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Terraform module to provision an RDS Aurora cluster for MySQL or Postgres.

Supports Amazon Aurora Serverless.

Tip

πŸ‘½ Use Atmos with Terraform

Cloud Posse uses atmos to easily orchestrate multiple environments using Terraform.
Works with Github Actions, Atlantis, or Spacelift.

Watch demo of using Atmos with Terraform
Example of running atmos to manage infrastructure from our Quick Start tutorial.

Usage

For a complete example, see examples/complete.

For automated tests of the complete example using bats and Terratest (which tests and deploys the example on AWS), see test.

Basic example

module "rds_cluster_aurora_postgres" {
  source = "cloudposse/rds-cluster/aws"
  # Cloud Posse recommends pinning every module to a specific version
  # version     = "x.x.x"

  name            = "postgres"
  engine          = "aurora-postgresql"
  cluster_family  = "aurora-postgresql9.6"
  # 1 writer, 1 reader
  cluster_size    = 2
  # 1 writer, 3 reader
  # cluster_size    = 4
  # 1 writer, 5 reader
  # cluster_size    = 6
  namespace       = "eg"
  stage           = "dev"
  admin_user      = "admin1"
  admin_password  = "Test123456789"
  db_name         = "dbname"
  db_port         = 5432
  instance_type   = "db.r4.large"
  vpc_id          = "vpc-xxxxxxxx"
  security_groups = ["sg-xxxxxxxx"]
  subnets         = ["subnet-xxxxxxxx", "subnet-xxxxxxxx"]
  zone_id         = "Zxxxxxxxx"
}

Serverless Aurora MySQL 5.6

module "rds_cluster_aurora_mysql_serverless" {
  source = "cloudposse/rds-cluster/aws"
  # Cloud Posse recommends pinning every module to a specific version
  # version     = "x.x.x"
  namespace            = "eg"
  stage                = "dev"
  name                 = "db"
  engine               = "aurora"
  engine_mode          = "serverless"
  cluster_family       = "aurora5.6"
  cluster_size         = 0
  admin_user           = "admin1"
  admin_password       = "Test123456789"
  db_name              = "dbname"
  db_port              = 3306
  instance_type        = "db.t2.small"
  vpc_id               = "vpc-xxxxxxxx"
  security_groups      = ["sg-xxxxxxxx"]
  subnets              = ["subnet-xxxxxxxx", "subnet-xxxxxxxx"]
  zone_id              = "Zxxxxxxxx"
  enable_http_endpoint = true

  scaling_configuration = [
    {
      auto_pause               = true
      max_capacity             = 256
      min_capacity             = 2
      seconds_until_auto_pause = 300
    }
  ]
}

Serverless Aurora 2.07.1 MySQL 5.7

module "rds_cluster_aurora_mysql_serverless" {
  source = "cloudposse/rds-cluster/aws"
  # Cloud Posse recommends pinning every module to a specific version
  # version     = "x.x.x"
  namespace            = "eg"
  stage                = "dev"
  name                 = "db"
  engine               = "aurora-mysql"
  engine_mode          = "serverless"
  engine_version       = "5.7.mysql_aurora.2.07.1"
  cluster_family       = "aurora-mysql5.7"
  cluster_size         = 0
  admin_user           = "admin1"
  admin_password       = "Test123456789"
  db_name              = "dbname"
  db_port              = 3306
  vpc_id               = "vpc-xxxxxxxx"
  security_groups      = ["sg-xxxxxxxx"]
  subnets              = ["subnet-xxxxxxxx", "subnet-xxxxxxxx"]
  zone_id              = "Zxxxxxxxx"
  enable_http_endpoint = true

  scaling_configuration = [
    {
      auto_pause               = true
      max_capacity             = 16
      min_capacity             = 1
      seconds_until_auto_pause = 300
      timeout_action           = "ForceApplyCapacityChange"
    }
  ]
}

With cluster parameters

module "rds_cluster_aurora_mysql" {
  source = "cloudposse/rds-cluster/aws"
  # Cloud Posse recommends pinning every module to a specific version
  # version     = "x.x.x"
  engine          = "aurora"
  cluster_family  = "aurora-mysql5.7"
  cluster_size    = 2
  namespace       = "eg"
  stage           = "dev"
  name            = "db"
  admin_user      = "admin1"
  admin_password  = "Test123456789"
  db_name         = "dbname"
  instance_type   = "db.t2.small"
  vpc_id          = "vpc-xxxxxxx"
  security_groups = ["sg-xxxxxxxx"]
  subnets         = ["subnet-xxxxxxxx", "subnet-xxxxxxxx"]
  zone_id         = "Zxxxxxxxx"

  cluster_parameters = [
    {
      name  = "character_set_client"
      value = "utf8"
    },
    {
      name  = "character_set_connection"
      value = "utf8"
    },
    {
      name  = "character_set_database"
      value = "utf8"
    },
    {
      name  = "character_set_results"
      value = "utf8"
    },
    {
      name  = "character_set_server"
      value = "utf8"
    },
    {
      name  = "collation_connection"
      value = "utf8_bin"
    },
    {
      name  = "collation_server"
      value = "utf8_bin"
    },
    {
      name         = "lower_case_table_names"
      value        = "1"
      apply_method = "pending-reboot"
    },
    {
      name         = "skip-character-set-client-handshake"
      value        = "1"
      apply_method = "pending-reboot"
    }
  ]
}

With enhanced monitoring

# create IAM role for monitoring
resource "aws_iam_role" "enhanced_monitoring" {
  name               = "rds-cluster-example-1"
  assume_role_policy = data.aws_iam_policy_document.enhanced_monitoring.json
}

# Attach Amazon's managed policy for RDS enhanced monitoring
resource "aws_iam_role_policy_attachment" "enhanced_monitoring" {
  role       = aws_iam_role.enhanced_monitoring.name
  policy_arn = "arn:aws:iam::aws:policy/service-role/AmazonRDSEnhancedMonitoringRole"
}

# allow rds to assume this role
data "aws_iam_policy_document" "enhanced_monitoring" {
  statement {
      actions = [
      "sts:AssumeRole",
    ]

    effect = "Allow"

    principals {
      type        = "Service"
      identifiers = ["monitoring.rds.amazonaws.com"]
    }
  }
}

module "rds_cluster_aurora_postgres" {
  source = "cloudposse/rds-cluster/aws"
  # Cloud Posse recommends pinning every module to a specific version
  # version     = "x.x.x"
  engine          = "aurora-postgresql"
  cluster_family  = "aurora-postgresql9.6"
  cluster_size    = 2
  namespace       = "eg"
  stage           = "dev"
  name            = "db"
  admin_user      = "admin1"
  admin_password  = "Test123456789"
  db_name         = "dbname"
  db_port         = 5432
  instance_type   = "db.r4.large"
  vpc_id          = "vpc-xxxxxxx"
  security_groups = ["sg-xxxxxxxx"]
  subnets         = ["subnet-xxxxxxxx", "subnet-xxxxxxxx"]
  zone_id         = "Zxxxxxxxx"

  # enable monitoring every 30 seconds
  rds_monitoring_interval = 30

  # reference iam role created above
  rds_monitoring_role_arn = aws_iam_role.enhanced_monitoring.arn
}

Important

In Cloud Posse's examples, we avoid pinning modules to specific versions to prevent discrepancies between the documentation and the latest released versions. However, for your own projects, we strongly advise pinning each module to the exact version you're using. This practice ensures the stability of your infrastructure. Additionally, we recommend implementing a systematic approach for updating versions to avoid unexpected changes.

Examples

Review the complete example to see how to use this module.

Makefile Targets

Available targets:

  help                                Help screen
  help/all                            Display help for all targets
  help/short                          This help short screen
  lint                                Lint terraform code

Requirements

Name Version
terraform >= 1.0.0
aws >= 4.23.0
null >= 2.0
random >= 2.0

Providers

Name Version
aws >= 4.23.0
random >= 2.0

Modules

Name Source Version
dns_master cloudposse/route53-cluster-hostname/aws 0.13.0
dns_replicas cloudposse/route53-cluster-hostname/aws 0.13.0
enhanced_monitoring_label cloudposse/label/null 0.25.0
rds_identifier cloudposse/label/null 0.25.0
this cloudposse/label/null 0.25.0

Resources

Name Type
aws_appautoscaling_policy.replicas resource
aws_appautoscaling_target.replicas resource
aws_db_parameter_group.default resource
aws_db_subnet_group.default resource
aws_iam_role.enhanced_monitoring resource
aws_iam_role_policy_attachment.enhanced_monitoring resource
aws_rds_cluster.primary resource
aws_rds_cluster.secondary resource
aws_rds_cluster_activity_stream.primary resource
aws_rds_cluster_instance.default resource
aws_rds_cluster_parameter_group.default resource
aws_rds_reserved_instance.default resource
aws_security_group.default resource
aws_security_group_rule.egress resource
aws_security_group_rule.egress_ipv6 resource
aws_security_group_rule.ingress_cidr_blocks resource
aws_security_group_rule.ingress_ipv6_cidr_blocks resource
aws_security_group_rule.ingress_security_groups resource
aws_security_group_rule.traffic_inside_security_group resource
random_pet.instance resource
aws_iam_policy_document.enhanced_monitoring data source
aws_partition.current data source
aws_rds_reserved_instance_offering.default data source

Inputs

Name Description Type Default Required
activity_stream_enabled Whether to enable Activity Streams bool false no
activity_stream_kms_key_id The ARN for the KMS key to encrypt Activity Stream Data data. When specifying activity_stream_kms_key_id, activity_stream_enabled needs to be set to true string "" no
activity_stream_mode The mode for the Activity Streams. async and sync are supported. Defaults to async string "async" no
additional_tag_map Additional key-value pairs to add to each map in tags_as_list_of_maps. Not added to tags or id.
This is for some rare cases where resources want additional configuration of tags
and therefore take a list of maps with tag key, value, and additional configuration.
map(string) {} no
admin_password Password for the master DB user. Ignored if snapshot_identifier or replication_source_identifier is provided string "" no
admin_user Username for the master DB user. Ignored if snapshot_identifier or replication_source_identifier is provided string "admin" no
admin_user_secret_kms_key_id Amazon Web Services KMS key identifier is the key ARN, key ID, alias ARN, or alias name for the KMS key.
To use a KMS key in a different Amazon Web Services account, specify the key ARN or alias ARN.
If not specified, the default KMS key for your Amazon Web Services account is used.
string null no
allocated_storage The allocated storage in GBs number null no
allow_major_version_upgrade Enable to allow major engine version upgrades when changing engine versions. Defaults to false. bool false no
allowed_cidr_blocks List of CIDR blocks allowed to access the cluster list(string) [] no
allowed_ipv6_cidr_blocks List of IPv6 CIDR blocks allowed to access the cluster list(string) [] no
apply_immediately Specifies whether any cluster modifications are applied immediately, or during the next maintenance window bool true no
attributes ID element. Additional attributes (e.g. workers or cluster) to add to id,
in the order they appear in the list. New attributes are appended to the
end of the list. The elements of the list are joined by the delimiter
and treated as a single ID element.
list(string) [] no
auto_minor_version_upgrade Indicates that minor engine upgrades will be applied automatically to the DB instance during the maintenance window bool true no
autoscaling_enabled Whether to enable cluster autoscaling bool false no
autoscaling_max_capacity Maximum number of instances to be maintained by the autoscaler number 5 no
autoscaling_min_capacity Minimum number of instances to be maintained by the autoscaler number 1 no
autoscaling_policy_type Autoscaling policy type. TargetTrackingScaling and StepScaling are supported string "TargetTrackingScaling" no
autoscaling_scale_in_cooldown The amount of time, in seconds, after a scaling activity completes and before the next scaling down activity can start. Default is 300s number 300 no
autoscaling_scale_out_cooldown The amount of time, in seconds, after a scaling activity completes and before the next scaling up activity can start. Default is 300s number 300 no
autoscaling_target_metrics The metrics type to use. If this value isn't provided the default is CPU utilization string "RDSReaderAverageCPUUtilization" no
autoscaling_target_value The target value to scale with respect to target metrics number 75 no
backtrack_window The target backtrack window, in seconds. Only available for aurora engine currently. Must be between 0 and 259200 (72 hours) number 0 no
backup_window Daily time range during which the backups happen string "07:00-09:00" no
ca_cert_identifier The identifier of the CA certificate for the DB instance string null no
cluster_dns_name Name of the cluster CNAME record to create in the parent DNS zone specified by zone_id. If left empty, the name will be auto-asigned using the format master.var.name string "" no
cluster_family The family of the DB cluster parameter group string "aurora5.6" no
cluster_identifier The RDS Cluster Identifier. Will use generated label ID if not supplied string "" no
cluster_parameters List of DB cluster parameters to apply
list(object({
apply_method = string
name = string
value = string
}))
[] no
cluster_size Number of DB instances to create in the cluster number 2 no
cluster_type Either regional or global.
If regional will be created as a normal, standalone DB.
If global, will be made part of a Global cluster (requires global_cluster_identifier).
string "regional" no
context Single object for setting entire context at once.
See description of individual variables for details.
Leave string and numeric variables as null to use default value.
Individual variable settings (non-null) override settings in context object,
except for attributes, tags, and additional_tag_map, which are merged.
any
{
"additional_tag_map": {},
"attributes": [],
"delimiter": null,
"descriptor_formats": {},
"enabled": true,
"environment": null,
"id_length_limit": null,
"label_key_case": null,
"label_order": [],
"label_value_case": null,
"labels_as_tags": [
"unset"
],
"name": null,
"namespace": null,
"regex_replace_chars": null,
"stage": null,
"tags": {},
"tenant": null
}
no
copy_tags_to_snapshot Copy tags to backup snapshots bool false no
db_cluster_instance_class This setting is required to create a provisioned Multi-AZ DB cluster string null no
db_name Database name (default is not to create a database) string "" no
db_parameter_group_name The name to give to the created aws_db_parameter_group resource.
If omitted, the module will generate a name.
string "" no
db_port Database port number 3306 no
deletion_protection If the DB instance should have deletion protection enabled bool false no
delimiter Delimiter to be used between ID elements.
Defaults to - (hyphen). Set to "" to use no delimiter at all.
string null no
descriptor_formats Describe additional descriptors to be output in the descriptors output map.
Map of maps. Keys are names of descriptors. Values are maps of the form
{<br/> format = string<br/> labels = list(string)<br/>}
(Type is any so the map values can later be enhanced to provide additional options.)
format is a Terraform format string to be passed to the format() function.
labels is a list of labels, in order, to pass to format() function.
Label values will be normalized before being passed to format() so they will be
identical to how they appear in id.
Default is {} (descriptors output will be empty).
any {} no
egress_enabled Whether or not to apply the egress security group rule to default security group, defaults to true bool true no
enable_global_write_forwarding Set to true, to forward writes to an associated global cluster. bool null no
enable_http_endpoint Enable HTTP endpoint (data API). Only valid when engine_mode is set to serverless bool false no
enable_local_write_forwarding Set to true, to forward writes sent to a reader to the writer instance. bool null no
enabled Set to false to prevent the module from creating any resources bool null no
enabled_cloudwatch_logs_exports List of log types to export to cloudwatch. The following log types are supported: audit, error, general, slowquery list(string) [] no
engine The name of the database engine to be used for this DB cluster. Valid values: aurora, aurora-mysql, aurora-postgresql string "aurora" no
engine_mode The database engine mode. Valid values: parallelquery, provisioned, serverless string "provisioned" no
engine_version The version of the database engine to use. See aws rds describe-db-engine-versions string "" no
enhanced_monitoring_attributes The attributes for the enhanced monitoring IAM role list(string)
[
"enhanced-monitoring"
]
no
enhanced_monitoring_role_enabled A boolean flag to enable/disable the creation of the enhanced monitoring IAM role. If set to false, the module will not create a new role and will use rds_monitoring_role_arn for enhanced monitoring bool false no
environment ID element. Usually used for region e.g. 'uw2', 'us-west-2', OR role 'prod', 'staging', 'dev', 'UAT' string null no
global_cluster_identifier ID of the Aurora global cluster string "" no
iam_database_authentication_enabled Specifies whether or mappings of AWS Identity and Access Management (IAM) accounts to database accounts is enabled bool false no
iam_roles Iam roles for the Aurora cluster list(string) [] no
id_length_limit Limit id to this many characters (minimum 6).
Set to 0 for unlimited length.
Set to null for keep the existing setting, which defaults to 0.
Does not affect id_full.
number null no
instance_availability_zone Optional parameter to place cluster instances in a specific availability zone. If left empty, will place randomly string "" no
instance_parameters List of DB instance parameters to apply
list(object({
apply_method = string
name = string
value = string
}))
[] no
instance_type Instance type to use string "db.t2.small" no
intra_security_group_traffic_enabled Whether to allow traffic between resources inside the database's security group. bool false no
iops The amount of provisioned IOPS. Setting this implies a storage_type of 'io1'. This setting is required to create a Multi-AZ DB cluster. Check TF docs for values based on db engine number null no
kms_key_arn The ARN for the KMS encryption key. When specifying kms_key_arn, storage_encrypted needs to be set to true string "" no
label_key_case Controls the letter case of the tags keys (label names) for tags generated by this module.
Does not affect keys of tags passed in via the tags input.
Possible values: lower, title, upper.
Default value: title.
string null no
label_order The order in which the labels (ID elements) appear in the id.
Defaults to ["namespace", "environment", "stage", "name", "attributes"].
You can omit any of the 6 labels ("tenant" is the 6th), but at least one must be present.
list(string) null no
label_value_case Controls the letter case of ID elements (labels) as included in id,
set as tag values, and output by this module individually.
Does not affect values of tags passed in via the tags input.
Possible values: lower, title, upper and none (no transformation).
Set this to title and set delimiter to "" to yield Pascal Case IDs.
Default value: lower.
string null no
labels_as_tags Set of labels (ID elements) to include as tags in the tags output.
Default is to include all labels.
Tags with empty values will not be included in the tags output.
Set to [] to suppress all generated tags.
Notes:
The value of the name tag, if included, will be the id, not the name.
Unlike other null-label inputs, the initial setting of labels_as_tags cannot be
changed in later chained modules. Attempts to change it will be silently ignored.
set(string)
[
"default"
]
no
maintenance_window Weekly time range during which system maintenance can occur, in UTC string "wed:03:00-wed:04:00" no
manage_admin_user_password Set to true to allow RDS to manage the master user password in Secrets Manager. Cannot be set if master_password is provided bool false no
name ID element. Usually the component or solution name, e.g. 'app' or 'jenkins'.
This is the only ID element not also included as a tag.
The "name" tag is set to the full id string. There is no tag with the value of the name input.
string null no
namespace ID element. Usually an abbreviation of your organization name, e.g. 'eg' or 'cp', to help ensure generated IDs are globally unique string null no
network_type The network type of the cluster. Valid values: IPV4, DUAL. string "IPV4" no
parameter_group_name_prefix_enabled Set to true to use name_prefix to name the cluster and database parameter groups. Set to false to use name instead bool true no
performance_insights_enabled Whether to enable Performance Insights bool false no
performance_insights_kms_key_id The ARN for the KMS key to encrypt Performance Insights data. When specifying performance_insights_kms_key_id, performance_insights_enabled needs to be set to true string "" no
performance_insights_retention_period Amount of time in days to retain Performance Insights data. Either 7 (7 days) or 731 (2 years) number null no
publicly_accessible Set to true if you want your cluster to be publicly accessible (such as via QuickSight) bool false no
rds_cluster_parameter_group_name The name to give to the created aws_rds_cluster_parameter_group resource.
If omitted, the module will generate a name.
string "" no
rds_monitoring_interval The interval, in seconds, between points when enhanced monitoring metrics are collected for the DB instance. To disable collecting Enhanced Monitoring metrics, specify 0. The default is 0. Valid Values: 0, 1, 5, 10, 15, 30, 60 number 0 no
rds_monitoring_role_arn The ARN for the IAM role that permits RDS to send enhanced monitoring metrics to CloudWatch Logs string null no
rds_ri_duration The number of years to reserve the instance. Values can be 1 or 3 (or in seconds, 31536000 or 94608000) number 1 no
rds_ri_offering_type Offering type of reserved DB instances. Valid values are 'No Upfront', 'Partial Upfront', 'All Upfront'. string "" no
rds_ri_reservation_id Customer-specified identifier to track the reservation of the reserved DB instance. string null no
reader_dns_name Name of the reader endpoint CNAME record to create in the parent DNS zone specified by zone_id. If left empty, the name will be auto-asigned using the format replicas.var.name string "" no
regex_replace_chars Terraform regular expression (regex) string.
Characters matching the regex will be removed from the ID elements.
If not set, "/[^a-zA-Z0-9-]/" is used to remove all characters other than hyphens, letters and digits.
string null no
replication_source_identifier ARN of a source DB cluster or DB instance if this DB cluster is to be created as a Read Replica string "" no
restore_to_point_in_time List of point-in-time recovery options. Valid parameters are:

source_cluster_identifier
Identifier of the source database cluster from which to restore.
restore_type:
Type of restore to be performed. Valid options are "full-copy" and "copy-on-write".
use_latest_restorable_time:
Set to true to restore the database cluster to the latest restorable backup time. Conflicts with restore_to_time.
restore_to_time:
Date and time in UTC format to restore the database cluster to. Conflicts with use_latest_restorable_time.
list(object({
source_cluster_identifier = string
restore_type = optional(string, "copy-on-write")
use_latest_restorable_time = optional(bool, true)
restore_to_time = optional(string, null)
}))
[] no
retention_period Number of days to retain backups for number 5 no
s3_import Restore from a Percona Xtrabackup in S3. The bucket_name is required to be in the same region as the resource.
object({
bucket_name = string
bucket_prefix = string
ingestion_role = string
source_engine = string
source_engine_version = string
})
null no
scaling_configuration List of nested attributes with scaling properties. Only valid when engine_mode is set to serverless
list(object({
auto_pause = bool
max_capacity = number
min_capacity = number
seconds_until_auto_pause = number
timeout_action = string
}))
[] no
security_groups List of security groups to be allowed to connect to the DB instance list(string) [] no
serverlessv2_scaling_configuration serverlessv2 scaling properties
object({
min_capacity = number
max_capacity = number
})
null no
skip_final_snapshot Determines whether a final DB snapshot is created before the DB cluster is deleted bool true no
snapshot_identifier Specifies whether or not to create this cluster from a snapshot string null no
source_region Source Region of primary cluster, needed when using encrypted storage and region replicas string "" no
stage ID element. Usually used to indicate role, e.g. 'prod', 'staging', 'source', 'build', 'test', 'deploy', 'release' string null no
storage_encrypted Specifies whether the DB cluster is encrypted. The default is false for provisioned engine_mode and true for serverless engine_mode bool false no
storage_type One of 'standard' (magnetic), 'gp2' (general purpose SSD), 'io1' (provisioned IOPS SSD), 'aurora', or 'aurora-iopt1' string null no
subnet_group_name Database subnet group name. Will use generated label ID if not supplied. string "" no
subnets List of VPC subnet IDs list(string) n/a yes
tags Additional tags (e.g. {'BusinessUnit': 'XYZ'}).
Neither the tag keys nor the tag values will be modified by this module.
map(string) {} no
tenant ID element _(Rarely used, not included by default)_. A customer identifier, indicating who this instance of a resource is for string null no
timeouts_configuration List of timeout values per action. Only valid actions are create, update and delete
list(object({
create = string
update = string
delete = string
}))
[] no
use_reserved_instances WARNING: Observe your plans and applies carefully when using this feature.
It has potential to be very expensive if not used correctly.
Also, it is not clear what happens when the reservation expires.

Whether to use reserved instances.
bool false no
vpc_id VPC ID to create the cluster in (e.g. vpc-a22222ee) string n/a yes
vpc_security_group_ids Additional security group IDs to apply to the cluster, in addition to the provisioned default security group with ingress traffic from existing CIDR blocks and existing security groups list(string) [] no
zone_id Route53 DNS Zone ID as list of string (0 or 1 items). If empty, no custom DNS name will be published.
If the list contains a single Zone ID, a custom DNS name will be pulished in that zone.
Can also be a plain string, but that use is DEPRECATED because of Terraform issues.
any [] no

Outputs

Name Description
activity_stream_arn Activity Stream ARN
activity_stream_name Activity Stream Name
arn Amazon Resource Name (ARN) of the cluster
cluster_identifier Cluster Identifier
cluster_resource_id The region-unique, immutable identifie of the cluster
cluster_security_groups Default RDS cluster security groups
database_name Database name
dbi_resource_ids List of the region-unique, immutable identifiers for the DB instances in the cluster
endpoint The DNS address of the RDS instance
instance_endpoints List of DNS addresses for the DB instances in the cluster
master_host DB Master hostname
master_username Username for the master DB user
reader_endpoint A read-only endpoint for the Aurora cluster, automatically load-balanced across replicas
replicas_host Replicas hostname
reserved_instance All information about the reserved instance(s) if created.
security_group_arn Security Group ARN
security_group_id Security Group ID
security_group_name Security Group name

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Cloud Posse is the leading DevOps Accelerator for funded startups and enterprises.

Your team can operate like a pro today.

Ensure that your team succeeds by using Cloud Posse's proven process and turnkey blueprints. Plus, we stick around until you succeed.

Day-0: Your Foundation for Success

  • Reference Architecture. You'll get everything you need from the ground up built using 100% infrastructure as code.
  • Deployment Strategy. Adopt a proven deployment strategy with GitHub Actions, enabling automated, repeatable, and reliable software releases.
  • Site Reliability Engineering. Gain total visibility into your applications and services with Datadog, ensuring high availability and performance.
  • Security Baseline. Establish a secure environment from the start, with built-in governance, accountability, and comprehensive audit logs, safeguarding your operations.
  • GitOps. Empower your team to manage infrastructure changes confidently and efficiently through Pull Requests, leveraging the full power of GitHub Actions.

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Day-2: Your Operational Mastery

  • Training. Equip your team with the knowledge and skills to confidently manage the infrastructure, ensuring long-term success and self-sufficiency.
  • Support. Benefit from a seamless communication over Slack with our experts, ensuring you have the support you need, whenever you need it.
  • Troubleshooting. Access expert assistance to quickly resolve any operational challenges, minimizing downtime and maintaining business continuity.
  • Code Reviews. Enhance your team’s code quality with our expert feedback, fostering continuous improvement and collaboration.
  • Bug Fixes. Rely on our team to troubleshoot and resolve any issues, ensuring your systems run smoothly.
  • Migration Assistance. Accelerate your migration process with our dedicated support, minimizing disruption and speeding up time-to-value.
  • Customer Workshops. Engage with our team in weekly workshops, gaining insights and strategies to continuously improve and innovate.

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✨ Contributing

This project is under active development, and we encourage contributions from our community.

Many thanks to our outstanding contributors:

For πŸ› bug reports & feature requests, please use the issue tracker.

In general, PRs are welcome. We follow the typical "fork-and-pull" Git workflow.

  1. Review our Code of Conduct and Contributor Guidelines.
  2. Fork the repo on GitHub
  3. Clone the project to your own machine
  4. Commit changes to your own branch
  5. Push your work back up to your fork
  6. Submit a Pull Request so that we can review your changes

NOTE: Be sure to merge the latest changes from "upstream" before making a pull request!

🌎 Slack Community

Join our Open Source Community on Slack. It's FREE for everyone! Our "SweetOps" community is where you get to talk with others who share a similar vision for how to rollout and manage infrastructure. This is the best place to talk shop, ask questions, solicit feedback, and work together as a community to build totally sweet infrastructure.

πŸ“° Newsletter

Sign up for our newsletter and join 3,000+ DevOps engineers, CTOs, and founders who get insider access to the latest DevOps trends, so you can always stay in the know. Dropped straight into your Inbox every week β€” and usually a 5-minute read.

πŸ“† Office Hours

Join us every Wednesday via Zoom for your weekly dose of insider DevOps trends, AWS news and Terraform insights, all sourced from our SweetOps community, plus a live Q&A that you can’t find anywhere else. It's FREE for everyone!

License

License

Preamble to the Apache License, Version 2.0

Complete license is available in the LICENSE file.

Licensed to the Apache Software Foundation (ASF) under one
or more contributor license agreements.  See the NOTICE file
distributed with this work for additional information
regarding copyright ownership.  The ASF licenses this file
to you 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

  https://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.

Trademarks

All other trademarks referenced herein are the property of their respective owners.


Copyright Β© 2017-2024 Cloud Posse, LLC

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