com.google.api.services.compute.model.RouterStatusNatStatus Maven / Gradle / Ivy
/*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License
* is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
* or implied. See the License for the specific language governing permissions and limitations under
* the License.
*/
/*
* This code was generated by https://github.com/googleapis/google-api-java-client-services/
* Modify at your own risk.
*/
package com.google.api.services.compute.model;
/**
* Status of a NAT contained in this router. Next tag: 9
*
* This is the Java data model class that specifies how to parse/serialize into the JSON that is
* transmitted over HTTP when working with the Compute Engine API. For a detailed explanation see:
* https://developers.google.com/api-client-library/java/google-http-java-client/json
*
*
* @author Google, Inc.
*/
@SuppressWarnings("javadoc")
public final class RouterStatusNatStatus extends com.google.api.client.json.GenericJson {
/**
* A list of IPs auto-allocated for NAT. Example: ["1.1.1.1", "129.2.16.89"]
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.util.List autoAllocatedNatIps;
/**
* A list of IPs auto-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.util.List drainAutoAllocatedNatIps;
/**
* A list of IPs user-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.util.List drainUserAllocatedNatIps;
/**
* The number of extra IPs to allocate. This will be greater than 0 only if user-specified IPs are
* NOT enough to allow all configured VMs to use NAT. This value is meaningful only when auto-
* allocation of NAT IPs is *not* used.
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.lang.Integer minExtraNatIpsNeeded;
/**
* Unique name of this NAT.
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.lang.String name;
/**
* Number of VM endpoints (i.e., Nics) that can use NAT.
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.lang.Integer numVmEndpointsWithNatMappings;
/**
* A list of fully qualified URLs of reserved IP address resources.
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.util.List userAllocatedNatIpResources;
/**
* A list of IPs user-allocated for NAT. They will be raw IP strings like "179.12.26.133".
* The value may be {@code null}.
*/
@com.google.api.client.util.Key
private java.util.List userAllocatedNatIps;
/**
* A list of IPs auto-allocated for NAT. Example: ["1.1.1.1", "129.2.16.89"]
* @return value or {@code null} for none
*/
public java.util.List getAutoAllocatedNatIps() {
return autoAllocatedNatIps;
}
/**
* A list of IPs auto-allocated for NAT. Example: ["1.1.1.1", "129.2.16.89"]
* @param autoAllocatedNatIps autoAllocatedNatIps or {@code null} for none
*/
public RouterStatusNatStatus setAutoAllocatedNatIps(java.util.List autoAllocatedNatIps) {
this.autoAllocatedNatIps = autoAllocatedNatIps;
return this;
}
/**
* A list of IPs auto-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* @return value or {@code null} for none
*/
public java.util.List getDrainAutoAllocatedNatIps() {
return drainAutoAllocatedNatIps;
}
/**
* A list of IPs auto-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* @param drainAutoAllocatedNatIps drainAutoAllocatedNatIps or {@code null} for none
*/
public RouterStatusNatStatus setDrainAutoAllocatedNatIps(java.util.List drainAutoAllocatedNatIps) {
this.drainAutoAllocatedNatIps = drainAutoAllocatedNatIps;
return this;
}
/**
* A list of IPs user-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* @return value or {@code null} for none
*/
public java.util.List getDrainUserAllocatedNatIps() {
return drainUserAllocatedNatIps;
}
/**
* A list of IPs user-allocated for NAT that are in drain mode. Example: ["1.1.1.1",
* "179.12.26.133"].
* @param drainUserAllocatedNatIps drainUserAllocatedNatIps or {@code null} for none
*/
public RouterStatusNatStatus setDrainUserAllocatedNatIps(java.util.List drainUserAllocatedNatIps) {
this.drainUserAllocatedNatIps = drainUserAllocatedNatIps;
return this;
}
/**
* The number of extra IPs to allocate. This will be greater than 0 only if user-specified IPs are
* NOT enough to allow all configured VMs to use NAT. This value is meaningful only when auto-
* allocation of NAT IPs is *not* used.
* @return value or {@code null} for none
*/
public java.lang.Integer getMinExtraNatIpsNeeded() {
return minExtraNatIpsNeeded;
}
/**
* The number of extra IPs to allocate. This will be greater than 0 only if user-specified IPs are
* NOT enough to allow all configured VMs to use NAT. This value is meaningful only when auto-
* allocation of NAT IPs is *not* used.
* @param minExtraNatIpsNeeded minExtraNatIpsNeeded or {@code null} for none
*/
public RouterStatusNatStatus setMinExtraNatIpsNeeded(java.lang.Integer minExtraNatIpsNeeded) {
this.minExtraNatIpsNeeded = minExtraNatIpsNeeded;
return this;
}
/**
* Unique name of this NAT.
* @return value or {@code null} for none
*/
public java.lang.String getName() {
return name;
}
/**
* Unique name of this NAT.
* @param name name or {@code null} for none
*/
public RouterStatusNatStatus setName(java.lang.String name) {
this.name = name;
return this;
}
/**
* Number of VM endpoints (i.e., Nics) that can use NAT.
* @return value or {@code null} for none
*/
public java.lang.Integer getNumVmEndpointsWithNatMappings() {
return numVmEndpointsWithNatMappings;
}
/**
* Number of VM endpoints (i.e., Nics) that can use NAT.
* @param numVmEndpointsWithNatMappings numVmEndpointsWithNatMappings or {@code null} for none
*/
public RouterStatusNatStatus setNumVmEndpointsWithNatMappings(java.lang.Integer numVmEndpointsWithNatMappings) {
this.numVmEndpointsWithNatMappings = numVmEndpointsWithNatMappings;
return this;
}
/**
* A list of fully qualified URLs of reserved IP address resources.
* @return value or {@code null} for none
*/
public java.util.List getUserAllocatedNatIpResources() {
return userAllocatedNatIpResources;
}
/**
* A list of fully qualified URLs of reserved IP address resources.
* @param userAllocatedNatIpResources userAllocatedNatIpResources or {@code null} for none
*/
public RouterStatusNatStatus setUserAllocatedNatIpResources(java.util.List userAllocatedNatIpResources) {
this.userAllocatedNatIpResources = userAllocatedNatIpResources;
return this;
}
/**
* A list of IPs user-allocated for NAT. They will be raw IP strings like "179.12.26.133".
* @return value or {@code null} for none
*/
public java.util.List getUserAllocatedNatIps() {
return userAllocatedNatIps;
}
/**
* A list of IPs user-allocated for NAT. They will be raw IP strings like "179.12.26.133".
* @param userAllocatedNatIps userAllocatedNatIps or {@code null} for none
*/
public RouterStatusNatStatus setUserAllocatedNatIps(java.util.List userAllocatedNatIps) {
this.userAllocatedNatIps = userAllocatedNatIps;
return this;
}
@Override
public RouterStatusNatStatus set(String fieldName, Object value) {
return (RouterStatusNatStatus) super.set(fieldName, value);
}
@Override
public RouterStatusNatStatus clone() {
return (RouterStatusNatStatus) super.clone();
}
}
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