Lab Information
The Nautilus DevOps team is setting up monitoring in their AWS account. As part of this, they need to create a CloudWatch alarm.
Using Terraform, perform the following:
Task Details:
Create a CloudWatch alarm named xfusion-alarm.
The alarm should monitor CPU utilization of an EC2 instance.
Trigger the alarm when CPU utilization exceeds 80%.
Set the evaluation period to 5 minutes.
Use a single evaluation period.
Ensure that the entire configuration is implemented using Terraform. The Terraform working directory is /home/bob/terraform. Create the main.tf file (do not create a different .tf file) to accomplish this task.
Note: Right-click under the EXPLORER section in VS Code and select Open in Integrated Terminal to launch the terminal.
Lab Solutions
Step 1: Create Main Terraform Configuration
Create the main.tf file with the complete solution:
# main.tf
# Create EC2 instance for monitoring
resource "aws_instance" "datacenter_ec2" {
ami = "ami-0c101f26f147fa7fd" # Using the Amazon Linux AMI from previous tasks
instance_type = "t2.micro"
tags = {
Name = "datacenter-ec2"
}
}
# Create CloudWatch alarm for CPU monitoring
resource "aws_cloudwatch_metric_alarm" "xfusion_alarm" {
alarm_name = "xfusion-alarm"
comparison_operator = "GreaterThanThreshold"
evaluation_periods = 1
metric_name = "CPUUtilization"
namespace = "AWS/EC2"
period = 300
statistic = "Average"
threshold = 80
alarm_description = "Alarm when CPU utilization exceeds 80%"
dimensions = {
InstanceId = aws_instance.datacenter_ec2.id
}
}
Step2: To deploy this configuration
Navigate to the Terraform directory:
cd /home/bob/terraform
Initialize Terraform:
terraform init
Output
bob@iac-server ~/terraform via π default β terraform init
Initializing the backend...
Initializing provider plugins...
- Finding hashicorp/aws versions matching "5.91.0"...
- Installing hashicorp/aws v5.91.0...
- Installed hashicorp/aws v5.91.0 (signed by HashiCorp)
Terraform has created a lock file .terraform.lock.hcl to record the provider
selections it made above. Include this file in your version control repository
so that Terraform can guarantee to make the same selections by default when
you run "terraform init" in the future.
Terraform has been successfully initialized!
You may now begin working with Terraform. Try running "terraform plan" to see
any changes that are required for your infrastructure. All Terraform commands
should now work.
If you ever set or change modules or backend configuration for Terraform,
rerun this command to reinitialize your working directory. If you forget, other
commands will detect it and remind you to do so if necessary.
Plan the deployment to verify the configuration:
terraform plan
Output
bob@iac-server ~/terraform via π default β terraform plan
Terraform used the selected providers to generate the following execution plan. Resource
actions are indicated with the following symbols:
+ create
Terraform will perform the following actions:
# aws_cloudwatch_metric_alarm.xfusion_alarm will be created
+ resource "aws_cloudwatch_metric_alarm" "xfusion_alarm" {
+ actions_enabled = true
+ alarm_description = "Alarm when CPU utilization exceeds 80%"
+ alarm_name = "xfusion-alarm"
+ arn = (known after apply)
+ comparison_operator = "GreaterThanThreshold"
+ dimensions = (known after apply)
+ evaluate_low_sample_count_percentiles = (known after apply)
+ evaluation_periods = 1
+ id = (known after apply)
+ metric_name = "CPUUtilization"
+ namespace = "AWS/EC2"
+ period = 300
+ statistic = "Average"
+ tags_all = (known after apply)
+ threshold = 80
+ treat_missing_data = "missing"
}
# aws_instance.datacenter_ec2 will be created
+ resource "aws_instance" "datacenter_ec2" {
+ ami = "ami-0c101f26f147fa7fd"
+ arn = (known after apply)
+ associate_public_ip_address = (known after apply)
+ availability_zone = (known after apply)
+ cpu_core_count = (known after apply)
+ cpu_threads_per_core = (known after apply)
+ disable_api_stop = (known after apply)
+ disable_api_termination = (known after apply)
+ ebs_optimized = (known after apply)
+ enable_primary_ipv6 = (known after apply)
+ get_password_data = false
+ host_id = (known after apply)
+ host_resource_group_arn = (known after apply)
+ iam_instance_profile = (known after apply)
+ id = (known after apply)
+ instance_initiated_shutdown_behavior = (known after apply)
+ instance_lifecycle = (known after apply)
+ instance_state = (known after apply)
+ instance_type = "t2.micro"
+ ipv6_address_count = (known after apply)
+ ipv6_addresses = (known after apply)
+ key_name = (known after apply)
+ monitoring = (known after apply)
+ outpost_arn = (known after apply)
+ password_data = (known after apply)
+ placement_group = (known after apply)
+ placement_partition_number = (known after apply)
+ primary_network_interface_id = (known after apply)
+ private_dns = (known after apply)
+ private_ip = (known after apply)
+ public_dns = (known after apply)
+ public_ip = (known after apply)
+ secondary_private_ips = (known after apply)
+ security_groups = (known after apply)
+ source_dest_check = true
+ spot_instance_request_id = (known after apply)
+ subnet_id = (known after apply)
+ tags = {
+ "Name" = "datacenter-ec2"
}
+ tags_all = {
+ "Name" = "datacenter-ec2"
}
+ tenancy = (known after apply)
+ user_data = (known after apply)
+ user_data_base64 = (known after apply)
+ user_data_replace_on_change = false
+ vpc_security_group_ids = (known after apply)
+ capacity_reservation_specification (known after apply)
+ cpu_options (known after apply)
+ ebs_block_device (known after apply)
+ enclave_options (known after apply)
+ ephemeral_block_device (known after apply)
+ instance_market_options (known after apply)
+ maintenance_options (known after apply)
+ metadata_options (known after apply)
+ network_interface (known after apply)
+ private_dns_name_options (known after apply)
+ root_block_device (known after apply)
}
Plan: 2 to add, 0 to change, 0 to destroy.
βββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββββ
Note: You didn't use the -out option to save this plan, so Terraform can't guarantee to
take exactly these actions if you run "terraform apply" now.
Apply the configuration:
terraform apply
Then type yes when prompted to confirm the creation of the snapshot.
Output
bob@iac-server ~/terraform via π default β terraform apply
Terraform used the selected providers to generate the following execution plan. Resource
actions are indicated with the following symbols:
+ create
Terraform will perform the following actions:
# aws_cloudwatch_metric_alarm.xfusion_alarm will be created
+ resource "aws_cloudwatch_metric_alarm" "xfusion_alarm" {
+ actions_enabled = true
+ alarm_description = "Alarm when CPU utilization exceeds 80%"
+ alarm_name = "xfusion-alarm"
+ arn = (known after apply)
+ comparison_operator = "GreaterThanThreshold"
+ dimensions = (known after apply)
+ evaluate_low_sample_count_percentiles = (known after apply)
+ evaluation_periods = 1
+ id = (known after apply)
+ metric_name = "CPUUtilization"
+ namespace = "AWS/EC2"
+ period = 300
+ statistic = "Average"
+ tags_all = (known after apply)
+ threshold = 80
+ treat_missing_data = "missing"
}
# aws_instance.datacenter_ec2 will be created
+ resource "aws_instance" "datacenter_ec2" {
+ ami = "ami-0c101f26f147fa7fd"
+ arn = (known after apply)
+ associate_public_ip_address = (known after apply)
+ availability_zone = (known after apply)
+ cpu_core_count = (known after apply)
+ cpu_threads_per_core = (known after apply)
+ disable_api_stop = (known after apply)
+ disable_api_termination = (known after apply)
+ ebs_optimized = (known after apply)
+ enable_primary_ipv6 = (known after apply)
+ get_password_data = false
+ host_id = (known after apply)
+ host_resource_group_arn = (known after apply)
+ iam_instance_profile = (known after apply)
+ id = (known after apply)
+ instance_initiated_shutdown_behavior = (known after apply)
+ instance_lifecycle = (known after apply)
+ instance_state = (known after apply)
+ instance_type = "t2.micro"
+ ipv6_address_count = (known after apply)
+ ipv6_addresses = (known after apply)
+ key_name = (known after apply)
+ monitoring = (known after apply)
+ outpost_arn = (known after apply)
+ password_data = (known after apply)
+ placement_group = (known after apply)
+ placement_partition_number = (known after apply)
+ primary_network_interface_id = (known after apply)
+ private_dns = (known after apply)
+ private_ip = (known after apply)
+ public_dns = (known after apply)
+ public_ip = (known after apply)
+ secondary_private_ips = (known after apply)
+ security_groups = (known after apply)
+ source_dest_check = true
+ spot_instance_request_id = (known after apply)
+ subnet_id = (known after apply)
+ tags = {
+ "Name" = "datacenter-ec2"
}
+ tags_all = {
+ "Name" = "datacenter-ec2"
}
+ tenancy = (known after apply)
+ user_data = (known after apply)
+ user_data_base64 = (known after apply)
+ user_data_replace_on_change = false
+ vpc_security_group_ids = (known after apply)
+ capacity_reservation_specification (known after apply)
+ cpu_options (known after apply)
+ ebs_block_device (known after apply)
+ enclave_options (known after apply)
+ ephemeral_block_device (known after apply)
+ instance_market_options (known after apply)
+ maintenance_options (known after apply)
+ metadata_options (known after apply)
+ network_interface (known after apply)
+ private_dns_name_options (known after apply)
+ root_block_device (known after apply)
}
Plan: 2 to add, 0 to change, 0 to destroy.
Do you want to perform these actions?
Terraform will perform the actions described above.
Only 'yes' will be accepted to approve.
Enter a value: yes
aws_instance.datacenter_ec2: Creating...
aws_instance.datacenter_ec2: Still creating... [10s elapsed]
aws_instance.datacenter_ec2: Creation complete after 15s [id=i-1f01b638ff3b52921]
aws_cloudwatch_metric_alarm.xfusion_alarm: Creating...
aws_cloudwatch_metric_alarm.xfusion_alarm: Creation complete after 0s [id=xfusion-alarm]
Apply complete! Resources: 2 added, 0 changed, 0 destroyed.
Top comments (0)