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main.tf
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# ---------------------------------------------------------------------------------------------------------------------
# DEPLOY A VAULT SERVER CLUSTER, AN ELB, AND A CONSUL SERVER CLUSTER IN AWS
# This is an example of how to use the vault-cluster and vault-elb modules to deploy a Vault cluster in AWS with an
# Elastic Load Balancer (ELB) in front of it. This cluster uses Consul, running in a separate cluster, as its storage
# backend.
# ---------------------------------------------------------------------------------------------------------------------
# ----------------------------------------------------------------------------------------------------------------------
# REQUIRE A SPECIFIC TERRAFORM VERSION OR HIGHER
# ----------------------------------------------------------------------------------------------------------------------
terraform {
# This module is now only being tested with Terraform 1.0.x. However, to make upgrading easier, we are setting
# 0.12.26 as the minimum version, as that version added support for required_providers with source URLs, making it
# forwards compatible with 1.0.x code.
required_version = ">= 0.12.26"
}
# ---------------------------------------------------------------------------------------------------------------------
# AUTOMATICALLY LOOK UP THE LATEST PRE-BUILT AMI
# This repo contains a CircleCI job that automatically builds and publishes the latest AMI by building the Packer
# template at /examples/vault-consul-ami upon every new release. The Terraform data source below automatically looks up
# the latest AMI so that a simple "terraform apply" will just work without the user needing to manually build an AMI and
# fill in the right value.
#
# !! WARNING !! These example AMIs are meant only convenience when initially testing this repo. Do NOT use these example
# AMIs in a production setting as those TLS certificate files are publicly available from the Module repo containing
# this code.
#
# NOTE: This Terraform data source must return at least one AMI result or the entire template will fail. See
# /_ci/publish-amis-in-new-account.md for more information.
# ---------------------------------------------------------------------------------------------------------------------
data "aws_ami" "vault_consul" {
most_recent = true
# If we change the AWS Account in which test are run, update this value.
owners = ["562637147889"]
filter {
name = "virtualization-type"
values = ["hvm"]
}
filter {
name = "is-public"
values = ["true"]
}
filter {
name = "name"
values = ["vault-consul-ubuntu-*"]
}
}
# ---------------------------------------------------------------------------------------------------------------------
# DEPLOY THE VAULT SERVER CLUSTER
# ---------------------------------------------------------------------------------------------------------------------
module "vault_cluster" {
# When using these modules in your own templates, you will need to use a Git URL with a ref attribute that pins you
# to a specific version of the modules, such as the following example:
# source = "github.com/hashicorp/terraform-aws-vault//modules/vault-cluster?ref=v0.0.1"
source = "./modules/vault-cluster"
cluster_name = var.vault_cluster_name
cluster_size = var.vault_cluster_size
instance_type = var.vault_instance_type
ami_id = var.ami_id == null ? data.aws_ami.vault_consul.image_id : var.ami_id
user_data = data.template_file.user_data_vault_cluster.rendered
vpc_id = data.aws_vpc.default.id
subnet_ids = data.aws_subnet_ids.default.ids
# Do NOT use the ELB for the ASG health check, or the ASG will assume all sealed instances are unhealthy and
# repeatedly try to redeploy them.
health_check_type = "EC2"
# To make testing easier, we allow requests from any IP address here but in a production deployment, we *strongly*
# recommend you limit this to the IP address ranges of known, trusted servers inside your VPC.
allowed_ssh_cidr_blocks = ["0.0.0.0/0"]
allowed_inbound_cidr_blocks = ["0.0.0.0/0"]
allowed_inbound_security_group_ids = []
allowed_inbound_security_group_count = 0
ssh_key_name = var.ssh_key_name
}
# ---------------------------------------------------------------------------------------------------------------------
# ATTACH IAM POLICIES FOR CONSUL
# To allow our Vault servers to automatically discover the Consul servers, we need to give them the IAM permissions from
# the Consul AWS Module's consul-iam-policies module.
# ---------------------------------------------------------------------------------------------------------------------
module "consul_iam_policies_servers" {
source = "github.com/hashicorp/terraform-aws-consul.git//modules/consul-iam-policies?ref=v0.8.0"
iam_role_id = module.vault_cluster.iam_role_id
}
# ---------------------------------------------------------------------------------------------------------------------
# THE USER DATA SCRIPT THAT WILL RUN ON EACH VAULT SERVER WHEN IT'S BOOTING
# This script will configure and start Vault
# ---------------------------------------------------------------------------------------------------------------------
data "template_file" "user_data_vault_cluster" {
template = file("${path.module}/examples/root-example/user-data-vault.sh")
vars = {
aws_region = data.aws_region.current.name
consul_cluster_tag_key = var.consul_cluster_tag_key
consul_cluster_tag_value = var.consul_cluster_name
}
}
# ---------------------------------------------------------------------------------------------------------------------
# PERMIT CONSUL SPECIFIC TRAFFIC IN VAULT CLUSTER
# To allow our Vault servers consul agents to communicate with other consul agents and participate in the LAN gossip,
# we open up the consul specific protocols and ports for consul traffic
# ---------------------------------------------------------------------------------------------------------------------
module "security_group_rules" {
source = "github.com/hashicorp/terraform-aws-consul.git//modules/consul-client-security-group-rules?ref=v0.8.0"
security_group_id = module.vault_cluster.security_group_id
# To make testing easier, we allow requests from any IP address here but in a production deployment, we *strongly*
# recommend you limit this to the IP address ranges of known, trusted servers inside your VPC.
allowed_inbound_cidr_blocks = ["0.0.0.0/0"]
}
# ---------------------------------------------------------------------------------------------------------------------
# DEPLOY THE ELB
# ---------------------------------------------------------------------------------------------------------------------
module "vault_elb" {
# When using these modules in your own templates, you will need to use a Git URL with a ref attribute that pins you
# to a specific version of the modules, such as the following example:
# source = "github.com/hashicorp/terraform-aws-vault//modules/vault-elb?ref=v0.0.1"
source = "./modules/vault-elb"
name = var.vault_cluster_name
vpc_id = data.aws_vpc.default.id
subnet_ids = data.aws_subnet_ids.default.ids
# Associate the ELB with the instances created by the Vault Autoscaling group
vault_asg_name = module.vault_cluster.asg_name
# To make testing easier, we allow requests from any IP address here but in a production deployment, we *strongly*
# recommend you limit this to the IP address ranges of known, trusted servers inside your VPC.
allowed_inbound_cidr_blocks = ["0.0.0.0/0"]
# In order to access Vault over HTTPS, we need a domain name that matches the TLS cert
create_dns_entry = var.create_dns_entry
# Terraform conditionals are not short-circuiting, so we use join as a workaround to avoid errors when the
# aws_route53_zone data source isn't actually set: https://github.com/hashicorp/hil/issues/50
hosted_zone_id = var.create_dns_entry ? join("", data.aws_route53_zone.selected.*.zone_id) : ""
domain_name = var.vault_domain_name
}
# Look up the Route 53 Hosted Zone by domain name
data "aws_route53_zone" "selected" {
count = var.create_dns_entry ? 1 : 0
name = "${var.hosted_zone_domain_name}."
}
# ---------------------------------------------------------------------------------------------------------------------
# DEPLOY THE CONSUL SERVER CLUSTER
# ---------------------------------------------------------------------------------------------------------------------
module "consul_cluster" {
source = "github.com/hashicorp/terraform-aws-consul.git//modules/consul-cluster?ref=v0.8.0"
cluster_name = var.consul_cluster_name
cluster_size = var.consul_cluster_size
instance_type = var.consul_instance_type
# The EC2 Instances will use these tags to automatically discover each other and form a cluster
cluster_tag_key = var.consul_cluster_tag_key
cluster_tag_value = var.consul_cluster_name
ami_id = var.ami_id == null ? data.aws_ami.vault_consul.image_id : var.ami_id
user_data = data.template_file.user_data_consul.rendered
vpc_id = data.aws_vpc.default.id
subnet_ids = data.aws_subnet_ids.default.ids
# To make testing easier, we allow Consul and SSH requests from any IP address here but in a production
# deployment, we strongly recommend you limit this to the IP address ranges of known, trusted servers inside your VPC.
allowed_ssh_cidr_blocks = ["0.0.0.0/0"]
allowed_inbound_cidr_blocks = ["0.0.0.0/0"]
ssh_key_name = var.ssh_key_name
}
# ---------------------------------------------------------------------------------------------------------------------
# THE USER DATA SCRIPT THAT WILL RUN ON EACH CONSUL SERVER WHEN IT'S BOOTING
# This script will configure and start Consul
# ---------------------------------------------------------------------------------------------------------------------
data "template_file" "user_data_consul" {
template = file("${path.module}/examples/root-example/user-data-consul.sh")
vars = {
consul_cluster_tag_key = var.consul_cluster_tag_key
consul_cluster_tag_value = var.consul_cluster_name
}
}
# ---------------------------------------------------------------------------------------------------------------------
# DEPLOY THE CLUSTERS IN THE DEFAULT VPC AND AVAILABILITY ZONES
# Using the default VPC and subnets makes this example easy to run and test, but it means Consul and Vault are
# accessible from the public Internet. In a production deployment, we strongly recommend deploying into a custom VPC
# and private subnets. Only the ELB should run in the public subnets.
# ---------------------------------------------------------------------------------------------------------------------
data "aws_vpc" "default" {
default = var.use_default_vpc
tags = var.vpc_tags
}
data "aws_subnet_ids" "default" {
vpc_id = data.aws_vpc.default.id
tags = var.subnet_tags
}
data "aws_region" "current" {
}