OVHCloud v0.45.0, Jun 4 24

OVHCloud v0.45.0 published on Tuesday, Jun 4, 2024 by OVHcloud

ovh.IpLoadBalancing.TcpFarm

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OVHCloud v0.45.0 published on Tuesday, Jun 4, 2024 by OVHcloud

Example Usage

import * as pulumi from "@pulumi/pulumi";
import * as ovh from "@ovhcloud/pulumi-ovh";
import * as ovh from "@pulumi/ovh";

const lb = ovh.IpLoadBalancing.getIpLoadBalancing({
    serviceName: "ip-1.2.3.4",
    state: "ok",
});
const farmname = new ovh.iploadbalancing.TcpFarm("farmname", {
    displayName: "ingress-8080-gra",
    serviceName: lb.then(lb => lb.serviceName),
    zone: "GRA",
});

import pulumi
import pulumi_ovh as ovh

lb = ovh.IpLoadBalancing.get_ip_load_balancing(service_name="ip-1.2.3.4",
    state="ok")
farmname = ovh.ip_load_balancing.TcpFarm("farmname",
    display_name="ingress-8080-gra",
    service_name=lb.service_name,
    zone="GRA")

package main

import (
	"github.com/ovh/pulumi-ovh/sdk/go/ovh/IpLoadBalancing"
	"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)

func main() {
	pulumi.Run(func(ctx *pulumi.Context) error {
		lb, err := IpLoadBalancing.GetIpLoadBalancing(ctx, &iploadbalancing.GetIpLoadBalancingArgs{
			ServiceName: pulumi.StringRef("ip-1.2.3.4"),
			State:       pulumi.StringRef("ok"),
		}, nil)
		if err != nil {
			return err
		}
		_, err = IpLoadBalancing.NewTcpFarm(ctx, "farmname", &IpLoadBalancing.TcpFarmArgs{
			DisplayName: pulumi.String("ingress-8080-gra"),
			ServiceName: pulumi.String(lb.ServiceName),
			Zone:        pulumi.String("GRA"),
		})
		if err != nil {
			return err
		}
		return nil
	})
}

using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Ovh = Pulumi.Ovh;

return await Deployment.RunAsync(() => 
{
    var lb = Ovh.IpLoadBalancing.GetIpLoadBalancing.Invoke(new()
    {
        ServiceName = "ip-1.2.3.4",
        State = "ok",
    });

    var farmname = new Ovh.IpLoadBalancing.TcpFarm("farmname", new()
    {
        DisplayName = "ingress-8080-gra",
        ServiceName = lb.Apply(getIpLoadBalancingResult => getIpLoadBalancingResult.ServiceName),
        Zone = "GRA",
    });

});

package generated_program;

import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.ovh.IpLoadBalancing.IpLoadBalancingFunctions;
import com.pulumi.ovh.IpLoadBalancing.inputs.GetIpLoadBalancingArgs;
import com.pulumi.ovh.IpLoadBalancing.TcpFarm;
import com.pulumi.ovh.IpLoadBalancing.TcpFarmArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;

public class App {
    public static void main(String[] args) {
        Pulumi.run(App::stack);
    }

    public static void stack(Context ctx) {
        final var lb = IpLoadBalancingFunctions.getIpLoadBalancing(GetIpLoadBalancingArgs.builder()
            .serviceName("ip-1.2.3.4")
            .state("ok")
            .build());

        var farmname = new TcpFarm("farmname", TcpFarmArgs.builder()
            .displayName("ingress-8080-gra")
            .serviceName(lb.applyValue(getIpLoadBalancingResult -> getIpLoadBalancingResult.serviceName()))
            .zone("GRA")
            .build());

    }
}

resources:
  farmname:
    type: ovh:IpLoadBalancing:TcpFarm
    properties:
      displayName: ingress-8080-gra
      serviceName: ${lb.serviceName}
      zone: GRA
variables:
  lb:
    fn::invoke:
      Function: ovh:IpLoadBalancing:getIpLoadBalancing
      Arguments:
        serviceName: ip-1.2.3.4
        state: ok

Create TcpFarm Resource

Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.

Constructor syntax

new TcpFarm(name: string, args: TcpFarmArgs, opts?: CustomResourceOptions);

@overload
def TcpFarm(resource_name: str,
            args: TcpFarmArgs,
            opts: Optional[ResourceOptions] = None)

@overload
def TcpFarm(resource_name: str,
            opts: Optional[ResourceOptions] = None,
            service_name: Optional[str] = None,
            zone: Optional[str] = None,
            balance: Optional[str] = None,
            display_name: Optional[str] = None,
            port: Optional[int] = None,
            probe: Optional[_iploadbalancing.TcpFarmProbeArgs] = None,
            stickiness: Optional[str] = None,
            vrack_network_id: Optional[int] = None)

func NewTcpFarm(ctx *Context, name string, args TcpFarmArgs, opts ...ResourceOption) (*TcpFarm, error)

public TcpFarm(string name, TcpFarmArgs args, CustomResourceOptions? opts = null)

public TcpFarm(String name, TcpFarmArgs args)
public TcpFarm(String name, TcpFarmArgs args, CustomResourceOptions options)

type: ovh:IpLoadBalancing:TcpFarm
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.

Parameters

name string: The unique name of the resource.
args TcpFarmArgs: The arguments to resource properties.
opts CustomResourceOptions: Bag of options to control resource's behavior.

resource_name str: The unique name of the resource.
args TcpFarmArgs: The arguments to resource properties.
opts ResourceOptions: Bag of options to control resource's behavior.

ctx Context: Context object for the current deployment.
name string: The unique name of the resource.
args TcpFarmArgs: The arguments to resource properties.
opts ResourceOption: Bag of options to control resource's behavior.

name string: The unique name of the resource.
args TcpFarmArgs: The arguments to resource properties.
opts CustomResourceOptions: Bag of options to control resource's behavior.

name String: The unique name of the resource.
args TcpFarmArgs: The arguments to resource properties.
options CustomResourceOptions: Bag of options to control resource's behavior.

Constructor example

The following reference example uses placeholder values for all input properties.

var tcpFarmResource = new Ovh.IpLoadBalancing.TcpFarm("tcpFarmResource", new()
{
    ServiceName = "string",
    Zone = "string",
    Balance = "string",
    DisplayName = "string",
    Port = 0,
    Probe = new Ovh.IpLoadBalancing.Inputs.TcpFarmProbeArgs
    {
        Type = "string",
        ForceSsl = false,
        Interval = 0,
        Match = "string",
        Method = "string",
        Negate = false,
        Pattern = "string",
        Port = 0,
        Url = "string",
    },
    Stickiness = "string",
    VrackNetworkId = 0,
});

example, err := IpLoadBalancing.NewTcpFarm(ctx, "tcpFarmResource", &IpLoadBalancing.TcpFarmArgs{
	ServiceName: pulumi.String("string"),
	Zone:        pulumi.String("string"),
	Balance:     pulumi.String("string"),
	DisplayName: pulumi.String("string"),
	Port:        pulumi.Int(0),
	Probe: &iploadbalancing.TcpFarmProbeArgs{
		Type:     pulumi.String("string"),
		ForceSsl: pulumi.Bool(false),
		Interval: pulumi.Int(0),
		Match:    pulumi.String("string"),
		Method:   pulumi.String("string"),
		Negate:   pulumi.Bool(false),
		Pattern:  pulumi.String("string"),
		Port:     pulumi.Int(0),
		Url:      pulumi.String("string"),
	},
	Stickiness:     pulumi.String("string"),
	VrackNetworkId: pulumi.Int(0),
})

var tcpFarmResource = new TcpFarm("tcpFarmResource", TcpFarmArgs.builder()
    .serviceName("string")
    .zone("string")
    .balance("string")
    .displayName("string")
    .port(0)
    .probe(TcpFarmProbeArgs.builder()
        .type("string")
        .forceSsl(false)
        .interval(0)
        .match("string")
        .method("string")
        .negate(false)
        .pattern("string")
        .port(0)
        .url("string")
        .build())
    .stickiness("string")
    .vrackNetworkId(0)
    .build());

tcp_farm_resource = ovh.ip_load_balancing.TcpFarm("tcpFarmResource",
    service_name="string",
    zone="string",
    balance="string",
    display_name="string",
    port=0,
    probe=ovh.ip_load_balancing.TcpFarmProbeArgs(
        type="string",
        force_ssl=False,
        interval=0,
        match="string",
        method="string",
        negate=False,
        pattern="string",
        port=0,
        url="string",
    ),
    stickiness="string",
    vrack_network_id=0)

const tcpFarmResource = new ovh.iploadbalancing.TcpFarm("tcpFarmResource", {
    serviceName: "string",
    zone: "string",
    balance: "string",
    displayName: "string",
    port: 0,
    probe: {
        type: "string",
        forceSsl: false,
        interval: 0,
        match: "string",
        method: "string",
        negate: false,
        pattern: "string",
        port: 0,
        url: "string",
    },
    stickiness: "string",
    vrackNetworkId: 0,
});

type: ovh:IpLoadBalancing:TcpFarm
properties:
    balance: string
    displayName: string
    port: 0
    probe:
        forceSsl: false
        interval: 0
        match: string
        method: string
        negate: false
        pattern: string
        port: 0
        type: string
        url: string
    serviceName: string
    stickiness: string
    vrackNetworkId: 0
    zone: string

TcpFarm Resource Properties

To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.

Inputs

The TcpFarm resource accepts the following input properties:

ServiceName string: The internal name of your IP load balancing
Zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
Balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
DisplayName string: Readable label for loadbalancer farm
Port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
Probe TcpFarmProbe: define a backend healthcheck probe
Stickiness string: Stickiness type. No stickiness if null (sourceIp)
VrackNetworkId int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

ServiceName string: The internal name of your IP load balancing
Zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
Balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
DisplayName string: Readable label for loadbalancer farm
Port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
Probe TcpFarmProbeArgs: define a backend healthcheck probe
Stickiness string: Stickiness type. No stickiness if null (sourceIp)
VrackNetworkId int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

serviceName String: The internal name of your IP load balancing
zone String: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
balance String: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName String: Readable label for loadbalancer farm
port Integer: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe TcpFarmProbe: define a backend healthcheck probe
stickiness String: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId Integer: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

serviceName string: The internal name of your IP load balancing
zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName string: Readable label for loadbalancer farm
port number: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe TcpFarmProbe: define a backend healthcheck probe
stickiness string: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId number: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

service_name str: The internal name of your IP load balancing
zone str: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
balance str: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
display_name str: Readable label for loadbalancer farm
port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe iploadbalancing.TcpFarmProbeArgs: define a backend healthcheck probe
stickiness str: Stickiness type. No stickiness if null (sourceIp)
vrack_network_id int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

serviceName String: The internal name of your IP load balancing
zone String: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)
balance String: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName String: Readable label for loadbalancer farm
port Number: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe Property Map: define a backend healthcheck probe
stickiness String: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId Number: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack

Outputs

All input properties are implicitly available as output properties. Additionally, the TcpFarm resource produces the following output properties:

Id string: The provider-assigned unique ID for this managed resource.

Id string: The provider-assigned unique ID for this managed resource.

id String: The provider-assigned unique ID for this managed resource.

id string: The provider-assigned unique ID for this managed resource.

id str: The provider-assigned unique ID for this managed resource.

id String: The provider-assigned unique ID for this managed resource.

Look up Existing TcpFarm Resource

Get an existing TcpFarm resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.

public static get(name: string, id: Input<ID>, state?: TcpFarmState, opts?: CustomResourceOptions): TcpFarm

@staticmethod
def get(resource_name: str,
        id: str,
        opts: Optional[ResourceOptions] = None,
        balance: Optional[str] = None,
        display_name: Optional[str] = None,
        port: Optional[int] = None,
        probe: Optional[_iploadbalancing.TcpFarmProbeArgs] = None,
        service_name: Optional[str] = None,
        stickiness: Optional[str] = None,
        vrack_network_id: Optional[int] = None,
        zone: Optional[str] = None) -> TcpFarm

func GetTcpFarm(ctx *Context, name string, id IDInput, state *TcpFarmState, opts ...ResourceOption) (*TcpFarm, error)

public static TcpFarm Get(string name, Input<string> id, TcpFarmState? state, CustomResourceOptions? opts = null)

public static TcpFarm get(String name, Output<String> id, TcpFarmState state, CustomResourceOptions options)

Resource lookup is not supported in YAML

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

resource_name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

name: The unique name of the resulting resource.
id: The unique provider ID of the resource to lookup.
state: Any extra arguments used during the lookup.
opts: A bag of options that control this resource's behavior.

The following state arguments are supported:

Balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
DisplayName string: Readable label for loadbalancer farm
Port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
Probe TcpFarmProbe: define a backend healthcheck probe
ServiceName string: The internal name of your IP load balancing
Stickiness string: Stickiness type. No stickiness if null (sourceIp)
VrackNetworkId int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
Zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

Balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
DisplayName string: Readable label for loadbalancer farm
Port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
Probe TcpFarmProbeArgs: define a backend healthcheck probe
ServiceName string: The internal name of your IP load balancing
Stickiness string: Stickiness type. No stickiness if null (sourceIp)
VrackNetworkId int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
Zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

balance String: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName String: Readable label for loadbalancer farm
port Integer: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe TcpFarmProbe: define a backend healthcheck probe
serviceName String: The internal name of your IP load balancing
stickiness String: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId Integer: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
zone String: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

balance string: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName string: Readable label for loadbalancer farm
port number: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe TcpFarmProbe: define a backend healthcheck probe
serviceName string: The internal name of your IP load balancing
stickiness string: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId number: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
zone string: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

balance str: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
display_name str: Readable label for loadbalancer farm
port int: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe iploadbalancing.TcpFarmProbeArgs: define a backend healthcheck probe
service_name str: The internal name of your IP load balancing
stickiness str: Stickiness type. No stickiness if null (sourceIp)
vrack_network_id int: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
zone str: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

balance String: Load balancing algorithm. roundrobin if null (first, leastconn, roundrobin, source)
displayName String: Readable label for loadbalancer farm
port Number: Port attached to your farm ([1..49151]). Inherited from frontend if null
probe Property Map: define a backend healthcheck probe
serviceName String: The internal name of your IP load balancing
stickiness String: Stickiness type. No stickiness if null (sourceIp)
vrackNetworkId Number: Internal Load Balancer identifier of the vRack private network to attach to your farm, mandatory when your Load Balancer is attached to a vRack
zone String: Zone where the farm will be defined (ie. GRA, BHS also supports ALL)

Supporting Types

TcpFarmProbe, TcpFarmProbeArgs

Type string: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
ForceSsl bool: Force use of SSL (TLS)
Interval int: probe interval, Value between 30 and 3600 seconds, default 30
Match string: What to match pattern against (contains, default, internal, matches, status)
Method string: HTTP probe method (GET, HEAD, OPTIONS, internal)
Negate bool: Negate probe result
Pattern string: Pattern to match against match
Port int: Port for backends to receive traffic on.
Url string: URL for HTTP probe type.

Type string: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
ForceSsl bool: Force use of SSL (TLS)
Interval int: probe interval, Value between 30 and 3600 seconds, default 30
Match string: What to match pattern against (contains, default, internal, matches, status)
Method string: HTTP probe method (GET, HEAD, OPTIONS, internal)
Negate bool: Negate probe result
Pattern string: Pattern to match against match
Port int: Port for backends to receive traffic on.
Url string: URL for HTTP probe type.

type String: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
forceSsl Boolean: Force use of SSL (TLS)
interval Integer: probe interval, Value between 30 and 3600 seconds, default 30
match String: What to match pattern against (contains, default, internal, matches, status)
method String: HTTP probe method (GET, HEAD, OPTIONS, internal)
negate Boolean: Negate probe result
pattern String: Pattern to match against match
port Integer: Port for backends to receive traffic on.
url String: URL for HTTP probe type.

type string: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
forceSsl boolean: Force use of SSL (TLS)
interval number: probe interval, Value between 30 and 3600 seconds, default 30
match string: What to match pattern against (contains, default, internal, matches, status)
method string: HTTP probe method (GET, HEAD, OPTIONS, internal)
negate boolean: Negate probe result
pattern string: Pattern to match against match
port number: Port for backends to receive traffic on.
url string: URL for HTTP probe type.

type str: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
force_ssl bool: Force use of SSL (TLS)
interval int: probe interval, Value between 30 and 3600 seconds, default 30
match str: What to match pattern against (contains, default, internal, matches, status)
method str: HTTP probe method (GET, HEAD, OPTIONS, internal)
negate bool: Negate probe result
pattern str: Pattern to match against match
port int: Port for backends to receive traffic on.
url str: URL for HTTP probe type.

type String: Valid values : http, internal, mysql, oco, pgsql, smtp, tcp
forceSsl Boolean: Force use of SSL (TLS)
interval Number: probe interval, Value between 30 and 3600 seconds, default 30
match String: What to match pattern against (contains, default, internal, matches, status)
method String: HTTP probe method (GET, HEAD, OPTIONS, internal)
negate Boolean: Negate probe result
pattern String: Pattern to match against match
port Number: Port for backends to receive traffic on.
url String: URL for HTTP probe type.

Import

TCP Farm can be imported using the following format service_name and the id of the farm, separated by “/” e.g.

$ terraform import ovh_iploadbalancing_tcp_farm.farmname service_name/farm_id

To learn more about importing existing cloud resources, see Importing resources.

Package Details

Repository: ovh ovh/pulumi-ovh
License: Apache-2.0
Notes: This Pulumi package is based on the ovh Terraform Provider.

OVHCloud v0.45.0 published on Tuesday, Jun 4, 2024 by OVHcloud

ovh/pulumi-ovh

ovh.IpLoadBalancing.TcpFarm

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Example Usage

Create TcpFarm Resource

Constructor syntax

Parameters

Constructor example

TcpFarm Resource Properties

Inputs

Outputs

Look up Existing TcpFarm Resource

Supporting Types

TcpFarmProbe, TcpFarmProbeArgs

Import

Package Details

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