cdk-aurora-globaldatabase

cdk-aurora-globaldatabase is an AWS CDK construct library that provides Cross Region Create Global Aurora RDS Databases.


Keywords
aws, cdk, global, rds, aws-cdk, aurora-global-database, cdk-aurora-globaldatabase
License
Apache-2.0
Install
npm install cdk-aurora-globaldatabase@0.1.199

Documentation

NPM version PyPI version Release

Downloads npm PyPI

cdk-aurora-globaldatabase

cdk-aurora-globaldatabase is an AWS CDK construct library that allows you to create Amazon Aurora Global Databases with AWS CDK in Typescript or Python.

Why

Amazon Aurora Global Databases is designed for multi-regional Amazon Aurora Database clusters that span across different AWS regions. Due to the lack of native cloudformation support, it has been very challenging to build with cloudformation or AWS CDK with the upstream aws-rds construct.

cdk-aurora-globaldatabase aims to offload the heavy-lifting and helps you provision and deploy cross-regional Amazon Aurora Global Databases simply with just a few CDK statements.

Now Try It !!!

Sample for Mysql

import { GolbalAuroraRDSMaster, InstanceTypeEnum, GolbalAuroraRDSSlaveInfra } from './index';
import { App, Stack, CfnOutput } from '@aws-cdk/core';
import * as ec2 from '@aws-cdk/aws-ec2';
// new app .
const mockApp = new App();

// setting two region env config .
const envSingapro  = { account: process.env.CDK_DEFAULT_ACCOUNT, region: 'ap-southeast-1' };
const envTokyo = { account: process.env.CDK_DEFAULT_ACCOUNT, region: 'ap-northeast-1' };

// create stack main .
const stackM = new Stack(mockApp, 'testing-stackM',{env: envTokyo});
const vpcPublic = new ec2.Vpc(stackM,'defaultVpc',{
  natGateways: 0,
  maxAzs: 3,
  subnetConfiguration: [{
    cidrMask: 26,
    name: 'masterVPC2',
    subnetType: ec2.SubnetType.PUBLIC,
  }],
});
const  globaldbM = new GolbalAuroraRDSMaster(stackM, 'golbalAuroraRDSMaster',{
  instanceType: InstanceTypeEnum.R5_LARGE,
  vpc: vpcPublic,
  rdsPassword: '1qaz2wsx',
});
globaldbM.rdsCluster.connections.allowDefaultPortFrom(ec2.Peer.ipv4(`${process.env.MYIP}/32`))

// create stack slave infra or you can give your subnet group.
const stackS = new Stack(mockApp, 'testing-stackS',{env: envSingapro});
const vpcPublic2 = new ec2.Vpc(stackS,'defaultVpc2',{
  natGateways: 0,
  maxAzs: 3,
  subnetConfiguration: [{
    cidrMask: 26,
    name: 'secondVPC2',
    subnetType: ec2.SubnetType.PUBLIC,
  }],
});
const globaldbS = new GolbalAuroraRDSSlaveInfra(stackS, 'slaveregion',{vpc: vpcPublic2,subnetType:ec2.SubnetType.PUBLIC });

// so we need to wait stack slave created first .
stackM.addDependency(stackS)


new CfnOutput(stackM, 'password', { value: globaldbM.rdsPassword });
// add second region cluster
globaldbM.addRegionalCluster(stackM,'addregionalrds',{
  region: 'ap-southeast-1',
  dbSubnetGroupName: globaldbS.dbSubnetGroup.dbSubnetGroupName,
});

Sample for Postgres

import { GolbalAuroraRDSMaster, InstanceTypeEnum, GolbalAuroraRDSSlaveInfra } from './index';
import { App, Stack, CfnOutput } from '@aws-cdk/core';
import * as ec2 from '@aws-cdk/aws-ec2';
import * as _rds from '@aws-cdk/aws-rds';

const mockApp = new App();
const envSingapro  = { account: process.env.CDK_DEFAULT_ACCOUNT, region: 'ap-southeast-1' };
const envTokyo = { account: process.env.CDK_DEFAULT_ACCOUNT, region: 'ap-northeast-1' };

const stackM = new Stack(mockApp, 'testing-stackM',{env: envTokyo});
const vpcPublic = new ec2.Vpc(stackM,'defaultVpc',{
  natGateways: 0,
  maxAzs: 3,
  subnetConfiguration: [{
    cidrMask: 26,
    name: 'masterVPC2',
    subnetType: ec2.SubnetType.PUBLIC,
  }],
});

// Note if you use postgres , need to give the same value in engineVersion and  dbClusterpPG's engine .
const globaldbM = new GolbalAuroraRDSMaster(stackM, 'golbalAuroraRDSMaster',{
  instanceType: InstanceTypeEnum.R5_LARGE,
  vpc: vpcPublic,
  rdsPassword: '1qaz2wsx',
  engineVersion: _rds.DatabaseClusterEngine.auroraPostgres({
    version: _rds.AuroraPostgresEngineVersion.VER_11_7}),
  dbClusterpPG: new _rds.ParameterGroup(stackM, 'dbClusterparametergroup', {
    engine: _rds.DatabaseClusterEngine.auroraPostgres({
      version: _rds.AuroraPostgresEngineVersion.VER_11_7,
    }),
    parameters: {
      'rds.force_ssl': '1',
      'rds.log_retention_period': '10080',
      'auto_explain.log_min_duration': '5000',
      'auto_explain.log_verbose': '1',
      'timezone': 'UTC+8',
      'shared_preload_libraries': 'auto_explain,pg_stat_statements,pg_hint_plan,pgaudit',
      'log_connections': '1',
      'log_statement': 'ddl',
      'log_disconnections': '1',
      'log_lock_waits': '1',
      'log_min_duration_statement': '5000',
      'log_rotation_age': '1440',
      'log_rotation_size': '102400',
      'random_page_cost': '1',
      'track_activity_query_size': '16384',
      'idle_in_transaction_session_timeout': '7200000',
    },
  }),
});
globaldbM.rdsCluster.connections.allowDefaultPortFrom(ec2.Peer.ipv4(`${process.env.MYIP}/32`))

const stackS = new Stack(mockApp, 'testing-stackS',{env: envSingapro});
const vpcPublic2 = new ec2.Vpc(stackS,'defaultVpc2',{
  natGateways: 0,
  maxAzs: 3,
  subnetConfiguration: [{
    cidrMask: 26,
    name: 'secondVPC2',
    subnetType: ec2.SubnetType.PUBLIC,
  }],
});
const globaldbS = new GolbalAuroraRDSSlaveInfra(stackS, 'slaveregion',{
  vpc: vpcPublic2,subnetType:ec2.SubnetType.PUBLIC, 
});

stackM.addDependency(stackS)


new CfnOutput(stackM, 'password', { value: globaldbM.rdsPassword });
// add second region cluster
globaldbM.addRegionalCluster(stackM,'addregionalrds',{
  region: 'ap-southeast-1',
  dbSubnetGroupName: globaldbS.dbSubnetGroup.dbSubnetGroupName,
});

To deploy

cdk deploy

To destroy

cdk destroy