Getting started with Aurora zero-ETL integrations with
Amazon Redshift
Before you create a zero-ETL integration with Amazon Redshift, configure your Aurora DB cluster and your Amazon Redshift data
warehouse with the required parameters and permissions. During setup, you'll complete the
following steps:
After you complete these tasks, continue to Creating Aurora zero-ETL integrations with
Amazon Redshift.
You can use the AWS SDKs to automate the setup process for you. For more information,
see Set up an integration using the AWS SDKs.
Step 1: Create a custom DB cluster parameter group
Aurora zero-ETL integrations with Amazon Redshift require specific values for the
DB cluster parameters that control replication. Specifically, Aurora MySQL requires
enhanced binlog (aurora_enhanced_binlog), and
Aurora PostgreSQL requires enhanced logical replication
(aurora.enhanced_logical_replication).
To configure binary logging or logical replication, you must first create a custom
DB cluster parameter group, and then associate it with the source DB cluster.
Aurora MySQL (aurora-mysql8.0
family):
In addition, make sure that the binlog_transaction_compression
parameter is not set to ON, and that the
binlog_row_value_options parameter is not set
to PARTIAL_JSON.
For more information about Aurora MySQL enhanced binlog, see Setting up enhanced binlog for Aurora MySQL.
Aurora PostgreSQL (aurora-postgresql16
family):
-
rds.logical_replication=1
-
aurora.enhanced_logical_replication=1
-
aurora.logical_replication_backup=0
-
aurora.logical_replication_globaldb=0
Enabling enhanced logical replication
(aurora.enhanced_logical_replication) will always write all column
values to the write ahead log (WAL) even if REPLICA IDENTITY FULL isn't
enabled. This might increase the IOPS for your source DB cluster.
If you disable the
aurora.enhanced_logical_replication DB cluster parameter after the
integration is created, the primary DB instance invalidates all logical replication slots.
This stops replication from the source to the target, and you must recreate
replication slots on the primary DB instance. To prevent interruptions, keep the parameter
consistently enabled during replication.
Step 2: Select or create a source DB cluster
After you create a custom DB cluster parameter
group, choose or create an Aurora DB cluster. This cluster
will be the source of data replication to Amazon Redshift. You can
specify a DB cluster that uses provisioned DB instances or Aurora Serverless v2 DB instances as the
source. For instructions to create a DB cluster, see
Creating an Amazon Aurora DB cluster or
Creating a DB cluster that uses Aurora Serverless v2.
The database must be running a supported DB engine version. For a list of supported
versions, see Supported
Regions and Aurora DB engines for zero-ETL integrations with Amazon Redshift.
When you create the database, under Additional configuration,
change the default DB cluster parameter
group to the custom parameter group that you created in the previous
step.
Step 3: Create a target Amazon Redshift data
warehouse
After you create your source DB cluster, you must create and configure a target data
warehouse in Amazon Redshift. The data warehouse must meet the following requirements:
-
Using an RA3 node type with at least two nodes, or Redshift Serverless.
-
Encrypted (if using a provisioned cluster). For more information, see Amazon Redshift database
encryption.
For instructions to create a data warehouse, see Creating a
cluster for provisioned clusters, or Creating a workgroup with a namespace for Redshift Serverless.
Enable case sensitivity on
the data warehouse
For the integration to be successful, the case sensitivity parameter (enable_case_sensitive_identifier) must be enabled for
the data warehouse. By default, case sensitivity is disabled on all provisioned
clusters and Redshift Serverless workgroups.
To enable case sensitivity, perform the following steps depending on your data
warehouse type:
-
Provisioned cluster – To enable
case sensitivity on a provisioned cluster, create a custom parameter group
with the enable_case_sensitive_identifier parameter enabled.
Then, associate the parameter group with the cluster. For instructions, see
Managing parameter groups using the console or Configuring parameter values using the AWS CLI.
Remember to reboot the cluster after you associate the custom
parameter group with it.
-
Serverless workgroup – To enable
case sensitivity on a Redshift Serverless workgroup, you must use the AWS CLI. The Amazon Redshift
console doesn't currently support modifying Redshift Serverless parameter values. Send the
following update-workgroup request:
aws redshift-serverless update-workgroup \
--workgroup-name target-workgroup \
--config-parameters parameterKey=enable_case_sensitive_identifier,parameterValue=true
You don't need to reboot a workgroup after you modify its parameter
values.
Configure authorization for the data warehouse
After you create a data warehouse, you must configure the source Aurora DB cluster as an authorized integration source. For instructions, see Configure authorization for your Amazon Redshift data warehouse.
Set up an integration using the AWS SDKs
Rather than setting up each resource manually, you can run the following Python script
to automatically set up the required resources for you. The code example uses the AWS SDK for Python (Boto3) to create a source Amazon Aurora
DB cluster and target
Amazon Redshift data warehouse, each with the required parameter values. It then waits for the
databases to be available before creating a zero-ETL integration between them. You can comment
out different functions depending on which resources you need to set up.
To install the required dependencies, run the following commands:
pip install boto3
pip install time
Within the script, optionally modify the names of the source, target, and parameter
groups. The final function creates an integration named my-integration
after the resources are set up.
- Aurora MySQL
-
import boto3
import time
# Build the client using the default credential configuration.
# You can use the CLI and run 'aws configure' to set access key, secret
# key, and default Region.
rds = boto3.client('rds')
redshift = boto3.client('redshift')
sts = boto3.client('sts')
source_cluster_name = 'my-source-cluster' # A name for the source cluster
source_param_group_name = 'my-source-param-group' # A name for the source parameter group
target_cluster_name = 'my-target-cluster' # A name for the target cluster
target_param_group_name = 'my-target-param-group' # A name for the target parameter group
def create_source_cluster(*args):
"""Creates a source Aurora MySQL DB cluster"""
response = rds.create_db_cluster_parameter_group(
DBClusterParameterGroupName=source_param_group_name,
DBParameterGroupFamily='aurora-mysql8.0',
Description='For Aurora MySQL binary logging'
)
print('Created source parameter group: ' + response['DBClusterParameterGroup']['DBClusterParameterGroupName'])
response = rds.modify_db_cluster_parameter_group(
DBClusterParameterGroupName=source_param_group_name,
Parameters=[
{
'ParameterName': 'aurora_enhanced_binlog',
'ParameterValue': '1',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'binlog_backup',
'ParameterValue': '0',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'binlog_format',
'ParameterValue': 'ROW',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'binlog_replication_globaldb',
'ParameterValue': '0',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'binlog_row_image',
'ParameterValue': 'full',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'binlog_row_metadata',
'ParameterValue': 'full',
'ApplyMethod': 'pending-reboot'
}
]
)
print('Modified source parameter group: ' + response['DBClusterParameterGroupName'])
response = rds.create_db_cluster(
DBClusterIdentifier=source_cluster_name,
DBClusterParameterGroupName=source_param_group_name,
Engine='aurora-mysql',
EngineVersion='8.0.mysql_aurora.3.05.2',
DatabaseName='myauroradb',
MasterUsername='username',
MasterUserPassword='Password01**'
)
print('Creating source cluster: ' + response['DBCluster']['DBClusterIdentifier'])
source_arn = (response['DBCluster']['DBClusterArn'])
create_target_cluster(target_cluster_name, source_arn, target_param_group_name)
response = rds.create_db_instance(
DBInstanceClass='db.r6g.2xlarge',
DBClusterIdentifier=source_cluster_name,
DBInstanceIdentifier=source_cluster_name + '-instance',
Engine='aurora-mysql'
)
return(response)
def create_target_cluster(target_cluster_name, source_arn, target_param_group_name):
"""Creates a target Redshift cluster"""
response = redshift.create_cluster_parameter_group(
ParameterGroupName=target_param_group_name,
ParameterGroupFamily='redshift-1.0',
Description='For Aurora MySQL zero-ETL integrations'
)
print('Created target parameter group: ' + response['ClusterParameterGroup']['ParameterGroupName'])
response = redshift.modify_cluster_parameter_group(
ParameterGroupName=target_param_group_name,
Parameters=[
{
'ParameterName': 'enable_case_sensitive_identifier',
'ParameterValue': 'true'
}
]
)
print('Modified target parameter group: ' + response['ParameterGroupName'])
response = redshift.create_cluster(
ClusterIdentifier=target_cluster_name,
NodeType='ra3.4xlarge',
NumberOfNodes=2,
Encrypted=True,
MasterUsername='username',
MasterUserPassword='Password01**',
ClusterParameterGroupName=target_param_group_name
)
print('Creating target cluster: ' + response['Cluster']['ClusterIdentifier'])
# Retrieve the target cluster ARN
response = redshift.describe_clusters(
ClusterIdentifier=target_cluster_name
)
target_arn = response['Clusters'][0]['ClusterNamespaceArn']
# Retrieve the current user's account ID
response = sts.get_caller_identity()
account_id = response['Account']
# Create a resource policy specifying cluster ARN and account ID
response = redshift.put_resource_policy(
ResourceArn=target_arn,
Policy='''
{
\"Version\":\"2012-10-17\",
\"Statement\":[
{\"Effect\":\"Allow\",
\"Principal\":{
\"Service\":\"redshift.amazonaws.com\"
},
\"Action\":[\"redshift:AuthorizeInboundIntegration\"],
\"Condition\":{
\"StringEquals\":{
\"aws:SourceArn\":\"%s\"}
}
},
{\"Effect\":\"Allow\",
\"Principal\":{
\"AWS\":\"arn:aws:iam::%s:root\"},
\"Action\":\"redshift:CreateInboundIntegration\"}
]
}
''' % (source_arn, account_id)
)
return(response)
def wait_for_cluster_availability(*args):
"""Waits for both clusters to be available"""
print('Waiting for clusters to be available...')
response = rds.describe_db_clusters(
DBClusterIdentifier=source_cluster_name
)
source_status = response['DBClusters'][0]['Status']
source_arn = response['DBClusters'][0]['DBClusterArn']
response = rds.describe_db_instances(
DBInstanceIdentifier=source_cluster_name + '-instance'
)
source_instance_status = response['DBInstances'][0]['DBInstanceStatus']
response = redshift.describe_clusters(
ClusterIdentifier=target_cluster_name
)
target_status = response['Clusters'][0]['ClusterStatus']
target_arn = response['Clusters'][0]['ClusterNamespaceArn']
# Every 60 seconds, check whether the clusters are available.
if source_status != 'available' or target_status != 'available' or source_instance_status != 'available':
time.sleep(60)
response = wait_for_cluster_availability(
source_cluster_name, target_cluster_name)
else:
print('Clusters available. Ready to create zero-ETL integration.')
create_integration(source_arn, target_arn)
return
def create_integration(source_arn, target_arn):
"""Creates a zero-ETL integration using the source and target clusters"""
response = rds.create_integration(
SourceArn=source_arn,
TargetArn=target_arn,
IntegrationName='my-integration'
)
print('Creating integration: ' + response['IntegrationName'])
def main():
"""main function"""
create_source_cluster(source_cluster_name, source_param_group_name)
wait_for_cluster_availability(source_cluster_name, target_cluster_name)
if __name__ == "__main__":
main()
- Aurora PostgreSQL
-
import boto3
import time
# Build the client using the default credential configuration.
# You can use the CLI and run 'aws configure' to set access key, secret
# key, and default Region.
rds = boto3.client('rds')
redshift = boto3.client('redshift')
sts = boto3.client('sts')
source_cluster_name = 'my-source-cluster' # A name for the source cluster
source_param_group_name = 'my-source-param-group' # A name for the source parameter group
target_cluster_name = 'my-target-cluster' # A name for the target cluster
target_param_group_name = 'my-target-param-group' # A name for the target parameter group
def create_source_cluster(*args):
"""Creates a source Aurora PostgreSQL DB cluster"""
response = rds.create_db_cluster_parameter_group(
DBClusterParameterGroupName=source_param_group_name,
DBParameterGroupFamily='aurora-postgresql16',
Description='For Aurora PostgreSQL logical replication'
)
print('Created source parameter group: ' + response['DBClusterParameterGroup']['DBClusterParameterGroupName'])
response = rds.modify_db_cluster_parameter_group(
DBClusterParameterGroupName=source_param_group_name,
Parameters=[
{
'ParameterName': 'rds.logical_replication',
'ParameterValue': '1',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'aurora.enhanced_logical_replication',
'ParameterValue': '1',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'aurora.logical_replication_backup',
'ParameterValue': '0',
'ApplyMethod': 'pending-reboot'
},
{
'ParameterName': 'aurora.logical_replication_globaldb',
'ParameterValue': '0',
'ApplyMethod': 'pending-reboot'
}
]
)
print('Modified source parameter group: ' + response['DBClusterParameterGroupName'])
response = rds.create_db_cluster(
DBClusterIdentifier=source_cluster_name,
DBClusterParameterGroupName=source_param_group_name,
Engine='aurora-postgresql',
EngineVersion='16.4.aurora-postgresql',
DatabaseName='mypostgresdb',
MasterUsername='username',
MasterUserPassword='Password01**'
)
print('Creating source cluster: ' + response['DBCluster']['DBClusterIdentifier'])
source_arn = (response['DBCluster']['DBClusterArn'])
create_target_cluster(target_cluster_name, source_arn, target_param_group_name)
response = rds.create_db_instance(
DBInstanceClass='db.r6g.2xlarge',
DBClusterIdentifier=source_cluster_name,
DBInstanceIdentifier=source_cluster_name + '-instance',
Engine='aurora-postgresql'
)
return(response)
def create_target_cluster(target_cluster_name, source_arn, target_param_group_name):
"""Creates a target Redshift cluster"""
response = redshift.create_cluster_parameter_group(
ParameterGroupName=target_param_group_name,
ParameterGroupFamily='redshift-1.0',
Description='For Aurora PostgreSQL zero-ETL integrations'
)
print('Created target parameter group: ' + response['ClusterParameterGroup']['ParameterGroupName'])
response = redshift.modify_cluster_parameter_group(
ParameterGroupName=target_param_group_name,
Parameters=[
{
'ParameterName': 'enable_case_sensitive_identifier',
'ParameterValue': 'true'
}
]
)
print('Modified target parameter group: ' + response['ParameterGroupName'])
response = redshift.create_cluster(
ClusterIdentifier=target_cluster_name,
NodeType='ra3.4xlarge',
NumberOfNodes=2,
Encrypted=True,
MasterUsername='username',
MasterUserPassword='Password01**',
ClusterParameterGroupName=target_param_group_name
)
print('Creating target cluster: ' + response['Cluster']['ClusterIdentifier'])
# Retrieve the target cluster ARN
response = redshift.describe_clusters(
ClusterIdentifier=target_cluster_name
)
target_arn = response['Clusters'][0]['ClusterNamespaceArn']
# Retrieve the current user's account ID
response = sts.get_caller_identity()
account_id = response['Account']
# Create a resource policy specifying cluster ARN and account ID
response = redshift.put_resource_policy(
ResourceArn=target_arn,
Policy='''
{
\"Version\":\"2012-10-17\",
\"Statement\":[
{\"Effect\":\"Allow\",
\"Principal\":{
\"Service\":\"redshift.amazonaws.com\"
},
\"Action\":[\"redshift:AuthorizeInboundIntegration\"],
\"Condition\":{
\"StringEquals\":{
\"aws:SourceArn\":\"%s\"}
}
},
{\"Effect\":\"Allow\",
\"Principal\":{
\"AWS\":\"arn:aws:iam::%s:root\"},
\"Action\":\"redshift:CreateInboundIntegration\"}
]
}
''' % (source_arn, account_id)
)
return(response)
def wait_for_cluster_availability(*args):
"""Waits for both clusters to be available"""
print('Waiting for clusters to be available...')
response = rds.describe_db_clusters(
DBClusterIdentifier=source_cluster_name
)
source_status = response['DBClusters'][0]['Status']
source_arn = response['DBClusters'][0]['DBClusterArn']
response = rds.describe_db_instances(
DBInstanceIdentifier=source_cluster_name + '-instance'
)
source_instance_status = response['DBInstances'][0]['DBInstanceStatus']
response = redshift.describe_clusters(
ClusterIdentifier=target_cluster_name
)
target_status = response['Clusters'][0]['ClusterStatus']
target_arn = response['Clusters'][0]['ClusterNamespaceArn']
# Every 60 seconds, check whether the clusters are available.
if source_status != 'available' or target_status != 'available' or source_instance_status != 'available':
time.sleep(60)
response = wait_for_cluster_availability(
source_cluster_name, target_cluster_name)
else:
print('Clusters available. Ready to create zero-ETL integration.')
create_integration(source_arn, target_arn)
return
def create_integration(source_arn, target_arn):
"""Creates a zero-ETL integration using the source and target clusters"""
response = rds.create_integration(
SourceArn=source_arn,
TargetArn=target_arn,
IntegrationName='my-integration'
)
print('Creating integration: ' + response['IntegrationName'])
def main():
"""main function"""
create_source_cluster(source_cluster_name, source_param_group_name)
wait_for_cluster_availability(source_cluster_name, target_cluster_name)
if __name__ == "__main__":
main()
Next steps
With a source Aurora DB cluster and an Amazon Redshift target data warehouse, you can
now create a zero-ETL integration and replicate data. For instructions, see Creating Aurora zero-ETL integrations with
Amazon Redshift.
