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zz_regionbackendservice_types.go
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zz_regionbackendservice_types.go
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// SPDX-FileCopyrightText: 2024 The Crossplane Authors <https://crossplane.io>
//
// SPDX-License-Identifier: Apache-2.0
// Code generated by upjet. DO NOT EDIT.
package v1beta1
import (
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime/schema"
v1 "github.com/crossplane/crossplane-runtime/apis/common/v1"
)
type ConsistentHashHTTPCookieInitParameters struct {
// Name of the resource. Provided by the client when the resource is
// created. The name must be 1-63 characters long, and comply with
// RFC1035. Specifically, the name must be 1-63 characters long and match
// the regular expression [a-z]([-a-z0-9]*[a-z0-9])? which means the
// first character must be a lowercase letter, and all following
// characters must be a dash, lowercase letter, or digit, except the last
// character, which cannot be a dash.
Name *string `json:"name,omitempty" tf:"name,omitempty"`
// Path to set for the cookie.
Path *string `json:"path,omitempty" tf:"path,omitempty"`
// The TTL (in seconds) for which to cache responses with the corresponding status code. The maximum allowed value is 1800s
// (30 minutes), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
TTL []HTTPCookieTTLInitParameters `json:"ttl,omitempty" tf:"ttl,omitempty"`
}
type ConsistentHashHTTPCookieObservation struct {
// Name of the resource. Provided by the client when the resource is
// created. The name must be 1-63 characters long, and comply with
// RFC1035. Specifically, the name must be 1-63 characters long and match
// the regular expression [a-z]([-a-z0-9]*[a-z0-9])? which means the
// first character must be a lowercase letter, and all following
// characters must be a dash, lowercase letter, or digit, except the last
// character, which cannot be a dash.
Name *string `json:"name,omitempty" tf:"name,omitempty"`
// Path to set for the cookie.
Path *string `json:"path,omitempty" tf:"path,omitempty"`
// The TTL (in seconds) for which to cache responses with the corresponding status code. The maximum allowed value is 1800s
// (30 minutes), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
TTL []HTTPCookieTTLObservation `json:"ttl,omitempty" tf:"ttl,omitempty"`
}
type ConsistentHashHTTPCookieParameters struct {
// Name of the resource. Provided by the client when the resource is
// created. The name must be 1-63 characters long, and comply with
// RFC1035. Specifically, the name must be 1-63 characters long and match
// the regular expression [a-z]([-a-z0-9]*[a-z0-9])? which means the
// first character must be a lowercase letter, and all following
// characters must be a dash, lowercase letter, or digit, except the last
// character, which cannot be a dash.
// +kubebuilder:validation:Optional
Name *string `json:"name,omitempty" tf:"name,omitempty"`
// Path to set for the cookie.
// +kubebuilder:validation:Optional
Path *string `json:"path,omitempty" tf:"path,omitempty"`
// The TTL (in seconds) for which to cache responses with the corresponding status code. The maximum allowed value is 1800s
// (30 minutes), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
// +kubebuilder:validation:Optional
TTL []HTTPCookieTTLParameters `json:"ttl,omitempty" tf:"ttl,omitempty"`
}
type FailoverPolicyInitParameters struct {
// On failover or failback, this field indicates whether connection drain
// will be honored. Setting this to true has the following effect: connections
// to the old active pool are not drained. Connections to the new active pool
// use the timeout of 10 min (currently fixed). Setting to false has the
// following effect: both old and new connections will have a drain timeout
// of 10 min.
// This can be set to true only if the protocol is TCP.
// The default is false.
DisableConnectionDrainOnFailover *bool `json:"disableConnectionDrainOnFailover,omitempty" tf:"disable_connection_drain_on_failover,omitempty"`
// This option is used only when no healthy VMs are detected in the primary
// and backup instance groups. When set to true, traffic is dropped. When
// set to false, new connections are sent across all VMs in the primary group.
// The default is false.
DropTrafficIfUnhealthy *bool `json:"dropTrafficIfUnhealthy,omitempty" tf:"drop_traffic_if_unhealthy,omitempty"`
// The value of the field must be in [0, 1]. If the ratio of the healthy
// VMs in the primary backend is at or below this number, traffic arriving
// at the load-balanced IP will be directed to the failover backend.
// In case where 'failoverRatio' is not set or all the VMs in the backup
// backend are unhealthy, the traffic will be directed back to the primary
// backend in the "force" mode, where traffic will be spread to the healthy
// VMs with the best effort, or to all VMs when no VM is healthy.
// This field is only used with l4 load balancing.
FailoverRatio *float64 `json:"failoverRatio,omitempty" tf:"failover_ratio,omitempty"`
}
type FailoverPolicyObservation struct {
// On failover or failback, this field indicates whether connection drain
// will be honored. Setting this to true has the following effect: connections
// to the old active pool are not drained. Connections to the new active pool
// use the timeout of 10 min (currently fixed). Setting to false has the
// following effect: both old and new connections will have a drain timeout
// of 10 min.
// This can be set to true only if the protocol is TCP.
// The default is false.
DisableConnectionDrainOnFailover *bool `json:"disableConnectionDrainOnFailover,omitempty" tf:"disable_connection_drain_on_failover,omitempty"`
// This option is used only when no healthy VMs are detected in the primary
// and backup instance groups. When set to true, traffic is dropped. When
// set to false, new connections are sent across all VMs in the primary group.
// The default is false.
DropTrafficIfUnhealthy *bool `json:"dropTrafficIfUnhealthy,omitempty" tf:"drop_traffic_if_unhealthy,omitempty"`
// The value of the field must be in [0, 1]. If the ratio of the healthy
// VMs in the primary backend is at or below this number, traffic arriving
// at the load-balanced IP will be directed to the failover backend.
// In case where 'failoverRatio' is not set or all the VMs in the backup
// backend are unhealthy, the traffic will be directed back to the primary
// backend in the "force" mode, where traffic will be spread to the healthy
// VMs with the best effort, or to all VMs when no VM is healthy.
// This field is only used with l4 load balancing.
FailoverRatio *float64 `json:"failoverRatio,omitempty" tf:"failover_ratio,omitempty"`
}
type FailoverPolicyParameters struct {
// On failover or failback, this field indicates whether connection drain
// will be honored. Setting this to true has the following effect: connections
// to the old active pool are not drained. Connections to the new active pool
// use the timeout of 10 min (currently fixed). Setting to false has the
// following effect: both old and new connections will have a drain timeout
// of 10 min.
// This can be set to true only if the protocol is TCP.
// The default is false.
// +kubebuilder:validation:Optional
DisableConnectionDrainOnFailover *bool `json:"disableConnectionDrainOnFailover,omitempty" tf:"disable_connection_drain_on_failover,omitempty"`
// This option is used only when no healthy VMs are detected in the primary
// and backup instance groups. When set to true, traffic is dropped. When
// set to false, new connections are sent across all VMs in the primary group.
// The default is false.
// +kubebuilder:validation:Optional
DropTrafficIfUnhealthy *bool `json:"dropTrafficIfUnhealthy,omitempty" tf:"drop_traffic_if_unhealthy,omitempty"`
// The value of the field must be in [0, 1]. If the ratio of the healthy
// VMs in the primary backend is at or below this number, traffic arriving
// at the load-balanced IP will be directed to the failover backend.
// In case where 'failoverRatio' is not set or all the VMs in the backup
// backend are unhealthy, the traffic will be directed back to the primary
// backend in the "force" mode, where traffic will be spread to the healthy
// VMs with the best effort, or to all VMs when no VM is healthy.
// This field is only used with l4 load balancing.
// +kubebuilder:validation:Optional
FailoverRatio *float64 `json:"failoverRatio,omitempty" tf:"failover_ratio,omitempty"`
}
type HTTPCookieTTLInitParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type HTTPCookieTTLObservation struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type HTTPCookieTTLParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
// +kubebuilder:validation:Optional
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
// +kubebuilder:validation:Optional
Seconds *float64 `json:"seconds" tf:"seconds,omitempty"`
}
type OutlierDetectionBaseEjectionTimeInitParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type OutlierDetectionBaseEjectionTimeObservation struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type OutlierDetectionBaseEjectionTimeParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
// +kubebuilder:validation:Optional
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
// +kubebuilder:validation:Optional
Seconds *float64 `json:"seconds" tf:"seconds,omitempty"`
}
type OutlierDetectionIntervalInitParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type OutlierDetectionIntervalObservation struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
Seconds *float64 `json:"seconds,omitempty" tf:"seconds,omitempty"`
}
type OutlierDetectionIntervalParameters struct {
// Span of time that's a fraction of a second at nanosecond
// resolution. Durations less than one second are represented
// with a 0 seconds field and a positive nanos field. Must
// be from 0 to 999,999,999 inclusive.
// +kubebuilder:validation:Optional
Nanos *float64 `json:"nanos,omitempty" tf:"nanos,omitempty"`
// Span of time at a resolution of a second.
// Must be from 0 to 315,576,000,000 inclusive.
// +kubebuilder:validation:Optional
Seconds *float64 `json:"seconds" tf:"seconds,omitempty"`
}
type RegionBackendServiceBackendInitParameters struct {
// Specifies the balancing mode for this backend.
// See the Backend Services Overview
// for an explanation of load balancing modes.
// Default value is CONNECTION.
// Possible values are: UTILIZATION, RATE, CONNECTION.
BalancingMode *string `json:"balancingMode,omitempty" tf:"balancing_mode,omitempty"`
// A multiplier applied to the group's maximum servicing capacity
// (based on UTILIZATION, RATE or CONNECTION).
// ~>NOTE: This field cannot be set for
// INTERNAL region backend services (default loadBalancingScheme),
// but is required for non-INTERNAL backend service. The total
// capacity_scaler for all backends must be non-zero.
// A setting of 0 means the group is completely drained, offering
// 0% of its available Capacity. Valid range is [0.0,1.0].
CapacityScaler *float64 `json:"capacityScaler,omitempty" tf:"capacity_scaler,omitempty"`
// An optional description of this resource.
// Provide this property when you create the resource.
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// This field designates whether this is a failover backend. More
// than one failover backend can be configured for a given RegionBackendService.
Failover *bool `json:"failover,omitempty" tf:"failover,omitempty"`
// The fully-qualified URL of an Instance Group or Network Endpoint
// Group resource. In case of instance group this defines the list
// of instances that serve traffic. Member virtual machine
// instances from each instance group must live in the same zone as
// the instance group itself. No two backends in a backend service
// are allowed to use same Instance Group resource.
// For Network Endpoint Groups this defines list of endpoints. All
// endpoints of Network Endpoint Group must be hosted on instances
// located in the same zone as the Network Endpoint Group.
// Backend services cannot mix Instance Group and
// Network Endpoint Group backends.
// When the load_balancing_scheme is INTERNAL, only instance groups
// are supported.
// Note that you must specify an Instance Group or Network Endpoint
// Group resource using the fully-qualified URL, rather than a
// partial URL.
// +crossplane:generate:reference:type=github.com/upbound/provider-gcp/apis/compute/v1beta1.RegionInstanceGroupManager
// +crossplane:generate:reference:extractor=github.com/upbound/provider-gcp/config/compute.InstanceGroupExtractor()
Group *string `json:"group,omitempty" tf:"group,omitempty"`
// Reference to a RegionInstanceGroupManager in compute to populate group.
// +kubebuilder:validation:Optional
GroupRef *v1.Reference `json:"groupRef,omitempty" tf:"-"`
// Selector for a RegionInstanceGroupManager in compute to populate group.
// +kubebuilder:validation:Optional
GroupSelector *v1.Selector `json:"groupSelector,omitempty" tf:"-"`
// The max number of simultaneous connections for the group. Can
// be used with either CONNECTION or UTILIZATION balancing modes.
// Cannot be set for INTERNAL backend services.
// For CONNECTION mode, either maxConnections or one
// of maxConnectionsPerInstance or maxConnectionsPerEndpoint,
// as appropriate for group type, must be set.
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The max number of simultaneous connections that a single backend
// network endpoint can handle. Cannot be set
// for INTERNAL backend services.
// This is used to calculate the capacity of the group. Can be
// used in either CONNECTION or UTILIZATION balancing modes. For
// CONNECTION mode, either maxConnections or
// maxConnectionsPerEndpoint must be set.
MaxConnectionsPerEndpoint *float64 `json:"maxConnectionsPerEndpoint,omitempty" tf:"max_connections_per_endpoint,omitempty"`
// The max number of simultaneous connections that a single
// backend instance can handle. Cannot be set for INTERNAL backend
// services.
// This is used to calculate the capacity of the group.
// Can be used in either CONNECTION or UTILIZATION balancing modes.
// For CONNECTION mode, either maxConnections or
// maxConnectionsPerInstance must be set.
MaxConnectionsPerInstance *float64 `json:"maxConnectionsPerInstance,omitempty" tf:"max_connections_per_instance,omitempty"`
// The max requests per second (RPS) of the group. Cannot be set
// for INTERNAL backend services.
// Can be used with either RATE or UTILIZATION balancing modes,
// but required if RATE mode. Either maxRate or one
// of maxRatePerInstance or maxRatePerEndpoint, as appropriate for
// group type, must be set.
MaxRate *float64 `json:"maxRate,omitempty" tf:"max_rate,omitempty"`
// The max requests per second (RPS) that a single backend network
// endpoint can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerEndpoint must be set. Cannot be set
// for INTERNAL backend services.
MaxRatePerEndpoint *float64 `json:"maxRatePerEndpoint,omitempty" tf:"max_rate_per_endpoint,omitempty"`
// The max requests per second (RPS) that a single backend
// instance can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerInstance must be set. Cannot be set
// for INTERNAL backend services.
MaxRatePerInstance *float64 `json:"maxRatePerInstance,omitempty" tf:"max_rate_per_instance,omitempty"`
// Used when balancingMode is UTILIZATION. This ratio defines the
// CPU utilization target for the group. Valid range is [0.0, 1.0].
// Cannot be set for INTERNAL backend services.
MaxUtilization *float64 `json:"maxUtilization,omitempty" tf:"max_utilization,omitempty"`
}
type RegionBackendServiceBackendObservation struct {
// Specifies the balancing mode for this backend.
// See the Backend Services Overview
// for an explanation of load balancing modes.
// Default value is CONNECTION.
// Possible values are: UTILIZATION, RATE, CONNECTION.
BalancingMode *string `json:"balancingMode,omitempty" tf:"balancing_mode,omitempty"`
// A multiplier applied to the group's maximum servicing capacity
// (based on UTILIZATION, RATE or CONNECTION).
// ~>NOTE: This field cannot be set for
// INTERNAL region backend services (default loadBalancingScheme),
// but is required for non-INTERNAL backend service. The total
// capacity_scaler for all backends must be non-zero.
// A setting of 0 means the group is completely drained, offering
// 0% of its available Capacity. Valid range is [0.0,1.0].
CapacityScaler *float64 `json:"capacityScaler,omitempty" tf:"capacity_scaler,omitempty"`
// An optional description of this resource.
// Provide this property when you create the resource.
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// This field designates whether this is a failover backend. More
// than one failover backend can be configured for a given RegionBackendService.
Failover *bool `json:"failover,omitempty" tf:"failover,omitempty"`
// The fully-qualified URL of an Instance Group or Network Endpoint
// Group resource. In case of instance group this defines the list
// of instances that serve traffic. Member virtual machine
// instances from each instance group must live in the same zone as
// the instance group itself. No two backends in a backend service
// are allowed to use same Instance Group resource.
// For Network Endpoint Groups this defines list of endpoints. All
// endpoints of Network Endpoint Group must be hosted on instances
// located in the same zone as the Network Endpoint Group.
// Backend services cannot mix Instance Group and
// Network Endpoint Group backends.
// When the load_balancing_scheme is INTERNAL, only instance groups
// are supported.
// Note that you must specify an Instance Group or Network Endpoint
// Group resource using the fully-qualified URL, rather than a
// partial URL.
Group *string `json:"group,omitempty" tf:"group,omitempty"`
// The max number of simultaneous connections for the group. Can
// be used with either CONNECTION or UTILIZATION balancing modes.
// Cannot be set for INTERNAL backend services.
// For CONNECTION mode, either maxConnections or one
// of maxConnectionsPerInstance or maxConnectionsPerEndpoint,
// as appropriate for group type, must be set.
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The max number of simultaneous connections that a single backend
// network endpoint can handle. Cannot be set
// for INTERNAL backend services.
// This is used to calculate the capacity of the group. Can be
// used in either CONNECTION or UTILIZATION balancing modes. For
// CONNECTION mode, either maxConnections or
// maxConnectionsPerEndpoint must be set.
MaxConnectionsPerEndpoint *float64 `json:"maxConnectionsPerEndpoint,omitempty" tf:"max_connections_per_endpoint,omitempty"`
// The max number of simultaneous connections that a single
// backend instance can handle. Cannot be set for INTERNAL backend
// services.
// This is used to calculate the capacity of the group.
// Can be used in either CONNECTION or UTILIZATION balancing modes.
// For CONNECTION mode, either maxConnections or
// maxConnectionsPerInstance must be set.
MaxConnectionsPerInstance *float64 `json:"maxConnectionsPerInstance,omitempty" tf:"max_connections_per_instance,omitempty"`
// The max requests per second (RPS) of the group. Cannot be set
// for INTERNAL backend services.
// Can be used with either RATE or UTILIZATION balancing modes,
// but required if RATE mode. Either maxRate or one
// of maxRatePerInstance or maxRatePerEndpoint, as appropriate for
// group type, must be set.
MaxRate *float64 `json:"maxRate,omitempty" tf:"max_rate,omitempty"`
// The max requests per second (RPS) that a single backend network
// endpoint can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerEndpoint must be set. Cannot be set
// for INTERNAL backend services.
MaxRatePerEndpoint *float64 `json:"maxRatePerEndpoint,omitempty" tf:"max_rate_per_endpoint,omitempty"`
// The max requests per second (RPS) that a single backend
// instance can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerInstance must be set. Cannot be set
// for INTERNAL backend services.
MaxRatePerInstance *float64 `json:"maxRatePerInstance,omitempty" tf:"max_rate_per_instance,omitempty"`
// Used when balancingMode is UTILIZATION. This ratio defines the
// CPU utilization target for the group. Valid range is [0.0, 1.0].
// Cannot be set for INTERNAL backend services.
MaxUtilization *float64 `json:"maxUtilization,omitempty" tf:"max_utilization,omitempty"`
}
type RegionBackendServiceBackendParameters struct {
// Specifies the balancing mode for this backend.
// See the Backend Services Overview
// for an explanation of load balancing modes.
// Default value is CONNECTION.
// Possible values are: UTILIZATION, RATE, CONNECTION.
// +kubebuilder:validation:Optional
BalancingMode *string `json:"balancingMode,omitempty" tf:"balancing_mode,omitempty"`
// A multiplier applied to the group's maximum servicing capacity
// (based on UTILIZATION, RATE or CONNECTION).
// ~>NOTE: This field cannot be set for
// INTERNAL region backend services (default loadBalancingScheme),
// but is required for non-INTERNAL backend service. The total
// capacity_scaler for all backends must be non-zero.
// A setting of 0 means the group is completely drained, offering
// 0% of its available Capacity. Valid range is [0.0,1.0].
// +kubebuilder:validation:Optional
CapacityScaler *float64 `json:"capacityScaler,omitempty" tf:"capacity_scaler,omitempty"`
// An optional description of this resource.
// Provide this property when you create the resource.
// +kubebuilder:validation:Optional
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// This field designates whether this is a failover backend. More
// than one failover backend can be configured for a given RegionBackendService.
// +kubebuilder:validation:Optional
Failover *bool `json:"failover,omitempty" tf:"failover,omitempty"`
// The fully-qualified URL of an Instance Group or Network Endpoint
// Group resource. In case of instance group this defines the list
// of instances that serve traffic. Member virtual machine
// instances from each instance group must live in the same zone as
// the instance group itself. No two backends in a backend service
// are allowed to use same Instance Group resource.
// For Network Endpoint Groups this defines list of endpoints. All
// endpoints of Network Endpoint Group must be hosted on instances
// located in the same zone as the Network Endpoint Group.
// Backend services cannot mix Instance Group and
// Network Endpoint Group backends.
// When the load_balancing_scheme is INTERNAL, only instance groups
// are supported.
// Note that you must specify an Instance Group or Network Endpoint
// Group resource using the fully-qualified URL, rather than a
// partial URL.
// +crossplane:generate:reference:type=github.com/upbound/provider-gcp/apis/compute/v1beta1.RegionInstanceGroupManager
// +crossplane:generate:reference:extractor=github.com/upbound/provider-gcp/config/compute.InstanceGroupExtractor()
// +kubebuilder:validation:Optional
Group *string `json:"group,omitempty" tf:"group,omitempty"`
// Reference to a RegionInstanceGroupManager in compute to populate group.
// +kubebuilder:validation:Optional
GroupRef *v1.Reference `json:"groupRef,omitempty" tf:"-"`
// Selector for a RegionInstanceGroupManager in compute to populate group.
// +kubebuilder:validation:Optional
GroupSelector *v1.Selector `json:"groupSelector,omitempty" tf:"-"`
// The max number of simultaneous connections for the group. Can
// be used with either CONNECTION or UTILIZATION balancing modes.
// Cannot be set for INTERNAL backend services.
// For CONNECTION mode, either maxConnections or one
// of maxConnectionsPerInstance or maxConnectionsPerEndpoint,
// as appropriate for group type, must be set.
// +kubebuilder:validation:Optional
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The max number of simultaneous connections that a single backend
// network endpoint can handle. Cannot be set
// for INTERNAL backend services.
// This is used to calculate the capacity of the group. Can be
// used in either CONNECTION or UTILIZATION balancing modes. For
// CONNECTION mode, either maxConnections or
// maxConnectionsPerEndpoint must be set.
// +kubebuilder:validation:Optional
MaxConnectionsPerEndpoint *float64 `json:"maxConnectionsPerEndpoint,omitempty" tf:"max_connections_per_endpoint,omitempty"`
// The max number of simultaneous connections that a single
// backend instance can handle. Cannot be set for INTERNAL backend
// services.
// This is used to calculate the capacity of the group.
// Can be used in either CONNECTION or UTILIZATION balancing modes.
// For CONNECTION mode, either maxConnections or
// maxConnectionsPerInstance must be set.
// +kubebuilder:validation:Optional
MaxConnectionsPerInstance *float64 `json:"maxConnectionsPerInstance,omitempty" tf:"max_connections_per_instance,omitempty"`
// The max requests per second (RPS) of the group. Cannot be set
// for INTERNAL backend services.
// Can be used with either RATE or UTILIZATION balancing modes,
// but required if RATE mode. Either maxRate or one
// of maxRatePerInstance or maxRatePerEndpoint, as appropriate for
// group type, must be set.
// +kubebuilder:validation:Optional
MaxRate *float64 `json:"maxRate,omitempty" tf:"max_rate,omitempty"`
// The max requests per second (RPS) that a single backend network
// endpoint can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerEndpoint must be set. Cannot be set
// for INTERNAL backend services.
// +kubebuilder:validation:Optional
MaxRatePerEndpoint *float64 `json:"maxRatePerEndpoint,omitempty" tf:"max_rate_per_endpoint,omitempty"`
// The max requests per second (RPS) that a single backend
// instance can handle. This is used to calculate the capacity of
// the group. Can be used in either balancing mode. For RATE mode,
// either maxRate or maxRatePerInstance must be set. Cannot be set
// for INTERNAL backend services.
// +kubebuilder:validation:Optional
MaxRatePerInstance *float64 `json:"maxRatePerInstance,omitempty" tf:"max_rate_per_instance,omitempty"`
// Used when balancingMode is UTILIZATION. This ratio defines the
// CPU utilization target for the group. Valid range is [0.0, 1.0].
// Cannot be set for INTERNAL backend services.
// +kubebuilder:validation:Optional
MaxUtilization *float64 `json:"maxUtilization,omitempty" tf:"max_utilization,omitempty"`
}
type RegionBackendServiceCdnPolicyCacheKeyPolicyInitParameters struct {
// If true requests to different hosts will be cached separately.
IncludeHost *bool `json:"includeHost,omitempty" tf:"include_host,omitempty"`
// Names of cookies to include in cache keys.
IncludeNamedCookies []*string `json:"includeNamedCookies,omitempty" tf:"include_named_cookies,omitempty"`
// If true, http and https requests will be cached separately.
IncludeProtocol *bool `json:"includeProtocol,omitempty" tf:"include_protocol,omitempty"`
// If true, include query string parameters in the cache key
// according to query_string_whitelist and
// query_string_blacklist. If neither is set, the entire query
// string will be included.
// If false, the query string will be excluded from the cache
// key entirely.
IncludeQueryString *bool `json:"includeQueryString,omitempty" tf:"include_query_string,omitempty"`
// Names of query string parameters to exclude in cache keys.
// All other parameters will be included. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +listType=set
QueryStringBlacklist []*string `json:"queryStringBlacklist,omitempty" tf:"query_string_blacklist,omitempty"`
// Names of query string parameters to include in cache keys.
// All other parameters will be excluded. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +listType=set
QueryStringWhitelist []*string `json:"queryStringWhitelist,omitempty" tf:"query_string_whitelist,omitempty"`
}
type RegionBackendServiceCdnPolicyCacheKeyPolicyObservation struct {
// If true requests to different hosts will be cached separately.
IncludeHost *bool `json:"includeHost,omitempty" tf:"include_host,omitempty"`
// Names of cookies to include in cache keys.
IncludeNamedCookies []*string `json:"includeNamedCookies,omitempty" tf:"include_named_cookies,omitempty"`
// If true, http and https requests will be cached separately.
IncludeProtocol *bool `json:"includeProtocol,omitempty" tf:"include_protocol,omitempty"`
// If true, include query string parameters in the cache key
// according to query_string_whitelist and
// query_string_blacklist. If neither is set, the entire query
// string will be included.
// If false, the query string will be excluded from the cache
// key entirely.
IncludeQueryString *bool `json:"includeQueryString,omitempty" tf:"include_query_string,omitempty"`
// Names of query string parameters to exclude in cache keys.
// All other parameters will be included. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +listType=set
QueryStringBlacklist []*string `json:"queryStringBlacklist,omitempty" tf:"query_string_blacklist,omitempty"`
// Names of query string parameters to include in cache keys.
// All other parameters will be excluded. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +listType=set
QueryStringWhitelist []*string `json:"queryStringWhitelist,omitempty" tf:"query_string_whitelist,omitempty"`
}
type RegionBackendServiceCdnPolicyCacheKeyPolicyParameters struct {
// If true requests to different hosts will be cached separately.
// +kubebuilder:validation:Optional
IncludeHost *bool `json:"includeHost,omitempty" tf:"include_host,omitempty"`
// Names of cookies to include in cache keys.
// +kubebuilder:validation:Optional
IncludeNamedCookies []*string `json:"includeNamedCookies,omitempty" tf:"include_named_cookies,omitempty"`
// If true, http and https requests will be cached separately.
// +kubebuilder:validation:Optional
IncludeProtocol *bool `json:"includeProtocol,omitempty" tf:"include_protocol,omitempty"`
// If true, include query string parameters in the cache key
// according to query_string_whitelist and
// query_string_blacklist. If neither is set, the entire query
// string will be included.
// If false, the query string will be excluded from the cache
// key entirely.
// +kubebuilder:validation:Optional
IncludeQueryString *bool `json:"includeQueryString,omitempty" tf:"include_query_string,omitempty"`
// Names of query string parameters to exclude in cache keys.
// All other parameters will be included. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +kubebuilder:validation:Optional
// +listType=set
QueryStringBlacklist []*string `json:"queryStringBlacklist,omitempty" tf:"query_string_blacklist,omitempty"`
// Names of query string parameters to include in cache keys.
// All other parameters will be excluded. Either specify
// query_string_whitelist or query_string_blacklist, not both.
// '&' and '=' will be percent encoded and not treated as
// delimiters.
// +kubebuilder:validation:Optional
// +listType=set
QueryStringWhitelist []*string `json:"queryStringWhitelist,omitempty" tf:"query_string_whitelist,omitempty"`
}
type RegionBackendServiceCdnPolicyInitParameters struct {
// The CacheKeyPolicy for this CdnPolicy.
// Structure is documented below.
CacheKeyPolicy []RegionBackendServiceCdnPolicyCacheKeyPolicyInitParameters `json:"cacheKeyPolicy,omitempty" tf:"cache_key_policy,omitempty"`
// Specifies the cache setting for all responses from this backend.
// The possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL and CACHE_ALL_STATIC
// Possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL, CACHE_ALL_STATIC.
CacheMode *string `json:"cacheMode,omitempty" tf:"cache_mode,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
ClientTTL *float64 `json:"clientTtl,omitempty" tf:"client_ttl,omitempty"`
// Specifies the default TTL for cached content served by this origin for responses
// that do not have an existing valid TTL (max-age or s-max-age).
DefaultTTL *float64 `json:"defaultTtl,omitempty" tf:"default_ttl,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
MaxTTL *float64 `json:"maxTtl,omitempty" tf:"max_ttl,omitempty"`
// Negative caching allows per-status code TTLs to be set, in order to apply fine-grained caching for common errors or redirects.
NegativeCaching *bool `json:"negativeCaching,omitempty" tf:"negative_caching,omitempty"`
// Sets a cache TTL for the specified HTTP status code. negativeCaching must be enabled to configure negativeCachingPolicy.
// Omitting the policy and leaving negativeCaching enabled will use Cloud CDN's default cache TTLs.
// Structure is documented below.
NegativeCachingPolicy []RegionBackendServiceCdnPolicyNegativeCachingPolicyInitParameters `json:"negativeCachingPolicy,omitempty" tf:"negative_caching_policy,omitempty"`
// Serve existing content from the cache (if available) when revalidating content with the origin, or when an error is encountered when refreshing the cache.
ServeWhileStale *float64 `json:"serveWhileStale,omitempty" tf:"serve_while_stale,omitempty"`
// Maximum number of seconds the response to a signed URL request
// will be considered fresh, defaults to 1hr (3600s). After this
// time period, the response will be revalidated before
// being served.
// When serving responses to signed URL requests, Cloud CDN will
// internally behave as though all responses from this backend had a
// "Cache-Control: public, max-age=[TTL]" header, regardless of any
// existing Cache-Control header. The actual headers served in
// responses will not be altered.
SignedURLCacheMaxAgeSec *float64 `json:"signedUrlCacheMaxAgeSec,omitempty" tf:"signed_url_cache_max_age_sec,omitempty"`
}
type RegionBackendServiceCdnPolicyNegativeCachingPolicyInitParameters struct {
// The HTTP status code to define a TTL against. Only HTTP status codes 300, 301, 308, 404, 405, 410, 421, 451 and 501
// can be specified as values, and you cannot specify a status code more than once.
Code *float64 `json:"code,omitempty" tf:"code,omitempty"`
}
type RegionBackendServiceCdnPolicyNegativeCachingPolicyObservation struct {
// The HTTP status code to define a TTL against. Only HTTP status codes 300, 301, 308, 404, 405, 410, 421, 451 and 501
// can be specified as values, and you cannot specify a status code more than once.
Code *float64 `json:"code,omitempty" tf:"code,omitempty"`
}
type RegionBackendServiceCdnPolicyNegativeCachingPolicyParameters struct {
// The HTTP status code to define a TTL against. Only HTTP status codes 300, 301, 308, 404, 405, 410, 421, 451 and 501
// can be specified as values, and you cannot specify a status code more than once.
// +kubebuilder:validation:Optional
Code *float64 `json:"code,omitempty" tf:"code,omitempty"`
}
type RegionBackendServiceCdnPolicyObservation struct {
// The CacheKeyPolicy for this CdnPolicy.
// Structure is documented below.
CacheKeyPolicy []RegionBackendServiceCdnPolicyCacheKeyPolicyObservation `json:"cacheKeyPolicy,omitempty" tf:"cache_key_policy,omitempty"`
// Specifies the cache setting for all responses from this backend.
// The possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL and CACHE_ALL_STATIC
// Possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL, CACHE_ALL_STATIC.
CacheMode *string `json:"cacheMode,omitempty" tf:"cache_mode,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
ClientTTL *float64 `json:"clientTtl,omitempty" tf:"client_ttl,omitempty"`
// Specifies the default TTL for cached content served by this origin for responses
// that do not have an existing valid TTL (max-age or s-max-age).
DefaultTTL *float64 `json:"defaultTtl,omitempty" tf:"default_ttl,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
MaxTTL *float64 `json:"maxTtl,omitempty" tf:"max_ttl,omitempty"`
// Negative caching allows per-status code TTLs to be set, in order to apply fine-grained caching for common errors or redirects.
NegativeCaching *bool `json:"negativeCaching,omitempty" tf:"negative_caching,omitempty"`
// Sets a cache TTL for the specified HTTP status code. negativeCaching must be enabled to configure negativeCachingPolicy.
// Omitting the policy and leaving negativeCaching enabled will use Cloud CDN's default cache TTLs.
// Structure is documented below.
NegativeCachingPolicy []RegionBackendServiceCdnPolicyNegativeCachingPolicyObservation `json:"negativeCachingPolicy,omitempty" tf:"negative_caching_policy,omitempty"`
// Serve existing content from the cache (if available) when revalidating content with the origin, or when an error is encountered when refreshing the cache.
ServeWhileStale *float64 `json:"serveWhileStale,omitempty" tf:"serve_while_stale,omitempty"`
// Maximum number of seconds the response to a signed URL request
// will be considered fresh, defaults to 1hr (3600s). After this
// time period, the response will be revalidated before
// being served.
// When serving responses to signed URL requests, Cloud CDN will
// internally behave as though all responses from this backend had a
// "Cache-Control: public, max-age=[TTL]" header, regardless of any
// existing Cache-Control header. The actual headers served in
// responses will not be altered.
SignedURLCacheMaxAgeSec *float64 `json:"signedUrlCacheMaxAgeSec,omitempty" tf:"signed_url_cache_max_age_sec,omitempty"`
}
type RegionBackendServiceCdnPolicyParameters struct {
// The CacheKeyPolicy for this CdnPolicy.
// Structure is documented below.
// +kubebuilder:validation:Optional
CacheKeyPolicy []RegionBackendServiceCdnPolicyCacheKeyPolicyParameters `json:"cacheKeyPolicy,omitempty" tf:"cache_key_policy,omitempty"`
// Specifies the cache setting for all responses from this backend.
// The possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL and CACHE_ALL_STATIC
// Possible values are: USE_ORIGIN_HEADERS, FORCE_CACHE_ALL, CACHE_ALL_STATIC.
// +kubebuilder:validation:Optional
CacheMode *string `json:"cacheMode,omitempty" tf:"cache_mode,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
// +kubebuilder:validation:Optional
ClientTTL *float64 `json:"clientTtl,omitempty" tf:"client_ttl,omitempty"`
// Specifies the default TTL for cached content served by this origin for responses
// that do not have an existing valid TTL (max-age or s-max-age).
// +kubebuilder:validation:Optional
DefaultTTL *float64 `json:"defaultTtl,omitempty" tf:"default_ttl,omitempty"`
// Specifies the maximum allowed TTL for cached content served by this origin.
// +kubebuilder:validation:Optional
MaxTTL *float64 `json:"maxTtl,omitempty" tf:"max_ttl,omitempty"`
// Negative caching allows per-status code TTLs to be set, in order to apply fine-grained caching for common errors or redirects.
// +kubebuilder:validation:Optional
NegativeCaching *bool `json:"negativeCaching,omitempty" tf:"negative_caching,omitempty"`
// Sets a cache TTL for the specified HTTP status code. negativeCaching must be enabled to configure negativeCachingPolicy.
// Omitting the policy and leaving negativeCaching enabled will use Cloud CDN's default cache TTLs.
// Structure is documented below.
// +kubebuilder:validation:Optional
NegativeCachingPolicy []RegionBackendServiceCdnPolicyNegativeCachingPolicyParameters `json:"negativeCachingPolicy,omitempty" tf:"negative_caching_policy,omitempty"`
// Serve existing content from the cache (if available) when revalidating content with the origin, or when an error is encountered when refreshing the cache.
// +kubebuilder:validation:Optional
ServeWhileStale *float64 `json:"serveWhileStale,omitempty" tf:"serve_while_stale,omitempty"`
// Maximum number of seconds the response to a signed URL request
// will be considered fresh, defaults to 1hr (3600s). After this
// time period, the response will be revalidated before
// being served.
// When serving responses to signed URL requests, Cloud CDN will
// internally behave as though all responses from this backend had a
// "Cache-Control: public, max-age=[TTL]" header, regardless of any
// existing Cache-Control header. The actual headers served in
// responses will not be altered.
// +kubebuilder:validation:Optional
SignedURLCacheMaxAgeSec *float64 `json:"signedUrlCacheMaxAgeSec,omitempty" tf:"signed_url_cache_max_age_sec,omitempty"`
}
type RegionBackendServiceCircuitBreakersInitParameters struct {
// The maximum number of connections to the backend cluster.
// Defaults to 1024.
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The maximum number of pending requests to the backend cluster.
// Defaults to 1024.
MaxPendingRequests *float64 `json:"maxPendingRequests,omitempty" tf:"max_pending_requests,omitempty"`
// The maximum number of parallel requests to the backend cluster.
// Defaults to 1024.
MaxRequests *float64 `json:"maxRequests,omitempty" tf:"max_requests,omitempty"`
// Maximum requests for a single backend connection. This parameter
// is respected by both the HTTP/1.1 and HTTP/2 implementations. If
// not specified, there is no limit. Setting this parameter to 1
// will effectively disable keep alive.
MaxRequestsPerConnection *float64 `json:"maxRequestsPerConnection,omitempty" tf:"max_requests_per_connection,omitempty"`
// The maximum number of parallel retries to the backend cluster.
// Defaults to 3.
MaxRetries *float64 `json:"maxRetries,omitempty" tf:"max_retries,omitempty"`
}
type RegionBackendServiceCircuitBreakersObservation struct {
// The maximum number of connections to the backend cluster.
// Defaults to 1024.
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The maximum number of pending requests to the backend cluster.
// Defaults to 1024.
MaxPendingRequests *float64 `json:"maxPendingRequests,omitempty" tf:"max_pending_requests,omitempty"`
// The maximum number of parallel requests to the backend cluster.
// Defaults to 1024.
MaxRequests *float64 `json:"maxRequests,omitempty" tf:"max_requests,omitempty"`
// Maximum requests for a single backend connection. This parameter
// is respected by both the HTTP/1.1 and HTTP/2 implementations. If
// not specified, there is no limit. Setting this parameter to 1
// will effectively disable keep alive.
MaxRequestsPerConnection *float64 `json:"maxRequestsPerConnection,omitempty" tf:"max_requests_per_connection,omitempty"`
// The maximum number of parallel retries to the backend cluster.
// Defaults to 3.
MaxRetries *float64 `json:"maxRetries,omitempty" tf:"max_retries,omitempty"`
}
type RegionBackendServiceCircuitBreakersParameters struct {
// The maximum number of connections to the backend cluster.
// Defaults to 1024.
// +kubebuilder:validation:Optional
MaxConnections *float64 `json:"maxConnections,omitempty" tf:"max_connections,omitempty"`
// The maximum number of pending requests to the backend cluster.
// Defaults to 1024.
// +kubebuilder:validation:Optional
MaxPendingRequests *float64 `json:"maxPendingRequests,omitempty" tf:"max_pending_requests,omitempty"`
// The maximum number of parallel requests to the backend cluster.
// Defaults to 1024.
// +kubebuilder:validation:Optional
MaxRequests *float64 `json:"maxRequests,omitempty" tf:"max_requests,omitempty"`
// Maximum requests for a single backend connection. This parameter
// is respected by both the HTTP/1.1 and HTTP/2 implementations. If
// not specified, there is no limit. Setting this parameter to 1
// will effectively disable keep alive.
// +kubebuilder:validation:Optional
MaxRequestsPerConnection *float64 `json:"maxRequestsPerConnection,omitempty" tf:"max_requests_per_connection,omitempty"`
// The maximum number of parallel retries to the backend cluster.
// Defaults to 3.
// +kubebuilder:validation:Optional
MaxRetries *float64 `json:"maxRetries,omitempty" tf:"max_retries,omitempty"`
}
type RegionBackendServiceConsistentHashInitParameters struct {
// Hash is based on HTTP Cookie. This field describes a HTTP cookie
// that will be used as the hash key for the consistent hash load
// balancer. If the cookie is not present, it will be generated.
// This field is applicable if the sessionAffinity is set to HTTP_COOKIE.
// Structure is documented below.
HTTPCookie []ConsistentHashHTTPCookieInitParameters `json:"httpCookie,omitempty" tf:"http_cookie,omitempty"`
// The hash based on the value of the specified header field.
// This field is applicable if the sessionAffinity is set to HEADER_FIELD.
HTTPHeaderName *string `json:"httpHeaderName,omitempty" tf:"http_header_name,omitempty"`
// The minimum number of virtual nodes to use for the hash ring.
// Larger ring sizes result in more granular load
// distributions. If the number of hosts in the load balancing pool
// is larger than the ring size, each host will be assigned a single
// virtual node.
// Defaults to 1024.
MinimumRingSize *float64 `json:"minimumRingSize,omitempty" tf:"minimum_ring_size,omitempty"`
}
type RegionBackendServiceConsistentHashObservation struct {
// Hash is based on HTTP Cookie. This field describes a HTTP cookie
// that will be used as the hash key for the consistent hash load