/api/v1/api/production/us-east-1/namespaces/default/api/config/namespaces/example/application_profiless/example';const options = { method: 'PUT', headers: {Authorization: '<Authorization>', 'Content-Type': 'application/json'}, body: '{"metadata":{"annotations":{},"description":"example","disable":true,"labels":{},"name":"example","namespace":"example"},"spec":{"advanced_tcp_profile":{"disable_tcp_advanced_profile":{},"enable_tcp_advanced_profile":{}},"ddos_profile":{"disable_ddos_mitigation":{},"enable_ddos_mitigation":{}},"irules":[{"name":"example","namespace":"example"}],"traffic_policies":[{"name":"example","namespace":"example"}],"virtual_server":{"address_translation":{"address_translation_disable":{},"address_translation_enable":{}},"auto_last_hop":{"auto_last_hop_default":{},"auto_last_hop_disable":{},"auto_last_hop_enable":{}},"clone_pool_client":[{"name":"example","namespace":"example"}],"clone_pool_server":[{"name":"example","namespace":"example"}],"connection_limit":1,"connection_rate_limit":1,"connection_rate_limit_mode":{"per_destination_address":{"destination_mask":1},"per_source_address":{"source_mask":1},"per_source_destination_address":{"destination_mask":1,"source_mask":1},"per_virtual_server":{},"per_virtual_server_destination_address":{"destination_mask":1},"per_virtual_server_source_address":{"source_mask":1},"per_virtual_server_source_destination_address":{"destination_mask":1,"source_mask":1}},"default_persistence_profile":[{"name":"example","namespace":"example"}],"default_pool":[{"name":"example","namespace":"example"}],"fallback_persistence_profile":[{"name":"example","namespace":"example"}],"fix_profile":[{"name":"example","namespace":"example"}],"http":{"http_client_profile":[{"name":"example","namespace":"example"}],"http_server_profile":[{"name":"example","namespace":"example"}],"stream_profile":[{"name":"example","namespace":"example"}],"tcp_client_profile":[{"name":"example","namespace":"example"}],"tcp_server_profile":[{"name":"example","namespace":"example"}],"websocket_client_profile":[{"name":"example","namespace":"example"}],"websocket_server_profile":[{"name":"example","namespace":"example"}]},"https":{"http_client_profile":[{"name":"example","namespace":"example"}],"http_server_profile":[{"name":"example","namespace":"example"}],"stream_profile":[{"name":"example","namespace":"example"}],"tcp_client_profile":[{"name":"example","namespace":"example"}],"tcp_server_profile":[{"name":"example","namespace":"example"}],"websocket_client_profile":[{"name":"example","namespace":"example"}],"websocket_server_profile":[{"name":"example","namespace":"example"}]},"immediate_action_on_service_down":{"immediate_action_on_service_down_drop":{},"immediate_action_on_service_down_none":{},"immediate_action_on_service_down_reset":{}},"last_hop_pool":[{"name":"example","namespace":"example"}],"nat64":{"nat64_disable":{},"nat64_enable":{}},"port_translation":{"port_translation_disable":{},"port_translation_enable":{}},"request_logging_profile":[{"name":"example","namespace":"example"}],"source_port":{"source_port_change":{},"source_port_preserve":{},"source_port_preserve_strict":{}},"statistics_profile":[{"name":"example","namespace":"example"}],"tcp":{"tcp_client_profile":[{"name":"example","namespace":"example"}],"tcp_server_profile":[{"name":"example","namespace":"example"}]},"udp":{"tcp_client_profile":[{"name":"example","namespace":"example"}],"tcp_server_profile":[{"name":"example","namespace":"example"}]},"virtual_server_state":{"state_disabled":{},"state_enabled":{}},"vs_score":1}}}'};
try { const response = await fetch(url, options); const data = await response.json(); console.log(data);} catch (error) { console.error(error);}curl --request PUT \ --url https://example-corp.console.ves.volterra.io/api/v1/api/production/us-east-1/namespaces/default/api/config/namespaces/example/application_profiless/example \ --header 'Authorization: <Authorization>' \ --header 'Content-Type: application/json' \ --data '{ "metadata": { "annotations": {}, "description": "example", "disable": true, "labels": {}, "name": "example", "namespace": "example" }, "spec": { "advanced_tcp_profile": { "disable_tcp_advanced_profile": {}, "enable_tcp_advanced_profile": {} }, "ddos_profile": { "disable_ddos_mitigation": {}, "enable_ddos_mitigation": {} }, "irules": [ { "name": "example", "namespace": "example" } ], "traffic_policies": [ { "name": "example", "namespace": "example" } ], "virtual_server": { "address_translation": { "address_translation_disable": {}, "address_translation_enable": {} }, "auto_last_hop": { "auto_last_hop_default": {}, "auto_last_hop_disable": {}, "auto_last_hop_enable": {} }, "clone_pool_client": [ { "name": "example", "namespace": "example" } ], "clone_pool_server": [ { "name": "example", "namespace": "example" } ], "connection_limit": 1, "connection_rate_limit": 1, "connection_rate_limit_mode": { "per_destination_address": { "destination_mask": 1 }, "per_source_address": { "source_mask": 1 }, "per_source_destination_address": { "destination_mask": 1, "source_mask": 1 }, "per_virtual_server": {}, "per_virtual_server_destination_address": { "destination_mask": 1 }, "per_virtual_server_source_address": { "source_mask": 1 }, "per_virtual_server_source_destination_address": { "destination_mask": 1, "source_mask": 1 } }, "default_persistence_profile": [ { "name": "example", "namespace": "example" } ], "default_pool": [ { "name": "example", "namespace": "example" } ], "fallback_persistence_profile": [ { "name": "example", "namespace": "example" } ], "fix_profile": [ { "name": "example", "namespace": "example" } ], "http": { "http_client_profile": [ { "name": "example", "namespace": "example" } ], "http_server_profile": [ { "name": "example", "namespace": "example" } ], "stream_profile": [ { "name": "example", "namespace": "example" } ], "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ], "websocket_client_profile": [ { "name": "example", "namespace": "example" } ], "websocket_server_profile": [ { "name": "example", "namespace": "example" } ] }, "https": { "http_client_profile": [ { "name": "example", "namespace": "example" } ], "http_server_profile": [ { "name": "example", "namespace": "example" } ], "stream_profile": [ { "name": "example", "namespace": "example" } ], "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ], "websocket_client_profile": [ { "name": "example", "namespace": "example" } ], "websocket_server_profile": [ { "name": "example", "namespace": "example" } ] }, "immediate_action_on_service_down": { "immediate_action_on_service_down_drop": {}, "immediate_action_on_service_down_none": {}, "immediate_action_on_service_down_reset": {} }, "last_hop_pool": [ { "name": "example", "namespace": "example" } ], "nat64": { "nat64_disable": {}, "nat64_enable": {} }, "port_translation": { "port_translation_disable": {}, "port_translation_enable": {} }, "request_logging_profile": [ { "name": "example", "namespace": "example" } ], "source_port": { "source_port_change": {}, "source_port_preserve": {}, "source_port_preserve_strict": {} }, "statistics_profile": [ { "name": "example", "namespace": "example" } ], "tcp": { "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ] }, "udp": { "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ] }, "virtual_server_state": { "state_disabled": {}, "state_enabled": {} }, "vs_score": 1 } } }'Replace Application Profiles in a given namespace.
Authorizations
Section titled “Authorizations”Parameters
Section titled “Parameters”Path Parameters
Section titled “Path Parameters”Namespace This defines the workspace within which each the configuration object is to be created. Must be a DNS_LABEL format. For a namespace object itself, namespace value will be ""
Name The configuration object to be replaced will be looked up by name.
Request Bodyrequired
Section titled “Request Bodyrequired”This is the input message of the ‘Replace’ RPC.
object
object
Annotations is an unstructured key value map stored with a resource that may be set by external tools to store and retrieve arbitrary metadata. They are not queryable and should be preserved when modifying objects.
object
Human readable description for the object.
A value of true will administratively disable the object.
Map of string keys and values that can be used to organize and categorize (scope and select) objects as chosen by the user. Values specified here will be used by selector expression.
object
This is the name of configuration object. It has to be unique within the namespace. It can only be specified during create API and cannot be changed during replace API. The value of name has to follow DNS-1035 format. Required: YES.
This defines the workspace within which each the configuration object is to be created. Must be a DNS_LABEL format. For a namespace object itself, namespace value will be ""
object
object
object
object
object
object
object
OPTIONS for attaching iRules to BIG-IP Proxy.
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for traffic policies
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
object
object
object
object
object
object
object
Replicates client-side traffic (that is, prior to address translation) to a member of the specified pool.
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Replicates server-side traffic (that is, prior to address translation) to a member of the specified pool.
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Specifies the maximum number of concurrent connections allowed for the virtual server. Setting this to 0 turns off connection limits. The default is 0.
Specifies the maximum number of connections-per-second allowed for a virtual server. When the number of connections-per-second reaches the limit for a given virtual server, the system drops (UDP) or resets (TCP) additional connection requests. This helps detect Denial of Service attacks, where connection requests flood a virtual server. Setting this to 0 turns off connection limits. The default is 0.
object
object
Configuration parameter for destination mask
object
Configuration parameter for source mask
object
Configuration parameter for destination mask
Configuration parameter for source mask
object
object
Configuration parameter for destination mask
object
Configuration parameter for source mask
object
Configuration parameter for destination mask
Configuration parameter for source mask
Configuration parameter for default persistence profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Specifies the pool name that you want the virtual server to use as the default pool. A load balancing virtual server sends traffic to this pool automatically, unless an iRule directs the server to send the traffic to another pool instead.
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for fallback persistence profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for fix profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for http server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for stream profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for tcp server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Web-related configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Web-related configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for http server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for stream profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for tcp server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Web-related configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Web-related configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
object
object
object
Directs reply traffic to the last hop router using the specified pool.
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
object
object
object
object
object
Configuration parameter for request logging profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
object
object
object
Configuration parameter for statistics profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for tcp server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
Client-side configuration
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
Configuration parameter for tcp server profile
This type establishes a ‘direct reference’ from one object(the referrer) to another(the referred). Such a reference is in form of tenant/namespace/name for public API and Uid for private API This type of reference is called direct because the relation is explicit and concrete (as opposed to selector reference which builds a group based on labels of selectee objects)
object
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then kind will hold the referred object’s kind (e.g. “route”)
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then name will hold the referred object’s(e.g. Route’s) name.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then namespace will hold the referred object’s(e.g. Route’s) namespace.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then tenant will hold the referred object’s(e.g. Route’s) tenant.
When a configuration object(e.g. Virtual_host) refers to another(e.g route) then uid will hold the referred object’s(e.g. Route’s) uid.
object
object
object
Specifies the virtual server score in percent. Global Traffic Manager (GTM) can rely on this value to load balance traffic in a proportional manner. The default is 0, meaning that no additional metric is applied for the virtual server.
Examplegenerated
{ "metadata": { "annotations": {}, "description": "example", "disable": true, "labels": {}, "name": "example", "namespace": "example" }, "spec": { "advanced_tcp_profile": { "disable_tcp_advanced_profile": {}, "enable_tcp_advanced_profile": {} }, "ddos_profile": { "disable_ddos_mitigation": {}, "enable_ddos_mitigation": {} }, "irules": [ { "name": "example", "namespace": "example" } ], "traffic_policies": [ { "name": "example", "namespace": "example" } ], "virtual_server": { "address_translation": { "address_translation_disable": {}, "address_translation_enable": {} }, "auto_last_hop": { "auto_last_hop_default": {}, "auto_last_hop_disable": {}, "auto_last_hop_enable": {} }, "clone_pool_client": [ { "name": "example", "namespace": "example" } ], "clone_pool_server": [ { "name": "example", "namespace": "example" } ], "connection_limit": 1, "connection_rate_limit": 1, "connection_rate_limit_mode": { "per_destination_address": { "destination_mask": 1 }, "per_source_address": { "source_mask": 1 }, "per_source_destination_address": { "destination_mask": 1, "source_mask": 1 }, "per_virtual_server": {}, "per_virtual_server_destination_address": { "destination_mask": 1 }, "per_virtual_server_source_address": { "source_mask": 1 }, "per_virtual_server_source_destination_address": { "destination_mask": 1, "source_mask": 1 } }, "default_persistence_profile": [ { "name": "example", "namespace": "example" } ], "default_pool": [ { "name": "example", "namespace": "example" } ], "fallback_persistence_profile": [ { "name": "example", "namespace": "example" } ], "fix_profile": [ { "name": "example", "namespace": "example" } ], "http": { "http_client_profile": [ { "name": "example", "namespace": "example" } ], "http_server_profile": [ { "name": "example", "namespace": "example" } ], "stream_profile": [ { "name": "example", "namespace": "example" } ], "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ], "websocket_client_profile": [ { "name": "example", "namespace": "example" } ], "websocket_server_profile": [ { "name": "example", "namespace": "example" } ] }, "https": { "http_client_profile": [ { "name": "example", "namespace": "example" } ], "http_server_profile": [ { "name": "example", "namespace": "example" } ], "stream_profile": [ { "name": "example", "namespace": "example" } ], "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ], "websocket_client_profile": [ { "name": "example", "namespace": "example" } ], "websocket_server_profile": [ { "name": "example", "namespace": "example" } ] }, "immediate_action_on_service_down": { "immediate_action_on_service_down_drop": {}, "immediate_action_on_service_down_none": {}, "immediate_action_on_service_down_reset": {} }, "last_hop_pool": [ { "name": "example", "namespace": "example" } ], "nat64": { "nat64_disable": {}, "nat64_enable": {} }, "port_translation": { "port_translation_disable": {}, "port_translation_enable": {} }, "request_logging_profile": [ { "name": "example", "namespace": "example" } ], "source_port": { "source_port_change": {}, "source_port_preserve": {}, "source_port_preserve_strict": {} }, "statistics_profile": [ { "name": "example", "namespace": "example" } ], "tcp": { "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ] }, "udp": { "tcp_client_profile": [ { "name": "example", "namespace": "example" } ], "tcp_server_profile": [ { "name": "example", "namespace": "example" } ] }, "virtual_server_state": { "state_disabled": {}, "state_enabled": {} }, "vs_score": 1 } }}Responses
Section titled “Responses”A successful response.
object
Examplegenerated
{}Returned when operation is not authorized.
Examplegenerated
exampleReturned when there is no permission to access resource.
Examplegenerated
exampleReturned when resource is not found.
Examplegenerated
exampleReturned when operation on resource is conflicting with current value.
Examplegenerated
exampleReturned when operation has been rejected as it is happening too frequently.
Examplegenerated
exampleReturned when server encountered an error in processing API.
Examplegenerated
exampleReturned when service is unavailable temporarily.
Examplegenerated
exampleReturned when server timed out processing request.
Examplegenerated
example