lego/vendor/github.com/oracle/oci-go-sdk/dns/steering_policy.go

226 lines
10 KiB
Go

// Copyright (c) 2016, 2018, Oracle and/or its affiliates. All rights reserved.
// Code generated. DO NOT EDIT.
// DNS API
//
// API for the DNS service. Use this API to manage DNS zones, records, and other DNS resources.
// For more information, see Overview of the DNS Service (https://docs.us-phoenix-1.oraclecloud.com/iaas/Content/DNS/Concepts/dnszonemanagement.htm).
//
package dns
import (
"encoding/json"
"github.com/oracle/oci-go-sdk/common"
)
// SteeringPolicy A DNS steering policy.
// *Warning:* Oracle recommends that you avoid using any confidential information when you supply string values using the API.
type SteeringPolicy struct {
// The OCID of the compartment containing the steering policy.
CompartmentId *string `mandatory:"false" json:"compartmentId"`
// A user-friendly name for the steering policy.
// Does not have to be unique, and it's changeable.
// Avoid entering confidential information.
DisplayName *string `mandatory:"false" json:"displayName"`
// The Time To Live for responses from the steering policy, in seconds.
// If not specified during creation, a value of 30 seconds will be used.
Ttl *int `mandatory:"false" json:"ttl"`
// The OCID of the health check monitor providing health data about the answers of the
// steering policy.
// A steering policy answer with `rdata` matching a monitored endpoint will use the health
// data of that endpoint.
// A steering policy answer with `rdata` not matching any monitored endpoint will be assumed
// healthy.
HealthCheckMonitorId *string `mandatory:"false" json:"healthCheckMonitorId"`
// The common pattern (or lack thereof) to which the steering policy adheres. This
// value restricts the possible configurations of rules, but thereby supports
// specifically tailored interfaces. Values other than "CUSTOM" require the rules to
// begin with an unconditional FILTER that keeps answers contingent upon
// `answer.isDisabled != true`, followed
// _if and only if the policy references a health check monitor_ by an unconditional
// HEALTH rule, and require the last rule to be an unconditional LIMIT.
// What must precede the LIMIT rule is determined by the template value:
// - FAILOVER requires exactly an unconditional PRIORITY rule that ranks answers by pool.
// Each answer pool must have a unique priority value assigned to it. Answer data must
// be defined in the `defaultAnswerData` property for the rule and the `cases` property
// must not be defined.
// - LOAD_BALANCE requires exactly an unconditional WEIGHTED rule that shuffles answers
// by name. Answer data must be defined in the `defaultAnswerData` property for the
// rule and the `cases` property must not be defined.
// - ROUTE_BY_GEO requires exactly one PRIORITY rule that ranks answers by pool using the
// geographical location of the client as a condition. Within that rule you may only
// use `query.client.geoKey` in the `caseCondition` expressions for defining the cases.
// For each case in the PRIORITY rule each answer pool must have a unique priority
// value assigned to it. Answer data can only be defined within cases and
// `defaultAnswerData` cannot be used in the PRIORITY rule.
// - ROUTE_BY_ASN requires exactly one PRIORITY rule that ranks answers by pool using the
// ASN of the client as a condition. Within that rule you may only use
// `query.client.asn` in the `caseCondition` expressions for defining the cases.
// For each case in the PRIORITY rule each answer pool must have a unique priority
// value assigned to it. Answer data can only be defined within cases and
// `defaultAnswerData` cannot be used in the PRIORITY rule.
// - ROUTE_BY_IP requires exactly one PRIORITY rule that ranks answers by pool using the
// IP subnet of the client as a condition. Within that rule you may only use
// `query.client.address` in the `caseCondition` expressions for defining the cases.
// For each case in the PRIORITY rule each answer pool must have a unique priority
// value assigned to it. Answer data can only be defined within cases and
// `defaultAnswerData` cannot be used in the PRIORITY rule.
// - CUSTOM allows an arbitrary configuration of rules.
// For an existing steering policy, the template value may be changed to any of the
// supported options but the resulting policy must conform to the requirements for the
// new template type or else a Bad Request error will be returned.
Template SteeringPolicyTemplateEnum `mandatory:"false" json:"template,omitempty"`
// Simple key-value pair that is applied without any predefined name, type, or scope.
// For more information, see Resource Tags (https://docs.us-phoenix-1.oraclecloud.com/Content/General/Concepts/resourcetags.htm).
// Example: `{"bar-key": "value"}`
FreeformTags map[string]string `mandatory:"false" json:"freeformTags"`
// Usage of predefined tag keys. These predefined keys are scoped to a namespace.
// Example: `{"foo-namespace": {"bar-key": "value"}}`
DefinedTags map[string]map[string]interface{} `mandatory:"false" json:"definedTags"`
// The set of all answers that can potentially issue from the steering policy.
Answers []SteeringPolicyAnswer `mandatory:"false" json:"answers"`
// The pipeline of rules that will be processed in sequence to reduce the pool of answers
// to a response for any given request.
// The first rule receives a shuffled list of all answers, and every other rule receives
// the list of answers emitted by the one preceding it. The last rule populates the
// response.
Rules []SteeringPolicyRule `mandatory:"false" json:"rules"`
// The canonical absolute URL of the resource.
Self *string `mandatory:"false" json:"self"`
// The OCID of the resource.
Id *string `mandatory:"false" json:"id"`
// The date and time the resource was created in "YYYY-MM-ddThh:mmZ" format
// with a Z offset, as defined by RFC 3339.
// **Example:** `2016-07-22T17:23:59:60Z`
TimeCreated *common.SDKTime `mandatory:"false" json:"timeCreated"`
// The current state of the resource.
LifecycleState SteeringPolicyLifecycleStateEnum `mandatory:"false" json:"lifecycleState,omitempty"`
}
func (m SteeringPolicy) String() string {
return common.PointerString(m)
}
// UnmarshalJSON unmarshals from json
func (m *SteeringPolicy) UnmarshalJSON(data []byte) (e error) {
model := struct {
CompartmentId *string `json:"compartmentId"`
DisplayName *string `json:"displayName"`
Ttl *int `json:"ttl"`
HealthCheckMonitorId *string `json:"healthCheckMonitorId"`
Template SteeringPolicyTemplateEnum `json:"template"`
FreeformTags map[string]string `json:"freeformTags"`
DefinedTags map[string]map[string]interface{} `json:"definedTags"`
Answers []SteeringPolicyAnswer `json:"answers"`
Rules []steeringpolicyrule `json:"rules"`
Self *string `json:"self"`
Id *string `json:"id"`
TimeCreated *common.SDKTime `json:"timeCreated"`
LifecycleState SteeringPolicyLifecycleStateEnum `json:"lifecycleState"`
}{}
e = json.Unmarshal(data, &model)
if e != nil {
return
}
m.CompartmentId = model.CompartmentId
m.DisplayName = model.DisplayName
m.Ttl = model.Ttl
m.HealthCheckMonitorId = model.HealthCheckMonitorId
m.Template = model.Template
m.FreeformTags = model.FreeformTags
m.DefinedTags = model.DefinedTags
m.Answers = make([]SteeringPolicyAnswer, len(model.Answers))
for i, n := range model.Answers {
m.Answers[i] = n
}
m.Rules = make([]SteeringPolicyRule, len(model.Rules))
for i, n := range model.Rules {
nn, err := n.UnmarshalPolymorphicJSON(n.JsonData)
if err != nil {
return err
}
if nn != nil {
m.Rules[i] = nn.(SteeringPolicyRule)
} else {
m.Rules[i] = nil
}
}
m.Self = model.Self
m.Id = model.Id
m.TimeCreated = model.TimeCreated
m.LifecycleState = model.LifecycleState
return
}
// SteeringPolicyTemplateEnum Enum with underlying type: string
type SteeringPolicyTemplateEnum string
// Set of constants representing the allowable values for SteeringPolicyTemplateEnum
const (
SteeringPolicyTemplateFailover SteeringPolicyTemplateEnum = "FAILOVER"
SteeringPolicyTemplateLoadBalance SteeringPolicyTemplateEnum = "LOAD_BALANCE"
SteeringPolicyTemplateRouteByGeo SteeringPolicyTemplateEnum = "ROUTE_BY_GEO"
SteeringPolicyTemplateRouteByAsn SteeringPolicyTemplateEnum = "ROUTE_BY_ASN"
SteeringPolicyTemplateRouteByIp SteeringPolicyTemplateEnum = "ROUTE_BY_IP"
SteeringPolicyTemplateCustom SteeringPolicyTemplateEnum = "CUSTOM"
)
var mappingSteeringPolicyTemplate = map[string]SteeringPolicyTemplateEnum{
"FAILOVER": SteeringPolicyTemplateFailover,
"LOAD_BALANCE": SteeringPolicyTemplateLoadBalance,
"ROUTE_BY_GEO": SteeringPolicyTemplateRouteByGeo,
"ROUTE_BY_ASN": SteeringPolicyTemplateRouteByAsn,
"ROUTE_BY_IP": SteeringPolicyTemplateRouteByIp,
"CUSTOM": SteeringPolicyTemplateCustom,
}
// GetSteeringPolicyTemplateEnumValues Enumerates the set of values for SteeringPolicyTemplateEnum
func GetSteeringPolicyTemplateEnumValues() []SteeringPolicyTemplateEnum {
values := make([]SteeringPolicyTemplateEnum, 0)
for _, v := range mappingSteeringPolicyTemplate {
values = append(values, v)
}
return values
}
// SteeringPolicyLifecycleStateEnum Enum with underlying type: string
type SteeringPolicyLifecycleStateEnum string
// Set of constants representing the allowable values for SteeringPolicyLifecycleStateEnum
const (
SteeringPolicyLifecycleStateActive SteeringPolicyLifecycleStateEnum = "ACTIVE"
SteeringPolicyLifecycleStateCreating SteeringPolicyLifecycleStateEnum = "CREATING"
SteeringPolicyLifecycleStateDeleted SteeringPolicyLifecycleStateEnum = "DELETED"
SteeringPolicyLifecycleStateDeleting SteeringPolicyLifecycleStateEnum = "DELETING"
)
var mappingSteeringPolicyLifecycleState = map[string]SteeringPolicyLifecycleStateEnum{
"ACTIVE": SteeringPolicyLifecycleStateActive,
"CREATING": SteeringPolicyLifecycleStateCreating,
"DELETED": SteeringPolicyLifecycleStateDeleted,
"DELETING": SteeringPolicyLifecycleStateDeleting,
}
// GetSteeringPolicyLifecycleStateEnumValues Enumerates the set of values for SteeringPolicyLifecycleStateEnum
func GetSteeringPolicyLifecycleStateEnumValues() []SteeringPolicyLifecycleStateEnum {
values := make([]SteeringPolicyLifecycleStateEnum, 0)
for _, v := range mappingSteeringPolicyLifecycleState {
values = append(values, v)
}
return values
}