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The AWS Java SDK for Amazon Kinesis module holds the client classes that are used for communicating with Amazon Kinesis Service

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/*
 * Copyright 2019-2024 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 * 
 * Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with
 * the License. A copy of the License is located at
 * 
 * http://aws.amazon.com/apache2.0
 * 
 * or in the "license" file accompanying this file. This file 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.
 */
package com.amazonaws.services.kinesis.model;

import java.io.Serializable;
import javax.annotation.Generated;
import com.amazonaws.protocol.StructuredPojo;
import com.amazonaws.protocol.ProtocolMarshaller;

/**
 * 

* The unit of data of the Kinesis data stream, which is composed of a sequence number, a partition key, and a data * blob. *

* * @see AWS API * Documentation */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class Record implements Serializable, Cloneable, StructuredPojo { /** *

* The unique identifier of the record within its shard. *

*/ private String sequenceNumber; /** *

* The approximate time that the record was inserted into the stream. *

*/ private java.util.Date approximateArrivalTimestamp; /** *

* The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not inspect, * interpret, or change the data in the blob in any way. When the data blob (the payload before base64-encoding) is * added to the partition key size, the total size must not exceed the maximum record size (1 MiB). *

*/ private java.nio.ByteBuffer data; /** *

* Identifies which shard in the stream the data record is assigned to. *

*/ private String partitionKey; /** *

* The encryption type used on the record. This parameter can be one of the following values: *

*
    *
  • *

    * NONE: Do not encrypt the records in the stream. *

    *
  • *
  • *

    * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon Web * Services KMS key. *

    *
  • *
*/ private String encryptionType; /** *

* The unique identifier of the record within its shard. *

* * @param sequenceNumber * The unique identifier of the record within its shard. */ public void setSequenceNumber(String sequenceNumber) { this.sequenceNumber = sequenceNumber; } /** *

* The unique identifier of the record within its shard. *

* * @return The unique identifier of the record within its shard. */ public String getSequenceNumber() { return this.sequenceNumber; } /** *

* The unique identifier of the record within its shard. *

* * @param sequenceNumber * The unique identifier of the record within its shard. * @return Returns a reference to this object so that method calls can be chained together. */ public Record withSequenceNumber(String sequenceNumber) { setSequenceNumber(sequenceNumber); return this; } /** *

* The approximate time that the record was inserted into the stream. *

* * @param approximateArrivalTimestamp * The approximate time that the record was inserted into the stream. */ public void setApproximateArrivalTimestamp(java.util.Date approximateArrivalTimestamp) { this.approximateArrivalTimestamp = approximateArrivalTimestamp; } /** *

* The approximate time that the record was inserted into the stream. *

* * @return The approximate time that the record was inserted into the stream. */ public java.util.Date getApproximateArrivalTimestamp() { return this.approximateArrivalTimestamp; } /** *

* The approximate time that the record was inserted into the stream. *

* * @param approximateArrivalTimestamp * The approximate time that the record was inserted into the stream. * @return Returns a reference to this object so that method calls can be chained together. */ public Record withApproximateArrivalTimestamp(java.util.Date approximateArrivalTimestamp) { setApproximateArrivalTimestamp(approximateArrivalTimestamp); return this; } /** *

* The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not inspect, * interpret, or change the data in the blob in any way. When the data blob (the payload before base64-encoding) is * added to the partition key size, the total size must not exceed the maximum record size (1 MiB). *

*

* The AWS SDK for Java performs a Base64 encoding on this field before sending this request to the AWS service. * Users of the SDK should not perform Base64 encoding on this field. *

*

* Warning: ByteBuffers returned by the SDK are mutable. Changes to the content or position of the byte buffer will * be seen by all objects that have a reference to this object. It is recommended to call ByteBuffer.duplicate() or * ByteBuffer.asReadOnlyBuffer() before using or reading from the buffer. This behavior will be changed in a future * major version of the SDK. *

* * @param data * The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not * inspect, interpret, or change the data in the blob in any way. When the data blob (the payload before * base64-encoding) is added to the partition key size, the total size must not exceed the maximum record * size (1 MiB). */ public void setData(java.nio.ByteBuffer data) { this.data = data; } /** *

* The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not inspect, * interpret, or change the data in the blob in any way. When the data blob (the payload before base64-encoding) is * added to the partition key size, the total size must not exceed the maximum record size (1 MiB). *

*

* {@code ByteBuffer}s are stateful. Calling their {@code get} methods changes their {@code position}. We recommend * using {@link java.nio.ByteBuffer#asReadOnlyBuffer()} to create a read-only view of the buffer with an independent * {@code position}, and calling {@code get} methods on this rather than directly on the returned {@code ByteBuffer}. * Doing so will ensure that anyone else using the {@code ByteBuffer} will not be affected by changes to the * {@code position}. *

* * @return The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not * inspect, interpret, or change the data in the blob in any way. When the data blob (the payload before * base64-encoding) is added to the partition key size, the total size must not exceed the maximum record * size (1 MiB). */ public java.nio.ByteBuffer getData() { return this.data; } /** *

* The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not inspect, * interpret, or change the data in the blob in any way. When the data blob (the payload before base64-encoding) is * added to the partition key size, the total size must not exceed the maximum record size (1 MiB). *

*

* The AWS SDK for Java performs a Base64 encoding on this field before sending this request to the AWS service. * Users of the SDK should not perform Base64 encoding on this field. *

*

* Warning: ByteBuffers returned by the SDK are mutable. Changes to the content or position of the byte buffer will * be seen by all objects that have a reference to this object. It is recommended to call ByteBuffer.duplicate() or * ByteBuffer.asReadOnlyBuffer() before using or reading from the buffer. This behavior will be changed in a future * major version of the SDK. *

* * @param data * The data blob. The data in the blob is both opaque and immutable to Kinesis Data Streams, which does not * inspect, interpret, or change the data in the blob in any way. When the data blob (the payload before * base64-encoding) is added to the partition key size, the total size must not exceed the maximum record * size (1 MiB). * @return Returns a reference to this object so that method calls can be chained together. */ public Record withData(java.nio.ByteBuffer data) { setData(data); return this; } /** *

* Identifies which shard in the stream the data record is assigned to. *

* * @param partitionKey * Identifies which shard in the stream the data record is assigned to. */ public void setPartitionKey(String partitionKey) { this.partitionKey = partitionKey; } /** *

* Identifies which shard in the stream the data record is assigned to. *

* * @return Identifies which shard in the stream the data record is assigned to. */ public String getPartitionKey() { return this.partitionKey; } /** *

* Identifies which shard in the stream the data record is assigned to. *

* * @param partitionKey * Identifies which shard in the stream the data record is assigned to. * @return Returns a reference to this object so that method calls can be chained together. */ public Record withPartitionKey(String partitionKey) { setPartitionKey(partitionKey); return this; } /** *

* The encryption type used on the record. This parameter can be one of the following values: *

*
    *
  • *

    * NONE: Do not encrypt the records in the stream. *

    *
  • *
  • *

    * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon Web * Services KMS key. *

    *
  • *
* * @param encryptionType * The encryption type used on the record. This parameter can be one of the following values:

*
    *
  • *

    * NONE: Do not encrypt the records in the stream. *

    *
  • *
  • *

    * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon * Web Services KMS key. *

    *
  • * @see EncryptionType */ public void setEncryptionType(String encryptionType) { this.encryptionType = encryptionType; } /** *

    * The encryption type used on the record. This parameter can be one of the following values: *

    *
      *
    • *

      * NONE: Do not encrypt the records in the stream. *

      *
    • *
    • *

      * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon Web * Services KMS key. *

      *
    • *
    * * @return The encryption type used on the record. This parameter can be one of the following values:

    *
      *
    • *

      * NONE: Do not encrypt the records in the stream. *

      *
    • *
    • *

      * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon * Web Services KMS key. *

      *
    • * @see EncryptionType */ public String getEncryptionType() { return this.encryptionType; } /** *

      * The encryption type used on the record. This parameter can be one of the following values: *

      *
        *
      • *

        * NONE: Do not encrypt the records in the stream. *

        *
      • *
      • *

        * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon Web * Services KMS key. *

        *
      • *
      * * @param encryptionType * The encryption type used on the record. This parameter can be one of the following values:

      *
        *
      • *

        * NONE: Do not encrypt the records in the stream. *

        *
      • *
      • *

        * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon * Web Services KMS key. *

        *
      • * @return Returns a reference to this object so that method calls can be chained together. * @see EncryptionType */ public Record withEncryptionType(String encryptionType) { setEncryptionType(encryptionType); return this; } /** *

        * The encryption type used on the record. This parameter can be one of the following values: *

        *
          *
        • *

          * NONE: Do not encrypt the records in the stream. *

          *
        • *
        • *

          * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon Web * Services KMS key. *

          *
        • *
        * * @param encryptionType * The encryption type used on the record. This parameter can be one of the following values:

        *
          *
        • *

          * NONE: Do not encrypt the records in the stream. *

          *
        • *
        • *

          * KMS: Use server-side encryption on the records in the stream using a customer-managed Amazon * Web Services KMS key. *

          *
        • * @return Returns a reference to this object so that method calls can be chained together. * @see EncryptionType */ public Record withEncryptionType(EncryptionType encryptionType) { this.encryptionType = encryptionType.toString(); return this; } /** * Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be * redacted from this string using a placeholder value. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getSequenceNumber() != null) sb.append("SequenceNumber: ").append(getSequenceNumber()).append(","); if (getApproximateArrivalTimestamp() != null) sb.append("ApproximateArrivalTimestamp: ").append(getApproximateArrivalTimestamp()).append(","); if (getData() != null) sb.append("Data: ").append(getData()).append(","); if (getPartitionKey() != null) sb.append("PartitionKey: ").append(getPartitionKey()).append(","); if (getEncryptionType() != null) sb.append("EncryptionType: ").append(getEncryptionType()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof Record == false) return false; Record other = (Record) obj; if (other.getSequenceNumber() == null ^ this.getSequenceNumber() == null) return false; if (other.getSequenceNumber() != null && other.getSequenceNumber().equals(this.getSequenceNumber()) == false) return false; if (other.getApproximateArrivalTimestamp() == null ^ this.getApproximateArrivalTimestamp() == null) return false; if (other.getApproximateArrivalTimestamp() != null && other.getApproximateArrivalTimestamp().equals(this.getApproximateArrivalTimestamp()) == false) return false; if (other.getData() == null ^ this.getData() == null) return false; if (other.getData() != null && other.getData().equals(this.getData()) == false) return false; if (other.getPartitionKey() == null ^ this.getPartitionKey() == null) return false; if (other.getPartitionKey() != null && other.getPartitionKey().equals(this.getPartitionKey()) == false) return false; if (other.getEncryptionType() == null ^ this.getEncryptionType() == null) return false; if (other.getEncryptionType() != null && other.getEncryptionType().equals(this.getEncryptionType()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getSequenceNumber() == null) ? 0 : getSequenceNumber().hashCode()); hashCode = prime * hashCode + ((getApproximateArrivalTimestamp() == null) ? 0 : getApproximateArrivalTimestamp().hashCode()); hashCode = prime * hashCode + ((getData() == null) ? 0 : getData().hashCode()); hashCode = prime * hashCode + ((getPartitionKey() == null) ? 0 : getPartitionKey().hashCode()); hashCode = prime * hashCode + ((getEncryptionType() == null) ? 0 : getEncryptionType().hashCode()); return hashCode; } @Override public Record clone() { try { return (Record) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } @com.amazonaws.annotation.SdkInternalApi @Override public void marshall(ProtocolMarshaller protocolMarshaller) { com.amazonaws.services.kinesis.model.transform.RecordMarshaller.getInstance().marshall(this, protocolMarshaller); } }




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