com.amazonaws.services.kinesis.model.SplitShardRequest Maven / Gradle / Ivy
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/*
* Copyright 2010-2016 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 com.amazonaws.AmazonWebServiceRequest;
/**
*
* Splits a shard into two new shards in the Amazon Kinesis stream to increase
* the stream's capacity to ingest and transport data. SplitShard
* is called when there is a need to increase the overall capacity of a stream
* because of an expected increase in the volume of data records being ingested.
*
*
* You can also use SplitShard when a shard appears to be
* approaching its maximum utilization; for example, the producers sending data
* into the specific shard are suddenly sending more than previously
* anticipated. You can also call SplitShard to increase stream
* capacity, so that more Amazon Kinesis applications can simultaneously read
* data from the stream for real-time processing.
*
*
* You must specify the shard to be split and the new hash key, which is the
* position in the shard where the shard gets split in two. In many cases, the
* new hash key might simply be the average of the beginning and ending hash
* key, but it can be any hash key value in the range being mapped into the
* shard. For more information about splitting shards, see Split a Shard in the Amazon Kinesis Streams Developer Guide.
*
*
* You can use DescribeStream to determine the shard ID and hash key
* values for the ShardToSplit and NewStartingHashKey
* parameters that are specified in the SplitShard request.
*
*
* SplitShard is an asynchronous operation. Upon receiving a
* SplitShard request, Amazon Kinesis immediately returns a
* response and sets the stream status to UPDATING. After the
* operation is completed, Amazon Kinesis sets the stream status to
* ACTIVE. Read and write operations continue to work while the
* stream is in the UPDATING state.
*
*
* You can use DescribeStream to check the status of the stream,
* which is returned in StreamStatus. If the stream is in the
* ACTIVE state, you can call SplitShard. If a stream
* is in CREATING or UPDATING or DELETING
* states, DescribeStream returns a
* ResourceInUseException.
*
*
* If the specified stream does not exist, DescribeStream returns a
* ResourceNotFoundException. If you try to create more shards than
* are authorized for your account, you receive a
* LimitExceededException.
*
*
* For the default shard limit for an AWS account, see Streams Limits in the Amazon Kinesis Streams Developer Guide. If
* you need to increase this limit, contact AWS Support.
*
*
* If you try to operate on too many streams simultaneously using
* CreateStream, DeleteStream, MergeShards, and/or
* SplitShard, you receive a LimitExceededException.
*
*
* SplitShard has limit of 5 transactions per second per account.
*
*/
public class SplitShardRequest extends AmazonWebServiceRequest implements Serializable {
/**
*
* The name of the stream for the shard split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*/
private String streamName;
/**
*
* The shard ID of the shard to split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*/
private String shardToSplit;
/**
*
* A hash key value for the starting hash key of one of the child shards
* created by the split. The hash key range for a given shard constitutes a
* set of ordered contiguous positive integers. The value for
* NewStartingHashKey must be in the range of hash keys being
* mapped into the shard. The NewStartingHashKey hash key value
* and all higher hash key values in hash key range are distributed to one
* of the child shards. All the lower hash key values in the range are
* distributed to the other child shard.
*
*
* Constraints:
* Pattern: 0|([1-9]\d{0,38})
*/
private String newStartingHashKey;
/**
*
* The name of the stream for the shard split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @return
* The name of the stream for the shard split.
*
*/
public String getStreamName() {
return streamName;
}
/**
*
* The name of the stream for the shard split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @param streamName
* The name of the stream for the shard split.
*
*/
public void setStreamName(String streamName) {
this.streamName = streamName;
}
/**
*
* The name of the stream for the shard split.
*
*
* Returns a reference to this object so that method calls can be chained
* together.
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @param streamName
* The name of the stream for the shard split.
*
* @return A reference to this updated object so that method calls can be
* chained together.
*/
public SplitShardRequest withStreamName(String streamName) {
this.streamName = streamName;
return this;
}
/**
*
* The shard ID of the shard to split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @return
* The shard ID of the shard to split.
*
*/
public String getShardToSplit() {
return shardToSplit;
}
/**
*
* The shard ID of the shard to split.
*
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @param shardToSplit
* The shard ID of the shard to split.
*
*/
public void setShardToSplit(String shardToSplit) {
this.shardToSplit = shardToSplit;
}
/**
*
* The shard ID of the shard to split.
*
*
* Returns a reference to this object so that method calls can be chained
* together.
*
* Constraints:
* Length: 1 - 128
* Pattern: [a-zA-Z0-9_.-]+
*
* @param shardToSplit
* The shard ID of the shard to split.
*
* @return A reference to this updated object so that method calls can be
* chained together.
*/
public SplitShardRequest withShardToSplit(String shardToSplit) {
this.shardToSplit = shardToSplit;
return this;
}
/**
*
* A hash key value for the starting hash key of one of the child shards
* created by the split. The hash key range for a given shard constitutes a
* set of ordered contiguous positive integers. The value for
* NewStartingHashKey must be in the range of hash keys being
* mapped into the shard. The NewStartingHashKey hash key value
* and all higher hash key values in hash key range are distributed to one
* of the child shards. All the lower hash key values in the range are
* distributed to the other child shard.
*
*
* Constraints:
* Pattern: 0|([1-9]\d{0,38})
*
* @return
* A hash key value for the starting hash key of one of the child
* shards created by the split. The hash key range for a given shard
* constitutes a set of ordered contiguous positive integers. The
* value for NewStartingHashKey must be in the range of
* hash keys being mapped into the shard. The
* NewStartingHashKey hash key value and all higher
* hash key values in hash key range are distributed to one of the
* child shards. All the lower hash key values in the range are
* distributed to the other child shard.
*
*/
public String getNewStartingHashKey() {
return newStartingHashKey;
}
/**
*
* A hash key value for the starting hash key of one of the child shards
* created by the split. The hash key range for a given shard constitutes a
* set of ordered contiguous positive integers. The value for
* NewStartingHashKey must be in the range of hash keys being
* mapped into the shard. The NewStartingHashKey hash key value
* and all higher hash key values in hash key range are distributed to one
* of the child shards. All the lower hash key values in the range are
* distributed to the other child shard.
*
*
* Constraints:
* Pattern: 0|([1-9]\d{0,38})
*
* @param newStartingHashKey
* A hash key value for the starting hash key of one of the child
* shards created by the split. The hash key range for a given
* shard constitutes a set of ordered contiguous positive
* integers. The value for NewStartingHashKey must
* be in the range of hash keys being mapped into the shard. The
* NewStartingHashKey hash key value and all higher
* hash key values in hash key range are distributed to one of
* the child shards. All the lower hash key values in the range
* are distributed to the other child shard.
*
*/
public void setNewStartingHashKey(String newStartingHashKey) {
this.newStartingHashKey = newStartingHashKey;
}
/**
*
* A hash key value for the starting hash key of one of the child shards
* created by the split. The hash key range for a given shard constitutes a
* set of ordered contiguous positive integers. The value for
* NewStartingHashKey must be in the range of hash keys being
* mapped into the shard. The NewStartingHashKey hash key value
* and all higher hash key values in hash key range are distributed to one
* of the child shards. All the lower hash key values in the range are
* distributed to the other child shard.
*
*
* Returns a reference to this object so that method calls can be chained
* together.
*
* Constraints:
* Pattern: 0|([1-9]\d{0,38})
*
* @param newStartingHashKey
* A hash key value for the starting hash key of one of the child
* shards created by the split. The hash key range for a given
* shard constitutes a set of ordered contiguous positive
* integers. The value for NewStartingHashKey must
* be in the range of hash keys being mapped into the shard. The
* NewStartingHashKey hash key value and all higher
* hash key values in hash key range are distributed to one of
* the child shards. All the lower hash key values in the range
* are distributed to the other child shard.
*
* @return A reference to this updated object so that method calls can be
* chained together.
*/
public SplitShardRequest withNewStartingHashKey(String newStartingHashKey) {
this.newStartingHashKey = newStartingHashKey;
return this;
}
/**
* Returns a string representation of this object; useful for testing and
* debugging.
*
* @return A string representation of this object.
* @see java.lang.Object#toString()
*/
@Override
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append("{");
if (getStreamName() != null)
sb.append("StreamName: " + getStreamName() + ",");
if (getShardToSplit() != null)
sb.append("ShardToSplit: " + getShardToSplit() + ",");
if (getNewStartingHashKey() != null)
sb.append("NewStartingHashKey: " + getNewStartingHashKey());
sb.append("}");
return sb.toString();
}
@Override
public int hashCode() {
final int prime = 31;
int hashCode = 1;
hashCode = prime * hashCode + ((getStreamName() == null) ? 0 : getStreamName().hashCode());
hashCode = prime * hashCode
+ ((getShardToSplit() == null) ? 0 : getShardToSplit().hashCode());
hashCode = prime * hashCode
+ ((getNewStartingHashKey() == null) ? 0 : getNewStartingHashKey().hashCode());
return hashCode;
}
@Override
public boolean equals(Object obj) {
if (this == obj)
return true;
if (obj == null)
return false;
if (obj instanceof SplitShardRequest == false)
return false;
SplitShardRequest other = (SplitShardRequest) obj;
if (other.getStreamName() == null ^ this.getStreamName() == null)
return false;
if (other.getStreamName() != null
&& other.getStreamName().equals(this.getStreamName()) == false)
return false;
if (other.getShardToSplit() == null ^ this.getShardToSplit() == null)
return false;
if (other.getShardToSplit() != null
&& other.getShardToSplit().equals(this.getShardToSplit()) == false)
return false;
if (other.getNewStartingHashKey() == null ^ this.getNewStartingHashKey() == null)
return false;
if (other.getNewStartingHashKey() != null
&& other.getNewStartingHashKey().equals(this.getNewStartingHashKey()) == false)
return false;
return true;
}
}