generated from pulumi/pulumi-tf-provider-boilerplate
/
iploadBalancingHTTPFarmServer.go
444 lines (385 loc) · 19.4 KB
/
iploadBalancingHTTPFarmServer.go
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// Code generated by the Pulumi Terraform Bridge (tfgen) Tool DO NOT EDIT.
// *** WARNING: Do not edit by hand unless you're certain you know what you are doing! ***
package ovh
import (
"context"
"reflect"
"github.com/pkg/errors"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
// Creates a backend server entry linked to http loadbalancing group (farm)
//
// ## Example Usage
//
// ```go
// package main
//
// import (
// "github.com/pulumi/pulumi-ovh/sdk/go/ovh"
// "github.com/pulumi/pulumi/sdk/v3/go/pulumi"
// )
//
// func main() {
// pulumi.Run(func(ctx *pulumi.Context) error {
// lb, err := ovh.LookupIPLoadBalancing(ctx, &GetIPLoadBalancingArgs{
// ServiceName: pulumi.StringRef("ip-1.2.3.4"),
// State: pulumi.StringRef("ok"),
// }, nil)
// if err != nil {
// return err
// }
// farmname, err := ovh.NewIPLoadBalancingHTTPFarm(ctx, "farmname", &ovh.IPLoadBalancingHTTPFarmArgs{
// ServiceName: pulumi.String(lb.Id),
// Port: pulumi.Int(8080),
// Zone: pulumi.String("all"),
// })
// if err != nil {
// return err
// }
// _, err = ovh.NewIPLoadBalancingHTTPFarmServer(ctx, "backend", &ovh.IPLoadBalancingHTTPFarmServerArgs{
// ServiceName: pulumi.String(lb.Id),
// FarmId: farmname.ID(),
// DisplayName: pulumi.String("mybackend"),
// Address: pulumi.String("4.5.6.7"),
// Status: pulumi.String("active"),
// Port: pulumi.Int(80),
// ProxyProtocolVersion: pulumi.Any(v2),
// Weight: pulumi.Int(2),
// Probe: pulumi.Bool(true),
// Ssl: pulumi.Bool(false),
// Backup: pulumi.Bool(true),
// })
// if err != nil {
// return err
// }
// return nil
// })
// }
// ```
type IPLoadBalancingHTTPFarmServer struct {
pulumi.CustomResourceState
// Address of the backend server (IP from either internal or OVH network)
Address pulumi.StringOutput `pulumi:"address"`
// is it a backup server used in case of failure of all the non-backup backends
Backup pulumi.BoolPtrOutput `pulumi:"backup"`
Chain pulumi.StringPtrOutput `pulumi:"chain"`
// Value of the stickiness cookie used for this backend.
Cookie pulumi.StringOutput `pulumi:"cookie"`
// Label for the server
DisplayName pulumi.StringPtrOutput `pulumi:"displayName"`
// ID of the farm this server is attached to
FarmId pulumi.IntOutput `pulumi:"farmId"`
// Port that backend will respond on
Port pulumi.IntPtrOutput `pulumi:"port"`
// defines if backend will be probed to determine health and keep as active in farm if healthy
Probe pulumi.BoolPtrOutput `pulumi:"probe"`
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
ProxyProtocolVersion pulumi.StringPtrOutput `pulumi:"proxyProtocolVersion"`
// The internal name of your IP load balancing
ServiceName pulumi.StringOutput `pulumi:"serviceName"`
// is the connection ciphered with SSL (TLS)
Ssl pulumi.BoolPtrOutput `pulumi:"ssl"`
// backend status - `active` or `inactive`
Status pulumi.StringOutput `pulumi:"status"`
// used in loadbalancing algorithm
Weight pulumi.IntPtrOutput `pulumi:"weight"`
}
// NewIPLoadBalancingHTTPFarmServer registers a new resource with the given unique name, arguments, and options.
func NewIPLoadBalancingHTTPFarmServer(ctx *pulumi.Context,
name string, args *IPLoadBalancingHTTPFarmServerArgs, opts ...pulumi.ResourceOption) (*IPLoadBalancingHTTPFarmServer, error) {
if args == nil {
return nil, errors.New("missing one or more required arguments")
}
if args.Address == nil {
return nil, errors.New("invalid value for required argument 'Address'")
}
if args.FarmId == nil {
return nil, errors.New("invalid value for required argument 'FarmId'")
}
if args.ServiceName == nil {
return nil, errors.New("invalid value for required argument 'ServiceName'")
}
if args.Status == nil {
return nil, errors.New("invalid value for required argument 'Status'")
}
var resource IPLoadBalancingHTTPFarmServer
err := ctx.RegisterResource("ovh:index/iPLoadBalancingHTTPFarmServer:IPLoadBalancingHTTPFarmServer", name, args, &resource, opts...)
if err != nil {
return nil, err
}
return &resource, nil
}
// GetIPLoadBalancingHTTPFarmServer gets an existing IPLoadBalancingHTTPFarmServer resource's state with the given name, ID, and optional
// state properties that are used to uniquely qualify the lookup (nil if not required).
func GetIPLoadBalancingHTTPFarmServer(ctx *pulumi.Context,
name string, id pulumi.IDInput, state *IPLoadBalancingHTTPFarmServerState, opts ...pulumi.ResourceOption) (*IPLoadBalancingHTTPFarmServer, error) {
var resource IPLoadBalancingHTTPFarmServer
err := ctx.ReadResource("ovh:index/iPLoadBalancingHTTPFarmServer:IPLoadBalancingHTTPFarmServer", name, id, state, &resource, opts...)
if err != nil {
return nil, err
}
return &resource, nil
}
// Input properties used for looking up and filtering IPLoadBalancingHTTPFarmServer resources.
type iploadBalancingHTTPFarmServerState struct {
// Address of the backend server (IP from either internal or OVH network)
Address *string `pulumi:"address"`
// is it a backup server used in case of failure of all the non-backup backends
Backup *bool `pulumi:"backup"`
Chain *string `pulumi:"chain"`
// Value of the stickiness cookie used for this backend.
Cookie *string `pulumi:"cookie"`
// Label for the server
DisplayName *string `pulumi:"displayName"`
// ID of the farm this server is attached to
FarmId *int `pulumi:"farmId"`
// Port that backend will respond on
Port *int `pulumi:"port"`
// defines if backend will be probed to determine health and keep as active in farm if healthy
Probe *bool `pulumi:"probe"`
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
ProxyProtocolVersion *string `pulumi:"proxyProtocolVersion"`
// The internal name of your IP load balancing
ServiceName *string `pulumi:"serviceName"`
// is the connection ciphered with SSL (TLS)
Ssl *bool `pulumi:"ssl"`
// backend status - `active` or `inactive`
Status *string `pulumi:"status"`
// used in loadbalancing algorithm
Weight *int `pulumi:"weight"`
}
type IPLoadBalancingHTTPFarmServerState struct {
// Address of the backend server (IP from either internal or OVH network)
Address pulumi.StringPtrInput
// is it a backup server used in case of failure of all the non-backup backends
Backup pulumi.BoolPtrInput
Chain pulumi.StringPtrInput
// Value of the stickiness cookie used for this backend.
Cookie pulumi.StringPtrInput
// Label for the server
DisplayName pulumi.StringPtrInput
// ID of the farm this server is attached to
FarmId pulumi.IntPtrInput
// Port that backend will respond on
Port pulumi.IntPtrInput
// defines if backend will be probed to determine health and keep as active in farm if healthy
Probe pulumi.BoolPtrInput
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
ProxyProtocolVersion pulumi.StringPtrInput
// The internal name of your IP load balancing
ServiceName pulumi.StringPtrInput
// is the connection ciphered with SSL (TLS)
Ssl pulumi.BoolPtrInput
// backend status - `active` or `inactive`
Status pulumi.StringPtrInput
// used in loadbalancing algorithm
Weight pulumi.IntPtrInput
}
func (IPLoadBalancingHTTPFarmServerState) ElementType() reflect.Type {
return reflect.TypeOf((*iploadBalancingHTTPFarmServerState)(nil)).Elem()
}
type iploadBalancingHTTPFarmServerArgs struct {
// Address of the backend server (IP from either internal or OVH network)
Address string `pulumi:"address"`
// is it a backup server used in case of failure of all the non-backup backends
Backup *bool `pulumi:"backup"`
Chain *string `pulumi:"chain"`
// Label for the server
DisplayName *string `pulumi:"displayName"`
// ID of the farm this server is attached to
FarmId int `pulumi:"farmId"`
// Port that backend will respond on
Port *int `pulumi:"port"`
// defines if backend will be probed to determine health and keep as active in farm if healthy
Probe *bool `pulumi:"probe"`
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
ProxyProtocolVersion *string `pulumi:"proxyProtocolVersion"`
// The internal name of your IP load balancing
ServiceName string `pulumi:"serviceName"`
// is the connection ciphered with SSL (TLS)
Ssl *bool `pulumi:"ssl"`
// backend status - `active` or `inactive`
Status string `pulumi:"status"`
// used in loadbalancing algorithm
Weight *int `pulumi:"weight"`
}
// The set of arguments for constructing a IPLoadBalancingHTTPFarmServer resource.
type IPLoadBalancingHTTPFarmServerArgs struct {
// Address of the backend server (IP from either internal or OVH network)
Address pulumi.StringInput
// is it a backup server used in case of failure of all the non-backup backends
Backup pulumi.BoolPtrInput
Chain pulumi.StringPtrInput
// Label for the server
DisplayName pulumi.StringPtrInput
// ID of the farm this server is attached to
FarmId pulumi.IntInput
// Port that backend will respond on
Port pulumi.IntPtrInput
// defines if backend will be probed to determine health and keep as active in farm if healthy
Probe pulumi.BoolPtrInput
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
ProxyProtocolVersion pulumi.StringPtrInput
// The internal name of your IP load balancing
ServiceName pulumi.StringInput
// is the connection ciphered with SSL (TLS)
Ssl pulumi.BoolPtrInput
// backend status - `active` or `inactive`
Status pulumi.StringInput
// used in loadbalancing algorithm
Weight pulumi.IntPtrInput
}
func (IPLoadBalancingHTTPFarmServerArgs) ElementType() reflect.Type {
return reflect.TypeOf((*iploadBalancingHTTPFarmServerArgs)(nil)).Elem()
}
type IPLoadBalancingHTTPFarmServerInput interface {
pulumi.Input
ToIPLoadBalancingHTTPFarmServerOutput() IPLoadBalancingHTTPFarmServerOutput
ToIPLoadBalancingHTTPFarmServerOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerOutput
}
func (*IPLoadBalancingHTTPFarmServer) ElementType() reflect.Type {
return reflect.TypeOf((**IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (i *IPLoadBalancingHTTPFarmServer) ToIPLoadBalancingHTTPFarmServerOutput() IPLoadBalancingHTTPFarmServerOutput {
return i.ToIPLoadBalancingHTTPFarmServerOutputWithContext(context.Background())
}
func (i *IPLoadBalancingHTTPFarmServer) ToIPLoadBalancingHTTPFarmServerOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerOutput {
return pulumi.ToOutputWithContext(ctx, i).(IPLoadBalancingHTTPFarmServerOutput)
}
// IPLoadBalancingHTTPFarmServerArrayInput is an input type that accepts IPLoadBalancingHTTPFarmServerArray and IPLoadBalancingHTTPFarmServerArrayOutput values.
// You can construct a concrete instance of `IPLoadBalancingHTTPFarmServerArrayInput` via:
//
// IPLoadBalancingHTTPFarmServerArray{ IPLoadBalancingHTTPFarmServerArgs{...} }
type IPLoadBalancingHTTPFarmServerArrayInput interface {
pulumi.Input
ToIPLoadBalancingHTTPFarmServerArrayOutput() IPLoadBalancingHTTPFarmServerArrayOutput
ToIPLoadBalancingHTTPFarmServerArrayOutputWithContext(context.Context) IPLoadBalancingHTTPFarmServerArrayOutput
}
type IPLoadBalancingHTTPFarmServerArray []IPLoadBalancingHTTPFarmServerInput
func (IPLoadBalancingHTTPFarmServerArray) ElementType() reflect.Type {
return reflect.TypeOf((*[]*IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (i IPLoadBalancingHTTPFarmServerArray) ToIPLoadBalancingHTTPFarmServerArrayOutput() IPLoadBalancingHTTPFarmServerArrayOutput {
return i.ToIPLoadBalancingHTTPFarmServerArrayOutputWithContext(context.Background())
}
func (i IPLoadBalancingHTTPFarmServerArray) ToIPLoadBalancingHTTPFarmServerArrayOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerArrayOutput {
return pulumi.ToOutputWithContext(ctx, i).(IPLoadBalancingHTTPFarmServerArrayOutput)
}
// IPLoadBalancingHTTPFarmServerMapInput is an input type that accepts IPLoadBalancingHTTPFarmServerMap and IPLoadBalancingHTTPFarmServerMapOutput values.
// You can construct a concrete instance of `IPLoadBalancingHTTPFarmServerMapInput` via:
//
// IPLoadBalancingHTTPFarmServerMap{ "key": IPLoadBalancingHTTPFarmServerArgs{...} }
type IPLoadBalancingHTTPFarmServerMapInput interface {
pulumi.Input
ToIPLoadBalancingHTTPFarmServerMapOutput() IPLoadBalancingHTTPFarmServerMapOutput
ToIPLoadBalancingHTTPFarmServerMapOutputWithContext(context.Context) IPLoadBalancingHTTPFarmServerMapOutput
}
type IPLoadBalancingHTTPFarmServerMap map[string]IPLoadBalancingHTTPFarmServerInput
func (IPLoadBalancingHTTPFarmServerMap) ElementType() reflect.Type {
return reflect.TypeOf((*map[string]*IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (i IPLoadBalancingHTTPFarmServerMap) ToIPLoadBalancingHTTPFarmServerMapOutput() IPLoadBalancingHTTPFarmServerMapOutput {
return i.ToIPLoadBalancingHTTPFarmServerMapOutputWithContext(context.Background())
}
func (i IPLoadBalancingHTTPFarmServerMap) ToIPLoadBalancingHTTPFarmServerMapOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerMapOutput {
return pulumi.ToOutputWithContext(ctx, i).(IPLoadBalancingHTTPFarmServerMapOutput)
}
type IPLoadBalancingHTTPFarmServerOutput struct{ *pulumi.OutputState }
func (IPLoadBalancingHTTPFarmServerOutput) ElementType() reflect.Type {
return reflect.TypeOf((**IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (o IPLoadBalancingHTTPFarmServerOutput) ToIPLoadBalancingHTTPFarmServerOutput() IPLoadBalancingHTTPFarmServerOutput {
return o
}
func (o IPLoadBalancingHTTPFarmServerOutput) ToIPLoadBalancingHTTPFarmServerOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerOutput {
return o
}
// Address of the backend server (IP from either internal or OVH network)
func (o IPLoadBalancingHTTPFarmServerOutput) Address() pulumi.StringOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringOutput { return v.Address }).(pulumi.StringOutput)
}
// is it a backup server used in case of failure of all the non-backup backends
func (o IPLoadBalancingHTTPFarmServerOutput) Backup() pulumi.BoolPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.BoolPtrOutput { return v.Backup }).(pulumi.BoolPtrOutput)
}
func (o IPLoadBalancingHTTPFarmServerOutput) Chain() pulumi.StringPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringPtrOutput { return v.Chain }).(pulumi.StringPtrOutput)
}
// Value of the stickiness cookie used for this backend.
func (o IPLoadBalancingHTTPFarmServerOutput) Cookie() pulumi.StringOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringOutput { return v.Cookie }).(pulumi.StringOutput)
}
// Label for the server
func (o IPLoadBalancingHTTPFarmServerOutput) DisplayName() pulumi.StringPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringPtrOutput { return v.DisplayName }).(pulumi.StringPtrOutput)
}
// ID of the farm this server is attached to
func (o IPLoadBalancingHTTPFarmServerOutput) FarmId() pulumi.IntOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.IntOutput { return v.FarmId }).(pulumi.IntOutput)
}
// Port that backend will respond on
func (o IPLoadBalancingHTTPFarmServerOutput) Port() pulumi.IntPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.IntPtrOutput { return v.Port }).(pulumi.IntPtrOutput)
}
// defines if backend will be probed to determine health and keep as active in farm if healthy
func (o IPLoadBalancingHTTPFarmServerOutput) Probe() pulumi.BoolPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.BoolPtrOutput { return v.Probe }).(pulumi.BoolPtrOutput)
}
// version of the PROXY protocol used to pass origin connection information from loadbalancer to recieving service (`v1`, `v2`, `v2-ssl`, `v2-ssl-cn`)
func (o IPLoadBalancingHTTPFarmServerOutput) ProxyProtocolVersion() pulumi.StringPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringPtrOutput { return v.ProxyProtocolVersion }).(pulumi.StringPtrOutput)
}
// The internal name of your IP load balancing
func (o IPLoadBalancingHTTPFarmServerOutput) ServiceName() pulumi.StringOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringOutput { return v.ServiceName }).(pulumi.StringOutput)
}
// is the connection ciphered with SSL (TLS)
func (o IPLoadBalancingHTTPFarmServerOutput) Ssl() pulumi.BoolPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.BoolPtrOutput { return v.Ssl }).(pulumi.BoolPtrOutput)
}
// backend status - `active` or `inactive`
func (o IPLoadBalancingHTTPFarmServerOutput) Status() pulumi.StringOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.StringOutput { return v.Status }).(pulumi.StringOutput)
}
// used in loadbalancing algorithm
func (o IPLoadBalancingHTTPFarmServerOutput) Weight() pulumi.IntPtrOutput {
return o.ApplyT(func(v *IPLoadBalancingHTTPFarmServer) pulumi.IntPtrOutput { return v.Weight }).(pulumi.IntPtrOutput)
}
type IPLoadBalancingHTTPFarmServerArrayOutput struct{ *pulumi.OutputState }
func (IPLoadBalancingHTTPFarmServerArrayOutput) ElementType() reflect.Type {
return reflect.TypeOf((*[]*IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (o IPLoadBalancingHTTPFarmServerArrayOutput) ToIPLoadBalancingHTTPFarmServerArrayOutput() IPLoadBalancingHTTPFarmServerArrayOutput {
return o
}
func (o IPLoadBalancingHTTPFarmServerArrayOutput) ToIPLoadBalancingHTTPFarmServerArrayOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerArrayOutput {
return o
}
func (o IPLoadBalancingHTTPFarmServerArrayOutput) Index(i pulumi.IntInput) IPLoadBalancingHTTPFarmServerOutput {
return pulumi.All(o, i).ApplyT(func(vs []interface{}) *IPLoadBalancingHTTPFarmServer {
return vs[0].([]*IPLoadBalancingHTTPFarmServer)[vs[1].(int)]
}).(IPLoadBalancingHTTPFarmServerOutput)
}
type IPLoadBalancingHTTPFarmServerMapOutput struct{ *pulumi.OutputState }
func (IPLoadBalancingHTTPFarmServerMapOutput) ElementType() reflect.Type {
return reflect.TypeOf((*map[string]*IPLoadBalancingHTTPFarmServer)(nil)).Elem()
}
func (o IPLoadBalancingHTTPFarmServerMapOutput) ToIPLoadBalancingHTTPFarmServerMapOutput() IPLoadBalancingHTTPFarmServerMapOutput {
return o
}
func (o IPLoadBalancingHTTPFarmServerMapOutput) ToIPLoadBalancingHTTPFarmServerMapOutputWithContext(ctx context.Context) IPLoadBalancingHTTPFarmServerMapOutput {
return o
}
func (o IPLoadBalancingHTTPFarmServerMapOutput) MapIndex(k pulumi.StringInput) IPLoadBalancingHTTPFarmServerOutput {
return pulumi.All(o, k).ApplyT(func(vs []interface{}) *IPLoadBalancingHTTPFarmServer {
return vs[0].(map[string]*IPLoadBalancingHTTPFarmServer)[vs[1].(string)]
}).(IPLoadBalancingHTTPFarmServerOutput)
}
func init() {
pulumi.RegisterInputType(reflect.TypeOf((*IPLoadBalancingHTTPFarmServerInput)(nil)).Elem(), &IPLoadBalancingHTTPFarmServer{})
pulumi.RegisterInputType(reflect.TypeOf((*IPLoadBalancingHTTPFarmServerArrayInput)(nil)).Elem(), IPLoadBalancingHTTPFarmServerArray{})
pulumi.RegisterInputType(reflect.TypeOf((*IPLoadBalancingHTTPFarmServerMapInput)(nil)).Elem(), IPLoadBalancingHTTPFarmServerMap{})
pulumi.RegisterOutputType(IPLoadBalancingHTTPFarmServerOutput{})
pulumi.RegisterOutputType(IPLoadBalancingHTTPFarmServerArrayOutput{})
pulumi.RegisterOutputType(IPLoadBalancingHTTPFarmServerMapOutput{})
}