com.azure.resourcemanager.network.models.InboundNatPool Maven / Gradle / Ivy
// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT License.
// Code generated by Microsoft (R) AutoRest Code Generator.
package com.azure.resourcemanager.network.models;
import com.azure.core.annotation.Fluent;
import com.azure.core.management.SubResource;
import com.azure.json.JsonReader;
import com.azure.json.JsonToken;
import com.azure.json.JsonWriter;
import com.azure.resourcemanager.network.fluent.models.InboundNatPoolPropertiesFormat;
import java.io.IOException;
/**
* Inbound NAT pool of the load balancer.
*/
@Fluent
public final class InboundNatPool extends SubResource {
/*
* Properties of load balancer inbound nat pool.
*/
private InboundNatPoolPropertiesFormat innerProperties;
/*
* The name of the resource that is unique within the set of inbound NAT pools used by the load balancer. This name
* can be used to access the resource.
*/
private String name;
/*
* A unique read-only string that changes whenever the resource is updated.
*/
private String etag;
/*
* Type of the resource.
*/
private String type;
/**
* Creates an instance of InboundNatPool class.
*/
public InboundNatPool() {
}
/**
* Get the innerProperties property: Properties of load balancer inbound nat pool.
*
* @return the innerProperties value.
*/
private InboundNatPoolPropertiesFormat innerProperties() {
return this.innerProperties;
}
/**
* Get the name property: The name of the resource that is unique within the set of inbound NAT pools used by the
* load balancer. This name can be used to access the resource.
*
* @return the name value.
*/
public String name() {
return this.name;
}
/**
* Set the name property: The name of the resource that is unique within the set of inbound NAT pools used by the
* load balancer. This name can be used to access the resource.
*
* @param name the name value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withName(String name) {
this.name = name;
return this;
}
/**
* Get the etag property: A unique read-only string that changes whenever the resource is updated.
*
* @return the etag value.
*/
public String etag() {
return this.etag;
}
/**
* Get the type property: Type of the resource.
*
* @return the type value.
*/
public String type() {
return this.type;
}
/**
* {@inheritDoc}
*/
@Override
public InboundNatPool withId(String id) {
super.withId(id);
return this;
}
/**
* Get the frontendIpConfiguration property: A reference to frontend IP addresses.
*
* @return the frontendIpConfiguration value.
*/
public SubResource frontendIpConfiguration() {
return this.innerProperties() == null ? null : this.innerProperties().frontendIpConfiguration();
}
/**
* Set the frontendIpConfiguration property: A reference to frontend IP addresses.
*
* @param frontendIpConfiguration the frontendIpConfiguration value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withFrontendIpConfiguration(SubResource frontendIpConfiguration) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withFrontendIpConfiguration(frontendIpConfiguration);
return this;
}
/**
* Get the protocol property: The reference to the transport protocol used by the inbound NAT pool.
*
* @return the protocol value.
*/
public TransportProtocol protocol() {
return this.innerProperties() == null ? null : this.innerProperties().protocol();
}
/**
* Set the protocol property: The reference to the transport protocol used by the inbound NAT pool.
*
* @param protocol the protocol value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withProtocol(TransportProtocol protocol) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withProtocol(protocol);
return this;
}
/**
* Get the frontendPortRangeStart property: The first port number in the range of external ports that will be used
* to provide Inbound Nat to NICs associated with a load balancer. Acceptable values range between 1 and 65534.
*
* @return the frontendPortRangeStart value.
*/
public Integer frontendPortRangeStart() {
return this.innerProperties() == null ? null : this.innerProperties().frontendPortRangeStart();
}
/**
* Set the frontendPortRangeStart property: The first port number in the range of external ports that will be used
* to provide Inbound Nat to NICs associated with a load balancer. Acceptable values range between 1 and 65534.
*
* @param frontendPortRangeStart the frontendPortRangeStart value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withFrontendPortRangeStart(Integer frontendPortRangeStart) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withFrontendPortRangeStart(frontendPortRangeStart);
return this;
}
/**
* Get the frontendPortRangeEnd property: The last port number in the range of external ports that will be used to
* provide Inbound Nat to NICs associated with a load balancer. Acceptable values range between 1 and 65535.
*
* @return the frontendPortRangeEnd value.
*/
public Integer frontendPortRangeEnd() {
return this.innerProperties() == null ? null : this.innerProperties().frontendPortRangeEnd();
}
/**
* Set the frontendPortRangeEnd property: The last port number in the range of external ports that will be used to
* provide Inbound Nat to NICs associated with a load balancer. Acceptable values range between 1 and 65535.
*
* @param frontendPortRangeEnd the frontendPortRangeEnd value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withFrontendPortRangeEnd(Integer frontendPortRangeEnd) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withFrontendPortRangeEnd(frontendPortRangeEnd);
return this;
}
/**
* Get the backendPort property: The port used for internal connections on the endpoint. Acceptable values are
* between 1 and 65535.
*
* @return the backendPort value.
*/
public Integer backendPort() {
return this.innerProperties() == null ? null : this.innerProperties().backendPort();
}
/**
* Set the backendPort property: The port used for internal connections on the endpoint. Acceptable values are
* between 1 and 65535.
*
* @param backendPort the backendPort value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withBackendPort(Integer backendPort) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withBackendPort(backendPort);
return this;
}
/**
* Get the idleTimeoutInMinutes property: The timeout for the TCP idle connection. The value can be set between 4
* and 30 minutes. The default value is 4 minutes. This element is only used when the protocol is set to TCP.
*
* @return the idleTimeoutInMinutes value.
*/
public Integer idleTimeoutInMinutes() {
return this.innerProperties() == null ? null : this.innerProperties().idleTimeoutInMinutes();
}
/**
* Set the idleTimeoutInMinutes property: The timeout for the TCP idle connection. The value can be set between 4
* and 30 minutes. The default value is 4 minutes. This element is only used when the protocol is set to TCP.
*
* @param idleTimeoutInMinutes the idleTimeoutInMinutes value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withIdleTimeoutInMinutes(Integer idleTimeoutInMinutes) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withIdleTimeoutInMinutes(idleTimeoutInMinutes);
return this;
}
/**
* Get the enableFloatingIp property: Configures a virtual machine's endpoint for the floating IP capability
* required to configure a SQL AlwaysOn Availability Group. This setting is required when using the SQL AlwaysOn
* Availability Groups in SQL server. This setting can't be changed after you create the endpoint.
*
* @return the enableFloatingIp value.
*/
public Boolean enableFloatingIp() {
return this.innerProperties() == null ? null : this.innerProperties().enableFloatingIp();
}
/**
* Set the enableFloatingIp property: Configures a virtual machine's endpoint for the floating IP capability
* required to configure a SQL AlwaysOn Availability Group. This setting is required when using the SQL AlwaysOn
* Availability Groups in SQL server. This setting can't be changed after you create the endpoint.
*
* @param enableFloatingIp the enableFloatingIp value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withEnableFloatingIp(Boolean enableFloatingIp) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withEnableFloatingIp(enableFloatingIp);
return this;
}
/**
* Get the enableTcpReset property: Receive bidirectional TCP Reset on TCP flow idle timeout or unexpected
* connection termination. This element is only used when the protocol is set to TCP.
*
* @return the enableTcpReset value.
*/
public Boolean enableTcpReset() {
return this.innerProperties() == null ? null : this.innerProperties().enableTcpReset();
}
/**
* Set the enableTcpReset property: Receive bidirectional TCP Reset on TCP flow idle timeout or unexpected
* connection termination. This element is only used when the protocol is set to TCP.
*
* @param enableTcpReset the enableTcpReset value to set.
* @return the InboundNatPool object itself.
*/
public InboundNatPool withEnableTcpReset(Boolean enableTcpReset) {
if (this.innerProperties() == null) {
this.innerProperties = new InboundNatPoolPropertiesFormat();
}
this.innerProperties().withEnableTcpReset(enableTcpReset);
return this;
}
/**
* Get the provisioningState property: The provisioning state of the inbound NAT pool resource.
*
* @return the provisioningState value.
*/
public ProvisioningState provisioningState() {
return this.innerProperties() == null ? null : this.innerProperties().provisioningState();
}
/**
* Validates the instance.
*
* @throws IllegalArgumentException thrown if the instance is not valid.
*/
public void validate() {
if (innerProperties() != null) {
innerProperties().validate();
}
}
/**
* {@inheritDoc}
*/
@Override
public JsonWriter toJson(JsonWriter jsonWriter) throws IOException {
jsonWriter.writeStartObject();
jsonWriter.writeStringField("id", id());
jsonWriter.writeJsonField("properties", this.innerProperties);
jsonWriter.writeStringField("name", this.name);
return jsonWriter.writeEndObject();
}
/**
* Reads an instance of InboundNatPool from the JsonReader.
*
* @param jsonReader The JsonReader being read.
* @return An instance of InboundNatPool if the JsonReader was pointing to an instance of it, or null if it was
* pointing to JSON null.
* @throws IOException If an error occurs while reading the InboundNatPool.
*/
public static InboundNatPool fromJson(JsonReader jsonReader) throws IOException {
return jsonReader.readObject(reader -> {
InboundNatPool deserializedInboundNatPool = new InboundNatPool();
while (reader.nextToken() != JsonToken.END_OBJECT) {
String fieldName = reader.getFieldName();
reader.nextToken();
if ("id".equals(fieldName)) {
deserializedInboundNatPool.withId(reader.getString());
} else if ("properties".equals(fieldName)) {
deserializedInboundNatPool.innerProperties = InboundNatPoolPropertiesFormat.fromJson(reader);
} else if ("name".equals(fieldName)) {
deserializedInboundNatPool.name = reader.getString();
} else if ("etag".equals(fieldName)) {
deserializedInboundNatPool.etag = reader.getString();
} else if ("type".equals(fieldName)) {
deserializedInboundNatPool.type = reader.getString();
} else {
reader.skipChildren();
}
}
return deserializedInboundNatPool;
});
}
}
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